[SCM] Gerris Flow Solver branch, upstream, updated. e8f73a07832050124d2b8bf6c6f35b33180e65a8

Drew Parsons dparsons at debian.org
Tue Nov 24 12:25:32 UTC 2009


The following commit has been merged in the upstream branch:
commit f6c4e215552441196b3a20fe2e038eef9da02da3
Author: Drew Parsons <dparsons at debian.org>
Date:   Tue Nov 24 22:06:42 2009 +1100

    Clean out ready for syncing with upstream tarball.
    
    No doubt this is a dumb idea.

diff --git a/AUTHORS b/AUTHORS
deleted file mode 100644
index c435447..0000000
--- a/AUTHORS
+++ /dev/null
@@ -1,15 +0,0 @@
-Original Authors
-----------------
-Stéphane Popinet   <popinet at users.sf.net>
-Sébastien Delaux   <s.delaux at niwa.co.nz> : Moving solid boundaries
-
-Contributors
-------------
-Marcelo E. Magallon, Ruben Molina, Drew Parsons: Debian packages
-Ruben Scardovelli: - author of the Fortran version of gfs_plane_alpha()
-      		   - Mixed Youngs-Centered VOF normal calculation
-Ivan Adam Vari: RPM packages.
-Daniel Fuster: gfsjoin script
-Rohallah Tavakoli: initial implementation of VTK and Tecplot output
-Norbert Beckmann: R*-tree implementation used in the terrain module
-Thierry Letellier, Laurent Roblou: FES2004 tidal atlas library
diff --git a/ISSUES b/ISSUES
deleted file mode 100644
index e2a360f..0000000
--- a/ISSUES
+++ /dev/null
@@ -1,14 +0,0 @@
-- Stalled convergence for point Jacobi relaxation ? (martin's thesis).
-
-- Boundary conditions when interpolating velocities using interpolate_2D1() in neighbor_value() in fl_center_gradient() ?
-
-- Solid interface must be all at the same level of refinement (because of the mixed cell refinement criterium: topology.fig).
-
-- Only FTT_FINE_FINE faces at domain boundaries.
-
-- What happens if a "small cell" is right next to the domain boundary ? (fixed)
-
-- What happens if a "box->root" gets destroyed by a "solid" operation? 
-  (i.e. it is entirely inside the solid) (assertion has been added).
-
-- Tag values calculations for messages could be improved.
diff --git a/Makefile.am b/Makefile.am
deleted file mode 100644
index dac7ce1..0000000
--- a/Makefile.am
+++ /dev/null
@@ -1,46 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-ACLOCAL_AMFLAGS = -I m4
-
-# changed this to your dput command
-DPUT = socksify dput
-
-# change this to your launchpad PPA
-# configured in ~/.dput.cf
-PPA = gerris-ppa
-
-# change this to the ID of the PPA GPG key
-KEY = 07AB22DC
-
-# change this to the html changelog for this launchpad release
-LOG = /var/www/gerris/version/gerris_changes
-
-SUBDIRS = modules src tools test doc desktop debian
-
-EXTRA_DIST = ChangeLog m4
-
-if DARCS_CONTROLLED
-DARCS_CHANGELOG = changelog
-else
-DARCS_CHANGELOG = 
-endif
-
-ChangeLog: $(DARCS_CHANGELOG)
-
-changelog:
-	darcs changes | grep -v Ignore-this: > ChangeLog
-
-debian-snapshot: $(DARCS_CHANGELOG) config.h src/version.h
-	sh debian/changelog.sh
-	dpkg-buildpackage -rfakeroot -b
-	rm -f debian/repo/*
-	mv -f ../*.changes ../*.deb debian/repo
-	cd debian/repo && dpkg-scanpackages . /dev/null | gzip -9c > Packages.gz
-
-launchpad-snapshot: $(DARCS_CHANGELOG) config.h src/version.h dist
-	tar xzf gerris-?.?.?.tar.gz
-	cd gerris-?.?.? && ./configure && sh debian/changelog.sh $(LOG) && dpkg-buildpackage -rfakeroot -k$(KEY) -S -sa
-	rm -f gerris-?.?.?.tar.gz
-	rm -r -f gerris-?.?.?
-	$(DPUT) $(PPA) gerris-snapshot_*_source.changes
-	rm -f gerris-snapshot_*
diff --git a/NEWS b/NEWS
deleted file mode 100644
index a99e3fd..0000000
--- a/NEWS
+++ /dev/null
@@ -1,284 +0,0 @@
-03/04/2006: Release 0.9.2
-
-The most significant improvements in this release are:
-
-- Important bug fixes and improvements for the multilevel Poisson
-  solver can reduce the overall computational cost by a factor of five
-  or more depending on the problem.
-- Variable mesh resolution along solid boundaries is now allowed and
-  has been well tested (note however that time-adaptive variable
-  resolution is not allowed on solid boundaries yet).
-- The robustness of the solution procedure has been much improved in
-  the case of very complex solid boundaries.
-
-Other improvements include:
-
-- Debian package snapshots.
-- Adaptive refinement of VOF-advected tracers.
-- Preliminary implementation of CSF surface tension using Renardy et
-  al. "proper discretisation".
-- Solid boundaries can be refined according to the local curvature.
-- Implicit Coriolis terms work with the Navier-Stokes solver.
-- Support for "thin" 3D domains.
-
-Bug fixes:
-
-- Several bug fixes for special cases of solid boundaries.
-- Bug fixes for "GfsAdapt" events.
-
-17/10/2005: Release 0.8.0
-
-Quite a lot of important new features and bug fixes in this release. I
-will just give a summary below, the ChangeLog has all the details.
-
-- Variable density Navier-Stokes is back (but still needs more
-testing). Have a look at the new Rayleigh-Taylor example.
-
-- Solid fractions of embedded boundaries are computed using a new
-algorithm. This algorithm does not attempt to compute exact volume
-fractions (as was done before using the boolean operations of GTS) but
-is at least second-order accurate (which is enough). Consequently it
-is much faster (approx. 20 times) and also much more robust. It can
-tolerate some degeneracy in surfaces, as well as non-closed surfaces
-(with cracks etc...).
-
-- Embedded boundaries can now have a variable resolution, but this
-needs more testing. They cannot be adaptively refined yet, however.
-
-- The linearised shallow-water 2D ocean model has been tested for
-prediction of tides around New Zealand (see the paper by Rym Msadek
-in the bibliography section).
-
-- Volume-of-fluid Continuum-Surface-Stresses (CSS) formulation and
-associated tests (spurious currents, capillary waves...). Only 2D for now.
-
-- GfsFunction can use model variables (have a look at the Boussinesq
-example). Complex source terms can be defined directly in the
-parameter file.
-
-- The dynamic allocation of variables has been restructured. There is
-no "pre-allocated" or static variables anymore. Everything is
-dynamic. Temporary variables are also dynamically allocated and
-freed. This eliminates implicit dependencies between different
-routines relying on the same temporary variables. Not surprisingly,
-several bugs were uncovered when this was implemented (i.e. "routines
-stepping on each others toes").
-
-- After a full review, the Poisson solver has been improved
-slightly. Some pathological now converge (see the thin-wall test
-case).
-
-- Support for variable viscosity in the diffusion solver can be used
-to solve for non-Newtonian fluids (including LES turbulence viscosity
-models). This works even for very stiff material laws (e.g. Bingham
-fluids).
-
-- The diffusion solver can be tuned from semi-implicit to fully
-implicit. This is useful for Stokes flows and/or non-Newtonian fluids.
-
-- Switched to darcs for version control (after a short period of
-trying to use arch). Darcs is very nice.
-
-- An automated test suite is ran automatically every night (if the
-code changes).
-
-- Examples and associated Latex and HTML documentation can be
-generated easily. Several examples are included on the web
-site. Contributed examples from users should be easy (see the last
-section of the examples page for details).
-
-- A FAQ has been added. Feel free to send corrections and additions.
-
-- Snapshots are generated only if the test suite passes.
-
-Minor changes and improvements:
-
-- OutputSimulation uses binary format by default.
-
-- GfsFunction can use C statements (instead of full functions).
-
-- New objects to compute online histograms (OutputScalarHistogram) and
-perform harmonic analysis (EventHarmonic).
-
-- Several MacOSX specific fixes.
-
-20/10/2004: Release 0.6.0
-
-First the good news:
-
-Diffusion equations with complex boundary conditions can now be solved
-in 3D!
-
-Now the bad news:
-
-Variable density support is broken in this version (use 0.3.0 if you
-need it). The reason is that this part of the code needs to be
-reviewed/generalised to make sure it does the right thing.
-
-The main changes/improvements in this version are:
-
-- Support for diffusion equations in 3D complex geometries
-- Flexible boundary conditions on embedded solid surfaces for
-  diffusion equation in parameter files (see the tutorial)
-- Updated tutorial and reference manual
-- An initial implementation of a shallow-water 2D and 3D hydrostatic
-  ocean model with semi-implicit Coriolis source terms and barotropic
-  equation (multigrid for Helmoltz equation)
-- Support for different types of simulations (ocean and incompressible
-  Euler/NS for the moment)
-- Support for multiple tracers
-- Much improved interpolation of variables
-- New consistent pressure correction formulation (which works with
-  momentum source terms near boundaries)
-- MPI configuration reworked (uses mpicc): tested with mpich and
-  lam-mpi
-- Bounding boxes for PPM output: allows to select a limited area for
-  PPM output
-- Optional binary file format (4 to 5 times faster file read)
-
-Minor bug corrections and improvements:
-
-- pkgconfig support
-- MacOSX support
-- Bug fix for 64 bits machines
-- Relaxed constraints on refinement (still needs work)
-- External library links in GfsFunction
-- Short keyword support
-- Lambda2 criterion of Jeong and Hussain (for vortex detection)
-- etc...
-
-20/05/2004: Release 0.3.0
-
-Quite a lot has happened since 0.2.0. The main changes/improvements are:
-
-- On systems supporting dynamic linking, functions of space and time
-can be used instead of constants for most objects which require a
-numerical argument. This is particularly useful for initialisation
-(each field can be set using functions of space and time) where almost
-any mathematical description of the initial conditions can be written
-directly in the parameter file (no need to create a custom module
-etc...). The same mechanism can also be used to define the initial
-refinement of the grid (i.e. specify the mesh density as a
-mathematical function directly in the parameter file) or variable
-source terms.
-
-- The boundary condition subsystem has been entirely revamped. It is
-now possible to define complex boundary conditions by combining
-independent boundary conditions (Dirichlet, Neumann etc...) for each
-variable. Dynamic functions can be used within this framework which
-allows for variable in space (e.g. profiles) and in time boundary
-conditions.
-
-- The code now includes a multigrid semi-implicit diffusion solver. It
-can work together with embedded solid boundaries in 2D but not yet in
-3D. It is possible to accurately specify the boundary conditions
-(Dirichlet or Neumann) for the diffused variable on the solid
-boundaries. All this allows for the solution of advection-diffusion
-equations such as incompressible Navier-Stokes. Due to the stability
-of the semi-implicit scheme it is also possible to solve pure Stokes
-flows with no restriction on the time step.
-
-- The adaptive engine has been rewritten. It is now possible to
-control the maximum size of the simulation. When this maximum size is
-reached, the algorithm will optimally distribute this maximum number
-of cells so that the adaptive criterion is minimized.
-
-- Note that the parameter file arguments of several objects have
-changed (GfsAdapt in particular), so that full parameter file
-compatibility with 0.2.0 is not guaranteed.
-
-- Volume of Fluid or standard Godunov advection schemes can now be
-selected in parameter files.
-
-- New object outputs the pressure and viscous forces exerted on the
-embedded solid boundary.
-
-- The pressure is now properly scaled.
-
-- Plus a large number of bug fixes, small improvements etc...
-
-Have a look at the ChangeLog for details.
-
-08/01/2003: Release 0.2.0
-
-This new release of Gerris includes a number of new features as well
-as some major code restructuring. 
-
-The GTS library version 0.7.1 is required. It includes major
-improvements for boolean operations between surfaces which greatly
-improve the robustness of the treatment of solid boundaries within
-Gerris.
-
-The major changes are listed below. For a detailed summary see the
-ChangeLog.
-
-New features:
-
-- Support for the variable density incompressible Euler equations.
-
-- Support for user-defined source terms for any variable. Gaussian
-  tracer source terms and constant source terms (e.g. acceleration of
-  gravity in momentum equation) are provided.
-
-- Base domain does not have to be cubic anymore. Independent length
-  scales can be provided for each dimension.
-
-- Module for OpenDX allowing direct import of Gerris simulation files.
-
-- Updated documentation and tutorial: section about user-defined
-  extension modules for initial conditions.
-
-- Support for dynamic allocation of additional cell variables
-  i.e. extension modules can dynamically add additional variables if
-  needed.
-
-- Automatic compilation and installation of 2D and 3D versions. 
-
-- Preliminary implementation of a second-order Volume Of Fluid (VOF)
-  advection scheme.
-
-- A new GfsAdaptNotBox class can be used to specify parts of the
-  domain which do not need to be refined. This is particularly useful
-  for implementing absorbing outflow conditions.
-
-Improvements and restructuring:
-
-- Improved adaptive refinement algorithm.
-
-- Restructuring of the test suite.
-
-19/06/2002: Release 0.1.0
-
-Hi all,
-
-I am glad to announce the first "official" release of Gerris.
-
-It needs the latest version of GTS (0.6.0) to compile.
-
-A major change since last month is the addition of "dynamic adaptive
-mesh refinement" i.e. the distribution of cells changes according to
-what is happening to the solution. Have a look at the gallery on the
-web site for a graphical illustration.
-
-here:
-
-http://gfs.sourceforge.net/gallery.html
-
-and here (at the bottom of the page):
-
-http://gfs.sourceforge.net/tangaroa.html
-
-I also wrote a short tutorial which should help you get started with
-the code (available online and in the distribution in doc/tutorial).
-
-http://gfs.sourceforge.net/tutorial/tutorial1.html
-
-Any feedback is of course welcome,
-
-Enjoy,
-
-Stephane
-
-11/12/2001: Inital CVS checkin
-01/08/2001: Initial setup
- LocalWords:  GfsAdaptNotBox
diff --git a/README b/README
deleted file mode 100644
index 3267895..0000000
--- a/README
+++ /dev/null
@@ -1,27 +0,0 @@
-General Information
-===================
-
-Gerris also known as the GNU Flow Solver (GFS) aims to be a generic
-tool for the numerical simulation of fluid flows.
-
-The official web site is: http://gfs.sourceforge.net
-
-Copying
-=======
-
-Gerris is distributed under the terms of the General Public License which
-is compliant with the guidelines of the Open Source and Free Software
-Fundations. See the file COPYING for details.
-
-Installation
-============
-
-Unix users (including Windows users under Cygwin):
-
-./configure
-make
-make install
-
-See the file 'INSTALL' for generic configure instructions and the tutorial
-in doc/tutorial for an introduction on how Gerris works.
-
diff --git a/RELEASE b/RELEASE
deleted file mode 100644
index a275b11..0000000
--- a/RELEASE
+++ /dev/null
@@ -1,22 +0,0 @@
-- cvs update
-- make changelog
-- update NEWS
-- commit ChangeLog and NEWS
-- check version number in configure.in
-  * if changed:
-    - autoconf
-    - ./configure
-    - commit configure.in
-- make dist
-- cvs tag release_...
-- http://sourceforge.net/docman/display_doc.php?docid=6445&group_id=1#howtoupload
-- ftp://upload.sf.net/incoming/
-- runsocks ncftp upload.sf.net
-- https://sourceforge.net/project/admin/editpackages.php?group_id=35604
-- update ../www/macros.m4 `m4_gfs_version'
-         ../www/menu.html "Download Version m4_gfs_version"
-  update News section
-  make
-  make publish_local
-  make sync
-- mail gfs-users, gfs-devel, gfs-announce
diff --git a/THANKS b/THANKS
deleted file mode 100644
index f3f69bb..0000000
--- a/THANKS
+++ /dev/null
@@ -1,15 +0,0 @@
-Gerris would not have been as good :) without the contributions of the
-following people (in random order):
-
-Dan Kelley
-R Sai Kiran
-David Sterling
-Frank Griessbaum
-Ben Moat
-Vladimir Kolobov
-Philip Rubini
-Geordie McBain
-Ruhollah Tavakoli
-Wolfgang Betz
-Gaurav Tomar
-Daniel Fuster
diff --git a/TODO b/TODO
deleted file mode 100644
index 56cfe58..0000000
--- a/TODO
+++ /dev/null
@@ -1,45 +0,0 @@
-- Add corner flow test case.
-
-- The boundary conditions for the gradient of the pressure could be
-improved.
-
-Possible speed optimizations: 
-
-- packing of parallel communications (in the case of domain composed
-of several boxes).  
-
-- parallel match() uses doubles for cell layout description, guint
-would be more space efficient.
-
-- multiple calls to fl_domain_depth() are not needed => store maxlevel
-in FlDomain struct and update it only when necessary (i.e. when
-refining/coarsening etc...).
-
-Dodgy stuff:
-
-- Check that gfs_face_gradient() is used properly when not used for
-  poisson problem (i.e. advection) (particularly in 3D with the factor of 2).
-
-Future stuff:
-
-- Richardson extrapolation => being able to compute advection terms
-  one level above the leaf cells.
-
-- Adaptation given a constraint on maximum domain size (i.e. optimal
-  distribution of a finite number of cells) (done 09/2003)
-
-- Generalize relaxation: (done 11/2002)
-  * necessary for Crank-Nicholson
-  *    "      for variable density (done 11/2002)
-
-- GFS -> OpenDX file conversion (done 11/2002, DX module).
-
-- Optimize parallel code by overlapping communications and computations: 
-  This could be done relatively easily (in Poisson relaxation for
-  example) by first relaxing the cells close to the boundaries, start
-  the communications, relax the remaining bulk cells then synchronize
-  the communications.
-
-== for 2D3 ==
-
-check on "FTT_CELLS/2" and "ftt_cell_children_direction"
diff --git a/acinclude.m4 b/acinclude.m4
deleted file mode 100644
index 60beb3d..0000000
--- a/acinclude.m4
+++ /dev/null
@@ -1,402 +0,0 @@
-# Configure paths for GTS
-# Stéphane Popinet  2001-10-4
-#       adapted from
-# Configure paths for GLIB
-# Owen Taylor       97-11-3
-
-dnl AM_PATH_GTS([MINIMUM-VERSION, [ACTION-IF-FOUND [, ACTION-IF-NOT-FOUND ]]])
-dnl Test for GTS, and define GTS_CFLAGS and GTS_LIBS
-dnl
-AC_DEFUN([AM_PATH_GTS],
-[dnl 
-dnl Get the cflags and libraries from the gts-config script
-dnl
-AC_ARG_WITH(gts-prefix,[  --with-gts-prefix=PFX   Prefix where GTS is installed (optional)],
-            gts_config_prefix="$withval", gts_config_prefix="")
-AC_ARG_WITH(gts-exec-prefix,[  --with-gts-exec-prefix=PFX Exec prefix where GTS is installed (optional)],
-            gts_config_exec_prefix="$withval", gts_config_exec_prefix="")
-AC_ARG_ENABLE(gtstest, [  --disable-gtstest       Do not try to compile and run a test GTS program],
-		    , enable_gtstest=yes)
-
-  if test x$gts_config_exec_prefix != x ; then
-     gts_config_args="$gts_config_args --exec-prefix=$gts_config_exec_prefix"
-     if test x${GTS_CONFIG+set} != xset ; then
-        GTS_CONFIG=$gts_config_exec_prefix/bin/gts-config
-     fi
-  fi
-  if test x$gts_config_prefix != x ; then
-     gts_config_args="$gts_config_args --prefix=$gts_config_prefix"
-     if test x${GTS_CONFIG+set} != xset ; then
-        GTS_CONFIG=$gts_config_prefix/bin/gts-config
-     fi
-  fi
-
-  for module in . $4
-  do
-      case "$module" in
-         gmodule) 
-             gts_config_args="$gts_config_args gmodule"
-         ;;
-         gthread) 
-             gts_config_args="$gts_config_args gthread"
-         ;;
-      esac
-  done
-
-  AC_PATH_PROG(GTS_CONFIG, gts-config, no)
-  min_gts_version=ifelse([$1], ,0.4.2,$1)
-  AC_MSG_CHECKING(for GTS - version >= $min_gts_version)
-  no_gts=""
-  if test "$GTS_CONFIG" = "no" ; then
-    no_gts=yes
-  else
-    GTS_CFLAGS=`$GTS_CONFIG $gts_config_args --cflags`
-    GTS_LIBS=`$GTS_CONFIG $gts_config_args --libs`
-    gts_config_major_version=`$GTS_CONFIG $gts_config_args --version | \
-           sed 's/\([[0-9]]*\).\([[0-9]]*\).\([[0-9]]*\)/\1/'`
-    gts_config_minor_version=`$GTS_CONFIG $gts_config_args --version | \
-           sed 's/\([[0-9]]*\).\([[0-9]]*\).\([[0-9]]*\)/\2/'`
-    gts_config_micro_version=`$GTS_CONFIG $gts_config_args --version | \
-           sed 's/\([[0-9]]*\).\([[0-9]]*\).\([[0-9]]*\)/\3/'`
-    if test "x$enable_gtstest" = "xyes" ; then
-      ac_save_CFLAGS="$CFLAGS"
-      ac_save_LIBS="$LIBS"
-      CFLAGS="$CFLAGS $GTS_CFLAGS"
-      LIBS="$GTS_LIBS $LIBS"
-dnl
-dnl Now check if the installed GTS is sufficiently new. (Also sanity
-dnl checks the results of gts-config to some extent
-dnl
-      rm -f conf.gtstest
-      AC_TRY_RUN([
-#include <gts.h>
-#include <stdio.h>
-#include <stdlib.h>
-
-int 
-main ()
-{
-  int major, minor, micro;
-  char *tmp_version;
-
-  system ("touch conf.gtstest");
-
-  /* HP/UX 9 (%@#!) writes to sscanf strings */
-  tmp_version = g_strdup("$min_gts_version");
-  if (sscanf(tmp_version, "%d.%d.%d", &major, &minor, &micro) != 3) {
-     printf("%s, bad version string\n", "$min_gts_version");
-     exit(1);
-   }
-
-  if ((gts_major_version != $gts_config_major_version) ||
-      (gts_minor_version != $gts_config_minor_version) ||
-      (gts_micro_version != $gts_config_micro_version))
-    {
-      printf("\n*** 'gts-config --version' returned %d.%d.%d, but GTS (%d.%d.%d)\n", 
-             $gts_config_major_version, $gts_config_minor_version, $gts_config_micro_version,
-             gts_major_version, gts_minor_version, gts_micro_version);
-      printf ("*** was found! If gts-config was correct, then it is best\n");
-      printf ("*** to remove the old version of GTS. You may also be able to fix the error\n");
-      printf("*** by modifying your LD_LIBRARY_PATH enviroment variable, or by editing\n");
-      printf("*** /etc/ld.so.conf. Make sure you have run ldconfig if that is\n");
-      printf("*** required on your system.\n");
-      printf("*** If gts-config was wrong, set the environment variable GTS_CONFIG\n");
-      printf("*** to point to the correct copy of gts-config, and remove the file config.cache\n");
-      printf("*** before re-running configure\n");
-    } 
-  else if ((gts_major_version != GTS_MAJOR_VERSION) ||
-	   (gts_minor_version != GTS_MINOR_VERSION) ||
-           (gts_micro_version != GTS_MICRO_VERSION))
-    {
-      printf("*** GTS header files (version %d.%d.%d) do not match\n",
-	     GTS_MAJOR_VERSION, GTS_MINOR_VERSION, GTS_MICRO_VERSION);
-      printf("*** library (version %d.%d.%d)\n",
-	     gts_major_version, gts_minor_version, gts_micro_version);
-    }
-  else
-    {
-      if ((gts_major_version > major) ||
-        ((gts_major_version == major) && (gts_minor_version > minor)) ||
-        ((gts_major_version == major) && (gts_minor_version == minor) && (gts_micro_version >= micro)))
-      {
-        return 0;
-       }
-     else
-      {
-        printf("\n*** An old version of GTS (%d.%d.%d) was found.\n",
-               gts_major_version, gts_minor_version, gts_micro_version);
-        printf("*** You need a version of GTS newer than %d.%d.%d. The latest version of\n",
-	       major, minor, micro);
-        printf("*** GTS is always available from http://gts.sourceforge.net.\n");
-        printf("***\n");
-        printf("*** If you have already installed a sufficiently new version, this error\n");
-        printf("*** probably means that the wrong copy of the gts-config shell script is\n");
-        printf("*** being found. The easiest way to fix this is to remove the old version\n");
-        printf("*** of GTS, but you can also set the GTS_CONFIG environment to point to the\n");
-        printf("*** correct copy of gts-config. (In this case, you will have to\n");
-        printf("*** modify your LD_LIBRARY_PATH enviroment variable, or edit /etc/ld.so.conf\n");
-        printf("*** so that the correct libraries are found at run-time))\n");
-      }
-    }
-  return 1;
-}
-],, no_gts=yes,[echo $ac_n "cross compiling; assumed OK... $ac_c"])
-       CFLAGS="$ac_save_CFLAGS"
-       LIBS="$ac_save_LIBS"
-     fi
-  fi
-  if test "x$no_gts" = x ; then
-     AC_MSG_RESULT(yes)
-     ifelse([$2], , :, [$2])     
-  else
-     AC_MSG_RESULT(no)
-     if test "$GTS_CONFIG" = "no" ; then
-       echo "*** The gts-config script installed by GTS could not be found"
-       echo "*** If GTS was installed in PREFIX, make sure PREFIX/bin is in"
-       echo "*** your path, or set the GTS_CONFIG environment variable to the"
-       echo "*** full path to gts-config."
-     else
-       if test -f conf.gtstest ; then
-        :
-       else
-          echo "*** Could not run GTS test program, checking why..."
-          CFLAGS="$CFLAGS $GTS_CFLAGS"
-          LIBS="$LIBS $GTS_LIBS"
-          AC_TRY_LINK([
-#include <gts.h>
-#include <stdio.h>
-],      [ return ((gts_major_version) || (gts_minor_version) || (gts_micro_version)); ],
-        [ echo "*** The test program compiled, but did not run. This usually means"
-          echo "*** that the run-time linker is not finding GTS or finding the wrong"
-          echo "*** version of GTS. If it is not finding GTS, you'll need to set your"
-          echo "*** LD_LIBRARY_PATH environment variable, or edit /etc/ld.so.conf to point"
-          echo "*** to the installed location  Also, make sure you have run ldconfig if that"
-          echo "*** is required on your system"
-	  echo "***"
-          echo "*** If you have an old version installed, it is best to remove it, although"
-          echo "*** you may also be able to get things to work by modifying LD_LIBRARY_PATH"
-          echo "***"],
-        [ echo "*** The test program failed to compile or link. See the file config.log for the"
-          echo "*** exact error that occured. This usually means GTS was incorrectly installed"
-          echo "*** or that you have moved GTS since it was installed. In the latter case, you"
-          echo "*** may want to edit the gts-config script: $GTS_CONFIG" ])
-          CFLAGS="$ac_save_CFLAGS"
-          LIBS="$ac_save_LIBS"
-       fi
-     fi
-     GTS_CFLAGS=""
-     GTS_LIBS=""
-     ifelse([$3], , :, [$3])
-  fi
-  AC_SUBST(GTS_CFLAGS)
-  AC_SUBST(GTS_LIBS)
-  rm -f conf.gtstest
-])
-
-dnl  DX_INSTALL_PATH
-dnl  Tries to find the location where dx is installed if it
-dnl  can not then it defaults to /usr/local/dx
-dnl  --------------------------------------------------------
-AC_DEFUN([DX_INSTALL_PATH],
-[
-AC_CACHE_CHECK([for dx install path], ac_cv_dx_install_path,
-[
-AC_MSG_RESULT(locating)
-DX_DEFAULT_INST=/usr/local/dx
-AC_CHECK_PROGS( DX, dx )
-
-DX_PATH=""
-if test -n "$DX" ; then
-  AC_MSG_CHECKING([for path via "dx -whereami"])
-  DX_PATH=`$DX -whereami | grep "installed in" | sed -e "s/installed in //" -e "s'^\(.*\)\/$'\1'"`
-  if test -z "$DX_PATH" ; then
-        AC_MSG_RESULT([warning: old version of dx script in path])
-  elif test "x$ARCH" = "xintelnt" ; then
-	DX_PATH=`cygpath -w -s "$DX_PATH"`
-  fi
-fi
-
-if test -z "$DX_PATH" ; then
-  AC_MSG_CHECKING([for /usr/local/bin/dx])
-  if test -x "/usr/local/bin/dx" ; then
-     DX_PATH=`/usr/local/bin/dx -whereami | grep "installed in" | sed -e "s/installed in //"`
-  fi
-
-  if test -z "$DX_PATH" ; then
-        AC_MSG_WARN([Missing dx script--please install OpenDX first.])
-  elif test "x$ARCH" = "xintelnt" ; then
-	DX_PATH=`cygpath -w -s "$DX_PATH"`
-  fi
-fi
-ac_cv_dx_install_path=$DX_PATH
-])
-DX_PATH=$ac_cv_dx_install_path
-])
-# Configure path for the GNU Scientific Library
-# Christopher R. Gabriel <cgabriel at linux.it>, April 2000
-
-
-AC_DEFUN([AM_PATH_GSL],
-[
-AC_ARG_WITH(gsl-prefix,[  --with-gsl-prefix=PFX   Prefix where GSL is installed (optional)],
-            gsl_prefix="$withval", gsl_prefix="")
-AC_ARG_WITH(gsl-exec-prefix,[  --with-gsl-exec-prefix=PFX Exec prefix where GSL is installed (optional)],
-            gsl_exec_prefix="$withval", gsl_exec_prefix="")
-AC_ARG_ENABLE(gsltest, [  --disable-gsltest       Do not try to compile and run a test GSL program],
-		    , enable_gsltest=yes)
-
-  if test "x${GSL_CONFIG+set}" != xset ; then
-     if test "x$gsl_prefix" != x ; then
-         GSL_CONFIG="$gsl_prefix/bin/gsl-config"
-     fi
-     if test "x$gsl_exec_prefix" != x ; then
-        GSL_CONFIG="$gsl_exec_prefix/bin/gsl-config"
-     fi
-  fi
-
-  AC_PATH_PROG(GSL_CONFIG, gsl-config, no)
-  min_gsl_version=ifelse([$1], ,0.2.5,$1)
-  AC_MSG_CHECKING(for GSL - version >= $min_gsl_version)
-  no_gsl=""
-  if test "$GSL_CONFIG" = "no" ; then
-    no_gsl=yes
-  else
-    GSL_CFLAGS=`$GSL_CONFIG --cflags`
-    GSL_LIBS=`$GSL_CONFIG --libs`
-
-    gsl_major_version=`$GSL_CONFIG --version | \
-           sed 's/^\([[0-9]]*\).*/\1/'`
-    if test "x${gsl_major_version}" = "x" ; then
-       gsl_major_version=0
-    fi
-
-    gsl_minor_version=`$GSL_CONFIG --version | \
-           sed 's/^\([[0-9]]*\)\.\{0,1\}\([[0-9]]*\).*/\2/'`
-    if test "x${gsl_minor_version}" = "x" ; then
-       gsl_minor_version=0
-    fi
-
-    gsl_micro_version=`$GSL_CONFIG --version | \
-           sed 's/^\([[0-9]]*\)\.\{0,1\}\([[0-9]]*\)\.\{0,1\}\([[0-9]]*\).*/\3/'`
-    if test "x${gsl_micro_version}" = "x" ; then
-       gsl_micro_version=0
-    fi
-
-    if test "x$enable_gsltest" = "xyes" ; then
-      ac_save_CFLAGS="$CFLAGS"
-      ac_save_LIBS="$LIBS"
-      CFLAGS="$CFLAGS $GSL_CFLAGS"
-      LIBS="$LIBS $GSL_LIBS"
-
-      rm -f conf.gsltest
-      AC_TRY_RUN([
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-
-char* my_strdup (const char *str);
-
-char*
-my_strdup (const char *str)
-{
-  char *new_str;
-  
-  if (str)
-    {
-      new_str = (char *)malloc ((strlen (str) + 1) * sizeof(char));
-      strcpy (new_str, str);
-    }
-  else
-    new_str = NULL;
-  
-  return new_str;
-}
-
-int main (void)
-{
-  int major = 0, minor = 0, micro = 0;
-  int n;
-  char *tmp_version;
-
-  system ("touch conf.gsltest");
-
-  /* HP/UX 9 (%@#!) writes to sscanf strings */
-  tmp_version = my_strdup("$min_gsl_version");
-
-  n = sscanf(tmp_version, "%d.%d.%d", &major, &minor, &micro) ;
-
-  if (n != 2 && n != 3) {
-     printf("%s, bad version string\n", "$min_gsl_version");
-     exit(1);
-   }
-
-   if (($gsl_major_version > major) ||
-      (($gsl_major_version == major) && ($gsl_minor_version > minor)) ||
-      (($gsl_major_version == major) && ($gsl_minor_version == minor) && ($gsl_micro_version >= micro)))
-    {
-      exit(0);
-    }
-  else
-    {
-      printf("\n*** 'gsl-config --version' returned %d.%d.%d, but the minimum version\n", $gsl_major_version, $gsl_minor_version, $gsl_micro_version);
-      printf("*** of GSL required is %d.%d.%d. If gsl-config is correct, then it is\n", major, minor, micro);
-      printf("*** best to upgrade to the required version.\n");
-      printf("*** If gsl-config was wrong, set the environment variable GSL_CONFIG\n");
-      printf("*** to point to the correct copy of gsl-config, and remove the file\n");
-      printf("*** config.cache before re-running configure\n");
-      exit(1);
-    }
-}
-
-],, no_gsl=yes,[echo $ac_n "cross compiling; assumed OK... $ac_c"])
-       CFLAGS="$ac_save_CFLAGS"
-       LIBS="$ac_save_LIBS"
-     fi
-  fi
-  if test "x$no_gsl" = x ; then
-     AC_MSG_RESULT(yes)
-     ifelse([$2], , :, [$2])     
-  else
-     AC_MSG_RESULT(no)
-     if test "$GSL_CONFIG" = "no" ; then
-       echo "*** The gsl-config script installed by GSL could not be found"
-       echo "*** If GSL was installed in PREFIX, make sure PREFIX/bin is in"
-       echo "*** your path, or set the GSL_CONFIG environment variable to the"
-       echo "*** full path to gsl-config."
-     else
-       if test -f conf.gsltest ; then
-        :
-       else
-          echo "*** Could not run GSL test program, checking why..."
-          CFLAGS="$CFLAGS $GSL_CFLAGS"
-          LIBS="$LIBS $GSL_LIBS"
-          AC_TRY_LINK([
-#include <stdio.h>
-],      [ return 0; ],
-        [ echo "*** The test program compiled, but did not run. This usually means"
-          echo "*** that the run-time linker is not finding GSL or finding the wrong"
-          echo "*** version of GSL. If it is not finding GSL, you'll need to set your"
-          echo "*** LD_LIBRARY_PATH environment variable, or edit /etc/ld.so.conf to point"
-          echo "*** to the installed location  Also, make sure you have run ldconfig if that"
-          echo "*** is required on your system"
-	  echo "***"
-          echo "*** If you have an old version installed, it is best to remove it, although"
-          echo "*** you may also be able to get things to work by modifying LD_LIBRARY_PATH"],
-        [ echo "*** The test program failed to compile or link. See the file config.log for the"
-          echo "*** exact error that occured. This usually means GSL was incorrectly installed"
-          echo "*** or that you have moved GSL since it was installed. In the latter case, you"
-          echo "*** may want to edit the gsl-config script: $GSL_CONFIG" ])
-          CFLAGS="$ac_save_CFLAGS"
-          LIBS="$ac_save_LIBS"
-       fi
-     fi
-#     GSL_CFLAGS=""
-#     GSL_LIBS=""
-     ifelse([$3], , :, [$3])
-  fi
-  AC_SUBST(GSL_CFLAGS)
-  AC_SUBST(GSL_LIBS)
-  rm -f conf.gsltest
-])
-
-
diff --git a/autogen.sh b/autogen.sh
deleted file mode 100755
index 7dd7435..0000000
--- a/autogen.sh
+++ /dev/null
@@ -1,183 +0,0 @@
-#!/bin/sh
-# Run this to generate all the initial makefiles, etc.
-
-# a fix for older automake/autoconf versions
-if test -e m4; then :
-else
-    mkdir m4
-fi
-
-srcdir=`dirname $0`
-test -z "$srcdir" && srcdir=.
-
-DIE=0
-
-# a fix for Mac OS X (Darwin)
-
-system=`uname -s`
-libtoolize=libtoolize
-libtool=libtool
-case $system in
-    Darwin)
-	libtoolize=glibtoolize
-	libtool=glibtool
-    ;;
-esac
-
-# On Mac OS fink is often used and installs stuff in /sw, so we search there
-if [ -d "/sw" ]; then
-	ACLOCAL_FLAGS="-I /sw/share/aclocal $ACLOCAL_FLAGS"
-fi
-# end of Mac OS X (Darwin) fix
-
-if [ -n "$GNOME2_DIR" ]; then
-	ACLOCAL_FLAGS="-I $GNOME2_DIR/share/aclocal $ACLOCAL_FLAGS"
-	LD_LIBRARY_PATH="$GNOME2_DIR/lib:$LD_LIBRARY_PATH"
-	PATH="$GNOME2_DIR/bin:$PATH"
-	export PATH
-	export LD_LIBRARY_PATH
-fi
-
-(test -f $srcdir/configure.in) || {
-    echo -n "**Error**: Directory "\`$srcdir\'" does not look like the"
-    echo " top-level package directory"
-    exit 1
-}
-
-(autoconf --version) < /dev/null > /dev/null 2>&1 || {
-  echo
-  echo "**Error**: You must have \`autoconf' installed."
-  echo "Download the appropriate package for your distribution,"
-  echo "or get the source tarball at ftp://ftp.gnu.org/pub/gnu/"
-  DIE=1
-}
-
-(grep "^AC_PROG_INTLTOOL" $srcdir/configure.in >/dev/null) && {
-  (intltoolize --version) < /dev/null > /dev/null 2>&1 || {
-    echo 
-    echo "**Error**: You must have \`intltool' installed."
-    echo "You can get it from:"
-    echo "  ftp://ftp.gnome.org/pub/GNOME/"
-    DIE=1
-  }
-}
-
-(grep "^AM_PROG_XML_I18N_TOOLS" $srcdir/configure.in >/dev/null) && {
-  (xml-i18n-toolize --version) < /dev/null > /dev/null 2>&1 || {
-    echo
-    echo "**Error**: You must have \`xml-i18n-toolize' installed."
-    echo "You can get it from:"
-    echo "  ftp://ftp.gnome.org/pub/GNOME/"
-    DIE=1
-  }
-}
-
-(grep "^AM_PROG_LIBTOOL" $srcdir/configure.in >/dev/null) && {
-  ($libtool --version) < /dev/null > /dev/null 2>&1 || {
-    echo
-    echo "**Error**: You must have \`libtool' installed."
-    echo "You can get it from: ftp://ftp.gnu.org/pub/gnu/"
-    DIE=1
-  }
-}
-
-(grep "^AM_GLIB_GNU_GETTEXT" $srcdir/configure.in >/dev/null) && {
-  (grep "sed.*POTFILES" $srcdir/configure.in) > /dev/null || \
-  (glib-gettextize --version) < /dev/null > /dev/null 2>&1 || {
-    echo
-    echo "**Error**: You must have \`glib' installed."
-    echo "You can get it from: ftp://ftp.gtk.org/pub/gtk"
-    DIE=1
-  }
-}
-
-(automake --version) < /dev/null > /dev/null 2>&1 || {
-  echo
-  echo "**Error**: You must have \`automake' installed."
-  echo "You can get it from: ftp://ftp.gnu.org/pub/gnu/"
-  DIE=1
-  NO_AUTOMAKE=yes
-}
-
-
-# if no automake, don't bother testing for aclocal
-test -n "$NO_AUTOMAKE" || (aclocal --version) < /dev/null > /dev/null 2>&1 || {
-  echo
-  echo "**Error**: Missing \`aclocal'.  The version of \`automake'"
-  echo "installed doesn't appear recent enough."
-  echo "You can get automake from ftp://ftp.gnu.org/pub/gnu/"
-  DIE=1
-}
-
-if test "$DIE" -eq 1; then
-  exit 1
-fi
-
-if test -z "$*"; then
-  echo "**Warning**: I am going to run \`configure' with no arguments."
-  echo "If you wish to pass any to it, please specify them on the"
-  echo \`$0\'" command line."
-  echo
-fi
-
-case $CC in
-xlc )
-  am_opt=--include-deps;;
-esac
-
-for coin in `find $srcdir -path $srcdir/_darcs -prune -o -name configure.in -print`
-do 
-  dr=`dirname $coin`
-  if test -f $dr/NO-AUTO-GEN; then
-    echo skipping $dr -- flagged as no auto-gen
-  else
-    echo processing $dr
-    ( cd $dr
-
-      aclocalinclude="$ACLOCAL_FLAGS"
-
-      if grep "^AM_GLIB_GNU_GETTEXT" configure.in >/dev/null; then
-	echo "Creating $dr/aclocal.m4 ..."
-	test -r $dr/aclocal.m4 || touch $dr/aclocal.m4
-	echo "Running glib-gettextize...  Ignore non-fatal messages."
-	echo "no" | glib-gettextize --force --copy
-	echo "Making $dr/aclocal.m4 writable ..."
-	test -r $dr/aclocal.m4 && chmod u+w $dr/aclocal.m4
-      fi
-      if grep "^AC_PROG_INTLTOOL" configure.in >/dev/null; then
-        echo "Running intltoolize..."
-	intltoolize --copy --force --automake
-      fi
-      if grep "^AM_PROG_XML_I18N_TOOLS" configure.in >/dev/null; then
-        echo "Running xml-i18n-toolize..."
-	xml-i18n-toolize --copy --force --automake
-      fi
-      if grep "^AM_PROG_LIBTOOL" configure.in >/dev/null; then
-	if test -z "$NO_LIBTOOLIZE" ; then 
-	  echo "Running libtoolize..."
-	  $libtoolize --force --copy
-	fi
-      fi
-      echo "Running aclocal $aclocalinclude ..."
-      aclocal $aclocalinclude
-      if grep "^AM_CONFIG_HEADER" configure.in >/dev/null; then
-	echo "Running autoheader..."
-	autoheader
-      fi
-      echo "Running automake --gnu $am_opt ..."
-      automake --add-missing --copy --gnu $am_opt
-      echo "Running autoconf ..."
-      autoconf
-    )
-  fi
-done
-
-conf_flags="--enable-maintainer-mode"
-
-if test x$NOCONFIGURE = x; then
-  echo Running $srcdir/configure $conf_flags "$@" ...
-  $srcdir/configure $conf_flags "$@" \
-  && echo Now type \`make\' to compile. || exit 1
-else
-  echo Skipping configure process.
-fi
diff --git a/configure.in b/configure.in
deleted file mode 100644
index 88befb5..0000000
--- a/configure.in
+++ /dev/null
@@ -1,476 +0,0 @@
-AC_INIT(configure.in)
-AC_CONFIG_MACRO_DIR([m4])
-
-dnl we to AC_DIVERT_PUSH/AC_DIVERT_POP these variable definitions so they
-dnl are available for $ac_help expansion (don't we all *love* autoconf?)
-#AC_DIVERT_PUSH(AC_DIVERSION_NOTICE)dnl
-# Making releases:
-#   GFS_MICRO_VERSION += 1;
-#   GFS_INTERFACE_AGE += 1;
-#   GFS_BINARY_AGE += 1;
-# if any functions have been added, set GFS_INTERFACE_AGE to 0.
-# if backwards compatibility has been broken,
-# set GFS_BINARY_AGE and GFS_INTERFACE_AGE to 0.
-#
-# Remember to update rpm/gerris.spec when changing the version number.
-GFS_MAJOR_VERSION=1
-GFS_MINOR_VERSION=3
-GFS_MICRO_VERSION=2
-GFS_INTERFACE_AGE=0
-GFS_BINARY_AGE=0
-GFS_VERSION=$GFS_MAJOR_VERSION.$GFS_MINOR_VERSION.$GFS_MICRO_VERSION
-GFS_COMPILATION_FLAGS=$CFLAGS
-dnl
-#AC_DIVERT_POP()dnl
-
-AC_SUBST(GFS_MAJOR_VERSION)
-AC_SUBST(GFS_MINOR_VERSION)
-AC_SUBST(GFS_MICRO_VERSION)
-AC_SUBST(GFS_VERSION)
-AC_SUBST(GFS_COMPILATION_FLAGS)
-
-# libtool versioning
-LT_RELEASE=$GFS_MAJOR_VERSION.$GFS_MINOR_VERSION
-LT_CURRENT=`expr $GFS_MICRO_VERSION - $GFS_INTERFACE_AGE`
-LT_REVISION=$GFS_INTERFACE_AGE
-LT_AGE=`expr $GFS_BINARY_AGE - $GFS_INTERFACE_AGE`
-AC_SUBST(LT_RELEASE)
-AC_SUBST(LT_CURRENT)
-AC_SUBST(LT_REVISION)
-AC_SUBST(LT_AGE)
-
-# For automake.
-VERSION=$GFS_VERSION
-PACKAGE=gerris
-
-AM_INIT_AUTOMAKE($PACKAGE, $VERSION, no-define)
-
-# Specify a configuration file
-AM_CONFIG_HEADER(config.h)
-
-AC_DEFINE_UNQUOTED(GFS_MAJOR_VERSION, $GFS_MAJOR_VERSION, [Major version])
-AC_DEFINE_UNQUOTED(GFS_MINOR_VERSION, $GFS_MINOR_VERSION, [Minor version])
-AC_DEFINE_UNQUOTED(GFS_MICRO_VERSION, $GFS_MICRO_VERSION, [Micro version])
-AC_DEFINE_UNQUOTED(GFS_INTERFACE_AGE, $GFS_INTERFACE_AGE, [Interface age])
-AC_DEFINE_UNQUOTED(GFS_BINARY_AGE, $GFS_BINARY_AGE,       [Binary age])
-AC_DEFINE_UNQUOTED(GFS_VERSION, "$GFS_VERSION",           [Version])
-AC_DEFINE_UNQUOTED(GFS_COMPILATION_FLAGS, "$GFS_COMPILATION_FLAGS", [Compilation flags])
-
-dnl Initialize maintainer mode
-AM_MAINTAINER_MODE
-
-AC_ARG_WITH(mpicc,
-              [  --with-mpicc=path       pick a specific path to mpicc],
-              [with_mpicc=$withval],
-              [with_mpicc=''])
-
-# check if MPI support is disabled
-AC_ARG_ENABLE(mpi,
-[  --disable-mpi           do not compile MPI support],
-[ case "${enableval}" in
-	yes) ;;
-	*) with_mpicc=no ;;
-  esac])
-
-if test "x$with_mpicc" != "xno" ; then
-  if test "x$with_mpicc" != "x" ; then
-     if test -x "$with_mpicc" ; then
-       use_mpicc=yes
-       CC="$with_mpicc"
-     fi
-  else
-     AC_CHECK_PROG(use_mpicc, mpicc, yes)
-     if test "x$use_mpicc" = "xyes" ; then
-       CC=mpicc
-     fi
-  fi
-  if test "x$use_mpicc" = "xyes" ; then
-     AC_DEFINE(HAVE_MPI, 1, [Define to 1 if you have MPI])
-  else
-     AC_MSG_WARN([MPI not found. No MPI support will be compiled in.])
-  fi
-fi
-
-AC_PROG_CC
-
-if test x$GCC = xyes ; then
-  CFLAGS="$CFLAGS -Wall -Werror-implicit-function-declaration -Wmissing-prototypes -Wmissing-declarations -pipe"
-fi
-
-dnl Initialize libtool
-AC_LIBTOOL_WIN32_DLL
-AM_PROG_LIBTOOL
-
-dnl Enable verbose output from libtool (enable libtool's default)
-AC_ARG_ENABLE(libtool-verbose,
-	      [  --enable-libtool-verbose enable verbose libtool output (default disabled)],
-	      [with_libtool_verbose=$enableval],
-	      [with_libtool_verbose='no'])
-if test "$with_libtool_verbose" = 'no'
-then
-  LIBTOOL="$LIBTOOL --silent"
-fi
-
-dnl Fix for MacOSX and cygwin libtool
-case "$build" in
-  *-apple-darwin*) NO_UNDEFINED="" ;;
-  *-pc-cygwin*)    NO_UNDEFINED="" ;;
-  *)               NO_UNDEFINED="-no-undefined" ;;
-esac
-AC_SUBST(NO_UNDEFINED)
-
-AC_PROG_AWK
-AC_ISC_POSIX
-AC_HEADER_STDC
-
-# check that pointers can be stored in doubles
-AC_MSG_CHECKING(whether pointers can be stored in doubles)
-AC_TRY_RUN([
-main () {
-  if (sizeof (void *) > sizeof (double))
-    return 1;
-  return 0;
-}
-], can_store_pointers=yes, can_store_pointers=no,
-[can_store_pointers=yes; echo $ac_n "cross compiling; assumed OK... $ac_c"])
-AC_MSG_RESULT($can_store_pointers)
-if test x$can_store_pointers = xno ; then
-  AC_MSG_ERROR([
-*** Pointers cannot be stored in doubles on this architecture.])
-fi
-
-# check if we want to enable GTS casts checks
-AC_ARG_ENABLE(gts-check,
-[  --enable-gts-check      enable object type cast checks in GTS],
-[ case "${enableval}" in
-	*) gts_check_casts="--check" ;;
-  esac])
-
-if test x$with_gts = xyes ; then
-  AC_MSG_ERROR([
-*** Directory must be specified for --with-gts])
-fi
-
-if test x$with_gts = x ; then 
-  # Look for separately installed gts
-
-  AM_PATH_GTS(0.7.4,,
-    AC_MSG_ERROR([
-*** GTS 0.7.4 or better is required. The latest version of GTS
-*** is always available from http://gts.sourceforge.net.]))
-
-  gts_cflags=`$GTS_CONFIG --cflags $gts_check_casts gmodule`
-  gts_libs=`$GTS_CONFIG --libs gmodule`
-  GTS_LIBS="$gts_libs"
-  GTS_DEPLIBS="$gts_libs"
-else
-  # Use uninstalled gts (assume they got the version right)
-
-  GTS_CONFIG=$with_gts/gts-config
-  if test -x $GTS_CONFIG ; then 
-    :
-  else
-    AC_MSG_ERROR([GTS directory ($with_gts) not present or not configured])
-  fi
-
-  # For use in gfs-config
-  gts_cflags=`$GTS_CONFIG --cflags $gts_check_casts gmodule`
-  gts_libs=`$GTS_CONFIG --libs gmodule`
-  gts_release=`$GTS_CONFIG --version | sed 's%\\.[[0-9]]*$%%'`
-
-  # canonicalize relative paths
-  case $with_gts in 
-    /*)
-      gts_dir=$with_gts
-      ;;
-    *)
-      gts_dir="\$(top_builddir)/$with_gts"
-      ;;
-  esac
-
-  GTS_CFLAGS="-I$gts_dir"
-  if test -n "$gts_check_casts"; then
-	 GTS_CFLAGS="$GTS_CFLAGS -DGTS_CHECK_CASTS"
-  fi
-  GTS_LIBS="$gts_dir/libgts.la"
-  GTS_DEPLIBS=
-
-  AC_SUBST(GTS_LIBS)
-fi
-
-if test -n "$gts_check_casts"; then
-  GTS_CFLAGS="$GTS_CFLAGS -DGTS_CHECK_CASTS"
-fi
-AC_SUBST(GTS_CFLAGS)
-AC_SUBST(gts_cflags)
-AC_SUBST(gts_libs)
-AC_SUBST(GTS_DEPLIBS)
-
-# check whether GModules are supported
-AC_MSG_CHECKING(whether modules are supported)
-OLD_CFLAGS=$CFLAGS
-CFLAGS=$gts_cflags
-OLD_LIBS=$LIBS
-LIBS=$gts_libs
-AC_TRY_RUN([
-#include <glib.h>
-#include <gmodule.h>
-
-main () {
-  if (!g_module_supported ())
-    return 1;
-  return 0;
-}
-], have_gmodule=yes, have_gmodule=no,
-[have_gmodule=yes; echo $ac_n "cross compiling; assumed OK... $ac_c"])
-AC_MSG_RESULT($have_gmodule)
-CFLAGS=$OLD_CFLAGS
-LIBS=$OLD_LIBS
-
-# checking how to build modules
-if test "$have_gmodule" = "yes"; then
-   module_flags=""
-   for flags in \
-       "-fPIC -shared -x c" \
-       "-fPIC -dynamiclib -x c -undefined dynamic_lookup" \
-       "-fPIC -bundle -x c"
-   do
-	if test x"$module_flags" = x; then
-	   if echo "test(){}" | gcc $flags - 2> /dev/null; then
-	      module_flags=\"$flags\"
-	   fi
-	fi
-   done
-   if test x"$module_flags" = x; then
-	have_gmodule=no
-	AC_MSG_WARN([Could not build module, functions in parameter files will not be supported.])
-   fi
-   AC_DEFINE_UNQUOTED(MODULES_FLAGS, $module_flags, [Linking flags to build modules.])
-fi
-
-# checks for pkg-config
-if test "$have_gmodule" = "yes"; then
-  AC_CHECK_PROG(have_pkg_config, pkg-config, yes, no)
-  if test "$have_pkg_config" = "no"; then
-    AC_MSG_WARN([pkg-config is required for functions in parameter files.])
-  fi
-fi
-if test x"$have_pkg_config" = x"yes"; then
-  AC_DEFINE(HAVE_PKG_CONFIG, 1, [Define to 1 if GModule are supported and if you have pkg-config.])
-else
-  AC_DEFINE(HAVE_PKG_CONFIG, 0)
-fi
-
-# checks for gawk and m4
-AC_CHECK_PROG(have_awk, gawk, yes, no)
-if test "$have_awk" = "yes"; then
-   AC_CHECK_PROG(have_m4, m4, yes, no)
-   if test "$have_m4" = "yes"; then
-      AC_DEFINE(HAVE_M4, 1, [Define to 1 if gawk and m4 are available.])
-   else
-      AC_DEFINE(HAVE_M4, 0)
-   fi
-fi
-
-# check if module support is disabled
-AC_ARG_ENABLE(modules,
-[  --disable-modules       link modules statically with the executables],
-[ case "${enableval}" in
-	yes) ;;
-	*) have_gmodule=no ;;
-  esac])
-
-AC_SUBST(have_gmodule)
-AM_CONDITIONAL(HAVE_MODULES, test "$have_gmodule" = "yes")
-
-AC_SUBST(CFLAGS)
-AC_SUBST(CPPFLAGS)
-AC_SUBST(LDFLAGS)
-
-# checks for libproj
-AC_CHECK_LIB(proj, pj_fwd, proj="true",
-  AC_MSG_WARN([libproj not found. Map module will not be available.]), [-lm])
-AC_CHECK_HEADERS(proj_api.h, proj="true", proj="false")
-AM_CONDITIONAL(HAS_LIBPROJ, test x$proj = xtrue)
-
-# checks for GNU Scientific Library
-AM_PATH_GSL
-
-# checks for netCDF
-AC_CHECK_LIB(netcdf, nc_open, netcdf="true", netcdf="false", [-lm])
-AC_CHECK_HEADERS(netcdf.h, netcdf="true", netcdf="false")
-AM_CONDITIONAL(HAS_NETCDF, test x$netcdf = xtrue)
-
-# Tide module requires both netCDF and GSL
-if test x$netcdf = xfalse -o x$no_gsl = xyes; then
-   AC_MSG_WARN([GSL and/or netCDF not found. Tide module will not be available.])
-fi
-AM_CONDITIONAL(BUILD_TIDE, test x$netcdf = xtrue -a x$no_gsl = x)
-
-# Stokes module requires a fortran compiler
-AC_PROG_F77
-AM_CONDITIONAL(BUILD_STOKES, test x$F77 != x)
-
-# Build wavewatch module if wavewatch is installed
-AM_CONDITIONAL(BUILD_WAVEWATCH, test -r $HOME/.wwatch3.env)
-if test -r $HOME/.wwatch3.env; then
-   ww3_dir=`grep WWATCH3_DIR $HOME/.wwatch3.env | awk '{print $2}'`
-   ww3_version=`grep "WWVER  = " $ww3_dir/ftn/*.ftn | \
-                awk '{print substr($(NF-1),2)}' | \
-                sed 's/\.//'`
-   W3INIT="w3init$ww3_version"
-   AC_SUBST(W3INIT)
-   AC_DEFINE_UNQUOTED(WW3_VERSION, $ww3_version, [WaveWatch III version number])
-fi
-
-dnl header file checks
-AC_CHECK_HEADERS(fenv.h, AC_DEFINE(HAVE_FENV_H))
-AC_CHECK_HEADERS(unistd.h, AC_DEFINE(HAVE_UNISTD_H))
-AC_CHECK_HEADERS(getopt.h, AC_DEFINE(HAVE_GETOPT_H))
-
-dnl functions checks
-AC_CHECK_FUNCS(getopt_long)
-
-dnl generate `src/gfsconfig.h'
-AC_OUTPUT_COMMANDS([
-	echo creating src/gfsconfig.h
-	cat >src/gfsconfig.h <<\__EOF
-/* gfsconfig.h
- * 
- * This is a generated file.  Please modify `configure.in'
- */
-
-#ifndef GFSCONFIG_H
-#define GFSCONFIG_H
-
-__EOF
-	if test "$have_gmodule" = "yes"; then
-	  cat >> src/gfsconfig.h <<\__EOF
-#define GFS_HAS_MODULES 1
-
-__EOF
-	fi
-	case "$build" in
-	*-cray-unicos*)
-	  echo "/* CRAY inlining directives */" >> src/gfsconfig.h
-	  for file in src/*.h; do
-	  awk '
-BEGIN {
-  nc = 10;
-  nf = 0;
-}
-{
-  if ($1 == "G_INLINE_FUNC") {
-    nc = 0;
-    start = 2;
-  }
-  else
-    start = 1;
-  for (i = start; i <= NF; i++) {
-    if (nc == 1) {
-      if (substr ($i, 1, 1) != "*") {
-	in_list = 0;
-	for (j = 0; j < nf && !inlist; j++)
-	  if ($i == f[j])
-	    inlist = 1;
-	if (!inlist)
-          f[nf++] = $i;
-	nc = 10;
-      }
-    }
-    else
-      nc++;
-  }
-}
-END {
-  if (nf > 0) {
-    printf ("#pragma _CRI inline %s", f[0]);
-    for (i = 1; i < nf; i++)
-      printf (", %s", f[i]);
-    printf ("\n");
-  }
-}
-' < $file >> src/gfsconfig.h
-	done
-	;;
-	esac
-	cat >>src/gfsconfig.h <<__EOF
-
-#endif /* GFSCONFIG_H */
-__EOF
-],[
-	build="$build"
-	have_gmodule="$have_gmodule"
-])
-
-dnl generate `src/modules.c'
-AC_OUTPUT_COMMANDS([
-	echo creating src/modules.c
-	cat > src/modules.c <<\__EOF
-/* modules.c
- * 
- * This is a generated file.  Please modify `configure.in'
- */
-
-__EOF
-	cat > src/modules.h <<\__EOF
-/* modules.h
- * 
- * This is a generated file.  Please modify `configure.in'
- */
-
-__EOF
-	if test "$have_gmodule" = "no"; then
-	  for file in `ls modules/*.mod`; do
-		name=`basename $file .mod`
-		echo "void gfs_init_$name (void);" >> src/modules.h
-		echo "gfs_init_$name ();" >> src/modules.c
-	  done
-	fi
-],[
-	have_gmodule="$have_gmodule"
-])
-
-dnl export MODULES for src/Makefile.am
-MODULES=""
-if test "$have_gmodule" = "no"; then
-  for file in `ls modules/*.mod`; do
-	name=`basename $file .mod`
-	MODULES=" $MODULES ../modules/$name.o"
-  done	
-fi
-AC_SUBST(MODULES)
-GFS2D_LIBS="\$(top_builddir)/src/libgfs2D.la $GTS_LIBS $MODULES"
-GFS3D_LIBS="\$(top_builddir)/src/libgfs3D.la $GTS_LIBS $MODULES"
-GFS2D3_LIBS="\$(top_builddir)/src/libgfs2D3.la $GTS_LIBS $MODULES"
-AC_SUBST(GFS2D_LIBS)
-AC_SUBST(GFS3D_LIBS)
-AC_SUBST(GFS2D3_LIBS)
-
-# check whether the code is under darcs
-
-AM_CONDITIONAL(DARCS_CONTROLLED, test -d _darcs)
-
-AC_OUTPUT([
-Makefile
-src/Makefile
-src/gfs-config
-src/gerris2D.pc
-src/gerris2D3.pc
-src/gerris3D.pc
-tools/Makefile
-modules/Makefile
-modules/RStarTree/Makefile
-modules/fes2004/Makefile
-modules/wavewatch/Makefile
-test/Makefile
-doc/Makefile
-doc/tutorial/Makefile
-doc/examples/Makefile
-doc/manpages/Makefile
-doc/examples/gfs2doc
-doc/examples/gfs-highlight
-doc/examples/crossref.sh
-desktop/Makefile
-debian/Makefile
-])
diff --git a/debian/Makefile.am b/debian/Makefile.am
deleted file mode 100644
index 153216c..0000000
--- a/debian/Makefile.am
+++ /dev/null
@@ -1 +0,0 @@
-EXTRA_DIST = changelog.sh compat control copyright docs gerris-snapshot.symbols rules
diff --git a/debian/changelog.sh b/debian/changelog.sh
deleted file mode 100644
index f057314..0000000
--- a/debian/changelog.sh
+++ /dev/null
@@ -1,25 +0,0 @@
-version=20$(grep GFS_BUILD_VERSION src/version.h | awk 'BEGIN{FS=" |\"|-"}{print $4}')
-date=$(date +"%a, %e %b %Y %T %z")
-
-cat <<EOF > debian/changelog
-gerris-snapshot ($version) hardy; urgency=low
-
-EOF
-
-if test -z $1; then
-    cat <<EOF >> debian/changelog
-  * gerris-snapshot release (based on Drew Parsons's official debian)
-
-EOF
-else
-    if html2text < $1 | \
-       grep -v "^[0-9]\{4\}-[0-9]\{2\}-[0-9]\{2\} " | \
-       sed 's/^\([^ ]\{1,\}\)/  \1/g'>> debian/changelog; then :
-    else
-	exit 1
-    fi
-fi
-
-cat <<EOF >> debian/changelog
- -- Stephane Popinet <popinet at users.sf.net>  $date
-EOF
diff --git a/debian/compat b/debian/compat
deleted file mode 100644
index 7ed6ff8..0000000
--- a/debian/compat
+++ /dev/null
@@ -1 +0,0 @@
-5
diff --git a/debian/control b/debian/control
deleted file mode 100644
index 915a347..0000000
--- a/debian/control
+++ /dev/null
@@ -1,35 +0,0 @@
-Source: gerris-snapshot
-Section: science
-Priority: optional
-Maintainer: Stephane Popinet <popinet at users.sf.net>
-Build-Depends: cdbs, debhelper (>= 5), autotools-dev, libglib2.0-dev,
-	       libgts-snapshot-dev,
-	       libnetcdf-dev, libgsl0-dev, proj,
-               libopenmpi-dev [i386 amd64], openmpi-bin [i386 amd64],
-	       python, g77 | gfortran, chrpath
-Homepage: http://gfs.sourceforge.net/
-
-Package: gerris-snapshot
-Architecture: any
-Depends: ${shlibs:Depends}, ${misc:Depends},
-	 openmpi-bin [i386 amd64],
-	 libgts-snapshot-dev,
-	 pkg-config, gcc, sed, gawk, m4
-Replaces: gerris
-Suggests: gfsview-snapshot, source-highlight, imagemagick, ffmpeg
-Description: Gerris Flow Solver (development snapshot)
- Gerris is a system for the solution of the partial differential
- equations describing fluid flow.
- .
- A brief summary of its main features:
- .
-    * Quadtree-based (Octree in 3D) spatial discretisation with
-      automatic and dynamic refinement.
-    * Multigrid Poisson solver.
-    * Second-order Godunov type advection scheme.
-    * Solves the time-dependent incompressible Euler, Stokes ans Navier-Stokes
-      equations.
-    * Support for complex solid boundaries (automatic locally-refined
-      mesh generation).
- .
- See http://gfs.sf.net for more information and documentation.
diff --git a/debian/copyright b/debian/copyright
deleted file mode 100644
index 82e0dd3..0000000
--- a/debian/copyright
+++ /dev/null
@@ -1,19 +0,0 @@
-Copyright:
-
-   This package is free software; you can redistribute it and/or modify
-   it under the terms of the GNU General Public License as published by
-   the Free Software Foundation; version 2 dated June, 1991.
-
-   This package is distributed in the hope that it will be useful,
-   but WITHOUT ANY WARRANTY; without even the implied warranty of
-   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-   GNU General Public License for more details.
-
-   You should have received a copy of the GNU General Public License
-   along with this package; if not, write to the Free Software
-   Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
-   02111-1307, USA.
-
-On Debian GNU/Linux systems, the complete text of the GNU General
-Public License can be found in `/usr/share/common-licenses/GPL'.
-
diff --git a/debian/docs b/debian/docs
deleted file mode 100644
index 5502ed8..0000000
--- a/debian/docs
+++ /dev/null
@@ -1,3 +0,0 @@
-NEWS
-README
-TODO
diff --git a/debian/gerris-snapshot.symbols b/debian/gerris-snapshot.symbols
deleted file mode 100644
index 9a959a9..0000000
--- a/debian/gerris-snapshot.symbols
+++ /dev/null
@@ -1 +0,0 @@
-# dummy file just here to force dh_makeshlibs to call dpkg-gensymbols
diff --git a/debian/rules b/debian/rules
deleted file mode 100755
index a8abfe2..0000000
--- a/debian/rules
+++ /dev/null
@@ -1,23 +0,0 @@
-#!/usr/bin/make -f
-
-include /usr/share/cdbs/1/rules/debhelper.mk
-include /usr/share/cdbs/1/class/autotools.mk
-
-GFS_VERSION = $(shell grep -o "[0-9]*\.[0-9]*\.[0-9]*" $(CURDIR)/debian/changelog)
-DEB_DH_MAKESHLIBS_ARGS_ALL = -- -v$(GFS_VERSION) -c0
-
-# To look for shlibs and symbols file in locally compiled libgts-snapshot debian package
-# do something like:
-# % export DEB_DH_SHLIBDEPS_ARGS_ALL="-- -S$HOME/local/src/gts-mainline/debian/libgts-snapshot"
-
-clean::
-	rm -f a.out
-	rm -f doc/examples/gfs.lang
-	rm -f doc/examples/gfs2tex.pyc
-	rm -f doc/examples/Makefile.deps
-	rm -f src/modules.c
-	rm -f src/modules.h
-
-# Remove rpath added by libtool
-binary-post-install/gerris-snapshot ::
-	- chrpath -d -k debian/gerris-snapshot/usr/bin/* 2> /dev/null
diff --git a/desktop/Makefile.am b/desktop/Makefile.am
deleted file mode 100644
index 97ba870..0000000
--- a/desktop/Makefile.am
+++ /dev/null
@@ -1,15 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-mimedir = $(datadir)/mime/packages
-mime_DATA = gerris.xml
-
-iconsdir = $(datadir)/icons/hicolor/48x48/mimetypes
-
-ICONS = application-gerris.png \
-	application-gerris-2D.png \
-	application-gerris-3D.png \
-	application-gerris-compressed.png
-
-icons_DATA = $(ICONS)
-
-EXTRA_DIST = gerris.xml $(ICONS)
diff --git a/desktop/application-gerris-2D.png b/desktop/application-gerris-2D.png
deleted file mode 100644
index f718742..0000000
Binary files a/desktop/application-gerris-2D.png and /dev/null differ
diff --git a/desktop/application-gerris-3D.png b/desktop/application-gerris-3D.png
deleted file mode 100644
index 6950e1b..0000000
Binary files a/desktop/application-gerris-3D.png and /dev/null differ
diff --git a/desktop/application-gerris-compressed.png b/desktop/application-gerris-compressed.png
deleted file mode 100644
index e3ecb70..0000000
Binary files a/desktop/application-gerris-compressed.png and /dev/null differ
diff --git a/desktop/application-gerris.png b/desktop/application-gerris.png
deleted file mode 100644
index 43fc662..0000000
Binary files a/desktop/application-gerris.png and /dev/null differ
diff --git a/desktop/gerris.xml b/desktop/gerris.xml
deleted file mode 100644
index 6fa0bf9..0000000
--- a/desktop/gerris.xml
+++ /dev/null
@@ -1,27 +0,0 @@
-<?xml version="1.0" encoding="UTF-8"?>
-<mime-info xmlns="http://www.freedesktop.org/standards/shared-mime-info">
-  <mime-type type="application/gerris">
-    <sub-class-of type="text/plain"/>
-    <comment xml:lang="en">Gerris simulation</comment>
-    <glob pattern="*.gfs"/>
-  </mime-type>
-  <mime-type type="application/gerris-compressed">
-    <sub-class-of type="application/x-gzip"/>
-    <comment xml:lang="en">Gerris simulation</comment>
-    <glob pattern="*.gfs.gz"/>
-  </mime-type>
-  <mime-type type="application/gerris-2D">
-    <sub-class-of type="application/gerris"/>
-    <comment xml:lang="en">Gerris 2D simulation</comment>
-    <magic priority="80">
-      <match type="string" value="# Gerris Flow Solver 2D " offset="0"/>
-    </magic>
-  </mime-type>
-  <mime-type type="application/gerris-3D">
-    <sub-class-of type="application/gerris"/>
-    <comment xml:lang="en">Gerris 3D simulation</comment>
-    <magic priority="80">
-      <match type="string" value="# Gerris Flow Solver 3D " offset="0"/>
-    </magic>
-  </mime-type>
-</mime-info>
diff --git a/desktop/logo.png b/desktop/logo.png
deleted file mode 100644
index f5ff33e..0000000
Binary files a/desktop/logo.png and /dev/null differ
diff --git a/doc/Makefile.am b/doc/Makefile.am
deleted file mode 100644
index 60c58c8..0000000
--- a/doc/Makefile.am
+++ /dev/null
@@ -1,45 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-SUBDIRS = tutorial examples manpages
-
-# The name of the module.
-DOC_MODULE=gfs
-
-# The top-level SGML file.
-DOC_MAIN_SGML_FILE=gfs-docs.sgml
-
-# The directory containing the source code (if it contains documentation).
-DOC_SOURCE_DIR=../src
-
-TARGET_DIR=html/$(DOC_MODULE)
-
-EXTRA_DIST=figures share
-
-scan:
-	gtkdoc-scan --module=$(DOC_MODULE) --source-dir=$(DOC_SOURCE_DIR) --ignore-headers=""
-
-templates: scan
-	gtkdoc-mktmpl --module=$(DOC_MODULE)
-	sort -f $(DOC_MODULE)-unused.txt > /tmp/toto; mv -f /tmp/toto $(DOC_MODULE)-unused.txt
-
-sgml: templates
-	gtkdoc-mkdb --module=$(DOC_MODULE) --source-dir=$(DOC_SOURCE_DIR)
-	sort -f $(DOC_MODULE)-undocumented.txt > /tmp/toto; mv -f /tmp/toto $(DOC_MODULE)-undocumented.txt
-
-html: sgml
-	if ! test -d html ; then mkdir html ; fi
-	-cd html && gtkdoc-mkhtml $(DOC_MODULE) ../$(DOC_MAIN_SGML_FILE)
-
-clean-local:
-	rm -f *~ *.bak *.hierarchy *.signals *.args *-unused.txt
-
-maintainer-clean-local: clean
-	rm -rf sgml html $(DOC_MODULE)-decl-list.txt $(DOC_MODULE)-decl.txt 
-
-## install-data-local:
-##	install -d -m 0755 $(TARGET_DIR)
-##	install -m 0644 html/*.html $(TARGET_DIR)
-##	install -m 0644 html/index.sgml $(TARGET_DIR)
-##	gtkdoc-fixxref --module=$(DOC_MODULE) --html-dir=$(HTML_DIR)
-
-.PHONY : html sgml templates scan
diff --git a/doc/examples/Makefile.am b/doc/examples/Makefile.am
deleted file mode 100644
index d891767..0000000
--- a/doc/examples/Makefile.am
+++ /dev/null
@@ -1,104 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-EXAMPLES = \
-	cylinder \
-	rt \
-	boussinesq \
-	tangaroa \
-	logo \
-	tides \
-	ship \
-	garden \
-	dam \
-	hump
-
-EXTRA_DIST = \
-	template.tex \
-	gfs2tex.py \
-	gfs2tex \
-	depend.py \
-	test.py \
-	Makefile.deps \
-	crossref.sh.in \
-	gfsxref
-
-TESTS = test.sh
-
-test.sh: $(EXAMPLES)
-	@echo "python test.py $(EXAMPLES)" > test.sh
-	@chmod +x test.sh
-
-bin_SCRIPTS = \
-	gfs2doc gfs-highlight gfsxref
-
-BUILT_SOURCES= \
-	gfs2doc gfs-highlight gfs.lang gerris.dic
-
-CLEANFILES = $(BUILT_SOURCES) Makefile.deps
-
-pkglib_DATA = gfs2tex.py
-pkgdata_DATA = gfs.lang gerris.dic
-
-gfs.lang: classes
-	$(srcdir)/classes > gfs.lang
-
-gerris.dic: classes
-	$(srcdir)/classes | awk '$$1 ~ /gfs_keyword/ {print $$3}' | sed 's/"//g' > gerris.dic
-
-gfs2doc: gfs2doc.in
-
-gfs-highlight: gfs-highlight.in
-
-clean-generic:
-	$(RM) *.dvi *.aux *.log *.toc *.out examples.tex *.pyc test.sh gfs2doc
-	$(RM) -r examples
-
-DOC = examples
-
-examples: examples.dvi crossref.sh
-	hevea -fix $(DOC).tex
-	imagen -res 600 -extra "pnmscale 0.24" $(DOC)
-	hacha $(DOC).html
-	rm -f $(DOC).html
-	mv -f $(DOC)[0-9][0-9][0-9].png $(DOC)
-##	fixme: the character conversion below is a workaround for a bug in hevea version < 1.09
-##	for f in *.html; do konwert iso1-utf8 < $$f > $(DOC)/$$f; rm -f $$f; done
-	mv -f *.html $(DOC)
-	cat $(DOC).css ../share/darcs.css > $(DOC)/$(DOC).css
-	sh ../share/fixnav.sh $(DOC)
-	cp -f ../share/contents.png ../share/next.png ../share/prev.png $(DOC)
-	rm -f *_motif.gif $(DOC).h{tml,aux,ind,toc} $(DOC).image.tex $(DOC).css
-	sh ./crossref.sh --url=http://gfs.sourceforge.net/examples/examples $(EXAMPLES)
-	mv references examples
-
-examples.dvi: examples.tex
-	latex -interaction=nonstopmode examples.tex > /dev/null 2>&1
-	latex -interaction=nonstopmode examples.tex > /dev/null 2>&1
-	latex -interaction=nonstopmode examples.tex
-
-examples.pdf: examples.dvi
-	dvips -Ppdf -G0 examples.dvi -o examples.ps
-	ps2pdf -sPAPERSIZE=a4 -dMaxSubsetPct=100 -dCompatibilityLevel=1.2 -dSubsetFonts=true -dEmbedAllFonts=true examples.ps examples.pdf
-	rm -f examples.ps
-
-examples.tex: template.tex Makefile.deps gfs2tex gfs2tex.py
-	rm -r -f examples
-	python gfs2tex $(EXAMPLES)
-	sed "s/GFS_VERSION/`$(top_srcdir)/src/gerris2D -V 2>&1 | awk '{ if ($$5 == "version") print $$6}'`/g" < template.tex | sed 's/\\today/'"`date +\"%B %e, %Y\"`/g" > examples.tex
-
-Makefile.deps: Makefile depend.py
-	python depend.py $(EXAMPLES) > Makefile.deps
-
--include Makefile.deps
-
-examples.tar.gz: examples.pdf examples $(DOCS)
-	tar czf examples.tar.gz examples $(DOCS)
-
-INCLUDES = -I$(top_srcdir)/src -I$(includedir) -DG_LOG_DOMAIN=\"Gfs-tools\"\
-            $(GTS_CFLAGS)
-
-noinst_PROGRAMS = classes
-
-classes: classes.c $(top_srcdir)/src/init.c
-	$(LIBTOOL) --mode=link $(CC) $(AM_CFLAGS) $(INCLUDES) -DFTT_2D=1 \
-	classes.c -o classes $(GFS2D_LIBS)
diff --git a/doc/examples/boussinesq/boussinesq.gfs b/doc/examples/boussinesq/boussinesq.gfs
deleted file mode 100644
index 5a8e4b0..0000000
--- a/doc/examples/boussinesq/boussinesq.gfs
+++ /dev/null
@@ -1,99 +0,0 @@
-# Title: Boussinesq flow generated by a heated cylinder
-#
-# Description:
-#
-# The classical Boussinesq approximation is applied to solve the flow
-# generated by a heated cylinder. 
-#
-# A source term proportional to a diffusive tracer is added to the
-# vertical component of the velocity field.
-#
-# Adaptivity is used to generate a "sponge" outflow condition on the
-# top boundary.
-#
-# The turbulent plume obtained is illustrated on Figure \ref{tracer}.
-#
-# The movie is generated using the scripting mode of GfsView.
-#
-# \begin{figure}[htbp]
-# \caption{\label{tracer}MPEG movie of the tracer field.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=0.3\hsize]{t.eps}}{t.mpg}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D boussinesq.gfs | gfsview2D boussinesq.gfv | ppm2mpeg > t.mpg
-# Version: 1.1.2
-# Required files: boussinesq.gfv
-# Running time: 60 minutes
-# Generated files: t.mpg t.eps
-#
-3 2 GfsSimulation GfsBox GfsGEdge {} {
-  # Limit the maximum timestep to 1e-2 so that the initial diffusion
-  # is properly resolved
-  Time { end = 20 dtmax = 1e-2 }
-
-  # Use an initial refinement of 8 levels around the solid boundary
-  RefineSolid 8
-
-  # Insert the solid boundary defined implicitly by the 
-  # ellipse() function
-  Solid (ellipse(0.,-0.15,1./16.,1./16.))
-
-  # Add a passive tracer called T
-  VariableTracer T
-
-  # Add diffusion to tracer T
-  SourceDiffusion T 0.0001
- 
-  # Add a source term to the vertical velocity component equal to T
-  Source V T
-
-  # Dirichlet boundary condition for T on the cylinder
-  SurfaceBc T Dirichlet 1
-
-  # Adapt the mesh using the vorticity criterion at every timestep
-  # down to a maximum level of 8 if y is smaller than 1.5, 0
-  # otherwise.  The topmost part of the domain will not be refined and
-  # will act as a very efficient "sponge" layer to damp any eddies
-  # before they exit the domain.
-  AdaptVorticity { istep = 1 } { maxlevel = (y > 1.5 ? 0 : 8) cmax = 1e-2 }
-
-  # Also adapt according to the tracer gradient
-  AdaptGradient { istep = 1 } { maxlevel = 8 cmax = 5e-2 } T
-
-  # Writes the time and timestep every 10 timesteps on standard error
-  OutputTime { istep = 10 } stderr
-
-  # Writes the simulation size every 10 timesteps on standard error
-  OutputBalance { istep = 10 } stderr
-
-  # Writes info about the convergence of the Poisson solver on standard error
-  OutputProjectionStats { istep = 10 } stderr
-
-  # Outputs profiling information at the end of the simulation to standard error
-  OutputTiming { start = end } stderr
-
-  # Outputs the simulation every 4 timesteps
-  OutputSimulation { istep = 4 } stdout
- 
-  # Every 4 timesteps, GfsView will read the following command, after having read
-  # the simulation file and will output a PPM screenshot on its standard output
-  EventScript { istep = 4 } { echo "Save stdout { width = 256 height = 512 }" }
- 
-  # At t = 19, GfsView will create the PPM file used in the doc.
-  EventScript { start = 19 } { echo "Save t.ppm { width = 256 height = 512 }" }
-
-  # At the end of the simulation this file is converted to EPS.
-  EventScript { start = end } { convert -colors 256 t.ppm t.eps ; rm -f t.ppm }
-}
-# The bottom boundary will also allow inflow (despite its name)
-GfsBox { bottom = BoundaryOutflow }
-GfsBox {}
-# The top boundary is a simple outflow condition. This could cause problems
-# (eddies getting stuck on the boundary) if the adaptive "sponge" layer was not
-# used.
-GfsBox { top = BoundaryOutflow }
-1 2 top
-2 3 top
diff --git a/doc/examples/boussinesq/boussinesq.gfv b/doc/examples/boussinesq/boussinesq.gfv
deleted file mode 100644
index b55c6a2..0000000
--- a/doc/examples/boussinesq/boussinesq.gfv
+++ /dev/null
@@ -1,26 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = -0.55
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 18.5
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Linear {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = 8
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} T {
-  amin = 0 min = 0
-  amax = 0 max = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-}
diff --git a/doc/examples/classes.c b/doc/examples/classes.c
deleted file mode 100644
index d8ba6fb..0000000
--- a/doc/examples/classes.c
+++ /dev/null
@@ -1,43 +0,0 @@
-#include <string.h>
-#include "init.h"
-#define WIKI "http\\://gfs.sf.net/wiki/index.php/"
-
-static void key_value_pair (const char * key, FILE * lang)
-{
-  fprintf (lang, "gfs_keyword = \"%s\"\n", key);
-  /* keywords must start with Gfs */
-  g_assert (strstr (key, "Gfs") == key);
-  fprintf (lang, "gfs_keyword = \"%s\"\n", &(key[3]));
-}
-
-int main (int argc, char * argv[])
-{
-  GtsObjectClass ** klass;
-
-  klass = gfs_classes ();
-
-  printf ("# Language file for source-highlight\n"
-	  "# Generated automatically by classes.c\n"
-	  "\n");
-
-  key_value_pair ("GfsDefine", stdout);
-  key_value_pair ("GfsProjectionParams", stdout);
-  key_value_pair ("GfsApproxProjectionParams", stdout);
-
-  /* Map module  */
-  key_value_pair ("GfsMapProjection", stdout);
-
-  while (*klass) {
-    key_value_pair ((*klass)->info.name, stdout);
-    klass++;
-  }
-  
-  printf ("\n"
-	  "include \"cpp.lang\"\n"
-	  "\n"
-	  "comment start \"#\"\n"
-	  "\n"
-	  "redef preproc = \"C preprocessor command is not compatible with"
-	  " the use of # as comment character in GTS\"\n");
-  return 0;
-}
diff --git a/doc/examples/crossref.sh.in b/doc/examples/crossref.sh.in
deleted file mode 100755
index aef3422..0000000
--- a/doc/examples/crossref.sh.in
+++ /dev/null
@@ -1,66 +0,0 @@
-#!/bin/sh 
-# Generated automatically. Please modify crossref.sh.in.
-
-path="@prefix@/share/gerris"
-
-usage()
-{
-	cat <<EOF
-Usage: crossref.sh [OPTIONS] FILE1 FILE2...
-
-Creates cross-references
-
-Options:
-	[--url=URL] reference URL
-        [--help]    displays this message and exits
-EOF
-	exit $1
-}
-
-if test $# -lt 1; then
-	usage 1 1>&2
-fi
-
-while test $# -gt 1; do
-  case "$1" in
-  -*=*) optarg=`echo "$1" | sed 's/[-_a-zA-Z0-9]*=//'` ;;
-  *) optarg= ;;
-  esac
-
-  case $1 in
-    --url=*)
-      url=$optarg
-      ;;
-    --help)
-      usage 0 1>&2
-      ;;
-    --*)
-      usage 0 1>&2
-      ;;
-      *)
-      break
-      ;;
-  esac
-  shift
-done
-
-keywords=`awk '{if ($1 == "gfs_keyword" && substr ($3,1,4) == "\"Gfs") print substr($3,2,length($3)-2); }' < $path/gfs.lang`
-
-if test -d references; then :
-else
-    mkdir references
-fi
-
-for k in $keywords; do
-    rm -f references/$k.html
-    for f in $*; do
-	gfsxref --url="$url/$f.html" $k < $f/$f.gfs >> references/$k.html
-	cd $f
-	for d in *; do
-	    if test -d $d; then
-		gfsxref --url="$url/$f.html#$d" $k < $d/$d.gfs >> ../references/$k.html
-	    fi
-	done
-	cd ..
-    done
-done
diff --git a/doc/examples/cylinder/cylinder.gfs b/doc/examples/cylinder/cylinder.gfs
deleted file mode 100644
index cc22611..0000000
--- a/doc/examples/cylinder/cylinder.gfs
+++ /dev/null
@@ -1,137 +0,0 @@
-# Title: B\'enard--von K\'arm\'an Vortex Street for flow around a cylinder at Re=160
-#
-# Description:
-#
-# An example of 2D viscous flow around a simple solid boundary. Fluid
-# is injected to the left of a channel bounded by solid walls with a
-# slip boundary condition. A passive tracer is injected in the bottom
-# half of the inlet.
-#
-# Adaptive refinement is used based on both the vorticity and the
-# gradient of the passive tracer.
-#
-# After an initial growth phase, a classical B\'enard--von K\'arman
-# vortex street is formed.
-#
-# The results are visualised using MPEG movies of the vorticity
-# (Figure \ref{vorticity}) and tracer concentration (Figure
-# \ref{tracer}) generated on-the-fly.
-#
-# \begin{figure}[htbp]
-# \caption{\label{vorticity}MPEG movie of the vorticity field.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=\hsize]{vort.eps}}{vort.mpg}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{tracer}MPEG movie of the tracer field.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=\hsize]{t.eps}}{t.mpg}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D cylinder.gfs
-# Version: 1.1.0
-# Required files:
-# Running time: 32 minutes
-# Generated files: t.mpg vort.mpg t.eps vort.eps
-#
-# The simulation domain has 8 GfsBox linked by 7 GfsGEdge
-8 7 GfsSimulation GfsBox GfsGEdge {} {
-
-  # Stop the simulation at t = 15
-  Time { end = 15 }
-
-  # Use an initial refinement of 6 levels (i.e. 2^6=64x64 for each box)
-  Refine 6
-
-  # Insert the solid boundary defined as x*x + y*y - 0.0625*0.0625 = 0
-  # (i.e. a cylinder of radius 0.0625 centered on the origin)
-  Solid (x*x + y*y - 0.0625*0.0625)
-
-  # Add a passive tracer called T
-  VariableTracer {} T
-
-  # Set the initial x-component of the velocity to 1
-  Init {} { U = 1 }
-
-  # Adapt the mesh using the vorticity criterion at every timestep
-  # down to a maximum level of 6 and with a maximum tolerance of 1e-2
-  AdaptVorticity { istep = 1 } { maxlevel = 6 cmax = 1e-2 }
-
-  # Adapt the mesh using the gradient criterion on variable T at
-  # every timestep, down to a maximum level of 6 and with a maximum tolerance of 1e-2
-  AdaptGradient { istep = 1 } { maxlevel = 6 cmax = 1e-2 } T
-
-  # Set a viscosity source term on the velocity vector with x-component U
-  # The Reynolds number is Re = D*U/Nu = 0.125*1/0.00078125 = 160
-  # where D is the cylinder diameter (as defined in cylinder.gts)
-  SourceDiffusion {} U 0.00078125
-  SourceDiffusion {} V 0.00078125
-
-  # Writes the time and timestep every 10 timesteps on standard error
-  OutputTime { istep = 10 } stderr
-
-  # Writes the simulation size every 10 timesteps on standard error
-  OutputBalance { istep = 10 } stderr
-
-  # Writes info about the convergence of the Poisson solver on standard error
-  OutputProjectionStats { istep = 10 } stderr
-
-  # Pipes a bitmap PPM image representation of the vorticity field at every other timestep
-  # into a conversion pipeline to create a MPEG movie called vort.mpg
-  # Sets the minimum used for colormapping to -10 and the maximum to 10
-  OutputPPM { istep = 2 } { ppm2mpeg > vort.mpg } {
-    min = -10 max = 10 v = Vorticity 
-  }
-
-  # Pipes a bitmap PPM image representation of the T field at every other timestep
-  # into a MJPEGTools conversion pipeline to create a MPEG movie called t.mpg
-  # Sets the minimum used for colormapping to 0 and the maximum to 1
-  OutputPPM { istep = 2 } { ppm2mpeg > t.mpg } {
-    min = 0 max = 1 v = T
-  }
-
-  # Pipes a bitmap PPM image representation of the vorticity field at time 15
-  # into the ImageMagick converter "convert" to create the corresponding EPS file
-  OutputPPM { start = 15 } { convert -colors 256 ppm:- vort.eps } {
-    min = -10 max = 10 v = Vorticity
-  }
-
-  # Pipes a bitmap PPM image representation of the T field at time 15
-  # into the ImageMagick converter "convert" to create the corresponding EPS file
-  OutputPPM { start = 15 } { convert -colors 256 ppm:- t.eps } {
-    min = 0 max = 1 v = T
-  }
-
-  # Outputs profiling information at the end of the simulation to standard error
-  OutputTiming { start = end } stderr
-
-}
-GfsBox {
-  # Left boundary on the leftmost box is:
-  #   Dirichlet U=1 for the x-component of the velocity
-  #   Dirichlet T = 1 if y < 0, 0 otherwise
-  left = Boundary {
-    BcDirichlet U 1
-    BcDirichlet T { return y < 0. ? 1. : 0.; }
-  }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-# Right boundary on the rightmost box is outflow
-GfsBox { right = BoundaryOutflow }
-# All the boxes are linked by left to right links
-1 2 right
-2 3 right
-3 4 right
-4 5 right
-5 6 right
-6 7 right
-7 8 right
diff --git a/doc/examples/cylinder/heated/heated.gfs b/doc/examples/cylinder/heated/heated.gfs
deleted file mode 100644
index efe6d5c..0000000
--- a/doc/examples/cylinder/heated/heated.gfs
+++ /dev/null
@@ -1,114 +0,0 @@
-# Title: Vortex street around a "heated" cylinder
-#
-# Description:
-#
-# Same as the previous example but this time the tracer is "passive
-# temperature" (i.e. the change in density due to heating is assumed to be
-# negligible).
-#
-# This is an example on how to solve an advection--diffusion equation
-# for a tracer with Dirichlet boundary conditions on an immersed solid
-# boundary.
-#
-# \begin{figure}[htbp]
-# \caption{\label{tracer}MPEG movie of the tracer field.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=\hsize]{t.eps}}{t.mpg}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D heated.gfs
-# Version: 1.1.0
-# Required files:
-# Running time: 22 minutes
-# Generated files: t.mpg t.eps
-#
-# The simulation domain has 8 GfsBox linked by 7 GfsGEdge
-8 7 GfsSimulation GfsBox GfsGEdge {} {
-
-  # Stop the simulation at t = 15
-  Time { end = 15 }
-
-  # Use an initial refinement of 6 levels (i.e. 2^6=64x64 for each box)
-  Refine 6
-
-  # Insert the solid boundary defined as x*x + y*y - 0.0625*0.0625 = 0
-  # (i.e. a cylinder of radius 0.0625 centered on the origin)
-  Solid (x*x + y*y - 0.0625*0.0625)
-
-  # Add a passive tracer called T
-  VariableTracer {} T
-
-   # Add diffusion to tracer T
-  SourceDiffusion {} T 0.001
-
-  # Dirichlet boundary condition for T on the cylinder
-  SurfaceBc T Dirichlet 1
-
-  # Set the initial x-component of the velocity to 1
-  Init {} { U = 1 }
-
-  # Adapt the mesh using the vorticity criterion at every timestep
-  # down to a maximum level of 6 and with a maximum tolerance of 1e-2
-  AdaptVorticity { istep = 1 } { maxlevel = 6 cmax = 1e-2 }
-
-  # Adapt the mesh using the gradient criterion on variable T at
-  # every timestep, down to a maximum level of 6 and with a maximum tolerance of 1e-2
-  AdaptGradient { istep = 1 } { maxlevel = 6 cmax = 1e-2 } T
-
-  # Set a viscosity source term on the velocity vector with x-component U
-  # The Reynolds number is Re = D*U/Nu = 0.125*1/0.00078125 = 160
-  # where D is the cylinder diameter (as defined in cylinder.gts)
-  SourceDiffusion {} U 0.00078125
-  SourceDiffusion {} V 0.00078125
-
-  # Writes the time and timestep every 10 timesteps on standard error
-  OutputTime { istep = 10 } stderr
-
-  # Writes the simulation size every 10 timesteps on standard error
-  OutputBalance { istep = 10 } stderr
-
-  # Writes info about the convergence of the Poisson solver on standard error
-  OutputProjectionStats { istep = 10 } stderr
-
-  # Pipes a bitmap PPM image representation of the T field at every other timestep
-  # into a conversion pipeline to create a MPEG movie called t.mpg
-  # Sets the minimum used for colormapping to 0 and the maximum to 0.4
-  OutputPPM { istep = 2 } { ppm2mpeg > t.mpg } {
-    min = 0 max = 0.4 v = T
-  }
-
-  # Pipes a bitmap PPM image representation of the T field at time 15
-  # into the ImageMagick converter "convert" to create the corresponding EPS file
-  OutputPPM { start = 15 } { convert -colors 256 ppm:- t.eps } {
-    min = 0 max = 0.4 v = T
-  }
-
-  # Outputs profiling information at the end of the simulation to standard error
-  OutputTiming { start = end } stderr
-
-}
-GfsBox {
-  # Left boundary on the leftmost box is:
-  #   Dirichlet U=1 for the x-component of the velocity
-  left = Boundary {
-    BcDirichlet U 1
-  }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-# Right boundary on the rightmost box is outflow
-GfsBox { right = BoundaryOutflow }
-# All the boxes are linked by left to right links
-1 2 right
-2 3 right
-3 4 right
-4 5 right
-5 6 right
-6 7 right
-7 8 right
diff --git a/doc/examples/cylinder/parallel/parallel.gfs b/doc/examples/cylinder/parallel/parallel.gfs
deleted file mode 100644
index 55c7f91..0000000
--- a/doc/examples/cylinder/parallel/parallel.gfs
+++ /dev/null
@@ -1,137 +0,0 @@
-# Title: Parallel simulation on four processors
-#
-# Description:
-#
-# The simulation is run in parallel on four processors. Load balancing
-# is used to dynamically redistribute the elements across processors
-# in order to maintain roughly equal mesh sizes on each processor as
-# the resolution varies due to adaptive mesh refinement.
-#
-# \begin{figure}[htbp]
-# \caption{\label{pid}MPEG movie of the processor number
-# assigned to each cell (colour field) together with isolines of
-# vorticity.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=\hsize]{pid.eps}}{pid.mpg}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{balance}Number of elements per processor as a
-# function of time.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{balance.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh parallel.sh
-# Version: 090713
-# Required files: parallel.sh pid.gfv
-# Running time: 32 minutes
-# Generated files: pid.mpg pid.eps balance.eps
-#
-8 7 GfsSimulation GfsBox GfsGEdge {} {
-
-  # Stop the simulation at t = 15
-  Time { end = 15 }
-
-  # Insert the solid boundary defined as x*x + y*y - 0.0625*0.0625 = 0
-  # (i.e. a cylinder of radius 0.0625 centered on the origin)
-  Solid (x*x + y*y - 0.0625*0.0625)
-
-  # Use an initial refinement of 6 levels (i.e. 2^6=64x64 for each
-  # box) only around the solid boundary
-  RefineSolid 6
-
-  # Add a passive tracer called T
-  VariableTracer {} T
-
-  # Set the initial x-component of the velocity to 1
-  Init {} { U = 1 }
-
-  # Adapt the mesh using the vorticity criterion at every timestep
-  # down to a maximum level of 6 and with a maximum tolerance of 1e-2
-  AdaptVorticity { istep = 1 } { maxlevel = 6 cmax = 1e-2 }
-
-  # Adapt the mesh using the gradient criterion on variable T at
-  # every timestep, down to a maximum level of 6 and with a maximum tolerance of 1e-2
-  AdaptGradient { istep = 1 } { maxlevel = 6 cmax = 1e-2 } T
-
-  # Set a viscosity source term on the velocity vector
-  # The Reynolds number is Re = D*U/Nu = 0.125*1/0.00078125 = 160
-  # where D is the cylinder diameter (as defined in cylinder.gts)
-  SourceViscosity 0.00078125
-
-  # Balance the number of elements across parallel subdomains at every
-  # timestep if the imbalance is larger than 0.1 (i.e. 10% difference
-  # between the largest and smallest subdomains).
-  EventBalance { istep = 1 } 0.1
-
-  # Writes the time and timestep every 10 timesteps on standard error
-  OutputTime { istep = 10 } stderr
-
-  # Writes the time and simulation balance every timestep in 'balance'
-  OutputTime { istep = 1 } balance
-  OutputBalance { istep = 1 } balance
-
-  # Writes info about the convergence of the Poisson solver on standard error
-  OutputProjectionStats { istep = 10 } stderr
-
-  # Outputs the simulation to standard output every 0.05 time unit
-  OutputSimulation { step = 0.05 } stdout
-  
-  # Sends a command to gfsview on standard output to save PPM images
-  EventScript { step = 0.05 } {
-      echo "Save stdout { width = 1600 height = 200 }" 
-  }
-
-  # Outputs profiling information at the end of the simulation to standard error
-  OutputTiming { start = end } stderr
-
-  # Generate graphics
-  OutputSimulation { start = end } end.gfs
-  EventScript { start = end } {
-      echo "Save pid.eps { format = EPS width = 800 height = 100 line_width = 0.2 }" | \
-	  gfsview-batch2D end.gfs pid.gfv
-      awk '{
-        if ($1 == "step:")
-          t = $4;
-        else if ($1 == "domain")
-          print t, 100.*($9/$3 - 1.), $3, $5, $9;
-      }' < balance > balance1
-      cat <<EOF | gnuplot
-      set term postscript eps lw 3 solid 20 colour
-      set output 'balance.eps'
-      set xlabel 'Time'
-      set ylabel 'Number of elements per processor'
-      set key bottom right
-      plot 'balance1' u 1:3 w l t 'minimum', '' u 1:4 w l t 'average', '' u 1:5 w l t 'maximum'
-EOF
-  }
-}
-GfsBox {
-  # Left boundary on the leftmost box is:
-  #   Dirichlet U=1 for the x-component of the velocity
-  #   Dirichlet T = 1 if y < 0, 0 otherwise
-  left = Boundary {
-    BcDirichlet U 1
-    BcDirichlet T { return y < 0. ? 1. : 0.; }
-  }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-# Right boundary on the rightmost box is outflow
-GfsBox { right = BoundaryOutflow }
-# All the boxes are linked by left to right links
-1 2 right
-2 3 right
-3 4 right
-4 5 right
-5 6 right
-6 7 right
-7 8 right
diff --git a/doc/examples/cylinder/parallel/parallel.sh b/doc/examples/cylinder/parallel/parallel.sh
deleted file mode 100644
index a4c3329..0000000
--- a/doc/examples/cylinder/parallel/parallel.sh
+++ /dev/null
@@ -1,11 +0,0 @@
-# !/bin/sh
-
-# split the domain twice to get enough boxes to redistribute
-gerris2D -s 2 parallel.gfs > parallel-s2.gfs
-
-# create the initial partition into 2^2=4 subdomains
-gerris2D -p 2 parallel-s2.gfs > parallel-p2.gfs
-
-# run the parallel simulation on 4 processors, pipe the output to
-# gfsview and ppm2mpeg to generate the pid movie
-mpirun -np 4 gerris2D parallel-p2.gfs | gfsview-batch2D pid.gfv | ppm2mpeg -s 800x100 > pid.mpg
diff --git a/doc/examples/cylinder/parallel/pid.gfv b/doc/examples/cylinder/parallel/pid.gfv
deleted file mode 100644
index ed18cbd..0000000
--- a/doc/examples/cylinder/parallel/pid.gfv
+++ /dev/null
@@ -1,40 +0,0 @@
-# GfsView 2D
-View {
-  tx = -3.50148 ty = -0.000614477
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 3.57418
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Vorticity {
-  amin = 0 min = -20
-  amax = 0 max = 20
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 20
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Pid {
-  amin = 1
-  amax = 1
-  cmap = Jet
-}
diff --git a/doc/examples/dam/dam.gfs b/doc/examples/dam/dam.gfs
deleted file mode 100644
index f251b24..0000000
--- a/doc/examples/dam/dam.gfs
+++ /dev/null
@@ -1,87 +0,0 @@
-# Title: Dam break on complex topography
-#
-# Description:
-#
-# An example similar to that
-# \htmladdnormallinkfoot{presented}{http://www.amath.washington.edu/~rjl/catalina/leveque1.pdf}
-# by Randall J. LeVeque illustrating the solution of the
-# \htmladdnormallinkfoot{Saint-Venant}{http://en.wikipedia.org/wiki/Shallow\_water\_equations}
-# (or shallow-water) equations with complex topography, wetting and
-# drying, shocks and hydrostatic equilibrium.
-#
-# \begin{figure}[htbp]
-# \caption{Topography (red) and animation of the water level (blue).}
-# \begin{rawhtml}
-# <DIV CLASS="center">
-# <IMG SRC="dam/dam.gif">
-# </DIV>
-# \end{rawhtml}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D dam.gfs
-# Version: 1.3.1
-# Required files: dam.plot
-# Running time: 2 minutes
-# Generated files: dam.gif
-#
-# Use the GfsRiver Saint-Venant solver
-1 0 GfsRiver GfsBox GfsGEdge {} {
-    PhysicalParams { L = 8. }
-    RefineSolid 9
-
-    # Set a solid boundary close to the top boundary to limit the
-    # domain width to one cell (i.e. a 1D domain)
-    Solid (y/8. + 1./pow(2,9) - 1e-6 - 0.5)
-
-    # Set the topography Zb and the initial water surface elevation P
-    Init {} {
-	Zb = x*x/8.+cos(M_PI*x)/2.
-	P = {
-	    double p = x > 0. ? 0.35 : x < -2. ? 1.9 : -1.;
-	    return MAX (0., p - Zb);
-	}
-    }
-    PhysicalParams { g = 1. }
-
-    # Use a first-order scheme rather than the default second-order
-    # minmod limiter. This is just to add some numerical damping.
-    AdvectionParams {
-       # gradient = gfs_center_minmod_gradient
-	gradient = none
-    }
-
-    Time { end = 40 }
-    OutputProgress { istep = 10 } stderr
-    OutputScalarSum { istep = 10 } ke { v = (P > 0. ? U*U/P : 0.) }
-    OutputScalarSum { istep = 10 } vol { v = P }
-    OutputScalarNorm { istep = 10 } u { v = (P > 0. ? U/P : 0.) }
-
-    # Save a text-formatted simulation
-    OutputSimulation { step = 0.5 } sim-%g.txt { format = text }
-
-    # Use gnuplot to create gif images
-    EventScript { step = 0.5 } {
-	time=`echo $GfsTime | awk '{printf("%4.1f\n", $1);}'`
-	cat <<EOF | gnuplot
-load 'dam.plot'
-set title "t = $time"
-set term postscript eps color 14
-set output "sim.eps"
-plot [-4.:4.]'sim-$GfsTime.txt' u 1:7:8 w filledcu lc 3, 'sim-0.txt' u 1:7 w l lw 4 lc 1 lt 1
-EOF
-	time=`echo $GfsTime | awk '{printf("%04.1f\n", $1);}'`
-	convert -density 300 sim.eps -trim +repage -bordercolor white -border 10 -resize 640x282! sim-$time.gif
-	rm -f sim.eps
-    }
-
-    # Combine all the gif images into a gif animation using gifsicle
-    EventScript { start = end } {
-	gifsicle --colors 256 --optimize --delay 25 --loopcount=0 sim-*.gif > dam.gif
-	rm -f sim-*.gif sim-*.txt
-    }
-}
-GfsBox {
-    left = Boundary
-    right = Boundary
-}
diff --git a/doc/examples/dam/dam.plot b/doc/examples/dam/dam.plot
deleted file mode 100755
index ab043dc..0000000
--- a/doc/examples/dam/dam.plot
+++ /dev/null
@@ -1,146 +0,0 @@
-#!/usr/local/bin/gnuplot -persist
-#
-#    
-#    	G N U P L O T
-#    	Version 4.2 patchlevel 2 
-#    	last modified 31 Aug 2007
-#    	System: Linux 2.6.22-16-386
-#    
-#    	Copyright (C) 1986 - 1993, 1998, 2004, 2007
-#    	Thomas Williams, Colin Kelley and many others
-#    
-#    	Type `help` to access the on-line reference manual.
-#    	The gnuplot FAQ is available from http://www.gnuplot.info/faq/
-#    
-#    	Send bug reports and suggestions to <http://sourceforge.net/projects/gnuplot>
-#    
-# set terminal x11 
-# set output
-unset clip points
-set clip one
-unset clip two
-set bar 1.000000
-set border 31 front linetype -1 linewidth 1.000
-set xdata
-set ydata
-set zdata
-set x2data
-set y2data
-set timefmt x "%d/%m/%y,%H:%M"
-set timefmt y "%d/%m/%y,%H:%M"
-set timefmt z "%d/%m/%y,%H:%M"
-set timefmt x2 "%d/%m/%y,%H:%M"
-set timefmt y2 "%d/%m/%y,%H:%M"
-set timefmt cb "%d/%m/%y,%H:%M"
-set boxwidth
-set style fill  empty border
-set style rectangle back fc lt -3 fillstyle  solid 1.00 border -1
-set dummy x,y
-set format x "% g"
-set format y "% g"
-set format x2 "% g"
-set format y2 "% g"
-set format z "% g"
-set format cb "% g"
-set angles radians
-unset grid
-set key title ""
-unset key
-unset label
-unset arrow
-set style increment default
-unset style line
-unset style arrow
-set style histogram clustered gap 2 title  offset character 0, 0, 0
-unset logscale
-set offsets 0, 0, 0, 0
-set pointsize 1
-set encoding default
-unset polar
-unset parametric
-unset decimalsign
-set view 60, 30, 1, 1
-set samples 100, 100
-set isosamples 10, 10
-set surface
-unset contour
-set clabel '%8.3g'
-set mapping cartesian
-set datafile separator whitespace
-unset hidden3d
-set cntrparam order 4
-set cntrparam linear
-set cntrparam levels auto 5
-set cntrparam points 5
-set size ratio -1 1,1
-set origin 0,0
-set style data points
-set style function lines
-set xzeroaxis linetype -2 linewidth 1.000
-set yzeroaxis linetype -2 linewidth 1.000
-set zzeroaxis linetype -2 linewidth 1.000
-set x2zeroaxis linetype -2 linewidth 1.000
-set y2zeroaxis linetype -2 linewidth 1.000
-set ticslevel 0.5
-set mxtics default
-set mytics default
-set mztics default
-set mx2tics default
-set my2tics default
-set mcbtics default
-set xtics border in scale 1,0.5 mirror norotate  offset character 0, 0, 0
-set xtics autofreq 
-set ytics border in scale 1,0.5 mirror norotate  offset character 0, 0, 0
-set ytics autofreq 
-set ztics border in scale 1,0.5 nomirror norotate  offset character 0, 0, 0
-set ztics autofreq 
-set nox2tics
-set noy2tics
-set cbtics border in scale 1,0.5 mirror norotate  offset character 0, 0, 0
-set cbtics autofreq 
-set title "" 
-set title  offset character 0, 0, 0 font "" norotate
-set timestamp bottom 
-set timestamp "" 
-set timestamp  offset character 0, 0, 0 font "" norotate
-set rrange [ * : * ] noreverse nowriteback  # (currently [0.00000:10.0000] )
-set trange [ * : * ] noreverse nowriteback  # (currently [-5.00000:5.00000] )
-set urange [ * : * ] noreverse nowriteback  # (currently [-5.00000:5.00000] )
-set vrange [ * : * ] noreverse nowriteback  # (currently [-5.00000:5.00000] )
-set xlabel "x" 
-set xlabel  offset character 0, 0, 0 font "" textcolor lt -1 norotate
-set x2label "" 
-set x2label  offset character 0, 0, 0 font "" textcolor lt -1 norotate
-set xrange [ * : * ] noreverse nowriteback  # (currently [-2.77390:0.697413] )
-set x2range [ * : * ] noreverse nowriteback  # (currently [-2.77390:0.697413] )
-set ylabel "z" 
-set ylabel  offset character 0, 0, 0 font "" textcolor lt -1 rotate by 90
-set y2label "" 
-set y2label  offset character 0, 0, 0 font "" textcolor lt -1 rotate by 90
-set yrange [ * : * ] noreverse nowriteback  # (currently [-1.40832:2.01706] )
-set y2range [ * : * ] noreverse nowriteback  # (currently [-1.25079:2.02955] )
-set zlabel "" 
-set zlabel  offset character 0, 0, 0 font "" textcolor lt -1 norotate
-set zrange [ * : * ] noreverse nowriteback  # (currently [-10.0000:10.0000] )
-set cblabel "" 
-set cblabel  offset character 0, 0, 0 font "" textcolor lt -1 norotate
-set cbrange [ * : * ] noreverse nowriteback  # (currently [-10.0000:10.0000] )
-set zero 1e-08
-set lmargin -1
-set bmargin -1
-set rmargin -1
-set tmargin -1
-set locale "C"
-set pm3d explicit at s
-set pm3d scansautomatic
-set pm3d interpolate 1,1 flush begin noftriangles nohidden3d corners2color mean
-set palette positive nops_allcF maxcolors 0 gamma 1.5 color model RGB 
-set palette rgbformulae 7, 5, 15
-set colorbox default
-set colorbox vertical origin screen 0.9, 0.2, 0 size screen 0.05, 0.6, 0 bdefault
-set loadpath 
-set fontpath 
-set fit noerrorvariables
-# GNUTERM = "x11"
-# plot [-4.:4.]'sim-9.txt' u 1:8:($4+$8) w filledcu lc 3, 'sim-0.txt' u 1:8 w l lw 2 lc 1
-#    EOF
diff --git a/doc/examples/depend.py b/doc/examples/depend.py
deleted file mode 100755
index dc18220..0000000
--- a/doc/examples/depend.py
+++ /dev/null
@@ -1,32 +0,0 @@
-#!/usr/bin/python
-
-import sys
-import os
-import os.path
-import gfs2tex
-
-dists = ""
-depends = ""
-docs = ""
-
-for start in sys.argv[1:]:
-    for root, dirs, files in os.walk(start,topdown=True):
-        if not ".xvpics" in root:
-            example = gfs2tex.Example(root)
-            name = example.path + "/" + example.name + ".gfs"
-            docs += "\\\n\t" + name + ".html"
-            dists += "\\\n\t" + name
-            depends += "\\\n\t" + name
-            for f in example.required:
-                if os.path.exists("../../_darcs/current/doc/examples/" + example.path + "/" + f):
-                    dists += "\\\n\t" + example.path + "/" + f
-            for f in example.generated:
-                depends += "\\\n\t" + example.path + "/" + f
-                if f[-4:] == ".mpg":
-                    docs += "\\\n\t" + example.path + "/" + f
-
-print "DOCS = " + docs + dists
-print ""
-print "EXTRA_DIST += " + dists
-print ""
-print "examples.tex: " + depends
diff --git a/doc/examples/garden/end.gfv b/doc/examples/garden/end.gfv
deleted file mode 100644
index 8354bc9..0000000
--- a/doc/examples/garden/end.gfv
+++ /dev/null
@@ -1,28 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 24.9119
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Hs {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 0 levels = .1,.2,.3,.4,.5,.6,.7,.8,.9,1
-}
diff --git a/doc/examples/garden/garden.gfs b/doc/examples/garden/garden.gfs
deleted file mode 100644
index ef268e8..0000000
--- a/doc/examples/garden/garden.gfs
+++ /dev/null
@@ -1,121 +0,0 @@
-# Title: "Garden sprinkler effect" in wave model
-#
-# Description:
-#
-# The wave model is used to reproduce the classical "Garden Sprinkler
-# Effect" (GSE), a numerical artifact of the discrete directions of
-# wave propagation (see Tolman, 2002).
-#
-# A spatially-Gaussian wave spectrum is initialised in a 5000
-# km-squared domain. The other parameters are those of Tolman, 2002.
-#
-# The final (t = 5 days) significant wave height for different model
-# runs is illustrated in Figure \ref{end}. The interval between the
-# isolines is 0.1 metres as in Figure 1 of Tolman, 2002. For a small
-# number of discrete directions (24), the GSE is evident and the
-# results closely match those of Tolman both for the constant
-# resolution and the adaptive version of the code. For larger number
-# of directions (60 and 120), the results do not show any obvious GSE
-# and match the corresponding results of Tolman (Figure 1.b of Tolman,
-# 2002 but note that the spatial resolution of Tolman is finer, 25 km
-# rather than 78 km here).
-#
-# \begin{figure}[htbp]
-# \caption{\label{end}Final (t = 5 days) significant wave height for
-# different model runs.}
-# \begin{center}
-# \includegraphics[width=\hsize]{end.eps}
-# \end{center}
-# \end{figure}
-#
-# The evolution in time of the significant wave height together with
-# the corresponding adaptive discretisation is illustrated in Figure
-# \ref{mesh} for 120 directions. The mesh is adapted according to the
-# spatial gradient in the significant wave height. This results in
-# substantial savings in computational cost as illustrated by the
-# timings given in Table \ref{cpu}. The computational cost with 120
-# directions is comparable to the cost with 24 directions on a regular
-# (i.e. non-adaptive) mesh. This demonstrates that the GSE can be
-# alleviated -- at comparable computational cost -- by combining
-# adaptive refinement with a refined discretisation in direction
-# space.
-#
-# \begin{figure}[htbp]
-# \caption{\label{mesh}Evolution of the significant wave height and
-# adaptive mesh. 120 directions.}
-# \begin{center}
-# \includegraphics[width=\hsize]{mesh.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{table}[htbp]
-# \caption{\label{cpu}CPU time for the four models of Figure \ref{end}.}
-# \begin{center}
-# \input{cpu.tex}
-# \end{center}
-# \end{table}
-#
-# Author: St\'ephane Popinet
-# Command: sh garden.sh
-# Version: 1.2.1
-# Required files: garden.sh end.gfv mesh.gfv
-# Running time: 41 minutes
-# Generated files: end.eps mesh.eps cpu.tex
-#
-1 0 GfsWave GfsBox GfsGEdge {} {
-    Refine 6
-
-    # Default time units for wave model is hours
-    # 120 hours = 5 days
-    Time { end = 120 }
-
-    # Default length units for wave model is km
-    PhysicalParams { L = 5000 }
-
-    # Define some useful functions
-    Global {
-        /* gaussian distribution */
-        static double gaussian (double f, double fmean, double fsigma) {
-            return exp (-((f - fmean)*(f - fmean))/(2.*fsigma*fsigma));
-        }
-        /* cos(theta)^n distribution */
-        static double costheta (double theta, double thetam, double thetapower) {
-            double a = cos (theta - thetam);
-            return a > 0. ? pow (a, thetapower) : 0.;
-        }
-    }
-
-    # Initialise the wave spectrum
-    InitWave {} {
-        /* This function defines the spectral distribution:
-         * a gaussian in frequency space and 
-         * a cos(theta)^2 distribution in direction space 
-	 */
-        return gaussian (Frequency, 0.1, 0.02)*
-               costheta (Direction, 30.*M_PI/180., 2.);
-    } {
-        /* This function defines the significant wave height:
-         * the energy is a gaussian bump in (x,y) space,
-         * the maximum significant wave height is 2.5 
-	 */
-        x -= -2000.;
-        y -= -2000.;
-        double Hsmax = 2.5;
-        double E = (Hsmax*Hsmax/16.)*gaussian (sqrt (x*x + y*y), 0., 150.);
-        return 4.*sqrt (E);
-    }
-
-    AdaptGradient { istep = 1 } { cmax = 0.04 minlevel = MINLEVEL maxlevel = 6 } Hs
-
-    OutputTime { istep = 1 } log-MINLEVEL-NTHETA
-    OutputScalarStats { step = 12 } hs-MINLEVEL-NTHETA { v = Hs }
-    OutputSimulation { step = 12 } sim-MINLEVEL-NTHETA-%g.gfs
-    EventScript { step = 12 } { gzip -f sim-*-*-*.gfs }
-    OutputSimulation { start = end } end-MINLEVEL-NTHETA.gfs    
-    EventScript { start = end } { gzip -f end-*-*.gfs }
-    OutputPPM { step = 12 } { ppm2mpeg > hs-MINLEVEL-NTHETA.mpg } { v = Hs maxlevel = 7 }
-} {
-    # Number of discretised directions (default is 24)
-    ntheta = NTHETA
-}
-GfsBox {}
diff --git a/doc/examples/garden/garden.sh b/doc/examples/garden/garden.sh
deleted file mode 100755
index 698f43f..0000000
--- a/doc/examples/garden/garden.sh
+++ /dev/null
@@ -1,79 +0,0 @@
-#!/bin/sh
-
-if  gerris2D -DMINLEVEL=6 -DNTHETA=24  garden.gfs &&
-    gerris2D -DMINLEVEL=0 -DNTHETA=24  garden.gfs &&
-    gerris2D -DMINLEVEL=0 -DNTHETA=60  garden.gfs &&
-    gerris2D -DMINLEVEL=0 -DNTHETA=120 garden.gfs; then :
-else
-    exit 1
-fi
-
-for i in 6-24 0-24 0-60 0-120; do
-    echo "Save end-$i.gnu { format = Gnuplot }" | gfsview-batch2D end-$i.gfs.gz end.gfv
-done
-
-for i in 0 24 72 120; do
-    echo "Save mesh-$i.gnu { format = Gnuplot }" | gfsview-batch2D sim-0-120-$i.gfs.gz mesh.gfv
-done
-
-cat <<EOF | gnuplot
-set term postscript eps lw 1 solid 10
-
-set output 'end.eps'
-set multiplot
-set size 0.5,0.5
-set origin 0,0.5
-unset key
-set xtics 0,1000,4000
-set ytics 0,1000,3000
-set title 'Non-adaptive 24 directions'
-plot [-500:4000][-500:3000]'end-6-24.gnu' u (\$1+2000.):(\$2+2000.) w l
-set origin 0.5,0.5
-set title 'Adaptive 24 directions'
-plot [-500:4000][-500:3000]'end-0-24.gnu' u (\$1+2000.):(\$2+2000.) w l
-set origin 0,0
-set title 'Adaptive 60 directions'
-plot [-500:4000][-500:3000]'end-0-60.gnu' u (\$1+2000.):(\$2+2000.) w l
-set origin 0.5,0
-set title 'Adaptive 120 directions'
-plot [-500:4000][-500:3000]'end-0-120.gnu' u (\$1+2000.):(\$2+2000.) w l
-unset multiplot
-
-set output 'mesh.eps'
-set size 1,1
-set origin 0,0
-set multiplot
-set size 0.5,0.5
-set origin 0,0.5
-unset key
-set xtics 0,1000,4000
-set ytics 0,1000,3000
-set title 't = 0'
-plot [-500:4000][-500:3000]'mesh-0.gnu' u (\$1+2000.):(\$2+2000.) w l
-set origin 0.5,0.5
-set title 't = 1 day'
-plot [-500:4000][-500:3000]'mesh-24.gnu' u (\$1+2000.):(\$2+2000.) w l
-set origin 0,0
-set title 't = 3 days'
-plot [-500:4000][-500:3000]'mesh-72.gnu' u (\$1+2000.):(\$2+2000.) w l
-set origin 0.5,0
-set title 't = 5 days'
-plot [-500:4000][-500:3000]'mesh-120.gnu' u (\$1+2000.):(\$2+2000.) w l
-unset multiplot
-
-EOF
-
-cpu_6_24=`awk '{cpu=$8}END{printf ("%.0f", cpu);}' < log-6-24`
-cpu_0_24=`awk '{cpu=$8}END{printf ("%.0f", cpu);}' < log-0-24`
-cpu_0_60=`awk '{cpu=$8}END{printf ("%.0f", cpu);}' < log-0-60`
-cpu_0_120=`awk '{cpu=$8}END{printf ("%.0f", cpu);}' < log-0-120`
-
-cat <<EOF > cpu.tex
-\\begin{tabular}{c|c|c}
-Adaptivity & \\# directions & CPU time (seconds)\\\\\\hline
-No & 24 & $cpu_6_24 \\\\
-Yes & 24 & $cpu_0_24 \\\\
-Yes & 60 & $cpu_0_60 \\\\
-Yes & 120 & $cpu_0_120
-\\end{tabular}
-EOF
diff --git a/doc/examples/garden/mesh.gfv b/doc/examples/garden/mesh.gfv
deleted file mode 100644
index 83b64cb..0000000
--- a/doc/examples/garden/mesh.gfv
+++ /dev/null
@@ -1,36 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 24.9119
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Hs {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 7
-}
-Cells {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-}
diff --git a/doc/examples/gfs-highlight.in b/doc/examples/gfs-highlight.in
deleted file mode 100755
index 99b998f..0000000
--- a/doc/examples/gfs-highlight.in
+++ /dev/null
@@ -1,108 +0,0 @@
-#!/bin/sh
-
-wiki="http:\/\/gfs.sf.net\/wiki\/index.php"
-title=""
-css="darcs.css"
-
-path="@prefix@/share/gerris"
-
-usage()
-{
-	cat <<EOF
-Usage: gfs-highlight [OPTIONS] < input.gfs > output.html
-
-Syntax highlighting/hypertext linking of Gerris simulation files.
-
-Options:
-	[--title=TITLE] sets the page title
-	[--css=FILE]    sets the CSS stylesheet filename
-        [--comments]    include comment block at the start
-        [--bold]        use bold instead of links
-        [--help]        displays this message and exits
-EOF
-	exit $1
-}
-
-comment=0
-bold=0
-while test $# -gt 0; do
-  case "$1" in
-  -*=*) optarg=`echo "$1" | sed 's/[-_a-zA-Z0-9]*=//'` ;;
-  *) optarg= ;;
-  esac
-
-  case $1 in
-    --title=*)
-      title=$optarg
-      ;;
-    --css=*)
-      css=$optarg
-      ;;
-    --comment)
-      comment=1
-      ;;
-    --bold)
-      bold=1
-      ;;
-    --help)
-      usage 0 1>&2
-      ;;
-    *)
-      usage 0 1>&2
-      ;;
-  esac
-  shift
-done
-
-if test "x$title" = "x"; then :
-cat <<EOF
-<tt class="gfs">
-EOF
-else
-cat <<EOF
-<html>
-<head>
-<title>$title</title>
-<link rel="stylesheet" type="text/css" href="$css">
-</head>
-<body><tt class="gfs">
-EOF
-fi
-
-file=`mktemp gfs-highlight.XXXXXX`
-ln -s -f $path/gfs.lang $file
-
-awk -v comment=$comment 'BEGIN{ infile=comment } {
-       if ($2 == "Generated" && $3 == "files:") {
-         infile = 1; 
-         while ($1 == "#") getline; 
-         print $0; 
-       }
-       else if (infile) 
-         print $0;
-       else if ($5 == "GfsGEdge") {
-         infile = 1;
-         print $0;
-       }
-     }' | \
-source-highlight --lang-def=$file --out-format=html-css | \
-(
-if test $bold = "1"; then
-    sed "s/\"gfs_keyword\">\(Gfs\)\{0,1\}\([a-zA-Z0-9_]*\)<\/span>/"gfs_keyword"><b>\1\2<\/b><\/span>/g"
-else
-    sed "s/\"gfs_keyword\">\(Gfs\)\{0,1\}\([a-zA-Z0-9_]*\)<\/span>/"gfs_keyword"><a href=\"$wiki\/Gfs\2\">\1\2<\/a><\/span>/g"
-fi
-)
-
-rm -f $file
-
-if test "x$title" = "x"; then :
-cat <<EOF
-</tt>
-EOF
-else
-cat <<EOF
-</tt></body>
-</html>
-EOF
-fi
diff --git a/doc/examples/gfs2doc.in b/doc/examples/gfs2doc.in
deleted file mode 100755
index 469b410..0000000
--- a/doc/examples/gfs2doc.in
+++ /dev/null
@@ -1,89 +0,0 @@
-#!/usr/bin/python
-
-import sys
-import os
-import stat
-import glob
-import tempfile
-
-sys.path.append("@prefix@/lib/gerris")
-import gfs2tex
-
-if len(sys.argv) < 2:
-    print "usage: gfs2doc DIR1 DIR2..."
-    sys.exit(1)
-
-def myexit(s):
-    os.system("rm -r -f " + wdname)
-    sys.exit(s)
-    
-for d in sys.argv[1:]:
-    example = gfs2tex.Example(d)
-    example.write()
-    wdname = tempfile.mkdtemp()
-    tex = open(wdname + "/" + example.name + ".tex", "w")
-    tex.write(r"""
-    \documentclass[a4paper]{article}
-    \usepackage{hevea}
-    \usepackage[usenames]{color}
-    \usepackage{graphicx}
-    
-    \oddsidemargin=4mm
-    \evensidemargin=-1mm
-    \topmargin=-7mm
-    \textwidth=15.42cm
-    \textheight=23.2cm
-
-    \newcommand{\htmladdnormallinkfoot}[2]{\footahref{#2}{#1}}
-    \newcommand{\htmladdnormallink}[2]{\ahref{#2}{#1}}
-    
-    \begin{document}
-    \section{Examples}
-    """)
-    tex.write(r"\input{" + example.name + "/" + example.name + ".tex" + "}\n")
-    tex.write("\\end{document}\n")
-    tex.close()
-    os.symlink(os.getcwd() + "/" + example.name, wdname + "/" + example.name)
-    if os.system("rm -r -f " + example.name + ".pdf " + example.name + "_html" +\
-              "&& cd " + wdname + \
-              "&& latex -interaction=nonstopmode 2>&1 " + example.name + ".tex" +\
-              "&& latex -interaction=nonstopmode " + example.name + ".tex") or \
-       os.system("cd " + wdname + \
-              "&& dvips -Ppdf -G0 " + example.name + ".dvi -o " + example.name + ".ps" +\
-              "&& ps2pdf -sPAPERSIZE=a4 -dMaxSubsetPct=100 -dCompatibilityLevel=1.2 -dSubsetFonts=true -dEmbedAllFonts=true " + example.name + ".ps " + example.name + ".pdf" +\
-              "&& mv " + example.name + ".pdf " + os.getcwd()):
-        print "\n\n**** Errors occured while generating file ****: " + example.name + ".pdf"
-        myexit(1)
-        
-    print "\n\n**** Successfully generated file ****: " + example.name + ".pdf\n\n"
-    hname = wdname + "/" + example.name + "_html"
-    os.mkdir(hname)
-    os.symlink("../" + example.name, hname + "/" + example.name)
-    wdir = os.getcwd()
-    if os.system("cd " + wdname + \
-		 "&& hevea -fix " + example.name + ".tex"):
-        print "\n\n**** Errors occured while generating directory ****: " + example.name + "_html"
-        myexit(1)
-    os.system("cd " + wdname + \
-                  "; imagen -res 600 -extra \"pnmscale 0.24\" " + example.name + " " + \
-                  "; mv -f " + example.name + "[0-9][0-9][0-9].png " + example.name + ".html " + \
-                  hname + \
-                  "; mv " + hname + " " + wdir)
-        
-    print "\n\n**** Successfully generated directory ****: " + example.name + "_html\n"
-    files = example.name + "/" + example.name + ".gfs"
-    for f in example.required:
-        files += " " + example.name + "/" + f
-    if os.system("tar czf " + example.name + ".tgz " + files):
-        print "**** Errors occured while generating file ****: " + example.name + ".tgz"
-        os.remove(example.name + ".tgz")
-        myexit(1)
-    status,msg = example.test()
-    if status != None:
-        print "**** Errors occured while generating file ****: " + example.name + ".tgz"
-        print " ".join(msg)
-        os.remove(example.name + ".tgz")
-        myexit(1)
-
-    print "**** Successfully generated file ****: " + example.name + ".tgz"
-    os.system("rm -r -f " + wdname)
diff --git a/doc/examples/gfs2tex b/doc/examples/gfs2tex
deleted file mode 100755
index d2588a0..0000000
--- a/doc/examples/gfs2tex
+++ /dev/null
@@ -1,18 +0,0 @@
-#!/usr/bin/python
-
-import sys
-import os
-import os.path
-import glob
-import gfs2tex
-
-if not os.access("examples",os.F_OK):
-    os.mkdir("examples")
-
-for start in sys.argv[1:]:
-    for root, dirs, files in os.walk(start,topdown=True):
-        if not ".xvpics" in root:
-            example = gfs2tex.Example(root)
-            if not os.access("examples/" + example.path,os.F_OK):
-                os.symlink("../" + example.path, "examples/" + example.path)
-            example.write(style="examples.css")
diff --git a/doc/examples/gfs2tex.py b/doc/examples/gfs2tex.py
deleted file mode 100644
index fd3c479..0000000
--- a/doc/examples/gfs2tex.py
+++ /dev/null
@@ -1,175 +0,0 @@
-import sys
-import os
-import os.path
-import re
-import tempfile
-
-def generated(lines):
-    for line in lines:
-        record = line.split()
-        if len(record) > 3 and \
-               record[0] == "#" and record[1] == "Generated" and record[2] == "files:":
-            return record[3:]
-    return []
-
-class Example:
-    def __init__(self,path):
-        if path[0:2] == "./":
-            path = path[2:]
-        self.path, self.name = os.path.split(path)
-        if self.name == "":
-            self.name = self.path
-        elif self.path == "":
-            self.path = self.name
-        else:
-            self.path += "/" + self.name
-        self.section = ["\\subsection","\\subsubsection"][self.path.count("/")]
-        file = open(self.path + "/" + self.name + ".gfs")
-        lines = file.readlines()
-        self.generated = generated(lines)
-        if os.access(self.path + "/status", os.R_OK):
-            self.status = open(self.path + "/status").readline()
-            self.generated.append("status")
-        else:
-            self.status = None
-        p = re.compile(r"\\label\{[a-zA-Z0-9_\-]*\}")
-        labels = []
-        for line in lines:
-            for l in re.findall(p,line):
-                labels.append(l[7:-1])
-
-        # adds the full path to references to generated files and makes labels absolute
-        lines1 = []
-        path = self.path.replace("/", "-")
-        for line in lines:
-            for gen in self.generated:
-                line = line.replace("{" + gen + "}", "{" + self.path + "/" + gen + "}")
-            for l in labels:
-                line = line.replace("{" + l + "}", "{" + path + "-" + l + "}")
-            lines1.append(line)
-        lines = lines1
-
-        self.title = []
-        self.description = []
-
-        insthg = None
-        for line in lines:
-            record = line.split()
-            if len(record) > 0 and record[0] == "#":
-                if len(record) > 1:
-                    if record[1] == "Title:":
-                        self.title.append(" ".join(record[2:]))
-                        insthg = self.title
-                    elif record[1] == "Description:":
-                        insthg = self.description
-                    elif record[1] == "Required" and record[2] == "files:":
-                        self.required = record[3:]
-                        insthg = None
-                    elif record[1] == "Command:":
-                        self.command = " ".join(record[2:])
-                        insthg = None
-                    elif record[1] == "Author:":
-                        self.author = " ".join(record[2:])
-                        insthg = None
-                    elif record[1] == "Running" and record[2] == "time:":
-                        self.time = " ".join(record[3:])
-                        insthg = None
-                    elif record[1] == "Version:":
-                        self.version = " ".join(record[2:])
-                        insthg = None
-                    elif not insthg == None:
-                        insthg.append(" ".join(record[1:]))
-                elif not insthg == None:
-                    insthg.append(" ".join(record[1:]))
-
-        if os.access(self.path + "/runtime", os.R_OK):
-            self.runtime = float(open(self.path + "/runtime").readline())
-            self.time = ""
-            m = int(self.runtime/60.)
-            if m > 0:
-                self.time += repr(m) + " minutes"
-            s = int(self.runtime-60.*m)
-            if s > 0:
-                self.time += " " + repr(s) + " seconds"
-            self.generated.append("runtime")
-        else:
-            self.runtime = None
-            
-    def write(self,file=None,style=""):
-        if file == None:
-            file = open(self.path + "/" + self.name + ".tex", 'w')
-	file.write(self.section + "{\\label{" + self.name + "}")
-        if self.status:
-            file.write(self.status)
-	file.write("\n".join(self.title) + "}\n")
-	if self.section == "\\subsection":
-	    file.write("\\cutname{" + self.name + ".html}\n")
-        file.write("\\begin{description}\n")
-        file.write("\\item[Author]" + self.author + "\n")
-        file.write("\\item[Command]" + "{\\tt " + self.command.replace('&',r'\&') + "}\n")
-        file.write("\\item[Version]" + self.version + "\n")
-        f = self.name + ".gfs"
-        required = " " + f + \
-                   " \\htmladdnormallinkfoot{(view)}{" + self.path + "/" + f + ".html}" +\
-                   " \\htmladdnormallinkfoot{(download)}{" + self.path + "/" + f + "}\\\\"
-        for f in self.required:
-            required += " \\htmladdnormallinkfoot{" + f + "}{" + self.path + "/" + f + "}"
-        file.write("\\item[Required files]" + required + "\n")
-        file.write("\\item[Running time]" + self.time + "\n")
-        file.write("\\end{description}\n")
-        file.write("\n".join(self.description))
-        self.colorize(style)
-
-    def colorize(self,style=""):
-        basename = self.path + "/" + self.name
-        if style != "":
-            style = " --css=" + ["../","../../"][self.path.count("/")] + style
-        os.system("gfs-highlight " + \
-                      "--title=" + self.name + ".gfs" + style + \
-                      " < " + basename + ".gfs > " + basename + ".gfs.html")
-
-    def test(self):
-        wdname = tempfile.mkdtemp()
-        path = os.getcwd() + "/" + self.path + "/"
-        files = path + self.name + ".gfs"
-        for f in self.required:
-            files += " " + path + f
-        command = self.command
-        for v in ["2D","2D3","3D"]:
-            command = command.replace("gfsview" + v, "gfsview-batch" + v)
-        out = os.popen("cd " + wdname + " && " +\
-                       "mkdir test && cd test && " +\
-                       "cp -f " + files + " . && " +\
-                       "awk '{ if ($1 == \"Time\" || $1 == \"GfsTime\")" +\
-                       "  print $0 \"\\nTime { iend = 1 }\";" +
-                       "else print $0;"
-                       "}' < " + self.name + ".gfs > " + self.name + ".tmp && " +\
-                       "mv -f " + self.name + ".tmp " + self.name + ".gfs && ( " +\
-		       "bash -c \" set -o pipefail && " + command + "\" ) 2>&1")
-        lines = out.readlines()
-        status = out.close()
-        os.system("rm -r -f " + wdname)
-        if status != None:
-            return status,lines
-        else:
-            return None,None
-
-    def run(self,env=""):
-        out = os.popen("cd " + self.path + " && ( time -p " +\
-                       " bash -c \" set -o pipefail && " + env + " " + self.command + "\" ) 2>&1")
-        lines = []
-        for l in out:
-            record = l.split()
-            if len(record) > 0:
-                if record[0] == "user":
-                    self.runtime = float(record[1])
-                    print >>open(self.path + "/runtime",'w'), self.runtime
-                elif record[0] != "real" and record[0] != "sys":
-                    lines.append(l)
-            else:
-                lines.append(l)
-        status = out.close()
-        if status != None:
-            return status,lines
-        else:
-            return None,None
diff --git a/doc/examples/gfsxref b/doc/examples/gfsxref
deleted file mode 100755
index f17add4..0000000
--- a/doc/examples/gfsxref
+++ /dev/null
@@ -1,101 +0,0 @@
-#!/bin/sh
-
-usage()
-{
-	cat <<EOF
-Usage: gfsxref [OPTIONS] KEYWORD < input.gfs > output.html
-
-Creates cross-references for occurences of KEYWORD in input.gfs
-
-Options:
-	[--url=URL] reference URL for input.gfs
-        [--help]    displays this message and exits
-EOF
-	exit $1
-}
-
-if test $# -lt 1; then
-	usage 1 1>&2
-fi
-
-while test $# -gt 1; do
-  case "$1" in
-  -*=*) optarg=`echo "$1" | sed 's/[-_a-zA-Z0-9]*=//'` ;;
-  *) optarg= ;;
-  esac
-
-  case $1 in
-    --url=*)
-      url=$optarg
-      ;;
-    --help)
-      usage 0 1>&2
-      ;;
-    --*)
-      usage 0 1>&2
-      ;;
-  esac
-  shift
-done
-
-title=`awk --posix -v keyword=$1 '
-BEGIN {
-  if (substr (keyword, 1, 3) == "Gfs")
-    keyword = substr (keyword, 4);
-  paren = -1;
-  n = 0;
-  last = "";
-}
-{
-  if ($1 == "#" && $2 == "Title:") {
-    title = $3;
-    for (i = 4; i <= NF; i++)
-      title = title " " $i;
-  }
-  else if ($1 != "#" && $0 ~ "(^|[[:blank:]])+(Gfs){0,1}" keyword "[[:blank:]]") {
-    if (last != "")
-      block[n++] = last;
-    last = $0;
-    paren = 0;
-    for (i = 2; i <= NF; i++) {
-      if ($i == "#")
-        break;
-      if (index ($i, "{"))
-        paren++;
-      if (index ($i, "}"))
-        paren--;
-    }
-  }
-  else if (paren > 0) {
-    last = last "\n" $0;
-    for (i = 1; i <= NF; i++) {
-      if ($i == "#")
-        break;
-      if (index ($i, "{"))
-        paren++;
-      if (index ($i, "}"))
-        paren--;
-    }
-  }
-} 
-END {
-  print title
-  if (last != "")
-      block[n++] = last;
-  for (i = 0; i < n; i++)
-    print block[i] > "xref_" i;
-}'`
-
-if test -f xref_0; then
-    cat <<EOF
-<li><a href="$url">$title</a></li>
-EOF
-
-    for file in xref_*; do
-	echo "<p>"
-	gfs-highlight --comment --bold < $file
-	echo "</p>"
-    done
-    
-    rm -f xref_*
-fi
diff --git a/doc/examples/hump/cells.gfv b/doc/examples/hump/cells.gfv
deleted file mode 100644
index cd4d75e..0000000
--- a/doc/examples/hump/cells.gfv
+++ /dev/null
@@ -1,19 +0,0 @@
-# GfsView 2D
-View {
-  tx = -1.10977 ty = -0.473248
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 17.1233
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Cells {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-}
diff --git a/doc/examples/hump/hump.gfs b/doc/examples/hump/hump.gfs
deleted file mode 100644
index bf2d467..0000000
--- a/doc/examples/hump/hump.gfs
+++ /dev/null
@@ -1,104 +0,0 @@
-# Title: Small amplitude solitary wave interacting with a parabolic hump
-#
-# Description:
-#
-# This test case was proposed by LeVeque (JCP, 1998) as a check for
-# the accuracy of hydrostatic balance for the Saint-Venant equations
-# with variable topography. A solitary wave of small amplitude is
-# generated by an initial discontinuity on the left-hand-side of the
-# domain and moves past a parabolic hump creating complex focusing and
-# diffraction (Figure \ref{hump}). Any inaccuracy in hydrostatic
-# balance will clearly affect the solution given the small amplitude
-# of the initial perturbation.
-#
-# \begin{figure}[htbp]
-# \caption{\label{hump}Animation of the topography (coloured) and free
-# surface (white). The vertical scale is exagerated.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=0.6\hsize]{hump.eps}}{hump.mpg}
-# \end{center}
-# \end{figure}
-#
-# Figure \ref{evolution} illustrates the free surface and
-# corresponding adaptive mesh evolution. This figure agrees well with
-# the results reported by
-# \htmladdnormallinkfoot{LeVeque}{http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.57.5450}
-# using a non-adaptive high-resolution Godunov method (Figure 7, right
-# column, note that the resolution of the results by LeVeque is
-# slightly larger: $600\times 300$ compared to $512\times 256$ here).
-#
-# \begin{figure}[htbp]
-# \caption{\label{evolution}Evolution of the free surface and adaptive mesh.}
-# \begin{center}
-# \begin{tabular}{cc}
-# \includegraphics[width=0.5\hsize]{iso-0.6.eps} &
-# \includegraphics[width=0.5\hsize]{cells-0.6.eps} \\
-# \multicolumn{2}{c}{$t = 0.6$} \\
-# \includegraphics[width=0.5\hsize]{iso-0.9.eps} &
-# \includegraphics[width=0.5\hsize]{cells-0.9.eps} \\
-# \multicolumn{2}{c}{$t = 0.9$} \\
-# \includegraphics[width=0.5\hsize]{iso-1.2.eps} &
-# \includegraphics[width=0.5\hsize]{cells-1.2.eps} \\
-# \multicolumn{2}{c}{$t = 1.2$} \\
-# \includegraphics[width=0.5\hsize]{iso-1.5.eps} &
-# \includegraphics[width=0.5\hsize]{cells-1.5.eps} \\
-# \multicolumn{2}{c}{$t = 1.5$} \\
-# \includegraphics[width=0.5\hsize]{iso-1.8.eps} &
-# \includegraphics[width=0.5\hsize]{cells-1.8.eps} \\
-# \multicolumn{2}{c}{$t = 1.8$}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D hump.gfs | gfsview2D hump.gfv | ppm2mpeg > hump.mpg
-# Version: 1.3.1
-# Required files: hump.gfv isolines.gfv cells.gfv
-# Running time: 7 minutes
-# Generated files: cells-0.6.eps cells-1.2.eps cells-1.8.eps iso-0.9.eps iso-1.5.eps cells-0.9.eps cells-1.5.eps iso-0.6.eps iso-1.2.eps iso-1.8.eps hump.eps hump.mpg
-#
-# Recenter the reference box on (0.5,0.5) (rather than the default (0,0))
-2 1 GfsRiver GfsBox GfsGEdge { x = 0.5 y = 0.5 } {
-    Refine 8
-    Init {} {
-	# Parabolic hump
-	Zb = 0.8*exp(-5.*(x - 0.9)*(x - 0.9) - 50.*(y - 0.5)*(y - 0.5))
-	# Initial free surface and perturbation
-	P = (0.05 < x && x < 0.15 ? 1.01 : 1) - Zb
-    }
-    PhysicalParams { g = 1 }
-    AdvectionParams { cfl = 0.5 }
-    AdaptGradient { istep = 1 } { 
-	cmax = 1e-4
-	cfactor = 2
-	maxlevel = 8
-	minlevel = 6
-    } (P + Zb)
-    Time { end = 1.8 }
-    OutputTime { istep = 10 } stderr
-    OutputSimulation { istep = 10 } stdout
-    EventScript { istep = 10 } { echo "Save stdout { width = 640 height = 480 }" }
-    OutputSimulation { start = 0.6 step = 0.3 } sim-%g.gfs
-    EventScript { start = end } {
-	for i in 0.6 0.9 1.2 1.5 1.8; do
-	    echo "Save stdout { format = EPS line_width = 0.2 }" | \
-		gfsview-batch2D sim-$i.gfs isolines.gfv > iso-$i.eps
-	    echo "Save stdout { format = EPS line_width = 0.2 }" | \
-		gfsview-batch2D sim-$i.gfs cells.gfv > cells-$i.eps
-	done
-	echo "Save stdout { width = 1280 height = 960 }" | \
-	    gfsview-batch2D sim-0.9.gfs hump.gfv | convert ppm:- hump.eps
-    }
-}
-# "open" boundary conditions on all boundaries
-GfsBox {
-    left = Boundary { BcNeumann U 0 }
-    top = Boundary { BcNeumann V 0 }
-    bottom = Boundary { BcNeumann V 0 }
-}
-GfsBox {
-    right = Boundary { BcNeumann U 0 }
-    top = Boundary { BcNeumann V 0 }
-    bottom = Boundary { BcNeumann V 0 }
-}
-1 2 right
diff --git a/doc/examples/hump/hump.gfv b/doc/examples/hump/hump.gfv
deleted file mode 100644
index 84a6fcd..0000000
--- a/doc/examples/hump/hump.gfv
+++ /dev/null
@@ -1,41 +0,0 @@
-# GfsView 2D
-View {
-  tx = -1.12721 ty = 0.409038
-  sx = 1 sy = 1 sz = 1
-  q0 = 0.44512 q1 = 0.14796 q2 = 0.310734 q3 = 0.826693
-  fov = 16.0939
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Linear {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} (P+Zb-1)*20 {
-  reversed = 0
-  use_scalar = 0
-}
-Linear {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Zb {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} Zb/2-0.9 {
-  reversed = 0
-  use_scalar = 1
-}
diff --git a/doc/examples/hump/isolines.gfv b/doc/examples/hump/isolines.gfv
deleted file mode 100644
index 7708f1e..0000000
--- a/doc/examples/hump/isolines.gfv
+++ /dev/null
@@ -1,33 +0,0 @@
-# GfsView 2D
-View {
-  tx = -1.10977 ty = -0.473248
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 17.1233
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P+Zb {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 30
-}
-Boundaries {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
diff --git a/doc/examples/logo/logo.gfs b/doc/examples/logo/logo.gfs
deleted file mode 100644
index 0942084..0000000
--- a/doc/examples/logo/logo.gfs
+++ /dev/null
@@ -1,60 +0,0 @@
-# Title: Coalescence of a pair of Gaussian vortices (Gerris logo)
-#
-# Description:
-#
-# This example generates the Gerris desktop logo (Figure \ref{logo}).
-#
-# A pair of Gaussian vortices slowly merge. This is the primary
-# mechanism controlling the evolution of two-dimensional turbulence
-# and consequently has been studied in some detail.
-#
-# \begin{figure}[htbp]
-# \caption{\label{logo}Gerris logo and animation.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=0.15\hsize]{logo.eps}}{logo.mpg}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D logo.gfs | gfsview2D logo.gfv
-# Required files: logo.gfv
-# Version: 1.0.0
-# Running time: 5 minutes
-# Generated files: logo.mpg logo.png logo.eps
-#
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-    Time { end = 4 }
-    Refine 6
-    # Take a large domain to minimise the influence of boundaries but
-    # refine only in a small central disk.
-    Refine (sqrt(x*x + y*y) < 0.0625 ? 12 : 6)
-    # Initialise a vorticity field given by two gaussian distributions
-    InitVorticity {} {
-        /* We use nested functions for simplicity (this will not work on MACOSX) */
-        double vortex (double xc, double yc, double r) {
-            double r2 = (x - xc)*(x - xc) + (y - yc)*(y - yc);
-            return 2.*M_PI*exp (- 2.*r2/(r*r));
-        }
-        double r = 0.01, theta = 30.*M_PI/180.;
-        return vortex (-r*sin(theta), r*cos(theta), 0.01) + 
-               vortex (r*sin(theta), -r*cos(theta), 0.01);
-    }
-    AdaptVorticity { istep = 1 } { cmax = 1e-2 maxlevel = 12 }
-    OutputTime { istep = 1 } stderr
-    OutputProjectionStats { istep = 1 } stderr
-    OutputSimulation { istep = 10 } stdout
-    OutputPPM { istep = 2 } { ppm2mpeg > logo.mpg } {
-        v = Vorticity
-        min = -0.1348 max = 6.22219
-        # Only generate the movie in a small box centered on the origin
-        box = -0.025,-0.025,0.025,0.025
-    }
-    EventScript { start = end } {
-        echo "Save logo.ppm { width = 1024 height = 1024 }"
-        sleep 5 # to wait for GfsView to finish writing the image
-        convert -transparent "#0000FF" logo.ppm -geometry 156x156 logo.png
-        montage -background white -geometry +0+0 logo.png logo.eps
-        rm -f logo.ppm
-    }
-}
-GfsBox {}
diff --git a/doc/examples/logo/logo.gfv b/doc/examples/logo/logo.gfv
deleted file mode 100644
index 934a82a..0000000
--- a/doc/examples/logo/logo.gfv
+++ /dev/null
@@ -1,40 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 1.37889
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Vorticity {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 0 levels = 0.555
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Vorticity > 0.55 ? Vorticity : 0.55 {
-  amin = 0 min = -0.1348
-  amax = 0 max = 6.22219
-  cmap = Jet
-}
diff --git a/doc/examples/rt/rt.gfs b/doc/examples/rt/rt.gfs
deleted file mode 100644
index 4b8ef7d..0000000
--- a/doc/examples/rt/rt.gfs
+++ /dev/null
@@ -1,91 +0,0 @@
-# Title: Rayleigh-Taylor instability
-#
-# Description:
-#
-# A classical test case for the flow of two fluids of different
-# densities. A sinusoidal interface separates the two fluids. The
-# heavier fluid is on top. A mushroom-shaped instability develops in
-# time as illustrated on Figure \ref{evolution}.
-# 
-# \begin{figure}[htbp]
-# \caption{\label{evolution}Evolution of the interface.}
-# \begin{center}
-# \begin{tabular}{ccccc}
-# \includegraphics[width=0.15\hsize]{t-0.eps} &
-# \includegraphics[width=0.15\hsize]{t-0.7.eps} &
-# \includegraphics[width=0.15\hsize]{t-0.8.eps} &
-# \includegraphics[width=0.15\hsize]{t-0.9.eps} &
-# \includegraphics[width=0.15\hsize]{t-1.eps} \\
-# $t=0$ & $t=0.7$ & $t=0.8$ & $t=0.9$ & $t=1.0$
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{movie}MPEG movies of the tracer and vorticity fields.}
-# \begin{center}
-# \begin{tabular}{cc}
-# \htmladdnormallinkfoot{\includegraphics[width=0.2\hsize]{t.eps}}{t.mpg} &
-# \htmladdnormallinkfoot{\includegraphics[width=0.2\hsize]{vort.eps}}{vort.mpg}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D rt.gfs | gfsview2D rt.gfv
-# Version: 1.1.0
-# Required files: rt.gfv
-# Running time: 12 minutes
-# Generated files: t.mpg vort.mpg t.eps vort.eps t-0.eps t-0.7.eps t-0.8.eps t-0.9.eps t-1.eps
-#
-4 3 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 1 dtmax = 5e-3 }
-  Refine 7
-
-  # The tracer T is used to track both phases
-  VariableTracerVOF {} T
- 
-  # The initial sinusoidal interface (translated by 0.5 along the y-axis)
-  InitFraction {} T (0.05*cos (2.*M_PI*x) + y) { ty = 0.5 }
-
-  AdaptVorticity { istep = 1 } { maxlevel = 7 cmax = 2e-2 }
-  AdaptGradient { istep = 1 } { maxlevel = 7 cmax = 1e-2 } T
-
-  # The dynamic viscosity for both phases
-  SourceViscosity {} 0.00313
-
-  # This defines the inverse of the density of the fluids as a
-  # function of T
-  PhysicalParams { alpha = 1./(T*1.225 + (1. - T)*0.1694) }
-
-  # We also need gravity
-  Source {} V -9.81
-
-  OutputTime { istep = 10 } stderr
-  OutputBalance { istep = 10 } stderr
-  OutputProjectionStats { istep = 10 } stderr
-  OutputDiffusionStats { istep = 10 } stderr
-  OutputPPM { istep = 2 } { ppm2mpeg > vort.mpg} {
-    min = -30 max = 30 v = Vorticity
-  }
-  OutputPPM { istep = 2 } { ppm2mpeg > t.mpg } {
-    min = 0 max = 1 v = T
-  }
-  OutputPPM { start = end } { convert -colors 256 ppm:- vort.eps } {
-    min = -30 max = 30 v = Vorticity
-  }
-  OutputPPM { start = end } { convert -colors 256 ppm:- t.eps } {
-    min = 0 max = 1 v = T
-  }
-  OutputTiming { start = end } stderr
-  OutputSimulation { step = 0.1 } stdout
-  EventScript { start = 0 } { echo "Save t-0.eps { format = EPS }" }
-  EventScript { start = 0.7 step = 0.1 } { echo "Save t-$GfsTime.eps { format = EPS }" }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-1 2 top
-2 3 top
-1 4 bottom
diff --git a/doc/examples/rt/rt.gfv b/doc/examples/rt/rt.gfv
deleted file mode 100644
index 4edfb6c..0000000
--- a/doc/examples/rt/rt.gfv
+++ /dev/null
@@ -1,31 +0,0 @@
-# GfsView 2D
-View {
-  tx = -0.0838119 ty = -0.501667
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 55.2206
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-VOF {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} T {
-  reversed = 0
-  use_scalar = 0
-}
-Boundaries {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
diff --git a/doc/examples/ship/closeup.gfv b/doc/examples/ship/closeup.gfv
deleted file mode 100644
index 979e713..0000000
--- a/doc/examples/ship/closeup.gfv
+++ /dev/null
@@ -1,50 +0,0 @@
-# GfsView 3D
-View {
-  tx = 0.602996 ty = 0.0177882
-  sx = 1 sy = 1 sz = 3
-  q0 = 0.295761 q1 = -0.442959 q2 = -0.745831 q3 = 0.400062
-  fov = 4.00361
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-VOF {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Z {
-  amin = 0 min = -0.005
-  amax = 0 max = 0.005
-  cmap = Jet
-} T {
-  reversed = 0
-  use_scalar = 1
-  draw_edges = 0
-}
-Solid {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Velocity {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} {
-  reversed = 0
-  use_scalar = 0
-}
-Symmetry {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 1 n.z = 0
-  pos = 0.5
-}
diff --git a/doc/examples/ship/comparison.gfv b/doc/examples/ship/comparison.gfv
deleted file mode 100644
index 7fe0f51..0000000
--- a/doc/examples/ship/comparison.gfv
+++ /dev/null
@@ -1,42 +0,0 @@
-# GfsView 3D
-View {
-  tx = -0.373912 ty = -0.501871
-  sx = 1 sy = 1 sz = 3
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 5.77964
-  r = 1 g = 1 b = 1
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-VOF {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Z {
-  amin = 0 min = -0.005
-  amax = 0 max = 0.005
-  cmap = Jet
-} T {
-  reversed = 0
-  use_scalar = 1
-  draw_edges = 0
-}
-Solid {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Velocity {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} {
-  reversed = 0
-  use_scalar = 0
-}
diff --git a/doc/examples/ship/front.gfv b/doc/examples/ship/front.gfv
deleted file mode 100644
index c5095c9..0000000
--- a/doc/examples/ship/front.gfv
+++ /dev/null
@@ -1,50 +0,0 @@
-# GfsView 3D
-View {
-  tx = -0.692077 ty = -0.492648
-  sx = 1 sy = 1 sz = 3
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 10.2648
-  r = 1 g = 1 b = 1
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-VOF {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Z {
-  amin = 0 min = -0.005
-  amax = 0 max = 0.005
-  cmap = Jet
-} T {
-  reversed = 0
-  use_scalar = 1
-  draw_edges = 0
-}
-Solid {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Velocity {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} {
-  reversed = 0
-  use_scalar = 0
-}
-Symmetry {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 1 n.z = 0
-  pos = 0.5
-}
diff --git a/doc/examples/ship/ship.gfs b/doc/examples/ship/ship.gfs
deleted file mode 100644
index 43fa8d4..0000000
--- a/doc/examples/ship/ship.gfs
+++ /dev/null
@@ -1,213 +0,0 @@
-# Title: Air-water flow around a Series 60 cargo ship
-#
-# Description:
-#
-# The geometrical Volume-Of-Fluid (VOF) advection scheme of Gerris is
-# used to simulate the air-water interface around a ``Series 60 CB=0.6''
-# ship hull. This hull shape is a classical towing tank test case and
-# several experimental dataset are available (see for example the
-# \htmladdnormallinkfoot{University
-# of Iowa web site}{http://www.iihr.uiowa.edu/\~{}shiphydro/efd\_vdata\_S60\_steady.htm}).
-#
-# The liquid is started impulsively from rest to a Froude number of
-# 0.316 corresponding to one of the towing tank cases. The evolution
-# of the interface is illustrated in Figures \ref{closeup} and
-# \ref{front}. After the initial transients have dissipated (Figure
-# \ref{f}), the stationary wave pattern can be compared with the
-# experimental measurements (Figure \ref{comparison}). Adaptivity is
-# used based on the value of vorticity in the liquid only. With the
-# relatively high-resolution used here, damping of the final wave
-# pattern is minimal which illustrates the good energy conservation
-# properties of the overall scheme (but requires a significant amount
-# of CPU time).
-#
-# Only one half of the flow is simulated. The GfsView parameter file
-# {\tt closeup.gfv} shows how to setup the ``Symmetry'' objects
-# to display the full symmetrical flow.
-#
-# \begin{figure}[htbp]
-# \caption{\label{closeup}MPEG movie of the interface
-# evolution. The interface is coloured according to elevation. The
-# vertical scale is exagerated by a factor of three.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=0.8\hsize]{closeup.eps}}{closeup.mpg}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{front}Interface elevation in stationary regime.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{front.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{f}Pressure drag and lift forces on the hull as
-# functions of time.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{f.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{comparison}Interface elevation measured in a towing
-# tank (top-half, University of Iowa dataset) and simulation result
-# (bottom-half). The wave reflection in the experimental data is
-# caused by the lateral wall of the towing tank.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{comparison.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris3D ship.gfs | gfsview-batch3D closeup.gfv | ppm2mpeg -s 640x480 > closeup.mpg
-# Version: 1.2.0
-# Required files: S60-scaled.gts closeup.gfv front.gfv comparison.gfv tank-data.png
-# Running time: 4 days
-# Generated files: closeup.mpg closeup.eps front.eps f.eps comparison.eps
-#
-# Random notes:
-# waveprofile generation:
-# % zcat sim-8.gfs.gz | gfs2oogl3D -c Z -g -o -i | awk '{ if ($4 < 1000) print $1*3.,$2*3.,$3*3.,$4*3.;}' > waveprofile-8
-# Static wetted area for S60-scaled.gts: As = 0.0190254
-#
-3 2 GfsSimulation GfsBox GfsGEdge {} {
-
-    # The wave drag on the hull has strong starting transients,
-    # also the mean wave field takes a relatively long time to
-    # establish.
-    Time { end = 10 }
-
-    # Nine levels is enough to get good agreement with towing tank
-    # data. Adding more levels will reveal finer-scale wave patterns
-    # (but the runs will take even longer...)
-    Global {
-      #define LEVEL 9
-      #define FROUDE 0.316
-      #define RATIO (1.2/1000.)
-      #define VAR(T,min,max) (min + CLAMP(T,0,1)*(max - min))
-    }
-
-    # Translate the model to simulate only half the domain
-    Solid S60-scaled.gts { ty = 0.5 }
-
-    # Refine the hull to LEVEL
-    RefineSolid LEVEL
-    # Refine the water surface to four levels
-    RefineSurface { return 4; } (1e-4 - z)
-
-    VariableTracerVOF T
-    # For high-density ratios we cannot use the volume fraction field
-    # directly to define the density. We need a smoother version.
-    VariableFiltered T1 T 1
-
-    Init {} { U = FROUDE }
-    # Initialise the water surface at z = 1e-4
-    InitFraction T (1e-4 - z)
-
-    # air/water density ratio
-    PhysicalParams { alpha = 1./VAR(T1,RATIO,1.) }
-
-    # Use the reduced gravity approach
-    VariablePosition Z T z
-    # g = 3, g' = 3*(rho1 - rho2)
-    SourceTension T -3.*(1. - RATIO) Z
-
-    # Force the horizontal component of the velocity to relax to
-    # 'FROUDE' (= 0.316) in a band on inflow (x <= -0.375)
-    Source U (x > -0.375 ? 0 : 10.*(FROUDE - U))
-
-    # Adapt the mesh using the vorticity criterion but only in the
-    # water side (T > 0.)
-    # The 'cmax' value can be lowered (e.g. to 1e-2) to increase
-    # the accuracy with which the weaker far-field waves are resolved.
-    AdaptFunction { istep = 1 } {
-        cmax = 1e-2
-        # Faster coarsening than with the default cfactor of 4 reduces
-        # the size of the simulation
-#        cfactor = 2
-        # Coarse 'sponge' for x >= 1.5
-        maxlevel = (x < 1.5 ? LEVEL : 4)
-        minlevel = 4
-    } {
-        return (T > 0.)*fabs (Vorticity)*ftt_cell_size (cell)/FROUDE;
-    }
-
-    # Pressure (i.e. wave drag) force on the hull
-    OutputSolidForce { istart = 1 istep = 1 } f
-
-    OutputTime { istep = 1 } stderr
-    OutputBalance { istep = 1 } stderr
-    OutputProjectionStats { istep = 1 } stderr
-    OutputTiming { istep = 10 } stderr
-
-    # Generation of animations
-    OutputSimulation { istep = 5 end = 4 } stdout
-    EventScript { istep = 5 end = 4 } { echo "Save stdout { width = 1600 height = 1200 }" }
-
-    OutputSimulation { start = 1 step = 1 } sim-%g.gfs
-    # Compresses the saved simulation files
-    EventScript { start = 1 step = 1 } { gzip -f -q sim-*.gfs }
-
-    # Graphics
-    EventScript { start = 10 } {
-        echo "Save stdout { width = 1600 height = 1200 }" | \
-        gfsview-batch3D sim-10.gfs.gz closeup.gfv | \
-        convert -colors 256 ppm:- closeup.eps
-
-        echo "Save stdout { width = 1600 height = 1200 }" | \
-        gfsview-batch3D sim-10.gfs.gz front.gfv | \
-        convert -colors 256 ppm:- front.eps
-
-        echo "Save stdout { width = 800 height = 600 }" | \
-        gfsview-batch3D sim-10.gfs.gz comparison.gfv | \
-        convert -trim ppm:- comparison.ppm
-
-#       echo "Save stdout { width = 800 height = 600 }" | \
-#       gfsview-batch3D sim-10.gfs.gz tank-data.gfv | \
-#       convert -trim -flip ppm:- tank-data.png
-
-        convert tank-data.png tank-data.ppm
-        montage -geometry +0+0 -tile 1x2 tank-data.ppm comparison.ppm png:- | \
-        convert -colors 256 png:- comparison.eps        
-
-        cat <<EOF | gnuplot
-        set term postscript eps lw 3 solid 20 colour
-        set output 'f.eps'
-        set xlabel 'Time'
-        set ylabel 'Force'
-        plot 'f' u 1:(\$2*2.) every 10 w l t 'Drag', 'f' every 10 u 1:(\$4*2.) w l t 'Lift'
-EOF
-    }
-}
-# Impose symmetry conditions on top and bottom boundaries
-# and inflow/outflow conditions on the left and right boundaries
-# (so that emitted gravity waves can leave the domain cleanly)
-GfsBox {
-    left = Boundary {
-        BcDirichlet P 0
-        BcDirichlet V 0
-        BcDirichlet W 0
-        BcNeumann U 0
-        BcNeumann T 0
-    }
-    top = Boundary
-    bottom = Boundary
-}
-GfsBox {
-    top = Boundary
-    bottom = Boundary
-}
-GfsBox {
-    right = Boundary {
-        BcDirichlet P 0
-        BcDirichlet V 0
-        BcDirichlet W 0
-        BcNeumann U 0
-        BcNeumann T 0
-    }
-    top = Boundary
-    bottom = Boundary
-}
-1 2 right
-2 3 right
diff --git a/doc/examples/ship/tank-data.png b/doc/examples/ship/tank-data.png
deleted file mode 100644
index c280857..0000000
Binary files a/doc/examples/ship/tank-data.png and /dev/null differ
diff --git a/doc/examples/tangaroa/sections.gfv b/doc/examples/tangaroa/sections.gfv
deleted file mode 100644
index 88ca4ed..0000000
--- a/doc/examples/tangaroa/sections.gfv
+++ /dev/null
@@ -1,65 +0,0 @@
-# GfsView 3D
-View {
-  tx = -0.0744286 ty = 0.395904
-  q0 = 0.492695 q1 = -0.182743 q2 = -0.271398 q3 = 0.806349
-  fov = 8.17065
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = -0.499
-} Velocity {
-  amin = 0 min = 0
-  amax = 0 max = 2
-  cmap = Jet
-}
-Solid {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} {
-  reversed = 0
-  use_scalar = 0
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = -1 n.z = 0
-  pos = 0
-} Velocity {
-  amin = 0 min = 0
-  amax = 0 max = 2
-  cmap = Jet
-}
-Cells {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = -0.499
-}
-Cells {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = -1 n.z = 0
-  pos = 0.001
-}
diff --git a/doc/examples/tangaroa/tangaroa.gfs b/doc/examples/tangaroa/tangaroa.gfs
deleted file mode 100644
index 1fd070c..0000000
--- a/doc/examples/tangaroa/tangaroa.gfs
+++ /dev/null
@@ -1,80 +0,0 @@
-# Title: Turbulent air flow around RV Tangaroa
-#
-# Description:
-#
-# An example of the simulations described in Popinet, Smith and Stevens
-# (2004), Journal of Atmospheric and Oceanic Technology, 21.
-#
-# \begin{figure}[htbp]
-# \caption{\label{sections}MPEG movie of the adaptive mesh. The two cross-sections are
-# coloured according to the norm of the velocity vector.}
-# \begin{center}
-# \htmladdnormallinkfoot{\includegraphics[width=0.8\hsize]{sections.eps}}{sections.mpg}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris3D tangaroa.gfs | gfsview3D sections.gfv | ppm2mpeg -s 640x480 > sections.mpg
-# Version: 0.9.2
-# Required files: tangaroa.gts sections.gfv
-# Running time: 7 hours
-# Generated files: sections.mpg sections.eps
-#
-2 1 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 2 }
-  # Insert the solid boundary defined explicitly by the
-  # triangulated surface contained in the GTS file tangaroa.gts
-  Solid tangaroa.gts
-  Refine 5
-  RefineSolid 9
-  Init {} { U = 1. }
-
-  # Adapt only in the first GfsBox.
-  # The coarse resolution of the second box acts as an efficient "sponge"
-  # layer to dampen any eddy before it exits the domain.
-  AdaptVorticity { istep = 1 } { maxlevel = (x < 0.5 ? 8 : 0) cmax = 1e-2 }
-
-  OutputSolidStats {} stderr
-  OutputTime { istep = 1 } stderr
-  OutputBalance { istep = 1 } stderr
-  OutputProjectionStats { istep = 1 } stderr
-
-  # Store in SU the integral over time of U
-  # At the end of the simulation SU/(Total integration time) = SU/1.
-  # is the mean velocity
-  EventSum { start = 1 istep = 1 } U SU
-  EventSum { start = 1 istep = 1 } V SV
-  EventSum { start = 1 istep = 1 } W SW
-
-  # Store in SU the integral over time of U^2 (i.e. the variance)
-  EventSum { start = 1 istep = 1 } U*U SU2
-  EventSum { start = 1 istep = 1 } V*V SV2
-  EventSum { start = 1 istep = 1 } W*W SW2
-
-  # Output simulation on standard output (to be read and displayed by GfsView)
-  OutputSimulation { istep = 4 } stdout
-  # Sends a command to GfsView to save a 1024x768 PPM image on standard output
-  EventScript { istep = 4 } { echo "Save stdout { width = 1024 height = 768 }" }
-
-  EventScript { start = 1.5 } { echo "Save sections.ppm { width = 1024 height = 768 }" }
-  EventScript { start = end } {
-      convert -colors 256 sections.ppm sections.eps ; rm -f sections.ppm 
-  }
-
-  OutputSimulation { start = end } simulation-sum {
-      variables = SU,SV,SW,SU2,SV2,SW2
-  }
-  OutputTiming { start = end } stderr
-}
-GfsBox { 
-    left = Boundary {
-	BcDirichlet U 1
-    }
-}
-GfsBox {
-    right = Boundary {
-	BcNeumann U 0
-	BcDirichlet P 0
-    }
-}
-1 2 right
diff --git a/doc/examples/tangaroa/tangaroa.gts b/doc/examples/tangaroa/tangaroa.gts
deleted file mode 100644
index d72de0b..0000000
--- a/doc/examples/tangaroa/tangaroa.gts
+++ /dev/null
@@ -1,8001 +0,0 @@
-1330 4002 2668 GtsSurface GtsFace GtsEdge GtsVertex
--0.1450002463 -0.06253729341 -0.4902389281
--0.1458060068 -0.06931420479 -0.4865235662
--0.1441484612 -0.06791941383 -0.4839428851
--0.1464225248 -0.05595360104 -0.4997669248
--0.1432678441 -0.0622459954 -0.4859736201
--0.1435036491 -0.05611011464 -0.491643726
--0.168209736 0.09785989596 -0.5064382871
--0.162639909 0.1016277667 -0.505616286
--0.1579128557 0.1011540356 -0.505705854
--0.1827578639 0.01500498592 -0.5175305286
--0.1793496536 0.008960269149 -0.5176854997
--0.1801446249 0.01589519181 -0.5179159136
--0.1478061054 0.09608532192 -0.4884030561
--0.1468052443 0.0950844609 -0.4793332972
--0.1468052443 0.0950844609 -0.4884030561
--0.139726176 -0.01655555591 -0.5058465449
--0.139869409 -0.02645745394 -0.5002086349
--0.139079621 -0.0186606994 -0.5014372249
--0.1704543888 0.1113698722 -0.4376208089
--0.1725793884 0.111386209 -0.435000251
--0.1527660597 0.1113792523 -0.4350044853
--0.1876301664 0.05498718391 -0.5042690181
--0.1874593763 0.05347608073 -0.5065834823
--0.1874282986 0.06519919275 -0.5038543775
--0.1527865136 0.01798933573 -0.4428021661
--0.1528444052 0.01511076874 -0.4428694683
--0.1620727937 0.0159295558 -0.442831665
--0.1474335188 0.05949446087 -0.5140942256
--0.1466990675 0.05195706049 -0.5153491106
--0.1521563813 0.05634513369 -0.5159321851
--0.1469459805 0.1071297242 -0.5022012903
--0.1467854604 0.1023464085 -0.5029468887
--0.1504465515 0.1034744769 -0.5037045774
--0.1767933365 -0.06660398125 -0.4952794574
--0.1780401695 -0.07061512362 -0.4887908453
--0.1750450052 -0.07156761628 -0.4943603312
--0.161381664 0.01566289163 -0.434814451
--0.1608810056 0.01751360515 -0.4352086888
--0.1632230701 0.01784268862 -0.4345207724
--0.157708065 -0.03775445291 -0.5179496179
--0.1532120699 -0.02863836308 -0.5171292177
--0.1546790563 -0.03615922707 -0.5170181323
--0.160479803 -0.01231004781 -0.4325411133
--0.160479803 -0.01231004684 -0.4304309904
--0.1612523885 -0.02228342264 -0.4310312836
--0.1806812032 0.06395200573 -0.4793342029
--0.1806813678 0.05929470473 -0.4793343041
--0.1813940452 0.06329538216 -0.4749928573
--0.1875680829 -0.03501698 -0.4767800973
--0.1876554905 -0.0282492137 -0.4784590254
--0.1870712067 -0.02862921891 -0.4860763251
--0.1627073069 -0.06434508306 -0.518602171
--0.1603282454 -0.05441226807 -0.5182197824
--0.1605115845 -0.06263442453 -0.5180128767
--0.170247133 0.03328469869 -0.4793332965
--0.187776901 0.03332103238 -0.479333388
--0.1819526645 0.03332087284 -0.4793333569
--0.1609133239 -0.01680300721 -0.4463526614
--0.1377063842 -0.03167897009 -0.4463526614
--0.151022654 -0.03963625331 -0.4463526614
--0.163461295 -0.09818855178 -0.5131153305
--0.1627334055 -0.09317053762 -0.5155341573
--0.1625025428 -0.0987819977 -0.5135477133
--0.1517917777 0.01486215768 -0.479333345
--0.1559500269 0.0214560828 -0.4793332969
--0.1401549159 0.01486941086 -0.4793334921
--0.1853861192 0.05929431637 -0.4793367029
--0.1877661939 0.05836441416 -0.4793323641
--0.1874780873 0.04058634546 -0.5087143185
--0.1871935352 0.04317349994 -0.510449713
--0.1842560854 -0.02920234801 -0.5033179306
--0.1847740124 -0.01804397745 -0.5079762665
--0.1835180049 -0.02706369024 -0.5066717542
--0.1791844966 -0.04547308656 -0.5063612871
--0.172404669 -0.06174610736 -0.5110018811
--0.1772957903 -0.04761353045 -0.5088491038
--0.1377214667 -0.05395598771 -0.4703262593
--0.1388211812 -0.04463579969 -0.4809016707
--0.1380332841 -0.04563010493 -0.4751374093
--0.1570740199 -0.03654797421 -0.4613130272
--0.1748788434 -0.03601057699 -0.4613114451
--0.1877117029 -0.03881951506 -0.4613130261
--0.1743080208 0.1114319026 -0.4401465497
--0.1877081473 0.1114650475 -0.4669245782
--0.1796578873 0.09508446119 -0.4793332972
--0.1796842971 0.09633920189 -0.4793333186
--0.1796830083 0.1134955752 -0.4793333016
--0.1877235931 -0.03167897009 -0.4463526614
--0.1842848366 -0.02979954016 -0.4553468063
--0.1743261266 -0.03963625334 -0.4463526614
--0.1761727139 -0.03782891531 -0.5135524266
--0.176906505 -0.031818448 -0.5142676949
--0.1745780419 -0.03503617005 -0.5153130203
--0.1808098621 0.1377661842 -0.497414414
--0.1841990099 0.1377662507 -0.4951894053
--0.1810133764 0.1354467034 -0.4978933753
--0.1864459498 0.04092186495 -0.4732425782
--0.1833747671 0.04093769908 -0.4732192777
--0.1864459498 0.03990871672 -0.4714608688
--0.1378994302 -0.03439666803 -0.4783026067
--0.1376481325 -0.04227792109 -0.4713553182
--0.13765613 -0.034761286 -0.4736320984
--0.1649046104 -0.007009802377 -0.4397591494
--0.1649046104 -0.00437348734 -0.4376490265
--0.1649046104 -0.01231004687 -0.4376490265
--0.1384094733 0.0680961767 -0.5050696107
--0.1389349461 0.05966170205 -0.5084934961
--0.1381063495 0.05699776373 -0.5071616052
--0.1645868857 0.0176942811 -0.4410866382
--0.1643561534 0.0189029764 -0.4363790337
--0.1653416848 0.01751873504 -0.4361737608
--0.1413555292 -0.02411665658 -0.5070018044
--0.1431454545 -0.0350833852 -0.5054565069
--0.140976944 -0.02737229577 -0.5039847831
--0.1876790846 0.0144382421 -0.5050585933
--0.1876802403 0.01495267012 -0.5008522264
--0.1876763356 0.01495962771 -0.49934514
--0.1813891871 -0.02439123406 -0.5116702282
--0.1787798716 -0.03100413513 -0.5127509866
--0.1797871574 -0.02290020872 -0.5138068728
--0.1532171537 -0.07621816772 -0.4960991613
--0.1508597876 -0.07030282503 -0.4971631085
--0.1503342342 -0.07157408909 -0.4943586656
--0.147805933 0.1134957906 -0.479330298
--0.1796818072 0.1134955347 -0.4746844267
--0.1456557998 0.113495531 -0.47468438
--0.1670135951 -0.08611800173 -0.4703373211
--0.1728333667 -0.1068525434 -0.4703019842
--0.1784520583 -0.09896065699 -0.47031614
--0.1602440911 -0.04429178776 -0.5184522234
--0.157855338 -0.04496695316 -0.5176583399
--0.1610936163 -0.1119338111 -0.4704611754
--0.1636993615 -0.1122234272 -0.4702936888
--0.1631337082 -0.1066438517 -0.475511478
--0.1650279248 -0.1007969356 -0.508045623
--0.1626359304 -0.1050396078 -0.5066071801
--0.1627150952 -0.1042563917 -0.5088133829
--0.1375593588 0.007272967669 -0.4793695659
--0.1878178563 0.007278217886 -0.4793694936
--0.1686125125 0.0149547421 -0.4793683305
--0.1585086948 0.132696695 -0.5011486085
--0.1592272217 0.1196623367 -0.5027096634
--0.1626629463 0.1149367681 -0.5036569107
--0.1478061053 0.0960853221 -0.4793332965
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--0.1456539714 0.09638195309 -0.4793332983
--0.187801967 0.03956680255 -0.4793323898
--0.1878018088 0.03332087154 -0.4714608688
--0.1641263931 -0.01483703082 -0.4161538953
--0.161186609 -0.01483702749 -0.4161538888
--0.1643821417 -0.01586860352 -0.4161538888
--0.1868663429 0.04976499541 -0.5099460054
--0.1387118137 0.00134423955 -0.5101256913
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--0.1379849272 0.01134138476 -0.5111534924
--0.1850920182 0.08438716384 -0.5030010933
--0.1858893946 0.06746126549 -0.5070638601
--0.184086697 0.07895557025 -0.5054589628
--0.1810706717 0.05815038846 -0.488403658
--0.1810706718 0.04086028545 -0.4884036577
--0.181070672 0.05815038712 -0.4793332969
--0.1831781123 0.08788482981 -0.5037586634
--0.1809566966 0.08463350151 -0.5059922448
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--0.1871877059 0.003974278447 -0.5078290799
--0.1867281341 0.002277684704 -0.5102303091
--0.1456231064 0.09633663288 -0.479333298
--0.1376547735 0.09633667398 -0.4793330839
--0.1521663068 -0.04976377112 -0.5135586334
--0.1528920107 -0.05664904295 -0.5127002144
--0.151065517 -0.05241064197 -0.511533803
--0.1388402966 0.07853756002 -0.5027320351
--0.1390141596 0.08909787204 -0.5002631497
--0.138179922 0.08732968961 -0.4987752723
--0.1614187791 -0.01383032898 -0.4238511043
--0.1394440872 0.06625031495 -0.507466525
--0.1376109243 0.103737928 -0.4827089686
--0.1376074766 0.1137115069 -0.4791985275
--0.1376011962 0.07637638471 -0.4846781074
--0.1703190295 -0.04040343993 -0.4612792984
--0.173415067 -0.03654797421 -0.4612792984
--0.1877142109 -0.02954379204 -0.4612792984
--0.1470539439 -0.01397729528 -0.5162697451
--0.1496482076 -0.01788101118 -0.5168762961
--0.1474751523 -0.02033582636 -0.5156166237
--0.1549946787 0.07789513084 -0.4884030561
--0.1550451466 0.03328467627 -0.4884030561
--0.1550451468 0.03328468275 -0.4793332965
--0.1514067368 0.1377661809 -0.4993041566
--0.1442990015 0.1377664131 -0.4973307314
--0.1626251676 0.1377659537 -0.500857264
--0.1609293903 -0.01586860352 -0.4161538888
--0.164585592 -0.09497657301 -0.5127616757
--0.1656900569 -0.09247791791 -0.5125692679
--0.1796578873 0.0950844609 -0.4884030561
--0.1774861748 0.09608532192 -0.4793332972
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diff --git a/doc/examples/template.tex b/doc/examples/template.tex
deleted file mode 100644
index 100fc70..0000000
--- a/doc/examples/template.tex
+++ /dev/null
@@ -1,107 +0,0 @@
-\documentclass[a4paper]{article}
-\usepackage{hevea}
-\usepackage{color}
-\usepackage{graphicx}
-
-\oddsidemargin=4mm
-\evensidemargin=-1mm
-\topmargin=-7mm
-\textwidth=15.42cm
-\textheight=23.2cm
-
-\newcommand{\gfsweb}{http://gfs.sf.net}
-\newcommand{\htmladdnormallinkfoot}[2]{\footahref{#2}{#1}}
-\newcommand{\htmladdnormallink}[2]{\ahref{#2}{#1}}
-\renewcommand{\cuttingunit}{subsection}
-
-\title{Gerris examples}
-
-\begin{document}
-
-\mbox{}\vspace{1cm}
-\begin{center}
-{\huge Gerris examples}\\
-{\large Version GFS_VERSION}\\
-\vspace{5mm}
-{\large St\'ephane Popinet\\
-\vspace{5mm}
-\today}
-\vspace{1cm}
-\end{center}
-
-\tableofcontents
-
-\section{Introduction}
-
-This document is a collection of examples contributed by Gerris users and intended to illustrate the range of applications where Gerris is applicable. It should also serve as a useful starting point for customised applications.
-
-The sections in this document are a rough classification of the various applications. In particular, an example appearing in a subsection usually indicates that this example is a relatively small incremental change over the parent example appearing in the section above it.
-
-Gerris parameter files are commented and cross-linked with the \htmladdnormallinkfoot{Object Hierarchy}{\gfsweb/wiki/index.php/Object\_hierarchy} documentation. As a rule, the first examples in the document contain comments for most of the instructions in the parameter file. Latter examples only contain comments for the relevant new instructions or for more complex usage of already introduced instructions.
-
-The indicative running times given are representative of the running time on an Intel 2.4 GHz processor.
-
-The usefulness and quality of this document very much depend on the contributions of users. If you think you have used Gerris in an interesting way which is not already covered by the existing examples, you are very welcome to contribute. Have a look at section \ref{howto} for instructions on how to do so.
-
-\section{2D}
-
-\input{cylinder/cylinder.tex}
-\input{cylinder/heated/heated.tex}
-\input{cylinder/parallel/parallel.tex}
-\input{rt/rt.tex}
-\input{boussinesq/boussinesq.tex}
-\input{logo/logo.tex}
-
-\section{3D}
-
-\input{tangaroa/tangaroa.tex}
-\input{ship/ship.tex}
-
-\section{Shallow-water}
-
-\input{tides/tides.tex}
-
-\section{Saint-Venant (non-linear shallow-water)}
-
-\input{dam/dam.tex}
-\input{hump/hump.tex}
-
-\section{Waves}
-
-\input{garden/garden.tex}
-
-\section{\label{howto}How to write examples}
-
-This document is generated automatically using self-documenting Gerris parameter files. If you look at \htmladdnormallinkfoot{any}{cylinder/cylinder.gfs} of the {\tt .gfs} files in this document you will see that apart from comments on specific instructions, the top of the file contains fields which describe the simulation. They are:
-\begin{description}
-\item[Title:] the title of the simulation.
-\item[Description:] a Latex block of text describing the simulation. It can contain figures, tables, equations etc\dots
-\item[Author:] you.
-\item[Command:] the exact command needed to run the example.
-\item[Version:] the version of Gerris you used (output of {\tt gerris2D -V}).
-\item[Required files:] any file (e.g. GTS files etc\dots) other than the Gerris simulation file required to run the simulation. Try to keep the total size of these files reasonable.
-\item[Running time:] the approximate total running time of the simulation. This is of course machine-dependent but must be appropriately scaled to be representative of the running time on an Intel 2.4 GHz processor.
-\item[Generated files:] any file (movies, images, curves etc\dots) generated by the simulation.
-\end{description}
-Apart from the ``Description:'' field all the fields must fit on a single line just after the field name.
-
-Any extra data you need for the description (e.g. figures as EPS files) must be generated by the simulation. Have a look at other examples to see how this can be done.
-
-Once you have an initial draft for your documented parameter file, you need to package it like this:
-\begin{enumerate}
-\item Choose a short name for your example. This short name should not already be used by any of the examples in this document. Let's say {\tt myexample}.
-\item Create a directory {\tt myexample}.
-\item Copy your parameter file in {\tt myexample/myexample.gfs}. You must use the same name for the directory and the parameter file.
-\item Copy any other file you need (as listed in the ``Required files:'' field) in {\tt myexample}.
-\item Cd to {\tt myexample} and re-run the simulation (using the command listed in the ``Command:'' field) or alternatively copy the previously generated files listed in the ``Generated files:'' field into {\tt myexample}.
-\item Cd to {\tt myexample/..}
-\item\label{gendoc} Generate the HTML and PDF documentation for your example using:
-\begin{verbatim}
-% gfs2doc myexample
-\end{verbatim}
-Note that this script requires \footahref{http://pauillac.inria.fr/\~maranget/hevea/index.html}{hevea}.
-\item Check that the {\tt myexample\_html/index.html} and {\tt myexample.pdf} files are to your liking. If they are not, edit your parameter file and return to \ref{gendoc}.
-\item Send me ({\tt s.popinet at niwa.cri.nz}) your example ({\tt myexample.tgz} as an attachment). Tell me which section, subsection you think it would most naturally fit in (or request a new section). I will then review it and integrate it in this document.
-\end{enumerate}
-
-\end{document}
diff --git a/doc/examples/test.py b/doc/examples/test.py
deleted file mode 100644
index 797b612..0000000
--- a/doc/examples/test.py
+++ /dev/null
@@ -1,32 +0,0 @@
-import sys
-import os
-import os.path
-import gfs2tex
-
-n = 0
-failed = 0
-for start in sys.argv[1:]:
-    for root, dirs, files in os.walk(start,topdown=True):
-        if not ".xvpics" in root:
-            example = gfs2tex.Example(root)
-            status,msg = example.test()
-            if status != None:
-                print "FAIL:",root
-                if len(msg) > 0:
-                    print " ".join(msg)
-                failed += 1
-            else:
-                print "PASS:",root
-            n += 1
-
-if failed:
-    msg = repr(failed) + " of " + repr(n) + " tests failed"
-else:
-    msg = "All " + repr(n) + " tests passed"
-
-print len(msg)*"="
-print msg
-print len(msg)*"="
-
-if failed:
-    sys.exit(1)
diff --git a/doc/examples/tides/amplitude.gfv b/doc/examples/tides/amplitude.gfv
deleted file mode 100644
index e9282b8..0000000
--- a/doc/examples/tides/amplitude.gfv
+++ /dev/null
@@ -1,23 +0,0 @@
-# GfsView 3D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 19.1745
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} sqrt(A0*A0+B0*B0)/9.81 {
-  amin = 1
-  amax = 1
-  cmap = Jet
-}
diff --git a/doc/examples/tides/bathymetry b/doc/examples/tides/bathymetry
deleted file mode 100644
index b6f1c33..0000000
--- a/doc/examples/tides/bathymetry
+++ /dev/null
@@ -1,31800 +0,0 @@
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diff --git a/doc/examples/tides/coefficients b/doc/examples/tides/coefficients
deleted file mode 100644
index e20674b..0000000
--- a/doc/examples/tides/coefficients
+++ /dev/null
@@ -1,6412 +0,0 @@
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-173.685	-43.1917	0.687261 135.835358
-173.694	-43.1102	0.682431 136.813385
-174.411	-42.8222	0.631425 140.045258
-174.566	-42.7589	0.624092 140.902313
-174.861	-43.6187	0.613385 128.634857
-174.99	-43.6425	0.608038 128.326477
-175.673	-43.1161	0.588857 140.603180
-175.775	-43.07	0.584738 141.223740
-175.745	-42.6759	0.587140 144.761353
-175.872	-42.6351	0.584606 145.367203
-174.26	-44.9228	0.618762 111.211960
-175.195	-42.3943	0.603629 144.769958
-175.307	-42.4499	0.600349 144.773193
-174.934	-43.4243	0.604452 131.895828
-174.212	-44.7412	0.628907 112.522453
-174.463	-44.7789	0.614826 113.350571
-176.501	-41.7684	0.590680 151.261108
-176.546	-41.678	0.592225 151.806183
-176.404	-42.6678	0.571155 146.871124
-176.538	-42.6133	0.569442 147.709854
-176.677	-42.3916	0.571866 149.286255
-176.806	-42.3351	0.570538 149.969742
-178.071	-41.5967	0.561627 157.413330
-178.192	-41.4458	0.562514 158.524292
-174.157	-42.4327	0.640755 142.254654
-174.244	-42.3979	0.637530 142.649826
-174.224	-42.4693	0.638268 142.169189
-174.244	-42.5496	0.637657 141.719086
-173.507	-43.5474	0.726780 129.683228
-173.544	-43.4897	0.718320 130.989410
-174.699	-41.0256	0.401199 -73.877464
-174.823	-41.0029	0.436844 -65.238327
-174.678	-40.9131	0.503848 -71.755638
-174.748	-41.0176	0.412537 -69.984619
-174.741	-41.0513	0.380000 -70.927551
-174.853	-41.0117	0.440078 -63.270172
-174.855	-40.9904	0.454816 -63.457485
-174.736	-41.1372	0.305143 -72.525223
-174.762	-41.1199	0.323746 -70.822372
-174.702	-41.0941	0.335677 -75.647476
-174.703	-41.0636	0.364294 -74.740326
-174.735	-41.1102	0.325355 -72.910606
-174.739	-41.0827	0.349457 -71.992798
-174.671	-41.0479	0.378309 -77.099602
-174.816	-40.8008	0.592350 -63.705742
-174.867	-40.8127	0.589122 -61.696213
-174.767	-40.8608	0.543920 -66.421593
-174.775	-40.8256	0.571949 -65.543274
-174.934	-40.7981	0.618654 -59.230972
-174.973	-40.7882	0.633097 -58.476868
-174.863	-40.7753	0.615272 -61.938030
-174.901	-40.7937	0.610847 -60.400314
-174.729	-40.9236	0.492866 -69.432388
-174.774	-40.9338	0.485370 -67.262543
-174.825	-41.038	0.412826 -64.677658
-174.838	-41.0244	0.425988 -64.065941
-174.744	-40.958	0.463539 -69.336899
-174.767	-40.8993	0.513153 -67.051529
-174.807	-40.9122	0.504332 -65.319206
-174.88	-41.0112	0.450042 -61.933952
-174.893	-40.9878	0.465600 -61.801342
-174.763	-40.9877	0.439502 -68.699951
-174.816	-40.9426	0.482249 -65.198723
-174.821	-40.9731	0.459686 -65.184380
-174.807	-40.881	0.528812 -64.849968
-174.834	-40.8946	0.518189 -63.815208
-174.618	-40.989	0.441158 -78.235153
-174.649	-41.022	0.405040 -77.705177
-174.451	-41.0344	0.453746 -92.361977
-174.489	-41.0691	0.397385 -94.715744
-174.427	-41.1243	0.370830 -111.261147
-174.47	-41.113	0.357709 -103.789169
-174.505	-41.029	0.431858 -88.780647
-174.552	-41.0541	0.388233 -87.812317
-174.789	-41.0138	0.421720 -67.218147
-174.816	-41.0234	0.420510 -65.464478
-174.602	-41.0296	0.402363 -81.771019
-174.636	-41.0547	0.372139 -80.504776
-174.626	-41.1272	0.297130 -85.490814
-174.666	-41.1078	0.319684 -79.667259
-174.646	-40.9493	0.475124 -74.725311
-174.697	-40.9527	0.468524 -71.872879
-174.525	-41.2574	0.184114 -143.160599
-174.556	-41.2871	0.160574 -165.372665
-174.547	-41.3378	0.246810 171.969376
-174.59	-41.3138	0.181604 170.100952
-174.686	-41.3707	0.377671 146.540085
-174.68	-41.4073	0.406002 149.175400
-174.608	-41.3447	0.248003 157.078369
-174.638	-41.3766	0.340945 151.133102
-174.195	-40.4423	0.907411 -68.582596
-174.26	-40.4289	0.890212 -67.871468
-174.67	-40.9876	0.438046 -74.630623
-174.719	-40.9879	0.437100 -71.445259
-174.584	-41.0935	0.337434 -88.325546
-174.601	-41.0638	0.366669 -84.305885
-174.538	-41.3927	0.338483 164.715195
-174.589	-41.3737	0.309109 158.702850
-174.826	-41.4744	0.510352 146.342621
-174.878	-41.4708	0.525992 145.516556
-174.63	-41.0873	0.339431 -82.834366
-174.668	-41.0762	0.350400 -78.463028
-174.785	-40.9637	0.461554 -67.104263
-174.796	-40.9879	0.442792 -66.794952
-174.928	-40.7059	0.663510 -60.472012
-174.981	-40.6916	0.676280 -59.416199
-174.14	-41.5088	0.524416 175.336166
-174.187	-41.5225	0.525352 173.231171
-174.16	-40.7467	0.798427 -78.781120
-174.194	-40.7909	0.758092 -80.320732
-174.122	-40.875	0.751398 -84.940193
-174.155	-40.8353	0.752773 -82.838165
-175.097	-41.4612	0.553803 144.603516
-175.132	-41.4316	0.553596 144.274033
-174.961	-41.5551	0.554831 146.232315
-174.996	-41.515	0.551651 145.567856
-174.863	-41.5029	0.529009 146.473953
-174.88	-41.5463	0.542893 146.938385
-174.658	-41.1613	0.263156 -81.930557
-174.67	-41.1349	0.293135 -79.786064
-174.068	-41.4155	0.512642 179.833466
-174.106	-41.4222	0.506090 179.632050
-174.071	-41.4482	0.516095 178.793152
-174.069	-41.4788	0.521585 177.857437
-174.188	-41.5664	0.555144 170.101608
-174.23	-41.5846	0.558861 167.531464
-174.358	-41.668	0.576150 158.584366
-174.375	-41.7096	0.592406 155.883820
-174.328	-41.8112	0.629787 151.102600
-174.374	-41.8413	0.624002 150.010712
-174.209	-41.6877	0.611316 161.581360
-174.253	-41.7059	0.612233 159.633667
-174.67	-41.5282	0.486680 151.941635
-174.732	-41.5103	0.492965 149.572647
-174.745	-41.9146	0.607115 146.896255
-174.781	-41.8452	0.600202 147.397903
-175.027	-41.4108	0.544826 144.626755
-175.076	-41.4195	0.548473 144.490982
-174.776	-41.0429	0.396539 -67.703018
-174.804	-41.0381	0.407096 -65.975494
-174.817	-41.0694	0.389887 -64.545692
-174.799	-41.0592	0.392035 -65.734940
-174.819	-41.0529	0.401189 -64.750763
-174.833	-41.0499	0.406932 -64.019928
-174.843	-41.0404	0.417341 -63.563881
diff --git a/doc/examples/tides/ellipses.gfv b/doc/examples/tides/ellipses.gfv
deleted file mode 100644
index 4dd9418..0000000
--- a/doc/examples/tides/ellipses.gfv
+++ /dev/null
@@ -1,26 +0,0 @@
-# GfsView 3D
-View {
-  tx = -0.11839 ty = 0.0263953
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 2.92707
-  r = 1 g = 1 b = 1
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Ellipses {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} sqrt(AU0*AU0+AV0*AV0+BU0*BU0+BV0*BV0) {
-  amin = 0 min = 0
-  amax = 0 max = 2
-  cmap = Jet
-} AU0 AV0 BU0 BV0 {
-  scale = 0.00343
-  use_scalar = 1
-}
diff --git a/doc/examples/tides/phase.gfv b/doc/examples/tides/phase.gfv
deleted file mode 100644
index f4bec7d..0000000
--- a/doc/examples/tides/phase.gfv
+++ /dev/null
@@ -1,23 +0,0 @@
-# GfsView 3D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 19.1745
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} atan2(B0,A0)*180./M_PI {
-  amin = 1
-  amax = 1
-  cmap = Jet
-}
diff --git a/doc/examples/tides/residual.gfv b/doc/examples/tides/residual.gfv
deleted file mode 100644
index f39bdc8..0000000
--- a/doc/examples/tides/residual.gfv
+++ /dev/null
@@ -1,26 +0,0 @@
-# GfsView 3D
-View {
-  tx = -0.11839 ty = 0.0263953
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 2.92707
-  r = 1 g = 1 b = 1
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Vectors {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} sqrt(ZU*ZU+ZV*ZV) {
-  amin = 1
-  amax = 0 max = 0.6
-  cmap = Jet
-} ZU ZV 0 {
-  scale = 0.02
-  use_scalar = 1
-}
diff --git a/doc/examples/tides/tides.gfs b/doc/examples/tides/tides.gfs
deleted file mode 100644
index a092344..0000000
--- a/doc/examples/tides/tides.gfs
+++ /dev/null
@@ -1,206 +0,0 @@
-# Title: Lunar tides in Cook Strait, New Zealand
-# 
-# Description:
-#
-# The shallow-water equations are solved using the "ocean" version of
-# Gerris. The tidal elevations for the lunar (M2) component obtained
-# from a larger-area tidal model are imposed as conditions on
-# the boundaries of the domain.
-#
-# The comments in the \htmladdnormallinkfoot{tides.sh}{tides/tides.sh}
-# script describe how to generate the appropriate GTS files from the
-# tidal elevation and bathymetry data.
-#
-# After an initial transient ($t < \approx 1$ day) due to relaxation of
-# the model toward a state consistent with the mathematical model and
-# with the imposed boundary conditions, the model reaches a periodic
-# regime (Figure \ref{periodic}).
-#
-# \begin{figure}[htbp]
-# \caption{\label{periodic}Evolution of the maximum velocity and 
-# elevation with time.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{pv.eps}
-# \end{center}
-# \end{figure}
-#
-# Online harmonic decomposition can then be used to extract the
-# amplitudes and phases of the computed M2 tidal components. The
-# simulation stops automatically when convergence of the harmonic
-# decomposition is reached (Figure \ref{harmcon}).
-#
-# \begin{figure}[htbp]
-# \caption{\label{harmcon}Convergence of the maximum tidal amplitude 
-# (estimated from harmonic decomposition) with time.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{a0.eps}
-# \end{center}
-# \end{figure}
-#
-# The final tidal amplitudes and phases are illustrated in Figures
-# \ref{amplitude} and \ref{phase} respectively. The harmonic
-# decomposition is also applied to the velocity field. The results can
-# be represented as tidal ellipses (Figure \ref{ellipses}) and
-# residual currents (Figure \ref{residual}).
-#
-# Note that the results for this simulation will not be as good as
-# these described in Rym Msadek's \htmladdnormallinkfoot{technical
-# report}{http://gfs.sf.net/tides.pdf} because iterative Flather
-# conditions have not been applied. See the report for details.
-#
-# \begin{figure}[htbp]
-# \caption{\label{amplitude}Tidal amplitude estimated from the harmonic 
-# decomposition. Dark red is 1.4 metres, dark blue is 0.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{amplitude.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{phase}Tidal phase estimated from the harmonic 
-# decomposition. Dark red is 180 degrees, dark blue -180 degrees.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{phase.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{ellipses}Detail of tidal ellipses estimated from the harmonic 
-# decomposition coloured according to maximum current speed. Dark red
-# is 2 metres/sec, dark blue is zero.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{ellipses.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{residual}Detail of residual tidal currents estimated from the 
-# harmonic decomposition coloured according to residual current speed. 
-# Dark red is 0.6 metres/sec, dark blue is zero.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{residual.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh tides.sh
-# Version: 1.3.1
-# Required files: tides.sh bathymetry coefficients amplitude.gfv ellipses.gfv phase.gfv residual.gfv tides.gfv
-# Running time: 2 hours
-# Generated files: a0.eps amplitude.eps ellipses.eps phase.eps pv.eps residual.eps
-
-# M2 tidal frequency. The period is 12h25 (44700 seconds).
-Define M2F (2.*M_PI/44700.)
-
-# M2 tidal elevation
-Define M2(t) (A_amp*cos (M2F*t)+B_amp*sin (M2F*t))
-
-# Use the "GfsOcean" model
-1 0 GfsOcean GfsBox GfsGEdge {} {
-    # Set the timestep to sthg small compared to the tidal period
-    Time { dtmax = 100. }
-
-    # Set the box size to 500 km
-    PhysicalParams { L = 500e3 }
-
-    # Use cartographic projection module
-    GModule map
-
-    # Use a Lambert conformal conic projection centered on 174 degrees
-    # longitude and -40.8 degrees latitude. Rotate the domain 40
-    # degrees counter-clockwise.
-    MapProjection { lon = 174 lat = -40.8 angle = 40 }
-
-    # Refine to six levels
-    Refine 6
-
-    # We want more accuracy in the projection than the default 1e-3
-    ApproxProjectionParams { tolerance = 1e-6 nitermax = 10 }
-
-    # Initialise tidal amplitudes
-    Init {} {
-        A_amp = AM2.gts
-        B_amp = BM2.gts
-    }
-
-    # Bathymetry
-    Solid bath.gts
-
-    # Refine the coastline to 10 levels
-    RefineSurface 10 bath.gts { twod = 1 }
-
-    # Acceleration of gravity
-    PhysicalParams { g = 9.81 }
-
-    # Add Coriolis source term
-    SourceCoriolis -1e-4
-
-    # Bottom friction parameterisation:
-    # Quadratic drag with friction coefficient of 4e-4.
-    Init { istep = 1 } {
-        U = U/(1. + dt*Velocity*4e-4/H)
-        V = V/(1. + dt*Velocity*4e-4/H)
-    }
-
-    # Weak exponential filtering of the velocity field
-    #    EventFilter { istep = 1 } U 40000
-    #    EventFilter { istep = 1 } V 40000
-    
-    # After t=100000, starts on-the-fly harmonic decomposition of the pressure field...
-    EventHarmonic { start = 100000 istep = 10 } P A B Z EP M2F
-    # ... and of the velocity field
-    EventHarmonic { start = 100000 istep = 10 } U AU BU ZU EU M2F
-    EventHarmonic { start = 100000 istep = 10 } V AV BV ZV EV M2F
-
-    # After t=100000, stops the simulation if the variations of the A0
-    # harmonic component are less than 0.025 in 100 timesteps.
-    EventStop { start = 100000 istep = 100 } A0 0.025
-
-    OutputTime { istep = 1 } stderr
-    OutputProjectionStats { istep = 1 } stderr
-
-    # Output solution on standard output every 20 timesteps
-    # for on-the-fly visualisation with GfsView.
-    # Do not include the GTS file for the embedded surface to save bandwidth.
-    OutputSimulation { istep = 20 } stdout { solid = 0 }
-
-    # Output solution in file 'end.gfs' at the end of the simulation
-    OutputSimulation { start = end } end.gfs
-
-    # Output curves using gnuplot
-    EventScript { start = end } {
-        cat <<EOF | gnuplot
-        set term postscript eps lw 3 solid 20 colour
-        set output 'pv.eps'
-        set xlabel 'Time (days)'
-        set ylabel 'Elevation (metres) or Velocity (metres/s)'
-        plot 'p' u (\$3/86400.):(\$9/9.81) w l t "Elevation", \
-             'u' u (\$3/86400.):9 w l t "Velocity"
-        set output 'a0.eps'
-        set ylabel 'Maximum harmonic elevation (metres)'
-        plot [1:]'a0' u (\$3/86400.):(\$9/9.81) w l t ""
-EOF
-    }
-
-    OutputScalarNorm { istep = 1 } p { v = P }
-    OutputScalarNorm { istep = 1 } u { v = Velocity }
-    OutputScalarNorm { istep = 10 } a0 { v = sqrt(A0*A0 + B0*B0) }
-}
-GfsBox {
-    # Use Flather boundary conditions on all boundaries
-    left = Boundary {
-        BcFlather U 0 H P M2(t)
-    }
-    right = Boundary {
-        BcFlather U 0 H P M2(t)
-    }
-    top = Boundary {
-        BcFlather V 0 H P M2(t)
-    }
-    bottom = Boundary {
-        BcFlather V 0 H P M2(t)
-    }
-
-    # This is required for consistent free-surface fluxes
-    front = Boundary
-}
diff --git a/doc/examples/tides/tides.gfv b/doc/examples/tides/tides.gfv
deleted file mode 100644
index 70e0398..0000000
--- a/doc/examples/tides/tides.gfv
+++ /dev/null
@@ -1,26 +0,0 @@
-# GfsView 3D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 19.1745
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Linear {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P/9.81 {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-}
diff --git a/doc/examples/tides/tides.sh b/doc/examples/tides/tides.sh
deleted file mode 100644
index 010b331..0000000
--- a/doc/examples/tides/tides.sh
+++ /dev/null
@@ -1,48 +0,0 @@
-#
-# Bathymetry
-#
-
-# happrox is distributed with GTS. Do 'happrox -h' for more info.
-# 'bathymetry' contains the (negative) depth as a function of space i.e. three columns:
-# lon (deg) lat (deg) depth (m).
-# 0.05 is the relative depth error allowed.
-happrox -f -r 1 -c 0.05 < bathymetry | transform --revert > bath.gts
-
-#
-# M2 tidal coefficients
-#
-
-# 'coefficients' contains the amplitude and phase of the M2
-# tide as a function of space i.e. four columns:
-# lon (deg) lat (deg) amplitude (m) phase (degree)
-
-# just counts the number of lines in the input file
-lines=`wc -l coefficients | awk '{print $1}'`
-
-# Gerris defines the tidal M2 mode as:
-# AM2*cos (omega*t) + BM2*sin (omega*t)
-#
-# We first compute AM2 from the amplitude and phase.
-awk -v lines=$lines '
-BEGIN {
-  print lines " 0 0"
-} {
-  print $1 " " $2 " " $3*cos($4*3.14159265357/180.)
-}' < coefficients | delaunay > AM2.gts
-
-# Now compute BM2
-awk -v lines=$lines '
-BEGIN {
-  print lines " 0 0"
-} {
-  print $1 " " $2 " " $3*sin($4*3.14159265357/180.)
-}' < coefficients | delaunay > BM2.gts
-
-# Run the simulation
-gerris3D -m tides.gfs | gfsview3D tides.gfv
-
-# Use batch mode of gfsview to generate figures
-echo "Save amplitude.eps { format = EPS }" | gfsview-batch3D end.gfs amplitude.gfv
-echo "Save phase.eps { format = EPS }" | gfsview-batch3D end.gfs phase.gfv
-echo "Save ellipses.eps { format = EPS }" | gfsview-batch3D end.gfs ellipses.gfv
-echo "Save residual.eps { format = EPS }" | gfsview-batch3D end.gfs residual.gfv
diff --git a/doc/figures/axi.tm b/doc/figures/axi.tm
deleted file mode 100644
index 9c46fcd..0000000
--- a/doc/figures/axi.tm
+++ /dev/null
@@ -1,175 +0,0 @@
-<TeXmacs|1.0.6.11>
-
-<style|article>
-
-<\body>
-  The incompressible Navier--Stokes equations in cylindrical coordinates are
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|\<partial\><rsub|t>v<rsub|r>+<frac|1|r>*\<partial\><rsub|r>(r*v<rsub|r><rsup|2>)+\<partial\><rsub|z>(v<rsub|r*>*v<rsub|z>)=-\<partial\><rsub|r>\<phi\>+<frac|1|r>*\<partial\><rsub|r>(r*S<rsub|rr>)+\<partial\><rsub|z>S<rsub|zr>-<frac|S<rsub|\<theta\>\<theta\>>|r>,>|<cell|<eq-number><label|momr>>>|<row|<cell|>|<cell|\<partial\><rsub|t>v<rsub|z>+<frac|1|r>*\<partial\><rsub|r>(r*v<rsub|r>*v<rsub|z>)+\<partial\><rsub|z>(v<rsup|2><rsub|z>)=-\<partial\><rsub|z>\<phi\>+<frac|1|r>*\<partial\><rsub|r>(r*S<rsub|zr>)+\<partial\><rsub|z>S<rsub|zz>,>|<cell|<eq-number><label|momz>>>|<row|<cell|>|<cell|<frac|1|r>*\<partial\><rsub|r>(r*v<rsub|r>)+\<partial\><rsub|z>v<rsub|z>=0,>|<cell|<eq-number><label|continuity>>>>>
-  </eqnarray*>
-
-  with <math|\<phi\>=p/\<rho\>> and the stress tensor
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|S<rsub|rr>>|<cell|=>|<cell|2*\<nu\>*\<partial\><rsub|r>v<rsub|r>,>>|<row|<cell|S<rsub|\<theta\>\<theta\>>>|<cell|=>|<cell|2*\<nu\>*<frac|v<rsub|r>|r>,>>|<row|<cell|S<rsub|zz>>|<cell|=>|<cell|2*\<nu\>*\<partial\><rsub|z>v<rsub|z>,>>|<row|<cell|S<rsub|zr>>|<cell|=>|<cell|\<nu\>*<left|(>\<partial\><rsub|r>v<rsub|z>+\<partial\><rsub|z>v<rsub|r><right|)>.>>>>
-  </eqnarray*>
-
-  Considering a control volume <math|\<Omega\>> with boundary
-  <math|\<partial\>\<Omega\>>, the integral equations can then be written
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|\<partial\><rsub|t><big|int><rsub|\<Omega\>>v<rsub|r>*r*dr*dz+<big|int><rsub|\<partial\>\<Omega\>>r*v<rsub|r>*v<rsub|z>*dr+<big|int><rsub|\<partial\>\<Omega\>>r*v<rsub|r>*v<rsub|r>*dz=>|<cell|>>|<row|<cell|>|<cell|-<big|int><rsub|\<partial\>\<Omega\>>\<phi\>*r*dz+<big|int><rsub|\<Omega\>>\<phi\>*dr*dz+<big|int><rsub|\<partial\>\<Omega\>>r*S<rsub|zr>*dr+<big|int><rsub|\<partial\>\<Omega\>>r*S<rsub|rr>*dz-<big|int><rsub|\<Omega\>>S<rsub|\<theta\>\<theta\>>*dr*dz,>|<cell|>>|<row|<cell|>|<cell|\<partial\><rsub|t><big|int><rsub|\<Omega\>>v<rsub|z>*r*dr*dz+<big|int><rsub|\<partial\>\<Omega\>>r*v<rsub|z>*v<rsub|z>*dr+<big|int><rsub|\<partial\>\<Omega\>>r*v<rsub|z>*v<rsub|r>*dz=>|<cell|>>|<row|<cell|>|<cell|-<big|int><rsub|\<partial\>\<Omega\>>\<phi\>*r*dr+<big|int><rsub|\<partial\>\<Omega\>>r*S<rsub|zz>*dr+<big|int><rsub|\<partial\>\<Omega\>>r*S<rsub|zr>*dz,>|<cell|>>|<row|<cell|>|<cell|<big|int><rsub|\<partial\>\<Omega\>>r*v<rsub|z>*dr+<big|int><rsub|\<partial\>\<Omega\>>r*v<rsub|r>*dz=0.>|<cell|>>|<row|<cell|>|<cell|>|<cell|>>>>
-  </eqnarray*>
-
-  Posing
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|<with|mode|text|<math|a<rsup|i,j>>>>|<cell|\<equiv\>>|<cell|<big|int><rsub|\<Omega\>>dr*dz,>>|<row|<cell|c<rsup|i,j>>|<cell|\<equiv\>>|<cell|<big|int><rsub|\<Omega\>>r*dr*dz\<approx\>r<rsup|j>*a<rsup|i,j>,>>|<row|<cell|s<rsub|z><rsup|i,j>>|<cell|\<equiv\>>|<cell|<big|int><rsub|\<partial\>\<Omega\><rsup|j>>r*dr\<approx\>r<rsup|j>*<big|int><rsub|\<partial\>\<Omega\><rsup|j>>dr,>>|<row|<cell|s<rsup|i,j-1/2><rsub|r>>|<cell|\<equiv\>>|<cell|<big|int><rsub|\<partial\>\<Omega\><rsup|j-1/2>>r*dz<rsub|>=r<rsup|j-1/2>*<big|int><rsub|\<partial\>\<Omega\><rsup|j-1/2>>dz,>>>>
-  </eqnarray*>
-
-  we get the discrete form of the equations as
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|\<partial\><rsub|t>(c*v<rsub|r>)<rsup|i,j>+(s<rsub|z>*v<rsub|r>*v<rsub|z>)<rsup|i+1/2,j>-(s<rsub|z>*v<rsub|r>*v<rsub|z>)<rsup|i-1/2,j>+(s<rsub|r>*v<rsub|r><rsup|2>)<rsup|i,j+1/2>-(s<rsub|r>*v<rsub|r><rsup|2>)<rsup|i,j-1/2>=>|<cell|>>|<row|<cell|>|<cell|(s<rsub|r>\<phi\>)<rsup|i,j-1/2>-(s<rsub|r>\<phi\>)<rsup|i,j+1/2>+<with|color|blue|<with|math-font-series|bold|(a*\<phi\>)<rsup|i,j>>>+>|<cell|>>|<row|<cell|>|<cell|(s<rsub|z>*S<rsub|zr>)<rsup|i+1/2,j>-(s<rsub|z>*S<rsub|zr>)<rsup|i-1/2,j>+(s<rsub|r>*S<rsub|rr>)<rsup|i,j+1/2>-(s<rsub|r>*S<rsub|rr>)<rsup|i,j-1/2>-<with|color|blue|<with|math-font-series|bold|(a*S<rsub|\<theta\>\<theta\>>)<rsup|i,j>>>,>|<cell|>>>>
-  </eqnarray*>
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|\<partial\><rsub|t>(c*v<rsub|z>)<rsup|i,j>+(s<rsub|z>*v<rsup|2><rsub|z>)<rsup|i+1/2,j>-(s<rsub|z>*v<rsup|2><rsub|z>)<rsup|i-1/2,j>+(s<rsub|r>*v<rsub|r><rsup|>*v<rsub|z>)<rsup|i,j+1/2>-(s<rsub|r>*v<rsub|r><rsup|>*v<rsub|z>)<rsup|i,j-1/2>=>|<cell|>>|<row|<cell|>|<cell|(s<rsub|z>\<phi\>)<rsup|i-1/2,j>-(s<rsub|z>\<phi\>)<rsup|i+1/2,j>+>|<cell|>>|<row|<cell|>|<cell|(s<rsub|z>*S<rsub|zz>)<rsup|i+1/2,j>-(s<rsub|z>*S<rsub|zz>)<rsup|i-1/2,j>+(s<rsub|r>*S<rsub|zr>)<rsup|i,j+1/2>-(s<rsub|r>*S<rsub|zr>)<rsup|i,j-1/2>>|<cell|>>>>
-  </eqnarray*>
-
-  <\equation*>
-    (s<rsub|z>*v<rsub|z>)<rsup|i+1/2,j>-(s<rsub|z>*v<rsub|z>)<rsup|i-1/2,j>+(s<rsub|r>*v<rsub|r>)<rsup|i,j+1/2>-(s<rsub|r>*v<rsub|r>)<rsup|i,j-1/2>=0,
-  </equation*>
-
-  where only the bold terms differ from the discretisation of the N--S
-  equations in Cartesian coordinates in \ two dimensions.
-
-  The projection method relies on a decomposition of the velocity as
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|v<rsup|i,j><rsub|r>>|<cell|=>|<cell|(v<rsub|r><rsup|\<star\>>)<rsup|i,j>+<frac|\<Delta\>t|c<rsup|i,j>><left|[>(s<rsub|r>\<phi\>)<rsup|i,j-1/2>-(s<rsub|r>\<phi\>)<rsup|i,j+1/2>+<with|color|blue|<with|math-font-series|bold|(a*\<phi\>)<rsup|i,j>>><right|]>,>>|<row|<cell|v<rsup|i,j><rsub|z>>|<cell|=>|<cell|(v<rsub|z><rsup|\<star\>>)<rsup|i,j>+<frac|\<Delta\>t|c<rsup|i,j>><left|[>(s<rsub|z>\<phi\>)<rsup|i-1/2,j>-(s<rsub|z>\<phi\>)<rsup|i+1/2,j><right|]>,>>>>
-  </eqnarray*>
-
-  wich leads to the Poisson-like equation
-
-  <\equation*>
-    <frac|1|\<Delta\>t>*<left|[>s<rsup|i+1/2,j><rsub|z>**(v<rsub|z><rsup|\<star\>>)<rsup|i+1/2,j>-s<rsup|i-1/2,j><rsub|z>*(v<rsub|z><rsup|\<star\>>)<rsup|i-1/2,j>+s<rsup|i,j+1/2><rsub|r>*(v<rsub|r><rsup|\<star\>>)<rsup|i,j+1/2>-s<rsup|i,j-1/2><rsub|r>*(v<rsub|r><rsup|\<star\>>)<rsup|i,j-1/2><right|]>+\<phi\><rsup|i,j>*<left|(>s<rsup|i,j><rsub|z>*<left|[>(s<rsub|z>/c)<rsup|i+1/2,j>+(s<rsub|z>/c)<rsup|i-1/2,j><right|]>+s<rsup|i,j><rsub|r>*<left|[>(s<rsub|r>/c)<rsup|i,j+1/2>+(s<rsub|r>/c)<rsup|i,j-1/2><right|]><right|)>+s<rsup|i,j+1/2><rsub|r>*(a*\<phi\>)<rsup|i,j+1/2>-s<rsup|i,j-1/2><rsub|r>*(a*\<phi\>)<rsup|i,j-1/2>-(s<rsub|z>/c)<rsup|i+1/2,j>*(s<rsub|z>\<phi\>)<rsup|i+1,j>-(s<rsub|z>/c)<rsup|i-1/2,j>*(s<rsub|z>\<phi\>)<rsup|i-1,j>-(s<rsub|r>/c)<rsup|i,j+1/2>*(s<rsub|r>\<phi\>)<rsup|i,j+1>-(s<rsub|r>/c)<rsup|i,j-1/2>*(s<rsub|r>\<phi\>)<rsup|i,j-1>=0.
-  </equation*>
-
-  This looks complicated though... What about just splitting the velocity as
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|v<rsup|i,j><rsub|r>>|<cell|=>|<cell|(v<rsub|r><rsup|\<star\>>)<rsup|i,j>+\<Delta\>t*<left|(>\<phi\><rsup|i,j-1/2>-\<phi\><rsup|i,j+1/2><right|)>,>>|<row|<cell|v<rsup|i,j><rsub|z>>|<cell|=>|<cell|(v<rsub|z><rsup|\<star\>>)<rsup|i,j>+\<Delta\>t*<left|(>\<phi\><rsup|i-1/2,j>-\<phi\><rsup|i+1/2,j><right|)>,>>>>
-  </eqnarray*>
-
-  which is still consistent with equations (<reference|momr>) and
-  (<reference|momz>). This gives
-
-  <\equation*>
-    <frac|1|\<Delta\>t>*<left|[>s<rsup|i+1/2,j><rsub|z>**(v<rsub|z><rsup|\<star\>>)<rsup|i+1/2,j>-s<rsup|i-1/2,j><rsub|z>*(v<rsub|z><rsup|\<star\>>)<rsup|i-1/2,j>+s<rsup|i,j+1/2><rsub|r>*(v<rsub|r><rsup|\<star\>>)<rsup|i,j+1/2>-s<rsup|i,j-1/2><rsub|r>*(v<rsub|r><rsup|\<star\>>)<rsup|i,j-1/2><right|]>+\<phi\><rsup|i,j>*(s<rsup|i+1/2,j><rsub|z>+s<rsup|i-1/2,j><rsub|z>+s<rsup|i,j+1/2><rsub|r>+s<rsup|i,j-1/2><rsub|r>)-s<rsub|z><rsup|i+1/2,j>*\<phi\><rsup|i+1,j>-s<rsub|z><rsup|i-1/2,j>*\<phi\><rsup|i-1,j>-s<rsub|r><rsup|i,j+1/2>*\<phi\><rsup|i,j+1>-s<rsub|r><rsup|i,j-1/2>*\<phi\><rsup|i,j-1>=0,
-  </equation*>
-
-  together with
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|c<rsup|i,j>*<frac|(v<rsub|r><rsup|\<star\>>)<rsup|i,j>-v<rsup|i,j><rsub|r>|\<Delta\>t>+(s<rsub|z>*v<rsub|r>*v<rsub|z>)<rsup|i+1/2,j>-(s<rsub|z>*v<rsub|r>*v<rsub|z>)<rsup|i-1/2,j>+(s<rsub|r>*v<rsub|r><rsup|2>)<rsup|i,j+1/2>-(s<rsub|r>*v<rsub|r><rsup|2>)<rsup|i,j-1/2>=>|<cell|>>|<row|<cell|>|<cell|(s<rsub|z>*S<rsub|zr>)<rsup|i+1/2,j>-(s<rsub|z>*S<rsub|zr>)<rsup|i-1/2,j>+(s<rsub|r>*S<rsub|rr>)<rsup|i,j+1/2>-(s<rsub|r>*S<rsub|rr>)<rsup|i,j-1/2>-<with|color|blue|<with|math-font-series|bold|(a*S<rsub|\<theta\>\<theta\>>)<rsup|i,j>>>,>|<cell|>>>>
-  </eqnarray*>
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|c<rsup|i,j>*<frac|(v<rsub|z><rsup|\<star\>>)<rsup|i,j>-v<rsup|i,j><rsub|z>|\<Delta\>t>+(s<rsub|z>*v<rsup|2><rsub|z>)<rsup|i+1/2,j>-(s<rsub|z>*v<rsup|2><rsub|z>)<rsup|i-1/2,j>+(s<rsub|r>*v<rsub|r><rsup|>*v<rsub|z>)<rsup|i,j+1/2>-(s<rsub|r>*v<rsub|r><rsup|>*v<rsub|z>)<rsup|i,j-1/2>=>|<cell|>>|<row|<cell|>|<cell|(s<rsub|z>*S<rsub|zz>)<rsup|i+1/2,j>-(s<rsub|z>*S<rsub|zz>)<rsup|i-1/2,j>+(s<rsub|r>*S<rsub|zr>)<rsup|i,j+1/2>-(s<rsub|r>*S<rsub|zr>)<rsup|i,j-1/2>.>|<cell|>>>>
-  </eqnarray*>
-
-  <subsection|Advection term>
-
-  <\equation*>
-    u<rsup|n+1/2><rsub|d>=u<rsup|n>+<frac|h|2>*\<partial\><rsub|d>u<rsup|n>+<frac|\<Delta\>t|2>*\<partial\><rsub|t>u<rsup|n>+\<cal-O\>(h<rsup|2>,\<Delta\>t<rsup|2>),
-  </equation*>
-
-  using equations (<reference|momr>), (<reference|momz>) and
-  (<reference|continuity>) then gives
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|v<rsup|n+1/2><rsub|r>=v<rsup|n><rsub|r>+<frac|1|2>*(h*-v<rsub|r>*\<Delta\>t)*\<partial\><rsub|r>v<rsub|r><rsup|n>+<frac|\<Delta\>t|2>*(-v<rsup|n><rsub|z>*\<partial\><rsub|z>v<rsup|n><rsub|r*>+src<rsup|n>),>|<cell|>|<cell|>>|<row|<cell|v<rsup|n+1/2><rsub|z>=v<rsub|z><rsup|n>+<frac|1|2>*(h-v<rsub|z>*\<Delta\>t)*\<partial\><rsub|z>v<rsub|z><rsup|n>+<frac|\<Delta\>t|2>*<left|(>-v<rsup|n><rsub|r>*\<partial\><rsub|r>v<rsup|n><rsub|z>+src<rsup|n><right|)>,>|<cell|>|<cell|>>>>
-  </eqnarray*>
-
-  which is the same as in the two-dimensional case.
-
-  <subsection|Implicit diffusion>
-
-  <subsubsection|Original implicit diffusion>
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|c*<frac|v<rsup|\<star\>>-v<rsup|n>|\<Delta\>t>-\<beta\>*\<nabla\>s*S<rsup|\<star\>><rsup|*>=src<rsup|n+1/2>+(1-\<beta\>)*\<nabla\>s*S<rsup|n>>|<cell|>>>>
-  </eqnarray*>
-
-  which can be rewritten
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|c*v<rsup|\<star\>>-\<nabla\><wide|s|^>*S<rsup|\<star\>>=c*v<rsup|n>+\<Delta\>t*src<rsup|n+1/2>+<frac|1-\<beta\>|\<beta\>>*\<nabla\><wide|s|^>*S<rsup|n>,>|<cell|>>>>
-  </eqnarray*>
-
-  with
-
-  <\equation*>
-    <wide|s|^>\<equiv\>\<beta\>*\<Delta\>t*s.
-  </equation*>
-
-  This finally gives
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|v<rsup|\<star\>>-<frac|1|c>\<nabla\><wide|s|^>*S<rsup|\<star\>>=v<rsup|n>+\<Delta\>t*<wide|src|^><rsup|n+1/2>+<frac|<wide|\<beta\>|^>|c>*\<nabla\><wide|s|^>*S<rsup|n>,>|<cell|>>>>
-  </eqnarray*>
-
-  with <math|><with|mode|math|<wide|\<beta\>|^>\<equiv\>(1-\<beta\>)/\<beta\>>.
-
-  <subsubsection|Axisymmetric version>
-
-  To account for the axisymmetric term this needs to be rewritten
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|c*<frac|v<rsup|\<star\>>-v<rsup|n>|\<Delta\>t>-\<beta\>*\<nabla\>s*S<rsup|\<star\>>+\<beta\>*a*2*\<nu\>*<frac|v<rsup|\<star\>>|r>=src<rsup|n+1/2>+(1-\<beta\>)*\<nabla\>s*S<rsup|n>-(1-\<beta\>)*a*2*\<nu\>*<frac|v<rsup|n>|r>>|<cell|>>>>
-  </eqnarray*>
-
-  which can be rewritten
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|c*v<rsup|\<star\>>*-\<nabla\><wide|s|^>*S<rsup|\<star\>>+2*\<beta\>*\<Delta\>t*a*\<nu\>*<frac|v<rsup|\<star\>>|r>=c*v<rsup|n>+\<Delta\>t*src<rsup|n+1/2>+<frac|1-\<beta\>|\<beta\>>*\<nabla\><wide|s|^>*S<rsup|n>-2*(1-\<beta\>)*\<Delta\>t*a*\<nu\>*<frac|v<rsup|n>|r>>|<cell|>>>>
-  </eqnarray*>
-
-  this finally gives
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|v<rsup|\<star\>>*-<frac|1|c>*\<nabla\><wide|s|^>*S<rsup|\<star\>>+2*\<beta\>*\<Delta\>t*\<nu\>*<frac|v<rsup|\<star\>>|r<rsup|2>>=v<rsup|n>+\<Delta\>t*<wide|src|^><rsup|n+1/2>+<frac|1-\<beta\>|\<beta\>*c>*\<nabla\><wide|s|^>*S<rsup|n>-2*(1-\<beta\>)*\<Delta\>t*\<nu\>*<frac|v<rsup|n>|r<rsup|2>>>|<cell|>>>>
-  </eqnarray*>
-
-  Posing <math|d\<equiv\>2*\<beta\>*\<Delta\>t*\<nu\>/r<rsup|2>> then gives
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|v<rsup|\<star\>>*(1+d)-<frac|1|c>*\<nabla\><wide|s|^>*S<rsup|\<star\>>=v<rsup|n>*<left|(>1-<wide|\<beta\>*|^>*d<right|)>+\<Delta\>t*<wide|src|^><rsup|n+1/2>+<frac|<wide|\<beta\>*|^>*|c>*\<nabla\><wide|s|^>*S<rsup|n>.>|<cell|>>>>
-  </eqnarray*>
-</body>
-
-<\references>
-  <\collection>
-    <associate|auto-1|<tuple|1|?>>
-    <associate|auto-2|<tuple|2|?>>
-    <associate|auto-3|<tuple|2.1|?>>
-    <associate|auto-4|<tuple|2.2|?>>
-    <associate|auto-5|<tuple|3|?>>
-    <associate|continuity|<tuple|3|?>>
-    <associate|momr|<tuple|1|?>>
-    <associate|momz|<tuple|2|?>>
-    <associate|mon|<tuple|?|?>>
-  </collection>
-</references>
-
-<\auxiliary>
-  <\collection>
-    <\associate|toc>
-      <with|par-left|<quote|3fn>|1<space|2spc>Advection term
-      <datoms|<macro|x|<repeat|<arg|x>|<with|font-series|medium|<with|font-size|1|<space|0.2fn>.<space|0.2fn>>>>>|<htab|5mm>>
-      <no-break><pageref|auto-1>>
-    </associate>
-  </collection>
-</auxiliary>
\ No newline at end of file
diff --git a/doc/figures/corner.fig b/doc/figures/corner.fig
deleted file mode 100644
index 9c7b0fd..0000000
--- a/doc/figures/corner.fig
+++ /dev/null
@@ -1,84 +0,0 @@
-#FIG 3.2
-Landscape
-Center
-Inches
-Letter  
-100.00
-Single
--2
-1200 2
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3300 5400 3300 6600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2100 5400 3300 5400
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3300 3000 5700 3000 5700 5400 3300 5400 3300 3000
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 900 5400 3300 5400 3300 7800 900 7800 900 5400
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 900 3000 3300 3000 3300 5400 900 5400 900 3000
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3300 5400 5700 5400 5700 7800 3300 7800 3300 5400
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2100 5400 2100 7800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 900 6600 3300 6600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2700 6600 2700 7800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2100 7200 3300 7200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 900 6000 2100 6000
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1500 5400 1500 6600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2100 3000 2100 5400
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 900 4200 3300 4200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
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diff --git a/doc/figures/cubed.fig b/doc/figures/cubed.fig
deleted file mode 100644
index 4354253..0000000
--- a/doc/figures/cubed.fig
+++ /dev/null
@@ -1,76 +0,0 @@
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diff --git a/doc/figures/gse.tm b/doc/figures/gse.tm
deleted file mode 100644
index aea0ccd..0000000
--- a/doc/figures/gse.tm
+++ /dev/null
@@ -1,252 +0,0 @@
-<TeXmacs|1.0.6.11>
-
-<style|<tuple|article|maxima>>
-
-<\body>
-  <section|GSE alleviation using spatial filtering (or is it diffusion?)>
-
-  Following Tolman, 2002, Appendix A, the filtered value is defined as
-
-  <\equation>
-    F<rsub|avg>(\<b-x\>)=<frac|1|3>*F(\<b-x\>)+<frac|1|6>*<big|sum><rsup|4><rsub|n=1>F(\<b-x\>+\<b-r\><rsub|n>),<label|avg>
-  </equation>
-
-  with
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|\<b-r\><rsub|1>>|<cell|=>|<cell|\<b-s\>+\<b-n\>,>>|<row|<cell|\<b-r\><rsub|2>>|<cell|=>|<cell|-\<b-s\>+\<b-n\>,>>|<row|<cell|\<b-r\><rsub|3>>|<cell|=>|<cell|-\<b-s\>-\<b-n\>,>>|<row|<cell|\<b-r\><rsub|4>>|<cell|=>|<cell|\<b-s\>-\<b-n\>>>>>
-  </eqnarray*>
-
-  and
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|<with|math-font-series|bold|s>>|<cell|=>|<cell|\<alpha\>*<matrix|<tformat|<table|<row|<cell|cos
-    \<theta\>>>|<row|<cell|sin \<theta\>>>>>>,>>|<row|<cell|\<b-n\>>|<cell|=>|<cell|\<beta\>*<matrix|<tformat|<table|<row|<cell|-sin
-    \<theta\>>>|<row|<cell|cos \<theta\>>>>>>.>>>>
-  </eqnarray*>
-
-  To third-order the Taylor expansion of <math|F> can be written
-
-  <\equation>
-    F(\<b-x\>+\<b-r\>)=F(\<b-x\>)+\<b-r\>*\<b-F\><rprime|'>(\<b-x\>)+<frac|1|2>*\<b-r\><rsup|T>*\<b-F\><rprime|''>(\<b-x\>)*\<b-r\>,<label|taylor>
-  </equation>
-
-  with the gradient <math|\<b-F\><rprime|'>> and Hessian
-  <math|\<b-F\><rprime|''>> given by
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|<with|mode|text|<math|\<b-F\><rprime|'>>>>|<cell|\<equiv\>>|<cell|<matrix|<tformat|<table|<row|<cell|<frac|\<partial\>F|\<partial\>x>>>|<row|<cell|<frac|\<partial\>F|\<partial\>y>>>>>>,>>|<row|<cell|<with|mode|text|<math|\<b-F\><rprime|''>>>>|<cell|\<equiv\>>|<cell|<matrix|<tformat|<table|<row|<cell|<frac|\<partial\><rsup|2>F|\<partial\>x<rsup|2>>>|<cell|<frac|\<partial\><rsup|2>F|\<partial\>x\<partial\>y>>>|<row|<cell|<frac|\<partial\><rsup|2>F|\<partial\>x\<partial\>y>>|<cell|<frac|\<partial\><rsup|2>F|\<partial\>y<rsup|2>>>>>>>.>>>>
-  </eqnarray*>
-
-  Using (<reference|taylor>) in (<reference|avg>) gives
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|F<rsub|avg>(\<b-x\>)>|<cell|=>|<cell|<frac|1|3>*F(\<b-x\>)+<frac|1|6>*<big|sum><rsup|4><rsub|n=1>F(\<b-x\>)+\<b-r\><rsub|n>*\<b-F\><rprime|'>(\<b-x\>)+<frac|1|2>*\<b-r\><rsub|n><rsup|T>*\<b-F\><rprime|''>(\<b-x\>)*\<b-r\><rsub|n>>>|<row|<cell|>|<cell|=>|<cell|F(\<b-x\>)+<frac|1|6>*\<b-F\><rprime|'>(\<b-x\>)*<big|sum><rsup|4><rsub|n=1>\<b-r\><rsub|n>+<frac|1|12>*<big|sum><rsup|4><rsub|n=1>\<b-r\><rsub|n><rsup|T>*\<b-F\><rprime|''>(\<b-x\>)*\<b-r\><rsub|n>>>|<row|<cell|>|<cell|=>|<cell|F(\<b-x\>)+<frac|1|12>*<big|sum><rsup|4><rsub|n=1>\<b-r\><rsub|n><rsup|T>*\<b-F\><rprime|''>(\<b-x\>)*\<b-r\><rsub|n>>>>>
-  </eqnarray*>
-
-  I am lazy so I use Maxima to obtain the simplified form
-
-  <with|prog-language|maxima|prog-session|default|<\session>
-    <\input|<with|color|red|(<with|math-font-family|rm|%i>1)
-    <with|color|black|>>>
-      s:matrix([alpha*cos(theta)],[alpha*sin(theta)]);
-    </input>
-
-    <\output>
-      <with|mode|math|math-display|true|<with|mode|text|font-family|tt|color|red|(<with|math-font-family|rm|%o1>)
-      <with|color|black|>><left|(><tabular*|<tformat|<table|<row|<cell|\<alpha\>*cos
-      <left|(>\<vartheta\><right|)>>>|<row|<cell|\<alpha\>*sin
-      <left|(>\<vartheta\><right|)>>>>>><right|)>>
-    </output>
-
-    <\input|<with|color|red|(<with|math-font-family|rm|%i>2)
-    <with|color|black|>>>
-      n:matrix([-beta*sin(theta)],[beta*cos(theta)]);
-    </input>
-
-    <\output>
-      <with|mode|math|math-display|true|<with|mode|text|font-family|tt|color|red|(<with|math-font-family|rm|%o2>)
-      <with|color|black|>><left|(><tabular*|<tformat|<table|<row|<cell|-\<beta\>*sin
-      <left|(>\<vartheta\><right|)>>>|<row|<cell|\<beta\>*cos
-      <left|(>\<vartheta\><right|)>>>>>><right|)>>
-    </output>
-
-    <\input|<with|color|red|(<with|math-font-family|rm|%i>3)
-    <with|color|black|>>>
-      F:matrix( [Fxx,Fxy], [Fxy,Fyy] );
-    </input>
-
-    <\output>
-      <with|mode|math|math-display|true|<with|mode|text|font-family|tt|color|red|(<with|math-font-family|rm|%o3>)
-      <with|color|black|>><left|(><tabular*|<tformat|<table|<row|<cell|<with|math-font-family|rm|Fxx>>|<cell|<with|math-font-family|rm|Fxy>>>|<row|<cell|<with|math-font-family|rm|Fxy>>|<cell|<with|math-font-family|rm|Fyy>>>>>><right|)>>
-    </output>
-
-    <\input|<with|color|red|(<with|math-font-family|rm|%i>4)
-    <with|color|black|>>>
-      r1: s+n;
-    </input>
-
-    <\output>
-      <with|mode|math|math-display|true|<with|mode|text|font-family|tt|color|red|(<with|math-font-family|rm|%o4>)
-      <with|color|black|>><left|(><tabular*|<tformat|<table|<row|<cell|\<alpha\>*cos
-      <left|(>\<vartheta\><right|)>-\<beta\>*sin
-      <left|(>\<vartheta\><right|)>>>|<row|<cell|\<alpha\>*sin
-      <left|(>\<vartheta\><right|)>+\<beta\>*cos
-      <left|(>\<vartheta\><right|)>>>>>><right|)>>
-    </output>
-
-    <\input|<with|color|red|(<with|math-font-family|rm|%i>5)
-    <with|color|black|>>>
-      r2: -s+n;
-    </input>
-
-    <\output>
-      <with|mode|math|math-display|true|<with|mode|text|font-family|tt|color|red|(<with|math-font-family|rm|%o5>)
-      <with|color|black|>><left|(><tabular*|<tformat|<table|<row|<cell|-\<beta\>*sin
-      <left|(>\<vartheta\><right|)>-\<alpha\>*cos
-      <left|(>\<vartheta\><right|)>>>|<row|<cell|\<beta\>*cos
-      <left|(>\<vartheta\><right|)>-\<alpha\>*sin
-      <left|(>\<vartheta\><right|)>>>>>><right|)>>
-    </output>
-
-    <\input|<with|color|red|(<with|math-font-family|rm|%i>6)
-    <with|color|black|>>>
-      r3: -s-n;
-    </input>
-
-    <\output>
-      <with|mode|math|math-display|true|<with|mode|text|font-family|tt|color|red|(<with|math-font-family|rm|%o6>)
-      <with|color|black|>><left|(><tabular*|<tformat|<table|<row|<cell|\<beta\>*sin
-      <left|(>\<vartheta\><right|)>-\<alpha\>*cos
-      <left|(>\<vartheta\><right|)>>>|<row|<cell|-\<alpha\>*sin
-      <left|(>\<vartheta\><right|)>-\<beta\>*cos
-      <left|(>\<vartheta\><right|)>>>>>><right|)>>
-    </output>
-
-    <\input|<with|color|red|(<with|math-font-family|rm|%i>7)
-    <with|color|black|>>>
-      r4: s-n;
-    </input>
-
-    <\output>
-      <with|mode|math|math-display|true|<with|mode|text|font-family|tt|color|red|(<with|math-font-family|rm|%o10>)
-      <with|color|black|>><left|(><tabular*|<tformat|<table|<row|<cell|\<beta\>*sin
-      <left|(>\<vartheta\><right|)>+\<alpha\>*cos
-      <left|(>\<vartheta\><right|)>>>|<row|<cell|\<alpha\>*sin
-      <left|(>\<vartheta\><right|)>-\<beta\>*cos
-      <left|(>\<vartheta\><right|)>>>>>><right|)>>
-    </output>
-
-    <\input|<with|color|red|(<with|math-font-family|rm|%i>11)
-    <with|color|black|>>>
-      ratsimp(transpose(r1).F.r1+transpose(r2).F.r2+transpose(r3).F.r3+transpose(r4).F.r4);
-    </input>
-
-    <\output>
-      <with|mode|math|math-display|true|<with|mode|text|font-family|tt|color|red|(<with|math-font-family|rm|%o12>)
-      <with|color|black|>><left|(>4*\<alpha\><rsup|2>*<with|math-font-family|rm|Fyy>+4*\<beta\><rsup|2>*<with|math-font-family|rm|Fxx><right|)>*sin
-      <left|(>\<vartheta\><right|)><rsup|2>+<left|(>8*\<alpha\><rsup|2>-8*\<beta\><rsup|2><right|)>*<with|math-font-family|rm|Fxy>*cos
-      <left|(>\<vartheta\><right|)>*sin <left|(>\<vartheta\><right|)>+<left|(>4*\<beta\><rsup|2>*<with|math-font-family|rm|Fyy>+4*\<alpha\><rsup|2>*<with|math-font-family|rm|Fxx><right|)>*cos
-      <left|(>\<vartheta\><right|)><rsup|2>>
-    </output>
-  </session>>
-
-  We get
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|F<rsub|avg>(\<b-x\>)>|<cell|=>|<cell|F(\<b-x\>)+>>|<row|<cell|>|<cell|>|<cell|<frac|1|3>**(\<alpha\><rsup|2>*cos<rsup|2>
-    \<theta\>+\<beta\><rsup|2>*sin<rsup|2> \<theta\>)*F<rsub|x
-    x>*+>>|<row|<cell|>|<cell|>|<cell|<frac|1|3>**(\<alpha\><rsup|2>*sin<rsup|2>
-    \<theta\>+\<beta\><rsup|2>*cos<rsup|2> \<theta\>)*F<rsub|y
-    y>+>>|<row|<cell|>|<cell|>|<cell|<frac|2|3>
-    (\<alpha\><rsup|2>-\<beta\><rsup|2>)*cos \<theta\>*sin \<theta\>*F<rsub|x
-    y>,>>>>
-  </eqnarray*>
-
-  which can be rewritten
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|<frac|F<rsub|avg>(\<b-x\>)-F(\<b-x\>)|\<Delta\>t>>|<cell|=>|<cell|D<rsub|x
-    x>*F<rsub|x x>+D<rsub|y y>*F<rsub|y y>+2*D<rsub|x y>*F<rsub|x y>,>>>>
-  </eqnarray*>
-
-  with
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|D<rsub|x*x>>|<cell|\<equiv\>>|<cell|D<rsub|s*s>*cos<rsup|2>
-    \<theta\>+D<rsub|n*n>*sin<rsup|2> \<theta\>,>>|<row|<cell|D<rsub|y*y>>|<cell|\<equiv\>>|<cell|D<rsub|s*s>*sin<rsup|2>
-    \<theta\>+D<rsub|n*n>*cos<rsup|2> \<theta\>,>>|<row|<cell|D<rsub|x*y>>|<cell|\<equiv\>>|<cell|(D<rsub|s*s>-D<rsub|n*n>)*cos
-    \<theta\>*sin \<theta\>,>>>>
-  </eqnarray*>
-
-  and
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|D<rsub|s*s>>|<cell|\<equiv\>>|<cell|<frac|\<alpha\><rsup|2>|3*\<Delta\>t>,>>|<row|<cell|D<rsub|n*n>>|<cell|\<equiv\>>|<cell|<frac|\<beta\><rsup|2>|3*\<Delta\>t>.>>>>
-  </eqnarray*>
-
-  This means that to third-order accuracy the spatial-filtering scheme of
-  Tolman is formally equivalent to a first-order time discretisation of the
-  diffusion equation of Booij and Holthuijsen, 1987. Furthermore Tolman takes
-  <math|\<alpha\>> and <math|\<beta\>> as
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|\<alpha\>>|<cell|\<equiv\>>|<cell|\<alpha\><rsub|s>*\<Delta\>c<rsub|g>*\<Delta\>t,>>|<row|<cell|\<beta\>>|<cell|\<equiv\>>|<cell|\<alpha\><rsub|n>*c<rsub|g>*\<Delta\>\<theta\>*\<Delta\>t,>>>>
-  </eqnarray*>
-
-  with <math|\<Delta\>c<rsub|g>\<equiv\>><with|mode|math|(\<gamma\>-\<gamma\><rsup|-1>)*c<rsub|g>/2>,
-  whereas Booij and Holthuijsen take
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|<wide|D|^><rsub|s*s>>|<cell|\<equiv\>>|<cell|<frac|1|12>*(\<Delta\>c<rsub|g>)<rsup|2>*T<rsub|s>,>>|<row|<cell|<wide|D|^><rsub|n*n>>|<cell|\<equiv\>>|<cell|<frac|1|12>*(c<rsub|g>*\<Delta\>\<theta\>)<rsup|2>*T<rsub|s>.>>>>
-  </eqnarray*>
-
-  The two schemes are actually equivalent when <math|D<rsub|s*s>>,
-  <math|D<rsub|n*n>> are identical to <math|<wide|D|^><rsub|s*s>>,
-  <math|<wide|D|^><rsub|n*n>> which gives
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|T<rsub|s>>|<cell|=>|<cell|4*\<alpha\><rsup|2><rsub|s>*\<Delta\>t,>>|<row|<cell|\<alpha\><rsub|n>>|<cell|=>|<cell|\<alpha\><rsub|s>.>>>>
-  </eqnarray*>
-
-  This is obviously a much smaller value for <math|T<rsub|s>> than the 4 days
-  used in Tolman 2002 and I am not sure I understand where this discrepancy
-  comes from... The stability criterion for the explicit diffusion scheme
-  then becomes
-
-  <\equation*>
-    \<Delta\>t\<less\><frac|(\<Delta\>x)<rsup|2>|(c<rsub|g>*\<Delta\>\<theta\>)<rsup|2>*4*\<alpha\><rsup|2><rsub|s>*\<Delta\>t>
-  </equation*>
-
-  which simplifies as
-
-  <\equation*>
-    \<Delta\>t\<less\><frac|\<Delta\>x|2*\<alpha\><rsub|s>*c<rsub|g>*\<Delta\>\<theta\>>
-  </equation*>
-
-  which is the standard CFL stability criterion with a CFL number of
-  <math|(2*\<alpha\><rsub|s>*\<Delta\>\<theta\>)<rsup|-1>>. For 24 wave
-  directions this number is larger than one for
-  <math|\<alpha\><rsub|s>\<lesssim\>2>, which means that this scheme does not
-  restrict the timestep if wave advection is resolved using an explicit
-  scheme (as is usually the case).
-</body>
-
-<\references>
-  <\collection>
-    <associate|auto-1|<tuple|1|1>>
-    <associate|avg|<tuple|1|1>>
-    <associate|taylor|<tuple|2|1>>
-  </collection>
-</references>
-
-<\auxiliary>
-  <\collection>
-    <\associate|toc>
-      <vspace*|1fn><with|font-series|<quote|bold>|math-font-series|<quote|bold>|1<space|2spc>GSE
-      alleviation using spatial filtering (or is it diffusion?)>
-      <datoms|<macro|x|<repeat|<arg|x>|<with|font-series|medium|<with|font-size|1|<space|0.2fn>.<space|0.2fn>>>>>|<htab|5mm>>
-      <no-break><pageref|auto-1><vspace|0.5fn>
-    </associate>
-  </collection>
-</auxiliary>
\ No newline at end of file
diff --git a/doc/figures/indices.fig b/doc/figures/indices.fig
deleted file mode 100644
index da1edbe..0000000
--- a/doc/figures/indices.fig
+++ /dev/null
@@ -1,130 +0,0 @@
-#FIG 3.2
-Landscape
-Center
-Inches
-Letter  
-100.00
-Single
--2
-1200 2
-6 2250 2250 2550 2550
-1 3 0 1 0 7 50 0 -1 0.000 1 0.0000 2400 2400 106 106 2400 2400 2475 2475
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 2400 2400 46 46 2400 2400 2446 2400
--6
-6 1200 1200 3600 3600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1200 1200 3600 1200 3600 3600 1200 3600 1200 1200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2400 1200 2400 3600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1200 2400 3600 2400
--6
-6 5025 225 9375 4575
-6 6000 1200 8400 3600
-6 6000 1200 8400 3600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 6000 1200 8400 1200 8400 3600 6000 3600 6000 1200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7200 1200 7200 3600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 6000 2400 8400 2400
--6
-6 7050 2250 7350 2550
-1 3 0 1 0 7 50 0 -1 0.000 1 0.0000 7200 2400 106 106 7200 2400 7275 2475
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 7200 2400 46 46 7200 2400 7246 2400
--6
-4 0 0 50 0 0 18 0.0000 4 195 135 7725 1875 0\001
-4 0 0 50 0 0 18 0.0000 4 195 135 6525 3075 6\001
-4 0 0 50 0 0 18 0.0000 4 195 135 7725 3075 2\001
-4 0 0 50 0 0 18 0.0000 4 195 135 6525 1875 4\001
-4 0 0 50 0 0 18 0.0000 4 195 135 7275 2250 1\001
--6
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 8700 2400 9300 2400
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 5700 2400 5100 2400
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 7200 900 7200 300
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 7200 3900 7200 4500
-4 0 0 50 0 0 18 0.0000 4 195 135 5475 2775 5\001
-4 0 0 50 0 0 18 0.0000 4 195 135 7425 4200 3\001
-4 0 0 50 0 0 18 0.0000 4 195 135 8850 2775 4\001
-4 0 0 50 0 0 18 0.0000 4 195 135 7425 825 2\001
-4 0 0 50 0 0 14 0.0000 4 150 105 6675 2025 5\001
-4 0 0 50 0 0 14 0.0000 4 150 105 7875 2025 1\001
-4 0 0 50 0 0 14 0.0000 4 150 105 6675 3225 7\001
-4 0 0 50 0 0 14 0.0000 4 150 105 7875 3225 3\001
--6
-6 1200 6000 3600 8400
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3600 6000 3600 8400 1200 8400 1200 6000 3600 6000
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3600 7200 1200 7200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2400 6000 2400 8400
--6
-6 2250 7050 2550 7350
-1 3 0 1 0 7 50 0 -1 0.000 1 4.7124 2400 7200 106 106 2400 7200 2325 7275
-1 3 0 1 0 0 50 0 20 0.000 1 4.7124 2400 7200 46 46 2400 7200 2400 7246
--6
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 3900 2400 4500 2400
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 900 2400 300 2400
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 2400 900 2400 300
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 2400 3900 2400 4500
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 2400 8700 2400 9300
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 2400 5700 2400 5100
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 3900 7200 4500 7200
-2 1 0 4 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	2 1 1.00 180.00 240.00
-	 900 7200 300 7200
-4 0 0 50 0 0 18 0.0000 4 195 135 1725 1875 0\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2925 1875 1\001
-4 0 0 50 0 0 18 0.0000 4 195 135 1725 3075 2\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2925 3075 3\001
-4 0 0 50 0 0 18 0.0000 4 195 135 675 2775 1\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2625 4200 3\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2625 825 2\001
-4 0 0 50 0 0 18 0.0000 4 195 135 4050 2775 0\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2475 2250 4\001
-4 0 0 50 0 0 14 0.0000 4 150 105 1875 2025 4\001
-4 0 0 50 0 0 14 0.0000 4 150 105 3075 2025 5\001
-4 0 0 50 0 0 14 0.0000 4 150 105 3075 3225 7\001
-4 0 0 50 0 0 14 0.0000 4 150 105 1875 3225 6\001
-4 0 0 50 0 0 18 0.0000 4 195 135 1725 6675 4\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2925 6675 5\001
-4 0 0 50 0 0 18 0.0000 4 195 135 1725 7875 0\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2925 7875 1\001
-4 0 0 50 0 0 14 0.0000 4 150 105 1875 6825 6\001
-4 0 0 50 0 0 14 0.0000 4 150 105 3075 6825 7\001
-4 0 0 50 0 0 14 0.0000 4 150 105 1875 8025 2\001
-4 0 0 50 0 0 14 0.0000 4 150 105 3075 8025 3\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2475 7050 2\001
-4 0 0 50 0 0 18 0.0000 4 195 135 675 7575 1\001
-4 0 0 50 0 0 18 0.0000 4 195 135 4050 7575 0\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2625 5625 5\001
-4 0 0 50 0 0 18 0.0000 4 195 135 2625 9000 4\001
-4 0 0 50 0 0 14 0.0000 4 195 1830 1500 10050 children(3)={2,3,6,7}\001
-4 0 0 50 0 0 14 0.0000 4 195 1830 1500 9750 children(2)={0,1,4,5}\001
-4 0 0 50 0 0 14 0.0000 4 195 1830 1500 0 children(5)={4,5,6,7}\001
-4 0 0 50 0 0 14 0.0000 4 195 1830 1500 -300 children(4)={0,1,2,3}\001
-4 0 0 50 0 0 14 0.0000 4 195 1830 6300 -300 children(0)={1,3,5,7}\001
-4 0 0 50 0 0 14 0.0000 4 195 1830 6300 0 children(1)={0,2,4,6}\001
diff --git a/doc/figures/interpolate_2D.fig b/doc/figures/interpolate_2D.fig
deleted file mode 100644
index 1bce0f4..0000000
--- a/doc/figures/interpolate_2D.fig
+++ /dev/null
@@ -1,212 +0,0 @@
-#FIG 3.2
-Landscape
-Center
-Inches
-Letter  
-100.00
-Single
--2
-1200 2
-0 32 #404040
-0 33 #808080
-0 34 #c0c0c0
-0 35 #8e8f8e
-0 36 #c0c0c0
-0 37 #808080
-0 38 #8e8f8e
-0 39 #404040
-0 40 #808080
-0 41 #c0c0c0
-0 42 #e0e0e0
-0 43 #c6b797
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-0 45 #dccba6
-0 46 #aaaaaa
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-0 53 #404040
-0 54 #808080
-0 55 #c0c0c0
-0 56 #e0e0e0
-0 57 #808080
-0 58 #c0c0c0
-0 59 #e0e0e0
-0 60 #404040
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-0 62 #c0c0c0
-0 63 #404040
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-0 65 #e0e0e0
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-0 70 #404040
-0 71 #808080
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-0 94 #444444
-0 95 #8e8f8e
-0 96 #444444
-0 97 #8e8f8e
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-0 99 #8e8f8e
-0 100 #444444
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-0 102 #444444
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-0 104 #444444
-0 105 #8e8f8e
-0 106 #444444
-0 107 #8e8f8e
-0 108 #808080
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-0 111 #8e8e8e
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-0 135 #c0c0c0
-0 136 #e0e0e0
-6 3075 3075 3225 3225
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3075 3075 3225 3225
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3225 3075 3075 3225
--6
-6 3450 3000 3750 3300
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3525 3075 3675 3225
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3675 3075 3525 3225
--6
-6 1650 3000 1950 3300
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1725 3075 1875 3225
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1875 3075 1725 3225
--6
-6 5250 3000 5550 3300
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 5325 3075 5475 3225
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 5475 3075 5325 3225
--6
-6 3000 3450 3300 3750
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3075 3525 3225 3675
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3225 3525 3075 3675
--6
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 3150 2250 75 75 3150 2250 3225 2250
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 4050 2250 75 75 4050 2250 4125 2250
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 3150 4950 75 75 3150 4950 3225 4950
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 4050 4950 75 75 4050 4950 4125 4950
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 2250 3150 75 75 2250 3150 2325 3150
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 2250 4050 75 75 2250 4050 2325 4050
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 4950 4050 75 75 4950 4050 5025 4050
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 4950 3150 75 75 4950 3150 5025 3150
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 2700 2700 4500 2700 4500 4500 2700 4500 2700 2700
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 900 2700 2700 2700 2700 4500 900 4500 900 2700
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 900 900 2700 900 2700 2700 900 2700 900 900
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 2700 900 4500 900 4500 2700 2700 2700 2700 900
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 4500 900 6300 900 6300 2700 4500 2700 4500 900
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 4500 2700 6300 2700 6300 4500 4500 4500 4500 2700
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 2700 4500 4500 4500 4500 6300 2700 6300 2700 4500
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 4500 4500 6300 4500 6300 6300 4500 6300 4500 4500
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 900 4500 2700 4500 2700 6300 900 6300 900 4500
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3525 3525 3675 3525 3675 3675 3525 3675 3525 3525
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 2700 1800 3600 1800 3600 2700 2700 2700 2700 1800
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3600 1800 4500 1800 4500 2700 3600 2700 3600 1800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2700 5400 4500 5400
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3600 4500 3600 5400
-2 1 1 1 0 7 50 0 -1 4.000 0 0 -1 0 0 2
-	 900 3150 6300 3150
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3525 1725 3675 1725 3675 1875 3525 1875 3525 1725
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3525 5325 3675 5325 3675 5475 3525 5475 3525 5325
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1800 2700 1800 4500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1800 3600 2700 3600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 5400 2700 5400 4500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4500 3600 5400 3600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1725 3525 1875 3525 1875 3675 1725 3675 1725 3525
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 5325 3525 5475 3525 5475 3675 5325 3675 5325 3525
-2 1 1 1 0 7 50 0 -1 4.000 0 0 -1 0 0 2
-	 3150 900 3150 6300
-2 1 1 1 0 7 50 0 -1 4.000 0 0 -1 0 0 2
-	 900 3600 6300 3600
-2 1 1 1 0 7 50 0 -1 4.000 0 0 -1 0 0 2
-	 3600 900 3600 6300
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1725 1725 1875 1725 1875 1875 1725 1875 1725 1725
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 5325 1725 5475 1725 5475 1875 5325 1875 5325 1725
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 5325 5325 5475 5325 5475 5475 5325 5475 5325 5325
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1725 5325 1875 5325 1875 5475 1725 5475 1725 5325
diff --git a/doc/figures/lonlat.fig b/doc/figures/lonlat.fig
deleted file mode 100644
index 5fb5b18..0000000
--- a/doc/figures/lonlat.fig
+++ /dev/null
@@ -1,34 +0,0 @@
-#FIG 3.2  Produced by xfig version 3.2.5
-Landscape
-Center
-Metric
-A4      
-100.00
-Single
--2
-1200 2
-5 1 0 2 0 7 50 -1 -1 0.000 0 1 0 0 3825.000 1117.500 2925 4050 3825 4185 4725 4050
-5 1 0 2 0 7 50 -1 -1 0.000 0 1 0 0 6652.500 5062.500 2925 4050 2790 5085 2925 6075
-5 1 0 2 0 7 50 -1 -1 0.000 0 1 0 0 8452.500 5062.500 4725 4050 4590 5040 4725 6075
-5 1 0 2 0 7 50 -1 -1 0.000 0 1 0 0 3825.000 3150.000 2925 6075 3780 6210 4725 6075
-5 1 0 1 0 7 50 -1 -1 0.000 0 1 0 0 5971.811 3405.259 5310 3150 5265 3465 5400 3825
-5 1 0 1 0 7 50 -1 -1 0.000 0 1 0 0 5038.176 2797.906 4680 3015 4905 3195 5265 3150
-2 1 1 1 0 7 50 -1 -1 4.000 0 0 -1 0 0 3
-	 2925 4050 5850 2250 2925 6075
-2 1 1 1 0 7 50 -1 -1 4.000 0 0 7 0 0 2
-	 5850 2250 4725 4050
-2 1 1 1 0 7 50 -1 -1 4.000 0 0 7 0 0 2
-	 5850 2250 4725 6075
-4 0 0 50 -1 1 24 0.0000 4 180 165 3825 3330 r\001
-4 0 0 50 -1 1 24 0.0000 4 180 165 2970 6615 r\001
-4 0 0 50 -1 0 24 0.0000 4 180 555 3240 6615 cos\001
-4 0 0 50 -1 32 24 0.0000 4 285 210 3825 6660 q\001
-4 0 0 50 -1 1 24 0.0000 4 285 210 4140 6615 d\001
-4 0 0 50 -1 1 24 0.0000 4 180 165 1980 5175 r\001
-4 0 0 50 -1 32 24 0.0000 4 285 210 2340 5175 q\001
-4 0 0 50 -1 32 24 0.0000 4 300 225 4635 3465 l\001
-4 0 0 50 -1 32 24 0.0000 4 285 210 5085 4050 q\001
-4 0 0 50 -1 1 24 0.0000 4 285 210 2160 5175 d\001
-4 0 0 50 -1 1 24 0.0000 4 285 210 4455 3465 d\001
-4 0 0 50 -1 1 24 0.0000 4 285 210 4905 4050 d\001
-4 0 0 50 -1 32 24 0.0000 4 300 225 4320 6615 l\001
diff --git a/doc/figures/lonlat.tm b/doc/figures/lonlat.tm
deleted file mode 100644
index 2810ff6..0000000
--- a/doc/figures/lonlat.tm
+++ /dev/null
@@ -1,447 +0,0 @@
-<TeXmacs|1.0.6.11>
-
-<style|article>
-
-<\body>
-  <doc-data|<doc-title|Derivation of metric coefficients for
-  a<next-line>longitude-latitude coordinate
-  system>|<doc-author-data|<author-name|Stéphane
-  Popinet>>|<doc-date|<date>>|>
-
-  A system of conservation laws of the form
-
-  <\equation>
-    \<partial\><rsub|t><big|int><rsub|\<Omega\>>\<b-U\>*dV+<big|int><rsub|\<partial\>\<Omega\>>\<b-F\>(\<b-U\>)\<cdot\>\<b-n\>*dS=0<label|conservation>
-  </equation>
-
-  is discretised in Gerris as
-
-  <\equation*>
-    h<rsup|2>*c<rsub|i,j>*\<partial\><rsub|t>\<b-U\>+<big|sum><rsub|faces>s<rsub|f>*h*\<b-F\><rsub|f>(\<b-U\>)=0
-  </equation*>
-
-  or
-
-  <\equation>
-    h*c<rsub|i,j>*\<partial\><rsub|t>\<b-U\>+<big|sum><rsub|faces>s<rsub|f>\<b-F\><rsub|f>(\<b-U\>)*=0<label|gerris>
-  </equation>
-
-  with <math|h> the dimensional cell size. The figure below illustrates the
-  lengths of the faces of a surface element in a longitude-latitude
-  coordinate system with <math|\<lambda\>> the longitude and <math|\<theta\>>
-  the latitude.
-
-  <big-figure|<postscript|lonlat.fig|0.3par|||||>|Elementary lengths for a
-  surface element.>
-
-  This leads to the discrete form for (<reference|conservation>)
-
-  <\equation*>
-    r<rsup|2>*cos \<theta\>*d\<theta\>*d\<lambda\>*\<partial\><rsub|t>\<b-U\>+<big|sum><rsub|f<rsub|\<theta\>>>r*d\<theta\>*\<b-F\><rsub|f<rsub|\<theta\>>>(\<b-U\>)+<big|sum><rsub|f<rsub|\<lambda\>>>r*cos
-    \<theta\>*d\<lambda\>*\<b-F\><rsub|f<rsub|\<lambda\>>>(\<b-U\>)=0,
-  </equation*>
-
-  or
-
-  <\equation>
-    r*cos \<theta\>*d\<theta\>*d\<lambda\>*\<partial\><rsub|t>\<b-U\>+<big|sum><rsub|f<rsub|\<theta\>>>d\<theta\>*\<b-F\><rsub|f<rsub|\<theta\>>>(\<b-U\>)+<big|sum><rsub|f<rsub|\<lambda\>>>cos
-    \<theta\>*d\<lambda\>*\<b-F\><rsub|f<rsub|\<lambda\>>>(\<b-U\>)=0.<label|lonlat>
-  </equation>
-
-  Equating the terms with (<reference|gerris>) gives
-
-  <\with|color|blue>
-    <\eqnarray*>
-      <tformat|<table|<row|<cell|c<rsub|i,j>>|<cell|\<equiv\>>|<cell|<frac|r|h>*cos
-      \<theta\> *d\<theta\>*d\<lambda\>,>>|<row|<cell|s<rsub|f<rsub|\<theta\>>>>|<cell|\<equiv\>>|<cell|d\<theta\>,>>|<row|<cell|s<rsub|f<rsub|\<lambda\>>>>|<cell|\<equiv\>>|<cell|cos
-      \<theta\>* d\<lambda\>.>>>>
-    </eqnarray*>
-  </with>
-
-  <subsection|Application to the Saint-Venant equations>
-
-  For the Saint-Venant equations <math|\<b-U\>> and <math|\<b-F\>(\<b-U\>)>
-  are given by
-
-  <\equation*>
-    \<b-U\>\<equiv\><matrix|<tformat|<table|<row|<cell|\<phi\>>>|<row|<cell|\<phi\>*u>>|<row|<cell|\<phi\>*v>>>>>,
-    \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \<b-F\><rsub|x>(\<b-U\>)\<equiv\><matrix|<tformat|<table|<row|<cell|\<phi\>*u>>|<row|<cell|\<phi\>*u<rsup|2>+g*<frac|\<phi\><rsup|2>|2>>>|<row|<cell|\<phi\>*u*v>>>>>,
-    \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \<b-F\><rsub|y>(\<b-U\>)\<equiv\><matrix|<tformat|<table|<row|<cell|\<phi\>*v>>|<row|<cell|\<phi\>*u*v>>|<row|<cell|\<phi\>*v<rsup|2>+g*<frac|\<phi\><rsup|2>|2>>>>>>.
-  </equation*>
-
-  Using (<reference|lonlat>), the equations in longitude-latitude coordinates
-  can be written
-
-  <\equation>
-    r*cos \<theta\>*\<partial\><rsub|t>\<b-U\>+<frac|1|d\<lambda\>><big|sum><rsub|f<rsub|x>>*\<b-F\><rsub|x>(\<b-U\>)+<frac|1|d\<theta\>><big|sum><rsub|f<rsub|y>>cos
-    \<theta\>*\<b-F\><rsub|y>(\<b-U\>)=0.<label|lonlat>
-  </equation>
-
-  The differential form can be recovered by taking the limit as
-  <math|d\<lambda\>> and <math|d\<theta\>> tend to zero
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|r*cos
-    \<theta\>*\<partial\><rsub|t>\<phi\>+\<partial\><rsub|\<lambda\>>(\<phi\>*u)+\<partial\><rsub|\<theta\>>(\<phi\>*v*cos
-    \<theta\>)=0,>|<cell|>>|<row|<cell|>|<cell|r*cos
-    \<theta\>*\<partial\><rsub|t>(\<phi\>*u)+\<partial\><rsub|\<lambda\>><left|(>\<phi\>*u<rsup|2>+g*<frac|\<phi\><rsup|2>|2><right|)>+\<partial\><rsub|\<theta\>><left|(>\<phi\>*u*v*cos
-    \<theta\><right|)>=0,>|<cell|>>|<row|<cell|>|<cell|r*cos
-    \<theta\>*\<partial\><rsub|t>(\<phi\>*v)+\<partial\><rsub|\<lambda\>>(\<phi\>*u*v)+\<partial\><rsub|\<theta\>><left|[><left|(>\<phi\>*v<rsup|2>+g*<frac|\<phi\><rsup|2>|2><right|)>*cos
-    \<theta\><right|]>=0.>|<cell|>>>>
-  </eqnarray*>
-
-  This can be rewritten in advective form as
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|>|<cell|\<partial\><rsub|t>\<phi\>+<frac|1|r*cos
-    \<theta\>*>*<left|[>\<partial\><rsub|\<lambda\>>(\<phi\>*u)+\<partial\><rsub|\<theta\>>(\<phi\>*v*cos
-    \<theta\>)<right|]>=0,>|<cell|>>|<row|<cell|>|<cell|\<partial\><rsub|t>u+<frac|1|r*cos
-    \<theta\>*>*(u*\<partial\><rsub|\<lambda\>>u+v*cos
-    \<theta\>*\<partial\><rsub|\<theta\>>
-    u)<with|color|blue|<with|color|green|-<frac|u*v|r>*tan
-    \<theta\>>>+<frac|g|r*cos \<theta\>*>*\<partial\><rsub|\<lambda\>>\<phi\>=0,>|<cell|>>|<row|<cell|>|<cell|\<partial\><rsub|t>v+<frac|1|r*cos
-    \<theta\>*>*(u*\<partial\><rsub|\<lambda\>>v+v*cos \<theta\>
-    \<partial\><rsub|\<theta\>> v)<with|color|green|+<frac|u<rsup|2>|r>*tan
-    \<theta\>>+<frac|g|r>*\<partial\><rsub|\<theta\>>\<phi\><with|color|red|-<frac|g*\<phi\>|2*r>*tan
-    \<theta\>>=0,>|<cell|>>>>
-  </eqnarray*>
-
-  where additional terms (compared to the standard form) are indicated in red
-  and missing terms in green.
-
-  <subsection|Derivation using the ``manifold approach'' of Rossmanith et
-  al., 2004>
-
-  System of ``balance laws'' on general manifolds (equation (95))
-
-  <\equation>
-    \<partial\><rsub|t>\<b-q\>+<frac|1|<sqrt|h>>*\<partial\><rsub|x<rsup|k>>\<b-f\><rsup|k>=<with|math-font-series|bold|\<psi\>><rsub|c>,<label|manifold>
-  </equation>
-
-  with <math|h> the determinant of the metric tensor and
-  <with|mode|math|<with|math-font-series|bold|\<psi\>><rsub|c>> the geometric
-  source terms. For the shallow-water equations
-
-  <\equation*>
-    \<b-q\>(\<b-x\>,t)\<equiv\><matrix|<tformat|<table|<row|<cell|\<phi\>>>|<row|<cell|\<phi\>*u<rsup|1>>>|<row|<cell|\<phi\>*u<rsup|2>>>>>>,<hspace|10pt>\<b-f\><rsup|k>(\<b-q\>,\<b-x\>)\<equiv\><sqrt|h>*<matrix|<tformat|<table|<row|<cell|\<phi\>*u<rsup|k>>>|<row|<cell|T<rsup|k1>>>|<row|<cell|T<rsup|k2>>>>>>,<hspace|10pt><with|math-font-series|bold|\<psi\>><rsub|c>(\<b-q\>,\<b-x\>)\<equiv\><matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|-\<Gamma\><rsub|m
-    n><rsup|1>*T<rsup|n m>>>|<row|<cell|-\<Gamma\><rsub|m n><rsup|2>*T<rsup|n
-    m>>>>>>,
-  </equation*>
-
-  and
-
-  <\equation*>
-    T<rsup|n m>\<equiv\>\<phi\>*u<rsup|n>*u<rsup|m>+<frac|1|2>*g*\<phi\><rsup|2>*h<rsup|n
-    m>.
-  </equation*>
-
-  For a spherical coordinate system with <math|x<rsup|1>=\<lambda\>> the
-  longitude and <math|x<rsup|2>=\<theta\>> the latitude, the metric is
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|\<b-h\>>|<cell|\<equiv\>>|<cell|<matrix|<tformat|<table|<row|<cell|r<rsup|2>*cos<rsup|2>
-    \<theta\>>|<cell|0>>|<row|<cell|0>|<cell|r<rsup|2>>>>>>,>>|<row|<cell|<sqrt|h>>|<cell|\<equiv\>>|<cell|r<rsup|2>*cos
-    \<theta\>,>>>>
-  </eqnarray*>
-
-  so that
-
-  <\equation*>
-    h<rsup|11>=<frac|1|h<rsub|11>>=<frac|1|r<rsup|2>*cos<rsup|2>
-    \<theta\>>,<hspace|10pt>h<rsup|22>=<frac|1|h<rsub|22>>=<frac|1|r<rsup|2>>,<hspace|10pt>h<rsup|12>=h<rsup|21>=0.
-  </equation*>
-
-  The corresponding Christofell symbols are given by (for a general
-  orthogonal metric)
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|\<Gamma\><rsub|m
-    n><rsup|k>>|<cell|\<equiv\>>|<cell|<frac|1|2>*h<rsup|\<alpha\>k>(\<partial\><rsub|x<rsup|n>>h<rsub|\<alpha\>m>+\<partial\><rsub|x<rsup|m>>h<rsub|\<alpha\>n>-\<partial\><rsub|x<rsup|\<alpha\>>>h<rsub|m
-    n>),>>|<row|<cell|\<Gamma\><rsup|1>>|<cell|\<equiv\>>|<cell|<frac|1|2*h<rsub|11>>*<matrix|<tformat|<table|<row|<cell|\<partial\><rsub|x<rsup|1>>h<rsub|11>>|<cell|\<partial\><rsub|x<rsup|2>>h<rsub|11>>>|<row|<cell|\<partial\><rsub|x<rsup|2>>h<rsub|11>>|<cell|-\<partial\><rsub|x<rsup|1>>h<rsub|2
-    2>>>>>>=<matrix|<tformat|<table|<row|<cell|0>|<cell|-tan
-    \<theta\>*>>|<row|<cell|-tan \<theta\>*>|<cell|0>>>>>,>>|<row|<cell|\<Gamma\><rsup|2>>|<cell|\<equiv\>>|<cell|<frac|1|2*h<rsub|22>>*<matrix|<tformat|<table|<row|<cell|-\<partial\><rsub|x<rsup|2>>h<rsub|11>>|<cell|\<partial\><rsub|x<rsup|1>>h<rsub|22>>>|<row|<cell|\<partial\><rsub|x<rsup|1>>h<rsub|22>>|<cell|\<partial\><rsub|x<rsup|2>>h<rsub|2
-    2>>>>>>=<matrix|<tformat|<table|<row|<cell|*sin \<theta\>*cos
-    \<theta\>>|<cell|0>>|<row|<cell|0>|<cell|0>>>>>.>>>>
-  </eqnarray*>
-
-  The geometric source term is then
-
-  <\equation*>
-    <hspace|10pt><with|math-font-series|bold|\<psi\>><rsub|c>(\<b-q\>,\<b-x\>)\<equiv\><matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|tan
-    \<theta\>*(T<rsup|1 2>+*T<rsup|2 1>)>>|<row|<cell|-sin \<theta\>*cos
-    \<theta\>*T<rsup|11>>>>>>=<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|2*tan
-    \<theta\>*\<phi\>*u<rsup|1>*u<rsup|2>>>|<row|<cell|-sin \<theta\>*cos
-    \<theta\>*\<phi\>*u<rsup|1>*u<rsup|1>-<frac|g*\<phi\><rsup|2>|2*r<rsup|2>*>*tan
-    \<theta\>>>>>>
-  </equation*>
-
-  Equation (<reference|manifold>) can be developed as
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|\<partial\><rsub|t>\<phi\>+<frac|1|cos
-    \<theta\>>*<left|[>\<partial\><rsub|\<lambda\>>(*cos
-    \<theta\>*\<phi\>*u<rsup|1>)+\<partial\><rsub|\<theta\>>(cos
-    \<theta\>*\<phi\>*u<rsup|2>)<right|]>>|<cell|=>|<cell|0,>>|<row|<cell|\<partial\><rsub|t>(\<phi\>*u<rsup|1>)+<frac|1|cos
-    \<theta\>>*<left|[>\<partial\><rsub|\<lambda\>>(cos
-    \<theta\>*(\<phi\>*u<rsup|1>*u<rsup|1>+<frac|g*\<phi\><rsup|2>|2*r<rsup|2>*cos<rsup|2>\<theta\>>))+\<partial\><rsub|\<theta\>>(cos
-    \<theta\>*\<phi\>*u<rsup|1>*u<rsup|2>)<right|]>>|<cell|=>|<cell|-\<Gamma\><rsub|m
-    n><rsup|1>*T<rsup|n m>,>>|<row|<cell|\<partial\><rsub|t>(\<phi\>*u<rsup|2>)+<frac|1|cos
-    \<theta\>>*<left|[>\<partial\><rsub|\<lambda\>>(cos
-    \<theta\>**\<phi\>*u<rsup|1>*u<rsup|2>)+\<partial\><rsub|\<theta\>>(cos
-    \<theta\>*(\<phi\>*u<rsup|2>*u<rsup|2>+<frac|g*\<phi\><rsup|2>|2*r<rsup|2>*>))<right|]>>|<cell|=>|<cell|-\<Gamma\><rsub|m
-    n><rsup|2>*T<rsup|n m>.>>>>
-  </eqnarray*>
-
-  Using
-
-  <\equation*>
-    u\<equiv\>u<rsub|1>\<equiv\>r*cos \<theta\>
-    u<rsup|1>,<hspace|10pt>v\<equiv\>u<rsub|2>\<equiv\>r*u<rsup|2>,
-  </equation*>
-
-  (where exponents and indices indicate the covariant and contravariant
-  vector coordinates respectively) then gives
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|\<partial\><rsub|t>\<phi\>+<frac|1|r*cos
-    \<theta\>>*<left|[>\<partial\><rsub|\<lambda\>>(\<phi\>*u)+\<partial\><rsub|\<theta\>>(cos
-    \<theta\>*\<phi\>*v)<right|]>>|<cell|=>|<cell|0,>>|<row|<cell|\<partial\><rsub|t>u+<frac|1|r*cos
-    \<theta\>*>*(u*\<partial\><rsub|\<lambda\>>u+cos
-    \<theta\>*v*\<partial\><rsub|\<theta\>>u)+<frac|g|r*cos
-    \<theta\>>*\<partial\><rsub|\<lambda\>>\<phi\>-<frac|u*v|r>*tan
-    \<theta\>>|<cell|=>|<cell|*0,>>|<row|<cell|\<partial\><rsub|t>v+<frac|1|r*cos
-    \<theta\>>*(u*\<partial\><rsub|\<lambda\>>v+cos
-    \<theta\>*v**\<partial\><rsub|\<theta\>>*v)+<frac|g|r>*\<partial\><rsub|\<theta\>>\<phi\>>|<cell|=>|<cell|-<frac|u*u|r*>*tan
-    \<theta\>,>>>>
-  </eqnarray*>
-
-  which is the standard advective form.
-
-  The geometric source term can be re-expressed in the covariant coordinate
-  system as
-
-  <\equation*>
-    <hspace|10pt><with|math-font-series|bold|<wide|\<psi\>|^>>\<equiv\><matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|2*tan
-    \<theta\>*\<phi\>*<frac|u<rsub|1>*u<rsub|2>|r*>>>|<row|<cell|-tan
-    \<theta\>*\<phi\>*<frac|u<rsub|1>*u<rsub|1>|r*>-<frac|g*\<phi\><rsup|2>|2*r*>*tan
-    \<theta\>>>>>>
-  </equation*>
-
-  <subsection|The Saint-Venant equations in general orthogonal coordinates>
-
-  \;
-
-  <\equation*>
-    h<rsub|\<lambda\>>*h<rsub|\<theta\>>*d\<lambda\>*d\<theta\>*\<partial\><rsub|t>\<b-U\>+<big|sum><rsub|f<rsub|\<lambda\>>>h<rsub|\<theta\>>*d\<theta\>*\<b-F\><rsub|\<lambda\>>(\<b-U\>)+<big|sum><rsub|f<rsub|\<theta\>>>h<rsub|\<lambda\>>*d\<lambda\>*\<b-F\><rsub|\<theta\>>(\<b-U\>)=0
-  </equation*>
-
-  can be rewritten
-
-  <\equation*>
-    h<rsub|\<lambda\>>*h<rsub|\<theta\>>*\<partial\><rsub|t>\<b-U\>+<frac|1|d\<lambda\>>*<big|sum><rsub|f<rsub|\<lambda\>>>h<rsub|\<theta\>>*\<b-F\><rsub|\<lambda\>>(\<b-U\>)+<frac|1|d\<theta\>>*<big|sum><rsub|f<rsub|\<theta\>>>h<rsub|\<lambda\>>*\<b-F\><rsub|\<theta\>>(\<b-U\>)=0.
-  </equation*>
-
-  The differential form can be recovered by making <math|d\<lambda\>> and
-  <math|d\<theta\>> tend to zero
-
-  <\with|mode|math>
-    <\eqnarray*>
-      <tformat|<table|<row|<cell|>|<cell|h<rsub|\<lambda\>>*h<rsub|\<theta\>>*\<partial\><rsub|t>\<phi\>+\<partial\><rsub|\<lambda\>>(h<rsub|\<theta\>>*\<phi\>*u)+\<partial\><rsub|\<theta\>>(h<rsub|\<lambda\>>*\<phi\>*v)=0,>|<cell|>>|<row|<cell|>|<cell|h<rsub|\<lambda\>>*h<rsub|\<theta\>>*\<partial\><rsub|t>(\<phi\>*u)+\<partial\><rsub|\<lambda\>><left|[>h<rsub|\<theta\>>*<left|(>\<phi\>*u<rsup|2>+g*<frac|\<phi\><rsup|2>|2><right|)><right|]>+\<partial\><rsub|\<theta\>><left|(>h<rsub|\<lambda\>>*\<phi\>*u*v<right|)>=0,>|<cell|>>|<row|<cell|>|<cell|h<rsub|\<lambda\>>*h<rsub|\<theta\>>*\<partial\><rsub|t>(\<phi\>*v)+\<partial\><rsub|\<lambda\>>(h<rsub|\<theta\>>*\<phi\>*u*v)+\<partial\><rsub|\<theta\>><left|[>h<rsub|\<lambda\>>*<left|(>\<phi\>*v<rsup|2>+g*<frac|\<phi\><rsup|2>|2><right|)><right|]>=0.>|<cell|>>>>
-    </eqnarray*>
-  </with>
-
-  which can be expanded as
-
-  <\with|mode|math>
-    <\eqnarray*>
-      <tformat|<table|<row|<cell|>|<cell|\<partial\><rsub|t>\<phi\>+<frac|u*|h<rsub|\<lambda\>>>*\<partial\><rsub|\<lambda\>>\<phi\>*+<frac|v*|h<rsub|\<theta\>>>*\<partial\><rsub|\<theta\>>\<phi\>+<frac|\<phi\>*|h<rsub|\<lambda\>>*h<rsub|\<theta\>>>*<left|[>\<partial\><rsub|\<lambda\>>(h<rsub|\<theta\>>*u)+\<partial\><rsub|\<theta\>>(h<rsub|\<lambda\>>*v)<right|]>=0,>|<cell|>>|<row|<cell|>|<cell|\<partial\><rsub|t>u*+<frac|u*|h<rsub|\<lambda\>>>*\<partial\><rsub|\<lambda\>>u+<frac|v*|h<rsub|\<theta\>>>*\<partial\><rsub|\<theta\>>u*+<frac|g|h<rsub|\<lambda\>>>*\<partial\><rsub|\<lambda\>>\<phi\>+g*<frac|\<phi\>|2*h<rsub|\<lambda\>>*h<rsub|\<theta\>>>*\<partial\><rsub|\<lambda\>>h<rsub|\<theta\>>=0,>|<cell|>>|<row|<cell|>|<cell|\<partial\><rsub|t>v+<frac|u|h<rsub|\<lambda\>>>*\<partial\><rsub|\<lambda\>>v+<frac|v|h<rsub|\<theta\>>>*\<partial\><rsub|\<theta\>>v+<frac|g|h<rsub|\<theta\>>>*\<partial\><rsub|\<theta\>>\<phi\>+g*<frac|\<phi\>|2*h<rsub|\<lambda\>>*h<rsub|\<theta\>>>*\<partial\><rsub|\<theta\>>h<rsub|\<lambda\>>=0.>|<cell|>>>>
-    </eqnarray*>
-  </with>
-
-  Introducing the notation
-
-  <\equation*>
-    d<rsub|t>=\<partial\><rsub|t>+<frac|u*|h<rsub|\<lambda\>>>*\<partial\><rsub|\<lambda\>>+<frac|v*|h<rsub|\<theta\>>>*\<partial\><rsub|\<theta\>>,
-  </equation*>
-
-  this can be rewritten
-
-  <\with|mode|math>
-    <\eqnarray*>
-      <tformat|<table|<row|<cell|>|<cell|d<rsub|t>\<phi\>+<frac|\<phi\>*|h<rsub|\<lambda\>>*h<rsub|\<theta\>>>*<left|[>\<partial\><rsub|\<lambda\>>(h<rsub|\<theta\>>*u)+\<partial\><rsub|\<theta\>>(h<rsub|\<lambda\>>*v)<right|]>=0,>|<cell|>>|<row|<cell|>|<cell|d<rsub|t>u*<with|color|blue|<with|color|green|<with|color|green|-f<rsub|G>*v>>>+<frac|g|h<rsub|\<lambda\>>>*\<partial\><rsub|\<lambda\>>\<phi\><with|color|red|+<frac|g*\<phi\>|2*h<rsub|\<lambda\>>*h<rsub|\<theta\>>>*\<partial\><rsub|\<lambda\>>h<rsub|\<theta\>>>=0,>|<cell|<eq-number><label|general-u>>>|<row|<cell|>|<cell|d<rsub|t>v<with|color|green|<with|color|blue|<with|color|green|+f<rsub|G>*u>>>+<frac|g|h<rsub|\<theta\>>>*\<partial\><rsub|\<theta\>>\<phi\><with|color|red|+*<frac|g*\<phi\>|2*h<rsub|\<lambda\>>*h<rsub|\<theta\>>>*\<partial\><rsub|\<theta\>>h<rsub|\<lambda\>>>=0.>|<cell|>>>>
-    </eqnarray*>
-  </with>
-
-  where additional and missing terms (respective to equations 43, 44 and 45
-  of Williamson et al, 1991) are indicated in red and green respectively and
-
-  <\equation*>
-    f<rsub|G>\<equiv\><frac|v*\<partial\><rsub|\<lambda\>>h<rsub|\<theta\>>-u*\<partial\><rsub|\<theta\>>h<rsub|\<lambda\>>|h<rsub|\<lambda\>>*h<rsub|\<theta\>>>*.*
-  </equation*>
-
-  <subsubsection|Application to spherical coordinates>
-
-  For spherical coordinates
-
-  <\equation*>
-    h<rsub|\<lambda\>>=r*cos \<theta\>,<hspace|10pt>h<rsub|\<theta\>>=r,<hspace|10pt>\<partial\><rsub|\<lambda\>>h<rsub|\<theta\>>=0,<hspace|10pt>\<partial\><rsub|\<theta\>>h<rsub|\<lambda\>>=-r*sin
-    \<theta\>,
-  </equation*>
-
-  which gives
-
-  <\with|mode|math>
-    <\eqnarray*>
-      <tformat|<table|<row|<cell|>|<cell|d<rsub|t>\<phi\>+<frac|\<phi\>*|r*cos
-      \<theta\>>*<left|[>\<partial\><rsub|\<lambda\>>u+\<partial\><rsub|\<theta\>>(v*cos
-      \<theta\>)<right|]>=0,>|<cell|>>|<row|<cell|>|<cell|d<rsub|t>u*<with|color|blue|<with|color|green|<with|color|green|-<frac|u*v|r>*tan
-      \<theta\>>>>+<frac|g|r*cos \<theta\>>*\<partial\><rsub|\<lambda\>>\<phi\>=0,>|<cell|>>|<row|<cell|>|<cell|d<rsub|t>v<with|color|green|<with|color|blue|<with|color|green|<with|color|green|+<frac|u<rsup|2>|r>*tan
-      \<theta\>>>>>+<frac|g|r>*\<partial\><rsub|\<theta\>>\<phi\><with|color|red|-<frac|g*\<phi\>|2*r>*tan
-      \<theta\>>=0.>|<cell|>>>>
-    </eqnarray*>
-  </with>
-
-  <subsubsection|Application to polar coordinates>
-
-  For polar coordinates
-
-  <\equation*>
-    h<rsub|\<lambda\>>=1,<hspace|10pt>h<rsub|\<theta\>>=\<lambda\>,<hspace|10pt>\<partial\><rsub|\<lambda\>>h<rsub|\<theta\>>=1,<hspace|10pt>\<partial\><rsub|\<theta\>>h<rsub|\<lambda\>>=0,
-  </equation*>
-
-  which gives
-
-  <\with|mode|math>
-    <\eqnarray*>
-      <tformat|<table|<row|<cell|>|<cell|d<rsub|t>\<phi\>+<frac|\<phi\>*|\<lambda\>>*<left|[>\<partial\><rsub|\<lambda\>>(\<lambda\>*u)+\<partial\><rsub|\<theta\>>v<right|]>=0,>|<cell|>>|<row|<cell|>|<cell|d<rsub|t>u*<with|color|blue|<with|color|green|<with|color|green|-<frac|v<rsup|2>|\<lambda\>>>>>+g*\<partial\><rsub|\<lambda\>>\<phi\><with|color|red|+g*<frac|\<phi\>|2*\<lambda\>>>=0,>|<cell|>>|<row|<cell|>|<cell|d<rsub|t>v<with|color|green|<with|color|blue|<with|color|green|<with|color|green|+<frac|u*v|\<lambda\>>>>>>+<frac|g|\<lambda\>>*\<partial\><rsub|\<theta\>>\<phi\>=0.>|<cell|>>>>
-    </eqnarray*>
-  </with>
-
-  <subsection|``Well-balanced'' scheme in general orthogonal coordinates>
-
-  From Audusse et al, 2004, the one-dimensional scheme in Cartesian
-  coordinates can be written
-
-  <\equation>
-    \<Delta\>x<rsub|i>*d<rsub|t>U<rsub|i>+\<cal-F\><rsub|l>-\<cal-F\><rsub|r>=S<rsub|ci>,<label|audusse>
-  </equation>
-
-  with left and right numerical fluxes
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|\<cal-F\><rsub|l>>|<cell|=>|<cell|\<cal-F\>(U<rsub|i+1/2->,U<rsub|i+1/2+>)+<frac|g|2>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|\<phi\><rsup|2><rsub|i,r>-\<phi\><rsup|2><rsub|i+1/2->>>>>>,>>|<row|<cell|\<cal-F\><rsub|r>>|<cell|=>|<cell|\<cal-F\>(U<rsub|i-1/2->,U<rsub|i-1/2+>)+<frac|g|2>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|\<phi\><rsup|2><rsub|i,l>-\<phi\><rsup|2><rsub|i-1/2+>>>>>>,>>>>
-  </eqnarray*>
-
-  and centered source term (necessary to correct second-order imbalances)
-
-  <\equation*>
-    S<rsub|ci>=<frac|g|2>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|(\<phi\><rsub|i,l>+\<phi\><rsub|i,r>)*(z<rsub|i,l>-z<rsub|i,r>)>>>>>.
-  </equation*>
-
-  The lake-at-rest steady state is defined by <math|u<rsub|i>=0> and
-  <math|\<phi\><rsub|i,l>+z<rsub|i,l>=\<phi\><rsub|i,r>+z<rsub|i,r>=\<phi\><rsub|i>+z<rsub|i>=H>
-  for all <math|i>. In this case
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|\<cal-F\><rsub|l>>|<cell|=>|<cell|<frac|g|2>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|*\<phi\><rsup|2><rsub|i+1/2->>>>>>+<frac|g|2>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|\<phi\><rsup|2><rsub|i,r>-\<phi\><rsup|2><rsub|i+1/2->>>>>>,>>|<row|<cell|\<cal-F\><rsub|r>>|<cell|=>|<cell|<frac|g|2>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|\<phi\><rsup|2><rsub|i-1/2+>>>>>>+<frac|g|2>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|*\<phi\><rsup|2><rsub|i,l>-\<phi\><rsup|2><rsub|i-1/2+>>>>>>.>>>>
-  </eqnarray*>
-
-  The centered source term becomes
-
-  <\equation*>
-    S<rsub|ci>=<frac|g|2>**<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|(\<phi\><rsub|i,l>+\<phi\><rsub|i,r>)*(H-\<phi\><rsub|i,l>-H+\<phi\><rsub|i,r>)>>>>>=<frac|g|2>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|\<phi\><rsup|2><rsub|i,r>-\<phi\><rsup|2><rsub|i,l>>>>>>,
-  </equation*>
-
-  and restores hydrostatic balance.
-
-  For general orthogonal coordinates (<reference|audusse>) can be rewritten
-
-  <\equation*>
-    \<Delta\>x<rsub|i>*c<rsub|i>*d<rsub|t>U<rsub|i>+s<rsub|l>*\<cal-F\><rsub|l>-s<rsub|r>*\<cal-F\><rsub|r>=S<rsub|ci>+S<rsub|g>.
-  </equation*>
-
-  For the lake-at-rest steady state, this gives for the velocity component
-  <math|u>
-
-  <\equation*>
-    \<Delta\>x<rsub|i>*c<rsub|i>*d<rsub|t>u+<frac|g|2>*(s<rsub|l>*\<phi\><rsup|2><rsub|i,r>-s<rsub|r>*\<phi\><rsup|2><rsub|i,l>)=S<rsub|ci>+S<rsub|g>,
-  </equation*>
-
-  with the geometric source term (red term in (<reference|general-u>))
-  discretised as
-
-  <\equation*>
-    S<rsub|g>\<equiv\><frac|g|4>*(\<phi\><rsup|2><rsub|i,r>+\<phi\><rsup|2><rsub|i,l>)*(s<rsub|l>-s<rsub|r>).
-  </equation*>
-
-  The definition of <math|S<rsub|ci>> thus needs to be modified to maintain
-  balance, a simple choice is
-
-  <\equation*>
-    S<rsub|ci>=<frac|g|4>*<matrix|<tformat|<table|<row|<cell|0>>|<row|<cell|(s<rsub|l>+s<rsub|r>)*(\<phi\><rsub|i,l>+\<phi\><rsub|i,r>)*(z<rsub|i,l>-z<rsub|i,r>)>>>>>,
-  </equation*>
-
-  which for the lake-at-rest steady-state gives
-
-  <\eqnarray*>
-    <tformat|<table|<row|<cell|<frac|2|g>*\<Delta\>x<rsub|i>*c<rsub|i>*d<rsub|t>u>|<cell|=>|<cell|<frac|1|2>*(s<rsub|l>+s<rsub|r>)*(\<phi\><rsup|2><rsub|i,r>-\<phi\><rsup|2><rsub|i,l>)*+<frac|\<phi\><rsup|2><rsub|i,r>+\<phi\><rsup|2><rsub|i,l>|2>*(s<rsub|l>-s<rsub|r>)-s<rsub|l>*\<phi\><rsup|2><rsub|i,r>+s<rsub|r>*\<phi\><rsup|2><rsub|i,l>>>|<row|<cell|>|<cell|=>|<cell|0.>>>>
-  </eqnarray*>
-
-  This scheme also reduces to the Cartesian scheme for
-  <math|s<rsub|l>=s<rsub|r>=c<rsub|i>=1> and to the first-order scheme for
-  <math|z<rsub|i,l>=z<rsub|i,r>=z<rsub|i>> and
-  <math|<rsub|>\<phi\><rsub|i,r>=\<phi\><rsub|i,l>=\<phi\><rsub|i>>.
-</body>
-
-<\references>
-  <\collection>
-    <associate|audusse|<tuple|7|4>>
-    <associate|auto-1|<tuple|1|1>>
-    <associate|auto-2|<tuple|1|1>>
-    <associate|auto-3|<tuple|2|2>>
-    <associate|auto-4|<tuple|3|3>>
-    <associate|auto-5|<tuple|3.1|4>>
-    <associate|auto-6|<tuple|3.2|4>>
-    <associate|auto-7|<tuple|4|4>>
-    <associate|conservation|<tuple|1|1>>
-    <associate|general-u|<tuple|6|4>>
-    <associate|gerris|<tuple|2|1>>
-    <associate|lonlat|<tuple|4|2>>
-    <associate|manifold|<tuple|5|2>>
-  </collection>
-</references>
-
-<\auxiliary>
-  <\collection>
-    <\associate|figure>
-      <tuple|normal|Elementary lengths for a surface
-      element.|<pageref|auto-1>>
-    </associate>
-    <\associate|toc>
-      <with|par-left|<quote|1.5fn>|1<space|2spc>Application to the
-      Saint-Venant equations <datoms|<macro|x|<repeat|<arg|x>|<with|font-series|medium|<with|font-size|1|<space|0.2fn>.<space|0.2fn>>>>>|<htab|5mm>>
-      <no-break><pageref|auto-2>>
-
-      <with|par-left|<quote|1.5fn>|2<space|2spc>Derivation using the
-      ``manifold approach'' of Rossmanith et al., 2004
-      <datoms|<macro|x|<repeat|<arg|x>|<with|font-series|medium|<with|font-size|1|<space|0.2fn>.<space|0.2fn>>>>>|<htab|5mm>>
-      <no-break><pageref|auto-3>>
-
-      <with|par-left|<quote|1.5fn>|3<space|2spc>The Saint-Venant equations in
-      general orthogonal coordinates <datoms|<macro|x|<repeat|<arg|x>|<with|font-series|medium|<with|font-size|1|<space|0.2fn>.<space|0.2fn>>>>>|<htab|5mm>>
-      <no-break><pageref|auto-4>>
-
-      <with|par-left|<quote|3fn>|3.1<space|2spc>Application to spherical
-      coordinates <datoms|<macro|x|<repeat|<arg|x>|<with|font-series|medium|<with|font-size|1|<space|0.2fn>.<space|0.2fn>>>>>|<htab|5mm>>
-      <no-break><pageref|auto-5>>
-
-      <with|par-left|<quote|3fn>|3.2<space|2spc>Application to polar
-      coordinates <datoms|<macro|x|<repeat|<arg|x>|<with|font-series|medium|<with|font-size|1|<space|0.2fn>.<space|0.2fn>>>>>|<htab|5mm>>
-      <no-break><pageref|auto-6>>
-
-      <with|par-left|<quote|1.5fn>|4<space|2spc>``Well-balanced'' scheme in
-      general orthogonal coordinates <datoms|<macro|x|<repeat|<arg|x>|<with|font-series|medium|<with|font-size|1|<space|0.2fn>.<space|0.2fn>>>>>|<htab|5mm>>
-      <no-break><pageref|auto-7>>
-    </associate>
-  </collection>
-</auxiliary>
\ No newline at end of file
diff --git a/doc/figures/match.fig b/doc/figures/match.fig
deleted file mode 100644
index 6a5bb91..0000000
--- a/doc/figures/match.fig
+++ /dev/null
@@ -1,129 +0,0 @@
-#FIG 3.2
-Landscape
-Center
-Inches
-Letter  
-100.00
-Single
--2
-1200 2
-6 3000 300 4200 1500
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3000 300 4200 300 4200 1500 3000 1500 3000 300
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3600 300 3600 1500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 900 4200 900
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3300 300 3300 1500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3900 300 3900 1500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 600 4200 600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 1200 4200 1200
--6
-6 3000 1800 4200 3000
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3000 1800 4200 1800 4200 3000 3000 3000 3000 1800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3600 1800 3600 3000
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 2400 4200 2400
--6
-6 5700 1800 6900 3000
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 5700 1800 6900 1800 6900 3000 5700 3000 5700 1800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 6300 1800 6300 3000
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 5700 2400 6900 2400
--6
-6 7200 300 8400 1500
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7200 300 8400 300 8400 1500 7200 1500 7200 300
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7800 300 7800 1500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7200 900 8400 900
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7500 300 7500 1500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 8100 300 8100 1500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7200 600 8400 600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7200 1200 8400 1200
--6
-6 7200 1800 8400 3000
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7200 1800 8400 1800 8400 3000 7200 3000 7200 1800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7800 1800 7800 3000
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7200 2400 8400 2400
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7200 2100 8400 2100
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7500 1800 7500 2400
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 8100 1800 8100 2400
--6
-6 3000 5100 4200 6300
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3000 5100 4200 5100 4200 6300 3000 6300 3000 5100
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3600 5100 3600 6300
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 5700 4200 5700
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3300 5100 3300 6300
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3900 5100 3900 6300
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 5400 4200 5400
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 6000 4200 6000
--6
-6 3000 6600 4200 7800
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3000 6600 4200 6600 4200 7800 3000 7800 3000 6600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3600 6600 3600 7800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 7200 4200 7200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 6900 4200 6900
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3300 6600 3300 7200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3900 6600 3900 7200
--6
-6 1500 6600 2700 7800
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1500 6600 2700 6600 2700 7800 1500 7800 1500 6600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2100 6600 2100 7800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1500 7200 2700 7200
--6
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1500 1800 2700 1800 2700 3000 1500 3000 1500 1800
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1500 3300 2700 3300 2700 4500 1500 4500 1500 3300
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 5700 3300 6900 3300 6900 4500 5700 4500 5700 3300
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1500 8100 2700 8100 2700 9300 1500 9300 1500 8100
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2400 6600 2400 7200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2100 6900 2700 6900
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 1
-	 5700 5550
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 1
-	 5700 5550
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 2100 8100 2100 9300
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1500 8700 2700 8700
diff --git a/doc/figures/parabola.fig b/doc/figures/parabola.fig
deleted file mode 100644
index 7134fcc..0000000
--- a/doc/figures/parabola.fig
+++ /dev/null
@@ -1,136 +0,0 @@
-#FIG 3.2
-Landscape
-Center
-Inches
-A4      
-100.00
-Single
--2
-1200 2
-6 4050 1950 4350 2250
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4275 2025 4125 2175
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4125 2025 4275 2175
--6
-6 4050 5550 4350 5850
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4275 5625 4125 5775
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4125 5625 4275 5775
--6
-6 4050 3150 4350 3450
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4275 3225 4125 3375
-2 1 0 2 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4125 3225 4275 3375
--6
-6 5775 5475 9525 5775
-4 0 0 50 0 32 18 0.0000 4 195 165 5775 5700 D\001
-4 0 0 50 0 1 18 0.0000 4 255 3510 6000 5700 p = -2/9 p6 - 8/27 p7 + 14/27 p\001
--6
-6 5775 4875 9225 5175
-4 0 0 50 0 32 18 0.0000 4 195 165 5775 5100 D\001
-4 0 0 50 0 1 18 0.0000 4 255 3180 6000 5100 p = -1/3 p6 -1/5 p5 + 8/15 p\001
--6
-6 7200 6600 9600 9000
-6 8625 7875 8775 8025
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 8738 7912 8662 7988
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 8662 7912 8738 7988
--6
-1 3 0 1 0 7 50 0 -1 0.000 1 0.0000 8250 7950 47 47 8250 7950 8235 7995
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7800 7800 8400 7800 8400 8400 7800 8400 7800 7800
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 8400 7800 9000 7800 9000 8400 8400 8400 8400 7800
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7800 7200 8400 7200 8400 7800 7800 7800 7800 7200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 8100 7800 8100 8400
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7800 8100 8400 8100
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 8400 6600 9600 6600 9600 7800 8400 7800 8400 6600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7200 6600 8400 6600 8400 7800 7200 7800 7200 6600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7200 7800 8400 7800 8400 9000 7200 9000 7200 7800
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 8400 7800 9600 7800 9600 9000 8400 9000 8400 7800
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7200 6600 7800 6600 7800 7200 7200 7200 7200 6600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 9000 8400 9600 8400 9600 9000 9000 9000 9000 8400
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7200 8400 7800 8400 7800 9000 7200 9000 7200 8400
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 8664 8065 8739 8065 8739 8139 8664 8139 8664 8065
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 8925 7125 9075 7125 9075 7275 8925 7275 8925 7125
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 8663 8661 8738 8661 8738 8735 8663 8735 8663 8661
-4 0 0 50 0 0 12 0.0000 4 135 75 8771 7998 ?\001
--6
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 3600 2100 75 75 3600 2100 3675 2100
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 4800 2100 75 75 4800 2100 4875 2100
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 3600 5700 75 75 3600 5700 3675 5700
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 4800 5700 75 75 4800 5700 4875 5700
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 2400 3300 75 75 2400 3300 2475 3300
-1 3 0 1 0 0 50 0 20 0.000 1 0.0000 1200 3300 75 75 1200 3300 1275 3300
-1 3 0 1 0 7 50 0 -1 0.000 1 0.0000 1500 3000 47 47 1500 3000 1485 3045
-1 3 0 1 0 7 50 0 -1 0.000 1 0.0000 1500 3600 47 47 1500 3600 1485 3645
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3000 2700 5400 2700 5400 5100 3000 5100 3000 2700
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3000 300 5400 300 5400 2700 3000 2700 3000 300
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 3000 5100 5400 5100 5400 7500 3000 7500 3000 5100
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 4125 3825 4275 3825 4275 3975 4125 3975 4125 3825
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 4125 6225 4275 6225 4275 6375 4125 6375 4125 6225
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 4125 1425 4275 1425 4275 1575 4125 1575 4125 1425
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4200 300 4200 2700
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 1500 5400 1500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4200 5100 4200 7500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 3000 6300 5400 6300
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 600 2700 3000 2700 3000 5100 600 5100 600 2700
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1800 2700 1800 5100
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 600 3900 3000 3900
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1200 2700 1200 3900
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 600 3300 1800 3300
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1425 3225 1575 3375
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1575 3225 1425 3375
-2 1 0 1 0 7 50 0 -1 0.000 0 0 7 0 0 2
-	 3075 3225 2925 3375
-2 1 0 1 0 7 50 0 -1 0.000 0 0 7 0 0 2
-	 2925 3225 3075 3375
-4 0 0 50 0 1 12 0.0000 4 180 180 900 3150 p5\001
-4 0 0 50 0 1 18 0.0000 4 255 270 4425 1350 p2\001
-4 0 0 50 0 1 18 0.0000 4 255 270 4425 2475 p3\001
-4 0 0 50 0 1 18 0.0000 4 180 135 4425 3375 p\001
-4 0 0 50 0 1 18 0.0000 4 255 270 4425 3975 p0\001
-4 0 0 50 0 1 18 0.0000 4 255 270 4425 5475 p4\001
-4 0 0 50 0 1 18 0.0000 4 255 270 4425 6675 p1\001
-4 0 0 50 0 32 12 0.0000 4 135 120 3150 3375 D\001
-4 0 0 50 0 1 12 0.0000 4 180 180 1575 3150 p7\001
-4 0 0 50 0 1 12 0.0000 4 180 180 2175 3150 p6\001
-4 0 0 50 0 1 12 0.0000 4 135 90 3300 3375 p\001
-4 0 0 50 0 1 18 0.0000 4 255 3615 6000 2400 p = 15/16 p0 - 3/32 p1 + 5/32 p2\001
-4 0 0 50 0 1 18 0.0000 4 255 3345 6000 3000 p = 5/6 p0 - 1/14 p1 + 5/21 p3\001
-4 0 0 50 0 1 18 0.0000 4 255 2670 6000 3600 p = p0 - 1/7 p4 + 1/7 p2\001
-4 0 0 50 0 1 18 0.0000 4 255 3075 6000 4200 p = 8/9 p0 - 1/9 p4 + 2/9 p3\001
diff --git a/doc/figures/plicheight.fig b/doc/figures/plicheight.fig
deleted file mode 100644
index e479eb7..0000000
--- a/doc/figures/plicheight.fig
+++ /dev/null
@@ -1,35 +0,0 @@
-#FIG 3.2  Produced by xfig version 3.2.5-alpha5
-Landscape
-Center
-Metric
-A4      
-100.00
-Single
--2
-1200 2
-6 2700 2250 4950 7200
-2 2 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 5
-	 2700 2250 4950 2250 4950 4725 2700 4725 2700 2250
-2 2 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 5
-	 2700 4725 4950 4725 4950 7200 2700 7200 2700 4725
-2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2
-	 2700 5400 4050 4725
-2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2
-	 4275 4725 4950 4050
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 -1 1 0 2
-	1 1 2.00 120.00 240.00
-	 3825 6075 3825 4845
-4 0 4 50 -1 0 20 0.0000 4 225 180 4005 5565 H\001
--6
-2 2 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 5
-	 5850 2250 8100 2250 8100 4725 5850 4725 5850 2250
-2 2 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 5
-	 5850 4725 8100 4725 8100 7200 5850 7200 5850 4725
-2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2
-	 5850 5400 6860 4723
-2 1 0 1 0 7 50 -1 -1 0.000 0 0 -1 0 0 2
-	 7080 4728 8100 4050
-2 1 1 2 4 7 50 -1 -1 4.500 0 0 -1 1 0 2
-	1 1 2.00 120.00 240.00
-	 6975 6075 6976 4046
-4 0 4 50 -1 0 20 0.0000 4 225 285 7155 5565 H?\001
diff --git a/doc/figures/thin.fig b/doc/figures/thin.fig
deleted file mode 100644
index 8b88477..0000000
--- a/doc/figures/thin.fig
+++ /dev/null
@@ -1,151 +0,0 @@
-#FIG 3.2  Produced by xfig version 3.2.5-alpha5
-Landscape
-Center
-Metric
-A4      
-100.00
-Single
--2
-1200 2
-2 2 0 2 0 7 50 -1 -1 0.000 0 0 -1 0 0 5
-	 3600 450 4500 450 4500 1350 3600 1350 3600 450
-2 2 0 2 0 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 4950 450 5850 450 5850 1350 4950 1350 4950 450
-2 1 0 2 0 7 50 -1 -1 0.000 0 0 -1 0 0 2
-	 4050 450 3600 900
-2 1 0 2 0 7 50 -1 -1 0.000 0 0 -1 0 0 2
-	 5400 450 5400 1350
-2 1 0 2 0 7 50 -1 -1 0.000 0 0 -1 0 0 2
-	 3600 3600 3825 3150
-2 1 0 2 0 7 50 -1 -1 0.000 0 0 -1 0 0 2
-	 4275 3150 4500 3600
-2 2 0 2 0 7 50 -1 -1 0.000 0 0 -1 0 0 5
-	 3600 5850 4500 5850 4500 6750 3600 6750 3600 5850
-2 1 0 2 0 7 50 -1 -1 0.000 0 0 -1 0 0 3
-	 3375 6075 3825 6300 3375 6525
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 -1 0 0 5
-	 3600 1800 4500 1800 4500 2700 3600 2700 3600 1800
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4050 1800 3600 2250
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4500 2250 4050 2700
-2 2 0 2 0 7 50 -1 -1 0.000 0 0 -1 0 0 5
-	 3600 3150 4500 3150 4500 4050 3600 4050 3600 3150
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 6300 3150 7200 3150 7200 4050 6300 4050 6300 3150
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 6300 3600 7200 3600
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 6750 3150 7200 3375
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 7650 3150 8550 3150 8550 4050 7650 4050 7650 3150
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 7650 3600 8100 3150
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 8775 3375 8325 3600
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 8325 3600 8775 3825
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 3600 4500 4500 4500 4500 5400 3600 5400 3600 4500
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4500 5175 4275 5400
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4500 4725 3825 5400
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 3600 4950 4050 4500
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 4950 4500 5850 4500 5850 5400 4950 5400 4950 4500
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 5850 4725 5400 4500
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4950 4950 5175 5400
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 5625 5400 5850 5175
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 3600 7200 4500 7200 4500 8100 3600 8100 3600 7200
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 3600 7875 4500 7875
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 3600 7425 4500 7425
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 4950 7200 5850 7200 5850 8100 4950 8100 4950 7200
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4950 7425 5175 7200
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4950 7875 5625 7200
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 6300 7200 7200 7200 7200 8100 6300 8100 6300 7200
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 6525 6975 6750 7425 6975 6975
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 6525 8325 6750 7875 6975 8325
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 3600 8550 4500 8550 4500 9450 3600 9450 3600 8550
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 3600 9000 4500 9000
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 3600 8775 3825 8550
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4275 8550 4500 8775
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4950 9000 5400 8550
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4950 8775 5175 8550
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 4950 8550 5850 8550 5850 9450 4950 9450 4950 8550
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 5175 9675 5400 9225 5625 9675
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 6300 8550 7200 8550 7200 9450 6300 9450 6300 8550
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 6525 8325 6750 8775 6975 8325
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 6525 9675 6750 9225 6975 9675
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 7425 8775 6975 9000 7425 9225
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 3600 9900 4500 9900 4500 10800 3600 10800 3600 9900
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 3600 10125 3825 9900
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 3825 10800 3600 10575
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4500 10575 4275 10800
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4275 9900 4500 10125
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 4950 9900 5850 9900 5850 10800 4950 10800 4950 9900
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 5400 9900 4950 10350
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4950 10125 5175 9900
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 5850 10350 5400 10800
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 5850 10575 5625 10800
-2 2 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 6300 9900 7200 9900 7200 10800 6300 10800 6300 9900
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 6525 9675 6750 10125 6975 9675
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 6075 10125 6525 10350 6075 10575
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 6525 11025 6750 10575 6975 11025
-2 1 0 2 4 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 7425 10125 6975 10350 7425 10575
-2 1 0 2 0 7 50 -1 -1 0.000 0 0 7 0 0 2
-	 4950 3600 5850 3600
-2 2 0 2 0 7 50 -1 -1 0.000 0 0 7 0 0 5
-	 4950 3150 5850 3150 5850 4050 4950 4050 4950 3150
-2 1 0 2 0 7 50 -1 -1 0.000 0 0 7 0 0 3
-	 5175 2925 5400 3375 5625 2925
-4 0 0 50 -1 16 20 0.0000 4 255 2685 450 675 odd = 2 even = 0: \001
-4 0 0 50 -1 16 20 0.0000 4 255 2595 450 2025 odd = 4 even = 0:\001
-4 0 0 50 -1 16 20 0.0000 4 255 2595 450 3375 odd = 2 even = 1:\001
-4 0 0 50 -1 16 20 0.0000 4 255 2595 450 4725 odd = 2 even = 2:\001
-4 0 0 50 -1 16 20 0.0000 4 255 2595 450 6075 odd = 0 even = 1:\001
-4 0 0 50 -1 16 20 0.0000 4 255 2595 450 7425 odd = 0 even = 2:\001
-4 0 0 50 -1 16 20 0.0000 4 255 2595 450 8775 odd = 0 even = 3:\001
-4 0 0 50 -1 16 20 0.0000 4 255 2595 450 10125 odd = 0 even = 4:\001
-4 0 4 50 -1 16 20 0.0000 4 255 1200 9450 6075 red: thin\001
-4 0 0 50 -1 16 20 0.0000 4 255 1665 9450 6525 black: thick\001
diff --git a/doc/figures/topology.fig b/doc/figures/topology.fig
deleted file mode 100644
index 4de22b2..0000000
--- a/doc/figures/topology.fig
+++ /dev/null
@@ -1,134 +0,0 @@
-#FIG 3.2
-Landscape
-Center
-Inches
-Letter  
-100.00
-Single
--2
-1200 2
-6 300 3225 4275 6975
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 600 3900 1800 3900 1800 5100 600 5100 600 3900
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1800 3900 4200 3900 4200 6300 1800 6300 1800 3900
-2 1 0 4 4 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4200 3300 600 6900
-2 1 0 4 4 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 600 3300 4200 6900
-3 0 0 2 0 7 50 0 -1 0.000 0 0 0 4
-	 3000 3675 1650 4500 900 5325 375 6375
-	 0.000 1.000 1.000 0.000
-4 0 0 50 0 0 24 0.0000 4 255 930 2550 5175 mixed\001
-4 0 0 50 0 0 18 0.0000 4 195 690 900 4575 mixed\001
--6
-6 6300 3600 10200 6450
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 6600 3900 7800 3900 7800 5100 6600 5100 6600 3900
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7800 3900 10200 3900 10200 6300 7800 6300 7800 3900
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7800 5100 10200 5100
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 9000 3900 9000 6300
-3 0 0 2 0 7 50 0 -1 0.000 0 0 0 4
-	 9000 3675 7650 4500 6900 5325 6375 6375
-	 0.000 1.000 1.000 0.000
-4 0 0 50 0 0 18 0.0000 4 195 690 6900 4575 mixed\001
-4 0 0 50 0 0 18 0.0000 4 195 510 9375 4575 fluid\001
-4 0 0 50 0 0 18 0.0000 4 195 510 9375 5775 fluid\001
-4 0 0 50 0 0 18 0.0000 4 195 510 8175 5775 fluid\001
-4 0 0 50 0 0 18 0.0000 4 195 690 8100 4575 mixed\001
--6
-6 6600 7200 10200 11625
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 6600 8100 7800 8100 7800 9300 6600 9300 6600 8100
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7800 8100 10200 8100 10200 10500 7800 10500 7800 8100
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 9000 8100 9000 10500
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 7800 9300 9000 9300
-3 0 0 2 0 7 50 0 -1 0.000 0 0 0 4
-	 7875 7275 8325 8775 8400 10125 7800 11550
-	 0.000 1.000 1.000 0.000
-4 0 0 50 0 0 18 0.0000 4 195 510 6975 8775 fluid\001
-4 0 0 50 0 0 18 0.0000 4 195 690 8100 8775 mixed\001
-4 0 0 50 0 0 18 0.0000 4 195 690 8100 9975 mixed\001
--6
-6 525 7425 4275 11175
-2 1 0 4 4 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4200 7500 600 11100
-2 1 0 4 4 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 600 7500 4200 11100
--6
-6 4425 9075 6375 9750
-2 1 0 10 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	1 1 1.00 360.00 270.00
-	 4500 9300 6300 9300
-4 0 0 50 0 0 12 0.0000 4 180 1320 4725 9675 fl_refine_mixed()\001
--6
-6 375 11625 4425 15825
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1800 12000 4200 12000 4200 14400 1800 14400 1800 12000
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1800 14400 3000 14400 3000 15600 1800 15600 1800 14400
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 600 14400 1800 14400 1800 15600 600 15600 600 14400
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 600 13200 1800 13200 1800 14400 600 14400 600 13200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 1200 14400 1200 15600
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 600 15000 1800 15000
-2 1 0 4 4 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 4200 11700 450 15750
-2 1 0 4 4 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 600 11700 4350 15750
--6
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 600 600 1800 600 1800 1800 600 1800 600 600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1800 600 4200 600 4200 3000 1800 3000 1800 600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 4800 600 6000 600 6000 1800 4800 1800 4800 600
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 6000 600 8400 600 8400 3000 6000 3000 6000 600
-2 1 0 10 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	1 1 1.00 360.00 270.00
-	 4500 5100 6300 5100
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 600 8100 1800 8100 1800 9300 600 9300 600 8100
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 1800 8100 4200 8100 4200 10500 1800 10500 1800 8100
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7800 12000 10200 12000 10200 14400 7800 14400 7800 12000
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 7800 14400 9000 14400 9000 15600 7800 15600 7800 14400
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-	 6600 14400 7800 14400 7800 15600 6600 15600 6600 14400
-2 2 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 5
-	 6600 13200 7800 13200 7800 14400 6600 14400 6600 13200
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
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-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2
-	 6600 15000 7800 15000
-2 1 0 10 0 7 50 0 -1 0.000 0 0 -1 1 0 2
-	1 1 1.00 360.00 270.00
-	 4500 13800 6300 13800
-2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 3
-	 7800 13200 9000 13200 9000 14400
-3 0 0 2 0 7 50 0 -1 0.000 0 0 0 4
-	 6150 225 5175 675 4575 1725 4575 3075
-	 0.000 1.000 1.000 0.000
-3 0 0 2 0 7 50 0 -1 0.000 0 0 0 4
-	 1875 7275 2325 8775 2400 10125 1800 11550
-	 0.000 1.000 1.000 0.000
-4 0 0 50 0 0 18 0.0000 4 195 510 975 1275 fluid\001
-4 0 0 50 0 0 18 0.0000 4 195 690 5100 1275 mixed\001
-4 0 0 50 0 0 24 0.0000 4 255 660 2700 1875 fluid\001
-4 0 0 50 0 0 24 0.0000 4 255 660 6900 1875 fluid\001
-4 0 0 50 0 0 12 0.0000 4 180 1320 4725 5475 fl_refine_mixed()\001
-4 0 0 50 0 0 24 0.0000 4 255 930 2550 9375 mixed\001
-4 0 0 50 0 0 18 0.0000 4 195 510 975 8775 fluid\001
-4 0 0 50 0 0 12 0.0000 4 180 1425 4725 14175 ftt_refine_corner()\001
diff --git a/doc/gfs-docs.sgml b/doc/gfs-docs.sgml
deleted file mode 100644
index 4e0bce8..0000000
--- a/doc/gfs-docs.sgml
+++ /dev/null
@@ -1,175 +0,0 @@
-<!doctype book PUBLIC "-//Davenport//DTD DocBook V3.0//EN" [
-<!entity gfs-ftt-basic SYSTEM "sgml/ftt-basic.sgml">
-<!entity gfs-ftt-topology SYSTEM "sgml/ftt-topology.sgml">
-<!entity gfs-ftt-other SYSTEM "sgml/ftt-other.sgml">
-<!entity gfs-ftt-face SYSTEM "sgml/ftt-face.sgml">
-<!entity gfs-fluid SYSTEM "sgml/fluid.sgml">
-<!entity gfs-poisson SYSTEM "sgml/poisson.sgml">
-<!entity gfs-diffusion SYSTEM "sgml/diffusion.sgml">
-<!entity gfs-solid SYSTEM "sgml/solid.sgml">
-<!entity gfs-stats SYSTEM "sgml/stats.sgml">
-<!entity gfs-function SYSTEM "sgml/function.sgml">
-<!entity gfs-domain SYSTEM "sgml/domain.sgml">
-<!entity gfs-boundary SYSTEM "sgml/boundary.sgml">
-<!entity gfs-boundary-inflow-constant SYSTEM "sgml/inflow_constant.sgml">
-<!entity gfs-boundary-outflow SYSTEM "sgml/outflow.sgml">
-<!entity gfs-boundary-mpi SYSTEM "sgml/mpi.sgml">
-<!entity gfs-box SYSTEM "sgml/box.sgml">
-<!entity gfs-adapt-not-box SYSTEM "sgml/adapt_not_box.sgml">
-<!entity gfs-domain-advection SYSTEM "sgml/domain-advection.sgml">
-<!entity gfs-domain-advection-vof SYSTEM "sgml/domain-advection-vof.sgml">
-<!entity gfs-advection SYSTEM "sgml/advection.sgml">
-<!entity gfs-adapt SYSTEM "sgml/adapt.sgml">
-<!entity gfs-adapt-vorticity SYSTEM "sgml/adapt_vorticity.sgml">
-<!entity gfs-adapt-gradient SYSTEM "sgml/adapt_gradient.sgml">
-<!entity gfs-event SYSTEM "sgml/event.sgml">
-<!entity gfs-event-script SYSTEM "sgml/event_script.sgml">
-<!entity gfs-event-stop SYSTEM "sgml/event_stop.sgml">
-<!entity gfs-event-sum SYSTEM "sgml/event_sum.sgml">
-<!entity gfs-event-harmonic SYSTEM "sgml/event_harmonic.sgml">
-<!entity gfs-generic-init SYSTEM "sgml/generic_init.sgml">
-<!entity gfs-init SYSTEM "sgml/init.sgml">
-<!entity gfs-init-vorticity SYSTEM "sgml/init_vorticity.sgml">
-<!entity gfs-init-fraction SYSTEM "sgml/init_fraction.sgml">
-<!entity gfs-output SYSTEM "sgml/output.sgml">
-<!entity gfs-output-time SYSTEM "sgml/output_time.sgml">
-<!entity gfs-output-projections SYSTEM "sgml/output_projections.sgml">
-<!entity gfs-output-diffusion SYSTEM "sgml/output_diffusion.sgml">
-<!entity gfs-output-adapts SYSTEM "sgml/output_adapts.sgml">
-<!entity gfs-output-timing SYSTEM "sgml/output_timing.sgml">
-<!entity gfs-output-progress SYSTEM "sgml/output_progress.sgml">
-<!entity gfs-output-balance SYSTEM "sgml/output_balance.sgml">
-<!entity gfs-output-solid SYSTEM "sgml/output_solid.sgml">
-<!entity gfs-output-solid-force SYSTEM "sgml/output_solid_force.sgml">
-<!entity gfs-output-simulation SYSTEM "sgml/output_simulation.sgml">
-<!entity gfs-output-location SYSTEM "sgml/output_location.sgml">
-<!entity gfs-output-scalar SYSTEM "sgml/output_scalar.sgml">
-<!entity gfs-output-scalar-norm SYSTEM "sgml/output_scalar_norm.sgml">
-<!entity gfs-output-scalar-stats SYSTEM "sgml/output_scalar_stats.sgml">
-<!entity gfs-output-scalar-sum SYSTEM "sgml/output_scalar_sum.sgml">
-<!entity gfs-output-scalar-histogram SYSTEM "sgml/output_scalar_histogram.sgml">
-<!entity gfs-output-error-norm SYSTEM "sgml/output_error_norm.sgml">
-<!entity gfs-output-ppm SYSTEM "sgml/output_ppm.sgml">
-<!entity gfs-refine SYSTEM "sgml/refine.sgml">
-<!entity gfs-refine-solid SYSTEM "sgml/refine_solid.sgml">
-<!entity gfs-refine-surface SYSTEM "sgml/refine_surface.sgml">
-<!entity gfs-refine-distance SYSTEM "sgml/refine_distance.sgml">
-<!entity gfs-simulation SYSTEM "sgml/simulation.sgml">
-<!entity gfs-source-generic SYSTEM "sgml/source_generic.sgml">
-<!entity gfs-source SYSTEM "sgml/source.sgml">
-<!entity gfs-source-tension SYSTEM "sgml/source_tension.sgml">
-]>
-
-<book>
-  <bookinfo>
-    <title>Gerris Flow Solver Reference Manual</title>
-  </bookinfo>
-
-  <chapter>
-    <title>Support functions</title>
-      &gfs-stats;
-      &gfs-function;
-  </chapter>
-  <chapter>
-    <title>Fully threaded tree</title>
-      &gfs-ftt-basic;
-      &gfs-ftt-topology;
-      &gfs-ftt-face;
-      &gfs-ftt-other;
-  </chapter>
-  <chapter>
-    <title>Flow solver</title>
-      <sect1>
-        <title>Fluid cells</title>
-        &gfs-fluid;
-        &gfs-solid;
-      </sect1>
-      <sect1>
-        <title> Fluid cells operators</title>
-        &gfs-advection;  
-      </sect1>
-      <sect1>
-        <title>Fluid domains</title>
-        &gfs-box;
-        &gfs-adapt-not-box;
-        &gfs-domain;
-      </sect1>
-      <sect1>
-        <title>Fluid box boundaries</title>
-        &gfs-boundary;
-        &gfs-boundary-inflow-constant;
-        &gfs-boundary-outflow;
-        &gfs-boundary-mpi;
-      </sect1>
-      <sect1>
-        <title>Fluid domains operators</title>
-        &gfs-domain-advection;
-        &gfs-domain-advection-vof;
-        &gfs-poisson;
-        &gfs-diffusion;
-      </sect1>
-  </chapter>
-  <chapter>
-    <title>Simulations, initialisations, events</title>
-      <sect1>
-        <title>Simulations</title>
-        &gfs-simulation;
-      </sect1>
-      <sect1>
-        <title>Refinements</title>
-        &gfs-refine;
-        &gfs-refine-solid;
-        &gfs-refine-surface;
-        &gfs-refine-distance;
-      </sect1>
-      <sect1>
-        <title>Source terms</title>
-        &gfs-source-generic;
-        &gfs-source;
-        &gfs-source-tension;
-      </sect1>
-      <sect1>
-        <title>Events</title>
-        &gfs-event;
-        &gfs-event-script;
-        &gfs-event-stop;
-        &gfs-event-sum;
-        &gfs-event-harmonic;
-      </sect1>
-      <sect1>
-        <title>Initialisation</title>
-        &gfs-generic-init;
-        &gfs-init;
-        &gfs-init-vorticity;
-        &gfs-init-fraction;
-      </sect1>
-      <sect1>
-        <title>Outputs</title>
-        &gfs-output;
-        &gfs-output-time;
-        &gfs-output-projections;
-        &gfs-output-diffusion;
-        &gfs-output-adapts;
-        &gfs-output-timing;
-        &gfs-output-progress;
-        &gfs-output-balance;
-        &gfs-output-solid;
-        &gfs-output-solid-force;
-        &gfs-output-location;
-        &gfs-output-simulation;
-        &gfs-output-scalar;
-        &gfs-output-scalar-norm;
-        &gfs-output-scalar-stats;
-        &gfs-output-scalar-sum;
-        &gfs-output-scalar-histogram;
-        &gfs-output-error-norm;
-        &gfs-output-ppm;
-      </sect1>
-      <sect1>
-        <title>Adaptive mesh refinement</title>
-        &gfs-adapt;    
-        &gfs-adapt-vorticity;
-        &gfs-adapt-gradient;
-      </sect1>
-  </chapter>
-</book>
diff --git a/doc/gfs-sections.txt b/doc/gfs-sections.txt
deleted file mode 100644
index fd3c652..0000000
--- a/doc/gfs-sections.txt
+++ /dev/null
@@ -1,861 +0,0 @@
-<INCLUDE>gfs.h</INCLUDE>
-
-<SECTION>
-<FILE>ftt-basic</FILE>
-<TITLE>Basic structure and properties</TITLE>
-FttCell
-FttCellFlags
-FttVector
-<SUBSECTION>
-FTT_CELL_IS_ROOT
-FTT_CELL_IS_LEAF
-FTT_MAINTAINER
-<SUBSECTION>
-ftt_cell_new
-FttCellInitFunc
-ftt_cell_copy
-FttCellCopyFunc
-ftt_cell_refine
-ftt_cell_refine_single
-FttCellRefineFunc
-ftt_refine_corner
-ftt_cell_refine_corners
-FttCellCoarsenFunc
-ftt_cell_coarsen
-ftt_cell_flatten
-ftt_cell_check
-ftt_cell_destroy
-ftt_cell_destroy_root
-FttCellCleanupFunc
-<SUBSECTION>
-ftt_cell_level
-ftt_cell_set_level
-ftt_cell_pos
-ftt_cell_relative_pos
-ftt_cell_set_pos
-ftt_corner_pos
-ftt_corner_relative_pos
-ftt_level_size
-ftt_cell_size
-ftt_cell_volume
-ftt_cell_parent
-ftt_cell_depth
-ftt_vector_norm
-</SECTION>
-
-<SECTION>
-<FILE>ftt-face</FILE>
-<TITLE>Cell faces operations</TITLE>
-FTT_FACE_DIRECT
-FTT_FACE_REVERSE
-<SUBSECTION>
-FttCellFace
-<SUBSECTION>
-ftt_cell_face
-ftt_face_type
-FttFaceType
-ftt_face_pos
-ftt_face_traverse
-FttFaceTraverseFunc
-ftt_face_traverse_boundary
-ftt_face_draw
-</SECTION>
-
-<SECTION>
-<FILE>ftt-topology</FILE>
-<TITLE>Topological relationships</TITLE>
-FTT_CELLS
-FTT_CELL_ID
-FTT_OPPOSITE_DIRECTION
-FTT_ORTHOGONAL_COMPONENT
-<SUBSECTION>
-ftt_cell_children
-FttCellChildren
-FttDirection
-FttComponent
-ftt_cell_children_direction
-ftt_cell_child_corner
-ftt_cell_neighbors
-ftt_cell_neighbors_not_cached
-FttCellNeighbors
-ftt_cell_neighbor
-ftt_cell_neighbor_not_cached
-ftt_cell_set_neighbor
-ftt_cell_set_neighbor_match
-ftt_cell_neighbor_is_brother
-</SECTION>
-
-<SECTION>
-<FILE>ftt-other</FILE>
-<TITLE>Other operations</TITLE>
-ftt_direction_from_name
-ftt_cell_locate
-FttTraverseType
-FttTraverseFlags
-FttCellTraverseFunc
-ftt_cell_traverse
-ftt_cell_traverse_boundary
-ftt_cell_traverse_box
-FttCellTraverse
-ftt_cell_traverse_new
-ftt_cell_traverse_next
-ftt_cell_traverse_rewind
-ftt_cell_traverse_destroy
-<SUBSECTION>
-ftt_cell_write
-ftt_cell_write_binary
-FttCellWriteFunc
-ftt_cell_read
-ftt_cell_read_binary
-FttCellReadFunc
-ftt_cell_draw
-<SUBSECTION>
-</SECTION>
-
-<SECTION>
-<FILE>stats</FILE>
-<TITLE>Simple norm statistics</TITLE>
-GfsNorm
-<SUBSECTION>
-gfs_norm_init
-gfs_norm_add
-gfs_norm_update
-gfs_norm_reset
-</SECTION>
-
-<SECTION>
-<FILE>fluid</FILE>
-<TITLE>Fluid cell</TITLE>
-GFS_VARIABLE
-GFS_STATE
-GFS_FACE_NORMAL_VELOCITY_RIGHT
-GFS_FACE_NORMAL_VELOCITY_LEFT
-GFS_FACE_NORMAL_VELOCITY
-GFS_IS_SMALL
-GFS_CELL_IS_BOUNDARY
-<SUBSECTION>
-GfsStateVector
-GfsFaceStateVector
-GfsVariable
-GfsVariableClass
-GfsVariableDerivedFunc
-GfsVariableFineCoarseFunc
-GfsFlags
-<SUBSECTION>
-gfs_cell_init
-gfs_cell_reset
-gfs_cell_cleanup
-gfs_cell_copy
-gfs_cell_cm
-gfs_face_ca
-gfs_variable_new
-gfs_variable_from_name
-gfs_variables_from_list
-gfs_stats_variable
-gfs_norm_variable
-gfs_get_from_below_intensive
-gfs_get_from_below_extensive
-gfs_get_from_above
-gfs_cell_coarse_init
-gfs_cell_fine_init
-gfs_vector_norm
-gfs_vector_norm2
-gfs_divergence
-gfs_normal_divergence
-gfs_vorticity
-gfs_face_interpolated_value
-gfs_interpolate
-<SUBSECTION>
-GfsGradient
-gfs_face_gradient
-gfs_face_weighted_gradient
-gfs_face_gradient_flux
-gfs_face_gradient_flux_centered
-GfsCenterGradient
-gfs_center_gradient
-gfs_center_van_leer_gradient
-gfs_cell_dirichlet_gradient
-gfs_cell_dirichlet_gradient_flux
-gfs_cell_dirichlet_value
-GfsInterpolator
-gfs_cell_corner_interpolator
-gfs_cell_corner_value
-<SUBSECTION>
-gfs_cell_write
-gfs_cell_write_binary
-gfs_cell_read
-gfs_cell_read_binary
-</SECTION>
-
-<SECTION>
-<FILE>advection</FILE>
-<TITLE>Advection</TITLE>
-GfsAdvectionParams
-gfs_advection_params_init
-gfs_advection_params_read
-gfs_advection_params_write
-gfs_cell_advected_face_values
-gfs_face_upwinded_value
-gfs_face_advection_flux
-gfs_face_velocity_advection_flux
-gfs_face_velocity_convective_flux
-gfs_face_advected_normal_velocity
-gfs_face_interpolated_normal_velocity
-gfs_face_reset_normal_velocity
-</SECTION>
-
-<SECTION>
-<FILE>poisson</FILE>
-<TITLE>Poisson solver</TITLE>
-GfsMultilevelParams
-<SUBSECTION>
-gfs_multilevel_params_init
-gfs_multilevel_params_read
-gfs_multilevel_params_write
-<SUBSECTION>
-gfs_relax
-gfs_residual
-gfs_poisson_coefficients
-gfs_poisson_cycle
-<SUBSECTION>
-gfs_correct_normal_velocities
-gfs_mac_projection
-gfs_approximate_projection
-gfs_domain_norm_residual
-</SECTION>
-
-<SECTION>
-<FILE>diffusion</FILE>
-<TITLE>Diffusion solver</TITLE>
-gfs_diffusion_rhs
-gfs_diffusion_residual
-gfs_diffusion_coefficients
-gfs_diffusion_cycle
-</SECTION>
-
-<SECTION>
-<FILE>domain-advection</FILE>
-<TITLE>Advection-Diffusion</TITLE>
-gfs_set_merged
-GfsMergedTraverseFunc
-gfs_domain_traverse_merged
-gfs_domain_stats_merged
-gfs_advection_update
-gfs_centered_velocity_advection_diffusion
-gfs_tracer_advection_diffusion
-<SUBSECTION>
-gfs_predicted_face_velocities
-</SECTION>
-
-<SECTION>
-<FILE>domain-advection-vof</FILE>
-<TITLE>Volume of Fluid advection</TITLE>
-gfs_plane_alpha
-gfs_plane_volume
-gfs_line_alpha
-gfs_line_area
-gfs_line_center
-gfs_cell_vof_advection
-gfs_tracer_vof_advection
-</SECTION>
-
-<SECTION>
-<FILE>solid</FILE>
-<TITLE>Solid boundaries</TITLE>
-GFS_IS_FLUID
-GFS_IS_MIXED
-GFS_FACE_FRACTION
-<SUBSECTION>
-GfsSolidVector
-<SUBSECTION>
-gfs_cell_fluid
-gfs_cell_init_solid_fractions_from_children
-gfs_cell_check_solid_fractions
-gfs_cell_traverse_mixed
-</SECTION>
-
-<SECTION>
-<FILE>domain</FILE>
-<TITLE>Fluid domain</TITLE>
-GFS_DOMAIN_CLASS
-GFS_DOMAIN
-GFS_IS_DOMAIN
-<SUBSECTION>
-GfsDomainClass
-GfsDomain
-<SUBSECTION>
-gfs_domain_class
-gfs_domain_alloc
-gfs_domain_free
-gfs_domain_add_variable
-gfs_domain_add_derived_variable
-gfs_domain_cell_traverse
-gfs_domain_cell_traverse_boundary
-gfs_domain_cell_traverse_box
-gfs_domain_traverse_mixed
-gfs_domain_face_traverse
-gfs_domain_combine_traverse
-gfs_domain_traverse_cut
-gfs_domain_locate
-gfs_domain_bc
-gfs_domain_copy_bc
-gfs_domain_homogeneous_bc
-gfs_domain_face_bc
-gfs_domain_surface_bc
-gfs_domain_match
-gfs_domain_depth
-gfs_domain_stats_variable
-gfs_domain_norm_variable
-gfs_domain_norm_velocity
-gfs_domain_stats_balance
-gfs_domain_stats_solid
-gfs_domain_solid_force
-gfs_domain_init_fraction
-gfs_domain_read
-gfs_domain_split
-gfs_domain_remove_droplets
-gfs_domain_remove_ponds
-gfs_domain_remove_specks
-gfs_domain_advect_point
-gfs_domain_cfl
-gfs_domain_size
-gfs_domain_timer_start
-gfs_domain_timer_stop
-</SECTION>
-
-<SECTION>
-<FILE>box</FILE>
-<TITLE>Fluid box node</TITLE>
-GFS_BOX_CLASS
-GFS_BOX
-GFS_IS_BOX
-<SUBSECTION>
-GfsBoxClass
-GfsBox
-<SUBSECTION>
-gfs_box_class
-gfs_box_new
-gfs_box_set_pos
-gfs_box_set_relative_pos
-gfs_box_domain
-</SECTION>
-
-<SECTION>
-<FILE>adapt_not_box</FILE>
-<TITLE>Non-adaptive fluid box node</TITLE>
-GFS_ADAPT_NOT_BOX
-GFS_IS_ADAPT_NOT_BOX
-<SUBSECTION>
-GfsAdaptNotBox
-<SUBSECTION>
-gfs_adapt_not_box_class
-gfs_adapt_not_box_new
-</SECTION>
-
-<SECTION>
-<FILE>boundary</FILE>
-<TITLE>Generic boundary</TITLE>
-GFS_BOUNDARY_CLASS
-GFS_BOUNDARY
-GFS_IS_BOUNDARY
-<SUBSECTION>
-GfsBoundaryClass
-GfsBoundary
-GfsBoundaryVariableType
-<SUBSECTION>
-gfs_boundary_new
-gfs_boundary_class
-gfs_boundary_send
-gfs_boundary_receive
-gfs_boundary_synchronize
-gfs_boundary_add_bc
-gfs_boundary_lookup_bc
-gfs_boundary_set_default_bc
-</SECTION>
-<SECTION>
-
-<SECTION>
-<FILE>inflow_constant</FILE>
-<TITLE>Constant inflow boundary</TITLE>
-GFS_BOUNDARY_INFLOW_CONSTANT_CLASS
-GFS_BOUNDARY_INFLOW_CONSTANT
-GFS_IS_BOUNDARY_INFLOW_CONSTANT
-<SUBSECTION>
-GfsBoundaryInflowConstantClass
-GfsBoundaryInflowConstant
-<SUBSECTION>
-gfs_boundary_inflow_constant_class
-</SECTION>
-
-<SECTION>
-<FILE>outflow</FILE>
-<TITLE>Outflow boundary</TITLE>
-GFS_BOUNDARY_OUTFLOW_CLASS
-GFS_IS_BOUNDARY_OUTFLOW
-<SUBSECTION>
-GfsBoundaryOutflowClass
-<SUBSECTION>
-gfs_boundary_outflow_class
-</SECTION>
-
-<SECTION>
-<FILE>mpi</FILE>
-<TITLE>Parallel MPI boundary</TITLE>
-GFS_BOUNDARY_MPI_CLASS
-GFS_BOUNDARY_MPI
-GFS_IS_BOUNDARY_MPI
-<SUBSECTION>
-GfsBoundaryMpiClass
-GfsBoundaryMpi
-<SUBSECTION>
-gfs_boundary_mpi_new
-gfs_boundary_mpi_class
-</SECTION>
-
-<SECTION>
-<FILE>gedge</FILE>
-<TITLE>Domain graph edge</TITLE>
-GFS_GEDGE_CLASS
-GFS_GEDGE
-GFS_IS_GEDGE
-<SUBSECTION>
-GfsGEdgeClass
-GfsGEdge
-<SUBSECTION>
-gfs_gedge_class
-gfs_gedge_new
-gfs_gedge_link_boxes
-</SECTION>
-
-<SECTION>
-<FILE>source_generic</FILE>
-<TITLE>Generic source term</TITLE>
-GFS_SOURCE_GENERIC_CLASS
-GFS_SOURCE_GENERIC
-<SUBSECTION>
-GfsSourceGeneric
-<SUBSECTION>
-gfs_source_generic_class
-</SECTION>
-
-<SECTION>
-<FILE>source</FILE>
-<TITLE>Source term</TITLE>
-GFS_SOURCE
-GFS_IS_SOURCE
-<SUBSECTION>
-GfsSource
-<SUBSECTION>
-gfs_source_class
-</SECTION>
-
-<SECTION>
-<FILE>source_control</FILE>
-<TITLE>Controled source term</TITLE>
-GFS_SOURCE_CONTROL
-GFS_IS_SOURCE_CONTROL
-<SUBSECTION>
-GfsSourceControl
-<SUBSECTION>
-gfs_source_control_class
-</SECTION>
-
-<SECTION>
-<FILE>source_tension</FILE>
-<TITLE>Surface tension source term</TITLE>
-GFS_SOURCE_TENSION
-GFS_IS_SOURCE_TENSION
-<SUBSECTION>
-GfsSourceTension
-<SUBSECTION>
-gfs_source_tension_class
-</SECTION>
-
-<SECTION>
-<FILE>adapt</FILE>
-<TITLE>Simple refinement</TITLE>
-GFS_ADAPT
-GFS_IS_ADAPT
-<SUBSECTION>
-GfsAdapt
-<SUBSECTION>
-gfs_adapt_class
-</SECTION>
-
-<SECTION>
-<FILE>adapt_vorticity</FILE>
-<TITLE>Vorticity-based refinement</TITLE>
-GFS_ADAPT_VORTICITY
-GFS_IS_ADAPT_VORTICITY
-<SUBSECTION>
-GfsAdaptVorticity
-<SUBSECTION>
-gfs_adapt_vorticity_class
-</SECTION>
-
-<SECTION>
-<FILE>adapt_gradient</FILE>
-<TITLE>Gradient-based refinement</TITLE>
-GFS_ADAPT_GRADIENT
-GFS_IS_ADAPT_GRADIENT
-<SUBSECTION>
-GfsAdaptGradient
-<SUBSECTION>
-gfs_adapt_gradient_class
-</SECTION>
-
-<SECTION>
-<FILE>event</FILE>
-<TITLE>Generic event</TITLE>
-GFS_EVENT_CLASS
-GFS_EVENT
-GFS_IS_EVENT
-<SUBSECTION>
-GfsEventClass
-GfsEvent
-<SUBSECTION>
-gfs_event_class
-gfs_event_new
-gfs_event_set
-gfs_event_is_repetitive
-</SECTION>
-
-<SECTION>
-<FILE>event_script</FILE>
-<TITLE>Script event</TITLE>
-GFS_EVENT_SCRIPT
-GFS_IS_EVENT_SCRIPT
-<SUBSECTION>
-GfsEventScript
-<SUBSECTION>
-gfs_event_script_class
-</SECTION>
-
-<SECTION>
-<FILE>event_stop</FILE>
-<TITLE>Stop event</TITLE>
-GFS_EVENT_STOP
-GFS_IS_EVENT_STOP
-<SUBSECTION>
-GfsEventStop
-<SUBSECTION>
-gfs_event_stop_class
-</SECTION>
-
-<SECTION>
-<FILE>event_sum</FILE>
-<TITLE>Sum events</TITLE>
-GFS_EVENT_SUM
-GFS_IS_EVENT_SUM
-<SUBSECTION>
-GfsEventSum
-<SUBSECTION>
-gfs_event_sum_class
-</SECTION>
-
-<SECTION>
-<FILE>event_harmonic</FILE>
-<TITLE>Harmonic analysis events</TITLE>
-gfs_event_harmonic_class
-</SECTION>
-
-<SECTION>
-<FILE>function</FILE>
-<TITLE>Functions</TITLE>
-GFS_FUNCTION_CLASS
-GFS_FUNCTION
-GFS_IS_FUNCTION
-<SUBSECTION>
-GfsFunctionClass
-GfsFunction
-<SUBSECTION>
-gfs_function_class
-gfs_function_new
-gfs_function_face_value
-gfs_function_value
-gfs_function_read
-gfs_function_write
-gfs_function_description
-gfs_function_get_constant_value
-gfs_function_set_constant_value
-gfs_function_get_variable
-</SECTION>
-
-<SECTION>
-<FILE>generic_init</FILE>
-<TITLE>Generic initialisation event</TITLE>
-GFS_IS_GENERIC_INIT
-<SUBSECTION>
-GfsGenericInitClass
-GfsGenericInit
-<SUBSECTION>
-gfs_generic_init_class
-</SECTION>
-
-<SECTION>
-<FILE>init</FILE>
-<TITLE>Initialisation event</TITLE>
-GFS_IS_INIT
-<SUBSECTION>
-GfsInit
-<SUBSECTION>
-gfs_init_class
-</SECTION>
-
-<SECTION>
-<FILE>init_vorticity</FILE>
-<TITLE>Vorticity initialisation</TITLE>
-GFS_INIT_VORTICITY
-GFS_INIT_VORTICITY_CLASS
-GFS_IS_INIT_VORTICITY
-<SUBSECTION>
-GfsInitVorticity
-GfsInitVorticityClass
-<SUBSECTION>
-gfs_init_vorticity_class
-</SECTION>
-
-<SECTION>
-<FILE>init_fraction</FILE>
-<TITLE>Fraction initialisation</TITLE>
-GFS_INIT_FRACTION_CLASS
-GFS_INIT_FRACTION
-GFS_IS_INIT_FRACTION
-<SUBSECTION>
-GfsInitFractionClass
-GfsInitFraction
-<SUBSECTION>
-gfs_init_fraction_class
-</SECTION>
-
-<SECTION>
-<FILE>output</FILE>
-<TITLE>Generic output event</TITLE>
-GFS_OUTPUT_CLASS
-GFS_OUTPUT
-GFS_IS_OUTPUT
-<SUBSECTION>
-GfsOutputClass
-GfsOutput
-GfsOutputFile
-<SUBSECTION>
-gfs_output_class
-gfs_output_mute
-gfs_output_file_close
-gfs_output_file_open
-</SECTION>
-
-<SECTION>
-<FILE>output_time</FILE>
-<TITLE>Time output</TITLE>
-gfs_output_time_class
-</SECTION>
-
-<SECTION>
-<FILE>output_projections</FILE>
-<TITLE>Projection statistics output</TITLE>
-gfs_output_projection_stats_class
-</SECTION>
-
-<SECTION>
-<FILE>output_diffusion</FILE>
-<TITLE>Diffusion statistics output</TITLE>
-gfs_output_diffusion_stats_class
-</SECTION>
-
-<SECTION>
-<FILE>output_adapts</FILE>
-<TITLE>Adaptation statistics output</TITLE>
-gfs_output_adapt_stats_class
-</SECTION>
-
-<SECTION>
-<FILE>output_timing</FILE>
-<TITLE>Timing statistics output</TITLE>
-gfs_output_timing_class
-</SECTION>
-
-<SECTION>
-<FILE>output_progress</FILE>
-<TITLE>Progress output</TITLE>
-gfs_output_progress_class
-</SECTION>
-
-<SECTION>
-<FILE>output_balance</FILE>
-<TITLE>Balance statistics output</TITLE>
-gfs_output_balance_class
-</SECTION>
-
-<SECTION>
-<FILE>output_solid</FILE>
-<TITLE>Solid statistics output</TITLE>
-gfs_output_solid_stats_class
-</SECTION>
-
-<SECTION>
-<FILE>output_solid_force</FILE>
-<TITLE>Solid force output</TITLE>
-gfs_output_solid_force_class
-</SECTION>
-
-<SECTION>
-<FILE>output_simulation</FILE>
-<TITLE>Simulation output</TITLE>
-GFS_OUTPUT_SIMULATION_CLASS
-GFS_OUTPUT_SIMULATION
-GFS_IS_OUTPUT_SIMULATION
-<SUBSECTION>
-GfsOutputSimulation
-<SUBSECTION>
-gfs_output_simulation_class
-</SECTION>
-
-<SECTION>
-<FILE>output_boundaries</FILE>
-<TITLE>Domain boundaries output</TITLE>
-gfs_output_boundaries_class
-</SECTION>
-
-<SECTION>
-<FILE>output_location</FILE>
-<TITLE>Location output</TITLE>
-GFS_OUTPUT_LOCATION
-GFS_IS_OUTPUT_LOCATION
-<SUBSECTION>
-GfsOutputLocation
-<SUBSECTION>
-gfs_output_location_class
-</SECTION>
-
-<SECTION>
-<FILE>output_scalar</FILE>
-<TITLE>Generic scalar output</TITLE>
-GFS_OUTPUT_SCALAR
-GFS_IS_OUTPUT_SCALAR
-<SUBSECTION>
-GfsOutputScalar
-<SUBSECTION>
-gfs_output_scalar_class
-</SECTION>
-
-<SECTION>
-<FILE>output_scalar_norm</FILE>
-<TITLE>Scalar norm output</TITLE>
-gfs_output_scalar_norm_class
-</SECTION>
-
-<SECTION>
-<FILE>output_scalar_stats</FILE>
-<TITLE>Scalar statistics output</TITLE>
-gfs_output_scalar_stats_class
-</SECTION>
-
-<SECTION>
-<FILE>output_scalar_sum</FILE>
-<TITLE>Scalar sum output</TITLE>
-gfs_output_scalar_sum_class
-</SECTION>
-
-<SECTION>
-<FILE>output_scalar_histogram</FILE>
-<TITLE>Scalar histogram output</TITLE>
-gfs_output_scalar_histogram_class
-</SECTION>
-
-<SECTION>
-<FILE>output_error_norm</FILE>
-<TITLE>Error norm output</TITLE>
-GfsOutputErrorNorm
-<SUBSECTION>
-gfs_output_error_norm_class
-</SECTION>
-
-<SECTION>
-<FILE>output_squares</FILE>
-<TITLE>Coloured squares output</TITLE>
-GFS_IS_OUTPUT_SQUARES
-<SUBSECTION>
-gfs_output_squares_class
-</SECTION>
-
-<SECTION>
-<FILE>output_ppm</FILE>
-<TITLE>PPM output</TITLE>
-GFS_IS_OUTPUT_PPM
-<SUBSECTION>
-gfs_output_ppm_class
-</SECTION>
-
-<SECTION>
-<FILE>refine</FILE>
-<TITLE>Generic refinement</TITLE>
-GFS_REFINE_CLASS
-GFS_REFINE
-GFS_IS_REFINE
-<SUBSECTION>
-GfsRefineClass
-GfsRefine
-<SUBSECTION>
-gfs_refine_class
-</SECTION>
-
-<SECTION>
-<FILE>refine_solid</FILE>
-<TITLE>Solid refinement</TITLE>
-GFS_IS_REFINE_SOLID
-<SUBSECTION>
-gfs_refine_solid_class
-</SECTION>
-
-<SECTION>
-<FILE>refine_surface</FILE>
-<TITLE>Surface refinement</TITLE>
-GFS_REFINE_SURFACE
-GFS_IS_REFINE_SURFACE
-<SUBSECTION>
-GfsRefineSurface
-<SUBSECTION>
-gfs_refine_surface_class
-</SECTION>
-
-<SECTION>
-<FILE>refine_distance</FILE>
-<TITLE>Surface distance refinement</TITLE>
-GFS_REFINE_DISTANCE
-GFS_IS_REFINE_DISTANCE
-<SUBSECTION>
-GfsRefineDistance
-<SUBSECTION>
-gfs_refine_distance_class
-</SECTION>
-
-<SECTION>
-<FILE>simulation</FILE>
-<TITLE>Simulations</TITLE>
-GFS_SIMULATION_CLASS
-GFS_SIMULATION
-GFS_IS_SIMULATION
-<SUBSECTION>
-GfsSimulationClass
-GfsSimulation
-GfsTime
-GfsPhysicalParams
-<SUBSECTION>
-gfs_init
-gfs_simulation_class
-gfs_simulation_new
-gfs_simulation_read
-gfs_simulation_refine
-gfs_simulation_set_timestep
-gfs_simulation_adapt
-gfs_simulation_write
-gfs_simulation_run
-gfs_object_simulation
-gfs_time_init
-gfs_time_read
-gfs_time_write
-gfs_physical_params_init
-gfs_physical_params_read
-gfs_physical_params_write
-</SECTION>
diff --git a/doc/manpages/Makefile.am b/doc/manpages/Makefile.am
deleted file mode 100644
index cf7623b..0000000
--- a/doc/manpages/Makefile.am
+++ /dev/null
@@ -1,24 +0,0 @@
-dist_man_MANS = \
-	bat2gts.1 \
-	gerris2D.1 \
-	gerris2D3.1 \
-	gerris3D.1 \
-	gfs2gfs.1 \
-	gfs2oogl2D.1 \
-	gfs2oogl2D3.1 \
-	gfs2oogl3D.1 \
-	gfscompare2D.1 \
-	gfscompare2D3.1 \
-	gfscompare3D.1 \
-	gfs-config.1 \
-	gfs-highlight.1 \
-	gfsjoin.1 \
-	gfsxref.1 \
-	ppm2mpeg.1 \
-	ppmcombine.1 \
-	rsurfacequery.1 \
-	shapes.1 \
-	streamanime.1 \
-	xyz2rsurface.1 \
-	gfsjoin2D.1 \
-	gfsjoin3D.1
diff --git a/doc/manpages/bat2gts.1 b/doc/manpages/bat2gts.1
deleted file mode 100644
index 68bfaa5..0000000
--- a/doc/manpages/bat2gts.1
+++ /dev/null
@@ -1,50 +0,0 @@
-.TH bat2gts 1 "August 9, 2008" "" "User Commands"
-
-.SH NAME
-bat2gts \- takes a bathymetry file (three columns: longitude, latitude (degree), depth (meters)) and generates a GTS depth file for the given domain.
-
-.SH SYNOPSIS
-.B bat2gts
-.RI [OPTIONS] < BATHY
-.SH DESCRIPTION
-This manual page documents briefly the
-.B bat2gts
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-\-long=V
-Set reference longitude to V (default 174 deg)
-.TP
-.B \-\-lat=V
-Set reference latitude  to V (default \-41 deg)
-.TP
-.B \-\-width=V
-Set domain width (default is 500 km)
-.TP
-.B \-\-depth=V
-Set reference depth to V (default is 5000 meters)
-.TP
-.B \-\-coast=V
-Set coastline reference depth to V (default is 0.1 meters)
-.TP
-.B \-\-rel=T
-Set relative error allowed on bathymetry (default is 0.05)
-.TP
-.B \-\-angle=V
-Rotation of V degrees (default is 0)
-.TP
-.B \-v, \-\-verbose
-Display info about the process
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-bat2gts was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/gerris2D.1 b/doc/manpages/gerris2D.1
deleted file mode 100644
index 46472bc..0000000
--- a/doc/manpages/gerris2D.1
+++ /dev/null
@@ -1,53 +0,0 @@
-.TH gerris 1 "July 9, 2008" "" "User Commands"
-
-.SH NAME
-gerris2D, gerris2D3, gerris3D \- the Gerris flow solver simulation engine.
-
-.SH SYNOPSIS
-.B gerris
-.RI [OPTION] FILE
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gerris
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-s N, \-\-split=N
-Splits the domain N times and returns the corresponding simulation.
-.TP
-.B \-i, \-\-pid
-Keep box pids when splitting. The default is to allocate one pid per box.
-.TP
-.B \-P N, \-\-partition=N
-Partition the domain in 2^N subdomains and returns the corresponding simulation.
-.TP
-.B \-d, \-\-data
-When splitting or partitioning, output all data.
-.TP
-.B \-P, \-\-profile
-Profiles calls to boundary conditions.
-.TP
-.B \-m, \-\-macros
-Turn macros support on.
-.TP
-.B \-DNAME, \-DNAME=VALUE, \-\-define=NAME, \-\-define=NAME=VALUE
-Defines NAME as a macro expanding to VALUE (macro support is implicitly turned on).
-.TP
-.B \-eEV, \-\-event=EV
-Evaluates the GfsEvent EV and returns the simulation.
-.TP
-.B \-V, \-\-version
-Output version information and exit.
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-gerris was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/gerris2D3.1 b/doc/manpages/gerris2D3.1
deleted file mode 100644
index 6fe6b25..0000000
--- a/doc/manpages/gerris2D3.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gerris2D.1
diff --git a/doc/manpages/gerris3D.1 b/doc/manpages/gerris3D.1
deleted file mode 100644
index 6fe6b25..0000000
--- a/doc/manpages/gerris3D.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gerris2D.1
diff --git a/doc/manpages/gfs-config.1 b/doc/manpages/gfs-config.1
deleted file mode 100644
index 99781c9..0000000
--- a/doc/manpages/gfs-config.1
+++ /dev/null
@@ -1,35 +0,0 @@
-.TH gfs-config 1 "August 9, 2008" "" "User Commands"
-
-.SH NAME
-gfs-config \- defines values for programs using gts.
-
-.SH SYNOPSIS
-.B gfs-config
-.RI [OPTIONS]
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfs-config
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-\-prefix[=DIR]
-.TP
-.B \-\-exec-prefix[=DIR]
-.TP
-.B \-\-version
-.TP
-.B \-\-libs
-.TP
-.B \-\-cflags
-.TP
-.B \-\-2D
-
-.SH AUTHOR
-gfs-config was written by Stephane Popinet <popinet at users.sourceforge.net>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/gfs-highlight.1 b/doc/manpages/gfs-highlight.1
deleted file mode 100644
index c1025eb..0000000
--- a/doc/manpages/gfs-highlight.1
+++ /dev/null
@@ -1,32 +0,0 @@
-.TH gfs-highlight 1 "July 9, 2008" "" "User Commands"
-
-.SH NAME
-gfs-highlight \- syntax highlighting/hypertext linking of Gerris simulation files.
-
-.SH SYNOPSIS
-.B gfs-highlight
-.RI [OPTIONS] < input.gfs > output.html
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfs-highlight
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-\-title=TITLE
-Sets the page title.
-.TP
-.B \-\-css=FILE
-Sets the CSS stylesheet filename.
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-gfs-highlight was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/gfs2gfs.1 b/doc/manpages/gfs2gfs.1
deleted file mode 100644
index 6962516..0000000
--- a/doc/manpages/gfs2gfs.1
+++ /dev/null
@@ -1,26 +0,0 @@
-.TH gfs2gfs 1 "July 9, 2008" "" "User Commands"
-
-.SH NAME
-gfs2gfs \- converts old Gerris simulation files to the current format.
-
-.SH SYNOPSIS
-.B gfs2gfs
-.RI [OPTIONS] < OLDFILE > NEWFILE
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfs2gfs
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-gfs2gfs was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/gfs2oogl2D.1 b/doc/manpages/gfs2oogl2D.1
deleted file mode 100644
index 1b23e63..0000000
--- a/doc/manpages/gfs2oogl2D.1
+++ /dev/null
@@ -1,105 +0,0 @@
-.TH gfs2oogl 1 "July 9, 2008" "" "User Commands"
-
-.SH NAME
-gfs2oogl2D, gfs2oogl2D3, gfs2oogl3D \- converts a Gerris simulation file to other (graphical) formats.
-
-.SH SYNOPSIS
-.B gfs2oogl
-.RI [OPTION] < GFS_FILE
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfs2oogl
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-
-.TP
-.B \-u V, \-\-iso=V
-Outputs a GTS file isosurface for value V the variable needs to be specified using \-c.
-.TP
-.B \-f D, \-\-stream=D
-Draw evenly-spaced streamlines (D is the spacing).
-.TP
-.B \-I M, \-\-dmin=M
-Controls length of evenly-spaced streamlines default is 0.5.
-.TP
-.B \-O M, \-\-maxcost=M
-Controls compression of streamlines (default is 2e-7).
-.TP
-.B \-b x,.., \-\-box=x,y,..
-Specify bounding box for streamline calculation.
-.TP
-.B \-j, \-\-closed
-Outputs only closed streamlines.
-.TP
-.B \-p F, \-\-profile=F
-Output list of values for coordinates defined in F.
-.TP
-.B \-o, \-\-mixed
-Output text values in mixed cells only.
-.TP
-.B \-L L, \-\-level=L
-Use cells at level L only.
-.TP
-.B \-i, \-\-reinit
-Reinitializes refinement and solid fractions.
-.TP
-.B \-e, \-\-merged
-Draw boundaries of merged cells.
-.TP
-.B \-S, \-\-squares
-Draw (colored) squares.
-.TP
-.B \-g, \-\-gnuplot
-Output gnuplot data.
-.TP
-.B \-x VAL, \-\-sx=VAL
-outputs a GTS surface, cross section for x = VAL of the scalar variable.
-.TP
-.B \-y VAL, \-\-sy=VAL
-outputs a GTS surface, cross section for y = VAL of the scalar variable.
-.TP
-.B \-z VAL, \-\-sz=VAL
-outputs a GTS surface, cross section for z = VAL of the scalar variable.
-.TP
-.B \-s S, \-\-surface=S
-outputs the surface defined by file S (or the solid surface is S is equal to `solid').
-.TP
-.B \-V S, \-\-vector=S
-output an OOGL representation of the velocity vector field in the mixed cells.
-.TP
-.B \-l F, \-\-streamlines=F
-draw streamlines starting from each point defined in file F.
-.TP
-.B \-C F, \-\-cylinder=F
-draw stream cylinders starting from each point defined in file F.
-.TP
-.B \-R F, \-\-ribbon=F
-draw stream ribbons starting from each point defined in file F.
-.TP
-.B \-r
-refines the solid surface according to the local resolution.
-.TP
-.B \-c V, \-\-color=V
-color surfaces, streamlines etc... according to the.
-.TP
-.B \-m V, \-\-min=V
-set minimum scalar value to V.
-.TP
-.B \-M V, \-\-max=V
-set maximum scalar value to V.
-.TP
-.B \-v, \-\-verbose
-display statistics and other info.
-.TP
-.B \-h, \-\-help
-display the help and exit.
-
-.SH AUTHOR
-gfs2oogl was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/gfs2oogl2D3.1 b/doc/manpages/gfs2oogl2D3.1
deleted file mode 100644
index 676f9cf..0000000
--- a/doc/manpages/gfs2oogl2D3.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gfs2oogl2D.1
diff --git a/doc/manpages/gfs2oogl3D.1 b/doc/manpages/gfs2oogl3D.1
deleted file mode 100644
index 676f9cf..0000000
--- a/doc/manpages/gfs2oogl3D.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gfs2oogl2D.1
diff --git a/doc/manpages/gfscompare2D.1 b/doc/manpages/gfscompare2D.1
deleted file mode 100644
index 3682236..0000000
--- a/doc/manpages/gfscompare2D.1
+++ /dev/null
@@ -1,84 +0,0 @@
-.TH gfscompare 1 "July 10, 2008" "" "User Commands"
-
-.SH NAME
-gfscompare2D, gfscompare2D3, gfscompare3D \- computes the difference between the solutions in FILE1 and FILE2 for variable VAR.
-
-.SH SYNOPSIS
-.B gfscompare
-.RI [OPTION] FILE
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfscompare
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-
-.TP
-.B \-x, \-\-mixed
-Compute error only in mixed cells.
-.TP
-.B \-m V, \-\-min=V
-Set minimum of color scale to V (used with \-S).
-.TP
-.B \-M V, \-\-max=V
-Set maximum of color scale to V.
-.TP
-.B \-a, \-\-abs
-Output the absolute value of the error field.
-.TP
-.B \-C, \-\-constant
-Apply a constant shift to one of the field, minimizing the error between the two fields (useful for pressure).
-.TP
-.B \-w, \-\-not-weighted
-Do not use area-weighted norm estimation.
-.TP
-.B \-c, \-\-centered
-Use error estimation for cell-centered variables.
-.TP
-.B \-p P, \-\-period=P
-Shifts FILE1 by P along the x axis.
-.TP
-.B \-H, \-\-histogram
-Output (error,volume) pairs for each cell used to compute the error norms.
-.TP
-.B \-o, \-\-output
-Output a GTS representation of the error field.
-.TP
-.B \-S, \-\-squares
-Output an OOGL representation of the error field.
-.TP
-.B \-G, \-\-gnuplot
-Output a gnuplot representation of the error field.
-.TP
-.B \-t, \-\-triangulate
-Use center of mass triangulation.
-.TP
-.B \-l, \-\-log
-Output the log10 of the absolute value of the error field.
-.TP
-.B \-f L, \-\-full=L
-Compare only leaf cells descendants of a cell full at level L or all full leaf cells if L = \-1.
-.TP
-.B \-r, \-\-refined
-Display error norm on the finest grid.
-.TP
-.B \-n, \-\-nocheck
-Do not check solid fractions.
-.TP
-.B \-g C, \-\-gradient=C
-Use the C component of the gradient of VAR.
-.TP
-.B \-v, \-\-verbose
-Display difference statistics and other info.
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-gfscompare was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/gfscompare2D3.1 b/doc/manpages/gfscompare2D3.1
deleted file mode 100644
index e4143ea..0000000
--- a/doc/manpages/gfscompare2D3.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gfscompare2D.1
diff --git a/doc/manpages/gfscompare3D.1 b/doc/manpages/gfscompare3D.1
deleted file mode 100644
index e4143ea..0000000
--- a/doc/manpages/gfscompare3D.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gfscompare2D.1
diff --git a/doc/manpages/gfsjoin.1 b/doc/manpages/gfsjoin.1
deleted file mode 100644
index bef5de0..0000000
--- a/doc/manpages/gfsjoin.1
+++ /dev/null
@@ -1,25 +0,0 @@
-.TH gfsjoin 1 "August 9, 2008" "" "User Commands"
-
-.SH NAME
-gfsjoin \- joins Gerris files.
-
-.SH SYNOPSIS
-.B gfsjoin
-.RI Simfile Directory Rootname NP Tailname > Joined
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfsjoin
-command.
-
-.SH OPTIONS
-Simfile:        Name of the simulation file
-Directory:      Directory where results are located
-Rootname:       File root name
-NP:             Number of processors
-Tailname:       File tail name
-
-.SH AUTHOR
-gfsjoin was written by Daniel Fuster.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/gfsjoin2D.1 b/doc/manpages/gfsjoin2D.1
deleted file mode 100644
index 3dfb56d..0000000
--- a/doc/manpages/gfsjoin2D.1
+++ /dev/null
@@ -1,29 +0,0 @@
-.TH gfsjoin 1 "June 19, 2009" "" "User Commands"
-
-.SH NAME
-gfsjoin2D, gfsjoin3D \- joins several parallel Gerris simulation files
-
-.SH SYNOPSIS
-.B gfsjoin
-[OPTIONS] FILE1 FILE2 ... > JOINED
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfsjoin
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-k, \-\-keep
-Keep MPI boundaries.
-.TP
-.B \-v, \-\-verbose
-Display statistics and other info.
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-gfsjoin was written by Stephane Popinet <s.popinet at niwa.co.nz>.
diff --git a/doc/manpages/gfsjoin3D.1 b/doc/manpages/gfsjoin3D.1
deleted file mode 100644
index 3dfb56d..0000000
--- a/doc/manpages/gfsjoin3D.1
+++ /dev/null
@@ -1,29 +0,0 @@
-.TH gfsjoin 1 "June 19, 2009" "" "User Commands"
-
-.SH NAME
-gfsjoin2D, gfsjoin3D \- joins several parallel Gerris simulation files
-
-.SH SYNOPSIS
-.B gfsjoin
-[OPTIONS] FILE1 FILE2 ... > JOINED
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfsjoin
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-k, \-\-keep
-Keep MPI boundaries.
-.TP
-.B \-v, \-\-verbose
-Display statistics and other info.
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-gfsjoin was written by Stephane Popinet <s.popinet at niwa.co.nz>.
diff --git a/doc/manpages/gfsxref.1 b/doc/manpages/gfsxref.1
deleted file mode 100644
index 61c1e61..0000000
--- a/doc/manpages/gfsxref.1
+++ /dev/null
@@ -1,29 +0,0 @@
-.TH gfsxref 1 "August 9, 2008" "" "User Commands"
-
-.SH NAME
-gfsxref \- creates cross-references for occurences of KEYWORD in input.gfs
-
-.SH SYNOPSIS
-.B gfsxref
-.RI [OPTIONS] KEYWORD < input.gfs > output.html
-.SH DESCRIPTION
-This manual page documents briefly the
-.B gfsxref
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-\-url=URL
-Reference URL for input.gfs.
-.TP
-.B \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-gfsxref was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/ppm2mpeg.1 b/doc/manpages/ppm2mpeg.1
deleted file mode 100644
index 6fe6b25..0000000
--- a/doc/manpages/ppm2mpeg.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gerris2D.1
diff --git a/doc/manpages/ppmcombine.1 b/doc/manpages/ppmcombine.1
deleted file mode 100644
index 938c360..0000000
--- a/doc/manpages/ppmcombine.1
+++ /dev/null
@@ -1,29 +0,0 @@
-.TH ppmcombine 1 "August 9, 2008" "" "User Commands"
-
-.SH NAME
-ppmcombine \- combines several PPM files produced by a parallel run of Gerris.
-
-.SH SYNOPSIS
-.B ppmcombine
-.RI [OPTIONS] KEYWORD < input.gfs > output.html
-.SH DESCRIPTION
-This manual page documents briefly the
-.B ppmcombine
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-v, \-\-url=URL
-Display statistics and other info
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-ppmcombine was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/rsurfacequery.1 b/doc/manpages/rsurfacequery.1
deleted file mode 100644
index 6fe6b25..0000000
--- a/doc/manpages/rsurfacequery.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gerris2D.1
diff --git a/doc/manpages/shapes.1 b/doc/manpages/shapes.1
deleted file mode 100644
index 56b9305..0000000
--- a/doc/manpages/shapes.1
+++ /dev/null
@@ -1,48 +0,0 @@
-.TH shapes 1 "August 9, 2008" "" "User Commands"
-
-.SH NAME
-shapes \- generates various shapes for Gerris.
-
-.SH SYNOPSIS
-.B shapes
-.RI [OPTIONS] SHAPE
-.PP
-SHAPE can be one of: ellipse, star, 4ellipses, square, almgren, channel, 
-half-cylinder, rayleigh-taylor, FILE.
-
-.SH DESCRIPTION
-This manual page documents briefly the
-.B shapes
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-z, \-\-zextrude
-Shape file contains z coordinate.
-.TP
-.B \-n N, \-\-number=N
-Set number of points for polar surfaces (default is 100).
-.TP
-.B \-o, \-\-open
-Generate open surfaces.
-.TP
-.B \-d R, \-\-dr=R
-Set inner radius for star to R (default is 0.15).
-.TP
-.B \-r R, \-\-ratio=R
-Ratio x/y of the ellipse (default is 1).
-.TP
-.B \-v, \-\-url=URL
-Display surface statistics.
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-shapes was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/manpages/streamanime.1 b/doc/manpages/streamanime.1
deleted file mode 100644
index 6fe6b25..0000000
--- a/doc/manpages/streamanime.1
+++ /dev/null
@@ -1 +0,0 @@
-.so man1/gerris2D.1
diff --git a/doc/manpages/xyz2rsurface.1 b/doc/manpages/xyz2rsurface.1
deleted file mode 100644
index 1737fdc..0000000
--- a/doc/manpages/xyz2rsurface.1
+++ /dev/null
@@ -1,32 +0,0 @@
-.TH xyz2rsurface 1 "August 9, 2008" "" "User Commands"
-
-.SH NAME
-xyz2rsurface \- converts the x, y and z coordinates on standard input to an R*-tree-indexed database suitable for use with the GfsRefineTerrain object of Gerris.
-
-.SH SYNOPSIS
-.B xyz2rsurface
-.RI [OPTION] BASENAME
-.SH DESCRIPTION
-This manual page documents briefly the
-.B xyz2rsurface
-command.
-
-.SH OPTIONS
-These programs follow the usual GNU command line syntax, with long
-options starting with two dashes (`-').
-A summary of options is included below.
-.TP
-.B \-p N  \-\-pagesize=N
-Sets the pagesize in bytes (default is 4096)
-.TP
-.B \-v, \-\-verbose
-Display progress bar.
-.TP
-.B \-h, \-\-help
-Display the help and exit.
-
-.SH AUTHOR
-xyz2rsurface was written by Stephane Popinet <s.popinet at niwa.co.nz>.
-.PP
-This manual page was written by Ruben Molina <rmolina at udea.edu.co>,
-for the Debian project (but may be used by others).
diff --git a/doc/sgml_not_in_docs.sh b/doc/sgml_not_in_docs.sh
deleted file mode 100644
index 3a803c1..0000000
--- a/doc/sgml_not_in_docs.sh
+++ /dev/null
@@ -1,15 +0,0 @@
-awk 'BEGIN {FS = "\"| "} {
-  if ($3 == "SYSTEM")
-    print $5;
-}' < gfs-docs.sgml | sort > /tmp/files
-ls sgml/*.sgml > /tmp/files1
-diff /tmp/files /tmp/files1 | awk '{
-  if ($1 == ">")
-    print "not in docs: " $2;
-  else if ($1 == "<")
-    print "in docs but not in sgml: " $2;
-}' | sort
-
-
-
-
diff --git a/doc/sgml_not_in_sections.sh b/doc/sgml_not_in_sections.sh
deleted file mode 100644
index 0d93588..0000000
--- a/doc/sgml_not_in_sections.sh
+++ /dev/null
@@ -1,11 +0,0 @@
-awk 'BEGIN {FS = ">|<"} {
-  if ($2 == "FILE")
-    print "tmpl/" $3 ".sgml"; 
-}' < gfs-sections.txt | sort > /tmp/files
-
-ls tmpl/*.sgml | sort > /tmp/files1
-diff /tmp/files /tmp/files1 | awk '{
-  if ($1 == ">")
-    print "not in sections: " $2;
-}' | sort
-
diff --git a/doc/share/contents.png b/doc/share/contents.png
deleted file mode 100644
index 37a5231..0000000
Binary files a/doc/share/contents.png and /dev/null differ
diff --git a/doc/share/darcs.css b/doc/share/darcs.css
deleted file mode 100644
index a1da05f..0000000
--- a/doc/share/darcs.css
+++ /dev/null
@@ -1,115 +0,0 @@
-BODY {
-  font: x-small sans-serif;
-  font-size: 14px;
-  background: white;
-  color: black;
-  margin: 0;
-  padding: 1em;
-}
-
-A {
-  text-decoration: none;
-  color: #002bb8;
-  background: none;
-  border-style: none;
-}
-
-A:visited {
-  color: #5a3696;
-}
-
-A:active {
-  color: #faa700;
-}
-
-A:hover {
-  text-decoration: underline;
-}
-
-.section a {
-  color: black;
-  text-decoration: none;
-}
-
-.subsection a {
-  color: black;
-  text-decoration: none;
-}
-
-.subsubsection a {
-  color: black;
-  text-decoration: none;
-}
-
-A IMG {border: none; }
-
-PRE     {
-  background: #eeeeee;
-  border: 1px solid #888888;
-  color: black;
-  padding: 1em;
-  white-space: pre;
-}
-
-H1, H2, H3, H4 {
-  color: black;
-}
-
-H1      {
-  font-size: 24px ;
-}
-
-H2      {
-  font-size: 18px;
-}
-
-H3      {
-  font-size: 16px;
-}
-
-H4      {
-  font-size: 14px;
-}
-
-/* GFS parameter files */
-
-.gfs .comment {
-    color: #17A729;
-}
-
-/* headers for darcs command options */
-.cmd-opt-hdr     {
-  color: #494a82;
-  font-size: 14px;
-  font-weight: bold;
-}
-
-/* begin styles for RSS Feed This is the most basic style to use for a list with no bullets */
-
-.rss_title, rss_title a {
-    margin: 0px 0;
-    padding: 0;
-}
-
-.rss_items {
-       list-style:none;
-       margin:0;
-       padding:0;
-}
-
-.rss_item  {
-/*  font-size: x-small; */
-  margin-bottom: 1em;;
-}
-
-.rss_item a:link, .rss_item a:visited, .rss_item a:active {
-
-    }
-
-.rss_item a:hover { 
-
-    }
-    
-.rss_date {
-    font-size: xx-small;
-    }
diff --git a/doc/share/fixnav.sh b/doc/share/fixnav.sh
deleted file mode 100644
index e5b8568..0000000
--- a/doc/share/fixnav.sh
+++ /dev/null
@@ -1,7 +0,0 @@
-for f in $1/*.html; do
-    sed 's/contents_motif.gif/contents.png/g' < $f | \
-    sed 's/next_motif.gif/next.png/g' | \
-    sed 's/previous_motif.gif/prev.png/g' \
-    > $f.bak
-    mv -f $f.bak $f
-done
diff --git a/doc/share/next.png b/doc/share/next.png
deleted file mode 100644
index 64e126b..0000000
Binary files a/doc/share/next.png and /dev/null differ
diff --git a/doc/share/prev.png b/doc/share/prev.png
deleted file mode 100644
index 3e8f12f..0000000
Binary files a/doc/share/prev.png and /dev/null differ
diff --git a/doc/share/up.png b/doc/share/up.png
deleted file mode 100644
index 2db1ce6..0000000
Binary files a/doc/share/up.png and /dev/null differ
diff --git a/doc/tmpl/adapt.sgml b/doc/tmpl/adapt.sgml
deleted file mode 100644
index 997f2db..0000000
--- a/doc/tmpl/adapt.sgml
+++ /dev/null
@@ -1,108 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Generic refinement
-
-<!-- ##### SECTION Short_Description ##### -->
-Abstract class for adaptive refinement criteria
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-All the adaptive refinement criteria are derived from this class. Several refinement criteria can be used at the same time.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsEvent ] {
-  minlevel = 3 maxlevel = 10 
-  mincells = 100 maxcells = 100000 
-  cmax = 1e-2
-  weight = 1
-}
-</programlisting>
-</informalexample>
-with
-<informaltable pgwide="1" frame="none" role="struct">
-<tgroup cols="2">
-<colspec colwidth="2*">
-<colspec colwidth="8*">
-<tbody>
-
-<row>
-<entry><structfield>minlevel</structfield></entry>
-<entry>The minimum number of refinement levels (default is 0).</entry>
-</row>
-
-<row>
-<entry><structfield>maxlevel</structfield></entry>
-<entry>The maximum number of refinement levels.</entry>
-</row>
-
-<row>
-<entry><structfield>mincells</structfield></entry>
-<entry>The minimum number of cells in the simulation (default is 0).</entry>
-</row>
-
-<row>
-<entry><structfield>maxcells</structfield></entry>
-<entry>The maximum number of cells in the simulation. If this number is reached, the algorithm optimizes the distribution of the cells so that the maximum cost over all the cells is minimized.</entry>
-</row>
-
-<row>
-<entry><structfield>cmax</structfield></entry>
-<entry>The maximum cell cost allowed. If the number of cells is smaller than the maximum allowed and the cost of a cell is larger than this value, the cell will be refined.</entry>
-</row>
-
-<row>
-<entry><structfield>weight</structfield></entry>
-<entry>When combining several criteria, the algorithm will weight the cost of each by this value in order to compute the total cost (default is 1).</entry>
-</row>
-
-</tbody></tgroup></informaltable>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_ADAPT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_ADAPT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsAdapt ##### -->
-<para>
-
-</para>
-
- at minlevel: 
- at maxlevel: 
- at mincells: 
- at maxcells: 
- at cmax: 
- at weight: 
- at c: 
- at cost: 
-
-<!-- ##### FUNCTION gfs_adapt_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/adapt_gradient.sgml b/doc/tmpl/adapt_gradient.sgml
deleted file mode 100644
index df3d237..0000000
--- a/doc/tmpl/adapt_gradient.sgml
+++ /dev/null
@@ -1,59 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Gradient-based refinement
-
-<!-- ##### SECTION Short_Description ##### -->
-Adapting cells depending on the local gradient of a variable
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsAdaptGradient computes the "adaptive cell cost" as the norm of the local gradient of a given variable multiplied by the cell size.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsAdapt ] V
-</programlisting>
-</informalexample>
-where V is the variable name.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_ADAPT_GRADIENT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_ADAPT_GRADIENT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsAdaptGradient ##### -->
-<para>
-
-</para>
-
- at v: 
-
-<!-- ##### FUNCTION gfs_adapt_gradient_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/adapt_not_box.sgml b/doc/tmpl/adapt_not_box.sgml
deleted file mode 100644
index 5700f1b..0000000
--- a/doc/tmpl/adapt_not_box.sgml
+++ /dev/null
@@ -1,60 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Non-adaptive fluid box node
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_ADAPT_NOT_BOX ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_ADAPT_NOT_BOX ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsAdaptNotBox ##### -->
-<para>
-
-</para>
-
- at box: 
-
-<!-- ##### FUNCTION gfs_adapt_not_box_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_adapt_not_box_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at box: 
- at Returns: 
-
-
diff --git a/doc/tmpl/adapt_vorticity.sgml b/doc/tmpl/adapt_vorticity.sgml
deleted file mode 100644
index 33441b8..0000000
--- a/doc/tmpl/adapt_vorticity.sgml
+++ /dev/null
@@ -1,56 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Vorticity-based refinement
-
-<!-- ##### SECTION Short_Description ##### -->
-Adapting cells depending on the local vorticity
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsAdaptVorticity computes the "adaptive cell cost" as the norm of the local vorticity vector multiplied by the cell size and divided by the maximum of the velocity norm over the whole domain.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsAdapt ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_ADAPT_VORTICITY ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_ADAPT_VORTICITY ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsAdaptVorticity ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### FUNCTION gfs_adapt_vorticity_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/advection.sgml b/doc/tmpl/advection.sgml
deleted file mode 100644
index 2337065..0000000
--- a/doc/tmpl/advection.sgml
+++ /dev/null
@@ -1,136 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Advection scheme
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### STRUCT GfsAdvectionParams ##### -->
-<para>
-
-</para>
-
- at cfl: 
- at dt: 
- at v: 
- at fv: 
- at u: 
- at g: 
- at gradient: 
- at use_centered_velocity: 
- at upwinding: 
- at flux: 
- at scheme: 
- at average: 
-
-<!-- ##### FUNCTION gfs_advection_params_init ##### -->
-<para>
-
-</para>
-
- at par: 
-
-
-<!-- ##### FUNCTION gfs_advection_params_read ##### -->
-<para>
-
-</para>
-
- at par: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_advection_params_write ##### -->
-<para>
-
-</para>
-
- at par: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_cell_advected_face_values ##### -->
-<para>
-
-</para>
-
- at cell: 
- at par: 
-
-
-<!-- ##### FUNCTION gfs_face_upwinded_value ##### -->
-<para>
-
-</para>
-
- at face: 
- at upwinding: 
- at u: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_face_advection_flux ##### -->
-<para>
-
-</para>
-
- at face: 
- at par: 
-
-
-<!-- ##### FUNCTION gfs_face_velocity_advection_flux ##### -->
-<para>
-
-</para>
-
- at face: 
- at par: 
-
-
-<!-- ##### FUNCTION gfs_face_velocity_convective_flux ##### -->
-<para>
-
-</para>
-
- at face: 
- at par: 
-
-
-<!-- ##### FUNCTION gfs_face_advected_normal_velocity ##### -->
-<para>
-
-</para>
-
- at face: 
- at par: 
-
-
-<!-- ##### FUNCTION gfs_face_interpolated_normal_velocity ##### -->
-<para>
-
-</para>
-
- at face: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_face_reset_normal_velocity ##### -->
-<para>
-
-</para>
-
- at face: 
-
-
diff --git a/doc/tmpl/boundary.sgml b/doc/tmpl/boundary.sgml
deleted file mode 100644
index 71789ea..0000000
--- a/doc/tmpl/boundary.sgml
+++ /dev/null
@@ -1,146 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Generic boundary
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_BOUNDARY_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_BOUNDARY ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_BOUNDARY ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsBoundaryClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
- at match: 
- at send: 
- at receive: 
- at synchronize: 
-
-<!-- ##### STRUCT GfsBoundary ##### -->
-<para>
-
-</para>
-
- at v: 
- at type: 
- at bc: 
-
-<!-- ##### ENUM GfsBoundaryVariableType ##### -->
-<para>
-
-</para>
-
- at GFS_BOUNDARY_CENTER_VARIABLE: 
- at GFS_BOUNDARY_FACE_VARIABLE: 
- at GFS_BOUNDARY_MATCH_VARIABLE: 
- at GFS_BOUNDARY_VARIABLE_NUMBER: 
-
-<!-- ##### FUNCTION gfs_boundary_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at box: 
- at d: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_boundary_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_boundary_send ##### -->
-<para>
-
-</para>
-
- at boundary: 
-
-
-<!-- ##### FUNCTION gfs_boundary_receive ##### -->
-<para>
-
-</para>
-
- at boundary: 
- at flags: 
- at max_depth: 
-
-
-<!-- ##### FUNCTION gfs_boundary_synchronize ##### -->
-<para>
-
-</para>
-
- at boundary: 
-
-
-<!-- ##### FUNCTION gfs_boundary_add_bc ##### -->
-<para>
-
-</para>
-
- at b: 
- at bc: 
-
-
-<!-- ##### FUNCTION gfs_boundary_lookup_bc ##### -->
-<para>
-
-</para>
-
- at b: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_boundary_set_default_bc ##### -->
-<para>
-
-</para>
-
- at b: 
- at bc: 
-
-
diff --git a/doc/tmpl/box.sgml b/doc/tmpl/box.sgml
deleted file mode 100644
index a44cfb3..0000000
--- a/doc/tmpl/box.sgml
+++ /dev/null
@@ -1,106 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Fluid box
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_BOX_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_BOX ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_BOX ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsBoxClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### STRUCT GfsBox ##### -->
-<para>
-
-</para>
-
- at parent: 
- at root: 
- at neighbor: 
- at id: 
- at pid: 
- at size: 
-
-<!-- ##### FUNCTION gfs_box_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_box_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_box_set_pos ##### -->
-<para>
-
-</para>
-
- at box: 
- at pos: 
-
-
-<!-- ##### FUNCTION gfs_box_set_relative_pos ##### -->
-<para>
-
-</para>
-
- at box: 
- at reference: 
- at d: 
-
-
-<!-- ##### FUNCTION gfs_box_domain ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/diffusion.sgml b/doc/tmpl/diffusion.sgml
deleted file mode 100644
index cb0c2ec..0000000
--- a/doc/tmpl/diffusion.sgml
+++ /dev/null
@@ -1,71 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Diffusion solver
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_diffusion_rhs ##### -->
-<para>
-
-</para>
-
- at domain: 
- at v: 
- at rhs: 
- at dia: 
- at beta: 
-
-
-<!-- ##### FUNCTION gfs_diffusion_residual ##### -->
-<para>
-
-</para>
-
- at domain: 
- at u: 
- at rhs: 
- at dia: 
- at res: 
-
-
-<!-- ##### FUNCTION gfs_diffusion_coefficients ##### -->
-<para>
-
-</para>
-
- at domain: 
- at d: 
- at dt: 
- at dia: 
- at alpha: 
- at beta: 
-
-
-<!-- ##### FUNCTION gfs_diffusion_cycle ##### -->
-<para>
-
-</para>
-
- at domain: 
- at levelmin: 
- at depth: 
- at nrelax: 
- at u: 
- at rhs: 
- at dia: 
- at res: 
-
-
diff --git a/doc/tmpl/domain-advection-vof.sgml b/doc/tmpl/domain-advection-vof.sgml
deleted file mode 100644
index 8d2672d..0000000
--- a/doc/tmpl/domain-advection-vof.sgml
+++ /dev/null
@@ -1,92 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Volume of Fluid advection
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_plane_alpha ##### -->
-<para>
-
-</para>
-
- at m: 
- at c: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_plane_volume ##### -->
-<para>
-
-</para>
-
- at m: 
- at alpha: 
- at c1: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_line_alpha ##### -->
-<para>
-
-</para>
-
- at m: 
- at c: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_line_area ##### -->
-<para>
-
-</para>
-
- at m: 
- at alpha: 
- at c1: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_line_center ##### -->
-<para>
-
-</para>
-
- at m: 
- at alpha: 
- at a: 
- at p: 
-
-
-<!-- ##### FUNCTION gfs_cell_vof_advection ##### -->
-<para>
-
-</para>
-
- at cell: 
- at c: 
- at par: 
-
-
-<!-- ##### FUNCTION gfs_tracer_vof_advection ##### -->
-<para>
-
-</para>
-
- at domain: 
- at par: 
- at half: 
-
-
diff --git a/doc/tmpl/domain-advection.sgml b/doc/tmpl/domain-advection.sgml
deleted file mode 100644
index b825cdf..0000000
--- a/doc/tmpl/domain-advection.sgml
+++ /dev/null
@@ -1,97 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Advection
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_set_merged ##### -->
-<para>
-
-</para>
-
- at domain: 
-
-
-<!-- ##### USER_FUNCTION GfsMergedTraverseFunc ##### -->
-<para>
-
-</para>
-
- at merged: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_traverse_merged ##### -->
-<para>
-
-</para>
-
- at domain: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_stats_merged ##### -->
-<para>
-
-</para>
-
- at domain: 
- at solid: 
- at number: 
-
-
-<!-- ##### FUNCTION gfs_advection_update ##### -->
-<para>
-
-</para>
-
- at merged: 
- at par: 
-
-
-<!-- ##### FUNCTION gfs_centered_velocity_advection_diffusion ##### -->
-<para>
-
-</para>
-
- at domain: 
- at dimension: 
- at apar: 
- at g: 
- at alpha: 
-
-
-<!-- ##### FUNCTION gfs_tracer_advection_diffusion ##### -->
-<para>
-
-</para>
-
- at domain: 
- at par: 
- at half: 
-
-
-<!-- ##### FUNCTION gfs_predicted_face_velocities ##### -->
-<para>
-
-</para>
-
- at domain: 
- at d: 
- at par: 
-
-
diff --git a/doc/tmpl/domain.sgml b/doc/tmpl/domain.sgml
deleted file mode 100644
index c9b0be9..0000000
--- a/doc/tmpl/domain.sgml
+++ /dev/null
@@ -1,472 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Fluid domain
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_DOMAIN_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_DOMAIN ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_DOMAIN ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsDomainClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
- at post_read: 
-
-<!-- ##### STRUCT GfsDomain ##### -->
-<para>
-
-</para>
-
- at parent: 
- at pid: 
- at timer: 
- at timers: 
- at timestep: 
- at size: 
- at profile_bc: 
- at mpi_messages: 
- at mpi_wait: 
- at rootlevel: 
- at refpos: 
- at lambda: 
- at allocated: 
- at variables: 
- at derived_variables: 
- at velocity: 
- at variables_io: 
- at binary: 
- at max_depth_write: 
-
-<!-- ##### FUNCTION gfs_domain_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_alloc ##### -->
-<para>
-
-</para>
-
- at domain: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_free ##### -->
-<para>
-
-</para>
-
- at domain: 
- at i: 
-
-
-<!-- ##### FUNCTION gfs_domain_add_variable ##### -->
-<para>
-
-</para>
-
- at domain: 
- at name: 
- at description: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_add_derived_variable ##### -->
-<para>
-
-</para>
-
- at domain: 
- at info: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_cell_traverse ##### -->
-<para>
-
-</para>
-
- at domain: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_cell_traverse_boundary ##### -->
-<para>
-
-</para>
-
- at domain: 
- at d: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_cell_traverse_box ##### -->
-<para>
-
-</para>
-
- at domain: 
- at box: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_traverse_mixed ##### -->
-<para>
-
-</para>
-
- at domain: 
- at order: 
- at flags: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_face_traverse ##### -->
-<para>
-
-</para>
-
- at domain: 
- at c: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_combine_traverse ##### -->
-<para>
-
-</para>
-
- at domain1: 
- at domain2: 
- at inside: 
- at idata: 
- at outside: 
- at odata: 
-
-
-<!-- ##### FUNCTION gfs_domain_traverse_cut ##### -->
-<para>
-
-</para>
-
- at domain: 
- at s: 
- at order: 
- at flags: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_locate ##### -->
-<para>
-
-</para>
-
- at domain: 
- at target: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_bc ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_domain_copy_bc ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at v: 
- at v1: 
-
-
-<!-- ##### FUNCTION gfs_domain_homogeneous_bc ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at ov: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_domain_face_bc ##### -->
-<para>
-
-</para>
-
- at domain: 
- at c: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_domain_surface_bc ##### -->
-<para>
-
-</para>
-
- at domain: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_domain_match ##### -->
-<para>
-
-</para>
-
- at domain: 
-
-
-<!-- ##### FUNCTION gfs_domain_depth ##### -->
-<para>
-
-</para>
-
- at domain: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_stats_variable ##### -->
-<para>
-
-</para>
-
- at domain: 
- at v: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_norm_variable ##### -->
-<para>
-
-</para>
-
- at domain: 
- at v: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_norm_velocity ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_stats_balance ##### -->
-<para>
-
-</para>
-
- at domain: 
- at size: 
- at boundary: 
- at mpiwait: 
-
-
-<!-- ##### FUNCTION gfs_domain_stats_solid ##### -->
-<para>
-
-</para>
-
- at domain: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_solid_force ##### -->
-<para>
-
-</para>
-
- at domain: 
- at pf: 
- at vf: 
- at pm: 
- at vm: 
-
-
-<!-- ##### FUNCTION gfs_domain_init_fraction ##### -->
-<para>
-
-</para>
-
- at domain: 
- at s: 
- at c: 
-
-
-<!-- ##### FUNCTION gfs_domain_read ##### -->
-<para>
-
-</para>
-
- at fp: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_split ##### -->
-<para>
-
-</para>
-
- at domain: 
- at one_box_per_pe: 
-
-
-<!-- ##### FUNCTION gfs_domain_remove_droplets ##### -->
-<para>
-
-</para>
-
- at domain: 
- at c: 
- at min: 
-
-
-<!-- ##### FUNCTION gfs_domain_remove_ponds ##### -->
-<para>
-
-</para>
-
- at domain: 
- at min: 
- at cleanup: 
- at data: 
-
-
-<!-- ##### FUNCTION gfs_domain_remove_specks ##### -->
-<para>
-
-</para>
-
- at domain: 
-
-
-<!-- ##### FUNCTION gfs_domain_advect_point ##### -->
-<para>
-
-</para>
-
- at domain: 
- at p: 
- at dt: 
-
-
-<!-- ##### FUNCTION gfs_domain_cfl ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_size ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_domain_timer_start ##### -->
-<para>
-
-</para>
-
- at domain: 
- at name: 
-
-
-<!-- ##### FUNCTION gfs_domain_timer_stop ##### -->
-<para>
-
-</para>
-
- at domain: 
- at name: 
-
-
diff --git a/doc/tmpl/event.sgml b/doc/tmpl/event.sgml
deleted file mode 100644
index 177cdd2..0000000
--- a/doc/tmpl/event.sgml
+++ /dev/null
@@ -1,158 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Generic event
-
-<!-- ##### SECTION Short_Description ##### -->
-Any action to be performed at a given time
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-Events are used to control any action which needs to be performed at a
-given time during a simulation. This includes one off actions as well
-as periodically repeated actions.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-#GfsEvent { start = 0.1 istart = 10 ( step = 1.2 | istep = 10 ) end = 0.4 iend = 123 }
-</programlisting>
-</informalexample>
-with
-<informaltable pgwide="1" frame="none" role="struct">
-<tgroup cols="2">
-<colspec colwidth="2*">
-<colspec colwidth="8*">
-<tbody>
-
-<row>
-<entry><structfield>start</structfield></entry>
-<entry>Physical starting time (default is zero). The <structfield>end</structfield> keyword can be used to indicate the end of the simulation.</entry>
-</row>
-
-<row>
-<entry><structfield>istart</structfield></entry>
-<entry>Time step starting time (default is zero).</entry>
-</row>
-
-<row>
-<entry><structfield>step</structfield></entry>
-<entry>Repeat every step physical time units (default is infinity).</entry>
-</row>
-
-<row>
-<entry><structfield>istep</structfield></entry>
-<entry>Repeat every istep time steps (default is infinity).</entry>
-</row>
-
-<row>
-<entry><structfield>end</structfield></entry>
-<entry>Stop at or before this physical time (default is infinity).</entry>
-</row>
-
-<row>
-<entry><structfield>iend</structfield></entry>
-<entry>Stop at or before this number of time steps (default is infinity).</entry>
-</row>
-
-</tbody></tgroup></informaltable>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_EVENT_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_EVENT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_EVENT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsEventClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
- at event: 
- at post_event: 
- at event_half: 
-
-<!-- ##### STRUCT GfsEvent ##### -->
-<para>
-
-</para>
-
- at parent: 
- at t: 
- at start: 
- at end: 
- at step: 
- at i: 
- at istart: 
- at iend: 
- at istep: 
- at n: 
- at end_event: 
- at realised: 
-
-<!-- ##### FUNCTION gfs_event_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_event_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_event_set ##### -->
-<para>
-
-</para>
-
- at e: 
- at start: 
- at end: 
- at step: 
- at istart: 
- at iend: 
- at istep: 
-
-
-<!-- ##### MACRO gfs_event_is_repetitive ##### -->
-<para>
-
-</para>
-
- at e: 
-
-
diff --git a/doc/tmpl/event_script.sgml b/doc/tmpl/event_script.sgml
deleted file mode 100644
index a98d5ed..0000000
--- a/doc/tmpl/event_script.sgml
+++ /dev/null
@@ -1,92 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Script event
-
-<!-- ##### SECTION Short_Description ##### -->
-Executing a shell-script at given times
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsEventScript can be used to execute a shell-script at given intervals.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsEvent ] {
-  COMMANDS
-}
-</programlisting>
-</informalexample>
-where COMMANDS is the script to be executed with /bin/sh.
-</para>
-<para>
-Several shell variables are set:
-<informaltable pgwide="1" frame="none" role="struct">
-<tgroup cols="2">
-<colspec colwidth="2*">
-<colspec colwidth="8*">
-<tbody>
-
-<row>
-<entry>GfsTime</entry>
-<entry>the physical time</entry>
-</row>
-
-<row>
-<entry>GfsIter</entry>
-<entry>the iteration number</entry>
-</row>
-
-<row>
-<entry>GfsPid</entry>
-<entry>the processor number</entry>
-</row>
-
-<row>
-<entry>GFS_STOP</entry>
-<entry>if the exit status of the shell script is GFS_STOP the simulation is terminated</entry>
-</row>
-
-</tbody></tgroup></informaltable>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_EVENT_SCRIPT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_EVENT_SCRIPT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsEventScript ##### -->
-<para>
-
-</para>
-
- at parent: 
- at script: 
-
-<!-- ##### FUNCTION gfs_event_script_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/event_stop.sgml b/doc/tmpl/event_stop.sgml
deleted file mode 100644
index 1367fbe..0000000
--- a/doc/tmpl/event_stop.sgml
+++ /dev/null
@@ -1,64 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Stop event
-
-<!-- ##### SECTION Short_Description ##### -->
-Stopping a simulation when a stationary solution is reached
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsEventStop will stop the simulation whenever the maximum difference between the current field and the previous field of the given variable is smaller than the specified threshold.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsEvent ] NAME MIN
-</programlisting>
-</informalexample>
-where NAME is the name of a variable and MIN is the threshold.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_EVENT_STOP ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_EVENT_STOP ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsEventStop ##### -->
-<para>
-
-</para>
-
- at parent: 
- at v: 
- at oldv: 
- at diff: 
- at last: 
- at max: 
-
-<!-- ##### FUNCTION gfs_event_stop_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/event_sum.sgml b/doc/tmpl/event_sum.sgml
deleted file mode 100644
index 0acb503..0000000
--- a/doc/tmpl/event_sum.sgml
+++ /dev/null
@@ -1,64 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Sum events
-
-<!-- ##### SECTION Short_Description ##### -->
-Computing time-integrated fields
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsEventSum can be used to compute and store the sum over time of a variable.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsEvent ] V SV
-</programlisting>
-</informalexample>
-where V is an existing variable name and SV is a (possibly new) variable name where the sum will be stored.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_EVENT_SUM ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_EVENT_SUM ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsEventSum ##### -->
-<para>
-
-</para>
-
- at parent: 
- at v: 
- at sv: 
- at sum: 
- at last: 
- at dt: 
-
-<!-- ##### FUNCTION gfs_event_sum_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/fluid.sgml b/doc/tmpl/fluid.sgml
deleted file mode 100644
index d9b940a..0000000
--- a/doc/tmpl/fluid.sgml
+++ /dev/null
@@ -1,536 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Fluid cell
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_VARIABLE ##### -->
-<para>
-Evaluates to the value of variable @index in @cell.
-</para>
-
- at cell: a #FttCell.
- at index: a #GfsVariable.
-
-
-<!-- ##### MACRO GFS_STATE ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-
-<!-- ##### MACRO GFS_FACE_NORMAL_VELOCITY_RIGHT ##### -->
-<para>
-
-</para>
-
- at fa: 
-
-
-<!-- ##### MACRO GFS_FACE_NORMAL_VELOCITY_LEFT ##### -->
-<para>
-
-</para>
-
- at fa: 
-
-
-<!-- ##### MACRO GFS_FACE_NORMAL_VELOCITY ##### -->
-<para>
-
-</para>
-
- at fa: 
-
-
-<!-- ##### MACRO GFS_CELL_IS_BOUNDARY ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-
-<!-- ##### STRUCT GfsStateVector ##### -->
-<para>
-The fluid variables describing the state of the cell.
-</para>
-
- at f: 
- at solid: 
- at place_holder: 
-
-<!-- ##### STRUCT GfsFaceStateVector ##### -->
-<para>
-
-</para>
-
- at un: 
- at v: 
-
-<!-- ##### STRUCT GfsVariable ##### -->
-<para>
-The fluid variables associated with a fluid cell.
-</para>
-
- at i: 
- at component: 
- at name: 
- at description: 
- at centered: 
- at fine_coarse: 
- at coarse_fine: 
- at sources: 
- at surface_bc: 
- at domain: 
-
-<!-- ##### STRUCT GfsVariableClass ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### USER_FUNCTION GfsVariableFineCoarseFunc ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-
-<!-- ##### ENUM GfsFlags ##### -->
-<para>
-
-</para>
-
- at GFS_FLAG_USED: 
- at GFS_FLAG_BOUNDARY: 
- at GFS_FLAG_DIRICHLET: 
- at GFS_FLAG_GRADIENT_BOUNDARY: 
- at GFS_FLAG_USER: 
-
-<!-- ##### FUNCTION gfs_cell_init ##### -->
-<para>
-
-</para>
-
- at cell: 
- at domain: 
-
-
-<!-- ##### FUNCTION gfs_cell_reset ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_cell_cleanup ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-
-<!-- ##### FUNCTION gfs_cell_copy ##### -->
-<para>
-
-</para>
-
- at from: 
- at to: 
- at domain: 
-
-
-<!-- ##### FUNCTION gfs_cell_cm ##### -->
-<para>
-
-</para>
-
- at cell: 
- at cm: 
-
-
-<!-- ##### FUNCTION gfs_face_ca ##### -->
-<para>
-
-</para>
-
- at face: 
- at ca: 
-
-
-<!-- ##### FUNCTION gfs_variable_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at domain: 
- at name: 
- at description: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_variable_from_name ##### -->
-<para>
-
-</para>
-
- at i: 
- at name: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_variables_from_list ##### -->
-<para>
-
-</para>
-
- at i: 
- at list: 
- at error: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_stats_variable ##### -->
-<para>
-
-</para>
-
- at root: 
- at v: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_norm_variable ##### -->
-<para>
-
-</para>
-
- at root: 
- at v: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_get_from_below_intensive ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_get_from_below_extensive ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_cell_coarse_init ##### -->
-<para>
-
-</para>
-
- at cell: 
- at domain: 
-
-
-<!-- ##### FUNCTION gfs_cell_fine_init ##### -->
-<para>
-
-</para>
-
- at cell: 
- at domain: 
-
-
-<!-- ##### FUNCTION gfs_vector_norm ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_vector_norm2 ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_divergence ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_normal_divergence ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-
-<!-- ##### FUNCTION gfs_vorticity ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_face_interpolated_value ##### -->
-<para>
-
-</para>
-
- at face: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_interpolate ##### -->
-<para>
-
-</para>
-
- at cell: 
- at p: 
- at v: 
- at Returns: 
-
-
-<!-- ##### STRUCT GfsGradient ##### -->
-<para>
-Defines the (second-order accurate) gradient of a variable @v in a given direction as: @a*GFS_VARIABLE (cell, @v) + @b.
-</para>
-
- at a: 
- at b: 
-
-<!-- ##### FUNCTION gfs_face_gradient ##### -->
-<para>
-
-</para>
-
- at face: 
- at g: 
- at v: 
- at max_level: 
-
-
-<!-- ##### FUNCTION gfs_face_weighted_gradient ##### -->
-<para>
-
-</para>
-
- at face: 
- at g: 
- at v: 
- at max_level: 
-
-
-<!-- ##### FUNCTION gfs_face_gradient_flux ##### -->
-<para>
-
-</para>
-
- at face: 
- at g: 
- at v: 
- at max_level: 
-
-
-<!-- ##### FUNCTION gfs_face_gradient_flux_centered ##### -->
-<para>
-
-</para>
-
- at face: 
- at g: 
- at v: 
- at max_level: 
-
-
-<!-- ##### USER_FUNCTION GfsCenterGradient ##### -->
-<para>
-
-</para>
-
- at cell: 
- at c: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_center_gradient ##### -->
-<para>
-
-</para>
-
- at cell: 
- at c: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_center_van_leer_gradient ##### -->
-<para>
-
-</para>
-
- at cell: 
- at c: 
- at v: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_cell_dirichlet_gradient ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
- at max_level: 
- at v0: 
- at grad: 
-
-
-<!-- ##### FUNCTION gfs_cell_dirichlet_gradient_flux ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
- at max_level: 
- at v0: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_cell_dirichlet_value ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
- at max_level: 
- at Returns: 
-
-
-<!-- ##### STRUCT GfsInterpolator ##### -->
-<para>
-
-</para>
-
- at w: 
- at w: 
-
-<!-- ##### FUNCTION gfs_cell_corner_interpolator ##### -->
-<para>
-
-</para>
-
- at cell: 
- at d: 
- at max_level: 
- at centered: 
- at inter: 
-
-
-<!-- ##### FUNCTION gfs_cell_corner_value ##### -->
-<para>
-
-</para>
-
- at cell: 
- at d: 
- at v: 
- at max_level: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_cell_write ##### -->
-<para>
-
-</para>
-
- at cell: 
- at fp: 
- at variables: 
-
-
-<!-- ##### FUNCTION gfs_cell_write_binary ##### -->
-<para>
-
-</para>
-
- at cell: 
- at fp: 
- at variables: 
-
-
-<!-- ##### FUNCTION gfs_cell_read ##### -->
-<para>
-
-</para>
-
- at cell: 
- at fp: 
- at domain: 
-
-
-<!-- ##### FUNCTION gfs_cell_read_binary ##### -->
-<para>
-
-</para>
-
- at cell: 
- at fp: 
- at domain: 
-
-
diff --git a/doc/tmpl/ftt-basic.sgml b/doc/tmpl/ftt-basic.sgml
deleted file mode 100644
index d7ebf05..0000000
--- a/doc/tmpl/ftt-basic.sgml
+++ /dev/null
@@ -1,339 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Basic structure and properties
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### STRUCT FttCell ##### -->
-<para>
-
-</para>
-
- at flags: 
- at data: 
-
-<!-- ##### ENUM FttCellFlags ##### -->
-<para>
-
-</para>
-
- at FTT_FLAG_ID: 
- at FTT_FLAG_DESTROYED: 
- at FTT_FLAG_LEAF: 
- at FTT_FLAG_TRAVERSED: 
- at FTT_FLAG_USER: 
-
-<!-- ##### STRUCT FttVector ##### -->
-<para>
-
-</para>
-
- at x: 
- at y: 
- at z: 
-
-<!-- ##### MACRO FTT_CELL_IS_ROOT ##### -->
-<para>
-Evaluates to %TRUE if @c does not have any parent, %FALSE otherwise.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### MACRO FTT_CELL_IS_LEAF ##### -->
-<para>
-Evaluates to %TRUE if @c does not have any children, %FALSE otherwise.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### MACRO FTT_MAINTAINER ##### -->
-<para>
-
-</para>
-
-
-
-<!-- ##### FUNCTION ftt_cell_new ##### -->
-<para>
-
-</para>
-
- at init: 
- at data: 
- at Returns: 
-
-
-<!-- ##### USER_FUNCTION FttCellInitFunc ##### -->
-<para>
-This function is used to initialize extra user data associated with @cell. For example to allocate extra memory, initialize user-defined variables etc...
-</para>
-
- at cell: a #FttCell.
- at data: user-data passed to the function.
-
-
-<!-- ##### FUNCTION ftt_cell_copy ##### -->
-<para>
-
-</para>
-
- at root: 
- at copy: 
- at data: 
- at Returns: 
-
-
-<!-- ##### USER_FUNCTION FttCellCopyFunc ##### -->
-<para>
-
-</para>
-
- at from: 
- at to: 
- at data: 
-
-
-<!-- ##### FUNCTION ftt_cell_refine ##### -->
-<para>
-
-</para>
-
- at root: 
- at refine: 
- at refine_data: 
- at init: 
- at init_data: 
-
-
-<!-- ##### FUNCTION ftt_cell_refine_single ##### -->
-<para>
-
-</para>
-
- at cell: 
- at init: 
- at init_data: 
-
-
-<!-- ##### USER_FUNCTION FttCellRefineFunc ##### -->
-<para>
-This function is used to control the refinement process of a cell tree.
-</para>
-
- at cell: a #FttCell.
- at data: user-data passed to the function.
- at Returns: %TRUE if @cell must be refined, %FALSE otherwise.
-
-
-<!-- ##### FUNCTION ftt_refine_corner ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_refine_corners ##### -->
-<para>
-
-</para>
-
- at cell: 
- at init: 
- at data: 
-
-
-<!-- ##### USER_FUNCTION FttCellCoarsenFunc ##### -->
-<para>
-
-</para>
-
- at cell: 
- at data: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_coarsen ##### -->
-<para>
-
-</para>
-
- at root: 
- at coarsen: 
- at coarsen_data: 
- at cleanup: 
- at cleanup_data: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_flatten ##### -->
-<para>
-
-</para>
-
- at root: 
- at d: 
- at cleanup: 
- at data: 
-
-
-<!-- ##### FUNCTION ftt_cell_check ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_destroy ##### -->
-<para>
-
-</para>
-
- at cell: 
- at cleanup: 
- at data: 
-
-
-<!-- ##### FUNCTION ftt_cell_destroy_root ##### -->
-<para>
-
-</para>
-
- at root: 
- at children: 
- at cleanup: 
- at data: 
-
-
-<!-- ##### USER_FUNCTION FttCellCleanupFunc ##### -->
-<para>
-Performs any cleanup action needed for the user data associated with @cell prior to its destruction (example: freeing extra memory allocated at cell creation using a #FttCellInitFunc function).
-</para>
-
- at cell: a #FttCell about to be destroyed.
- at data: 
-
-
-<!-- ##### MACRO ftt_cell_level ##### -->
-<para>
-Evaluates to the level of @c.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### FUNCTION ftt_cell_set_level ##### -->
-<para>
-
-</para>
-
- at root: 
- at level: 
-
-
-<!-- ##### FUNCTION ftt_cell_pos ##### -->
-<para>
-
-</para>
-
- at cell: 
- at pos: 
-
-
-<!-- ##### FUNCTION ftt_cell_relative_pos ##### -->
-<para>
-
-</para>
-
- at cell: 
- at pos: 
-
-
-<!-- ##### FUNCTION ftt_cell_set_pos ##### -->
-<para>
-
-</para>
-
- at root: 
- at pos: 
-
-
-<!-- ##### FUNCTION ftt_corner_pos ##### -->
-<para>
-
-</para>
-
- at cell: 
- at d: 
- at pos: 
-
-
-<!-- ##### FUNCTION ftt_corner_relative_pos ##### -->
-<para>
-
-</para>
-
- at cell: 
- at d: 
- at pos: 
-
-
-<!-- ##### FUNCTION ftt_level_size ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_volume ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### MACRO ftt_cell_parent ##### -->
-<para>
-Evaluates to the parent of @c. %NULL is @c is a root cell.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### FUNCTION ftt_cell_depth ##### -->
-<para>
-
-</para>
-
- at root: 
- at Returns: 
-
-
-<!-- ##### MACRO ftt_vector_norm ##### -->
-<para>
-
-</para>
-
- at v: 
-
-
diff --git a/doc/tmpl/ftt-face.sgml b/doc/tmpl/ftt-face.sgml
deleted file mode 100644
index a2af8d2..0000000
--- a/doc/tmpl/ftt-face.sgml
+++ /dev/null
@@ -1,126 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Cell faces operations
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO FTT_FACE_DIRECT ##### -->
-<para>
-
-</para>
-
- at f: 
-
-
-<!-- ##### MACRO FTT_FACE_REVERSE ##### -->
-<para>
-
-</para>
-
- at dst: 
- at src: 
-
-
-<!-- ##### STRUCT FttCellFace ##### -->
-<para>
-
-</para>
-
- at cell: 
- at neighbor: 
- at d: 
-
-<!-- ##### FUNCTION ftt_cell_face ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_face_type ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### ENUM FttFaceType ##### -->
-<para>
-
-</para>
-
- at FTT_BOUNDARY: 
- at FTT_FINE_FINE: 
- at FTT_FINE_COARSE: 
-
-<!-- ##### FUNCTION ftt_face_pos ##### -->
-<para>
-
-</para>
-
- at face: 
- at pos: 
-
-
-<!-- ##### FUNCTION ftt_face_traverse ##### -->
-<para>
-
-</para>
-
- at root: 
- at c: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### USER_FUNCTION FttFaceTraverseFunc ##### -->
-<para>
-
-</para>
-
- at face: 
- at data: 
-
-
-<!-- ##### FUNCTION ftt_face_traverse_boundary ##### -->
-<para>
-
-</para>
-
- at root: 
- at d: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION ftt_face_draw ##### -->
-<para>
-
-</para>
-
- at face: 
- at fp: 
-
-
diff --git a/doc/tmpl/ftt-other.sgml b/doc/tmpl/ftt-other.sgml
deleted file mode 100644
index 8ee04f5..0000000
--- a/doc/tmpl/ftt-other.sgml
+++ /dev/null
@@ -1,229 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Other operations
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION ftt_direction_from_name ##### -->
-<para>
-
-</para>
-
- at name: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_locate ##### -->
-<para>
-
-</para>
-
- at root: 
- at target: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### ENUM FttTraverseType ##### -->
-<para>
-Controls the sequence in which the traversal is performed.
-</para>
-
- at FTT_PRE_ORDER: Visits the parent cell and then its children.
- at FTT_POST_ORDER: Visits each children and then their parent.
-
-<!-- ##### ENUM FttTraverseFlags ##### -->
-<para>
-Controls the type of cell to visit.
-</para>
-
- at FTT_TRAVERSE_LEAFS: Visits only the cells which are leaves of the cell tree.
- at FTT_TRAVERSE_NON_LEAFS: Visits only the cells which are not leaves of the cell tree.
- at FTT_TRAVERSE_LEVEL: If %FTT_TRAVERSE_LEAFS is also set, visit the leafs of the cell tree and all the cells at level @max_depth. If %FTT_TRAVERSE_NON_LEAFS is also set, visits only the non-leaf cells at level @max_depth. Otherwise, visits all the cells at level @max_depth.
- at FTT_TRAVERSE_BOUNDARY_FACES: 
- at FTT_TRAVERSE_ALL: Visits all the cells of the cell tree.
-
-<!-- ##### USER_FUNCTION FttCellTraverseFunc ##### -->
-<para>
-This functions is called by ftt_cell_traverse() for each of the visited cells.
-</para>
-
- at cell: a #FttCell.
- at data: user-data passed to the function.
-
-
-<!-- ##### FUNCTION ftt_cell_traverse ##### -->
-<para>
-
-</para>
-
- at root: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION ftt_cell_traverse_boundary ##### -->
-<para>
-
-</para>
-
- at root: 
- at d: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### FUNCTION ftt_cell_traverse_box ##### -->
-<para>
-
-</para>
-
- at root: 
- at box: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### STRUCT FttCellTraverse ##### -->
-<para>
-
-</para>
-
- at cells: 
- at current: 
-
-<!-- ##### FUNCTION ftt_cell_traverse_new ##### -->
-<para>
-
-</para>
-
- at root: 
- at order: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_traverse_next ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_traverse_rewind ##### -->
-<para>
-
-</para>
-
- at t: 
-
-
-<!-- ##### FUNCTION ftt_cell_traverse_destroy ##### -->
-<para>
-
-</para>
-
- at t: 
-
-
-<!-- ##### FUNCTION ftt_cell_write ##### -->
-<para>
-
-</para>
-
- at root: 
- at max_depth: 
- at fp: 
- at write: 
- at data: 
-
-
-<!-- ##### FUNCTION ftt_cell_write_binary ##### -->
-<para>
-
-</para>
-
- at root: 
- at max_depth: 
- at fp: 
- at write: 
- at data: 
-
-
-<!-- ##### USER_FUNCTION FttCellWriteFunc ##### -->
-<para>
-Writes in @fp any user data associated with @cell. It is important that this function does not output any newline caracter ('\n').
-</para>
-
- at cell: a #FttCell.
- at fp: a file pointer.
- at data: 
-
-
-<!-- ##### FUNCTION ftt_cell_read ##### -->
-<para>
-
-</para>
-
- at fp: 
- at read: 
- at data: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_read_binary ##### -->
-<para>
-
-</para>
-
- at fp: 
- at read: 
- at data: 
- at Returns: 
-
-
-<!-- ##### USER_FUNCTION FttCellReadFunc ##### -->
-<para>
-Reads in any user data associated with @cell from file @fp and initializes the corresponding fields.
-</para>
-
- at cell: a #FttCell.
- at fp: a file pointer.
- at data: 
-<!-- # Unused Parameters # -->
- at Returns: the last caracter read from @fp.
-
-
-<!-- ##### FUNCTION ftt_cell_draw ##### -->
-<para>
-
-</para>
-
- at cell: 
- at fp: 
-
-
diff --git a/doc/tmpl/ftt-topology.sgml b/doc/tmpl/ftt-topology.sgml
deleted file mode 100644
index 67e79aa..0000000
--- a/doc/tmpl/ftt-topology.sgml
+++ /dev/null
@@ -1,178 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Topological relationships
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO FTT_CELLS ##### -->
-<para>
-Evaluates to the maximum number of children of a #FttCell (4 in 2D, 8 in 3D).
-</para>
-
-
-
-<!-- ##### MACRO FTT_CELL_ID ##### -->
-<para>
-Evaluates to the child index of @c.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### MACRO FTT_OPPOSITE_DIRECTION ##### -->
-<para>
-
-</para>
-
- at d: 
-
-
-<!-- ##### MACRO FTT_ORTHOGONAL_COMPONENT ##### -->
-<para>
-
-</para>
-
- at c: 
-
-
-<!-- ##### FUNCTION ftt_cell_children ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-
-<!-- ##### STRUCT FttCellChildren ##### -->
-<para>
-
-</para>
-
- at c: 
-
-<!-- ##### ENUM FttDirection ##### -->
-<para>
-
-</para>
-
- at FTT_RIGHT: 
- at FTT_LEFT: 
- at FTT_TOP: 
- at FTT_BOTTOM: 
- at FTT_BACK: 
-
-<!-- ##### ENUM FttComponent ##### -->
-<para>
-
-</para>
-
- at FTT_X: 
- at FTT_Y: 
- at FTT_XY: 
-
-<!-- ##### FUNCTION ftt_cell_children_direction ##### -->
-<para>
-
-</para>
-
- at cell: 
- at d: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_child_corner ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_neighbors ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-
-<!-- ##### FUNCTION ftt_cell_neighbors_not_cached ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-
-<!-- ##### STRUCT FttCellNeighbors ##### -->
-<para>
-
-</para>
-
- at c: 
-
-<!-- ##### FUNCTION ftt_cell_neighbor ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_neighbor_not_cached ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_set_neighbor ##### -->
-<para>
-
-</para>
-
- at root: 
- at neighbor: 
- at d: 
- at init: 
- at init_data: 
-
-
-<!-- ##### FUNCTION ftt_cell_set_neighbor_match ##### -->
-<para>
-
-</para>
-
- at root: 
- at neighbor: 
- at d: 
- at init: 
- at init_data: 
-
-
-<!-- ##### FUNCTION ftt_cell_neighbor_is_brother ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
diff --git a/doc/tmpl/ftt.sgml b/doc/tmpl/ftt.sgml
deleted file mode 100644
index 1404648..0000000
--- a/doc/tmpl/ftt.sgml
+++ /dev/null
@@ -1,360 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Fully threaded tree
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### ENUM FttCellFlags ##### -->
-<para>
-
-</para>
-
- at FTT_FLAG_ID: 
- at FTT_FLAG_DESTROYED: 
- at FTT_FLAG_LEAF: 
-
-<!-- ##### STRUCT FttCell ##### -->
-<para>
-
-</para>
-
- at flags: 
- at s: 
-
-<!-- ##### MACRO FTT_CELLS ##### -->
-<para>
-Evaluates to the maximum number of children of a #FttCell (4 in 2D, 8 in 3D).
-</para>
-
-
-
-<!-- ##### MACRO FTT_NEIGHBORS ##### -->
-<para>
-Evaluates to the maximum number of neighbors of a #FttCell (4 in 2D, 6 in 3D).
-</para>
-
-
-
-<!-- ##### MACRO FTT_CELL_IS_ROOT ##### -->
-<para>
-Evaluates to %TRUE if @c does not have any parent, %FALSE otherwise.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### MACRO FTT_CELL_IS_LEAF ##### -->
-<para>
-Evaluates to %TRUE if @c does not have any children, %FALSE otherwise.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### MACRO FTT_CELL_ID ##### -->
-<para>
-Evaluates to the child index of @c.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### MACRO FTT_OPPOSITE_INDEX ##### -->
-<para>
-Evaluates to the index of the neighboring direction opposite to @i.
-</para>
-
- at i: a neighboring direction index.
-
-
-<!-- ##### FUNCTION ftt_cell_new ##### -->
-<para>
-
-</para>
-
- at init: 
- at data: 
- at Returns: 
-
-
-<!-- ##### USER_FUNCTION FttCellInitFunc ##### -->
-<para>
-This function is used to initialize extra user data associated with @cell. For example to allocate extra memory, initialize user-defined variables etc...
-</para>
-
- at cell: a #FttCell.
- at data: user-data passed to the function.
-
-
-<!-- ##### FUNCTION ftt_cell_check ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_refine ##### -->
-<para>
-
-</para>
-
- at root: 
- at refine: 
- at refine_data: 
- at init: 
- at init_data: 
-
-
-<!-- ##### USER_FUNCTION FttCellRefineFunc ##### -->
-<para>
-This function is used to control the refinement process of a cell tree.
-</para>
-
- at cell: a #FttCell.
- at data: user-data passed to the function.
- at Returns: %TRUE if @cell must be refined, %FALSE otherwise.
-
-
-<!-- ##### FUNCTION ftt_refine_corner ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_locate ##### -->
-<para>
-
-</para>
-
- at root: 
- at target: 
- at max_depth: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_traverse ##### -->
-<para>
-
-</para>
-
- at root: 
- at order: 
- at flags: 
- at max_depth: 
- at func: 
- at data: 
-
-
-<!-- ##### ENUM FttTraverseType ##### -->
-<para>
-Controls the sequence in which the traversal is performed.
-</para>
-
- at FTT_PRE_ORDER: Visits the parent cell and then its children.
- at FTT_POST_ORDER: Visits each children and then their parent.
-
-<!-- ##### ENUM FttTraverseFlags ##### -->
-<para>
-Controls the type of cell to visit.
-</para>
-
- at FTT_TRAVERSE_LEAFS: Visits only the cells which are leaves of the cell tree.
- at FTT_TRAVERSE_NON_LEAFS: Visits only the cells which are not leaves of the cell tree.
- at FTT_TRAVERSE_LEVEL: If %FTT_TRAVERSE_LEAFS is also set, visit the leafs of the cell tree and all the cells at level @max_depth. If %FTT_TRAVERSE_NON_LEAFS is also set, visits only the non-leaf cells at level @max_depth. Otherwise, visits all the cells at level @max_depth.
- at FTT_TRAVERSE_ALL: Visits all the cells of the cell tree.
-
-<!-- ##### USER_FUNCTION FttCellTraverseFunc ##### -->
-<para>
-This functions is called by ftt_cell_traverse() for each of the visited cells.
-</para>
-
- at cell: a #FttCell.
- at data: user-data passed to the function.
-
-
-<!-- ##### MACRO ftt_cell_level ##### -->
-<para>
-Evaluates to the level of @c.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### FUNCTION ftt_cell_depth ##### -->
-<para>
-
-</para>
-
- at root: 
- at Returns: 
-
-
-<!-- ##### MACRO ftt_cell_parent ##### -->
-<para>
-Evaluates to the parent of @c. %NULL is @c is a root cell.
-</para>
-
- at c: a #FttCell.
-
-
-<!-- ##### FUNCTION ftt_cell_pos ##### -->
-<para>
-
-</para>
-
- at cell: 
- at pos: 
-
-
-<!-- ##### FUNCTION ftt_level_size ##### -->
-<para>
-
-</para>
-
- at level: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_size ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_children ##### -->
-<para>
-
-</para>
-
- at cell: 
- at children: 
-
-
-<!-- ##### STRUCT FttCellChildren ##### -->
-<para>
-
-</para>
-
- at c: 
-
-<!-- ##### FUNCTION ftt_cell_children_direction ##### -->
-<para>
-
-</para>
-
- at cell: 
- at d: 
- at children: 
-
-
-<!-- ##### FUNCTION ftt_cell_neighbors ##### -->
-<para>
-
-</para>
-
- at cell: 
- at neighbors: 
-
-
-<!-- ##### STRUCT FttCellNeighbors ##### -->
-<para>
-
-</para>
-
- at c: 
-
-<!-- ##### FUNCTION ftt_cell_neighbor ##### -->
-<para>
-
-</para>
-
- at cell: 
- at d: 
- at Returns: 
-
-
-<!-- ##### FUNCTION ftt_cell_write ##### -->
-<para>
-
-</para>
-
- at root: 
- at max_depth: 
- at fp: 
- at write: 
-
-
-<!-- ##### USER_FUNCTION FttCellWriteFunc ##### -->
-<para>
-Writes in @fp any user data associated with @cell. It is important that this function does not output any newline caracter ('\n').
-</para>
-
- at cell: a #FttCell.
- at fp: a file pointer.
-
-
-<!-- ##### FUNCTION ftt_cell_read ##### -->
-<para>
-
-</para>
-
- at fp: 
- at read: 
- at line: 
- at Returns: 
-
-
-<!-- ##### USER_FUNCTION FttCellReadFunc ##### -->
-<para>
-Reads in any user data associated with @cell from file @fp and initializes the corresponding fields.
-</para>
-
- at cell: a #FttCell.
- at fp: a file pointer.
- at Returns: the last caracter read from @fp.
-
-
-<!-- ##### FUNCTION ftt_cell_draw ##### -->
-<para>
-
-</para>
-
- at cell: 
- at fp: 
-
-
-<!-- ##### FUNCTION ftt_cell_destroy ##### -->
-<para>
-
-</para>
-
- at cell: 
- at cleanup: 
-
-
-<!-- ##### USER_FUNCTION FttCellCleanupFunc ##### -->
-<para>
-Performs any cleanup action needed for the user data associated with @cell prior to its destruction (example: freeing extra memory allocated at cell creation using a #FttCellInitFunc function).
-</para>
-
- at cell: a #FttCell about to be destroyed.
-
-
diff --git a/doc/tmpl/function.sgml b/doc/tmpl/function.sgml
deleted file mode 100644
index 244a8e6..0000000
--- a/doc/tmpl/function.sgml
+++ /dev/null
@@ -1,175 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Functions
-
-<!-- ##### SECTION Short_Description ##### -->
-Values varying in space and time
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-Functions can be used in most objects which require a numerical parameter. A function can be either a constant or a piece of C code taking coordinates (x,y,z), time t or any of the domain variables as arguments and returning a floating-point value.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
--1.78e-3
-</programlisting>
-</informalexample>
-or a C function
-<informalexample>
-<programlisting>
-{
-  double a = sin (x + y);
-  double b = cos (x - z);
-  double c = sin (M_PI*t);
-  return a + b + c;
-}
-</programlisting>
-</informalexample>
-or a C expression
-<informalexample>
-<programlisting>
-40.*(P - 1.)
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_FUNCTION_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_FUNCTION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_FUNCTION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsFunctionClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### STRUCT GfsFunction ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### FUNCTION gfs_function_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_function_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at val: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_function_face_value ##### -->
-<para>
-
-</para>
-
- at f: 
- at fa: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_function_value ##### -->
-<para>
-
-</para>
-
- at f: 
- at cell: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_function_read ##### -->
-<para>
-
-</para>
-
- at f: 
- at domain: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_function_write ##### -->
-<para>
-
-</para>
-
- at f: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_function_description ##### -->
-<para>
-
-</para>
-
- at f: 
- at truncate: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_function_get_constant_value ##### -->
-<para>
-
-</para>
-
- at f: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_function_set_constant_value ##### -->
-<para>
-
-</para>
-
- at f: 
- at val: 
-
-
-<!-- ##### FUNCTION gfs_function_get_variable ##### -->
-<para>
-
-</para>
-
- at f: 
- at Returns: 
-
-
diff --git a/doc/tmpl/gedge.sgml b/doc/tmpl/gedge.sgml
deleted file mode 100644
index a617b2e..0000000
--- a/doc/tmpl/gedge.sgml
+++ /dev/null
@@ -1,86 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Domain graph edge
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_GEDGE_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_GEDGE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_GEDGE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsGEdgeClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### STRUCT GfsGEdge ##### -->
-<para>
-
-</para>
-
- at parent: 
- at d: 
-
-<!-- ##### FUNCTION gfs_gedge_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_gedge_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at b1: 
- at b2: 
- at d: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_gedge_link_boxes ##### -->
-<para>
-
-</para>
-
- at edge: 
-
-
diff --git a/doc/tmpl/generic_init.sgml b/doc/tmpl/generic_init.sgml
deleted file mode 100644
index 865bda0..0000000
--- a/doc/tmpl/generic_init.sgml
+++ /dev/null
@@ -1,55 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Generic initialisation event
-
-<!-- ##### SECTION Short_Description ##### -->
-Abstract class for initial conditions
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsGenericInit events happen in the order in which they appear in the parameter file and before any other event.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsEvent ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_IS_GENERIC_INIT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### TYPEDEF GfsGenericInitClass ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### TYPEDEF GfsGenericInit ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### FUNCTION gfs_generic_init_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/gfs-unused.sgml b/doc/tmpl/gfs-unused.sgml
deleted file mode 100644
index b22e6e0..0000000
--- a/doc/tmpl/gfs-unused.sgml
+++ /dev/null
@@ -1,937 +0,0 @@
-<!-- ##### SECTION ./tmpl/ftt.sgml:Long_Description ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/ftt.sgml:See_Also ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/ftt.sgml:Short_Description ##### -->
-
-
-
-<!-- ##### SECTION ./tmpl/ftt.sgml:Title ##### -->
-Fully threaded tree
-
-
-<!-- ##### SECTION ./tmpl/inflow.sgml:Long_Description ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/inflow.sgml:See_Also ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/inflow.sgml:Short_Description ##### -->
-
-
-
-<!-- ##### SECTION ./tmpl/inflow.sgml:Title ##### -->
-Inflow boundary
-
-
-<!-- ##### SECTION ./tmpl/inflow_constant_tracer.sgml:Long_Description ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/inflow_constant_tracer.sgml:See_Also ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/inflow_constant_tracer.sgml:Short_Description ##### -->
-
-
-
-<!-- ##### SECTION ./tmpl/inflow_constant_tracer.sgml:Title ##### -->
-Constant inflow tracer boundary
-
-
-<!-- ##### SECTION ./tmpl/init_constant.sgml:Long_Description ##### -->
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsInit ] { U = 1.2 V = -0.1 W = -5.4 }
-</programlisting>
-</informalexample>
-with
-<informaltable pgwide="1" frame="none" role="struct">
-<tgroup cols="2">
-<colspec colwidth="2*">
-<colspec colwidth="8*">
-<tbody>
-
-<row>
-<entry><structfield>U</structfield></entry>
-<entry>X component of the velocity vector (default is zero).</entry>
-</row>
-
-<row>
-<entry><structfield>V</structfield></entry>
-<entry>Y component of the velocity vector (default is zero).</entry>
-</row>
-
-<row>
-<entry><structfield>W</structfield></entry>
-<entry>Z component of the velocity vector (default is zero).</entry>
-</row>
-
-</tbody></tgroup></informaltable>
-</para>
-
-
-<!-- ##### SECTION ./tmpl/init_constant.sgml:See_Also ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/init_constant.sgml:Short_Description ##### -->
-Initialising a uniform initial velocity field
-
-
-<!-- ##### SECTION ./tmpl/init_constant.sgml:Title ##### -->
-Constant velocity initialisation
-
-
-<!-- ##### SECTION ./tmpl/outflow_source.sgml:Long_Description ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/outflow_source.sgml:See_Also ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/outflow_source.sgml:Short_Description ##### -->
-
-
-
-<!-- ##### SECTION ./tmpl/outflow_source.sgml:Title ##### -->
-Outflow boundary with source
-
-
-<!-- ##### SECTION ./tmpl/solid.sgml.sgml:Long_Description ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/solid.sgml.sgml:See_Also ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/solid.sgml.sgml:Short_Description ##### -->
-
-
-
-<!-- ##### SECTION ./tmpl/solid.sgml.sgml:Title ##### -->
-solid.sgml
-
-
-<!-- ##### SECTION ./tmpl/source_constant.sgml:Long_Description ##### -->
-<para>
-GfsSourceConstant adds a constant source term to a given variable.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsSource ] VALUE
-</programlisting>
-</informalexample>
-where VALUE is the strength of the source.
-</para>
-<para>
-To add the acceleration of gravity in the vertical direction in a 2D simulation one would use:
-<informalexample>
-<programlisting>
-GfsSourceConstant {} V -9.81
-</programlisting>
-</informalexample>
-</para>
-
-
-<!-- ##### SECTION ./tmpl/source_constant.sgml:See_Also ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### SECTION ./tmpl/source_constant.sgml:Short_Description ##### -->
-Like gravity for velocity variables
-
-
-<!-- ##### SECTION ./tmpl/source_constant.sgml:Title ##### -->
-Constant source term
-
-
-<!-- ##### MACRO FTT_NEIGHBORS ##### -->
-<para>
-Evaluates to the maximum number of neighbors of a #FttCell (4 in 2D, 6 in 3D).
-</para>
-
-
-<!-- ##### MACRO FTT_OPPOSITE_INDEX ##### -->
-<para>
-Evaluates to the index of the neighboring direction opposite to @i.
-</para>
-
- at i: a neighboring direction index.
-
-<!-- ##### MACRO GFS_BOUNDARY_INFLOW_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-<!-- ##### MACRO GFS_BOUNDARY_INFLOW_CONSTANT_TRACER ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_EVENT_HARMONIC ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_GRADIENT ##### -->
-<para>
-
-</para>
-
- at component: 
-
-<!-- ##### MACRO GFS_GRADIENT_COMPONENT ##### -->
-<para>
-
-</para>
-
- at index: 
- at variable: 
-
-<!-- ##### MACRO GFS_GRADIENT_INDEX ##### -->
-<para>
-
-</para>
-
- at component: 
-
-<!-- ##### MACRO GFS_INIT_FLOW_CONSTANT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_IS_BOUNDARY_INFLOW ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_IS_BOUNDARY_OUTFLOW_SOURCE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_IS_EVENT_HARMONIC ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_IS_INIT_FLOW_CONSTANT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_IS_SMALL ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-<!-- ##### MACRO GFS_IS_SOURCE_CONSTANT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_REFINE_DISTANCE_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-<!-- ##### MACRO GFS_REFINE_SOLID ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_REFINE_SOLID_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-<!-- ##### MACRO GFS_SOURCE_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-<!-- ##### MACRO GFS_SOURCE_CONSTANT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-<!-- ##### MACRO GFS_VELOCITY ##### -->
-<para>
-
-</para>
-
- at component: 
-
-<!-- ##### MACRO GFS_VELOCITY_COMPONENT ##### -->
-<para>
-
-</para>
-
- at index: 
- at variable: 
-
-<!-- ##### MACRO GFS_VELOCITY_INDEX ##### -->
-<para>
-
-</para>
-
- at component: 
-
-<!-- ##### STRUCT GfsBoundaryInflowClass ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### STRUCT GfsBoundaryInflowConstantTracer ##### -->
-<para>
-
-</para>
-
- at width: 
-
-<!-- ##### STRUCT GfsBoundaryOutflowSource ##### -->
-<para>
-
-</para>
-
- at intensity: 
-
-<!-- ##### ENUM GfsBoundaryVariable ##### -->
-<para>
-
-</para>
-
- at GFS_BOUNDARY_FACE_VARIABLE: 
- at GFS_BOUNDARY_MATCH_VARIABLE: 
- at GFS_BOUNDARY_VARIABLE_NUMBER: 
-
-<!-- ##### STRUCT GfsEventHarmonic ##### -->
-<para>
-
-</para>
-
- at parent: 
- at omega: 
- at v: 
- at z: 
- at A: 
- at B: 
- at vsin: 
- at vcos: 
- at M: 
- at iM: 
- at Mn: 
- at x: 
- at a: 
- at Aname: 
- at Bname: 
- at invertible: 
-
-<!-- ##### STRUCT GfsInitFlowConstant ##### -->
-<para>
-
-</para>
-
- at u: 
-
-<!-- ##### STRUCT GfsOutputScalarHistogram ##### -->
-<para>
-
-</para>
-
- at x: 
- at y: 
- at W: 
- at w: 
- at last: 
- at dt: 
- at n: 
-
-<!-- ##### ENUM GfsPermanentVariable ##### -->
-<para>
-
-</para>
-
- at GFS_DIV: 
- at GFS_DP: 
- at GFS_RES: 
- at GFS_GX: 
- at GFS_GY: 
- at GFS_U: 
- at GFS_V: 
-
-<!-- ##### STRUCT GfsProjectionParams ##### -->
-<para>
-
-</para>
-
- at tolerance: 
- at nrelax: 
- at minlevel: 
- at nitermax: 
- at niter: 
- at residual_before: 
- at residual: 
-
-<!-- ##### STRUCT GfsRefineDistanceClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### STRUCT GfsRefineSolid ##### -->
-<para>
-
-</para>
-
- at parent: 
-
-<!-- ##### STRUCT GfsRefineSolidClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### STRUCT GfsSourceClass ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### STRUCT GfsSourceConstant ##### -->
-<para>
-
-</para>
-
- at intensity: 
-
-<!-- ##### USER_FUNCTION GfsVariableDerivedFunc ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-<!-- ##### FUNCTION ftt_cell_size ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_boundary_inflow_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-<!-- ##### FUNCTION gfs_boundary_inflow_constant_tracer_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-<!-- ##### FUNCTION gfs_boundary_match ##### -->
-<para>
-
-</para>
-
- at boundary: 
-
-<!-- ##### FUNCTION gfs_boundary_outflow_source_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-<!-- ##### FUNCTION gfs_cell_init_fraction ##### -->
-<para>
-
-</para>
-
- at root: 
- at s: 
- at stree: 
- at is_open: 
- at c: 
-
-<!-- ##### FUNCTION gfs_cell_init_solid_fractions ##### -->
-<para>
-
-</para>
-
- at root: 
- at s: 
- at stree: 
- at is_open: 
- at destroy_solid: 
- at cleanup: 
- at data: 
- at Param2: 
-
-<!-- ##### FUNCTION gfs_cell_laplacian ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_centered_velocity_advection ##### -->
-<para>
-
-</para>
-
- at domain: 
- at par: 
- at flux: 
-
-<!-- ##### FUNCTION gfs_cleanup ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-<!-- ##### FUNCTION gfs_copy ##### -->
-<para>
-
-</para>
-
- at from: 
- at to: 
-
-<!-- ##### FUNCTION gfs_correct_centered_velocity ##### -->
-<para>
-
-</para>
-
- at face: 
- at par: 
-
-<!-- ##### FUNCTION gfs_domain_adapt ##### -->
-<para>
-
-</para>
-
- at domain: 
- at minlevel: 
- at maxlevel: 
- at refine: 
- at refine_data: 
-
-<!-- ##### FUNCTION gfs_domain_add_new_variable ##### -->
-<para>
-
-</para>
-
- at domain: 
- at v: 
-
-<!-- ##### FUNCTION gfs_domain_center_bc ##### -->
-<para>
-
-</para>
-
- at domain: 
- at v: 
-
-<!-- ##### FUNCTION gfs_domain_pressure_bc ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at p: 
-
-<!-- ##### FUNCTION gfs_domain_remove_islands ##### -->
-<para>
-
-</para>
-
- at domain: 
- at min: 
- at cleanup: 
- at data: 
-
-<!-- ##### FUNCTION gfs_domain_replace_variable ##### -->
-<para>
-
-</para>
-
- at domain: 
- at v: 
- at with: 
-
-<!-- ##### FUNCTION gfs_domain_traversed_merged ##### -->
-<para>
-
-</para>
-
- at domain: 
- at func: 
- at data: 
-
-<!-- ##### FUNCTION gfs_domain_variable_sources ##### -->
-<para>
-
-</para>
-
- at domain: 
- at v: 
- at sv: 
- at dt: 
-
-<!-- ##### FUNCTION gfs_draw_boundaries ##### -->
-<para>
-
-</para>
-
- at root: 
- at fp: 
-
-<!-- ##### FUNCTION gfs_event_sum2_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-<!-- ##### FUNCTION gfs_get_from_above ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-<!-- ##### FUNCTION gfs_gradient ##### -->
-<para>
-
-</para>
-
- at cell: 
- at neighbor: 
- at d: 
- at v: 
- at max_level: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_init_flow_constant_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-<!-- ##### FUNCTION gfs_norm_residual ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at Returns: 
- at root: 
- at level: 
-
-<!-- ##### FUNCTION gfs_norm_velocity ##### -->
-<para>
-
-</para>
-
- at root: 
- at flags: 
- at max_depth: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_output_scalar_name ##### -->
-<para>
-
-</para>
-
- at output: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_poisson ##### -->
-<para>
-
-</para>
-
- at domain: 
- at levelmin: 
- at depth: 
- at nrelax: 
- at u: 
- at rhs: 
- at root: 
- at cell: 
- at level: 
-
-<!-- ##### FUNCTION gfs_projection_params_init ##### -->
-<para>
-
-</para>
-
- at par: 
-
-<!-- ##### FUNCTION gfs_projection_params_read ##### -->
-<para>
-
-</para>
-
- at par: 
- at fp: 
-
-<!-- ##### FUNCTION gfs_projection_params_write ##### -->
-<para>
-
-</para>
-
- at par: 
- at fp: 
-
-<!-- ##### FUNCTION gfs_read ##### -->
-<para>
-
-</para>
-
- at cell: 
- at fp: 
- at variables: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_refine_mixed ##### -->
-<para>
-
-</para>
-
- at cell: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_relax_level ##### -->
-<para>
-
-</para>
-
- at root: 
- at level: 
- at u: 
- at rhs: 
-
-<!-- ##### FUNCTION gfs_reset ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-<!-- ##### FUNCTION gfs_simulation_event ##### -->
-<para>
-
-</para>
-
- at sim: 
- at events: 
-
-<!-- ##### FUNCTION gfs_simulation_event_init ##### -->
-<para>
-
-</para>
-
- at sim: 
- at events: 
-
-<!-- ##### FUNCTION gfs_solid_stats ##### -->
-<para>
-
-</para>
-
- at root: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_source_constant_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-<!-- ##### FUNCTION gfs_tracer_advection ##### -->
-<para>
-
-</para>
-
- at domain: 
- at par: 
- at half: 
-
-<!-- ##### FUNCTION gfs_variable_copy ##### -->
-<para>
-
-</para>
-
- at v: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_variable_destroy ##### -->
-<para>
-
-</para>
-
- at v: 
-
-<!-- ##### FUNCTION gfs_variable_list_copy ##### -->
-<para>
-
-</para>
-
- at v: 
- at parent: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_variable_list_destroy ##### -->
-<para>
-
-</para>
-
- at v: 
-
-<!-- ##### MACRO gfs_variable_parent ##### -->
-<para>
-
-</para>
-
- at v: 
-
-<!-- ##### MACRO gfs_variable_set_parent ##### -->
-<para>
-
-</para>
-
- at v: 
- at pa: 
-
-<!-- ##### FUNCTION gfs_variable_source ##### -->
-<para>
-
-</para>
-
- at v: 
- at cell: 
- at Returns: 
-
-<!-- ##### FUNCTION gfs_velocity_norm ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-<!-- ##### FUNCTION gfs_velocity_norm2 ##### -->
-<para>
-
-</para>
-
- at cell: 
- at v: 
-
-<!-- ##### FUNCTION gfs_velocity_sources ##### -->
-<para>
-
-</para>
-
- at domain: 
- at par: 
-
-<!-- ##### FUNCTION gfs_write ##### -->
-<para>
-
-</para>
-
- at cell: 
- at fp: 
- at variables: 
-
diff --git a/doc/tmpl/inflow_constant.sgml b/doc/tmpl/inflow_constant.sgml
deleted file mode 100644
index 558854d..0000000
--- a/doc/tmpl/inflow_constant.sgml
+++ /dev/null
@@ -1,66 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Constant inflow boundary
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_BOUNDARY_INFLOW_CONSTANT_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_BOUNDARY_INFLOW_CONSTANT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_BOUNDARY_INFLOW_CONSTANT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsBoundaryInflowConstantClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### STRUCT GfsBoundaryInflowConstant ##### -->
-<para>
-
-</para>
-
- at parent: 
- at un: 
-
-<!-- ##### FUNCTION gfs_boundary_inflow_constant_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/init.sgml b/doc/tmpl/init.sgml
deleted file mode 100644
index a73615a..0000000
--- a/doc/tmpl/init.sgml
+++ /dev/null
@@ -1,53 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Initialisation event
-
-<!-- ##### SECTION Short_Description ##### -->
-Used for initial conditions
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsInit can be used to set initial conditions for a set of variables. The initial conditions can be either constants or functions.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsGenericInit ] { V1 = [ #GfsFunction ] V2 = [ #GfsFunction ] ... }
-</programlisting>
-</informalexample>
-where V1, V2, ... are variable names.
-</para>
-<para>
-If the variables do not already exist at the time of initialisation, they are created.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_IS_INIT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsInit ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### FUNCTION gfs_init_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/init_fraction.sgml b/doc/tmpl/init_fraction.sgml
deleted file mode 100644
index ddfd6ad..0000000
--- a/doc/tmpl/init_fraction.sgml
+++ /dev/null
@@ -1,72 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Fraction initialisation
-
-<!-- ##### SECTION Short_Description ##### -->
-Initialise volume fraction from surface
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsInitFraction computes the intersection of each cell with a given surface and sets the corresponding volume fraction.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsGenericInit ] C surface.gts
-</programlisting>
-</informalexample>
-where C is a variable name and surface.gts is an orientable surface.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_INIT_FRACTION_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_INIT_FRACTION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_INIT_FRACTION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsInitFractionClass ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### STRUCT GfsInitFraction ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### FUNCTION gfs_init_fraction_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/init_vorticity.sgml b/doc/tmpl/init_vorticity.sgml
deleted file mode 100644
index 6dfeca2..0000000
--- a/doc/tmpl/init_vorticity.sgml
+++ /dev/null
@@ -1,75 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Vorticity initialisation
-
-<!-- ##### SECTION Short_Description ##### -->
-Initialising 2D velocities from a prescribed vorticity distribution
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsInitVorticity uses the given vorticity distribution to compute a 2D streamfunction and the corresponding velocity field.
-</para>
-<para>
-Due to limitations in the type of boundary conditions for the streamfunction-vorticity equation, the vorticity field given as argument must vanish before reaching the boundaries of the domain.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsGenericInit ] [ #GfsFunction ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_INIT_VORTICITY ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_INIT_VORTICITY_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_IS_INIT_VORTICITY ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsInitVorticity ##### -->
-<para>
-
-</para>
-
- at f: 
-
-<!-- ##### STRUCT GfsInitVorticityClass ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### FUNCTION gfs_init_vorticity_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/mpi.sgml b/doc/tmpl/mpi.sgml
deleted file mode 100644
index af9888a..0000000
--- a/doc/tmpl/mpi.sgml
+++ /dev/null
@@ -1,77 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Parallel MPI boundary
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_BOUNDARY_MPI_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_BOUNDARY_MPI ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_BOUNDARY_MPI ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsBoundaryMpiClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### STRUCT GfsBoundaryMpi ##### -->
-<para>
-
-</para>
-
-
-<!-- ##### FUNCTION gfs_boundary_mpi_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at box: 
- at d: 
- at process: 
- at id: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_boundary_mpi_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/outflow.sgml b/doc/tmpl/outflow.sgml
deleted file mode 100644
index 628e0c4..0000000
--- a/doc/tmpl/outflow.sgml
+++ /dev/null
@@ -1,50 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Outflow boundary
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_BOUNDARY_OUTFLOW_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_IS_BOUNDARY_OUTFLOW ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsBoundaryOutflowClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### FUNCTION gfs_boundary_outflow_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output.sgml b/doc/tmpl/output.sgml
deleted file mode 100644
index ad93bd8..0000000
--- a/doc/tmpl/output.sgml
+++ /dev/null
@@ -1,153 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Generic output event
-
-<!-- ##### SECTION Short_Description ##### -->
-Writing simulation data
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-This generic object is a #GfsEvent which also defines where to write the data to output.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsEvent ] FILE
-</programlisting>
-</informalexample>
-where FILE is either a string defining the file in which to write the output, or a shell-script enclosed within braces to which the output will be piped. Two file names have special meaning: "stderr" and "stdout" for the standard error and standard output respectively.
-</para>
-<para>
-If a C-like formatting string appears in the file name, it is interpreted as follows:
-<informaltable pgwide="1" frame="none" role="struct">
-<tgroup cols="2">
-<colspec colwidth="2*">
-<colspec colwidth="8*">
-<tbody>
-
-<row>
-<entry>%%d</entry>
-<entry>is replaced with the current processor number.</entry>
-</row>
-
-<row>
-<entry>%%ld</entry>
-<entry>is replaced with the current time step number.</entry>
-</row>
-
-<row>
-<entry>%%f</entry>
-<entry>is replaced with the current physical time.</entry>
-</row>
-
-</tbody></tgroup></informaltable>
-Note that most of the C language format specifiers are recognized (i.e. it is possible to use formatting strings like %%05.2f etc...).
-</para>
-<para>
-If the simulation does not start at time zero the existing files are appended otherwise they are overwritten.
-</para>
-<para>
-The "pipe" feature of GfsOutput can for example be used to do on-the-flight post-processing of the data stream, as in the following example:
-<informalexample>
-<programlisting>
-  GfsOutputPPM { istep = 1 } { ppm2mpeg > vorticity.mpg } { v = Vorticity }
-</programlisting>
-</informalexample>
-which will convert the PPM stream generated by #GfsOutputPPM directly to MPEG using ffmpeg.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_OUTPUT_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_OUTPUT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_OUTPUT ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsOutputClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
-
-<!-- ##### STRUCT GfsOutput ##### -->
-<para>
-
-</para>
-
- at parent: 
- at file: 
- at format: 
- at formats: 
- at dynamic: 
- at first_call: 
-
-<!-- ##### STRUCT GfsOutputFile ##### -->
-<para>
-
-</para>
-
- at refcount: 
- at name: 
- at fp: 
- at is_pipe: 
-
-<!-- ##### FUNCTION gfs_output_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_output_mute ##### -->
-<para>
-
-</para>
-
- at output: 
-
-
-<!-- ##### FUNCTION gfs_output_file_close ##### -->
-<para>
-
-</para>
-
- at file: 
-
-
-<!-- ##### FUNCTION gfs_output_file_open ##### -->
-<para>
-
-</para>
-
- at name: 
- at mode: 
- at Returns: 
-
-
diff --git a/doc/tmpl/output_adapts.sgml b/doc/tmpl/output_adapts.sgml
deleted file mode 100644
index 6a6c940..0000000
--- a/doc/tmpl/output_adapts.sgml
+++ /dev/null
@@ -1,35 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Adaptation statistics output
-
-<!-- ##### SECTION Short_Description ##### -->
-Information about the mesh adaptation
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputAdaptStats writes a summary of the adaptation process during the last time step.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_adapt_stats_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_balance.sgml b/doc/tmpl/output_balance.sgml
deleted file mode 100644
index 9607436..0000000
--- a/doc/tmpl/output_balance.sgml
+++ /dev/null
@@ -1,27 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Balance statistics output
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_balance_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_boundaries.sgml b/doc/tmpl/output_boundaries.sgml
deleted file mode 100644
index 4d8893f..0000000
--- a/doc/tmpl/output_boundaries.sgml
+++ /dev/null
@@ -1,27 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Domain boundaries output
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_boundaries_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_diffusion.sgml b/doc/tmpl/output_diffusion.sgml
deleted file mode 100644
index a2559d9..0000000
--- a/doc/tmpl/output_diffusion.sgml
+++ /dev/null
@@ -1,35 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Diffusion statistics output
-
-<!-- ##### SECTION Short_Description ##### -->
-Information about the convergence of the diffusion solver
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputDiffusionStats writes a summary of the convergence properties of the diffusion solve during the last time step. The convergence rate given is the average factor by which the residual is reduced for each multigrid iteration.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_diffusion_stats_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_error_norm.sgml b/doc/tmpl/output_error_norm.sgml
deleted file mode 100644
index dc8043a..0000000
--- a/doc/tmpl/output_error_norm.sgml
+++ /dev/null
@@ -1,66 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Error norm output
-
-<!-- ##### SECTION Short_Description ##### -->
-Comparing fields with a reference solution
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputErrorNorm computes the norms of the difference between a given scalar field and a reference solution and outputs the resulting summary.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutputScalar ] { s = [ #GfsFunction ] unbiased = 1 v = Error }
-</programlisting>
-</informalexample>
-with
-<informaltable pgwide="1" frame="none" role="struct">
-<tgroup cols="2">
-<colspec colwidth="2*">
-<colspec colwidth="8*">
-<tbody>
-
-<row>
-<entry><structfield>s</structfield></entry>
-<entry>A #GfsFunction defining the reference solution.</entry>
-</row>
-
-<row>
-<entry><structfield>unbiased</structfield></entry>
-<entry>An optional parameter specifying if the bias between the reference solution and the computed solution should be removed prior to error computation. This is useful for fields which are defined up to an additive constant (pressure for example).</entry>
-</row>
-
-<row>
-<entry><structfield>v</structfield></entry>
-<entry>An optional parameter specifying a new variable used to store the error in each cell. The default is not to store the error.</entry>
-</row>
-
-</tbody></tgroup></informaltable>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### STRUCT GfsOutputErrorNorm ##### -->
-<para>
-
-</para>
-
- at s: 
- at unbiased: 
-
-<!-- ##### FUNCTION gfs_output_error_norm_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_location.sgml b/doc/tmpl/output_location.sgml
deleted file mode 100644
index 3530ec4..0000000
--- a/doc/tmpl/output_location.sgml
+++ /dev/null
@@ -1,81 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Location output
-
-<!-- ##### SECTION Short_Description ##### -->
-Writing the values of variables at specified locations
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputLocation writes the values of all permanent variables at a set of given locations. The first time GfsOutputLocation is called it writes a comment describing the fields being written.
-</para>
-<para>
-The values are linearly interpolated to the given location using gfs_interpolate().
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ] X Y Z
-</programlisting>
-</informalexample>
-where X, Y and Z are the coordinates of the location.
-</para>
-<para>
-or:
-<informalexample>
-<programlisting>
-[ #GfsOutput ] FILE
-</programlisting>
-</informalexample>
-where FILE is the name of a text file containing the space-separated
-X, Y and Z coordinates of a set of locations.
-</para>
-<para>
-or:
-<informalexample>
-<programlisting>
-[ #GfsOutput ] { X1 Y1 Z1 ... XN YN ZN }
-</programlisting>
-</informalexample>
-where the Xi, Yi and Zi are the coordinates of the set of locations.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_OUTPUT_LOCATION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_OUTPUT_LOCATION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsOutputLocation ##### -->
-<para>
-
-</para>
-
- at p: 
-
-<!-- ##### FUNCTION gfs_output_location_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_ppm.sgml b/doc/tmpl/output_ppm.sgml
deleted file mode 100644
index 0ea80af..0000000
--- a/doc/tmpl/output_ppm.sgml
+++ /dev/null
@@ -1,43 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-PPM output
-
-<!-- ##### SECTION Short_Description ##### -->
-2D images of a scalar field
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputPPM writes a colour image of the given scalar field in PPM (Portable PixMap) format.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutputScalar ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_IS_OUTPUT_PPM ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### FUNCTION gfs_output_ppm_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_projections.sgml b/doc/tmpl/output_projections.sgml
deleted file mode 100644
index f467174..0000000
--- a/doc/tmpl/output_projections.sgml
+++ /dev/null
@@ -1,35 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Projection statistics output
-
-<!-- ##### SECTION Short_Description ##### -->
-Information about the convergence of the Poisson solver
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputProjectionStats writes a summary of the convergence properties of the Poisson solves (MAC and approximate) during the last time step. The convergence rate given is the average factor by which the residual is reduced for each multigrid iteration.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_projection_stats_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_scalar.sgml b/doc/tmpl/output_scalar.sgml
deleted file mode 100644
index 0c2d635..0000000
--- a/doc/tmpl/output_scalar.sgml
+++ /dev/null
@@ -1,92 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Generic scalar output
-
-<!-- ##### SECTION Short_Description ##### -->
-Writing values of a given simulation scalar
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputScalar is a generic object derived from #GfsOutput and used for the output of a specific simulation scalar.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ] { min = -56.7 max = 100 v = U maxlevel = 7 }
-</programlisting>
-</informalexample>
-with
-<informaltable pgwide="1" frame="none" role="struct">
-<tgroup cols="2">
-<colspec colwidth="2*">
-<colspec colwidth="8*">
-<tbody>
-
-<row>
-<entry><structfield>min</structfield></entry>
-<entry>Minimum value for this scalar.</entry>
-</row>
-
-<row>
-<entry><structfield>max</structfield></entry>
-<entry>Maximum value for this scalar.</entry>
-</row>
-
-<row>
-<entry><structfield>v</structfield></entry>
-<entry>Name of the scalar variable to consider.</entry>
-</row>
-
-<row>
-<entry><structfield>maxlevel</structfield></entry>
-<entry>Maximum level to consider (default is infinity).</entry>
-</row>
-
-</tbody></tgroup></informaltable>
-If neither max nor min are specified the bounding values are calculated before each output.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_OUTPUT_SCALAR ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_OUTPUT_SCALAR ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsOutputScalar ##### -->
-<para>
-
-</para>
-
- at v: 
- at name: 
- at min: 
- at max: 
- at maxlevel: 
- at box: 
-
-<!-- ##### FUNCTION gfs_output_scalar_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_scalar_norm.sgml b/doc/tmpl/output_scalar_norm.sgml
deleted file mode 100644
index eeb3bd0..0000000
--- a/doc/tmpl/output_scalar_norm.sgml
+++ /dev/null
@@ -1,27 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Scalar norm output
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_scalar_norm_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_scalar_stats.sgml b/doc/tmpl/output_scalar_stats.sgml
deleted file mode 100644
index e2ac538..0000000
--- a/doc/tmpl/output_scalar_stats.sgml
+++ /dev/null
@@ -1,27 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Scalar statistics output
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_scalar_stats_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_scalar_sum.sgml b/doc/tmpl/output_scalar_sum.sgml
deleted file mode 100644
index dbd5b32..0000000
--- a/doc/tmpl/output_scalar_sum.sgml
+++ /dev/null
@@ -1,27 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Scalar sum output
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_scalar_sum_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_simulation.sgml b/doc/tmpl/output_simulation.sgml
deleted file mode 100644
index 24d2544..0000000
--- a/doc/tmpl/output_simulation.sgml
+++ /dev/null
@@ -1,99 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Simulation output
-
-<!-- ##### SECTION Short_Description ##### -->
-Saving the whole simulation
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputSimulation will write a description of the current state of the simulation which contains both standard simulation parameters, layout of the cell hierarchy and associated variable values.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ] { depth = 5 variables = U,V,C binary = 1 surface = 0 }
-</programlisting>
-</informalexample>
-with
-<informaltable pgwide="1" frame="none" role="struct">
-<tgroup cols="2">
-<colspec colwidth="2*">
-<colspec colwidth="8*">
-<tbody>
-
-<row>
-<entry><structfield>depth</structfield></entry>
-<entry>An optional parameter setting the maximum depth which will be considered (the default is infinity).</entry>
-</row>
-
-<row>
-<entry><structfield>variables</structfield></entry>
-<entry>A comma-separated list of the names of the variables which will be written. The default is all the simulation permanent variables.</entry>
-</row>
-
-<row>
-<entry><structfield>binary</structfield></entry>
-<entry>An optional parameter specifying if a binary format should be used. Binary files allow faster reading of simulation files and are the default. Setting binary to 0 will use a more portable ASCII format.</entry>
-</row>
-
-<row>
-<entry><structfield>surface</structfield></entry>
-<entry>An optional parameter specifying if the surface describing solid boundaries should be included in the simulation file. The default is to include the solid surface.</entry>
-</row>
-
-</tbody></tgroup></informaltable>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_OUTPUT_SIMULATION_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_OUTPUT_SIMULATION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_OUTPUT_SIMULATION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsOutputSimulation ##### -->
-<para>
-
-</para>
-
- at parent: 
- at max_depth: 
- at var: 
- at binary: 
- at surface: 
- at format: 
-
-<!-- ##### FUNCTION gfs_output_simulation_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_solid.sgml b/doc/tmpl/output_solid.sgml
deleted file mode 100644
index e5ff579..0000000
--- a/doc/tmpl/output_solid.sgml
+++ /dev/null
@@ -1,35 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Solid statistics output
-
-<!-- ##### SECTION Short_Description ##### -->
-Summary of embedded solid description
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputSolidStats writes a summary of the embedded solid description.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_solid_stats_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_solid_force.sgml b/doc/tmpl/output_solid_force.sgml
deleted file mode 100644
index 05ff8ba..0000000
--- a/doc/tmpl/output_solid_force.sgml
+++ /dev/null
@@ -1,35 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Solid force output
-
-<!-- ##### SECTION Short_Description ##### -->
-Forces acting on the embedded solid boundary
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputSolidForce will write the components of the total pressure and viscous forces acting on the embedded solid boundary. The first field is the time followed by the three components of the pressure force, followed by the three components of the viscous force.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_solid_force_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_squares.sgml b/doc/tmpl/output_squares.sgml
deleted file mode 100644
index 8262fc0..0000000
--- a/doc/tmpl/output_squares.sgml
+++ /dev/null
@@ -1,35 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Coloured squares output
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_IS_OUTPUT_SQUARES ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### FUNCTION gfs_output_squares_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_time.sgml b/doc/tmpl/output_time.sgml
deleted file mode 100644
index dae7a44..0000000
--- a/doc/tmpl/output_time.sgml
+++ /dev/null
@@ -1,35 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Time output
-
-<!-- ##### SECTION Short_Description ##### -->
-Iteration and physical time output
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputTime writes a text representation of the current iteration and physical time.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_time_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/output_timing.sgml b/doc/tmpl/output_timing.sgml
deleted file mode 100644
index c1e7430..0000000
--- a/doc/tmpl/output_timing.sgml
+++ /dev/null
@@ -1,35 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Timing statistics output
-
-<!-- ##### SECTION Short_Description ##### -->
-For profiling of the solver
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsOutputTiming writes a description of the measured (real) time spent (up to now) in the various parts of the solver as well as a summary of the overall performance.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsOutput ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### FUNCTION gfs_output_timing_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/poisson.sgml b/doc/tmpl/poisson.sgml
deleted file mode 100644
index d8dd443..0000000
--- a/doc/tmpl/poisson.sgml
+++ /dev/null
@@ -1,166 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Poisson solver
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### STRUCT GfsMultilevelParams ##### -->
-<para>
-
-</para>
-
- at tolerance: 
- at nrelax: 
- at erelax: 
- at minlevel: 
- at nitermax: 
- at nitermin: 
- at dimension: 
- at niter: 
- at depth: 
- at weighted: 
- at beta: 
- at residual_before: 
- at residual: 
-
-<!-- ##### FUNCTION gfs_multilevel_params_init ##### -->
-<para>
-
-</para>
-
- at par: 
-
-
-<!-- ##### FUNCTION gfs_multilevel_params_read ##### -->
-<para>
-
-</para>
-
- at par: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_multilevel_params_write ##### -->
-<para>
-
-</para>
-
- at par: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_relax ##### -->
-<para>
-
-</para>
-
- at domain: 
- at d: 
- at max_depth: 
- at u: 
- at rhs: 
- at dia: 
-
-
-<!-- ##### FUNCTION gfs_residual ##### -->
-<para>
-
-</para>
-
- at domain: 
- at d: 
- at flags: 
- at max_depth: 
- at u: 
- at rhs: 
- at dia: 
- at res: 
-
-
-<!-- ##### FUNCTION gfs_poisson_coefficients ##### -->
-<para>
-
-</para>
-
- at domain: 
- at alpha: 
-
-
-<!-- ##### FUNCTION gfs_poisson_cycle ##### -->
-<para>
-
-</para>
-
- at domain: 
- at p: 
- at u: 
- at rhs: 
- at dia: 
- at res: 
-
-
-<!-- ##### FUNCTION gfs_correct_normal_velocities ##### -->
-<para>
-
-</para>
-
- at domain: 
- at dimension: 
- at p: 
- at g: 
- at dt: 
- at w: 
-
-
-<!-- ##### FUNCTION gfs_mac_projection ##### -->
-<para>
-
-</para>
-
- at domain: 
- at par: 
- at apar: 
- at p: 
- at alpha: 
- at g: 
-
-
-<!-- ##### FUNCTION gfs_approximate_projection ##### -->
-<para>
-
-</para>
-
- at domain: 
- at par: 
- at apar: 
- at p: 
- at alpha: 
- at res: 
-
-
-<!-- ##### FUNCTION gfs_domain_norm_residual ##### -->
-<para>
-
-</para>
-
- at domain: 
- at flags: 
- at max_depth: 
- at dt: 
- at res: 
- at Returns: 
-
-
diff --git a/doc/tmpl/refine.sgml b/doc/tmpl/refine.sgml
deleted file mode 100644
index c726a1a..0000000
--- a/doc/tmpl/refine.sgml
+++ /dev/null
@@ -1,75 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Generic refinement
-
-<!-- ##### SECTION Short_Description ##### -->
-Simple definition of the refinement levels
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsRefine is typically used to define the number of initial refinement levels.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-#GfsRefine [ #GfsFunction ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_REFINE_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_REFINE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_REFINE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsRefineClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
- at refine: 
-
-<!-- ##### STRUCT GfsRefine ##### -->
-<para>
-
-</para>
-
- at parent: 
- at maxlevel: 
-
-<!-- ##### FUNCTION gfs_refine_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/refine_distance.sgml b/doc/tmpl/refine_distance.sgml
deleted file mode 100644
index 932c78e..0000000
--- a/doc/tmpl/refine_distance.sgml
+++ /dev/null
@@ -1,58 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Surface distance refinement
-
-<!-- ##### SECTION Short_Description ##### -->
-Refining cells as a function of the distance to a surface
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-For each candidate cell, GfsRefineDistance computes the distance from the cell center to the given surface. It then passes this distance as Distance argument to the user-defined function in order to get the maximum level of refinement allowed.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsRefineSurface ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_REFINE_DISTANCE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_REFINE_DISTANCE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsRefineDistance ##### -->
-<para>
-
-</para>
-
- at parent: 
- at stree: 
-
-<!-- ##### FUNCTION gfs_refine_distance_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/refine_solid.sgml b/doc/tmpl/refine_solid.sgml
deleted file mode 100644
index 52772a0..0000000
--- a/doc/tmpl/refine_solid.sgml
+++ /dev/null
@@ -1,43 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Solid refinement
-
-<!-- ##### SECTION Short_Description ##### -->
-Refining cells cut by solid boundary
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-#GfsRefineSolid can be used to add levels of refinement to cells which are cut by a solid boundary.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsRefine ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_IS_REFINE_SOLID ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### FUNCTION gfs_refine_solid_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/refine_surface.sgml b/doc/tmpl/refine_surface.sgml
deleted file mode 100644
index 10e951c..0000000
--- a/doc/tmpl/refine_surface.sgml
+++ /dev/null
@@ -1,59 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Surface refinement
-
-<!-- ##### SECTION Short_Description ##### -->
-Refining cells cut by a surface
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-#GfsRefineSurface can be used to add levels of refinement to cells which are cut by a given surface.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsRefine ] surface.gts
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_REFINE_SURFACE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_REFINE_SURFACE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsRefineSurface ##### -->
-<para>
-
-</para>
-
- at parent: 
- at surface: 
-
-<!-- ##### FUNCTION gfs_refine_surface_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/simulation.sgml b/doc/tmpl/simulation.sgml
deleted file mode 100644
index bda5c49..0000000
--- a/doc/tmpl/simulation.sgml
+++ /dev/null
@@ -1,233 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Simulations
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_SIMULATION_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_SIMULATION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_SIMULATION ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsSimulationClass ##### -->
-<para>
-
-</para>
-
- at parent_class: 
- at run: 
-
-<!-- ##### STRUCT GfsSimulation ##### -->
-<para>
-
-</para>
-
- at parent: 
- at time: 
- at physical_params: 
- at projection_params: 
- at approx_projection_params: 
- at advection_params: 
- at surface: 
- at thin: 
- at output_surface: 
- at refines: 
- at adapts: 
- at adapts_stats: 
- at events: 
- at modules: 
- at variables: 
- at globals: 
- at tnext: 
-
-<!-- ##### STRUCT GfsTime ##### -->
-<para>
-
-</para>
-
- at t: 
- at start: 
- at end: 
- at i: 
- at istart: 
- at iend: 
- at dtmax: 
-
-<!-- ##### STRUCT GfsPhysicalParams ##### -->
-<para>
-
-</para>
-
- at g: 
- at alpha: 
-
-<!-- ##### FUNCTION gfs_init ##### -->
-<para>
-
-</para>
-
- at argc: 
- at argv: 
-
-
-<!-- ##### FUNCTION gfs_simulation_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_simulation_new ##### -->
-<para>
-
-</para>
-
- at klass: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_simulation_read ##### -->
-<para>
-
-</para>
-
- at fp: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_simulation_refine ##### -->
-<para>
-
-</para>
-
- at sim: 
-
-
-<!-- ##### FUNCTION gfs_simulation_set_timestep ##### -->
-<para>
-
-</para>
-
- at sim: 
-
-
-<!-- ##### FUNCTION gfs_simulation_adapt ##### -->
-<para>
-
-</para>
-
- at simulation: 
-
-
-<!-- ##### FUNCTION gfs_simulation_write ##### -->
-<para>
-
-</para>
-
- at sim: 
- at max_depth: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_simulation_run ##### -->
-<para>
-
-</para>
-
- at sim: 
-
-
-<!-- ##### MACRO gfs_object_simulation ##### -->
-<para>
-
-</para>
-
- at o: 
-
-
-<!-- ##### FUNCTION gfs_time_init ##### -->
-<para>
-
-</para>
-
- at t: 
-
-
-<!-- ##### FUNCTION gfs_time_read ##### -->
-<para>
-
-</para>
-
- at t: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_time_write ##### -->
-<para>
-
-</para>
-
- at t: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_physical_params_init ##### -->
-<para>
-
-</para>
-
- at p: 
-
-
-<!-- ##### FUNCTION gfs_physical_params_read ##### -->
-<para>
-
-</para>
-
- at p: 
- at domain: 
- at fp: 
-
-
-<!-- ##### FUNCTION gfs_physical_params_write ##### -->
-<para>
-
-</para>
-
- at p: 
- at fp: 
-
-
diff --git a/doc/tmpl/solid.sgml b/doc/tmpl/solid.sgml
deleted file mode 100644
index 36736a3..0000000
--- a/doc/tmpl/solid.sgml
+++ /dev/null
@@ -1,93 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Solid boundaries
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_IS_FLUID ##### -->
-<para>
-Evaluates to %TRUE if @cell is entirely contained in the fluid, %FALSE otherwise.
-</para>
-
- at cell: a #FttCell.
-
-
-<!-- ##### MACRO GFS_IS_MIXED ##### -->
-<para>
-Evaluates to %TRUE if @cell is partially contained in the fluid, %FALSE otherwise.
-</para>
-
- at cell: a #FttCell.
-
-
-<!-- ##### MACRO GFS_FACE_FRACTION ##### -->
-<para>
-
-</para>
-
- at fa: 
-
-
-<!-- ##### STRUCT GfsSolidVector ##### -->
-<para>
-Contains the surface and volume fractions of the cell not contained in the solid.
-</para>
-
- at s: 
- at a: 
- at v: 
- at fv: 
- at merged: 
- at cm: 
- at ca: 
-
-<!-- ##### FUNCTION gfs_cell_fluid ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-
-<!-- ##### FUNCTION gfs_cell_init_solid_fractions_from_children ##### -->
-<para>
-
-</para>
-
- at cell: 
-
-
-<!-- ##### FUNCTION gfs_cell_check_solid_fractions ##### -->
-<para>
-
-</para>
-
- at root: 
- at Returns: 
-
-
-<!-- ##### FUNCTION gfs_cell_traverse_mixed ##### -->
-<para>
-
-</para>
-
- at root: 
- at order: 
- at flags: 
- at func: 
- at data: 
-
-
diff --git a/doc/tmpl/source.sgml b/doc/tmpl/source.sgml
deleted file mode 100644
index 88dd701..0000000
--- a/doc/tmpl/source.sgml
+++ /dev/null
@@ -1,58 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Source terms
-
-<!-- ##### SECTION Short_Description ##### -->
-Variable-dependent source terms
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsSource is used to associate a source term (possibly a function of space and time) to a given variable.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsSourceGeneric ] [ #GfsFunction ]
-</programlisting>
-</informalexample>
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_SOURCE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### MACRO GFS_IS_SOURCE ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsSource ##### -->
-<para>
-
-</para>
-
- at intensity: 
-
-<!-- ##### FUNCTION gfs_source_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/source_generic.sgml b/doc/tmpl/source_generic.sgml
deleted file mode 100644
index b148efe..0000000
--- a/doc/tmpl/source_generic.sgml
+++ /dev/null
@@ -1,59 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Generic source term
-
-<!-- ##### SECTION Short_Description ##### -->
-Abstract class for source terms
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-GfsSourceGeneric is derived from #GfsEvent and is used to associate a source term to a given variable.
-</para>
-<para>
-The syntax in parameter files is as follows:
-<informalexample>
-<programlisting>
-[ #GfsEvent ] NAME
-</programlisting>
-</informalexample>
-where NAME is the name of a variable.
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### MACRO GFS_SOURCE_GENERIC_CLASS ##### -->
-<para>
-
-</para>
-
- at klass: 
-
-
-<!-- ##### MACRO GFS_SOURCE_GENERIC ##### -->
-<para>
-
-</para>
-
- at obj: 
-
-
-<!-- ##### STRUCT GfsSourceGeneric ##### -->
-<para>
-
-</para>
-
- at v: 
-
-<!-- ##### FUNCTION gfs_source_generic_class ##### -->
-<para>
-
-</para>
-
- at Returns: 
-
-
diff --git a/doc/tmpl/stats.sgml b/doc/tmpl/stats.sgml
deleted file mode 100644
index 5a01591..0000000
--- a/doc/tmpl/stats.sgml
+++ /dev/null
@@ -1,64 +0,0 @@
-<!-- ##### SECTION Title ##### -->
-Simple statistics
-
-<!-- ##### SECTION Short_Description ##### -->
-
-
-<!-- ##### SECTION Long_Description ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION See_Also ##### -->
-<para>
-
-</para>
-
-<!-- ##### SECTION Stability_Level ##### -->
-
-
-<!-- ##### STRUCT GfsNorm ##### -->
-<para>
-Contains simple norm statistics.
-</para>
-
- at bias: 
- at first: 
- at second: 
- at infty: 
- at w: 
-
-<!-- ##### FUNCTION gfs_norm_init ##### -->
-<para>
-
-</para>
-
- at n: 
-
-
-<!-- ##### FUNCTION gfs_norm_add ##### -->
-<para>
-
-</para>
-
- at n: 
- at val: 
- at weight: 
-
-
-<!-- ##### FUNCTION gfs_norm_update ##### -->
-<para>
-
-</para>
-
- at n: 
-
-
-<!-- ##### FUNCTION gfs_norm_reset ##### -->
-<para>
-
-</para>
-
- at n: 
-
-
diff --git a/doc/tutorial/Makefile.am b/doc/tutorial/Makefile.am
deleted file mode 100644
index 9f52911..0000000
--- a/doc/tutorial/Makefile.am
+++ /dev/null
@@ -1,77 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-EXTRA_DIST = tutorial.tex depend.awk
-
-Makefile.deps: Makefile.am tutorial.tex
-	awk -f depend.awk file="tutorial" < tutorial.tex > Makefile.deps
-
-clean-generic:
-	$(RM) *.dvi *.aux *.log *.toc *.out \
-	boundaries.pdf direction.eps direction.pdf dxscreen.eps dxscreen.pdf \
-	gfs2oogl.pdf half-cylinder.eps half-cylinder.pdf refined1.pdf refined1_cells.pdf \
-	refined2.pdf vorticity.eps vorticity.pdf gfsview.eps tutorial1.tex \
-	Makefile.deps
-
-tutorial.tar.gz: tutorial1.dvi
-	rm -r -f tutorial
-	sed 's/input{pdf.tex}/usepackage{graphicx}\\newcommand{\\gfx}{eps}/g' < tutorial.tex | sed "s/GFS_VERSION/`$(top_srcdir)/src/gerris2D -V 2>&1 | awk '{ if ($$5 == "version") print $$6}'`/g" | sed 's/\\today/'"`date +\"%B %e, %Y\"`/g" > tutorial1.tex
-	hevea -fix tutorial1.tex
-	imagen -res 600 -extra "pnmscale 0.24" tutorial1
-	mkdir tutorial
-	mv -f tutorial1[0-9][0-9][0-9].png tutorial
-##	fixme: the character conversion below is a workaround for a bug in hevea version < 1.09
-	konwert iso1-utf8 < tutorial1.html > tutorial/tutorial1.html
-	cp ../share/darcs.css tutorial/tutorial.css
-	rm -f tutorial1.h{tml,aux,ind,toc} tutorial1.image.tex
-	tar cf tutorial.tar tutorial
-	gzip -f --best tutorial.tar
-
-tutorial1.dvi: tutorial.tex Makefile.deps
-	sed "s/GFS_VERSION/`$(top_srcdir)/src/gerris2D -V 2>&1 | awk '{ if ($$5 == "version") print $$6}'`/g" < tutorial.tex | sed 's/\\today/'"`date +\"%B %e, %Y\"`/g" > tutorial1.tex
-	latex -interaction=nonstopmode tutorial1.tex > /dev/null 2>&1
-	latex -interaction=nonstopmode tutorial1.tex > /dev/null 2>&1
-	latex -interaction=nonstopmode tutorial1.tex
-
-tutorial.pdf: tutorial1.dvi
-	dvips -Ppdf -G0 tutorial1.dvi -o tutorial1.ps
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-grestore
-showpage
-
-%%Trailer
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-countdictstack exch sub { end } repeat
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-%%EOF
diff --git a/doc/tutorial/depend.awk b/doc/tutorial/depend.awk
deleted file mode 100644
index ed7e187..0000000
--- a/doc/tutorial/depend.awk
+++ /dev/null
@@ -1,20 +0,0 @@
-BEGIN {
-  FS = "{|=|}| |[|]";
-}
-{
-  if ($1 == "\\psfig" && $2 == "file")
-    depeps = depeps " " $3;
-  else if ($1 == "\\includegraphics[width" ||
-	   $1 == "\\includegraphics[height" ||
-	   $1 == "\\includegraphics[angle" ||
-           $1 == "\\includegraphics*[width" ||
-	   $1 == "\\includegraphics*[height" ||
-	   $1 == "\\includegraphics*[angle") {
-    for (i = 2; i <= NF; i++)
-      if (match ($i, "eps"))
-	depeps = depeps " " $i;
-  }
-}
-END {
-  print file "1.dvi: " depeps;
-}
diff --git a/doc/tutorial/direction.fig b/doc/tutorial/direction.fig
deleted file mode 100644
index 8c12928..0000000
--- a/doc/tutorial/direction.fig
+++ /dev/null
@@ -1,67 +0,0 @@
-#FIG 3.2
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-Center
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-Letter  
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-2 1 1 5 0 7 50 0 -1 12.000 0 0 7 0 0 2
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-4 0 0 50 0 0 32 0.0000 4 300 465 5175 900 top\001
-4 0 0 50 0 0 32 0.0000 4 330 690 7800 3300 right\001
-4 0 0 50 0 0 32 0.0000 4 255 1050 5175 6600 bottom\001
-4 0 0 50 0 0 32 0.0000 4 255 705 2700 4575 front\001
-4 0 0 50 0 0 32 0.0000 4 255 690 6375 3000 back\001
-4 0 0 50 0 0 32 0.0000 4 255 165 1500 5400 y\001
-4 0 0 50 0 0 32 0.0000 4 180 195 3075 6975 x\001
-4 0 0 50 0 0 32 0.0000 4 180 150 1275 7425 z\001
diff --git a/doc/tutorial/dxscreen.png b/doc/tutorial/dxscreen.png
deleted file mode 100644
index 750e5a1..0000000
Binary files a/doc/tutorial/dxscreen.png and /dev/null differ
diff --git a/doc/tutorial/epsbbox.sh b/doc/tutorial/epsbbox.sh
deleted file mode 100755
index 3edad4f..0000000
--- a/doc/tutorial/epsbbox.sh
+++ /dev/null
@@ -1,6 +0,0 @@
-#! /bin/bash
-for file in $1; do
-    if ps2eps -f -q -B -P $file; then
-      mv -f $file.eps $file
-    fi
-done
diff --git a/doc/tutorial/gfs2oogl.eps b/doc/tutorial/gfs2oogl.eps
deleted file mode 100644
index f24f5a2..0000000
--- a/doc/tutorial/gfs2oogl.eps
+++ /dev/null
@@ -1,23183 +0,0 @@
-%!PS-Adobe-2.0 EPSF-2.0
-%%Title: gfs2oogl.eps
-%%Creator: fig2dev Version 3.2.3 Patchlevel 
-%%CreationDate: Mon Jun 17 11:19:36 2002
-%%For: popinet at popinet (Stephane Popinet,,,)
-%%BoundingBox: 0 0 311 364
-%%Magnification: 1.0000
-%%EndComments
-/$F2psDict 200 dict def
-$F2psDict begin
-$F2psDict /mtrx matrix put
-/col-1 {0 setgray} bind def
-/col0 {0.000 0.000 0.000 srgb} bind def
-/col1 {0.000 0.000 1.000 srgb} bind def
-/col2 {0.000 1.000 0.000 srgb} bind def
-/col3 {0.000 1.000 1.000 srgb} bind def
-/col4 {1.000 0.000 0.000 srgb} bind def
-/col5 {1.000 0.000 1.000 srgb} bind def
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-%  polyline 
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-%  polyline 
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-%  polyline 
-% Polyline
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-% Polyline
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-% Polyline
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
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-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
-n 1896 11396 m
- 1774 11315 l gs col0 s gr 
-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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- 2041 11503 l gs col0 s gr 
-%  polyline 
-% Polyline
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- 1921 11463 l gs col0 s gr 
-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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- 2046 11664 l gs col0 s gr 
-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
-% Polyline
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-n 1556 12332 m
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-% Polyline
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-%  polyline 
-% Polyline
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-% Polyline
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
-% Polyline
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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-%  polyline 
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diff --git a/doc/tutorial/gfsview.png b/doc/tutorial/gfsview.png
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Binary files a/doc/tutorial/gfsview.png and /dev/null differ
diff --git a/doc/tutorial/half-cylinder.gts b/doc/tutorial/half-cylinder.gts
deleted file mode 100644
index 3d79ad8..0000000
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diff --git a/doc/tutorial/half-cylinder.png b/doc/tutorial/half-cylinder.png
deleted file mode 100644
index 0099671..0000000
Binary files a/doc/tutorial/half-cylinder.png and /dev/null differ
diff --git a/doc/tutorial/init_periodic.c b/doc/tutorial/init_periodic.c
deleted file mode 100644
index ea0a169..0000000
--- a/doc/tutorial/init_periodic.c
+++ /dev/null
@@ -1,146 +0,0 @@
-#include <math.h>
-#include <stdlib.h>
-#include <gfs.h>
-
-/* InitPeriodic: Header */
-
-typedef struct _InitPeriodic         InitPeriodic;
-
-struct _InitPeriodic {
-  /*< private >*/
-  GfsInit parent;
-
-  /*< public >*/
-  gdouble m;
-};
-
-typedef struct _InitPeriodicClass    InitPeriodicClass;
-
-struct _InitPeriodicClass {
-  /*< private >*/
-  GfsInitClass parent_class;
-
-  /*< public >*/
-  /* add extra methods here */
-};
-
-#define INIT_PERIODIC(obj)            GTS_OBJECT_CAST (obj,\
-					         InitPeriodic,\
-					         init_periodic_class ())
-#define INIT_PERIODIC_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 InitPeriodicClass,\
-						 init_periodic_class())
-#define IS_INIT_PERIODIC(obj)         (gts_object_is_from_class (obj,\
-						 init_periodic_class ()))
-
-InitPeriodicClass * init_periodic_class  (void);
-InitPeriodic * init_periodic_new    (InitPeriodicClass * klass);
-
-/* InitPeriodic: Object */
-
-static void init_periodic_read (GtsObject ** o, GtsFile * fp)
-{
-  /* call read method of parent */
-  if (GTS_OBJECT_CLASS (init_periodic_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (init_periodic_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (m)");
-    return;
-  }
-  INIT_PERIODIC (*o)->m = atof (fp->token->str);
-
-  /* do not forget to prepare for next read */
-  gts_file_next_token (fp);
-}
-
-static void init_periodic_write (GtsObject * o, FILE * fp)
-{
-  /* call write method of parent */
-  if (GTS_OBJECT_CLASS (init_periodic_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (init_periodic_class ())->parent_class->write) 
-      (o, fp);
-  
-  fprintf (fp, " %g", INIT_PERIODIC (o)->m);
-}
-
-static void init_velocity (FttCell * cell,
-                           InitPeriodic * init)
-{
-  FttVector pos;
-
-  ftt_cell_pos (cell, &pos);
-  GFS_STATE (cell)->u = 
-    - cos (2.*init->m*M_PI*pos.x)*sin (2.*init->m*M_PI*pos.y);
-  GFS_STATE (cell)->v =   
-    sin (2.*init->m*M_PI*pos.x)*cos (2.*init->m*M_PI*pos.y);
-}
-
-static gboolean init_periodic_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (init_periodic_class ())->parent_class)->event) (event, sim)) {
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), 
-                              FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-                              (FttCellTraverseFunc) init_velocity,
-                              event);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void init_periodic_class_init (InitPeriodicClass * klass)
-{
-  /* define new methods and overload inherited methods here */
-
-  GFS_EVENT_CLASS (klass)->event = init_periodic_event;
-  GTS_OBJECT_CLASS (klass)->read = init_periodic_read;
-  GTS_OBJECT_CLASS (klass)->write = init_periodic_write;
-}
-
-static void init_periodic_init (InitPeriodic * object)
-{
-  object->m = 1.;
-}
-
-InitPeriodicClass * init_periodic_class (void)
-{
-  static InitPeriodicClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo init_periodic_info = {
-      "InitPeriodic",
-      sizeof (InitPeriodic),
-      sizeof (InitPeriodicClass),
-      (GtsObjectClassInitFunc) init_periodic_class_init,
-      (GtsObjectInitFunc) init_periodic_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_init_class ()),
-				  &init_periodic_info);
-  }
-
-  return klass;
-}
-
-InitPeriodic * init_periodic_new (InitPeriodicClass * klass)
-{
-  InitPeriodic * object;
-
-  object = INIT_PERIODIC (gts_object_new (GTS_OBJECT_CLASS (klass)));
-
-  return object;
-}
-
-/* Initialize module */
-
-const gchar * g_module_check_init (void);
-
-const gchar * g_module_check_init (void)
-{
-  init_periodic_class ();
-  return NULL;
-}
diff --git a/doc/tutorial/refined1.eps b/doc/tutorial/refined1.eps
deleted file mode 100644
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-1 0 0 0 151.538 307.834 165.9 307.834 165.9 322.201 151.538 322.201 151.538 307.834 0.505882 1 0.521569 epoly
-1 0 0 0 165.9 307.834 180.262 307.834 180.262 322.201 165.9 322.201 165.9 307.834 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 293.467 165.9 293.467 165.9 307.834 151.538 307.834 151.538 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 165.9 293.467 180.262 293.467 180.262 307.834 165.9 307.834 165.9 293.467 0.498039 1 0.529412 epoly
-1 0 0 0 180.262 336.568 194.625 336.568 194.625 350.935 180.262 350.935 180.262 336.568 0.509804 1 0.517647 epoly
-1 0 0 0 194.625 336.568 208.987 336.568 208.987 350.935 194.625 350.935 194.625 336.568 0.501961 1 0.52549 epoly
-1 0 0 0 180.262 322.201 194.625 322.201 194.625 336.568 180.262 336.568 180.262 322.201 0.509804 1 0.517647 epoly
-1 0 0 0 194.625 322.201 208.987 322.201 208.987 336.568 194.625 336.568 194.625 322.201 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 336.568 223.349 336.568 223.349 350.935 208.987 350.935 208.987 336.568 0.498039 1 0.529412 epoly
-1 0 0 0 223.349 336.568 237.711 336.568 237.711 350.935 223.349 350.935 223.349 336.568 0.501961 1 0.52549 epoly
-1 0 0 0 208.987 322.201 223.349 322.201 223.349 336.568 208.987 336.568 208.987 322.201 0.501961 1 0.52549 epoly
-1 0 0 0 223.349 322.201 237.711 322.201 237.711 336.568 223.349 336.568 223.349 322.201 0.501961 1 0.52549 epoly
-1 0 0 0 180.262 307.834 194.625 307.834 194.625 322.201 180.262 322.201 180.262 307.834 0.498039 1 0.529412 epoly
-1 0 0 0 194.625 307.834 208.987 307.834 208.987 322.201 194.625 322.201 194.625 307.834 0.513725 1 0.513725 epoly
-1 0 0 0 180.262 293.467 194.625 293.467 194.625 307.834 180.262 307.834 180.262 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 194.625 300.651 201.806 300.651 201.806 307.834 194.625 307.834 194.625 300.651 0.513725 1 0.513725 epoly
-1 0 0 0 201.806 300.651 208.987 300.651 208.987 307.834 201.806 307.834 201.806 300.651 0.505882 1 0.521569 epoly
-1 0 0 0 194.625 293.467 201.806 293.467 201.806 300.651 194.625 300.651 194.625 293.467 0.509804 1 0.517647 epoly
-1 0 0 0 201.806 293.467 208.987 293.467 208.987 300.651 201.806 300.651 201.806 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 208.987 315.018 216.168 315.018 216.168 322.201 208.987 322.201 208.987 315.018 0.513725 1 0.513725 epoly
-1 0 0 0 216.168 315.018 223.349 315.018 223.349 322.201 216.168 322.201 216.168 315.018 0.513725 1 0.513725 epoly
-1 0 0 0 208.987 307.834 216.168 307.834 216.168 315.018 208.987 315.018 208.987 307.834 0.517647 1 0.509804 epoly
-1 0 0 0 216.168 307.834 223.349 307.834 223.349 315.018 216.168 315.018 216.168 307.834 0.513725 1 0.513725 epoly
-1 0 0 0 223.349 315.018 230.53 315.018 230.53 322.201 223.349 322.201 223.349 315.018 0.513725 1 0.513725 epoly
-1 0 0 0 230.53 315.018 237.711 315.018 237.711 322.201 230.53 322.201 230.53 315.018 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 307.834 230.53 307.834 230.53 315.018 223.349 315.018 223.349 307.834 0.517647 1 0.509804 epoly
-1 0 0 0 230.53 307.834 237.711 307.834 237.711 315.018 230.53 315.018 230.53 307.834 0.521569 1 0.505882 epoly
-1 0 0 0 208.987 300.651 216.168 300.651 216.168 307.834 208.987 307.834 208.987 300.651 0.509804 1 0.517647 epoly
-1 0 0 0 216.168 300.651 223.349 300.651 223.349 307.834 216.168 307.834 216.168 300.651 0.509804 1 0.513725 epoly
-1 0 0 0 208.987 293.467 216.168 293.467 216.168 300.651 208.987 300.651 208.987 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 216.168 293.467 223.349 293.467 223.349 300.651 216.168 300.651 216.168 293.467 0.482353 1 0.545098 epoly
-1 0 0 0 223.349 300.651 230.53 300.651 230.53 307.834 223.349 307.834 223.349 300.651 0.501961 1 0.52549 epoly
-1 0 0 0 230.53 304.243 234.121 304.243 234.121 307.834 230.53 307.834 230.53 304.243 0.517647 1 0.509804 epoly
-1 0 0 0 234.121 304.243 237.711 304.243 237.711 307.834 234.121 307.834 234.121 304.243 0.529412 1 0.498039 epoly
-1 0 0 0 230.53 300.651 234.121 300.651 234.121 304.243 230.53 304.243 230.53 300.651 0.494118 1 0.533333 epoly
-1 0 0 0 234.121 300.651 237.711 300.651 237.711 304.243 234.121 304.243 234.121 300.651 0.54902 1 0.478431 epoly
-1 0 0 0 223.349 297.059 226.94 297.059 226.94 300.651 223.349 300.651 223.349 297.059 0.478431 1 0.54902 epoly
-1 0 0 0 226.94 297.059 230.53 297.059 230.53 300.651 226.94 300.651 226.94 297.059 0.462745 1 0.564706 epoly
-1 0 0 0 223.349 293.467 226.94 293.467 226.94 297.059 223.349 297.059 223.349 293.467 0.407843 1 0.619608 epoly
-1 0 0 0 226.94 293.467 230.53 293.467 230.53 297.059 226.94 297.059 226.94 293.467 0.380392 1 0.647059 epoly
-1 0 0 0 230.53 297.059 234.121 297.059 234.121 300.651 230.53 300.651 230.53 297.059 0.458824 1 0.564706 epoly
-1 0 0 0 234.121 297.059 237.711 297.059 237.711 300.651 234.121 300.651 234.121 297.059 0.388235 1 0.639216 epoly
-1 0 0 0 230.53 293.467 234.121 293.467 234.121 297.059 230.53 297.059 230.53 293.467 0.298039 1 0.729412 epoly
-1 0 0 0 234.121 293.467 237.711 293.467 237.711 297.059 234.121 297.059 234.121 293.467 0 0 0.701961 epoly
-1 0 0 0 122.814 279.101 137.176 279.101 137.176 293.467 122.814 293.467 122.814 279.101 0.505882 1 0.521569 epoly
-1 0 0 0 137.176 279.101 151.538 279.101 151.538 293.467 137.176 293.467 137.176 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 122.814 264.734 137.176 264.734 137.176 279.101 122.814 279.101 122.814 264.734 0.509804 1 0.517647 epoly
-1 0 0 0 137.176 271.917 144.357 271.917 144.357 279.101 137.176 279.101 137.176 271.917 0.513725 1 0.513725 epoly
-1 0 0 0 144.357 271.917 151.538 271.917 151.538 279.101 144.357 279.101 144.357 271.917 0.517647 1 0.509804 epoly
-1 0 0 0 137.176 264.734 144.357 264.734 144.357 271.917 137.176 271.917 137.176 264.734 0.513725 1 0.513725 epoly
-1 0 0 0 144.357 264.734 151.538 264.734 151.538 271.917 144.357 271.917 144.357 264.734 0.517647 1 0.509804 epoly
-1 0 0 0 151.538 279.101 165.9 279.101 165.9 293.467 151.538 293.467 151.538 279.101 0.513725 1 0.513725 epoly
-1 0 0 0 165.9 279.101 180.262 279.101 180.262 293.467 165.9 293.467 165.9 279.101 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 264.734 165.9 264.734 165.9 279.101 151.538 279.101 151.538 264.734 0.513725 1 0.513725 epoly
-1 0 0 0 165.9 271.917 173.081 271.917 173.081 279.101 165.9 279.101 165.9 271.917 0.505882 1 0.521569 epoly
-1 0 0 0 173.081 271.917 180.262 271.917 180.262 279.101 173.081 279.101 173.081 271.917 0.509804 1 0.517647 epoly
-1 0 0 0 165.9 264.734 173.081 264.734 173.081 271.917 165.9 271.917 165.9 264.734 0.509804 1 0.513725 epoly
-1 0 0 0 173.081 264.734 180.262 264.734 180.262 271.917 173.081 271.917 173.081 264.734 0.498039 1 0.529412 epoly
-1 0 0 0 122.814 250.367 137.176 250.367 137.176 264.734 122.814 264.734 122.814 250.367 0.509804 1 0.517647 epoly
-1 0 0 0 137.176 250.367 151.538 250.367 151.538 264.734 137.176 264.734 137.176 250.367 0.513725 1 0.513725 epoly
-1 0 0 0 122.814 236 137.176 236 137.176 250.367 122.814 250.367 122.814 236 0.505882 1 0.521569 epoly
-1 0 0 0 137.176 236 151.538 236 151.538 250.367 137.176 250.367 137.176 236 0.509804 1 0.517647 epoly
-1 0 0 0 151.538 257.55 158.719 257.55 158.719 264.734 151.538 264.734 151.538 257.55 0.521569 1 0.505882 epoly
-1 0 0 0 158.719 257.55 165.9 257.55 165.9 264.734 158.719 264.734 158.719 257.55 0.517647 1 0.509804 epoly
-1 0 0 0 151.538 250.367 158.719 250.367 158.719 257.55 151.538 257.55 151.538 250.367 0.521569 1 0.505882 epoly
-1 0 0 0 158.719 250.367 165.9 250.367 165.9 257.55 158.719 257.55 158.719 250.367 0.501961 1 0.52549 epoly
-1 0 0 0 165.9 257.55 173.081 257.55 173.081 264.734 165.9 264.734 165.9 257.55 0.513725 1 0.513725 epoly
-1 0 0 0 173.081 257.55 180.262 257.55 180.262 264.734 173.081 264.734 173.081 257.55 0.486275 1 0.541176 epoly
-1 0 0 0 165.9 253.959 169.491 253.959 169.491 257.55 165.9 257.55 165.9 253.959 0.509804 1 0.517647 epoly
-1 0 0 0 169.491 253.959 173.081 253.959 173.081 257.55 169.491 257.55 169.491 253.959 0.533333 1 0.494118 epoly
-1 0 0 0 165.9 250.367 169.491 250.367 169.491 253.959 165.9 253.959 165.9 250.367 0.494118 1 0.533333 epoly
-1 0 0 0 169.491 250.367 173.081 250.367 173.081 253.959 169.491 253.959 169.491 250.367 0.560784 1 0.466667 epoly
-1 0 0 0 173.081 253.959 176.672 253.959 176.672 257.55 173.081 257.55 173.081 253.959 0.52549 1 0.501961 epoly
-1 0 0 0 176.672 253.959 180.262 253.959 180.262 257.55 176.672 257.55 176.672 253.959 0.505882 1 0.521569 epoly
-1 0 0 0 173.081 250.367 176.672 250.367 176.672 253.959 173.081 253.959 173.081 250.367 0.596078 1 0.431373 epoly
-1 0 0 0 176.672 250.367 180.262 250.367 180.262 253.959 176.672 253.959 176.672 250.367 0.494118 1 0.533333 epoly
-1 0 0 0 151.538 243.183 158.719 243.183 158.719 250.367 151.538 250.367 151.538 243.183 0.509804 1 0.517647 epoly
-1 0 0 0 158.719 243.183 165.9 243.183 165.9 250.367 158.719 250.367 158.719 243.183 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 236 158.719 236 158.719 243.183 151.538 243.183 151.538 236 0.513725 1 0.513725 epoly
-1 0 0 0 158.719 236 165.9 236 165.9 243.183 158.719 243.183 158.719 236 0.505882 1 0.521569 epoly
-1 0 0 0 165.9 243.183 173.081 243.183 173.081 250.367 165.9 250.367 165.9 243.183 0.52549 1 0.501961 epoly
-1 0 0 0 173.081 246.775 176.672 246.775 176.672 250.367 173.081 250.367 173.081 246.775 0.658824 1 0.368627 epoly
-1 0 0 0 176.672 246.775 180.262 246.775 180.262 250.367 176.672 250.367 176.672 246.775 0.490196 1 0.537255 epoly
-1 0 0 0 173.081 243.183 176.672 243.183 176.672 246.775 173.081 246.775 173.081 243.183 0.619608 1 0.407843 epoly
-1 0 0 0 176.672 243.183 180.262 243.183 180.262 246.775 176.672 246.775 176.672 243.183 0.505882 1 0.521569 epoly
-1 0 0 0 165.9 236 173.081 236 173.081 243.183 165.9 243.183 165.9 236 0.498039 1 0.529412 epoly
-1 0 0 0 173.081 239.592 176.672 239.592 176.672 243.183 173.081 243.183 173.081 239.592 0.54902 1 0.478431 epoly
-1 0 0 0 176.672 239.592 180.262 239.592 180.262 243.183 176.672 243.183 176.672 239.592 0.498039 1 0.529412 epoly
-1 0 0 0 173.081 236 176.672 236 176.672 239.592 173.081 239.592 173.081 236 0.505882 1 0.521569 epoly
-1 0 0 0 176.672 236 180.262 236 180.262 239.592 176.672 239.592 176.672 236 0.501961 1 0.52549 epoly
-1 0 0 0 180.262 286.284 187.444 286.284 187.444 293.467 180.262 293.467 180.262 286.284 0.498039 1 0.529412 epoly
-1 0 0 0 187.444 286.284 194.625 286.284 194.625 293.467 187.444 293.467 187.444 286.284 0.501961 1 0.52549 epoly
-1 0 0 0 180.262 279.101 187.444 279.101 187.444 286.284 180.262 286.284 180.262 279.101 0.513725 1 0.513725 epoly
-1 0 0 0 187.444 279.101 194.625 279.101 194.625 286.284 187.444 286.284 187.444 279.101 0.498039 1 0.529412 epoly
-1 0 0 0 194.625 286.284 201.806 286.284 201.806 293.467 194.625 293.467 194.625 286.284 0.513725 1 0.513725 epoly
-1 0 0 0 201.806 289.876 205.396 289.876 205.396 293.467 201.806 293.467 201.806 289.876 0.529412 1 0.498039 epoly
-1 0 0 0 205.396 289.876 208.987 289.876 208.987 293.467 205.396 293.467 205.396 289.876 0.47451 1 0.54902 epoly
-1 0 0 0 201.806 286.284 205.396 286.284 205.396 289.876 201.806 289.876 201.806 286.284 0.462745 1 0.564706 epoly
-1 0 0 0 205.396 286.284 208.987 286.284 208.987 289.876 205.396 289.876 205.396 286.284 0.443137 1 0.584314 epoly
-1 0 0 0 194.625 282.692 198.215 282.692 198.215 286.284 194.625 286.284 194.625 282.692 0.47451 1 0.552941 epoly
-1 0 0 0 198.215 282.692 201.806 282.692 201.806 286.284 198.215 286.284 198.215 282.692 0.45098 1 0.576471 epoly
-1 0 0 0 194.625 279.101 198.215 279.101 198.215 282.692 194.625 282.692 194.625 279.101 0.431373 1 0.596078 epoly
-1 0 0 0 198.215 279.101 201.806 279.101 201.806 282.692 198.215 282.692 198.215 279.101 0.435294 1 0.592157 epoly
-1 0 0 0 201.806 282.692 205.396 282.692 205.396 286.284 201.806 286.284 201.806 282.692 0.376471 1 0.65098 epoly
-1 0 0 0 205.396 282.692 208.987 282.692 208.987 286.284 205.396 286.284 205.396 282.692 0.443137 1 0.584314 epoly
-1 0 0 0 201.806 279.101 205.396 279.101 205.396 282.692 201.806 282.692 201.806 279.101 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 271.917 187.444 271.917 187.444 279.101 180.262 279.101 180.262 271.917 0.501961 1 0.52549 epoly
-1 0 0 0 187.444 275.509 191.034 275.509 191.034 279.101 187.444 279.101 187.444 275.509 0.498039 1 0.529412 epoly
-1 0 0 0 191.034 275.509 194.625 275.509 194.625 279.101 191.034 279.101 191.034 275.509 0.431373 1 0.596078 epoly
-1 0 0 0 187.444 271.917 191.034 271.917 191.034 275.509 187.444 275.509 187.444 271.917 0.454902 1 0.572549 epoly
-1 0 0 0 191.034 271.917 194.625 271.917 194.625 275.509 191.034 275.509 191.034 271.917 0.329412 1 0.698039 epoly
-1 0 0 0 180.262 268.325 183.853 268.325 183.853 271.917 180.262 271.917 180.262 268.325 0.494118 1 0.533333 epoly
-1 0 0 0 183.853 268.325 187.444 268.325 187.444 271.917 183.853 271.917 183.853 268.325 0.462745 1 0.564706 epoly
-1 0 0 0 180.262 264.734 183.853 264.734 183.853 268.325 180.262 268.325 180.262 264.734 0.47451 1 0.552941 epoly
-1 0 0 0 183.853 264.734 187.444 264.734 187.444 268.325 183.853 268.325 183.853 264.734 0.407843 1 0.619608 epoly
-1 0 0 0 187.444 268.325 191.034 268.325 191.034 271.917 187.444 271.917 187.444 268.325 0.364706 1 0.662745 epoly
-1 0 0 0 191.034 268.325 194.625 268.325 194.625 271.917 191.034 271.917 191.034 268.325 0.505882 1 0.521569 epoly
-1 0 0 0 187.444 264.734 191.034 264.734 191.034 268.325 187.444 268.325 187.444 264.734 0.301961 1 0.72549 epoly
-1 0 0 0 194.625 275.509 198.215 275.509 198.215 279.101 194.625 279.101 194.625 275.509 0.341176 1 0.686275 epoly
-1 0 0 0 198.215 275.509 201.806 275.509 201.806 279.101 198.215 279.101 198.215 275.509 0.505882 1 0.521569 epoly
-1 0 0 0 194.625 271.917 198.215 271.917 198.215 275.509 194.625 275.509 194.625 271.917 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 289.876 212.577 289.876 212.577 293.467 208.987 293.467 208.987 289.876 0.458824 1 0.564706 epoly
-1 0 0 0 212.577 289.876 216.168 289.876 216.168 293.467 212.577 293.467 212.577 289.876 0.462745 1 0.564706 epoly
-1 0 0 0 208.987 286.284 212.577 286.284 212.577 289.876 208.987 289.876 208.987 286.284 0.376471 1 0.65098 epoly
-1 0 0 0 212.577 286.284 216.168 286.284 216.168 289.876 212.577 289.876 212.577 286.284 0.388235 1 0.639216 epoly
-1 0 0 0 216.168 289.876 219.759 289.876 219.759 293.467 216.168 293.467 216.168 289.876 0.392157 1 0.635294 epoly
-1 0 0 0 219.759 289.876 223.349 289.876 223.349 293.467 219.759 293.467 219.759 289.876 0.313725 1 0.713725 epoly
-1 0 0 0 216.168 286.284 219.759 286.284 219.759 289.876 216.168 289.876 216.168 286.284 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 282.692 212.577 282.692 212.577 286.284 208.987 286.284 208.987 282.692 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 289.876 226.94 289.876 226.94 293.467 223.349 293.467 223.349 289.876 0.305882 1 0.721569 epoly
-1 0 0 0 226.94 289.876 230.53 289.876 230.53 293.467 226.94 293.467 226.94 289.876 0.333333 1 0.694118 epoly
-1 0 0 0 230.53 289.876 234.121 289.876 234.121 293.467 230.53 293.467 230.53 289.876 0.411765 1 0.615686 epoly
-1 0 0 0 234.121 289.876 237.711 289.876 237.711 293.467 234.121 293.467 234.121 289.876 0 0.0941176 1 epoly
-1 0 0 0 234.121 286.284 237.711 286.284 237.711 289.876 234.121 289.876 234.121 286.284 0.545098 1 0.482353 epoly
-1 0 0 0 234.121 282.692 237.711 282.692 237.711 286.284 234.121 286.284 234.121 282.692 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 279.101 237.711 279.101 237.711 282.692 234.121 282.692 234.121 279.101 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 275.509 237.711 275.509 237.711 279.101 234.121 279.101 234.121 275.509 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 271.917 237.711 271.917 237.711 275.509 234.121 275.509 234.121 271.917 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 268.325 237.711 268.325 237.711 271.917 234.121 271.917 234.121 268.325 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 264.734 237.711 264.734 237.711 268.325 234.121 268.325 234.121 264.734 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 261.142 183.853 261.142 183.853 264.734 180.262 264.734 180.262 261.142 0.423529 1 0.603922 epoly
-1 0 0 0 183.853 261.142 187.444 261.142 187.444 264.734 183.853 264.734 183.853 261.142 0.380392 1 0.647059 epoly
-1 0 0 0 180.262 257.55 183.853 257.55 183.853 261.142 180.262 261.142 180.262 257.55 0.403922 1 0.623529 epoly
-1 0 0 0 183.853 257.55 187.444 257.55 187.444 261.142 183.853 261.142 183.853 257.55 0.341176 1 0.686275 epoly
-1 0 0 0 187.444 261.142 191.034 261.142 191.034 264.734 187.444 264.734 187.444 261.142 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 253.959 183.853 253.959 183.853 257.55 180.262 257.55 180.262 253.959 0.454902 1 0.572549 epoly
-1 0 0 0 183.853 253.959 187.444 253.959 187.444 257.55 183.853 257.55 183.853 253.959 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 250.367 183.853 250.367 183.853 253.959 180.262 253.959 180.262 250.367 0.403922 1 0.623529 epoly
-1 0 0 0 180.262 246.775 183.853 246.775 183.853 250.367 180.262 250.367 180.262 246.775 0.407843 1 0.619608 epoly
-1 0 0 0 180.262 243.183 183.853 243.183 183.853 246.775 180.262 246.775 180.262 243.183 0.411765 1 0.615686 epoly
-1 0 0 0 180.262 239.592 183.853 239.592 183.853 243.183 180.262 243.183 180.262 239.592 0.443137 1 0.584314 epoly
-1 0 0 0 180.262 236 183.853 236 183.853 239.592 180.262 239.592 180.262 236 0.482353 1 0.545098 epoly
-1 0 0 0 234.121 261.142 237.711 261.142 237.711 264.734 234.121 264.734 234.121 261.142 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 257.55 237.711 257.55 237.711 261.142 234.121 261.142 234.121 257.55 0.513725 1 0.513725 epoly
-1 0 0 0 234.121 253.959 237.711 253.959 237.711 257.55 234.121 257.55 234.121 253.959 0.509804 1 0.517647 epoly
-1 0 0 0 234.121 250.367 237.711 250.367 237.711 253.959 234.121 253.959 234.121 250.367 0.498039 1 0.529412 epoly
-1 0 0 0 234.121 246.775 237.711 246.775 237.711 250.367 234.121 250.367 234.121 246.775 0.501961 1 0.52549 epoly
-1 0 0 0 234.121 243.183 237.711 243.183 237.711 246.775 234.121 246.775 234.121 243.183 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 239.592 237.711 239.592 237.711 243.183 234.121 243.183 234.121 239.592 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 236 237.711 236 237.711 239.592 234.121 239.592 234.121 236 0.501961 1 0.52549 epoly
-1 0 0 0 237.711 408.402 295.16 408.402 295.16 465.87 237.711 465.87 237.711 408.402 0.501961 1 0.52549 epoly
-1 0 0 0 295.16 408.402 352.609 408.402 352.609 465.87 295.16 465.87 295.16 408.402 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 379.669 266.436 379.669 266.436 408.402 237.711 408.402 237.711 379.669 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 379.669 295.16 379.669 295.16 408.402 266.436 408.402 266.436 379.669 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 350.935 266.436 350.935 266.436 379.669 237.711 379.669 237.711 350.935 0.509804 1 0.517647 epoly
-1 0 0 0 266.436 350.935 295.16 350.935 295.16 379.669 266.436 379.669 266.436 350.935 0.505882 1 0.517647 epoly
-1 0 0 0 295.16 379.669 323.885 379.669 323.885 408.402 295.16 408.402 295.16 379.669 0.505882 1 0.521569 epoly
-1 0 0 0 323.885 379.669 352.609 379.669 352.609 408.402 323.885 408.402 323.885 379.669 0.505882 1 0.521569 epoly
-1 0 0 0 295.16 350.935 323.885 350.935 323.885 379.669 295.16 379.669 295.16 350.935 0.501961 1 0.52549 epoly
-1 0 0 0 323.885 350.935 352.609 350.935 352.609 379.669 323.885 379.669 323.885 350.935 0.501961 1 0.52549 epoly
-1 0 0 0 352.609 408.402 410.058 408.402 410.058 465.87 352.609 465.87 352.609 408.402 0.505882 1 0.521569 epoly
-1 0 0 0 410.058 408.402 467.507 408.402 467.507 465.87 410.058 465.87 410.058 408.402 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 350.935 410.058 350.935 410.058 408.402 352.609 408.402 352.609 350.935 0.505882 1 0.521569 epoly
-1 0 0 0 410.058 350.935 467.507 350.935 467.507 408.402 410.058 408.402 410.058 350.935 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 336.568 252.074 336.568 252.074 350.935 237.711 350.935 237.711 336.568 0.509804 1 0.517647 epoly
-1 0 0 0 252.074 336.568 266.436 336.568 266.436 350.935 252.074 350.935 252.074 336.568 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 329.385 244.892 329.385 244.892 336.568 237.711 336.568 237.711 329.385 0.494118 1 0.533333 epoly
-1 0 0 0 244.892 329.385 252.074 329.385 252.074 336.568 244.892 336.568 244.892 329.385 0.498039 1 0.529412 epoly
-1 0 0 0 237.711 322.201 244.892 322.201 244.892 329.385 237.711 329.385 237.711 322.201 0.486275 1 0.541176 epoly
-1 0 0 0 244.892 325.793 248.483 325.793 248.483 329.385 244.892 329.385 244.892 325.793 0.482353 1 0.545098 epoly
-1 0 0 0 248.483 325.793 252.074 325.793 252.074 329.385 248.483 329.385 248.483 325.793 0.482353 1 0.545098 epoly
-1 0 0 0 244.892 322.201 248.483 322.201 248.483 325.793 244.892 325.793 244.892 322.201 0.478431 1 0.54902 epoly
-1 0 0 0 248.483 322.201 252.074 322.201 252.074 325.793 248.483 325.793 248.483 322.201 0.47451 1 0.552941 epoly
-1 0 0 0 252.074 329.385 259.255 329.385 259.255 336.568 252.074 336.568 252.074 329.385 0.498039 1 0.529412 epoly
-1 0 0 0 259.255 329.385 266.436 329.385 266.436 336.568 259.255 336.568 259.255 329.385 0.505882 1 0.521569 epoly
-1 0 0 0 252.074 322.201 259.255 322.201 259.255 329.385 252.074 329.385 252.074 322.201 0.486275 1 0.541176 epoly
-1 0 0 0 259.255 322.201 266.436 322.201 266.436 329.385 259.255 329.385 259.255 322.201 0.498039 1 0.529412 epoly
-1 0 0 0 266.436 336.568 280.798 336.568 280.798 350.935 266.436 350.935 266.436 336.568 0.505882 1 0.521569 epoly
-1 0 0 0 280.798 336.568 295.16 336.568 295.16 350.935 280.798 350.935 280.798 336.568 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 322.201 280.798 322.201 280.798 336.568 266.436 336.568 266.436 322.201 0.505882 1 0.521569 epoly
-1 0 0 0 280.798 322.201 295.16 322.201 295.16 336.568 280.798 336.568 280.798 322.201 0.501961 1 0.52549 epoly
-1 0 0 0 237.711 315.018 244.892 315.018 244.892 322.201 237.711 322.201 237.711 315.018 0.498039 1 0.529412 epoly
-1 0 0 0 244.892 315.018 252.074 315.018 252.074 322.201 244.892 322.201 244.892 315.018 0.490196 1 0.537255 epoly
-1 0 0 0 237.711 307.834 244.892 307.834 244.892 315.018 237.711 315.018 237.711 307.834 0.517647 1 0.509804 epoly
-1 0 0 0 244.892 307.834 252.074 307.834 252.074 315.018 244.892 315.018 244.892 307.834 0.517647 1 0.509804 epoly
-1 0 0 0 252.074 315.018 259.255 315.018 259.255 322.201 252.074 322.201 252.074 315.018 0.486275 1 0.541176 epoly
-1 0 0 0 259.255 315.018 266.436 315.018 266.436 322.201 259.255 322.201 259.255 315.018 0.494118 1 0.533333 epoly
-1 0 0 0 252.074 307.834 259.255 307.834 259.255 315.018 252.074 315.018 252.074 307.834 0.509804 1 0.517647 epoly
-1 0 0 0 259.255 307.834 266.436 307.834 266.436 315.018 259.255 315.018 259.255 307.834 0.513725 1 0.513725 epoly
-1 0 0 0 237.711 304.243 241.302 304.243 241.302 307.834 237.711 307.834 237.711 304.243 0.541176 1 0.486275 epoly
-1 0 0 0 241.302 304.243 244.892 304.243 244.892 307.834 241.302 307.834 241.302 304.243 0.533333 1 0.494118 epoly
-1 0 0 0 237.711 300.651 241.302 300.651 241.302 304.243 237.711 304.243 237.711 300.651 0.564706 1 0.462745 epoly
-1 0 0 0 241.302 300.651 244.892 300.651 244.892 304.243 241.302 304.243 241.302 300.651 0.545098 1 0.482353 epoly
-1 0 0 0 244.892 300.651 252.074 300.651 252.074 307.834 244.892 307.834 244.892 300.651 0.494118 1 0.533333 epoly
-1 0 0 0 237.711 297.059 241.302 297.059 241.302 300.651 237.711 300.651 237.711 297.059 0.25098 1 0.776471 epoly
-1 0 0 0 241.302 297.059 244.892 297.059 244.892 300.651 241.302 300.651 241.302 297.059 0.176471 1 0.85098 epoly
-1 0 0 0 237.711 293.467 241.302 293.467 241.302 297.059 237.711 297.059 237.711 293.467 0 0 0.780392 epoly
-1 0 0 0 241.302 293.467 244.892 293.467 244.892 297.059 241.302 297.059 241.302 293.467 0 0.0745098 1 epoly
-1 0 0 0 244.892 297.059 248.483 297.059 248.483 300.651 244.892 300.651 244.892 297.059 0.2 1 0.827451 epoly
-1 0 0 0 248.483 297.059 252.074 297.059 252.074 300.651 248.483 300.651 248.483 297.059 0.356863 1 0.670588 epoly
-1 0 0 0 244.892 293.467 248.483 293.467 248.483 297.059 244.892 297.059 244.892 293.467 0 0.25098 1 epoly
-1 0 0 0 248.483 293.467 252.074 293.467 252.074 297.059 248.483 297.059 248.483 293.467 0 0.533333 1 epoly
-1 0 0 0 252.074 300.651 259.255 300.651 259.255 307.834 252.074 307.834 252.074 300.651 0.494118 1 0.533333 epoly
-1 0 0 0 259.255 304.243 262.845 304.243 262.845 307.834 259.255 307.834 259.255 304.243 0.52549 1 0.501961 epoly
-1 0 0 0 262.845 304.243 266.436 304.243 266.436 307.834 262.845 307.834 262.845 304.243 0.545098 1 0.482353 epoly
-1 0 0 0 259.255 300.651 262.845 300.651 262.845 304.243 259.255 304.243 259.255 300.651 0.521569 1 0.505882 epoly
-1 0 0 0 262.845 300.651 266.436 300.651 266.436 304.243 262.845 304.243 262.845 300.651 0.556863 1 0.470588 epoly
-1 0 0 0 252.074 297.059 255.664 297.059 255.664 300.651 252.074 300.651 252.074 297.059 0.494118 1 0.533333 epoly
-1 0 0 0 255.664 297.059 259.255 297.059 259.255 300.651 255.664 300.651 255.664 297.059 0.545098 1 0.482353 epoly
-1 0 0 0 252.074 293.467 255.664 293.467 255.664 297.059 252.074 297.059 252.074 293.467 0 0.937255 1 epoly
-1 0 0 0 255.664 293.467 259.255 293.467 259.255 297.059 255.664 297.059 255.664 293.467 0.313725 1 0.713725 epoly
-1 0 0 0 259.255 293.467 266.436 293.467 266.436 300.651 259.255 300.651 259.255 293.467 0.494118 1 0.533333 epoly
-1 0 0 0 266.436 315.018 273.617 315.018 273.617 322.201 266.436 322.201 266.436 315.018 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 315.018 280.798 315.018 280.798 322.201 273.617 322.201 273.617 315.018 0.509804 1 0.517647 epoly
-1 0 0 0 266.436 311.426 270.026 311.426 270.026 315.018 266.436 315.018 266.436 311.426 0.52549 1 0.501961 epoly
-1 0 0 0 270.026 311.426 273.617 311.426 273.617 315.018 270.026 315.018 270.026 311.426 0.52549 1 0.501961 epoly
-1 0 0 0 266.436 307.834 270.026 307.834 270.026 311.426 266.436 311.426 266.436 307.834 0.545098 1 0.482353 epoly
-1 0 0 0 270.026 307.834 273.617 307.834 273.617 311.426 270.026 311.426 270.026 307.834 0.537255 1 0.490196 epoly
-1 0 0 0 273.617 307.834 280.798 307.834 280.798 315.018 273.617 315.018 273.617 307.834 0.509804 1 0.517647 epoly
-1 0 0 0 280.798 307.834 295.16 307.834 295.16 322.201 280.798 322.201 280.798 307.834 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 304.243 270.026 304.243 270.026 307.834 266.436 307.834 266.436 304.243 0.545098 1 0.478431 epoly
-1 0 0 0 270.026 304.243 273.617 304.243 273.617 307.834 270.026 307.834 270.026 304.243 0.533333 1 0.494118 epoly
-1 0 0 0 266.436 300.651 270.026 300.651 270.026 304.243 266.436 304.243 266.436 300.651 0.541176 1 0.486275 epoly
-1 0 0 0 270.026 300.651 273.617 300.651 273.617 304.243 270.026 304.243 270.026 300.651 0.521569 1 0.505882 epoly
-1 0 0 0 273.617 300.651 280.798 300.651 280.798 307.834 273.617 307.834 273.617 300.651 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 293.467 273.617 293.467 273.617 300.651 266.436 300.651 266.436 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 273.617 293.467 280.798 293.467 280.798 300.651 273.617 300.651 273.617 293.467 0.52549 1 0.501961 epoly
-1 0 0 0 280.798 300.651 287.979 300.651 287.979 307.834 280.798 307.834 280.798 300.651 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 300.651 295.16 300.651 295.16 307.834 287.979 307.834 287.979 300.651 0.509804 1 0.517647 epoly
-1 0 0 0 280.798 293.467 287.979 293.467 287.979 300.651 280.798 300.651 280.798 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 287.979 293.467 295.16 293.467 295.16 300.651 287.979 300.651 287.979 293.467 0.498039 1 0.529412 epoly
-1 0 0 0 295.16 322.201 323.885 322.201 323.885 350.935 295.16 350.935 295.16 322.201 0.501961 1 0.52549 epoly
-1 0 0 0 323.885 322.201 352.609 322.201 352.609 350.935 323.885 350.935 323.885 322.201 0.501961 1 0.52549 epoly
-1 0 0 0 295.16 307.834 309.522 307.834 309.522 322.201 295.16 322.201 295.16 307.834 0.501961 1 0.52549 epoly
-1 0 0 0 309.522 307.834 323.885 307.834 323.885 322.201 309.522 322.201 309.522 307.834 0.501961 1 0.52549 epoly
-1 0 0 0 295.16 293.467 309.522 293.467 309.522 307.834 295.16 307.834 295.16 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 309.522 293.467 323.885 293.467 323.885 307.834 309.522 307.834 309.522 293.467 0.498039 1 0.529412 epoly
-1 0 0 0 323.885 293.467 352.609 293.467 352.609 322.201 323.885 322.201 323.885 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 289.876 241.302 289.876 241.302 293.467 237.711 293.467 237.711 289.876 0 0.282353 1 epoly
-1 0 0 0 241.302 289.876 244.892 289.876 244.892 293.467 241.302 293.467 241.302 289.876 0 0.415686 1 epoly
-1 0 0 0 237.711 286.284 241.302 286.284 241.302 289.876 237.711 289.876 237.711 286.284 0.670588 1 0.356863 epoly
-1 0 0 0 241.302 286.284 244.892 286.284 244.892 289.876 241.302 289.876 241.302 286.284 0.419608 1 0.607843 epoly
-1 0 0 0 244.892 289.876 248.483 289.876 248.483 293.467 244.892 293.467 244.892 289.876 0 0.164706 1 epoly
-1 0 0 0 248.483 289.876 252.074 289.876 252.074 293.467 248.483 293.467 248.483 289.876 0 0 0.913725 epoly
-1 0 0 0 244.892 286.284 248.483 286.284 248.483 289.876 244.892 289.876 244.892 286.284 0 0.909804 1 epoly
-1 0 0 0 248.483 286.284 252.074 286.284 252.074 289.876 248.483 289.876 248.483 286.284 0 0.309804 1 epoly
-1 0 0 0 237.711 282.692 241.302 282.692 241.302 286.284 237.711 286.284 237.711 282.692 0.592157 1 0.435294 epoly
-1 0 0 0 241.302 282.692 244.892 282.692 244.892 286.284 241.302 286.284 241.302 282.692 0.207843 1 0.819608 epoly
-1 0 0 0 237.711 279.101 241.302 279.101 241.302 282.692 237.711 282.692 237.711 279.101 0.541176 1 0.486275 epoly
-1 0 0 0 241.302 279.101 244.892 279.101 244.892 282.692 241.302 282.692 241.302 279.101 0.0823529 1 0.945098 epoly
-1 0 0 0 244.892 282.692 248.483 282.692 248.483 286.284 244.892 286.284 244.892 282.692 0 0.611765 1 epoly
-1 0 0 0 248.483 282.692 252.074 282.692 252.074 286.284 248.483 286.284 248.483 282.692 0 0.192157 1 epoly
-1 0 0 0 244.892 279.101 248.483 279.101 248.483 282.692 244.892 282.692 244.892 279.101 0 0.431373 1 epoly
-1 0 0 0 248.483 279.101 252.074 279.101 252.074 282.692 248.483 282.692 248.483 279.101 0 0 0.862745 epoly
-1 0 0 0 252.074 289.876 255.664 289.876 255.664 293.467 252.074 293.467 252.074 289.876 0 0.0352941 1 epoly
-1 0 0 0 255.664 289.876 259.255 289.876 259.255 293.467 255.664 293.467 255.664 289.876 0 0.596078 1 epoly
-1 0 0 0 252.074 286.284 255.664 286.284 255.664 289.876 252.074 289.876 252.074 286.284 0 0 0.768627 epoly
-1 0 0 0 255.664 286.284 259.255 286.284 259.255 289.876 255.664 289.876 255.664 286.284 0 0 0.85098 epoly
-1 0 0 0 259.255 289.876 262.845 289.876 262.845 293.467 259.255 293.467 259.255 289.876 0.168627 1 0.858824 epoly
-1 0 0 0 262.845 289.876 266.436 289.876 266.436 293.467 262.845 293.467 262.845 289.876 0.407843 1 0.619608 epoly
-1 0 0 0 259.255 286.284 262.845 286.284 262.845 289.876 259.255 289.876 259.255 286.284 0 0.556863 1 epoly
-1 0 0 0 262.845 286.284 266.436 286.284 266.436 289.876 262.845 289.876 262.845 286.284 0.168627 1 0.858824 epoly
-1 0 0 0 252.074 282.692 255.664 282.692 255.664 286.284 252.074 286.284 252.074 282.692 0 0 0.831373 epoly
-1 0 0 0 255.664 282.692 259.255 282.692 259.255 286.284 255.664 286.284 255.664 282.692 0 0 0.631373 epoly
-1 0 0 0 252.074 279.101 255.664 279.101 255.664 282.692 252.074 282.692 252.074 279.101 0 0 0.615686 epoly
-1 0 0 0 255.664 279.101 259.255 279.101 259.255 282.692 255.664 282.692 255.664 279.101 0 0 0.564706 epoly
-1 0 0 0 259.255 282.692 262.845 282.692 262.845 286.284 259.255 286.284 259.255 282.692 0 0.0862745 1 epoly
-1 0 0 0 262.845 282.692 266.436 282.692 266.436 286.284 262.845 286.284 262.845 282.692 0 0.87451 1 epoly
-1 0 0 0 259.255 279.101 262.845 279.101 262.845 282.692 259.255 282.692 259.255 279.101 0 0 0.941176 epoly
-1 0 0 0 262.845 279.101 266.436 279.101 266.436 282.692 262.845 282.692 262.845 279.101 0 0.768627 1 epoly
-1 0 0 0 237.711 275.509 241.302 275.509 241.302 279.101 237.711 279.101 237.711 275.509 0.505882 1 0.521569 epoly
-1 0 0 0 241.302 275.509 244.892 275.509 244.892 279.101 241.302 279.101 241.302 275.509 0.113725 1 0.913725 epoly
-1 0 0 0 237.711 271.917 241.302 271.917 241.302 275.509 237.711 275.509 237.711 271.917 0.501961 1 0.52549 epoly
-1 0 0 0 241.302 271.917 244.892 271.917 244.892 275.509 241.302 275.509 241.302 271.917 0.258824 1 0.768627 epoly
-1 0 0 0 244.892 275.509 248.483 275.509 248.483 279.101 244.892 279.101 244.892 275.509 0 0.478431 1 epoly
-1 0 0 0 248.483 275.509 252.074 275.509 252.074 279.101 248.483 279.101 248.483 275.509 0 0 0.843137 epoly
-1 0 0 0 244.892 271.917 248.483 271.917 248.483 275.509 244.892 275.509 244.892 271.917 0 0.686275 1 epoly
-1 0 0 0 248.483 271.917 252.074 271.917 252.074 275.509 248.483 275.509 248.483 271.917 0 0.12549 1 epoly
-1 0 0 0 237.711 268.325 241.302 268.325 241.302 271.917 237.711 271.917 237.711 268.325 0.521569 1 0.505882 epoly
-1 0 0 0 241.302 268.325 244.892 268.325 244.892 271.917 241.302 271.917 241.302 268.325 0.419608 1 0.607843 epoly
-1 0 0 0 237.711 264.734 241.302 264.734 241.302 268.325 237.711 268.325 237.711 264.734 0.513725 1 0.513725 epoly
-1 0 0 0 241.302 264.734 244.892 264.734 244.892 268.325 241.302 268.325 241.302 264.734 0.521569 1 0.505882 epoly
-1 0 0 0 244.892 268.325 248.483 268.325 248.483 271.917 244.892 271.917 244.892 268.325 0.00392157 1 1 epoly
-1 0 0 0 248.483 268.325 252.074 268.325 252.074 271.917 248.483 271.917 248.483 268.325 0 0.560784 1 epoly
-1 0 0 0 244.892 264.734 248.483 264.734 248.483 268.325 244.892 268.325 244.892 264.734 0.298039 1 0.729412 epoly
-1 0 0 0 248.483 264.734 252.074 264.734 252.074 268.325 248.483 268.325 248.483 264.734 0.0196078 1 1 epoly
-1 0 0 0 252.074 275.509 255.664 275.509 255.664 279.101 252.074 279.101 252.074 275.509 0 0 0.560784 epoly
-1 0 0 0 255.664 275.509 259.255 275.509 259.255 279.101 255.664 279.101 255.664 275.509 0 0 0.627451 epoly
-1 0 0 0 252.074 271.917 255.664 271.917 255.664 275.509 252.074 275.509 252.074 271.917 0 0 0.831373 epoly
-1 0 0 0 255.664 271.917 259.255 271.917 259.255 275.509 255.664 275.509 255.664 271.917 0 0 0.878431 epoly
-1 0 0 0 259.255 275.509 262.845 275.509 262.845 279.101 259.255 279.101 259.255 275.509 0 0.0313725 1 epoly
-1 0 0 0 262.845 275.509 266.436 275.509 266.436 279.101 262.845 279.101 262.845 275.509 0 0.780392 1 epoly
-1 0 0 0 259.255 271.917 262.845 271.917 262.845 275.509 259.255 275.509 259.255 271.917 0 0.282353 1 epoly
-1 0 0 0 262.845 271.917 266.436 271.917 266.436 275.509 262.845 275.509 262.845 271.917 0 0.870588 1 epoly
-1 0 0 0 252.074 268.325 255.664 268.325 255.664 271.917 252.074 271.917 252.074 268.325 0 0.309804 1 epoly
-1 0 0 0 255.664 268.325 259.255 268.325 259.255 271.917 255.664 271.917 255.664 268.325 0 0.337255 1 epoly
-1 0 0 0 252.074 264.734 255.664 264.734 255.664 268.325 252.074 268.325 252.074 264.734 0 0.827451 1 epoly
-1 0 0 0 255.664 264.734 259.255 264.734 259.255 268.325 255.664 268.325 255.664 264.734 0 0.847059 1 epoly
-1 0 0 0 259.255 268.325 262.845 268.325 262.845 271.917 259.255 271.917 259.255 268.325 0 0.65098 1 epoly
-1 0 0 0 262.845 268.325 266.436 268.325 266.436 271.917 262.845 271.917 262.845 268.325 0.0980392 1 0.929412 epoly
-1 0 0 0 259.255 264.734 262.845 264.734 262.845 268.325 259.255 268.325 259.255 264.734 0.0313725 1 0.996078 epoly
-1 0 0 0 262.845 264.734 266.436 264.734 266.436 268.325 262.845 268.325 262.845 264.734 0.321569 1 0.705882 epoly
-1 0 0 0 266.436 286.284 273.617 286.284 273.617 293.467 266.436 293.467 266.436 286.284 0.498039 1 0.529412 epoly
-1 0 0 0 273.617 289.876 277.207 289.876 277.207 293.467 273.617 293.467 273.617 289.876 0.513725 1 0.513725 epoly
-1 0 0 0 277.207 289.876 280.798 289.876 280.798 293.467 277.207 293.467 277.207 289.876 0.521569 1 0.505882 epoly
-1 0 0 0 273.617 286.284 277.207 286.284 277.207 289.876 273.617 289.876 273.617 286.284 0.537255 1 0.490196 epoly
-1 0 0 0 277.207 286.284 280.798 286.284 280.798 289.876 277.207 289.876 277.207 286.284 0.52549 1 0.501961 epoly
-1 0 0 0 266.436 282.692 270.026 282.692 270.026 286.284 266.436 286.284 266.436 282.692 0.380392 1 0.647059 epoly
-1 0 0 0 270.026 282.692 273.617 282.692 273.617 286.284 270.026 286.284 270.026 282.692 0.556863 1 0.470588 epoly
-1 0 0 0 266.436 279.101 270.026 279.101 270.026 282.692 266.436 282.692 266.436 279.101 0.34902 1 0.678431 epoly
-1 0 0 0 270.026 279.101 273.617 279.101 273.617 282.692 270.026 282.692 270.026 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 282.692 277.207 282.692 277.207 286.284 273.617 286.284 273.617 282.692 0.619608 1 0.407843 epoly
-1 0 0 0 277.207 282.692 280.798 282.692 280.798 286.284 277.207 286.284 277.207 282.692 0.541176 1 0.486275 epoly
-1 0 0 0 273.617 279.101 277.207 279.101 277.207 282.692 273.617 282.692 273.617 279.101 0.584314 1 0.443137 epoly
-1 0 0 0 277.207 279.101 280.798 279.101 280.798 282.692 277.207 282.692 277.207 279.101 0.552941 1 0.47451 epoly
-1 0 0 0 280.798 286.284 287.979 286.284 287.979 293.467 280.798 293.467 280.798 286.284 0.509804 1 0.517647 epoly
-1 0 0 0 287.979 286.284 295.16 286.284 295.16 293.467 287.979 293.467 287.979 286.284 0.505882 1 0.521569 epoly
-1 0 0 0 280.798 282.692 284.388 282.692 284.388 286.284 280.798 286.284 280.798 282.692 0.529412 1 0.498039 epoly
-1 0 0 0 284.388 282.692 287.979 282.692 287.979 286.284 284.388 286.284 284.388 282.692 0.513725 1 0.513725 epoly
-1 0 0 0 280.798 279.101 284.388 279.101 284.388 282.692 280.798 282.692 280.798 279.101 0.541176 1 0.486275 epoly
-1 0 0 0 284.388 279.101 287.979 279.101 287.979 282.692 284.388 282.692 284.388 279.101 0.521569 1 0.505882 epoly
-1 0 0 0 287.979 279.101 295.16 279.101 295.16 286.284 287.979 286.284 287.979 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 266.436 275.509 270.026 275.509 270.026 279.101 266.436 279.101 266.436 275.509 0.32549 1 0.701961 epoly
-1 0 0 0 270.026 275.509 273.617 275.509 273.617 279.101 270.026 279.101 270.026 275.509 0.517647 1 0.509804 epoly
-1 0 0 0 266.436 271.917 270.026 271.917 270.026 275.509 266.436 275.509 266.436 271.917 0.337255 1 0.690196 epoly
-1 0 0 0 270.026 271.917 273.617 271.917 273.617 275.509 270.026 275.509 270.026 271.917 0.552941 1 0.47451 epoly
-1 0 0 0 273.617 275.509 277.207 275.509 277.207 279.101 273.617 279.101 273.617 275.509 0.580392 1 0.447059 epoly
-1 0 0 0 277.207 275.509 280.798 275.509 280.798 279.101 277.207 279.101 277.207 275.509 0.564706 1 0.462745 epoly
-1 0 0 0 273.617 271.917 277.207 271.917 277.207 275.509 273.617 275.509 273.617 271.917 0.643137 1 0.384314 epoly
-1 0 0 0 277.207 271.917 280.798 271.917 280.798 275.509 277.207 275.509 277.207 271.917 0.6 1 0.427451 epoly
-1 0 0 0 266.436 268.325 270.026 268.325 270.026 271.917 266.436 271.917 266.436 268.325 0.407843 1 0.619608 epoly
-1 0 0 0 270.026 268.325 273.617 268.325 273.617 271.917 270.026 271.917 270.026 268.325 0.592157 1 0.435294 epoly
-1 0 0 0 266.436 264.734 270.026 264.734 270.026 268.325 266.436 268.325 266.436 264.734 0.533333 1 0.494118 epoly
-1 0 0 0 270.026 264.734 273.617 264.734 273.617 268.325 270.026 268.325 270.026 264.734 0.635294 1 0.392157 epoly
-1 0 0 0 273.617 268.325 277.207 268.325 277.207 271.917 273.617 271.917 273.617 268.325 0.658824 1 0.368627 epoly
-1 0 0 0 277.207 268.325 280.798 268.325 280.798 271.917 277.207 271.917 277.207 268.325 0.631373 1 0.396078 epoly
-1 0 0 0 273.617 264.734 277.207 264.734 277.207 268.325 273.617 268.325 273.617 264.734 0.658824 1 0.368627 epoly
-1 0 0 0 277.207 264.734 280.798 264.734 280.798 268.325 277.207 268.325 277.207 264.734 0.631373 1 0.396078 epoly
-1 0 0 0 280.798 275.509 284.388 275.509 284.388 279.101 280.798 279.101 280.798 275.509 0.537255 1 0.490196 epoly
-1 0 0 0 284.388 275.509 287.979 275.509 287.979 279.101 284.388 279.101 284.388 275.509 0.529412 1 0.498039 epoly
-1 0 0 0 280.798 271.917 284.388 271.917 284.388 275.509 280.798 275.509 280.798 271.917 0.560784 1 0.466667 epoly
-1 0 0 0 284.388 271.917 287.979 271.917 287.979 275.509 284.388 275.509 284.388 271.917 0.537255 1 0.490196 epoly
-1 0 0 0 287.979 271.917 295.16 271.917 295.16 279.101 287.979 279.101 287.979 271.917 0.521569 1 0.505882 epoly
-1 0 0 0 280.798 268.325 284.388 268.325 284.388 271.917 280.798 271.917 280.798 268.325 0.584314 1 0.443137 epoly
-1 0 0 0 284.388 268.325 287.979 268.325 287.979 271.917 284.388 271.917 284.388 268.325 0.545098 1 0.482353 epoly
-1 0 0 0 280.798 264.734 284.388 264.734 284.388 268.325 280.798 268.325 280.798 264.734 0.572549 1 0.454902 epoly
-1 0 0 0 284.388 264.734 287.979 264.734 287.979 268.325 284.388 268.325 284.388 264.734 0.537255 1 0.490196 epoly
-1 0 0 0 287.979 264.734 295.16 264.734 295.16 271.917 287.979 271.917 287.979 264.734 0.513725 1 0.513725 epoly
-1 0 0 0 237.711 261.142 241.302 261.142 241.302 264.734 237.711 264.734 237.711 261.142 0.490196 1 0.537255 epoly
-1 0 0 0 241.302 261.142 244.892 261.142 244.892 264.734 241.302 264.734 241.302 261.142 0.545098 1 0.482353 epoly
-1 0 0 0 237.711 257.55 241.302 257.55 241.302 261.142 237.711 261.142 237.711 257.55 0.462745 1 0.564706 epoly
-1 0 0 0 241.302 257.55 244.892 257.55 244.892 261.142 241.302 261.142 241.302 257.55 0.545098 1 0.482353 epoly
-1 0 0 0 244.892 261.142 248.483 261.142 248.483 264.734 244.892 264.734 244.892 261.142 0.466667 1 0.560784 epoly
-1 0 0 0 248.483 261.142 252.074 261.142 252.074 264.734 248.483 264.734 248.483 261.142 0.329412 1 0.698039 epoly
-1 0 0 0 244.892 257.55 248.483 257.55 248.483 261.142 244.892 261.142 244.892 257.55 0.533333 1 0.494118 epoly
-1 0 0 0 248.483 257.55 252.074 257.55 252.074 261.142 248.483 261.142 248.483 257.55 0.470588 1 0.556863 epoly
-1 0 0 0 237.711 250.367 244.892 250.367 244.892 257.55 237.711 257.55 237.711 250.367 0.498039 1 0.529412 epoly
-1 0 0 0 244.892 250.367 252.074 250.367 252.074 257.55 244.892 257.55 244.892 250.367 0.501961 1 0.52549 epoly
-1 0 0 0 252.074 261.142 255.664 261.142 255.664 264.734 252.074 264.734 252.074 261.142 0.223529 1 0.803922 epoly
-1 0 0 0 255.664 261.142 259.255 261.142 259.255 264.734 255.664 264.734 255.664 261.142 0.235294 1 0.792157 epoly
-1 0 0 0 252.074 257.55 255.664 257.55 255.664 261.142 252.074 261.142 252.074 257.55 0.447059 1 0.576471 epoly
-1 0 0 0 255.664 257.55 259.255 257.55 259.255 261.142 255.664 261.142 255.664 257.55 0.447059 1 0.580392 epoly
-1 0 0 0 259.255 261.142 262.845 261.142 262.845 264.734 259.255 264.734 259.255 261.142 0.329412 1 0.698039 epoly
-1 0 0 0 262.845 261.142 266.436 261.142 266.436 264.734 262.845 264.734 262.845 261.142 0.462745 1 0.564706 epoly
-1 0 0 0 259.255 257.55 262.845 257.55 262.845 261.142 259.255 261.142 259.255 257.55 0.494118 1 0.533333 epoly
-1 0 0 0 262.845 257.55 266.436 257.55 266.436 261.142 262.845 261.142 262.845 257.55 0.52549 1 0.501961 epoly
-1 0 0 0 252.074 253.959 255.664 253.959 255.664 257.55 252.074 257.55 252.074 253.959 0.533333 1 0.494118 epoly
-1 0 0 0 255.664 253.959 259.255 253.959 259.255 257.55 255.664 257.55 255.664 253.959 0.521569 1 0.505882 epoly
-1 0 0 0 252.074 250.367 255.664 250.367 255.664 253.959 252.074 253.959 252.074 250.367 0.533333 1 0.494118 epoly
-1 0 0 0 255.664 250.367 259.255 250.367 259.255 253.959 255.664 253.959 255.664 250.367 0.537255 1 0.490196 epoly
-1 0 0 0 259.255 253.959 262.845 253.959 262.845 257.55 259.255 257.55 259.255 253.959 0.533333 1 0.494118 epoly
-1 0 0 0 262.845 253.959 266.436 253.959 266.436 257.55 262.845 257.55 262.845 253.959 0.537255 1 0.490196 epoly
-1 0 0 0 259.255 250.367 262.845 250.367 262.845 253.959 259.255 253.959 259.255 250.367 0.517647 1 0.509804 epoly
-1 0 0 0 262.845 250.367 266.436 250.367 266.436 253.959 262.845 253.959 262.845 250.367 0.517647 1 0.509804 epoly
-1 0 0 0 237.711 246.775 241.302 246.775 241.302 250.367 237.711 250.367 237.711 246.775 0.513725 1 0.513725 epoly
-1 0 0 0 241.302 246.775 244.892 246.775 244.892 250.367 241.302 250.367 241.302 246.775 0.482353 1 0.545098 epoly
-1 0 0 0 237.711 243.183 241.302 243.183 241.302 246.775 237.711 246.775 237.711 243.183 0.478431 1 0.54902 epoly
-1 0 0 0 241.302 243.183 244.892 243.183 244.892 246.775 241.302 246.775 241.302 243.183 0.494118 1 0.533333 epoly
-1 0 0 0 244.892 243.183 252.074 243.183 252.074 250.367 244.892 250.367 244.892 243.183 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 236 244.892 236 244.892 243.183 237.711 243.183 237.711 236 0.517647 1 0.509804 epoly
-1 0 0 0 244.892 236 252.074 236 252.074 243.183 244.892 243.183 244.892 236 0.501961 1 0.52549 epoly
-1 0 0 0 252.074 246.775 255.664 246.775 255.664 250.367 252.074 250.367 252.074 246.775 0.529412 1 0.498039 epoly
-1 0 0 0 255.664 246.775 259.255 246.775 259.255 250.367 255.664 250.367 255.664 246.775 0.533333 1 0.494118 epoly
-1 0 0 0 252.074 243.183 255.664 243.183 255.664 246.775 252.074 246.775 252.074 243.183 0.513725 1 0.513725 epoly
-1 0 0 0 255.664 243.183 259.255 243.183 259.255 246.775 255.664 246.775 255.664 243.183 0.513725 1 0.513725 epoly
-1 0 0 0 259.255 243.183 266.436 243.183 266.436 250.367 259.255 250.367 259.255 243.183 0.501961 1 0.52549 epoly
-1 0 0 0 252.074 236 259.255 236 259.255 243.183 252.074 243.183 252.074 236 0.505882 1 0.521569 epoly
-1 0 0 0 259.255 236 266.436 236 266.436 243.183 259.255 243.183 259.255 236 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 261.142 270.026 261.142 270.026 264.734 266.436 264.734 266.436 261.142 0.584314 1 0.443137 epoly
-1 0 0 0 270.026 261.142 273.617 261.142 273.617 264.734 270.026 264.734 270.026 261.142 0.631373 1 0.396078 epoly
-1 0 0 0 266.436 257.55 270.026 257.55 270.026 261.142 266.436 261.142 266.436 257.55 0.556863 1 0.470588 epoly
-1 0 0 0 270.026 257.55 273.617 257.55 273.617 261.142 270.026 261.142 270.026 257.55 0.568627 1 0.458824 epoly
-1 0 0 0 273.617 261.142 277.207 261.142 277.207 264.734 273.617 264.734 273.617 261.142 0.623529 1 0.403922 epoly
-1 0 0 0 277.207 261.142 280.798 261.142 280.798 264.734 277.207 264.734 277.207 261.142 0.588235 1 0.439216 epoly
-1 0 0 0 273.617 257.55 277.207 257.55 277.207 261.142 273.617 261.142 273.617 257.55 0.556863 1 0.470588 epoly
-1 0 0 0 277.207 257.55 280.798 257.55 280.798 261.142 277.207 261.142 277.207 257.55 0.537255 1 0.490196 epoly
-1 0 0 0 266.436 250.367 273.617 250.367 273.617 257.55 266.436 257.55 266.436 250.367 0.521569 1 0.505882 epoly
-1 0 0 0 273.617 250.367 280.798 250.367 280.798 257.55 273.617 257.55 273.617 250.367 0.498039 1 0.529412 epoly
-1 0 0 0 280.798 261.142 284.388 261.142 284.388 264.734 280.798 264.734 280.798 261.142 0.545098 1 0.482353 epoly
-1 0 0 0 284.388 261.142 287.979 261.142 287.979 264.734 284.388 264.734 284.388 261.142 0.517647 1 0.509804 epoly
-1 0 0 0 280.798 257.55 284.388 257.55 284.388 261.142 280.798 261.142 280.798 257.55 0.52549 1 0.501961 epoly
-1 0 0 0 284.388 257.55 287.979 257.55 287.979 261.142 284.388 261.142 284.388 257.55 0.517647 1 0.509804 epoly
-1 0 0 0 287.979 257.55 295.16 257.55 295.16 264.734 287.979 264.734 287.979 257.55 0.509804 1 0.517647 epoly
-1 0 0 0 280.798 250.367 287.979 250.367 287.979 257.55 280.798 257.55 280.798 250.367 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 250.367 295.16 250.367 295.16 257.55 287.979 257.55 287.979 250.367 0.513725 1 0.513725 epoly
-1 0 0 0 266.436 243.183 273.617 243.183 273.617 250.367 266.436 250.367 266.436 243.183 0.498039 1 0.529412 epoly
-1 0 0 0 273.617 243.183 280.798 243.183 280.798 250.367 273.617 250.367 273.617 243.183 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 236 273.617 236 273.617 243.183 266.436 243.183 266.436 236 0.501961 1 0.52549 epoly
-1 0 0 0 273.617 236 280.798 236 280.798 243.183 273.617 243.183 273.617 236 0.501961 1 0.52549 epoly
-1 0 0 0 280.798 243.183 287.979 243.183 287.979 250.367 280.798 250.367 280.798 243.183 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 243.183 295.16 243.183 295.16 250.367 287.979 250.367 287.979 243.183 0.513725 1 0.513725 epoly
-1 0 0 0 280.798 236 287.979 236 287.979 243.183 280.798 243.183 280.798 236 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 236 295.16 236 295.16 243.183 287.979 243.183 287.979 236 0.509804 1 0.517647 epoly
-1 0 0 0 295.16 279.101 309.522 279.101 309.522 293.467 295.16 293.467 295.16 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 309.522 279.101 323.885 279.101 323.885 293.467 309.522 293.467 309.522 279.101 0.513725 1 0.513725 epoly
-1 0 0 0 295.16 264.734 309.522 264.734 309.522 279.101 295.16 279.101 295.16 264.734 0.501961 1 0.52549 epoly
-1 0 0 0 309.522 264.734 323.885 264.734 323.885 279.101 309.522 279.101 309.522 264.734 0.501961 1 0.52549 epoly
-1 0 0 0 323.885 279.101 338.247 279.101 338.247 293.467 323.885 293.467 323.885 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 338.247 279.101 352.609 279.101 352.609 293.467 338.247 293.467 338.247 279.101 0.505882 1 0.521569 epoly
-1 0 0 0 323.885 264.734 338.247 264.734 338.247 279.101 323.885 279.101 323.885 264.734 0.509804 1 0.517647 epoly
-1 0 0 0 338.247 264.734 352.609 264.734 352.609 279.101 338.247 279.101 338.247 264.734 0.509804 1 0.517647 epoly
-1 0 0 0 295.16 257.55 302.341 257.55 302.341 264.734 295.16 264.734 295.16 257.55 0.513725 1 0.513725 epoly
-1 0 0 0 302.341 257.55 309.522 257.55 309.522 264.734 302.341 264.734 302.341 257.55 0.509804 1 0.517647 epoly
-1 0 0 0 295.16 253.959 298.751 253.959 298.751 257.55 295.16 257.55 295.16 253.959 0.521569 1 0.505882 epoly
-1 0 0 0 298.751 253.959 302.341 253.959 302.341 257.55 298.751 257.55 298.751 253.959 0.52549 1 0.501961 epoly
-1 0 0 0 295.16 250.367 298.751 250.367 298.751 253.959 295.16 253.959 295.16 250.367 0.521569 1 0.505882 epoly
-1 0 0 0 298.751 250.367 302.341 250.367 302.341 253.959 298.751 253.959 298.751 250.367 0.52549 1 0.501961 epoly
-1 0 0 0 302.341 253.959 305.932 253.959 305.932 257.55 302.341 257.55 302.341 253.959 0.529412 1 0.498039 epoly
-1 0 0 0 305.932 253.959 309.522 253.959 309.522 257.55 305.932 257.55 305.932 253.959 0.521569 1 0.505882 epoly
-1 0 0 0 302.341 250.367 305.932 250.367 305.932 253.959 302.341 253.959 302.341 250.367 0.52549 1 0.501961 epoly
-1 0 0 0 305.932 250.367 309.522 250.367 309.522 253.959 305.932 253.959 305.932 250.367 0.52549 1 0.501961 epoly
-1 0 0 0 309.522 257.55 316.704 257.55 316.704 264.734 309.522 264.734 309.522 257.55 0.505882 1 0.521569 epoly
-1 0 0 0 316.704 257.55 323.885 257.55 323.885 264.734 316.704 264.734 316.704 257.55 0.505882 1 0.521569 epoly
-1 0 0 0 309.522 250.367 316.704 250.367 316.704 257.55 309.522 257.55 309.522 250.367 0.517647 1 0.509804 epoly
-1 0 0 0 316.704 250.367 323.885 250.367 323.885 257.55 316.704 257.55 316.704 250.367 0.513725 1 0.513725 epoly
-1 0 0 0 295.16 243.183 302.341 243.183 302.341 250.367 295.16 250.367 295.16 243.183 0.517647 1 0.509804 epoly
-1 0 0 0 302.341 243.183 309.522 243.183 309.522 250.367 302.341 250.367 302.341 243.183 0.521569 1 0.505882 epoly
-1 0 0 0 295.16 236 302.341 236 302.341 243.183 295.16 243.183 295.16 236 0.505882 1 0.521569 epoly
-1 0 0 0 302.341 236 309.522 236 309.522 243.183 302.341 243.183 302.341 236 0.509804 1 0.517647 epoly
-1 0 0 0 309.522 246.775 313.113 246.775 313.113 250.367 309.522 250.367 309.522 246.775 0.52549 1 0.501961 epoly
-1 0 0 0 313.113 246.775 316.704 246.775 316.704 250.367 313.113 250.367 313.113 246.775 0.52549 1 0.498039 epoly
-1 0 0 0 309.522 243.183 313.113 243.183 313.113 246.775 309.522 246.775 309.522 243.183 0.52549 1 0.501961 epoly
-1 0 0 0 313.113 243.183 316.704 243.183 316.704 246.775 313.113 246.775 313.113 243.183 0.529412 1 0.498039 epoly
-1 0 0 0 316.704 243.183 323.885 243.183 323.885 250.367 316.704 250.367 316.704 243.183 0.521569 1 0.505882 epoly
-1 0 0 0 309.522 236 316.704 236 316.704 243.183 309.522 243.183 309.522 236 0.517647 1 0.509804 epoly
-1 0 0 0 316.704 236 323.885 236 323.885 243.183 316.704 243.183 316.704 236 0.513725 1 0.513725 epoly
-1 0 0 0 323.885 250.367 338.247 250.367 338.247 264.734 323.885 264.734 323.885 250.367 0.505882 1 0.521569 epoly
-1 0 0 0 338.247 250.367 352.609 250.367 352.609 264.734 338.247 264.734 338.247 250.367 0.509804 1 0.517647 epoly
-1 0 0 0 323.885 236 338.247 236 338.247 250.367 323.885 250.367 323.885 236 0.509804 1 0.517647 epoly
-1 0 0 0 338.247 236 352.609 236 352.609 250.367 338.247 250.367 338.247 236 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 322.201 381.334 322.201 381.334 350.935 352.609 350.935 352.609 322.201 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 322.201 410.058 322.201 410.058 350.935 381.334 350.935 381.334 322.201 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 293.467 381.334 293.467 381.334 322.201 352.609 322.201 352.609 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 293.467 410.058 293.467 410.058 322.201 381.334 322.201 381.334 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 410.058 293.467 467.507 293.467 467.507 350.935 410.058 350.935 410.058 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 264.734 381.334 264.734 381.334 293.467 352.609 293.467 352.609 264.734 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 264.734 410.058 264.734 410.058 293.467 381.334 293.467 381.334 264.734 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 236 381.334 236 381.334 264.734 352.609 264.734 352.609 236 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 236 410.058 236 410.058 264.734 381.334 264.734 381.334 236 0.509804 1 0.517647 epoly
-1 0 0 0 410.058 236 467.507 236 467.507 293.467 410.058 293.467 410.058 236 0.505882 1 0.521569 epoly
-1 0 0 0 7.91583 207.266 36.6403 207.266 36.6403 236 7.91583 236 7.91583 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 36.6403 207.266 65.3647 207.266 65.3647 236 36.6403 236 36.6403 207.266 0.505882 1 0.521569 epoly
-1 0 0 0 7.91583 178.533 36.6403 178.533 36.6403 207.266 7.91583 207.266 7.91583 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 36.6403 178.533 65.3647 178.533 65.3647 207.266 36.6403 207.266 36.6403 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 207.266 94.0891 207.266 94.0891 236 65.3647 236 65.3647 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 207.266 122.814 207.266 122.814 236 94.0891 236 94.0891 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 178.533 94.0891 178.533 94.0891 207.266 65.3647 207.266 65.3647 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 178.533 122.814 178.533 122.814 207.266 94.0891 207.266 94.0891 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 7.91583 164.166 22.2781 164.166 22.2781 178.533 7.91583 178.533 7.91583 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 164.166 36.6403 164.166 36.6403 178.533 22.2781 178.533 22.2781 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 149.799 22.2781 149.799 22.2781 164.166 7.91583 164.166 7.91583 149.799 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 149.799 36.6403 149.799 36.6403 164.166 22.2781 164.166 22.2781 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 164.166 51.0025 164.166 51.0025 178.533 36.6403 178.533 36.6403 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 164.166 65.3647 164.166 65.3647 178.533 51.0025 178.533 51.0025 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 149.799 51.0025 149.799 51.0025 164.166 36.6403 164.166 36.6403 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 149.799 65.3647 149.799 65.3647 164.166 51.0025 164.166 51.0025 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 135.432 22.2781 135.432 22.2781 149.799 7.91583 149.799 7.91583 135.432 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 135.432 36.6403 135.432 36.6403 149.799 22.2781 149.799 22.2781 135.432 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 121.065 22.2781 121.065 22.2781 135.432 7.91583 135.432 7.91583 121.065 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 121.065 36.6403 121.065 36.6403 135.432 22.2781 135.432 22.2781 121.065 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 142.615 43.8214 142.615 43.8214 149.799 36.6403 149.799 36.6403 142.615 0.494118 1 0.533333 epoly
-1 0 0 0 43.8214 142.615 51.0025 142.615 51.0025 149.799 43.8214 149.799 43.8214 142.615 0.494118 1 0.533333 epoly
-1 0 0 0 36.6403 135.432 43.8214 135.432 43.8214 142.615 36.6403 142.615 36.6403 135.432 0.494118 1 0.533333 epoly
-1 0 0 0 43.8214 135.432 51.0025 135.432 51.0025 142.615 43.8214 142.615 43.8214 135.432 0.494118 1 0.533333 epoly
-1 0 0 0 51.0025 142.615 58.1836 142.615 58.1836 149.799 51.0025 149.799 51.0025 142.615 0.494118 1 0.533333 epoly
-1 0 0 0 58.1836 142.615 65.3647 142.615 65.3647 149.799 58.1836 149.799 58.1836 142.615 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 135.432 58.1836 135.432 58.1836 142.615 51.0025 142.615 51.0025 135.432 0.494118 1 0.533333 epoly
-1 0 0 0 58.1836 135.432 65.3647 135.432 65.3647 142.615 58.1836 142.615 58.1836 135.432 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 128.248 43.8214 128.248 43.8214 135.432 36.6403 135.432 36.6403 128.248 0.494118 1 0.533333 epoly
-1 0 0 0 43.8214 128.248 51.0025 128.248 51.0025 135.432 43.8214 135.432 43.8214 128.248 0.494118 1 0.533333 epoly
-1 0 0 0 36.6403 121.065 43.8214 121.065 43.8214 128.248 36.6403 128.248 36.6403 121.065 0.494118 1 0.533333 epoly
-1 0 0 0 43.8214 121.065 51.0025 121.065 51.0025 128.248 43.8214 128.248 43.8214 121.065 0.494118 1 0.533333 epoly
-1 0 0 0 51.0025 128.248 58.1836 128.248 58.1836 135.432 51.0025 135.432 51.0025 128.248 0.494118 1 0.533333 epoly
-1 0 0 0 58.1836 128.248 65.3647 128.248 65.3647 135.432 58.1836 135.432 58.1836 128.248 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 121.065 58.1836 121.065 58.1836 128.248 51.0025 128.248 51.0025 121.065 0.494118 1 0.533333 epoly
-1 0 0 0 58.1836 121.065 65.3647 121.065 65.3647 128.248 58.1836 128.248 58.1836 121.065 0.498039 1 0.529412 epoly
-1 0 0 0 65.3647 164.166 79.7269 164.166 79.7269 178.533 65.3647 178.533 65.3647 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 79.7269 164.166 94.0891 164.166 94.0891 178.533 79.7269 178.533 79.7269 164.166 0.505882 1 0.521569 epoly
-1 0 0 0 65.3647 149.799 79.7269 149.799 79.7269 164.166 65.3647 164.166 65.3647 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 79.7269 149.799 94.0891 149.799 94.0891 164.166 79.7269 164.166 79.7269 149.799 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 149.799 122.814 149.799 122.814 178.533 94.0891 178.533 94.0891 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 65.3647 135.432 79.7269 135.432 79.7269 149.799 65.3647 149.799 65.3647 135.432 0.498039 1 0.529412 epoly
-1 0 0 0 79.7269 135.432 94.0891 135.432 94.0891 149.799 79.7269 149.799 79.7269 135.432 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 121.065 79.7269 121.065 79.7269 135.432 65.3647 135.432 65.3647 121.065 0.498039 1 0.529412 epoly
-1 0 0 0 79.7269 121.065 94.0891 121.065 94.0891 135.432 79.7269 135.432 79.7269 121.065 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 121.065 122.814 121.065 122.814 149.799 94.0891 149.799 94.0891 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 122.814 221.633 137.176 221.633 137.176 236 122.814 236 122.814 221.633 0.501961 1 0.52549 epoly
-1 0 0 0 137.176 221.633 151.538 221.633 151.538 236 137.176 236 137.176 221.633 0.501961 1 0.52549 epoly
-1 0 0 0 122.814 207.266 137.176 207.266 137.176 221.633 122.814 221.633 122.814 207.266 0.498039 1 0.529412 epoly
-1 0 0 0 137.176 214.45 144.357 214.45 144.357 221.633 137.176 221.633 137.176 214.45 0.498039 1 0.52549 epoly
-1 0 0 0 144.357 214.45 151.538 214.45 151.538 221.633 144.357 221.633 144.357 214.45 0.498039 1 0.529412 epoly
-1 0 0 0 137.176 207.266 144.357 207.266 144.357 214.45 137.176 214.45 137.176 207.266 0.494118 1 0.533333 epoly
-1 0 0 0 144.357 207.266 151.538 207.266 151.538 214.45 144.357 214.45 144.357 207.266 0.494118 1 0.533333 epoly
-1 0 0 0 151.538 221.633 165.9 221.633 165.9 236 151.538 236 151.538 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 165.9 228.817 173.081 228.817 173.081 236 165.9 236 165.9 228.817 0.498039 1 0.529412 epoly
-1 0 0 0 173.081 232.408 176.672 232.408 176.672 236 173.081 236 173.081 232.408 0.498039 1 0.529412 epoly
-1 0 0 0 176.672 232.408 180.262 232.408 180.262 236 176.672 236 176.672 232.408 0.505882 1 0.521569 epoly
-1 0 0 0 173.081 228.817 176.672 228.817 176.672 232.408 173.081 232.408 173.081 228.817 0.462745 1 0.564706 epoly
-1 0 0 0 176.672 228.817 180.262 228.817 180.262 232.408 176.672 232.408 176.672 228.817 0.509804 1 0.517647 epoly
-1 0 0 0 165.9 221.633 173.081 221.633 173.081 228.817 165.9 228.817 165.9 221.633 0.486275 1 0.541176 epoly
-1 0 0 0 173.081 225.225 176.672 225.225 176.672 228.817 173.081 228.817 173.081 225.225 0.392157 1 0.635294 epoly
-1 0 0 0 176.672 225.225 180.262 225.225 180.262 228.817 176.672 228.817 176.672 225.225 0.501961 1 0.52549 epoly
-1 0 0 0 173.081 221.633 176.672 221.633 176.672 225.225 173.081 225.225 173.081 221.633 0.368627 1 0.654902 epoly
-1 0 0 0 176.672 221.633 180.262 221.633 180.262 225.225 176.672 225.225 176.672 221.633 0.517647 1 0.509804 epoly
-1 0 0 0 151.538 207.266 165.9 207.266 165.9 221.633 151.538 221.633 151.538 207.266 0.498039 1 0.529412 epoly
-1 0 0 0 165.9 214.45 173.081 214.45 173.081 221.633 165.9 221.633 165.9 214.45 0.478431 1 0.54902 epoly
-1 0 0 0 173.081 214.45 180.262 214.45 180.262 221.633 173.081 221.633 173.081 214.45 0.486275 1 0.541176 epoly
-1 0 0 0 165.9 207.266 173.081 207.266 173.081 214.45 165.9 214.45 165.9 207.266 0.490196 1 0.537255 epoly
-1 0 0 0 173.081 207.266 180.262 207.266 180.262 214.45 173.081 214.45 173.081 207.266 0.517647 1 0.509804 epoly
-1 0 0 0 122.814 192.899 137.176 192.899 137.176 207.266 122.814 207.266 122.814 192.899 0.501961 1 0.52549 epoly
-1 0 0 0 137.176 200.083 144.357 200.083 144.357 207.266 137.176 207.266 137.176 200.083 0.494118 1 0.533333 epoly
-1 0 0 0 144.357 200.083 151.538 200.083 151.538 207.266 144.357 207.266 144.357 200.083 0.490196 1 0.537255 epoly
-1 0 0 0 137.176 192.899 144.357 192.899 144.357 200.083 137.176 200.083 137.176 192.899 0.494118 1 0.533333 epoly
-1 0 0 0 144.357 192.899 151.538 192.899 151.538 200.083 144.357 200.083 144.357 192.899 0.490196 1 0.537255 epoly
-1 0 0 0 122.814 178.533 137.176 178.533 137.176 192.899 122.814 192.899 122.814 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 137.176 178.533 151.538 178.533 151.538 192.899 137.176 192.899 137.176 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 192.899 165.9 192.899 165.9 207.266 151.538 207.266 151.538 192.899 0.494118 1 0.533333 epoly
-1 0 0 0 165.9 200.083 173.081 200.083 173.081 207.266 165.9 207.266 165.9 200.083 0.498039 1 0.529412 epoly
-1 0 0 0 173.081 200.083 180.262 200.083 180.262 207.266 173.081 207.266 173.081 200.083 0.513725 1 0.513725 epoly
-1 0 0 0 165.9 192.899 173.081 192.899 173.081 200.083 165.9 200.083 165.9 192.899 0.505882 1 0.521569 epoly
-1 0 0 0 173.081 192.899 180.262 192.899 180.262 200.083 173.081 200.083 173.081 192.899 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 185.716 158.719 185.716 158.719 192.899 151.538 192.899 151.538 185.716 0.498039 1 0.529412 epoly
-1 0 0 0 158.719 185.716 165.9 185.716 165.9 192.899 158.719 192.899 158.719 185.716 0.494118 1 0.533333 epoly
-1 0 0 0 151.538 178.533 158.719 178.533 158.719 185.716 151.538 185.716 151.538 178.533 0.498039 1 0.529412 epoly
-1 0 0 0 158.719 178.533 165.9 178.533 165.9 185.716 158.719 185.716 158.719 178.533 0.498039 1 0.529412 epoly
-1 0 0 0 165.9 178.533 180.262 178.533 180.262 192.899 165.9 192.899 165.9 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 232.408 183.853 232.408 183.853 236 180.262 236 180.262 232.408 0.52549 1 0.501961 epoly
-1 0 0 0 180.262 228.817 183.853 228.817 183.853 232.408 180.262 232.408 180.262 228.817 0.568627 1 0.458824 epoly
-1 0 0 0 180.262 225.225 183.853 225.225 183.853 228.817 180.262 228.817 180.262 225.225 0.596078 1 0.431373 epoly
-1 0 0 0 180.262 221.633 183.853 221.633 183.853 225.225 180.262 225.225 180.262 221.633 0.6 1 0.427451 epoly
-1 0 0 0 180.262 218.041 183.853 218.041 183.853 221.633 180.262 221.633 180.262 218.041 0.603922 1 0.423529 epoly
-1 0 0 0 180.262 214.45 183.853 214.45 183.853 218.041 180.262 218.041 180.262 214.45 0.564706 1 0.462745 epoly
-1 0 0 0 183.853 214.45 187.444 214.45 187.444 218.041 183.853 218.041 183.853 214.45 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 210.858 183.853 210.858 183.853 214.45 180.262 214.45 180.262 210.858 0.603922 1 0.423529 epoly
-1 0 0 0 183.853 210.858 187.444 210.858 187.444 214.45 183.853 214.45 183.853 210.858 0.666667 1 0.360784 epoly
-1 0 0 0 180.262 207.266 183.853 207.266 183.853 210.858 180.262 210.858 180.262 207.266 0.588235 1 0.439216 epoly
-1 0 0 0 183.853 207.266 187.444 207.266 187.444 210.858 183.853 210.858 183.853 207.266 0.631373 1 0.396078 epoly
-1 0 0 0 187.444 207.266 191.034 207.266 191.034 210.858 187.444 210.858 187.444 207.266 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 232.408 237.711 232.408 237.711 236 234.121 236 234.121 232.408 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 228.817 237.711 228.817 237.711 232.408 234.121 232.408 234.121 228.817 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 225.225 237.711 225.225 237.711 228.817 234.121 228.817 234.121 225.225 0.501961 1 0.52549 epoly
-1 0 0 0 234.121 221.633 237.711 221.633 237.711 225.225 234.121 225.225 234.121 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 218.041 237.711 218.041 237.711 221.633 234.121 221.633 234.121 218.041 0.513725 1 0.513725 epoly
-1 0 0 0 234.121 214.45 237.711 214.45 237.711 218.041 234.121 218.041 234.121 214.45 0.501961 1 0.52549 epoly
-1 0 0 0 234.121 210.858 237.711 210.858 237.711 214.45 234.121 214.45 234.121 210.858 0.498039 1 0.529412 epoly
-1 0 0 0 234.121 207.266 237.711 207.266 237.711 210.858 234.121 210.858 234.121 207.266 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 203.675 183.853 203.675 183.853 207.266 180.262 207.266 180.262 203.675 0.537255 1 0.490196 epoly
-1 0 0 0 183.853 203.675 187.444 203.675 187.444 207.266 183.853 207.266 183.853 203.675 0.603922 1 0.423529 epoly
-1 0 0 0 180.262 200.083 183.853 200.083 183.853 203.675 180.262 203.675 180.262 200.083 0.517647 1 0.509804 epoly
-1 0 0 0 183.853 200.083 187.444 200.083 187.444 203.675 183.853 203.675 183.853 200.083 0.54902 1 0.478431 epoly
-1 0 0 0 187.444 203.675 191.034 203.675 191.034 207.266 187.444 207.266 187.444 203.675 0.709804 1 0.317647 epoly
-1 0 0 0 187.444 200.083 191.034 200.083 191.034 203.675 187.444 203.675 187.444 200.083 0.647059 1 0.380392 epoly
-1 0 0 0 191.034 200.083 194.625 200.083 194.625 203.675 191.034 203.675 191.034 200.083 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 192.899 187.444 192.899 187.444 200.083 180.262 200.083 180.262 192.899 0.509804 1 0.517647 epoly
-1 0 0 0 187.444 196.491 191.034 196.491 191.034 200.083 187.444 200.083 187.444 196.491 0.552941 1 0.47451 epoly
-1 0 0 0 191.034 196.491 194.625 196.491 194.625 200.083 191.034 200.083 191.034 196.491 0.682353 1 0.345098 epoly
-1 0 0 0 187.444 192.899 191.034 192.899 191.034 196.491 187.444 196.491 187.444 192.899 0.509804 1 0.517647 epoly
-1 0 0 0 191.034 192.899 194.625 192.899 194.625 196.491 191.034 196.491 191.034 192.899 0.580392 1 0.447059 epoly
-1 0 0 0 194.625 196.491 198.215 196.491 198.215 200.083 194.625 200.083 194.625 196.491 0.505882 1 0.521569 epoly
-1 0 0 0 194.625 192.899 198.215 192.899 198.215 196.491 194.625 196.491 194.625 192.899 0.670588 1 0.356863 epoly
-1 0 0 0 198.215 192.899 201.806 192.899 201.806 196.491 198.215 196.491 198.215 192.899 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 185.716 187.444 185.716 187.444 192.899 180.262 192.899 180.262 185.716 0.498039 1 0.529412 epoly
-1 0 0 0 187.444 185.716 194.625 185.716 194.625 192.899 187.444 192.899 187.444 185.716 0.513725 1 0.513725 epoly
-1 0 0 0 180.262 178.533 187.444 178.533 187.444 185.716 180.262 185.716 180.262 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 187.444 178.533 194.625 178.533 194.625 185.716 187.444 185.716 187.444 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 194.625 189.308 198.215 189.308 198.215 192.899 194.625 192.899 194.625 189.308 0.580392 1 0.447059 epoly
-1 0 0 0 198.215 189.308 201.806 189.308 201.806 192.899 198.215 192.899 198.215 189.308 0.572549 1 0.454902 epoly
-1 0 0 0 194.625 185.716 198.215 185.716 198.215 189.308 194.625 189.308 194.625 185.716 0.537255 1 0.490196 epoly
-1 0 0 0 198.215 185.716 201.806 185.716 201.806 189.308 198.215 189.308 198.215 185.716 0.556863 1 0.470588 epoly
-1 0 0 0 201.806 189.308 205.396 189.308 205.396 192.899 201.806 192.899 201.806 189.308 0.505882 1 0.521569 epoly
-1 0 0 0 201.806 185.716 205.396 185.716 205.396 189.308 201.806 189.308 201.806 185.716 0.635294 1 0.392157 epoly
-1 0 0 0 205.396 185.716 208.987 185.716 208.987 189.308 205.396 189.308 205.396 185.716 0.568627 1 0.458824 epoly
-1 0 0 0 194.625 178.533 201.806 178.533 201.806 185.716 194.625 185.716 194.625 178.533 0.494118 1 0.533333 epoly
-1 0 0 0 201.806 182.124 205.396 182.124 205.396 185.716 201.806 185.716 201.806 182.124 0.545098 1 0.482353 epoly
-1 0 0 0 205.396 182.124 208.987 182.124 208.987 185.716 205.396 185.716 205.396 182.124 0.568627 1 0.458824 epoly
-1 0 0 0 201.806 178.533 205.396 178.533 205.396 182.124 201.806 182.124 201.806 178.533 0.47451 1 0.552941 epoly
-1 0 0 0 205.396 178.533 208.987 178.533 208.987 182.124 205.396 182.124 205.396 178.533 0.529412 1 0.498039 epoly
-1 0 0 0 234.121 203.675 237.711 203.675 237.711 207.266 234.121 207.266 234.121 203.675 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 200.083 237.711 200.083 237.711 203.675 234.121 203.675 234.121 200.083 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 196.491 237.711 196.491 237.711 200.083 234.121 200.083 234.121 196.491 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 192.899 237.711 192.899 237.711 196.491 234.121 196.491 234.121 192.899 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 185.716 212.577 185.716 212.577 189.308 208.987 189.308 208.987 185.716 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 182.124 212.577 182.124 212.577 185.716 208.987 185.716 208.987 182.124 0.635294 1 0.392157 epoly
-1 0 0 0 212.577 182.124 216.168 182.124 216.168 185.716 212.577 185.716 212.577 182.124 0.623529 1 0.403922 epoly
-1 0 0 0 208.987 178.533 212.577 178.533 212.577 182.124 208.987 182.124 208.987 178.533 0.54902 1 0.478431 epoly
-1 0 0 0 212.577 178.533 216.168 178.533 216.168 182.124 212.577 182.124 212.577 178.533 0.54902 1 0.478431 epoly
-1 0 0 0 216.168 182.124 219.759 182.124 219.759 185.716 216.168 185.716 216.168 182.124 0.505882 1 0.521569 epoly
-1 0 0 0 216.168 178.533 219.759 178.533 219.759 182.124 216.168 182.124 216.168 178.533 0.619608 1 0.407843 epoly
-1 0 0 0 219.759 178.533 223.349 178.533 223.349 182.124 219.759 182.124 219.759 178.533 0.698039 1 0.329412 epoly
-1 0 0 0 234.121 189.308 237.711 189.308 237.711 192.899 234.121 192.899 234.121 189.308 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 185.716 237.711 185.716 237.711 189.308 234.121 189.308 234.121 185.716 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 178.533 226.94 178.533 226.94 182.124 223.349 182.124 223.349 178.533 0.701961 1 0.32549 epoly
-1 0 0 0 226.94 178.533 230.53 178.533 230.53 182.124 226.94 182.124 226.94 178.533 0.67451 1 0.352941 epoly
-1 0 0 0 234.121 182.124 237.711 182.124 237.711 185.716 234.121 185.716 234.121 182.124 0.462745 1 0.564706 epoly
-1 0 0 0 230.53 178.533 234.121 178.533 234.121 182.124 230.53 182.124 230.53 178.533 0.592157 1 0.435294 epoly
-1 0 0 0 234.121 178.533 237.711 178.533 237.711 182.124 234.121 182.124 234.121 178.533 1 0.121569 0 epoly
-1 0 0 0 122.814 164.166 137.176 164.166 137.176 178.533 122.814 178.533 122.814 164.166 0.509804 1 0.517647 epoly
-1 0 0 0 137.176 164.166 151.538 164.166 151.538 178.533 137.176 178.533 137.176 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 122.814 149.799 137.176 149.799 137.176 164.166 122.814 164.166 122.814 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 137.176 149.799 151.538 149.799 151.538 164.166 137.176 164.166 137.176 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 151.538 164.166 165.9 164.166 165.9 178.533 151.538 178.533 151.538 164.166 0.505882 1 0.517647 epoly
-1 0 0 0 165.9 164.166 180.262 164.166 180.262 178.533 165.9 178.533 165.9 164.166 0.513725 1 0.513725 epoly
-1 0 0 0 151.538 149.799 165.9 149.799 165.9 164.166 151.538 164.166 151.538 149.799 0.509804 1 0.517647 epoly
-1 0 0 0 165.9 149.799 180.262 149.799 180.262 164.166 165.9 164.166 165.9 149.799 0.509804 1 0.517647 epoly
-1 0 0 0 122.814 121.065 151.538 121.065 151.538 149.799 122.814 149.799 122.814 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 151.538 121.065 180.262 121.065 180.262 149.799 151.538 149.799 151.538 121.065 0.509804 1 0.517647 epoly
-1 0 0 0 180.262 164.166 194.625 164.166 194.625 178.533 180.262 178.533 180.262 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 194.625 171.349 201.806 171.349 201.806 178.533 194.625 178.533 194.625 171.349 0.494118 1 0.533333 epoly
-1 0 0 0 201.806 171.349 208.987 171.349 208.987 178.533 201.806 178.533 201.806 171.349 0.505882 1 0.521569 epoly
-1 0 0 0 194.625 164.166 201.806 164.166 201.806 171.349 194.625 171.349 194.625 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 201.806 164.166 208.987 164.166 208.987 171.349 201.806 171.349 201.806 164.166 0.509804 1 0.517647 epoly
-1 0 0 0 180.262 149.799 194.625 149.799 194.625 164.166 180.262 164.166 180.262 149.799 0.513725 1 0.513725 epoly
-1 0 0 0 194.625 149.799 208.987 149.799 208.987 164.166 194.625 164.166 194.625 149.799 0.513725 1 0.513725 epoly
-1 0 0 0 208.987 171.349 216.168 171.349 216.168 178.533 208.987 178.533 208.987 171.349 0.509804 1 0.517647 epoly
-1 0 0 0 216.168 171.349 223.349 171.349 223.349 178.533 216.168 178.533 216.168 171.349 0.529412 1 0.498039 epoly
-1 0 0 0 208.987 164.166 216.168 164.166 216.168 171.349 208.987 171.349 208.987 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 216.168 164.166 223.349 164.166 223.349 171.349 216.168 171.349 216.168 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 223.349 174.941 226.94 174.941 226.94 178.533 223.349 178.533 223.349 174.941 0.603922 1 0.423529 epoly
-1 0 0 0 226.94 174.941 230.53 174.941 230.53 178.533 226.94 178.533 226.94 174.941 0.627451 1 0.4 epoly
-1 0 0 0 223.349 171.349 226.94 171.349 226.94 174.941 223.349 174.941 223.349 171.349 0.533333 1 0.494118 epoly
-1 0 0 0 226.94 171.349 230.53 171.349 230.53 174.941 226.94 174.941 226.94 171.349 0.54902 1 0.478431 epoly
-1 0 0 0 230.53 174.941 234.121 174.941 234.121 178.533 230.53 178.533 230.53 174.941 0.705882 1 0.321569 epoly
-1 0 0 0 234.121 174.941 237.711 174.941 237.711 178.533 234.121 178.533 234.121 174.941 0.721569 0 0 epoly
-1 0 0 0 230.53 171.349 234.121 171.349 234.121 174.941 230.53 174.941 230.53 171.349 0.533333 1 0.494118 epoly
-1 0 0 0 234.121 171.349 237.711 171.349 237.711 174.941 234.121 174.941 234.121 171.349 0.6 1 0.427451 epoly
-1 0 0 0 223.349 164.166 230.53 164.166 230.53 171.349 223.349 171.349 223.349 164.166 0.509804 1 0.517647 epoly
-1 0 0 0 230.53 167.757 234.121 167.757 234.121 171.349 230.53 171.349 230.53 167.757 0.501961 1 0.52549 epoly
-1 0 0 0 234.121 167.757 237.711 167.757 237.711 171.349 234.121 171.349 234.121 167.757 0.443137 1 0.584314 epoly
-1 0 0 0 230.53 164.166 234.121 164.166 234.121 167.757 230.53 167.757 230.53 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 234.121 164.166 237.711 164.166 237.711 167.757 234.121 167.757 234.121 164.166 0.490196 1 0.533333 epoly
-1 0 0 0 208.987 149.799 223.349 149.799 223.349 164.166 208.987 164.166 208.987 149.799 0.494118 1 0.533333 epoly
-1 0 0 0 223.349 156.982 230.53 156.982 230.53 164.166 223.349 164.166 223.349 156.982 0.494118 1 0.533333 epoly
-1 0 0 0 230.53 156.982 237.711 156.982 237.711 164.166 230.53 164.166 230.53 156.982 0.501961 1 0.52549 epoly
-1 0 0 0 223.349 149.799 230.53 149.799 230.53 156.982 223.349 156.982 223.349 149.799 0.494118 1 0.533333 epoly
-1 0 0 0 230.53 149.799 237.711 149.799 237.711 156.982 230.53 156.982 230.53 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 180.262 121.065 208.987 121.065 208.987 149.799 180.262 149.799 180.262 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 135.432 223.349 135.432 223.349 149.799 208.987 149.799 208.987 135.432 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 135.432 237.711 135.432 237.711 149.799 223.349 149.799 223.349 135.432 0.501961 1 0.52549 epoly
-1 0 0 0 208.987 121.065 223.349 121.065 223.349 135.432 208.987 135.432 208.987 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 121.065 237.711 121.065 237.711 135.432 223.349 135.432 223.349 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 7.91583 106.698 22.2781 106.698 22.2781 121.065 7.91583 121.065 7.91583 106.698 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 106.698 36.6403 106.698 36.6403 121.065 22.2781 121.065 22.2781 106.698 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 92.3313 22.2781 92.3313 22.2781 106.698 7.91583 106.698 7.91583 92.3313 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 92.3313 36.6403 92.3313 36.6403 106.698 22.2781 106.698 22.2781 92.3313 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 106.698 51.0025 106.698 51.0025 121.065 36.6403 121.065 36.6403 106.698 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 106.698 65.3647 106.698 65.3647 121.065 51.0025 121.065 51.0025 106.698 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 92.3313 51.0025 92.3313 51.0025 106.698 36.6403 106.698 36.6403 92.3313 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 92.3313 65.3647 92.3313 65.3647 106.698 51.0025 106.698 51.0025 92.3313 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 63.5975 36.6403 63.5975 36.6403 92.3313 7.91583 92.3313 7.91583 63.5975 0.501961 1 0.52549 epoly
-1 0 0 0 36.6403 63.5975 65.3647 63.5975 65.3647 92.3313 36.6403 92.3313 36.6403 63.5975 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 106.698 79.7269 106.698 79.7269 121.065 65.3647 121.065 65.3647 106.698 0.498039 1 0.529412 epoly
-1 0 0 0 79.7269 106.698 94.0891 106.698 94.0891 121.065 79.7269 121.065 79.7269 106.698 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 92.3313 79.7269 92.3313 79.7269 106.698 65.3647 106.698 65.3647 92.3313 0.501961 1 0.52549 epoly
-1 0 0 0 79.7269 92.3313 94.0891 92.3313 94.0891 106.698 79.7269 106.698 79.7269 92.3313 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 92.3313 122.814 92.3313 122.814 121.065 94.0891 121.065 94.0891 92.3313 0.505882 1 0.521569 epoly
-1 0 0 0 65.3647 63.5975 94.0891 63.5975 94.0891 92.3313 65.3647 92.3313 65.3647 63.5975 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 63.5975 122.814 63.5975 122.814 92.3313 94.0891 92.3313 94.0891 63.5975 0.501961 1 0.521569 epoly
-1 0 0 0 7.91583 6.13002 65.3647 6.13002 65.3647 63.5975 7.91583 63.5975 7.91583 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 65.3647 6.13002 122.814 6.13002 122.814 63.5975 65.3647 63.5975 65.3647 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 122.814 63.5975 180.262 63.5975 180.262 121.065 122.814 121.065 122.814 63.5975 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 92.3313 208.987 92.3313 208.987 121.065 180.262 121.065 180.262 92.3313 0.509804 1 0.517647 epoly
-1 0 0 0 208.987 92.3313 237.711 92.3313 237.711 121.065 208.987 121.065 208.987 92.3313 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 63.5975 208.987 63.5975 208.987 92.3313 180.262 92.3313 180.262 63.5975 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 63.5975 237.711 63.5975 237.711 92.3313 208.987 92.3313 208.987 63.5975 0.505882 1 0.521569 epoly
-1 0 0 0 122.814 6.13002 180.262 6.13002 180.262 63.5975 122.814 63.5975 122.814 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 6.13002 237.711 6.13002 237.711 63.5975 180.262 63.5975 180.262 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 228.817 244.892 228.817 244.892 236 237.711 236 237.711 228.817 0.494118 1 0.533333 epoly
-1 0 0 0 244.892 228.817 252.074 228.817 252.074 236 244.892 236 244.892 228.817 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 225.225 241.302 225.225 241.302 228.817 237.711 228.817 237.711 225.225 0.529412 1 0.498039 epoly
-1 0 0 0 241.302 225.225 244.892 225.225 244.892 228.817 241.302 228.817 241.302 225.225 0.517647 1 0.509804 epoly
-1 0 0 0 237.711 221.633 241.302 221.633 241.302 225.225 237.711 225.225 237.711 221.633 0.494118 1 0.533333 epoly
-1 0 0 0 241.302 221.633 244.892 221.633 244.892 225.225 241.302 225.225 241.302 221.633 0.52549 1 0.501961 epoly
-1 0 0 0 244.892 221.633 252.074 221.633 252.074 228.817 244.892 228.817 244.892 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 252.074 228.817 259.255 228.817 259.255 236 252.074 236 252.074 228.817 0.505882 1 0.521569 epoly
-1 0 0 0 259.255 228.817 266.436 228.817 266.436 236 259.255 236 259.255 228.817 0.505882 1 0.521569 epoly
-1 0 0 0 252.074 225.225 255.664 225.225 255.664 228.817 252.074 228.817 252.074 225.225 0.498039 1 0.529412 epoly
-1 0 0 0 255.664 225.225 259.255 225.225 259.255 228.817 255.664 228.817 255.664 225.225 0.498039 1 0.529412 epoly
-1 0 0 0 252.074 221.633 255.664 221.633 255.664 225.225 252.074 225.225 252.074 221.633 0.478431 1 0.54902 epoly
-1 0 0 0 255.664 221.633 259.255 221.633 259.255 225.225 255.664 225.225 255.664 221.633 0.47451 1 0.552941 epoly
-1 0 0 0 259.255 221.633 266.436 221.633 266.436 228.817 259.255 228.817 259.255 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 214.45 244.892 214.45 244.892 221.633 237.711 221.633 237.711 214.45 0.505882 1 0.517647 epoly
-1 0 0 0 244.892 214.45 252.074 214.45 252.074 221.633 244.892 221.633 244.892 214.45 0.501961 1 0.52549 epoly
-1 0 0 0 237.711 210.858 241.302 210.858 241.302 214.45 237.711 214.45 237.711 210.858 0.541176 1 0.486275 epoly
-1 0 0 0 241.302 210.858 244.892 210.858 244.892 214.45 241.302 214.45 241.302 210.858 0.458824 1 0.568627 epoly
-1 0 0 0 237.711 207.266 241.302 207.266 241.302 210.858 237.711 210.858 237.711 207.266 0.521569 1 0.505882 epoly
-1 0 0 0 241.302 207.266 244.892 207.266 244.892 210.858 241.302 210.858 241.302 207.266 0.466667 1 0.560784 epoly
-1 0 0 0 244.892 210.858 248.483 210.858 248.483 214.45 244.892 214.45 244.892 210.858 0.462745 1 0.564706 epoly
-1 0 0 0 248.483 210.858 252.074 210.858 252.074 214.45 248.483 214.45 248.483 210.858 0.537255 1 0.490196 epoly
-1 0 0 0 244.892 207.266 248.483 207.266 248.483 210.858 244.892 210.858 244.892 207.266 0.513725 1 0.513725 epoly
-1 0 0 0 248.483 207.266 252.074 207.266 252.074 210.858 248.483 210.858 248.483 207.266 0.623529 1 0.403922 epoly
-1 0 0 0 252.074 218.041 255.664 218.041 255.664 221.633 252.074 221.633 252.074 218.041 0.478431 1 0.54902 epoly
-1 0 0 0 255.664 218.041 259.255 218.041 259.255 221.633 255.664 221.633 255.664 218.041 0.478431 1 0.54902 epoly
-1 0 0 0 252.074 214.45 255.664 214.45 255.664 218.041 252.074 218.041 252.074 214.45 0.490196 1 0.537255 epoly
-1 0 0 0 255.664 214.45 259.255 214.45 259.255 218.041 255.664 218.041 255.664 214.45 0.490196 1 0.537255 epoly
-1 0 0 0 259.255 218.041 262.845 218.041 262.845 221.633 259.255 221.633 259.255 218.041 0.490196 1 0.537255 epoly
-1 0 0 0 262.845 218.041 266.436 218.041 266.436 221.633 262.845 221.633 262.845 218.041 0.486275 1 0.541176 epoly
-1 0 0 0 259.255 214.45 262.845 214.45 262.845 218.041 259.255 218.041 259.255 214.45 0.478431 1 0.54902 epoly
-1 0 0 0 262.845 214.45 266.436 214.45 266.436 218.041 262.845 218.041 262.845 214.45 0.478431 1 0.54902 epoly
-1 0 0 0 252.074 210.858 255.664 210.858 255.664 214.45 252.074 214.45 252.074 210.858 0.552941 1 0.47451 epoly
-1 0 0 0 255.664 210.858 259.255 210.858 259.255 214.45 255.664 214.45 255.664 210.858 0.560784 1 0.466667 epoly
-1 0 0 0 252.074 207.266 255.664 207.266 255.664 210.858 252.074 210.858 252.074 207.266 0.74902 1 0.278431 epoly
-1 0 0 0 255.664 207.266 259.255 207.266 259.255 210.858 255.664 210.858 255.664 207.266 0.788235 1 0.239216 epoly
-1 0 0 0 259.255 210.858 262.845 210.858 262.845 214.45 259.255 214.45 259.255 210.858 0.529412 1 0.498039 epoly
-1 0 0 0 262.845 210.858 266.436 210.858 266.436 214.45 262.845 214.45 262.845 210.858 0.513725 1 0.513725 epoly
-1 0 0 0 259.255 207.266 262.845 207.266 262.845 210.858 259.255 210.858 259.255 207.266 0.713725 1 0.313725 epoly
-1 0 0 0 262.845 207.266 266.436 207.266 266.436 210.858 262.845 210.858 262.845 207.266 0.596078 1 0.431373 epoly
-1 0 0 0 266.436 228.817 273.617 228.817 273.617 236 266.436 236 266.436 228.817 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 228.817 280.798 228.817 280.798 236 273.617 236 273.617 228.817 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 221.633 273.617 221.633 273.617 228.817 266.436 228.817 266.436 221.633 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 221.633 280.798 221.633 280.798 228.817 273.617 228.817 273.617 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 280.798 221.633 295.16 221.633 295.16 236 280.798 236 280.798 221.633 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 214.45 273.617 214.45 273.617 221.633 266.436 221.633 266.436 214.45 0.490196 1 0.537255 epoly
-1 0 0 0 273.617 214.45 280.798 214.45 280.798 221.633 273.617 221.633 273.617 214.45 0.513725 1 0.513725 epoly
-1 0 0 0 266.436 207.266 273.617 207.266 273.617 214.45 266.436 214.45 266.436 207.266 0.486275 1 0.541176 epoly
-1 0 0 0 273.617 210.858 277.207 210.858 277.207 214.45 273.617 214.45 273.617 210.858 0.470588 1 0.552941 epoly
-1 0 0 0 277.207 210.858 280.798 210.858 280.798 214.45 277.207 214.45 277.207 210.858 0.482353 1 0.545098 epoly
-1 0 0 0 273.617 207.266 277.207 207.266 277.207 210.858 273.617 210.858 273.617 207.266 0.435294 1 0.592157 epoly
-1 0 0 0 277.207 207.266 280.798 207.266 280.798 210.858 277.207 210.858 277.207 207.266 0.454902 1 0.572549 epoly
-1 0 0 0 280.798 214.45 287.979 214.45 287.979 221.633 280.798 221.633 280.798 214.45 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 214.45 295.16 214.45 295.16 221.633 287.979 221.633 287.979 214.45 0.501961 1 0.52549 epoly
-1 0 0 0 280.798 207.266 287.979 207.266 287.979 214.45 280.798 214.45 280.798 207.266 0.490196 1 0.537255 epoly
-1 0 0 0 287.979 207.266 295.16 207.266 295.16 214.45 287.979 214.45 287.979 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 237.711 203.675 241.302 203.675 241.302 207.266 237.711 207.266 237.711 203.675 0.501961 1 0.52549 epoly
-1 0 0 0 241.302 203.675 244.892 203.675 244.892 207.266 241.302 207.266 241.302 203.675 0.478431 1 0.54902 epoly
-1 0 0 0 237.711 200.083 241.302 200.083 241.302 203.675 237.711 203.675 237.711 200.083 0.494118 1 0.533333 epoly
-1 0 0 0 241.302 200.083 244.892 200.083 244.892 203.675 241.302 203.675 241.302 200.083 0.552941 1 0.47451 epoly
-1 0 0 0 244.892 203.675 248.483 203.675 248.483 207.266 244.892 207.266 244.892 203.675 0.654902 1 0.372549 epoly
-1 0 0 0 248.483 203.675 252.074 203.675 252.074 207.266 248.483 207.266 248.483 203.675 0.894118 1 0.133333 epoly
-1 0 0 0 244.892 200.083 248.483 200.083 248.483 203.675 244.892 203.675 244.892 200.083 0.92549 1 0.101961 epoly
-1 0 0 0 248.483 200.083 252.074 200.083 252.074 203.675 248.483 203.675 248.483 200.083 1 0.658824 0 epoly
-1 0 0 0 237.711 196.491 241.302 196.491 241.302 200.083 237.711 200.083 237.711 196.491 0.509804 1 0.517647 epoly
-1 0 0 0 241.302 196.491 244.892 196.491 244.892 200.083 241.302 200.083 241.302 196.491 0.709804 1 0.317647 epoly
-1 0 0 0 237.711 192.899 241.302 192.899 241.302 196.491 237.711 196.491 237.711 192.899 0.509804 1 0.517647 epoly
-1 0 0 0 241.302 192.899 244.892 192.899 244.892 196.491 241.302 196.491 241.302 192.899 0.878431 1 0.14902 epoly
-1 0 0 0 244.892 196.491 248.483 196.491 248.483 200.083 244.892 200.083 244.892 196.491 1 0.780392 0 epoly
-1 0 0 0 248.483 196.491 252.074 196.491 252.074 200.083 248.483 200.083 248.483 196.491 1 0.2 0 epoly
-1 0 0 0 244.892 192.899 248.483 192.899 248.483 196.491 244.892 196.491 244.892 192.899 1 0.537255 0 epoly
-1 0 0 0 248.483 192.899 252.074 192.899 252.074 196.491 248.483 196.491 248.483 192.899 0.894118 0 0 epoly
-1 0 0 0 252.074 203.675 255.664 203.675 255.664 207.266 252.074 207.266 252.074 203.675 1 0.882353 0 epoly
-1 0 0 0 255.664 203.675 259.255 203.675 259.255 207.266 255.664 207.266 255.664 203.675 1 0.847059 0 epoly
-1 0 0 0 252.074 200.083 255.664 200.083 255.664 203.675 252.074 203.675 252.074 200.083 1 0.356863 0 epoly
-1 0 0 0 255.664 200.083 259.255 200.083 259.255 203.675 255.664 203.675 255.664 200.083 1 0.34902 0 epoly
-1 0 0 0 259.255 203.675 262.845 203.675 262.845 207.266 259.255 207.266 259.255 203.675 1 1 0.0196078 epoly
-1 0 0 0 262.845 203.675 266.436 203.675 266.436 207.266 262.845 207.266 262.845 203.675 0.74902 1 0.278431 epoly
-1 0 0 0 259.255 200.083 262.845 200.083 262.845 203.675 259.255 203.675 259.255 200.083 1 0.631373 0 epoly
-1 0 0 0 262.845 200.083 266.436 200.083 266.436 203.675 262.845 203.675 262.845 200.083 0.976471 1 0.0509804 epoly
-1 0 0 0 252.074 196.491 255.664 196.491 255.664 200.083 252.074 200.083 252.074 196.491 0.870588 0 0 epoly
-1 0 0 0 255.664 196.491 259.255 196.491 259.255 200.083 255.664 200.083 255.664 196.491 0.882353 0 0 epoly
-1 0 0 0 252.074 192.899 255.664 192.899 255.664 196.491 252.074 196.491 252.074 192.899 0.576471 0 0 epoly
-1 0 0 0 255.664 192.899 259.255 192.899 259.255 196.491 255.664 196.491 255.664 192.899 0.603922 0 0 epoly
-1 0 0 0 259.255 196.491 262.845 196.491 262.845 200.083 259.255 200.083 259.255 196.491 1 0.243137 0 epoly
-1 0 0 0 262.845 196.491 266.436 196.491 266.436 200.083 262.845 200.083 262.845 196.491 1 0.823529 0 epoly
-1 0 0 0 259.255 192.899 262.845 192.899 262.845 196.491 259.255 196.491 259.255 192.899 0.980392 0 0 epoly
-1 0 0 0 262.845 192.899 266.436 192.899 266.436 196.491 262.845 196.491 262.845 192.899 1 0.698039 0 epoly
-1 0 0 0 237.711 189.308 241.302 189.308 241.302 192.899 237.711 192.899 237.711 189.308 0.478431 1 0.545098 epoly
-1 0 0 0 241.302 189.308 244.892 189.308 244.892 192.899 241.302 192.899 241.302 189.308 0.933333 1 0.0941176 epoly
-1 0 0 0 237.711 185.716 241.302 185.716 241.302 189.308 237.711 189.308 237.711 185.716 0.431373 1 0.596078 epoly
-1 0 0 0 241.302 185.716 244.892 185.716 244.892 189.308 241.302 189.308 241.302 185.716 0.835294 1 0.192157 epoly
-1 0 0 0 244.892 189.308 248.483 189.308 248.483 192.899 244.892 192.899 244.892 189.308 1 0.45098 0 epoly
-1 0 0 0 248.483 189.308 252.074 189.308 252.074 192.899 248.483 192.899 248.483 189.308 0.866667 0 0 epoly
-1 0 0 0 244.892 185.716 248.483 185.716 248.483 189.308 244.892 189.308 244.892 185.716 1 0.592157 0 epoly
-1 0 0 0 248.483 185.716 252.074 185.716 252.074 189.308 248.483 189.308 248.483 185.716 1 0.164706 0 epoly
-1 0 0 0 237.711 182.124 241.302 182.124 241.302 185.716 237.711 185.716 237.711 182.124 0.34902 1 0.678431 epoly
-1 0 0 0 241.302 182.124 244.892 182.124 244.892 185.716 241.302 185.716 241.302 182.124 0.619608 1 0.407843 epoly
-1 0 0 0 237.711 178.533 241.302 178.533 241.302 182.124 237.711 182.124 237.711 178.533 1 0.313725 0 epoly
-1 0 0 0 241.302 178.533 244.892 178.533 244.892 182.124 241.302 182.124 241.302 178.533 1 0.47451 0 epoly
-1 0 0 0 244.892 182.124 248.483 182.124 248.483 185.716 244.892 185.716 244.892 182.124 1 0.901961 0 epoly
-1 0 0 0 248.483 182.124 252.074 182.124 252.074 185.716 248.483 185.716 248.483 182.124 1 0.301961 0 epoly
-1 0 0 0 244.892 178.533 248.483 178.533 248.483 182.124 244.892 182.124 244.892 178.533 1 0.219608 0 epoly
-1 0 0 0 248.483 178.533 252.074 178.533 252.074 182.124 248.483 182.124 248.483 178.533 0.909804 0 0 epoly
-1 0 0 0 252.074 189.308 255.664 189.308 255.664 192.899 252.074 192.899 252.074 189.308 0.6 0 0 epoly
-1 0 0 0 255.664 189.308 259.255 189.308 259.255 192.899 255.664 192.899 255.664 189.308 0.529412 0 0 epoly
-1 0 0 0 252.074 185.716 255.664 185.716 255.664 189.308 252.074 189.308 252.074 185.716 0.803922 0 0 epoly
-1 0 0 0 255.664 185.716 259.255 185.716 259.255 189.308 255.664 189.308 255.664 185.716 0.596078 0 0 epoly
-1 0 0 0 259.255 189.308 262.845 189.308 262.845 192.899 259.255 192.899 259.255 189.308 0.890196 0 0 epoly
-1 0 0 0 262.845 189.308 266.436 189.308 266.436 192.899 262.845 192.899 262.845 189.308 1 0.729412 0 epoly
-1 0 0 0 259.255 185.716 262.845 185.716 262.845 189.308 259.255 189.308 259.255 185.716 1 0.0431373 0 epoly
-1 0 0 0 262.845 185.716 266.436 185.716 266.436 189.308 262.845 189.308 262.845 185.716 1 0.843137 0 epoly
-1 0 0 0 252.074 182.124 255.664 182.124 255.664 185.716 252.074 185.716 252.074 182.124 0.74902 0 0 epoly
-1 0 0 0 255.664 182.124 259.255 182.124 259.255 185.716 255.664 185.716 255.664 182.124 0.807843 0 0 epoly
-1 0 0 0 252.074 178.533 255.664 178.533 255.664 182.124 252.074 182.124 252.074 178.533 1 0 0 epoly
-1 0 0 0 255.664 178.533 259.255 178.533 259.255 182.124 255.664 182.124 255.664 178.533 1 0.541176 0 epoly
-1 0 0 0 259.255 182.124 262.845 182.124 262.845 185.716 259.255 185.716 259.255 182.124 1 0.501961 0 epoly
-1 0 0 0 262.845 182.124 266.436 182.124 266.436 185.716 262.845 185.716 262.845 182.124 0.843137 1 0.184314 epoly
-1 0 0 0 259.255 178.533 262.845 178.533 262.845 182.124 259.255 182.124 259.255 178.533 0.894118 1 0.133333 epoly
-1 0 0 0 262.845 178.533 266.436 178.533 266.436 182.124 262.845 182.124 262.845 178.533 0.568627 1 0.458824 epoly
-1 0 0 0 266.436 200.083 273.617 200.083 273.617 207.266 266.436 207.266 266.436 200.083 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 203.675 277.207 203.675 277.207 207.266 273.617 207.266 273.617 203.675 0.392157 1 0.635294 epoly
-1 0 0 0 277.207 203.675 280.798 203.675 280.798 207.266 277.207 207.266 277.207 203.675 0.419608 1 0.607843 epoly
-1 0 0 0 273.617 200.083 277.207 200.083 277.207 203.675 273.617 203.675 273.617 200.083 0.376471 1 0.65098 epoly
-1 0 0 0 277.207 200.083 280.798 200.083 280.798 203.675 277.207 203.675 277.207 200.083 0.392157 1 0.635294 epoly
-1 0 0 0 266.436 196.491 270.026 196.491 270.026 200.083 266.436 200.083 266.436 196.491 0.713725 1 0.313725 epoly
-1 0 0 0 270.026 196.491 273.617 196.491 273.617 200.083 270.026 200.083 270.026 196.491 0.458824 1 0.568627 epoly
-1 0 0 0 266.436 192.899 270.026 192.899 270.026 196.491 266.436 196.491 266.436 192.899 0.756863 1 0.270588 epoly
-1 0 0 0 270.026 192.899 273.617 192.899 273.617 196.491 270.026 196.491 270.026 192.899 0.45098 1 0.576471 epoly
-1 0 0 0 273.617 196.491 277.207 196.491 277.207 200.083 273.617 200.083 273.617 196.491 0.337255 1 0.690196 epoly
-1 0 0 0 277.207 196.491 280.798 196.491 280.798 200.083 277.207 200.083 277.207 196.491 0.372549 1 0.654902 epoly
-1 0 0 0 273.617 192.899 277.207 192.899 277.207 196.491 273.617 196.491 273.617 192.899 0.352941 1 0.67451 epoly
-1 0 0 0 277.207 192.899 280.798 192.899 280.798 196.491 277.207 196.491 277.207 192.899 0.372549 1 0.654902 epoly
-1 0 0 0 280.798 203.675 284.388 203.675 284.388 207.266 280.798 207.266 280.798 203.675 0.458824 1 0.568627 epoly
-1 0 0 0 284.388 203.675 287.979 203.675 287.979 207.266 284.388 207.266 284.388 203.675 0.482353 1 0.545098 epoly
-1 0 0 0 280.798 200.083 284.388 200.083 284.388 203.675 280.798 203.675 280.798 200.083 0.443137 1 0.584314 epoly
-1 0 0 0 284.388 200.083 287.979 200.083 287.979 203.675 284.388 203.675 284.388 200.083 0.470588 1 0.556863 epoly
-1 0 0 0 287.979 200.083 295.16 200.083 295.16 207.266 287.979 207.266 287.979 200.083 0.494118 1 0.533333 epoly
-1 0 0 0 280.798 196.491 284.388 196.491 284.388 200.083 280.798 200.083 280.798 196.491 0.439216 1 0.588235 epoly
-1 0 0 0 284.388 196.491 287.979 196.491 287.979 200.083 284.388 200.083 284.388 196.491 0.470588 1 0.556863 epoly
-1 0 0 0 280.798 192.899 284.388 192.899 284.388 196.491 280.798 196.491 280.798 192.899 0.435294 1 0.592157 epoly
-1 0 0 0 284.388 192.899 287.979 192.899 287.979 196.491 284.388 196.491 284.388 192.899 0.47451 1 0.552941 epoly
-1 0 0 0 287.979 192.899 295.16 192.899 295.16 200.083 287.979 200.083 287.979 192.899 0.490196 1 0.537255 epoly
-1 0 0 0 266.436 189.308 270.026 189.308 270.026 192.899 266.436 192.899 266.436 189.308 0.662745 1 0.364706 epoly
-1 0 0 0 270.026 189.308 273.617 189.308 273.617 192.899 270.026 192.899 270.026 189.308 0.454902 1 0.572549 epoly
-1 0 0 0 266.436 185.716 270.026 185.716 270.026 189.308 266.436 189.308 266.436 185.716 0.627451 1 0.4 epoly
-1 0 0 0 270.026 185.716 273.617 185.716 273.617 189.308 270.026 189.308 270.026 185.716 0.368627 1 0.658824 epoly
-1 0 0 0 273.617 189.308 277.207 189.308 277.207 192.899 273.617 192.899 273.617 189.308 0.345098 1 0.682353 epoly
-1 0 0 0 277.207 189.308 280.798 189.308 280.798 192.899 277.207 192.899 277.207 189.308 0.388235 1 0.639216 epoly
-1 0 0 0 273.617 185.716 277.207 185.716 277.207 189.308 273.617 189.308 273.617 185.716 0.301961 1 0.72549 epoly
-1 0 0 0 277.207 185.716 280.798 185.716 280.798 189.308 277.207 189.308 277.207 185.716 0.419608 1 0.607843 epoly
-1 0 0 0 266.436 182.124 270.026 182.124 270.026 185.716 266.436 185.716 266.436 182.124 0.521569 1 0.505882 epoly
-1 0 0 0 270.026 182.124 273.617 182.124 273.617 185.716 270.026 185.716 270.026 182.124 0.376471 1 0.647059 epoly
-1 0 0 0 266.436 178.533 270.026 178.533 270.026 182.124 266.436 182.124 266.436 178.533 0.458824 1 0.568627 epoly
-1 0 0 0 270.026 178.533 273.617 178.533 273.617 182.124 270.026 182.124 270.026 178.533 0.435294 1 0.592157 epoly
-1 0 0 0 273.617 182.124 277.207 182.124 277.207 185.716 273.617 185.716 273.617 182.124 0.411765 1 0.615686 epoly
-1 0 0 0 277.207 182.124 280.798 182.124 280.798 185.716 277.207 185.716 277.207 182.124 0.454902 1 0.572549 epoly
-1 0 0 0 273.617 178.533 277.207 178.533 277.207 182.124 273.617 182.124 273.617 178.533 0.458824 1 0.568627 epoly
-1 0 0 0 277.207 178.533 280.798 178.533 280.798 182.124 277.207 182.124 277.207 178.533 0.482353 1 0.545098 epoly
-1 0 0 0 280.798 189.308 284.388 189.308 284.388 192.899 280.798 192.899 280.798 189.308 0.443137 1 0.584314 epoly
-1 0 0 0 284.388 189.308 287.979 189.308 287.979 192.899 284.388 192.899 284.388 189.308 0.482353 1 0.545098 epoly
-1 0 0 0 280.798 185.716 284.388 185.716 284.388 189.308 280.798 189.308 280.798 185.716 0.470588 1 0.556863 epoly
-1 0 0 0 284.388 185.716 287.979 185.716 287.979 189.308 284.388 189.308 284.388 185.716 0.494118 1 0.533333 epoly
-1 0 0 0 287.979 185.716 295.16 185.716 295.16 192.899 287.979 192.899 287.979 185.716 0.501961 1 0.52549 epoly
-1 0 0 0 280.798 178.533 287.979 178.533 287.979 185.716 280.798 185.716 280.798 178.533 0.498039 1 0.529412 epoly
-1 0 0 0 287.979 178.533 295.16 178.533 295.16 185.716 287.979 185.716 287.979 178.533 0.509804 1 0.517647 epoly
-1 0 0 0 295.16 228.817 302.341 228.817 302.341 236 295.16 236 295.16 228.817 0.501961 1 0.52549 epoly
-1 0 0 0 302.341 228.817 309.522 228.817 309.522 236 302.341 236 302.341 228.817 0.498039 1 0.529412 epoly
-1 0 0 0 295.16 221.633 302.341 221.633 302.341 228.817 295.16 228.817 295.16 221.633 0.498039 1 0.529412 epoly
-1 0 0 0 302.341 221.633 309.522 221.633 309.522 228.817 302.341 228.817 302.341 221.633 0.490196 1 0.537255 epoly
-1 0 0 0 309.522 228.817 316.704 228.817 316.704 236 309.522 236 309.522 228.817 0.494118 1 0.533333 epoly
-1 0 0 0 316.704 228.817 323.885 228.817 323.885 236 316.704 236 316.704 228.817 0.498039 1 0.529412 epoly
-1 0 0 0 309.522 225.225 313.113 225.225 313.113 228.817 309.522 228.817 309.522 225.225 0.486275 1 0.541176 epoly
-1 0 0 0 313.113 225.225 316.704 225.225 316.704 228.817 313.113 228.817 313.113 225.225 0.478431 1 0.54902 epoly
-1 0 0 0 309.522 221.633 313.113 221.633 313.113 225.225 309.522 225.225 309.522 221.633 0.482353 1 0.545098 epoly
-1 0 0 0 313.113 221.633 316.704 221.633 316.704 225.225 313.113 225.225 313.113 221.633 0.482353 1 0.545098 epoly
-1 0 0 0 316.704 221.633 323.885 221.633 323.885 228.817 316.704 228.817 316.704 221.633 0.490196 1 0.537255 epoly
-1 0 0 0 295.16 214.45 302.341 214.45 302.341 221.633 295.16 221.633 295.16 214.45 0.486275 1 0.541176 epoly
-1 0 0 0 302.341 214.45 309.522 214.45 309.522 221.633 302.341 221.633 302.341 214.45 0.486275 1 0.541176 epoly
-1 0 0 0 295.16 207.266 302.341 207.266 302.341 214.45 295.16 214.45 295.16 207.266 0.494118 1 0.533333 epoly
-1 0 0 0 302.341 207.266 309.522 207.266 309.522 214.45 302.341 214.45 302.341 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 309.522 214.45 316.704 214.45 316.704 221.633 309.522 221.633 309.522 214.45 0.494118 1 0.533333 epoly
-1 0 0 0 316.704 214.45 323.885 214.45 323.885 221.633 316.704 221.633 316.704 214.45 0.494118 1 0.529412 epoly
-1 0 0 0 309.522 207.266 316.704 207.266 316.704 214.45 309.522 214.45 309.522 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 316.704 207.266 323.885 207.266 323.885 214.45 316.704 214.45 316.704 207.266 0.505882 1 0.521569 epoly
-1 0 0 0 323.885 221.633 338.247 221.633 338.247 236 323.885 236 323.885 221.633 0.501961 1 0.52549 epoly
-1 0 0 0 338.247 221.633 352.609 221.633 352.609 236 338.247 236 338.247 221.633 0.501961 1 0.52549 epoly
-1 0 0 0 323.885 207.266 338.247 207.266 338.247 221.633 323.885 221.633 323.885 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 338.247 207.266 352.609 207.266 352.609 221.633 338.247 221.633 338.247 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 295.16 192.899 309.522 192.899 309.522 207.266 295.16 207.266 295.16 192.899 0.505882 1 0.521569 epoly
-1 0 0 0 309.522 192.899 323.885 192.899 323.885 207.266 309.522 207.266 309.522 192.899 0.505882 1 0.521569 epoly
-1 0 0 0 295.16 178.533 309.522 178.533 309.522 192.899 295.16 192.899 295.16 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 309.522 178.533 323.885 178.533 323.885 192.899 309.522 192.899 309.522 178.533 0.498039 1 0.529412 epoly
-1 0 0 0 323.885 192.899 338.247 192.899 338.247 207.266 323.885 207.266 323.885 192.899 0.498039 1 0.529412 epoly
-1 0 0 0 338.247 192.899 352.609 192.899 352.609 207.266 338.247 207.266 338.247 192.899 0.501961 1 0.52549 epoly
-1 0 0 0 323.885 178.533 338.247 178.533 338.247 192.899 323.885 192.899 323.885 178.533 0.498039 1 0.529412 epoly
-1 0 0 0 338.247 178.533 352.609 178.533 352.609 192.899 338.247 192.899 338.247 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 174.941 241.302 174.941 241.302 178.533 237.711 178.533 237.711 174.941 0.8 0 0 epoly
-1 0 0 0 241.302 174.941 244.892 174.941 244.892 178.533 241.302 178.533 241.302 174.941 1 0.109804 0 epoly
-1 0 0 0 237.711 171.349 241.302 171.349 241.302 174.941 237.711 174.941 237.711 171.349 0.756863 1 0.270588 epoly
-1 0 0 0 241.302 171.349 244.892 171.349 244.892 174.941 241.302 174.941 241.302 171.349 0.839216 1 0.188235 epoly
-1 0 0 0 244.892 174.941 248.483 174.941 248.483 178.533 244.892 178.533 244.892 174.941 1 0.27451 0 epoly
-1 0 0 0 248.483 174.941 252.074 174.941 252.074 178.533 248.483 178.533 248.483 174.941 1 0.529412 0 epoly
-1 0 0 0 244.892 171.349 248.483 171.349 248.483 174.941 244.892 174.941 244.892 171.349 0.843137 1 0.184314 epoly
-1 0 0 0 248.483 171.349 252.074 171.349 252.074 174.941 248.483 174.941 248.483 171.349 0.658824 1 0.368627 epoly
-1 0 0 0 237.711 167.757 241.302 167.757 241.302 171.349 237.711 171.349 237.711 167.757 0.454902 1 0.572549 epoly
-1 0 0 0 241.302 167.757 244.892 167.757 244.892 171.349 241.302 171.349 241.302 167.757 0.478431 1 0.54902 epoly
-1 0 0 0 237.711 164.166 241.302 164.166 241.302 167.757 237.711 167.757 237.711 164.166 0.478431 1 0.54902 epoly
-1 0 0 0 241.302 164.166 244.892 164.166 244.892 167.757 241.302 167.757 241.302 164.166 0.490196 1 0.537255 epoly
-1 0 0 0 244.892 164.166 252.074 164.166 252.074 171.349 244.892 171.349 244.892 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 252.074 174.941 255.664 174.941 255.664 178.533 252.074 178.533 252.074 174.941 1 0.933333 0 epoly
-1 0 0 0 255.664 174.941 259.255 174.941 259.255 178.533 255.664 178.533 255.664 174.941 0.694118 1 0.333333 epoly
-1 0 0 0 252.074 171.349 255.664 171.349 255.664 174.941 252.074 174.941 252.074 171.349 0.494118 1 0.533333 epoly
-1 0 0 0 255.664 171.349 259.255 171.349 259.255 174.941 255.664 174.941 255.664 171.349 0.411765 1 0.615686 epoly
-1 0 0 0 259.255 174.941 262.845 174.941 262.845 178.533 259.255 178.533 259.255 174.941 0.478431 1 0.54902 epoly
-1 0 0 0 262.845 174.941 266.436 174.941 266.436 178.533 262.845 178.533 262.845 174.941 0.431373 1 0.596078 epoly
-1 0 0 0 259.255 171.349 262.845 171.349 262.845 174.941 259.255 174.941 259.255 171.349 0.403922 1 0.623529 epoly
-1 0 0 0 262.845 171.349 266.436 171.349 266.436 174.941 262.845 174.941 262.845 171.349 0.431373 1 0.596078 epoly
-1 0 0 0 252.074 164.166 259.255 164.166 259.255 171.349 252.074 171.349 252.074 164.166 0.486275 1 0.541176 epoly
-1 0 0 0 259.255 164.166 266.436 164.166 266.436 171.349 259.255 171.349 259.255 164.166 0.494118 1 0.533333 epoly
-1 0 0 0 237.711 156.982 244.892 156.982 244.892 164.166 237.711 164.166 237.711 156.982 0.490196 1 0.537255 epoly
-1 0 0 0 244.892 156.982 252.074 156.982 252.074 164.166 244.892 164.166 244.892 156.982 0.490196 1 0.537255 epoly
-1 0 0 0 237.711 149.799 244.892 149.799 244.892 156.982 237.711 156.982 237.711 149.799 0.501961 1 0.52549 epoly
-1 0 0 0 244.892 149.799 252.074 149.799 252.074 156.982 244.892 156.982 244.892 149.799 0.501961 1 0.52549 epoly
-1 0 0 0 252.074 149.799 266.436 149.799 266.436 164.166 252.074 164.166 252.074 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 174.941 270.026 174.941 270.026 178.533 266.436 178.533 266.436 174.941 0.439216 1 0.588235 epoly
-1 0 0 0 270.026 174.941 273.617 174.941 273.617 178.533 270.026 178.533 270.026 174.941 0.466667 1 0.560784 epoly
-1 0 0 0 266.436 171.349 270.026 171.349 270.026 174.941 266.436 174.941 266.436 171.349 0.458824 1 0.568627 epoly
-1 0 0 0 270.026 171.349 273.617 171.349 273.617 174.941 270.026 174.941 270.026 171.349 0.490196 1 0.537255 epoly
-1 0 0 0 273.617 171.349 280.798 171.349 280.798 178.533 273.617 178.533 273.617 171.349 0.494118 1 0.533333 epoly
-1 0 0 0 266.436 164.166 273.617 164.166 273.617 171.349 266.436 171.349 266.436 164.166 0.505882 1 0.521569 epoly
-1 0 0 0 273.617 164.166 280.798 164.166 280.798 171.349 273.617 171.349 273.617 164.166 0.521569 1 0.505882 epoly
-1 0 0 0 280.798 171.349 287.979 171.349 287.979 178.533 280.798 178.533 280.798 171.349 0.513725 1 0.513725 epoly
-1 0 0 0 287.979 171.349 295.16 171.349 295.16 178.533 287.979 178.533 287.979 171.349 0.513725 1 0.513725 epoly
-1 0 0 0 280.798 164.166 287.979 164.166 287.979 171.349 280.798 171.349 280.798 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 287.979 164.166 295.16 164.166 295.16 171.349 287.979 171.349 287.979 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 149.799 280.798 149.799 280.798 164.166 266.436 164.166 266.436 149.799 0.513725 1 0.513725 epoly
-1 0 0 0 280.798 149.799 295.16 149.799 295.16 164.166 280.798 164.166 280.798 149.799 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 135.432 252.074 135.432 252.074 149.799 237.711 149.799 237.711 135.432 0.505882 1 0.517647 epoly
-1 0 0 0 252.074 135.432 266.436 135.432 266.436 149.799 252.074 149.799 252.074 135.432 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 121.065 252.074 121.065 252.074 135.432 237.711 135.432 237.711 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 252.074 121.065 266.436 121.065 266.436 135.432 252.074 135.432 252.074 121.065 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 121.065 295.16 121.065 295.16 149.799 266.436 149.799 266.436 121.065 0.509804 1 0.517647 epoly
-1 0 0 0 295.16 164.166 309.522 164.166 309.522 178.533 295.16 178.533 295.16 164.166 0.509804 1 0.517647 epoly
-1 0 0 0 309.522 164.166 323.885 164.166 323.885 178.533 309.522 178.533 309.522 164.166 0.513725 1 0.513725 epoly
-1 0 0 0 295.16 149.799 309.522 149.799 309.522 164.166 295.16 164.166 295.16 149.799 0.509804 1 0.517647 epoly
-1 0 0 0 309.522 149.799 323.885 149.799 323.885 164.166 309.522 164.166 309.522 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 323.885 149.799 352.609 149.799 352.609 178.533 323.885 178.533 323.885 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 295.16 121.065 323.885 121.065 323.885 149.799 295.16 149.799 295.16 121.065 0.509804 1 0.517647 epoly
-1 0 0 0 323.885 121.065 352.609 121.065 352.609 149.799 323.885 149.799 323.885 121.065 0.509804 1 0.517647 epoly
-1 0 0 0 352.609 207.266 381.334 207.266 381.334 236 352.609 236 352.609 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 381.334 207.266 410.058 207.266 410.058 236 381.334 236 381.334 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 352.609 178.533 381.334 178.533 381.334 207.266 352.609 207.266 352.609 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 178.533 410.058 178.533 410.058 207.266 381.334 207.266 381.334 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 410.058 178.533 467.507 178.533 467.507 236 410.058 236 410.058 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 149.799 381.334 149.799 381.334 178.533 352.609 178.533 352.609 149.799 0.501961 1 0.52549 epoly
-1 0 0 0 381.334 149.799 410.058 149.799 410.058 178.533 381.334 178.533 381.334 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 121.065 381.334 121.065 381.334 149.799 352.609 149.799 352.609 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 121.065 410.058 121.065 410.058 149.799 381.334 149.799 381.334 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 410.058 121.065 467.507 121.065 467.507 178.533 410.058 178.533 410.058 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 92.3313 266.436 92.3313 266.436 121.065 237.711 121.065 237.711 92.3313 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 92.3313 295.16 92.3313 295.16 121.065 266.436 121.065 266.436 92.3313 0.501961 1 0.521569 epoly
-1 0 0 0 237.711 63.5975 266.436 63.5975 266.436 92.3313 237.711 92.3313 237.711 63.5975 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 63.5975 295.16 63.5975 295.16 92.3313 266.436 92.3313 266.436 63.5975 0.501961 1 0.52549 epoly
-1 0 0 0 295.16 63.5975 352.609 63.5975 352.609 121.065 295.16 121.065 295.16 63.5975 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 6.13002 295.16 6.13002 295.16 63.5975 237.711 63.5975 237.711 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 295.16 6.13002 352.609 6.13002 352.609 63.5975 295.16 63.5975 295.16 6.13002 0.505882 1 0.521569 epoly
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-1 0 0 0 223.349 293.467 226.94 293.467 226.94 297.059 223.349 297.059 223.349 293.467 0.407843 1 0.619608 epoly
-1 0 0 0 226.94 293.467 230.53 293.467 230.53 297.059 226.94 297.059 226.94 293.467 0.380392 1 0.647059 epoly
-1 0 0 0 230.53 297.059 234.121 297.059 234.121 300.651 230.53 300.651 230.53 297.059 0.458824 1 0.564706 epoly
-1 0 0 0 234.121 297.059 237.711 297.059 237.711 300.651 234.121 300.651 234.121 297.059 0.388235 1 0.639216 epoly
-1 0 0 0 230.53 293.467 234.121 293.467 234.121 297.059 230.53 297.059 230.53 293.467 0.298039 1 0.729412 epoly
-1 0 0 0 234.121 293.467 237.711 293.467 237.711 297.059 234.121 297.059 234.121 293.467 0 0 0.701961 epoly
-1 0 0 0 122.814 279.101 137.176 279.101 137.176 293.467 122.814 293.467 122.814 279.101 0.505882 1 0.521569 epoly
-1 0 0 0 137.176 279.101 151.538 279.101 151.538 293.467 137.176 293.467 137.176 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 122.814 264.734 137.176 264.734 137.176 279.101 122.814 279.101 122.814 264.734 0.509804 1 0.517647 epoly
-1 0 0 0 137.176 271.917 144.357 271.917 144.357 279.101 137.176 279.101 137.176 271.917 0.513725 1 0.513725 epoly
-1 0 0 0 144.357 271.917 151.538 271.917 151.538 279.101 144.357 279.101 144.357 271.917 0.517647 1 0.509804 epoly
-1 0 0 0 137.176 264.734 144.357 264.734 144.357 271.917 137.176 271.917 137.176 264.734 0.513725 1 0.513725 epoly
-1 0 0 0 144.357 264.734 151.538 264.734 151.538 271.917 144.357 271.917 144.357 264.734 0.517647 1 0.509804 epoly
-1 0 0 0 151.538 279.101 165.9 279.101 165.9 293.467 151.538 293.467 151.538 279.101 0.513725 1 0.513725 epoly
-1 0 0 0 165.9 279.101 180.262 279.101 180.262 293.467 165.9 293.467 165.9 279.101 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 264.734 165.9 264.734 165.9 279.101 151.538 279.101 151.538 264.734 0.513725 1 0.513725 epoly
-1 0 0 0 165.9 271.917 173.081 271.917 173.081 279.101 165.9 279.101 165.9 271.917 0.505882 1 0.521569 epoly
-1 0 0 0 173.081 271.917 180.262 271.917 180.262 279.101 173.081 279.101 173.081 271.917 0.509804 1 0.517647 epoly
-1 0 0 0 165.9 264.734 173.081 264.734 173.081 271.917 165.9 271.917 165.9 264.734 0.509804 1 0.513725 epoly
-1 0 0 0 173.081 264.734 180.262 264.734 180.262 271.917 173.081 271.917 173.081 264.734 0.498039 1 0.529412 epoly
-1 0 0 0 122.814 250.367 137.176 250.367 137.176 264.734 122.814 264.734 122.814 250.367 0.509804 1 0.517647 epoly
-1 0 0 0 137.176 250.367 151.538 250.367 151.538 264.734 137.176 264.734 137.176 250.367 0.513725 1 0.513725 epoly
-1 0 0 0 122.814 236 137.176 236 137.176 250.367 122.814 250.367 122.814 236 0.505882 1 0.521569 epoly
-1 0 0 0 137.176 236 151.538 236 151.538 250.367 137.176 250.367 137.176 236 0.509804 1 0.517647 epoly
-1 0 0 0 151.538 257.55 158.719 257.55 158.719 264.734 151.538 264.734 151.538 257.55 0.521569 1 0.505882 epoly
-1 0 0 0 158.719 257.55 165.9 257.55 165.9 264.734 158.719 264.734 158.719 257.55 0.517647 1 0.509804 epoly
-1 0 0 0 151.538 250.367 158.719 250.367 158.719 257.55 151.538 257.55 151.538 250.367 0.521569 1 0.505882 epoly
-1 0 0 0 158.719 250.367 165.9 250.367 165.9 257.55 158.719 257.55 158.719 250.367 0.501961 1 0.52549 epoly
-1 0 0 0 165.9 257.55 173.081 257.55 173.081 264.734 165.9 264.734 165.9 257.55 0.513725 1 0.513725 epoly
-1 0 0 0 173.081 257.55 180.262 257.55 180.262 264.734 173.081 264.734 173.081 257.55 0.486275 1 0.541176 epoly
-1 0 0 0 165.9 253.959 169.491 253.959 169.491 257.55 165.9 257.55 165.9 253.959 0.509804 1 0.517647 epoly
-1 0 0 0 169.491 253.959 173.081 253.959 173.081 257.55 169.491 257.55 169.491 253.959 0.533333 1 0.494118 epoly
-1 0 0 0 165.9 250.367 169.491 250.367 169.491 253.959 165.9 253.959 165.9 250.367 0.494118 1 0.533333 epoly
-1 0 0 0 169.491 250.367 173.081 250.367 173.081 253.959 169.491 253.959 169.491 250.367 0.560784 1 0.466667 epoly
-1 0 0 0 173.081 253.959 176.672 253.959 176.672 257.55 173.081 257.55 173.081 253.959 0.52549 1 0.501961 epoly
-1 0 0 0 176.672 253.959 180.262 253.959 180.262 257.55 176.672 257.55 176.672 253.959 0.505882 1 0.521569 epoly
-1 0 0 0 173.081 250.367 176.672 250.367 176.672 253.959 173.081 253.959 173.081 250.367 0.596078 1 0.431373 epoly
-1 0 0 0 176.672 250.367 180.262 250.367 180.262 253.959 176.672 253.959 176.672 250.367 0.494118 1 0.533333 epoly
-1 0 0 0 151.538 243.183 158.719 243.183 158.719 250.367 151.538 250.367 151.538 243.183 0.509804 1 0.517647 epoly
-1 0 0 0 158.719 243.183 165.9 243.183 165.9 250.367 158.719 250.367 158.719 243.183 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 236 158.719 236 158.719 243.183 151.538 243.183 151.538 236 0.513725 1 0.513725 epoly
-1 0 0 0 158.719 236 165.9 236 165.9 243.183 158.719 243.183 158.719 236 0.505882 1 0.521569 epoly
-1 0 0 0 165.9 243.183 173.081 243.183 173.081 250.367 165.9 250.367 165.9 243.183 0.52549 1 0.501961 epoly
-1 0 0 0 173.081 246.775 176.672 246.775 176.672 250.367 173.081 250.367 173.081 246.775 0.658824 1 0.368627 epoly
-1 0 0 0 176.672 246.775 180.262 246.775 180.262 250.367 176.672 250.367 176.672 246.775 0.490196 1 0.537255 epoly
-1 0 0 0 173.081 243.183 176.672 243.183 176.672 246.775 173.081 246.775 173.081 243.183 0.619608 1 0.407843 epoly
-1 0 0 0 176.672 243.183 180.262 243.183 180.262 246.775 176.672 246.775 176.672 243.183 0.505882 1 0.521569 epoly
-1 0 0 0 165.9 236 173.081 236 173.081 243.183 165.9 243.183 165.9 236 0.498039 1 0.529412 epoly
-1 0 0 0 173.081 239.592 176.672 239.592 176.672 243.183 173.081 243.183 173.081 239.592 0.54902 1 0.478431 epoly
-1 0 0 0 176.672 239.592 180.262 239.592 180.262 243.183 176.672 243.183 176.672 239.592 0.498039 1 0.529412 epoly
-1 0 0 0 173.081 236 176.672 236 176.672 239.592 173.081 239.592 173.081 236 0.505882 1 0.521569 epoly
-1 0 0 0 176.672 236 180.262 236 180.262 239.592 176.672 239.592 176.672 236 0.501961 1 0.52549 epoly
-1 0 0 0 180.262 286.284 187.444 286.284 187.444 293.467 180.262 293.467 180.262 286.284 0.498039 1 0.529412 epoly
-1 0 0 0 187.444 286.284 194.625 286.284 194.625 293.467 187.444 293.467 187.444 286.284 0.501961 1 0.52549 epoly
-1 0 0 0 180.262 279.101 187.444 279.101 187.444 286.284 180.262 286.284 180.262 279.101 0.513725 1 0.513725 epoly
-1 0 0 0 187.444 279.101 194.625 279.101 194.625 286.284 187.444 286.284 187.444 279.101 0.498039 1 0.529412 epoly
-1 0 0 0 194.625 286.284 201.806 286.284 201.806 293.467 194.625 293.467 194.625 286.284 0.513725 1 0.513725 epoly
-1 0 0 0 201.806 289.876 205.396 289.876 205.396 293.467 201.806 293.467 201.806 289.876 0.529412 1 0.498039 epoly
-1 0 0 0 205.396 289.876 208.987 289.876 208.987 293.467 205.396 293.467 205.396 289.876 0.47451 1 0.54902 epoly
-1 0 0 0 201.806 286.284 205.396 286.284 205.396 289.876 201.806 289.876 201.806 286.284 0.462745 1 0.564706 epoly
-1 0 0 0 205.396 286.284 208.987 286.284 208.987 289.876 205.396 289.876 205.396 286.284 0.443137 1 0.584314 epoly
-1 0 0 0 194.625 282.692 198.215 282.692 198.215 286.284 194.625 286.284 194.625 282.692 0.47451 1 0.552941 epoly
-1 0 0 0 198.215 282.692 201.806 282.692 201.806 286.284 198.215 286.284 198.215 282.692 0.45098 1 0.576471 epoly
-1 0 0 0 194.625 279.101 198.215 279.101 198.215 282.692 194.625 282.692 194.625 279.101 0.431373 1 0.596078 epoly
-1 0 0 0 198.215 279.101 201.806 279.101 201.806 282.692 198.215 282.692 198.215 279.101 0.435294 1 0.592157 epoly
-1 0 0 0 201.806 282.692 205.396 282.692 205.396 286.284 201.806 286.284 201.806 282.692 0.376471 1 0.65098 epoly
-1 0 0 0 205.396 282.692 208.987 282.692 208.987 286.284 205.396 286.284 205.396 282.692 0.443137 1 0.584314 epoly
-1 0 0 0 201.806 279.101 205.396 279.101 205.396 282.692 201.806 282.692 201.806 279.101 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 271.917 187.444 271.917 187.444 279.101 180.262 279.101 180.262 271.917 0.501961 1 0.52549 epoly
-1 0 0 0 187.444 275.509 191.034 275.509 191.034 279.101 187.444 279.101 187.444 275.509 0.498039 1 0.529412 epoly
-1 0 0 0 191.034 275.509 194.625 275.509 194.625 279.101 191.034 279.101 191.034 275.509 0.431373 1 0.596078 epoly
-1 0 0 0 187.444 271.917 191.034 271.917 191.034 275.509 187.444 275.509 187.444 271.917 0.454902 1 0.572549 epoly
-1 0 0 0 191.034 271.917 194.625 271.917 194.625 275.509 191.034 275.509 191.034 271.917 0.329412 1 0.698039 epoly
-1 0 0 0 180.262 268.325 183.853 268.325 183.853 271.917 180.262 271.917 180.262 268.325 0.494118 1 0.533333 epoly
-1 0 0 0 183.853 268.325 187.444 268.325 187.444 271.917 183.853 271.917 183.853 268.325 0.462745 1 0.564706 epoly
-1 0 0 0 180.262 264.734 183.853 264.734 183.853 268.325 180.262 268.325 180.262 264.734 0.47451 1 0.552941 epoly
-1 0 0 0 183.853 264.734 187.444 264.734 187.444 268.325 183.853 268.325 183.853 264.734 0.407843 1 0.619608 epoly
-1 0 0 0 187.444 268.325 191.034 268.325 191.034 271.917 187.444 271.917 187.444 268.325 0.364706 1 0.662745 epoly
-1 0 0 0 191.034 268.325 194.625 268.325 194.625 271.917 191.034 271.917 191.034 268.325 0.505882 1 0.521569 epoly
-1 0 0 0 187.444 264.734 191.034 264.734 191.034 268.325 187.444 268.325 187.444 264.734 0.301961 1 0.72549 epoly
-1 0 0 0 194.625 275.509 198.215 275.509 198.215 279.101 194.625 279.101 194.625 275.509 0.341176 1 0.686275 epoly
-1 0 0 0 198.215 275.509 201.806 275.509 201.806 279.101 198.215 279.101 198.215 275.509 0.505882 1 0.521569 epoly
-1 0 0 0 194.625 271.917 198.215 271.917 198.215 275.509 194.625 275.509 194.625 271.917 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 289.876 212.577 289.876 212.577 293.467 208.987 293.467 208.987 289.876 0.458824 1 0.564706 epoly
-1 0 0 0 212.577 289.876 216.168 289.876 216.168 293.467 212.577 293.467 212.577 289.876 0.462745 1 0.564706 epoly
-1 0 0 0 208.987 286.284 212.577 286.284 212.577 289.876 208.987 289.876 208.987 286.284 0.376471 1 0.65098 epoly
-1 0 0 0 212.577 286.284 216.168 286.284 216.168 289.876 212.577 289.876 212.577 286.284 0.388235 1 0.639216 epoly
-1 0 0 0 216.168 289.876 219.759 289.876 219.759 293.467 216.168 293.467 216.168 289.876 0.392157 1 0.635294 epoly
-1 0 0 0 219.759 289.876 223.349 289.876 223.349 293.467 219.759 293.467 219.759 289.876 0.313725 1 0.713725 epoly
-1 0 0 0 216.168 286.284 219.759 286.284 219.759 289.876 216.168 289.876 216.168 286.284 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 282.692 212.577 282.692 212.577 286.284 208.987 286.284 208.987 282.692 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 289.876 226.94 289.876 226.94 293.467 223.349 293.467 223.349 289.876 0.305882 1 0.721569 epoly
-1 0 0 0 226.94 289.876 230.53 289.876 230.53 293.467 226.94 293.467 226.94 289.876 0.333333 1 0.694118 epoly
-1 0 0 0 230.53 289.876 234.121 289.876 234.121 293.467 230.53 293.467 230.53 289.876 0.411765 1 0.615686 epoly
-1 0 0 0 234.121 289.876 237.711 289.876 237.711 293.467 234.121 293.467 234.121 289.876 0 0.0941176 1 epoly
-1 0 0 0 234.121 286.284 237.711 286.284 237.711 289.876 234.121 289.876 234.121 286.284 0.545098 1 0.482353 epoly
-1 0 0 0 234.121 282.692 237.711 282.692 237.711 286.284 234.121 286.284 234.121 282.692 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 279.101 237.711 279.101 237.711 282.692 234.121 282.692 234.121 279.101 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 275.509 237.711 275.509 237.711 279.101 234.121 279.101 234.121 275.509 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 271.917 237.711 271.917 237.711 275.509 234.121 275.509 234.121 271.917 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 268.325 237.711 268.325 237.711 271.917 234.121 271.917 234.121 268.325 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 264.734 237.711 264.734 237.711 268.325 234.121 268.325 234.121 264.734 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 261.142 183.853 261.142 183.853 264.734 180.262 264.734 180.262 261.142 0.423529 1 0.603922 epoly
-1 0 0 0 183.853 261.142 187.444 261.142 187.444 264.734 183.853 264.734 183.853 261.142 0.380392 1 0.647059 epoly
-1 0 0 0 180.262 257.55 183.853 257.55 183.853 261.142 180.262 261.142 180.262 257.55 0.403922 1 0.623529 epoly
-1 0 0 0 183.853 257.55 187.444 257.55 187.444 261.142 183.853 261.142 183.853 257.55 0.341176 1 0.686275 epoly
-1 0 0 0 187.444 261.142 191.034 261.142 191.034 264.734 187.444 264.734 187.444 261.142 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 253.959 183.853 253.959 183.853 257.55 180.262 257.55 180.262 253.959 0.454902 1 0.572549 epoly
-1 0 0 0 183.853 253.959 187.444 253.959 187.444 257.55 183.853 257.55 183.853 253.959 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 250.367 183.853 250.367 183.853 253.959 180.262 253.959 180.262 250.367 0.403922 1 0.623529 epoly
-1 0 0 0 180.262 246.775 183.853 246.775 183.853 250.367 180.262 250.367 180.262 246.775 0.407843 1 0.619608 epoly
-1 0 0 0 180.262 243.183 183.853 243.183 183.853 246.775 180.262 246.775 180.262 243.183 0.411765 1 0.615686 epoly
-1 0 0 0 180.262 239.592 183.853 239.592 183.853 243.183 180.262 243.183 180.262 239.592 0.443137 1 0.584314 epoly
-1 0 0 0 180.262 236 183.853 236 183.853 239.592 180.262 239.592 180.262 236 0.482353 1 0.545098 epoly
-1 0 0 0 234.121 261.142 237.711 261.142 237.711 264.734 234.121 264.734 234.121 261.142 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 257.55 237.711 257.55 237.711 261.142 234.121 261.142 234.121 257.55 0.513725 1 0.513725 epoly
-1 0 0 0 234.121 253.959 237.711 253.959 237.711 257.55 234.121 257.55 234.121 253.959 0.509804 1 0.517647 epoly
-1 0 0 0 234.121 250.367 237.711 250.367 237.711 253.959 234.121 253.959 234.121 250.367 0.498039 1 0.529412 epoly
-1 0 0 0 234.121 246.775 237.711 246.775 237.711 250.367 234.121 250.367 234.121 246.775 0.501961 1 0.52549 epoly
-1 0 0 0 234.121 243.183 237.711 243.183 237.711 246.775 234.121 246.775 234.121 243.183 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 239.592 237.711 239.592 237.711 243.183 234.121 243.183 234.121 239.592 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 236 237.711 236 237.711 239.592 234.121 239.592 234.121 236 0.501961 1 0.52549 epoly
-1 0 0 0 237.711 408.402 295.16 408.402 295.16 465.87 237.711 465.87 237.711 408.402 0.501961 1 0.52549 epoly
-1 0 0 0 295.16 408.402 352.609 408.402 352.609 465.87 295.16 465.87 295.16 408.402 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 379.669 266.436 379.669 266.436 408.402 237.711 408.402 237.711 379.669 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 379.669 295.16 379.669 295.16 408.402 266.436 408.402 266.436 379.669 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 350.935 266.436 350.935 266.436 379.669 237.711 379.669 237.711 350.935 0.509804 1 0.517647 epoly
-1 0 0 0 266.436 350.935 295.16 350.935 295.16 379.669 266.436 379.669 266.436 350.935 0.505882 1 0.517647 epoly
-1 0 0 0 295.16 379.669 323.885 379.669 323.885 408.402 295.16 408.402 295.16 379.669 0.505882 1 0.521569 epoly
-1 0 0 0 323.885 379.669 352.609 379.669 352.609 408.402 323.885 408.402 323.885 379.669 0.505882 1 0.521569 epoly
-1 0 0 0 295.16 350.935 323.885 350.935 323.885 379.669 295.16 379.669 295.16 350.935 0.501961 1 0.52549 epoly
-1 0 0 0 323.885 350.935 352.609 350.935 352.609 379.669 323.885 379.669 323.885 350.935 0.501961 1 0.52549 epoly
-1 0 0 0 352.609 408.402 410.058 408.402 410.058 465.87 352.609 465.87 352.609 408.402 0.505882 1 0.521569 epoly
-1 0 0 0 410.058 408.402 467.507 408.402 467.507 465.87 410.058 465.87 410.058 408.402 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 350.935 410.058 350.935 410.058 408.402 352.609 408.402 352.609 350.935 0.505882 1 0.521569 epoly
-1 0 0 0 410.058 350.935 467.507 350.935 467.507 408.402 410.058 408.402 410.058 350.935 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 336.568 252.074 336.568 252.074 350.935 237.711 350.935 237.711 336.568 0.509804 1 0.517647 epoly
-1 0 0 0 252.074 336.568 266.436 336.568 266.436 350.935 252.074 350.935 252.074 336.568 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 329.385 244.892 329.385 244.892 336.568 237.711 336.568 237.711 329.385 0.494118 1 0.533333 epoly
-1 0 0 0 244.892 329.385 252.074 329.385 252.074 336.568 244.892 336.568 244.892 329.385 0.498039 1 0.529412 epoly
-1 0 0 0 237.711 322.201 244.892 322.201 244.892 329.385 237.711 329.385 237.711 322.201 0.486275 1 0.541176 epoly
-1 0 0 0 244.892 325.793 248.483 325.793 248.483 329.385 244.892 329.385 244.892 325.793 0.482353 1 0.545098 epoly
-1 0 0 0 248.483 325.793 252.074 325.793 252.074 329.385 248.483 329.385 248.483 325.793 0.482353 1 0.545098 epoly
-1 0 0 0 244.892 322.201 248.483 322.201 248.483 325.793 244.892 325.793 244.892 322.201 0.478431 1 0.54902 epoly
-1 0 0 0 248.483 322.201 252.074 322.201 252.074 325.793 248.483 325.793 248.483 322.201 0.47451 1 0.552941 epoly
-1 0 0 0 252.074 329.385 259.255 329.385 259.255 336.568 252.074 336.568 252.074 329.385 0.498039 1 0.529412 epoly
-1 0 0 0 259.255 329.385 266.436 329.385 266.436 336.568 259.255 336.568 259.255 329.385 0.505882 1 0.521569 epoly
-1 0 0 0 252.074 322.201 259.255 322.201 259.255 329.385 252.074 329.385 252.074 322.201 0.486275 1 0.541176 epoly
-1 0 0 0 259.255 322.201 266.436 322.201 266.436 329.385 259.255 329.385 259.255 322.201 0.498039 1 0.529412 epoly
-1 0 0 0 266.436 336.568 280.798 336.568 280.798 350.935 266.436 350.935 266.436 336.568 0.505882 1 0.521569 epoly
-1 0 0 0 280.798 336.568 295.16 336.568 295.16 350.935 280.798 350.935 280.798 336.568 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 322.201 280.798 322.201 280.798 336.568 266.436 336.568 266.436 322.201 0.505882 1 0.521569 epoly
-1 0 0 0 280.798 322.201 295.16 322.201 295.16 336.568 280.798 336.568 280.798 322.201 0.501961 1 0.52549 epoly
-1 0 0 0 237.711 315.018 244.892 315.018 244.892 322.201 237.711 322.201 237.711 315.018 0.498039 1 0.529412 epoly
-1 0 0 0 244.892 315.018 252.074 315.018 252.074 322.201 244.892 322.201 244.892 315.018 0.490196 1 0.537255 epoly
-1 0 0 0 237.711 307.834 244.892 307.834 244.892 315.018 237.711 315.018 237.711 307.834 0.517647 1 0.509804 epoly
-1 0 0 0 244.892 307.834 252.074 307.834 252.074 315.018 244.892 315.018 244.892 307.834 0.517647 1 0.509804 epoly
-1 0 0 0 252.074 315.018 259.255 315.018 259.255 322.201 252.074 322.201 252.074 315.018 0.486275 1 0.541176 epoly
-1 0 0 0 259.255 315.018 266.436 315.018 266.436 322.201 259.255 322.201 259.255 315.018 0.494118 1 0.533333 epoly
-1 0 0 0 252.074 307.834 259.255 307.834 259.255 315.018 252.074 315.018 252.074 307.834 0.509804 1 0.517647 epoly
-1 0 0 0 259.255 307.834 266.436 307.834 266.436 315.018 259.255 315.018 259.255 307.834 0.513725 1 0.513725 epoly
-1 0 0 0 237.711 304.243 241.302 304.243 241.302 307.834 237.711 307.834 237.711 304.243 0.541176 1 0.486275 epoly
-1 0 0 0 241.302 304.243 244.892 304.243 244.892 307.834 241.302 307.834 241.302 304.243 0.533333 1 0.494118 epoly
-1 0 0 0 237.711 300.651 241.302 300.651 241.302 304.243 237.711 304.243 237.711 300.651 0.564706 1 0.462745 epoly
-1 0 0 0 241.302 300.651 244.892 300.651 244.892 304.243 241.302 304.243 241.302 300.651 0.545098 1 0.482353 epoly
-1 0 0 0 244.892 300.651 252.074 300.651 252.074 307.834 244.892 307.834 244.892 300.651 0.494118 1 0.533333 epoly
-1 0 0 0 237.711 297.059 241.302 297.059 241.302 300.651 237.711 300.651 237.711 297.059 0.25098 1 0.776471 epoly
-1 0 0 0 241.302 297.059 244.892 297.059 244.892 300.651 241.302 300.651 241.302 297.059 0.176471 1 0.85098 epoly
-1 0 0 0 237.711 293.467 241.302 293.467 241.302 297.059 237.711 297.059 237.711 293.467 0 0 0.780392 epoly
-1 0 0 0 241.302 293.467 244.892 293.467 244.892 297.059 241.302 297.059 241.302 293.467 0 0.0745098 1 epoly
-1 0 0 0 244.892 297.059 248.483 297.059 248.483 300.651 244.892 300.651 244.892 297.059 0.2 1 0.827451 epoly
-1 0 0 0 248.483 297.059 252.074 297.059 252.074 300.651 248.483 300.651 248.483 297.059 0.356863 1 0.670588 epoly
-1 0 0 0 244.892 293.467 248.483 293.467 248.483 297.059 244.892 297.059 244.892 293.467 0 0.25098 1 epoly
-1 0 0 0 248.483 293.467 252.074 293.467 252.074 297.059 248.483 297.059 248.483 293.467 0 0.533333 1 epoly
-1 0 0 0 252.074 300.651 259.255 300.651 259.255 307.834 252.074 307.834 252.074 300.651 0.494118 1 0.533333 epoly
-1 0 0 0 259.255 304.243 262.845 304.243 262.845 307.834 259.255 307.834 259.255 304.243 0.52549 1 0.501961 epoly
-1 0 0 0 262.845 304.243 266.436 304.243 266.436 307.834 262.845 307.834 262.845 304.243 0.545098 1 0.482353 epoly
-1 0 0 0 259.255 300.651 262.845 300.651 262.845 304.243 259.255 304.243 259.255 300.651 0.521569 1 0.505882 epoly
-1 0 0 0 262.845 300.651 266.436 300.651 266.436 304.243 262.845 304.243 262.845 300.651 0.556863 1 0.470588 epoly
-1 0 0 0 252.074 297.059 255.664 297.059 255.664 300.651 252.074 300.651 252.074 297.059 0.494118 1 0.533333 epoly
-1 0 0 0 255.664 297.059 259.255 297.059 259.255 300.651 255.664 300.651 255.664 297.059 0.545098 1 0.482353 epoly
-1 0 0 0 252.074 293.467 255.664 293.467 255.664 297.059 252.074 297.059 252.074 293.467 0 0.937255 1 epoly
-1 0 0 0 255.664 293.467 259.255 293.467 259.255 297.059 255.664 297.059 255.664 293.467 0.313725 1 0.713725 epoly
-1 0 0 0 259.255 293.467 266.436 293.467 266.436 300.651 259.255 300.651 259.255 293.467 0.494118 1 0.533333 epoly
-1 0 0 0 266.436 315.018 273.617 315.018 273.617 322.201 266.436 322.201 266.436 315.018 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 315.018 280.798 315.018 280.798 322.201 273.617 322.201 273.617 315.018 0.509804 1 0.517647 epoly
-1 0 0 0 266.436 311.426 270.026 311.426 270.026 315.018 266.436 315.018 266.436 311.426 0.52549 1 0.501961 epoly
-1 0 0 0 270.026 311.426 273.617 311.426 273.617 315.018 270.026 315.018 270.026 311.426 0.52549 1 0.501961 epoly
-1 0 0 0 266.436 307.834 270.026 307.834 270.026 311.426 266.436 311.426 266.436 307.834 0.545098 1 0.482353 epoly
-1 0 0 0 270.026 307.834 273.617 307.834 273.617 311.426 270.026 311.426 270.026 307.834 0.537255 1 0.490196 epoly
-1 0 0 0 273.617 307.834 280.798 307.834 280.798 315.018 273.617 315.018 273.617 307.834 0.509804 1 0.517647 epoly
-1 0 0 0 280.798 307.834 295.16 307.834 295.16 322.201 280.798 322.201 280.798 307.834 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 304.243 270.026 304.243 270.026 307.834 266.436 307.834 266.436 304.243 0.545098 1 0.478431 epoly
-1 0 0 0 270.026 304.243 273.617 304.243 273.617 307.834 270.026 307.834 270.026 304.243 0.533333 1 0.494118 epoly
-1 0 0 0 266.436 300.651 270.026 300.651 270.026 304.243 266.436 304.243 266.436 300.651 0.541176 1 0.486275 epoly
-1 0 0 0 270.026 300.651 273.617 300.651 273.617 304.243 270.026 304.243 270.026 300.651 0.521569 1 0.505882 epoly
-1 0 0 0 273.617 300.651 280.798 300.651 280.798 307.834 273.617 307.834 273.617 300.651 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 293.467 273.617 293.467 273.617 300.651 266.436 300.651 266.436 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 273.617 293.467 280.798 293.467 280.798 300.651 273.617 300.651 273.617 293.467 0.52549 1 0.501961 epoly
-1 0 0 0 280.798 300.651 287.979 300.651 287.979 307.834 280.798 307.834 280.798 300.651 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 300.651 295.16 300.651 295.16 307.834 287.979 307.834 287.979 300.651 0.509804 1 0.517647 epoly
-1 0 0 0 280.798 293.467 287.979 293.467 287.979 300.651 280.798 300.651 280.798 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 287.979 293.467 295.16 293.467 295.16 300.651 287.979 300.651 287.979 293.467 0.498039 1 0.529412 epoly
-1 0 0 0 295.16 322.201 323.885 322.201 323.885 350.935 295.16 350.935 295.16 322.201 0.501961 1 0.52549 epoly
-1 0 0 0 323.885 322.201 352.609 322.201 352.609 350.935 323.885 350.935 323.885 322.201 0.501961 1 0.52549 epoly
-1 0 0 0 295.16 307.834 309.522 307.834 309.522 322.201 295.16 322.201 295.16 307.834 0.501961 1 0.52549 epoly
-1 0 0 0 309.522 307.834 323.885 307.834 323.885 322.201 309.522 322.201 309.522 307.834 0.501961 1 0.52549 epoly
-1 0 0 0 295.16 293.467 309.522 293.467 309.522 307.834 295.16 307.834 295.16 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 309.522 293.467 323.885 293.467 323.885 307.834 309.522 307.834 309.522 293.467 0.498039 1 0.529412 epoly
-1 0 0 0 323.885 293.467 352.609 293.467 352.609 322.201 323.885 322.201 323.885 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 289.876 241.302 289.876 241.302 293.467 237.711 293.467 237.711 289.876 0 0.282353 1 epoly
-1 0 0 0 241.302 289.876 244.892 289.876 244.892 293.467 241.302 293.467 241.302 289.876 0 0.415686 1 epoly
-1 0 0 0 237.711 286.284 241.302 286.284 241.302 289.876 237.711 289.876 237.711 286.284 0.670588 1 0.356863 epoly
-1 0 0 0 241.302 286.284 244.892 286.284 244.892 289.876 241.302 289.876 241.302 286.284 0.419608 1 0.607843 epoly
-1 0 0 0 244.892 289.876 248.483 289.876 248.483 293.467 244.892 293.467 244.892 289.876 0 0.164706 1 epoly
-1 0 0 0 248.483 289.876 252.074 289.876 252.074 293.467 248.483 293.467 248.483 289.876 0 0 0.913725 epoly
-1 0 0 0 244.892 286.284 248.483 286.284 248.483 289.876 244.892 289.876 244.892 286.284 0 0.909804 1 epoly
-1 0 0 0 248.483 286.284 252.074 286.284 252.074 289.876 248.483 289.876 248.483 286.284 0 0.309804 1 epoly
-1 0 0 0 237.711 282.692 241.302 282.692 241.302 286.284 237.711 286.284 237.711 282.692 0.592157 1 0.435294 epoly
-1 0 0 0 241.302 282.692 244.892 282.692 244.892 286.284 241.302 286.284 241.302 282.692 0.207843 1 0.819608 epoly
-1 0 0 0 237.711 279.101 241.302 279.101 241.302 282.692 237.711 282.692 237.711 279.101 0.541176 1 0.486275 epoly
-1 0 0 0 241.302 279.101 244.892 279.101 244.892 282.692 241.302 282.692 241.302 279.101 0.0823529 1 0.945098 epoly
-1 0 0 0 244.892 282.692 248.483 282.692 248.483 286.284 244.892 286.284 244.892 282.692 0 0.611765 1 epoly
-1 0 0 0 248.483 282.692 252.074 282.692 252.074 286.284 248.483 286.284 248.483 282.692 0 0.192157 1 epoly
-1 0 0 0 244.892 279.101 248.483 279.101 248.483 282.692 244.892 282.692 244.892 279.101 0 0.431373 1 epoly
-1 0 0 0 248.483 279.101 252.074 279.101 252.074 282.692 248.483 282.692 248.483 279.101 0 0 0.862745 epoly
-1 0 0 0 252.074 289.876 255.664 289.876 255.664 293.467 252.074 293.467 252.074 289.876 0 0.0352941 1 epoly
-1 0 0 0 255.664 289.876 259.255 289.876 259.255 293.467 255.664 293.467 255.664 289.876 0 0.596078 1 epoly
-1 0 0 0 252.074 286.284 255.664 286.284 255.664 289.876 252.074 289.876 252.074 286.284 0 0 0.768627 epoly
-1 0 0 0 255.664 286.284 259.255 286.284 259.255 289.876 255.664 289.876 255.664 286.284 0 0 0.85098 epoly
-1 0 0 0 259.255 289.876 262.845 289.876 262.845 293.467 259.255 293.467 259.255 289.876 0.168627 1 0.858824 epoly
-1 0 0 0 262.845 289.876 266.436 289.876 266.436 293.467 262.845 293.467 262.845 289.876 0.407843 1 0.619608 epoly
-1 0 0 0 259.255 286.284 262.845 286.284 262.845 289.876 259.255 289.876 259.255 286.284 0 0.556863 1 epoly
-1 0 0 0 262.845 286.284 266.436 286.284 266.436 289.876 262.845 289.876 262.845 286.284 0.168627 1 0.858824 epoly
-1 0 0 0 252.074 282.692 255.664 282.692 255.664 286.284 252.074 286.284 252.074 282.692 0 0 0.831373 epoly
-1 0 0 0 255.664 282.692 259.255 282.692 259.255 286.284 255.664 286.284 255.664 282.692 0 0 0.631373 epoly
-1 0 0 0 252.074 279.101 255.664 279.101 255.664 282.692 252.074 282.692 252.074 279.101 0 0 0.615686 epoly
-1 0 0 0 255.664 279.101 259.255 279.101 259.255 282.692 255.664 282.692 255.664 279.101 0 0 0.564706 epoly
-1 0 0 0 259.255 282.692 262.845 282.692 262.845 286.284 259.255 286.284 259.255 282.692 0 0.0862745 1 epoly
-1 0 0 0 262.845 282.692 266.436 282.692 266.436 286.284 262.845 286.284 262.845 282.692 0 0.87451 1 epoly
-1 0 0 0 259.255 279.101 262.845 279.101 262.845 282.692 259.255 282.692 259.255 279.101 0 0 0.941176 epoly
-1 0 0 0 262.845 279.101 266.436 279.101 266.436 282.692 262.845 282.692 262.845 279.101 0 0.768627 1 epoly
-1 0 0 0 237.711 275.509 241.302 275.509 241.302 279.101 237.711 279.101 237.711 275.509 0.505882 1 0.521569 epoly
-1 0 0 0 241.302 275.509 244.892 275.509 244.892 279.101 241.302 279.101 241.302 275.509 0.113725 1 0.913725 epoly
-1 0 0 0 237.711 271.917 241.302 271.917 241.302 275.509 237.711 275.509 237.711 271.917 0.501961 1 0.52549 epoly
-1 0 0 0 241.302 271.917 244.892 271.917 244.892 275.509 241.302 275.509 241.302 271.917 0.258824 1 0.768627 epoly
-1 0 0 0 244.892 275.509 248.483 275.509 248.483 279.101 244.892 279.101 244.892 275.509 0 0.478431 1 epoly
-1 0 0 0 248.483 275.509 252.074 275.509 252.074 279.101 248.483 279.101 248.483 275.509 0 0 0.843137 epoly
-1 0 0 0 244.892 271.917 248.483 271.917 248.483 275.509 244.892 275.509 244.892 271.917 0 0.686275 1 epoly
-1 0 0 0 248.483 271.917 252.074 271.917 252.074 275.509 248.483 275.509 248.483 271.917 0 0.12549 1 epoly
-1 0 0 0 237.711 268.325 241.302 268.325 241.302 271.917 237.711 271.917 237.711 268.325 0.521569 1 0.505882 epoly
-1 0 0 0 241.302 268.325 244.892 268.325 244.892 271.917 241.302 271.917 241.302 268.325 0.419608 1 0.607843 epoly
-1 0 0 0 237.711 264.734 241.302 264.734 241.302 268.325 237.711 268.325 237.711 264.734 0.513725 1 0.513725 epoly
-1 0 0 0 241.302 264.734 244.892 264.734 244.892 268.325 241.302 268.325 241.302 264.734 0.521569 1 0.505882 epoly
-1 0 0 0 244.892 268.325 248.483 268.325 248.483 271.917 244.892 271.917 244.892 268.325 0.00392157 1 1 epoly
-1 0 0 0 248.483 268.325 252.074 268.325 252.074 271.917 248.483 271.917 248.483 268.325 0 0.560784 1 epoly
-1 0 0 0 244.892 264.734 248.483 264.734 248.483 268.325 244.892 268.325 244.892 264.734 0.298039 1 0.729412 epoly
-1 0 0 0 248.483 264.734 252.074 264.734 252.074 268.325 248.483 268.325 248.483 264.734 0.0196078 1 1 epoly
-1 0 0 0 252.074 275.509 255.664 275.509 255.664 279.101 252.074 279.101 252.074 275.509 0 0 0.560784 epoly
-1 0 0 0 255.664 275.509 259.255 275.509 259.255 279.101 255.664 279.101 255.664 275.509 0 0 0.627451 epoly
-1 0 0 0 252.074 271.917 255.664 271.917 255.664 275.509 252.074 275.509 252.074 271.917 0 0 0.831373 epoly
-1 0 0 0 255.664 271.917 259.255 271.917 259.255 275.509 255.664 275.509 255.664 271.917 0 0 0.878431 epoly
-1 0 0 0 259.255 275.509 262.845 275.509 262.845 279.101 259.255 279.101 259.255 275.509 0 0.0313725 1 epoly
-1 0 0 0 262.845 275.509 266.436 275.509 266.436 279.101 262.845 279.101 262.845 275.509 0 0.780392 1 epoly
-1 0 0 0 259.255 271.917 262.845 271.917 262.845 275.509 259.255 275.509 259.255 271.917 0 0.282353 1 epoly
-1 0 0 0 262.845 271.917 266.436 271.917 266.436 275.509 262.845 275.509 262.845 271.917 0 0.870588 1 epoly
-1 0 0 0 252.074 268.325 255.664 268.325 255.664 271.917 252.074 271.917 252.074 268.325 0 0.309804 1 epoly
-1 0 0 0 255.664 268.325 259.255 268.325 259.255 271.917 255.664 271.917 255.664 268.325 0 0.337255 1 epoly
-1 0 0 0 252.074 264.734 255.664 264.734 255.664 268.325 252.074 268.325 252.074 264.734 0 0.827451 1 epoly
-1 0 0 0 255.664 264.734 259.255 264.734 259.255 268.325 255.664 268.325 255.664 264.734 0 0.847059 1 epoly
-1 0 0 0 259.255 268.325 262.845 268.325 262.845 271.917 259.255 271.917 259.255 268.325 0 0.65098 1 epoly
-1 0 0 0 262.845 268.325 266.436 268.325 266.436 271.917 262.845 271.917 262.845 268.325 0.0980392 1 0.929412 epoly
-1 0 0 0 259.255 264.734 262.845 264.734 262.845 268.325 259.255 268.325 259.255 264.734 0.0313725 1 0.996078 epoly
-1 0 0 0 262.845 264.734 266.436 264.734 266.436 268.325 262.845 268.325 262.845 264.734 0.321569 1 0.705882 epoly
-1 0 0 0 266.436 286.284 273.617 286.284 273.617 293.467 266.436 293.467 266.436 286.284 0.498039 1 0.529412 epoly
-1 0 0 0 273.617 289.876 277.207 289.876 277.207 293.467 273.617 293.467 273.617 289.876 0.513725 1 0.513725 epoly
-1 0 0 0 277.207 289.876 280.798 289.876 280.798 293.467 277.207 293.467 277.207 289.876 0.521569 1 0.505882 epoly
-1 0 0 0 273.617 286.284 277.207 286.284 277.207 289.876 273.617 289.876 273.617 286.284 0.537255 1 0.490196 epoly
-1 0 0 0 277.207 286.284 280.798 286.284 280.798 289.876 277.207 289.876 277.207 286.284 0.52549 1 0.501961 epoly
-1 0 0 0 266.436 282.692 270.026 282.692 270.026 286.284 266.436 286.284 266.436 282.692 0.380392 1 0.647059 epoly
-1 0 0 0 270.026 282.692 273.617 282.692 273.617 286.284 270.026 286.284 270.026 282.692 0.556863 1 0.470588 epoly
-1 0 0 0 266.436 279.101 270.026 279.101 270.026 282.692 266.436 282.692 266.436 279.101 0.34902 1 0.678431 epoly
-1 0 0 0 270.026 279.101 273.617 279.101 273.617 282.692 270.026 282.692 270.026 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 282.692 277.207 282.692 277.207 286.284 273.617 286.284 273.617 282.692 0.619608 1 0.407843 epoly
-1 0 0 0 277.207 282.692 280.798 282.692 280.798 286.284 277.207 286.284 277.207 282.692 0.541176 1 0.486275 epoly
-1 0 0 0 273.617 279.101 277.207 279.101 277.207 282.692 273.617 282.692 273.617 279.101 0.584314 1 0.443137 epoly
-1 0 0 0 277.207 279.101 280.798 279.101 280.798 282.692 277.207 282.692 277.207 279.101 0.552941 1 0.47451 epoly
-1 0 0 0 280.798 286.284 287.979 286.284 287.979 293.467 280.798 293.467 280.798 286.284 0.509804 1 0.517647 epoly
-1 0 0 0 287.979 286.284 295.16 286.284 295.16 293.467 287.979 293.467 287.979 286.284 0.505882 1 0.521569 epoly
-1 0 0 0 280.798 282.692 284.388 282.692 284.388 286.284 280.798 286.284 280.798 282.692 0.529412 1 0.498039 epoly
-1 0 0 0 284.388 282.692 287.979 282.692 287.979 286.284 284.388 286.284 284.388 282.692 0.513725 1 0.513725 epoly
-1 0 0 0 280.798 279.101 284.388 279.101 284.388 282.692 280.798 282.692 280.798 279.101 0.541176 1 0.486275 epoly
-1 0 0 0 284.388 279.101 287.979 279.101 287.979 282.692 284.388 282.692 284.388 279.101 0.521569 1 0.505882 epoly
-1 0 0 0 287.979 279.101 295.16 279.101 295.16 286.284 287.979 286.284 287.979 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 266.436 275.509 270.026 275.509 270.026 279.101 266.436 279.101 266.436 275.509 0.32549 1 0.701961 epoly
-1 0 0 0 270.026 275.509 273.617 275.509 273.617 279.101 270.026 279.101 270.026 275.509 0.517647 1 0.509804 epoly
-1 0 0 0 266.436 271.917 270.026 271.917 270.026 275.509 266.436 275.509 266.436 271.917 0.337255 1 0.690196 epoly
-1 0 0 0 270.026 271.917 273.617 271.917 273.617 275.509 270.026 275.509 270.026 271.917 0.552941 1 0.47451 epoly
-1 0 0 0 273.617 275.509 277.207 275.509 277.207 279.101 273.617 279.101 273.617 275.509 0.580392 1 0.447059 epoly
-1 0 0 0 277.207 275.509 280.798 275.509 280.798 279.101 277.207 279.101 277.207 275.509 0.564706 1 0.462745 epoly
-1 0 0 0 273.617 271.917 277.207 271.917 277.207 275.509 273.617 275.509 273.617 271.917 0.643137 1 0.384314 epoly
-1 0 0 0 277.207 271.917 280.798 271.917 280.798 275.509 277.207 275.509 277.207 271.917 0.6 1 0.427451 epoly
-1 0 0 0 266.436 268.325 270.026 268.325 270.026 271.917 266.436 271.917 266.436 268.325 0.407843 1 0.619608 epoly
-1 0 0 0 270.026 268.325 273.617 268.325 273.617 271.917 270.026 271.917 270.026 268.325 0.592157 1 0.435294 epoly
-1 0 0 0 266.436 264.734 270.026 264.734 270.026 268.325 266.436 268.325 266.436 264.734 0.533333 1 0.494118 epoly
-1 0 0 0 270.026 264.734 273.617 264.734 273.617 268.325 270.026 268.325 270.026 264.734 0.635294 1 0.392157 epoly
-1 0 0 0 273.617 268.325 277.207 268.325 277.207 271.917 273.617 271.917 273.617 268.325 0.658824 1 0.368627 epoly
-1 0 0 0 277.207 268.325 280.798 268.325 280.798 271.917 277.207 271.917 277.207 268.325 0.631373 1 0.396078 epoly
-1 0 0 0 273.617 264.734 277.207 264.734 277.207 268.325 273.617 268.325 273.617 264.734 0.658824 1 0.368627 epoly
-1 0 0 0 277.207 264.734 280.798 264.734 280.798 268.325 277.207 268.325 277.207 264.734 0.631373 1 0.396078 epoly
-1 0 0 0 280.798 275.509 284.388 275.509 284.388 279.101 280.798 279.101 280.798 275.509 0.537255 1 0.490196 epoly
-1 0 0 0 284.388 275.509 287.979 275.509 287.979 279.101 284.388 279.101 284.388 275.509 0.529412 1 0.498039 epoly
-1 0 0 0 280.798 271.917 284.388 271.917 284.388 275.509 280.798 275.509 280.798 271.917 0.560784 1 0.466667 epoly
-1 0 0 0 284.388 271.917 287.979 271.917 287.979 275.509 284.388 275.509 284.388 271.917 0.537255 1 0.490196 epoly
-1 0 0 0 287.979 271.917 295.16 271.917 295.16 279.101 287.979 279.101 287.979 271.917 0.521569 1 0.505882 epoly
-1 0 0 0 280.798 268.325 284.388 268.325 284.388 271.917 280.798 271.917 280.798 268.325 0.584314 1 0.443137 epoly
-1 0 0 0 284.388 268.325 287.979 268.325 287.979 271.917 284.388 271.917 284.388 268.325 0.545098 1 0.482353 epoly
-1 0 0 0 280.798 264.734 284.388 264.734 284.388 268.325 280.798 268.325 280.798 264.734 0.572549 1 0.454902 epoly
-1 0 0 0 284.388 264.734 287.979 264.734 287.979 268.325 284.388 268.325 284.388 264.734 0.537255 1 0.490196 epoly
-1 0 0 0 287.979 264.734 295.16 264.734 295.16 271.917 287.979 271.917 287.979 264.734 0.513725 1 0.513725 epoly
-1 0 0 0 237.711 261.142 241.302 261.142 241.302 264.734 237.711 264.734 237.711 261.142 0.490196 1 0.537255 epoly
-1 0 0 0 241.302 261.142 244.892 261.142 244.892 264.734 241.302 264.734 241.302 261.142 0.545098 1 0.482353 epoly
-1 0 0 0 237.711 257.55 241.302 257.55 241.302 261.142 237.711 261.142 237.711 257.55 0.462745 1 0.564706 epoly
-1 0 0 0 241.302 257.55 244.892 257.55 244.892 261.142 241.302 261.142 241.302 257.55 0.545098 1 0.482353 epoly
-1 0 0 0 244.892 261.142 248.483 261.142 248.483 264.734 244.892 264.734 244.892 261.142 0.466667 1 0.560784 epoly
-1 0 0 0 248.483 261.142 252.074 261.142 252.074 264.734 248.483 264.734 248.483 261.142 0.329412 1 0.698039 epoly
-1 0 0 0 244.892 257.55 248.483 257.55 248.483 261.142 244.892 261.142 244.892 257.55 0.533333 1 0.494118 epoly
-1 0 0 0 248.483 257.55 252.074 257.55 252.074 261.142 248.483 261.142 248.483 257.55 0.470588 1 0.556863 epoly
-1 0 0 0 237.711 250.367 244.892 250.367 244.892 257.55 237.711 257.55 237.711 250.367 0.498039 1 0.529412 epoly
-1 0 0 0 244.892 250.367 252.074 250.367 252.074 257.55 244.892 257.55 244.892 250.367 0.501961 1 0.52549 epoly
-1 0 0 0 252.074 261.142 255.664 261.142 255.664 264.734 252.074 264.734 252.074 261.142 0.223529 1 0.803922 epoly
-1 0 0 0 255.664 261.142 259.255 261.142 259.255 264.734 255.664 264.734 255.664 261.142 0.235294 1 0.792157 epoly
-1 0 0 0 252.074 257.55 255.664 257.55 255.664 261.142 252.074 261.142 252.074 257.55 0.447059 1 0.576471 epoly
-1 0 0 0 255.664 257.55 259.255 257.55 259.255 261.142 255.664 261.142 255.664 257.55 0.447059 1 0.580392 epoly
-1 0 0 0 259.255 261.142 262.845 261.142 262.845 264.734 259.255 264.734 259.255 261.142 0.329412 1 0.698039 epoly
-1 0 0 0 262.845 261.142 266.436 261.142 266.436 264.734 262.845 264.734 262.845 261.142 0.462745 1 0.564706 epoly
-1 0 0 0 259.255 257.55 262.845 257.55 262.845 261.142 259.255 261.142 259.255 257.55 0.494118 1 0.533333 epoly
-1 0 0 0 262.845 257.55 266.436 257.55 266.436 261.142 262.845 261.142 262.845 257.55 0.52549 1 0.501961 epoly
-1 0 0 0 252.074 253.959 255.664 253.959 255.664 257.55 252.074 257.55 252.074 253.959 0.533333 1 0.494118 epoly
-1 0 0 0 255.664 253.959 259.255 253.959 259.255 257.55 255.664 257.55 255.664 253.959 0.521569 1 0.505882 epoly
-1 0 0 0 252.074 250.367 255.664 250.367 255.664 253.959 252.074 253.959 252.074 250.367 0.533333 1 0.494118 epoly
-1 0 0 0 255.664 250.367 259.255 250.367 259.255 253.959 255.664 253.959 255.664 250.367 0.537255 1 0.490196 epoly
-1 0 0 0 259.255 253.959 262.845 253.959 262.845 257.55 259.255 257.55 259.255 253.959 0.533333 1 0.494118 epoly
-1 0 0 0 262.845 253.959 266.436 253.959 266.436 257.55 262.845 257.55 262.845 253.959 0.537255 1 0.490196 epoly
-1 0 0 0 259.255 250.367 262.845 250.367 262.845 253.959 259.255 253.959 259.255 250.367 0.517647 1 0.509804 epoly
-1 0 0 0 262.845 250.367 266.436 250.367 266.436 253.959 262.845 253.959 262.845 250.367 0.517647 1 0.509804 epoly
-1 0 0 0 237.711 246.775 241.302 246.775 241.302 250.367 237.711 250.367 237.711 246.775 0.513725 1 0.513725 epoly
-1 0 0 0 241.302 246.775 244.892 246.775 244.892 250.367 241.302 250.367 241.302 246.775 0.482353 1 0.545098 epoly
-1 0 0 0 237.711 243.183 241.302 243.183 241.302 246.775 237.711 246.775 237.711 243.183 0.478431 1 0.54902 epoly
-1 0 0 0 241.302 243.183 244.892 243.183 244.892 246.775 241.302 246.775 241.302 243.183 0.494118 1 0.533333 epoly
-1 0 0 0 244.892 243.183 252.074 243.183 252.074 250.367 244.892 250.367 244.892 243.183 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 236 244.892 236 244.892 243.183 237.711 243.183 237.711 236 0.517647 1 0.509804 epoly
-1 0 0 0 244.892 236 252.074 236 252.074 243.183 244.892 243.183 244.892 236 0.501961 1 0.52549 epoly
-1 0 0 0 252.074 246.775 255.664 246.775 255.664 250.367 252.074 250.367 252.074 246.775 0.529412 1 0.498039 epoly
-1 0 0 0 255.664 246.775 259.255 246.775 259.255 250.367 255.664 250.367 255.664 246.775 0.533333 1 0.494118 epoly
-1 0 0 0 252.074 243.183 255.664 243.183 255.664 246.775 252.074 246.775 252.074 243.183 0.513725 1 0.513725 epoly
-1 0 0 0 255.664 243.183 259.255 243.183 259.255 246.775 255.664 246.775 255.664 243.183 0.513725 1 0.513725 epoly
-1 0 0 0 259.255 243.183 266.436 243.183 266.436 250.367 259.255 250.367 259.255 243.183 0.501961 1 0.52549 epoly
-1 0 0 0 252.074 236 259.255 236 259.255 243.183 252.074 243.183 252.074 236 0.505882 1 0.521569 epoly
-1 0 0 0 259.255 236 266.436 236 266.436 243.183 259.255 243.183 259.255 236 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 261.142 270.026 261.142 270.026 264.734 266.436 264.734 266.436 261.142 0.584314 1 0.443137 epoly
-1 0 0 0 270.026 261.142 273.617 261.142 273.617 264.734 270.026 264.734 270.026 261.142 0.631373 1 0.396078 epoly
-1 0 0 0 266.436 257.55 270.026 257.55 270.026 261.142 266.436 261.142 266.436 257.55 0.556863 1 0.470588 epoly
-1 0 0 0 270.026 257.55 273.617 257.55 273.617 261.142 270.026 261.142 270.026 257.55 0.568627 1 0.458824 epoly
-1 0 0 0 273.617 261.142 277.207 261.142 277.207 264.734 273.617 264.734 273.617 261.142 0.623529 1 0.403922 epoly
-1 0 0 0 277.207 261.142 280.798 261.142 280.798 264.734 277.207 264.734 277.207 261.142 0.588235 1 0.439216 epoly
-1 0 0 0 273.617 257.55 277.207 257.55 277.207 261.142 273.617 261.142 273.617 257.55 0.556863 1 0.470588 epoly
-1 0 0 0 277.207 257.55 280.798 257.55 280.798 261.142 277.207 261.142 277.207 257.55 0.537255 1 0.490196 epoly
-1 0 0 0 266.436 250.367 273.617 250.367 273.617 257.55 266.436 257.55 266.436 250.367 0.521569 1 0.505882 epoly
-1 0 0 0 273.617 250.367 280.798 250.367 280.798 257.55 273.617 257.55 273.617 250.367 0.498039 1 0.529412 epoly
-1 0 0 0 280.798 261.142 284.388 261.142 284.388 264.734 280.798 264.734 280.798 261.142 0.545098 1 0.482353 epoly
-1 0 0 0 284.388 261.142 287.979 261.142 287.979 264.734 284.388 264.734 284.388 261.142 0.517647 1 0.509804 epoly
-1 0 0 0 280.798 257.55 284.388 257.55 284.388 261.142 280.798 261.142 280.798 257.55 0.52549 1 0.501961 epoly
-1 0 0 0 284.388 257.55 287.979 257.55 287.979 261.142 284.388 261.142 284.388 257.55 0.517647 1 0.509804 epoly
-1 0 0 0 287.979 257.55 295.16 257.55 295.16 264.734 287.979 264.734 287.979 257.55 0.509804 1 0.517647 epoly
-1 0 0 0 280.798 250.367 287.979 250.367 287.979 257.55 280.798 257.55 280.798 250.367 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 250.367 295.16 250.367 295.16 257.55 287.979 257.55 287.979 250.367 0.513725 1 0.513725 epoly
-1 0 0 0 266.436 243.183 273.617 243.183 273.617 250.367 266.436 250.367 266.436 243.183 0.498039 1 0.529412 epoly
-1 0 0 0 273.617 243.183 280.798 243.183 280.798 250.367 273.617 250.367 273.617 243.183 0.505882 1 0.521569 epoly
-1 0 0 0 266.436 236 273.617 236 273.617 243.183 266.436 243.183 266.436 236 0.501961 1 0.52549 epoly
-1 0 0 0 273.617 236 280.798 236 280.798 243.183 273.617 243.183 273.617 236 0.501961 1 0.52549 epoly
-1 0 0 0 280.798 243.183 287.979 243.183 287.979 250.367 280.798 250.367 280.798 243.183 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 243.183 295.16 243.183 295.16 250.367 287.979 250.367 287.979 243.183 0.513725 1 0.513725 epoly
-1 0 0 0 280.798 236 287.979 236 287.979 243.183 280.798 243.183 280.798 236 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 236 295.16 236 295.16 243.183 287.979 243.183 287.979 236 0.509804 1 0.517647 epoly
-1 0 0 0 295.16 279.101 309.522 279.101 309.522 293.467 295.16 293.467 295.16 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 309.522 279.101 323.885 279.101 323.885 293.467 309.522 293.467 309.522 279.101 0.513725 1 0.513725 epoly
-1 0 0 0 295.16 264.734 309.522 264.734 309.522 279.101 295.16 279.101 295.16 264.734 0.501961 1 0.52549 epoly
-1 0 0 0 309.522 264.734 323.885 264.734 323.885 279.101 309.522 279.101 309.522 264.734 0.501961 1 0.52549 epoly
-1 0 0 0 323.885 279.101 338.247 279.101 338.247 293.467 323.885 293.467 323.885 279.101 0.509804 1 0.517647 epoly
-1 0 0 0 338.247 279.101 352.609 279.101 352.609 293.467 338.247 293.467 338.247 279.101 0.505882 1 0.521569 epoly
-1 0 0 0 323.885 264.734 338.247 264.734 338.247 279.101 323.885 279.101 323.885 264.734 0.509804 1 0.517647 epoly
-1 0 0 0 338.247 264.734 352.609 264.734 352.609 279.101 338.247 279.101 338.247 264.734 0.509804 1 0.517647 epoly
-1 0 0 0 295.16 257.55 302.341 257.55 302.341 264.734 295.16 264.734 295.16 257.55 0.513725 1 0.513725 epoly
-1 0 0 0 302.341 257.55 309.522 257.55 309.522 264.734 302.341 264.734 302.341 257.55 0.509804 1 0.517647 epoly
-1 0 0 0 295.16 253.959 298.751 253.959 298.751 257.55 295.16 257.55 295.16 253.959 0.521569 1 0.505882 epoly
-1 0 0 0 298.751 253.959 302.341 253.959 302.341 257.55 298.751 257.55 298.751 253.959 0.52549 1 0.501961 epoly
-1 0 0 0 295.16 250.367 298.751 250.367 298.751 253.959 295.16 253.959 295.16 250.367 0.521569 1 0.505882 epoly
-1 0 0 0 298.751 250.367 302.341 250.367 302.341 253.959 298.751 253.959 298.751 250.367 0.52549 1 0.501961 epoly
-1 0 0 0 302.341 253.959 305.932 253.959 305.932 257.55 302.341 257.55 302.341 253.959 0.529412 1 0.498039 epoly
-1 0 0 0 305.932 253.959 309.522 253.959 309.522 257.55 305.932 257.55 305.932 253.959 0.521569 1 0.505882 epoly
-1 0 0 0 302.341 250.367 305.932 250.367 305.932 253.959 302.341 253.959 302.341 250.367 0.52549 1 0.501961 epoly
-1 0 0 0 305.932 250.367 309.522 250.367 309.522 253.959 305.932 253.959 305.932 250.367 0.52549 1 0.501961 epoly
-1 0 0 0 309.522 257.55 316.704 257.55 316.704 264.734 309.522 264.734 309.522 257.55 0.505882 1 0.521569 epoly
-1 0 0 0 316.704 257.55 323.885 257.55 323.885 264.734 316.704 264.734 316.704 257.55 0.505882 1 0.521569 epoly
-1 0 0 0 309.522 250.367 316.704 250.367 316.704 257.55 309.522 257.55 309.522 250.367 0.517647 1 0.509804 epoly
-1 0 0 0 316.704 250.367 323.885 250.367 323.885 257.55 316.704 257.55 316.704 250.367 0.513725 1 0.513725 epoly
-1 0 0 0 295.16 243.183 302.341 243.183 302.341 250.367 295.16 250.367 295.16 243.183 0.517647 1 0.509804 epoly
-1 0 0 0 302.341 243.183 309.522 243.183 309.522 250.367 302.341 250.367 302.341 243.183 0.521569 1 0.505882 epoly
-1 0 0 0 295.16 236 302.341 236 302.341 243.183 295.16 243.183 295.16 236 0.505882 1 0.521569 epoly
-1 0 0 0 302.341 236 309.522 236 309.522 243.183 302.341 243.183 302.341 236 0.509804 1 0.517647 epoly
-1 0 0 0 309.522 246.775 313.113 246.775 313.113 250.367 309.522 250.367 309.522 246.775 0.52549 1 0.501961 epoly
-1 0 0 0 313.113 246.775 316.704 246.775 316.704 250.367 313.113 250.367 313.113 246.775 0.52549 1 0.498039 epoly
-1 0 0 0 309.522 243.183 313.113 243.183 313.113 246.775 309.522 246.775 309.522 243.183 0.52549 1 0.501961 epoly
-1 0 0 0 313.113 243.183 316.704 243.183 316.704 246.775 313.113 246.775 313.113 243.183 0.529412 1 0.498039 epoly
-1 0 0 0 316.704 243.183 323.885 243.183 323.885 250.367 316.704 250.367 316.704 243.183 0.521569 1 0.505882 epoly
-1 0 0 0 309.522 236 316.704 236 316.704 243.183 309.522 243.183 309.522 236 0.517647 1 0.509804 epoly
-1 0 0 0 316.704 236 323.885 236 323.885 243.183 316.704 243.183 316.704 236 0.513725 1 0.513725 epoly
-1 0 0 0 323.885 250.367 338.247 250.367 338.247 264.734 323.885 264.734 323.885 250.367 0.505882 1 0.521569 epoly
-1 0 0 0 338.247 250.367 352.609 250.367 352.609 264.734 338.247 264.734 338.247 250.367 0.509804 1 0.517647 epoly
-1 0 0 0 323.885 236 338.247 236 338.247 250.367 323.885 250.367 323.885 236 0.509804 1 0.517647 epoly
-1 0 0 0 338.247 236 352.609 236 352.609 250.367 338.247 250.367 338.247 236 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 322.201 381.334 322.201 381.334 350.935 352.609 350.935 352.609 322.201 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 322.201 410.058 322.201 410.058 350.935 381.334 350.935 381.334 322.201 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 293.467 381.334 293.467 381.334 322.201 352.609 322.201 352.609 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 293.467 410.058 293.467 410.058 322.201 381.334 322.201 381.334 293.467 0.501961 1 0.52549 epoly
-1 0 0 0 410.058 293.467 467.507 293.467 467.507 350.935 410.058 350.935 410.058 293.467 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 264.734 381.334 264.734 381.334 293.467 352.609 293.467 352.609 264.734 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 264.734 410.058 264.734 410.058 293.467 381.334 293.467 381.334 264.734 0.505882 1 0.521569 epoly
-1 0 0 0 352.609 236 381.334 236 381.334 264.734 352.609 264.734 352.609 236 0.505882 1 0.521569 epoly
-1 0 0 0 381.334 236 410.058 236 410.058 264.734 381.334 264.734 381.334 236 0.509804 1 0.517647 epoly
-1 0 0 0 410.058 236 467.507 236 467.507 293.467 410.058 293.467 410.058 236 0.505882 1 0.521569 epoly
-1 0 0 0 7.91583 207.266 36.6403 207.266 36.6403 236 7.91583 236 7.91583 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 36.6403 207.266 65.3647 207.266 65.3647 236 36.6403 236 36.6403 207.266 0.505882 1 0.521569 epoly
-1 0 0 0 7.91583 178.533 36.6403 178.533 36.6403 207.266 7.91583 207.266 7.91583 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 36.6403 178.533 65.3647 178.533 65.3647 207.266 36.6403 207.266 36.6403 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 207.266 94.0891 207.266 94.0891 236 65.3647 236 65.3647 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 207.266 122.814 207.266 122.814 236 94.0891 236 94.0891 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 178.533 94.0891 178.533 94.0891 207.266 65.3647 207.266 65.3647 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 178.533 122.814 178.533 122.814 207.266 94.0891 207.266 94.0891 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 7.91583 164.166 22.2781 164.166 22.2781 178.533 7.91583 178.533 7.91583 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 164.166 36.6403 164.166 36.6403 178.533 22.2781 178.533 22.2781 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 149.799 22.2781 149.799 22.2781 164.166 7.91583 164.166 7.91583 149.799 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 149.799 36.6403 149.799 36.6403 164.166 22.2781 164.166 22.2781 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 164.166 51.0025 164.166 51.0025 178.533 36.6403 178.533 36.6403 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 164.166 65.3647 164.166 65.3647 178.533 51.0025 178.533 51.0025 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 149.799 51.0025 149.799 51.0025 164.166 36.6403 164.166 36.6403 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 149.799 65.3647 149.799 65.3647 164.166 51.0025 164.166 51.0025 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 135.432 22.2781 135.432 22.2781 149.799 7.91583 149.799 7.91583 135.432 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 135.432 36.6403 135.432 36.6403 149.799 22.2781 149.799 22.2781 135.432 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 121.065 22.2781 121.065 22.2781 135.432 7.91583 135.432 7.91583 121.065 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 121.065 36.6403 121.065 36.6403 135.432 22.2781 135.432 22.2781 121.065 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 142.615 43.8214 142.615 43.8214 149.799 36.6403 149.799 36.6403 142.615 0.494118 1 0.533333 epoly
-1 0 0 0 43.8214 142.615 51.0025 142.615 51.0025 149.799 43.8214 149.799 43.8214 142.615 0.494118 1 0.533333 epoly
-1 0 0 0 36.6403 135.432 43.8214 135.432 43.8214 142.615 36.6403 142.615 36.6403 135.432 0.494118 1 0.533333 epoly
-1 0 0 0 43.8214 135.432 51.0025 135.432 51.0025 142.615 43.8214 142.615 43.8214 135.432 0.494118 1 0.533333 epoly
-1 0 0 0 51.0025 142.615 58.1836 142.615 58.1836 149.799 51.0025 149.799 51.0025 142.615 0.494118 1 0.533333 epoly
-1 0 0 0 58.1836 142.615 65.3647 142.615 65.3647 149.799 58.1836 149.799 58.1836 142.615 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 135.432 58.1836 135.432 58.1836 142.615 51.0025 142.615 51.0025 135.432 0.494118 1 0.533333 epoly
-1 0 0 0 58.1836 135.432 65.3647 135.432 65.3647 142.615 58.1836 142.615 58.1836 135.432 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 128.248 43.8214 128.248 43.8214 135.432 36.6403 135.432 36.6403 128.248 0.494118 1 0.533333 epoly
-1 0 0 0 43.8214 128.248 51.0025 128.248 51.0025 135.432 43.8214 135.432 43.8214 128.248 0.494118 1 0.533333 epoly
-1 0 0 0 36.6403 121.065 43.8214 121.065 43.8214 128.248 36.6403 128.248 36.6403 121.065 0.494118 1 0.533333 epoly
-1 0 0 0 43.8214 121.065 51.0025 121.065 51.0025 128.248 43.8214 128.248 43.8214 121.065 0.494118 1 0.533333 epoly
-1 0 0 0 51.0025 128.248 58.1836 128.248 58.1836 135.432 51.0025 135.432 51.0025 128.248 0.494118 1 0.533333 epoly
-1 0 0 0 58.1836 128.248 65.3647 128.248 65.3647 135.432 58.1836 135.432 58.1836 128.248 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 121.065 58.1836 121.065 58.1836 128.248 51.0025 128.248 51.0025 121.065 0.494118 1 0.533333 epoly
-1 0 0 0 58.1836 121.065 65.3647 121.065 65.3647 128.248 58.1836 128.248 58.1836 121.065 0.498039 1 0.529412 epoly
-1 0 0 0 65.3647 164.166 79.7269 164.166 79.7269 178.533 65.3647 178.533 65.3647 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 79.7269 164.166 94.0891 164.166 94.0891 178.533 79.7269 178.533 79.7269 164.166 0.505882 1 0.521569 epoly
-1 0 0 0 65.3647 149.799 79.7269 149.799 79.7269 164.166 65.3647 164.166 65.3647 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 79.7269 149.799 94.0891 149.799 94.0891 164.166 79.7269 164.166 79.7269 149.799 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 149.799 122.814 149.799 122.814 178.533 94.0891 178.533 94.0891 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 65.3647 135.432 79.7269 135.432 79.7269 149.799 65.3647 149.799 65.3647 135.432 0.498039 1 0.529412 epoly
-1 0 0 0 79.7269 135.432 94.0891 135.432 94.0891 149.799 79.7269 149.799 79.7269 135.432 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 121.065 79.7269 121.065 79.7269 135.432 65.3647 135.432 65.3647 121.065 0.498039 1 0.529412 epoly
-1 0 0 0 79.7269 121.065 94.0891 121.065 94.0891 135.432 79.7269 135.432 79.7269 121.065 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 121.065 122.814 121.065 122.814 149.799 94.0891 149.799 94.0891 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 122.814 221.633 137.176 221.633 137.176 236 122.814 236 122.814 221.633 0.501961 1 0.52549 epoly
-1 0 0 0 137.176 221.633 151.538 221.633 151.538 236 137.176 236 137.176 221.633 0.501961 1 0.52549 epoly
-1 0 0 0 122.814 207.266 137.176 207.266 137.176 221.633 122.814 221.633 122.814 207.266 0.498039 1 0.529412 epoly
-1 0 0 0 137.176 214.45 144.357 214.45 144.357 221.633 137.176 221.633 137.176 214.45 0.498039 1 0.52549 epoly
-1 0 0 0 144.357 214.45 151.538 214.45 151.538 221.633 144.357 221.633 144.357 214.45 0.498039 1 0.529412 epoly
-1 0 0 0 137.176 207.266 144.357 207.266 144.357 214.45 137.176 214.45 137.176 207.266 0.494118 1 0.533333 epoly
-1 0 0 0 144.357 207.266 151.538 207.266 151.538 214.45 144.357 214.45 144.357 207.266 0.494118 1 0.533333 epoly
-1 0 0 0 151.538 221.633 165.9 221.633 165.9 236 151.538 236 151.538 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 165.9 228.817 173.081 228.817 173.081 236 165.9 236 165.9 228.817 0.498039 1 0.529412 epoly
-1 0 0 0 173.081 232.408 176.672 232.408 176.672 236 173.081 236 173.081 232.408 0.498039 1 0.529412 epoly
-1 0 0 0 176.672 232.408 180.262 232.408 180.262 236 176.672 236 176.672 232.408 0.505882 1 0.521569 epoly
-1 0 0 0 173.081 228.817 176.672 228.817 176.672 232.408 173.081 232.408 173.081 228.817 0.462745 1 0.564706 epoly
-1 0 0 0 176.672 228.817 180.262 228.817 180.262 232.408 176.672 232.408 176.672 228.817 0.509804 1 0.517647 epoly
-1 0 0 0 165.9 221.633 173.081 221.633 173.081 228.817 165.9 228.817 165.9 221.633 0.486275 1 0.541176 epoly
-1 0 0 0 173.081 225.225 176.672 225.225 176.672 228.817 173.081 228.817 173.081 225.225 0.392157 1 0.635294 epoly
-1 0 0 0 176.672 225.225 180.262 225.225 180.262 228.817 176.672 228.817 176.672 225.225 0.501961 1 0.52549 epoly
-1 0 0 0 173.081 221.633 176.672 221.633 176.672 225.225 173.081 225.225 173.081 221.633 0.368627 1 0.654902 epoly
-1 0 0 0 176.672 221.633 180.262 221.633 180.262 225.225 176.672 225.225 176.672 221.633 0.517647 1 0.509804 epoly
-1 0 0 0 151.538 207.266 165.9 207.266 165.9 221.633 151.538 221.633 151.538 207.266 0.498039 1 0.529412 epoly
-1 0 0 0 165.9 214.45 173.081 214.45 173.081 221.633 165.9 221.633 165.9 214.45 0.478431 1 0.54902 epoly
-1 0 0 0 173.081 214.45 180.262 214.45 180.262 221.633 173.081 221.633 173.081 214.45 0.486275 1 0.541176 epoly
-1 0 0 0 165.9 207.266 173.081 207.266 173.081 214.45 165.9 214.45 165.9 207.266 0.490196 1 0.537255 epoly
-1 0 0 0 173.081 207.266 180.262 207.266 180.262 214.45 173.081 214.45 173.081 207.266 0.517647 1 0.509804 epoly
-1 0 0 0 122.814 192.899 137.176 192.899 137.176 207.266 122.814 207.266 122.814 192.899 0.501961 1 0.52549 epoly
-1 0 0 0 137.176 200.083 144.357 200.083 144.357 207.266 137.176 207.266 137.176 200.083 0.494118 1 0.533333 epoly
-1 0 0 0 144.357 200.083 151.538 200.083 151.538 207.266 144.357 207.266 144.357 200.083 0.490196 1 0.537255 epoly
-1 0 0 0 137.176 192.899 144.357 192.899 144.357 200.083 137.176 200.083 137.176 192.899 0.494118 1 0.533333 epoly
-1 0 0 0 144.357 192.899 151.538 192.899 151.538 200.083 144.357 200.083 144.357 192.899 0.490196 1 0.537255 epoly
-1 0 0 0 122.814 178.533 137.176 178.533 137.176 192.899 122.814 192.899 122.814 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 137.176 178.533 151.538 178.533 151.538 192.899 137.176 192.899 137.176 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 192.899 165.9 192.899 165.9 207.266 151.538 207.266 151.538 192.899 0.494118 1 0.533333 epoly
-1 0 0 0 165.9 200.083 173.081 200.083 173.081 207.266 165.9 207.266 165.9 200.083 0.498039 1 0.529412 epoly
-1 0 0 0 173.081 200.083 180.262 200.083 180.262 207.266 173.081 207.266 173.081 200.083 0.513725 1 0.513725 epoly
-1 0 0 0 165.9 192.899 173.081 192.899 173.081 200.083 165.9 200.083 165.9 192.899 0.505882 1 0.521569 epoly
-1 0 0 0 173.081 192.899 180.262 192.899 180.262 200.083 173.081 200.083 173.081 192.899 0.501961 1 0.52549 epoly
-1 0 0 0 151.538 185.716 158.719 185.716 158.719 192.899 151.538 192.899 151.538 185.716 0.498039 1 0.529412 epoly
-1 0 0 0 158.719 185.716 165.9 185.716 165.9 192.899 158.719 192.899 158.719 185.716 0.494118 1 0.533333 epoly
-1 0 0 0 151.538 178.533 158.719 178.533 158.719 185.716 151.538 185.716 151.538 178.533 0.498039 1 0.529412 epoly
-1 0 0 0 158.719 178.533 165.9 178.533 165.9 185.716 158.719 185.716 158.719 178.533 0.498039 1 0.529412 epoly
-1 0 0 0 165.9 178.533 180.262 178.533 180.262 192.899 165.9 192.899 165.9 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 232.408 183.853 232.408 183.853 236 180.262 236 180.262 232.408 0.52549 1 0.501961 epoly
-1 0 0 0 180.262 228.817 183.853 228.817 183.853 232.408 180.262 232.408 180.262 228.817 0.568627 1 0.458824 epoly
-1 0 0 0 180.262 225.225 183.853 225.225 183.853 228.817 180.262 228.817 180.262 225.225 0.596078 1 0.431373 epoly
-1 0 0 0 180.262 221.633 183.853 221.633 183.853 225.225 180.262 225.225 180.262 221.633 0.6 1 0.427451 epoly
-1 0 0 0 180.262 218.041 183.853 218.041 183.853 221.633 180.262 221.633 180.262 218.041 0.603922 1 0.423529 epoly
-1 0 0 0 180.262 214.45 183.853 214.45 183.853 218.041 180.262 218.041 180.262 214.45 0.564706 1 0.462745 epoly
-1 0 0 0 183.853 214.45 187.444 214.45 187.444 218.041 183.853 218.041 183.853 214.45 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 210.858 183.853 210.858 183.853 214.45 180.262 214.45 180.262 210.858 0.603922 1 0.423529 epoly
-1 0 0 0 183.853 210.858 187.444 210.858 187.444 214.45 183.853 214.45 183.853 210.858 0.666667 1 0.360784 epoly
-1 0 0 0 180.262 207.266 183.853 207.266 183.853 210.858 180.262 210.858 180.262 207.266 0.588235 1 0.439216 epoly
-1 0 0 0 183.853 207.266 187.444 207.266 187.444 210.858 183.853 210.858 183.853 207.266 0.631373 1 0.396078 epoly
-1 0 0 0 187.444 207.266 191.034 207.266 191.034 210.858 187.444 210.858 187.444 207.266 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 232.408 237.711 232.408 237.711 236 234.121 236 234.121 232.408 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 228.817 237.711 228.817 237.711 232.408 234.121 232.408 234.121 228.817 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 225.225 237.711 225.225 237.711 228.817 234.121 228.817 234.121 225.225 0.501961 1 0.52549 epoly
-1 0 0 0 234.121 221.633 237.711 221.633 237.711 225.225 234.121 225.225 234.121 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 218.041 237.711 218.041 237.711 221.633 234.121 221.633 234.121 218.041 0.513725 1 0.513725 epoly
-1 0 0 0 234.121 214.45 237.711 214.45 237.711 218.041 234.121 218.041 234.121 214.45 0.501961 1 0.52549 epoly
-1 0 0 0 234.121 210.858 237.711 210.858 237.711 214.45 234.121 214.45 234.121 210.858 0.498039 1 0.529412 epoly
-1 0 0 0 234.121 207.266 237.711 207.266 237.711 210.858 234.121 210.858 234.121 207.266 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 203.675 183.853 203.675 183.853 207.266 180.262 207.266 180.262 203.675 0.537255 1 0.490196 epoly
-1 0 0 0 183.853 203.675 187.444 203.675 187.444 207.266 183.853 207.266 183.853 203.675 0.603922 1 0.423529 epoly
-1 0 0 0 180.262 200.083 183.853 200.083 183.853 203.675 180.262 203.675 180.262 200.083 0.517647 1 0.509804 epoly
-1 0 0 0 183.853 200.083 187.444 200.083 187.444 203.675 183.853 203.675 183.853 200.083 0.54902 1 0.478431 epoly
-1 0 0 0 187.444 203.675 191.034 203.675 191.034 207.266 187.444 207.266 187.444 203.675 0.709804 1 0.317647 epoly
-1 0 0 0 187.444 200.083 191.034 200.083 191.034 203.675 187.444 203.675 187.444 200.083 0.647059 1 0.380392 epoly
-1 0 0 0 191.034 200.083 194.625 200.083 194.625 203.675 191.034 203.675 191.034 200.083 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 192.899 187.444 192.899 187.444 200.083 180.262 200.083 180.262 192.899 0.509804 1 0.517647 epoly
-1 0 0 0 187.444 196.491 191.034 196.491 191.034 200.083 187.444 200.083 187.444 196.491 0.552941 1 0.47451 epoly
-1 0 0 0 191.034 196.491 194.625 196.491 194.625 200.083 191.034 200.083 191.034 196.491 0.682353 1 0.345098 epoly
-1 0 0 0 187.444 192.899 191.034 192.899 191.034 196.491 187.444 196.491 187.444 192.899 0.509804 1 0.517647 epoly
-1 0 0 0 191.034 192.899 194.625 192.899 194.625 196.491 191.034 196.491 191.034 192.899 0.580392 1 0.447059 epoly
-1 0 0 0 194.625 196.491 198.215 196.491 198.215 200.083 194.625 200.083 194.625 196.491 0.505882 1 0.521569 epoly
-1 0 0 0 194.625 192.899 198.215 192.899 198.215 196.491 194.625 196.491 194.625 192.899 0.670588 1 0.356863 epoly
-1 0 0 0 198.215 192.899 201.806 192.899 201.806 196.491 198.215 196.491 198.215 192.899 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 185.716 187.444 185.716 187.444 192.899 180.262 192.899 180.262 185.716 0.498039 1 0.529412 epoly
-1 0 0 0 187.444 185.716 194.625 185.716 194.625 192.899 187.444 192.899 187.444 185.716 0.513725 1 0.513725 epoly
-1 0 0 0 180.262 178.533 187.444 178.533 187.444 185.716 180.262 185.716 180.262 178.533 0.505882 1 0.521569 epoly
-1 0 0 0 187.444 178.533 194.625 178.533 194.625 185.716 187.444 185.716 187.444 178.533 0.501961 1 0.52549 epoly
-1 0 0 0 194.625 189.308 198.215 189.308 198.215 192.899 194.625 192.899 194.625 189.308 0.580392 1 0.447059 epoly
-1 0 0 0 198.215 189.308 201.806 189.308 201.806 192.899 198.215 192.899 198.215 189.308 0.572549 1 0.454902 epoly
-1 0 0 0 194.625 185.716 198.215 185.716 198.215 189.308 194.625 189.308 194.625 185.716 0.537255 1 0.490196 epoly
-1 0 0 0 198.215 185.716 201.806 185.716 201.806 189.308 198.215 189.308 198.215 185.716 0.556863 1 0.470588 epoly
-1 0 0 0 201.806 189.308 205.396 189.308 205.396 192.899 201.806 192.899 201.806 189.308 0.505882 1 0.521569 epoly
-1 0 0 0 201.806 185.716 205.396 185.716 205.396 189.308 201.806 189.308 201.806 185.716 0.635294 1 0.392157 epoly
-1 0 0 0 205.396 185.716 208.987 185.716 208.987 189.308 205.396 189.308 205.396 185.716 0.568627 1 0.458824 epoly
-1 0 0 0 194.625 178.533 201.806 178.533 201.806 185.716 194.625 185.716 194.625 178.533 0.494118 1 0.533333 epoly
-1 0 0 0 201.806 182.124 205.396 182.124 205.396 185.716 201.806 185.716 201.806 182.124 0.545098 1 0.482353 epoly
-1 0 0 0 205.396 182.124 208.987 182.124 208.987 185.716 205.396 185.716 205.396 182.124 0.568627 1 0.458824 epoly
-1 0 0 0 201.806 178.533 205.396 178.533 205.396 182.124 201.806 182.124 201.806 178.533 0.47451 1 0.552941 epoly
-1 0 0 0 205.396 178.533 208.987 178.533 208.987 182.124 205.396 182.124 205.396 178.533 0.529412 1 0.498039 epoly
-1 0 0 0 234.121 203.675 237.711 203.675 237.711 207.266 234.121 207.266 234.121 203.675 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 200.083 237.711 200.083 237.711 203.675 234.121 203.675 234.121 200.083 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 196.491 237.711 196.491 237.711 200.083 234.121 200.083 234.121 196.491 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 192.899 237.711 192.899 237.711 196.491 234.121 196.491 234.121 192.899 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 185.716 212.577 185.716 212.577 189.308 208.987 189.308 208.987 185.716 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 182.124 212.577 182.124 212.577 185.716 208.987 185.716 208.987 182.124 0.635294 1 0.392157 epoly
-1 0 0 0 212.577 182.124 216.168 182.124 216.168 185.716 212.577 185.716 212.577 182.124 0.623529 1 0.403922 epoly
-1 0 0 0 208.987 178.533 212.577 178.533 212.577 182.124 208.987 182.124 208.987 178.533 0.54902 1 0.478431 epoly
-1 0 0 0 212.577 178.533 216.168 178.533 216.168 182.124 212.577 182.124 212.577 178.533 0.54902 1 0.478431 epoly
-1 0 0 0 216.168 182.124 219.759 182.124 219.759 185.716 216.168 185.716 216.168 182.124 0.505882 1 0.521569 epoly
-1 0 0 0 216.168 178.533 219.759 178.533 219.759 182.124 216.168 182.124 216.168 178.533 0.619608 1 0.407843 epoly
-1 0 0 0 219.759 178.533 223.349 178.533 223.349 182.124 219.759 182.124 219.759 178.533 0.698039 1 0.329412 epoly
-1 0 0 0 234.121 189.308 237.711 189.308 237.711 192.899 234.121 192.899 234.121 189.308 0.505882 1 0.521569 epoly
-1 0 0 0 234.121 185.716 237.711 185.716 237.711 189.308 234.121 189.308 234.121 185.716 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 178.533 226.94 178.533 226.94 182.124 223.349 182.124 223.349 178.533 0.701961 1 0.32549 epoly
-1 0 0 0 226.94 178.533 230.53 178.533 230.53 182.124 226.94 182.124 226.94 178.533 0.67451 1 0.352941 epoly
-1 0 0 0 234.121 182.124 237.711 182.124 237.711 185.716 234.121 185.716 234.121 182.124 0.462745 1 0.564706 epoly
-1 0 0 0 230.53 178.533 234.121 178.533 234.121 182.124 230.53 182.124 230.53 178.533 0.592157 1 0.435294 epoly
-1 0 0 0 234.121 178.533 237.711 178.533 237.711 182.124 234.121 182.124 234.121 178.533 1 0.121569 0 epoly
-1 0 0 0 122.814 164.166 137.176 164.166 137.176 178.533 122.814 178.533 122.814 164.166 0.509804 1 0.517647 epoly
-1 0 0 0 137.176 164.166 151.538 164.166 151.538 178.533 137.176 178.533 137.176 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 122.814 149.799 137.176 149.799 137.176 164.166 122.814 164.166 122.814 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 137.176 149.799 151.538 149.799 151.538 164.166 137.176 164.166 137.176 149.799 0.505882 1 0.521569 epoly
-1 0 0 0 151.538 164.166 165.9 164.166 165.9 178.533 151.538 178.533 151.538 164.166 0.505882 1 0.517647 epoly
-1 0 0 0 165.9 164.166 180.262 164.166 180.262 178.533 165.9 178.533 165.9 164.166 0.513725 1 0.513725 epoly
-1 0 0 0 151.538 149.799 165.9 149.799 165.9 164.166 151.538 164.166 151.538 149.799 0.509804 1 0.517647 epoly
-1 0 0 0 165.9 149.799 180.262 149.799 180.262 164.166 165.9 164.166 165.9 149.799 0.509804 1 0.517647 epoly
-1 0 0 0 122.814 121.065 151.538 121.065 151.538 149.799 122.814 149.799 122.814 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 151.538 121.065 180.262 121.065 180.262 149.799 151.538 149.799 151.538 121.065 0.509804 1 0.517647 epoly
-1 0 0 0 180.262 164.166 194.625 164.166 194.625 178.533 180.262 178.533 180.262 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 194.625 171.349 201.806 171.349 201.806 178.533 194.625 178.533 194.625 171.349 0.494118 1 0.533333 epoly
-1 0 0 0 201.806 171.349 208.987 171.349 208.987 178.533 201.806 178.533 201.806 171.349 0.505882 1 0.521569 epoly
-1 0 0 0 194.625 164.166 201.806 164.166 201.806 171.349 194.625 171.349 194.625 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 201.806 164.166 208.987 164.166 208.987 171.349 201.806 171.349 201.806 164.166 0.509804 1 0.517647 epoly
-1 0 0 0 180.262 149.799 194.625 149.799 194.625 164.166 180.262 164.166 180.262 149.799 0.513725 1 0.513725 epoly
-1 0 0 0 194.625 149.799 208.987 149.799 208.987 164.166 194.625 164.166 194.625 149.799 0.513725 1 0.513725 epoly
-1 0 0 0 208.987 171.349 216.168 171.349 216.168 178.533 208.987 178.533 208.987 171.349 0.509804 1 0.517647 epoly
-1 0 0 0 216.168 171.349 223.349 171.349 223.349 178.533 216.168 178.533 216.168 171.349 0.529412 1 0.498039 epoly
-1 0 0 0 208.987 164.166 216.168 164.166 216.168 171.349 208.987 171.349 208.987 164.166 0.501961 1 0.52549 epoly
-1 0 0 0 216.168 164.166 223.349 164.166 223.349 171.349 216.168 171.349 216.168 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 223.349 174.941 226.94 174.941 226.94 178.533 223.349 178.533 223.349 174.941 0.603922 1 0.423529 epoly
-1 0 0 0 226.94 174.941 230.53 174.941 230.53 178.533 226.94 178.533 226.94 174.941 0.627451 1 0.4 epoly
-1 0 0 0 223.349 171.349 226.94 171.349 226.94 174.941 223.349 174.941 223.349 171.349 0.533333 1 0.494118 epoly
-1 0 0 0 226.94 171.349 230.53 171.349 230.53 174.941 226.94 174.941 226.94 171.349 0.54902 1 0.478431 epoly
-1 0 0 0 230.53 174.941 234.121 174.941 234.121 178.533 230.53 178.533 230.53 174.941 0.705882 1 0.321569 epoly
-1 0 0 0 234.121 174.941 237.711 174.941 237.711 178.533 234.121 178.533 234.121 174.941 0.721569 0 0 epoly
-1 0 0 0 230.53 171.349 234.121 171.349 234.121 174.941 230.53 174.941 230.53 171.349 0.533333 1 0.494118 epoly
-1 0 0 0 234.121 171.349 237.711 171.349 237.711 174.941 234.121 174.941 234.121 171.349 0.6 1 0.427451 epoly
-1 0 0 0 223.349 164.166 230.53 164.166 230.53 171.349 223.349 171.349 223.349 164.166 0.509804 1 0.517647 epoly
-1 0 0 0 230.53 167.757 234.121 167.757 234.121 171.349 230.53 171.349 230.53 167.757 0.501961 1 0.52549 epoly
-1 0 0 0 234.121 167.757 237.711 167.757 237.711 171.349 234.121 171.349 234.121 167.757 0.443137 1 0.584314 epoly
-1 0 0 0 230.53 164.166 234.121 164.166 234.121 167.757 230.53 167.757 230.53 164.166 0.498039 1 0.529412 epoly
-1 0 0 0 234.121 164.166 237.711 164.166 237.711 167.757 234.121 167.757 234.121 164.166 0.490196 1 0.533333 epoly
-1 0 0 0 208.987 149.799 223.349 149.799 223.349 164.166 208.987 164.166 208.987 149.799 0.494118 1 0.533333 epoly
-1 0 0 0 223.349 156.982 230.53 156.982 230.53 164.166 223.349 164.166 223.349 156.982 0.494118 1 0.533333 epoly
-1 0 0 0 230.53 156.982 237.711 156.982 237.711 164.166 230.53 164.166 230.53 156.982 0.501961 1 0.52549 epoly
-1 0 0 0 223.349 149.799 230.53 149.799 230.53 156.982 223.349 156.982 223.349 149.799 0.494118 1 0.533333 epoly
-1 0 0 0 230.53 149.799 237.711 149.799 237.711 156.982 230.53 156.982 230.53 149.799 0.498039 1 0.529412 epoly
-1 0 0 0 180.262 121.065 208.987 121.065 208.987 149.799 180.262 149.799 180.262 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 135.432 223.349 135.432 223.349 149.799 208.987 149.799 208.987 135.432 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 135.432 237.711 135.432 237.711 149.799 223.349 149.799 223.349 135.432 0.501961 1 0.52549 epoly
-1 0 0 0 208.987 121.065 223.349 121.065 223.349 135.432 208.987 135.432 208.987 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 223.349 121.065 237.711 121.065 237.711 135.432 223.349 135.432 223.349 121.065 0.505882 1 0.521569 epoly
-1 0 0 0 7.91583 106.698 22.2781 106.698 22.2781 121.065 7.91583 121.065 7.91583 106.698 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 106.698 36.6403 106.698 36.6403 121.065 22.2781 121.065 22.2781 106.698 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 92.3313 22.2781 92.3313 22.2781 106.698 7.91583 106.698 7.91583 92.3313 0.501961 1 0.52549 epoly
-1 0 0 0 22.2781 92.3313 36.6403 92.3313 36.6403 106.698 22.2781 106.698 22.2781 92.3313 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 106.698 51.0025 106.698 51.0025 121.065 36.6403 121.065 36.6403 106.698 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 106.698 65.3647 106.698 65.3647 121.065 51.0025 121.065 51.0025 106.698 0.498039 1 0.529412 epoly
-1 0 0 0 36.6403 92.3313 51.0025 92.3313 51.0025 106.698 36.6403 106.698 36.6403 92.3313 0.498039 1 0.529412 epoly
-1 0 0 0 51.0025 92.3313 65.3647 92.3313 65.3647 106.698 51.0025 106.698 51.0025 92.3313 0.498039 1 0.529412 epoly
-1 0 0 0 7.91583 63.5975 36.6403 63.5975 36.6403 92.3313 7.91583 92.3313 7.91583 63.5975 0.501961 1 0.52549 epoly
-1 0 0 0 36.6403 63.5975 65.3647 63.5975 65.3647 92.3313 36.6403 92.3313 36.6403 63.5975 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 106.698 79.7269 106.698 79.7269 121.065 65.3647 121.065 65.3647 106.698 0.498039 1 0.529412 epoly
-1 0 0 0 79.7269 106.698 94.0891 106.698 94.0891 121.065 79.7269 121.065 79.7269 106.698 0.501961 1 0.52549 epoly
-1 0 0 0 65.3647 92.3313 79.7269 92.3313 79.7269 106.698 65.3647 106.698 65.3647 92.3313 0.501961 1 0.52549 epoly
-1 0 0 0 79.7269 92.3313 94.0891 92.3313 94.0891 106.698 79.7269 106.698 79.7269 92.3313 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 92.3313 122.814 92.3313 122.814 121.065 94.0891 121.065 94.0891 92.3313 0.505882 1 0.521569 epoly
-1 0 0 0 65.3647 63.5975 94.0891 63.5975 94.0891 92.3313 65.3647 92.3313 65.3647 63.5975 0.501961 1 0.52549 epoly
-1 0 0 0 94.0891 63.5975 122.814 63.5975 122.814 92.3313 94.0891 92.3313 94.0891 63.5975 0.501961 1 0.521569 epoly
-1 0 0 0 7.91583 6.13002 65.3647 6.13002 65.3647 63.5975 7.91583 63.5975 7.91583 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 65.3647 6.13002 122.814 6.13002 122.814 63.5975 65.3647 63.5975 65.3647 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 122.814 63.5975 180.262 63.5975 180.262 121.065 122.814 121.065 122.814 63.5975 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 92.3313 208.987 92.3313 208.987 121.065 180.262 121.065 180.262 92.3313 0.509804 1 0.517647 epoly
-1 0 0 0 208.987 92.3313 237.711 92.3313 237.711 121.065 208.987 121.065 208.987 92.3313 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 63.5975 208.987 63.5975 208.987 92.3313 180.262 92.3313 180.262 63.5975 0.505882 1 0.521569 epoly
-1 0 0 0 208.987 63.5975 237.711 63.5975 237.711 92.3313 208.987 92.3313 208.987 63.5975 0.505882 1 0.521569 epoly
-1 0 0 0 122.814 6.13002 180.262 6.13002 180.262 63.5975 122.814 63.5975 122.814 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 180.262 6.13002 237.711 6.13002 237.711 63.5975 180.262 63.5975 180.262 6.13002 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 228.817 244.892 228.817 244.892 236 237.711 236 237.711 228.817 0.494118 1 0.533333 epoly
-1 0 0 0 244.892 228.817 252.074 228.817 252.074 236 244.892 236 244.892 228.817 0.509804 1 0.517647 epoly
-1 0 0 0 237.711 225.225 241.302 225.225 241.302 228.817 237.711 228.817 237.711 225.225 0.529412 1 0.498039 epoly
-1 0 0 0 241.302 225.225 244.892 225.225 244.892 228.817 241.302 228.817 241.302 225.225 0.517647 1 0.509804 epoly
-1 0 0 0 237.711 221.633 241.302 221.633 241.302 225.225 237.711 225.225 237.711 221.633 0.494118 1 0.533333 epoly
-1 0 0 0 241.302 221.633 244.892 221.633 244.892 225.225 241.302 225.225 241.302 221.633 0.52549 1 0.501961 epoly
-1 0 0 0 244.892 221.633 252.074 221.633 252.074 228.817 244.892 228.817 244.892 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 252.074 228.817 259.255 228.817 259.255 236 252.074 236 252.074 228.817 0.505882 1 0.521569 epoly
-1 0 0 0 259.255 228.817 266.436 228.817 266.436 236 259.255 236 259.255 228.817 0.505882 1 0.521569 epoly
-1 0 0 0 252.074 225.225 255.664 225.225 255.664 228.817 252.074 228.817 252.074 225.225 0.498039 1 0.529412 epoly
-1 0 0 0 255.664 225.225 259.255 225.225 259.255 228.817 255.664 228.817 255.664 225.225 0.498039 1 0.529412 epoly
-1 0 0 0 252.074 221.633 255.664 221.633 255.664 225.225 252.074 225.225 252.074 221.633 0.478431 1 0.54902 epoly
-1 0 0 0 255.664 221.633 259.255 221.633 259.255 225.225 255.664 225.225 255.664 221.633 0.47451 1 0.552941 epoly
-1 0 0 0 259.255 221.633 266.436 221.633 266.436 228.817 259.255 228.817 259.255 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 237.711 214.45 244.892 214.45 244.892 221.633 237.711 221.633 237.711 214.45 0.505882 1 0.517647 epoly
-1 0 0 0 244.892 214.45 252.074 214.45 252.074 221.633 244.892 221.633 244.892 214.45 0.501961 1 0.52549 epoly
-1 0 0 0 237.711 210.858 241.302 210.858 241.302 214.45 237.711 214.45 237.711 210.858 0.541176 1 0.486275 epoly
-1 0 0 0 241.302 210.858 244.892 210.858 244.892 214.45 241.302 214.45 241.302 210.858 0.458824 1 0.568627 epoly
-1 0 0 0 237.711 207.266 241.302 207.266 241.302 210.858 237.711 210.858 237.711 207.266 0.521569 1 0.505882 epoly
-1 0 0 0 241.302 207.266 244.892 207.266 244.892 210.858 241.302 210.858 241.302 207.266 0.466667 1 0.560784 epoly
-1 0 0 0 244.892 210.858 248.483 210.858 248.483 214.45 244.892 214.45 244.892 210.858 0.462745 1 0.564706 epoly
-1 0 0 0 248.483 210.858 252.074 210.858 252.074 214.45 248.483 214.45 248.483 210.858 0.537255 1 0.490196 epoly
-1 0 0 0 244.892 207.266 248.483 207.266 248.483 210.858 244.892 210.858 244.892 207.266 0.513725 1 0.513725 epoly
-1 0 0 0 248.483 207.266 252.074 207.266 252.074 210.858 248.483 210.858 248.483 207.266 0.623529 1 0.403922 epoly
-1 0 0 0 252.074 218.041 255.664 218.041 255.664 221.633 252.074 221.633 252.074 218.041 0.478431 1 0.54902 epoly
-1 0 0 0 255.664 218.041 259.255 218.041 259.255 221.633 255.664 221.633 255.664 218.041 0.478431 1 0.54902 epoly
-1 0 0 0 252.074 214.45 255.664 214.45 255.664 218.041 252.074 218.041 252.074 214.45 0.490196 1 0.537255 epoly
-1 0 0 0 255.664 214.45 259.255 214.45 259.255 218.041 255.664 218.041 255.664 214.45 0.490196 1 0.537255 epoly
-1 0 0 0 259.255 218.041 262.845 218.041 262.845 221.633 259.255 221.633 259.255 218.041 0.490196 1 0.537255 epoly
-1 0 0 0 262.845 218.041 266.436 218.041 266.436 221.633 262.845 221.633 262.845 218.041 0.486275 1 0.541176 epoly
-1 0 0 0 259.255 214.45 262.845 214.45 262.845 218.041 259.255 218.041 259.255 214.45 0.478431 1 0.54902 epoly
-1 0 0 0 262.845 214.45 266.436 214.45 266.436 218.041 262.845 218.041 262.845 214.45 0.478431 1 0.54902 epoly
-1 0 0 0 252.074 210.858 255.664 210.858 255.664 214.45 252.074 214.45 252.074 210.858 0.552941 1 0.47451 epoly
-1 0 0 0 255.664 210.858 259.255 210.858 259.255 214.45 255.664 214.45 255.664 210.858 0.560784 1 0.466667 epoly
-1 0 0 0 252.074 207.266 255.664 207.266 255.664 210.858 252.074 210.858 252.074 207.266 0.74902 1 0.278431 epoly
-1 0 0 0 255.664 207.266 259.255 207.266 259.255 210.858 255.664 210.858 255.664 207.266 0.788235 1 0.239216 epoly
-1 0 0 0 259.255 210.858 262.845 210.858 262.845 214.45 259.255 214.45 259.255 210.858 0.529412 1 0.498039 epoly
-1 0 0 0 262.845 210.858 266.436 210.858 266.436 214.45 262.845 214.45 262.845 210.858 0.513725 1 0.513725 epoly
-1 0 0 0 259.255 207.266 262.845 207.266 262.845 210.858 259.255 210.858 259.255 207.266 0.713725 1 0.313725 epoly
-1 0 0 0 262.845 207.266 266.436 207.266 266.436 210.858 262.845 210.858 262.845 207.266 0.596078 1 0.431373 epoly
-1 0 0 0 266.436 228.817 273.617 228.817 273.617 236 266.436 236 266.436 228.817 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 228.817 280.798 228.817 280.798 236 273.617 236 273.617 228.817 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 221.633 273.617 221.633 273.617 228.817 266.436 228.817 266.436 221.633 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 221.633 280.798 221.633 280.798 228.817 273.617 228.817 273.617 221.633 0.505882 1 0.521569 epoly
-1 0 0 0 280.798 221.633 295.16 221.633 295.16 236 280.798 236 280.798 221.633 0.501961 1 0.52549 epoly
-1 0 0 0 266.436 214.45 273.617 214.45 273.617 221.633 266.436 221.633 266.436 214.45 0.490196 1 0.537255 epoly
-1 0 0 0 273.617 214.45 280.798 214.45 280.798 221.633 273.617 221.633 273.617 214.45 0.513725 1 0.513725 epoly
-1 0 0 0 266.436 207.266 273.617 207.266 273.617 214.45 266.436 214.45 266.436 207.266 0.486275 1 0.541176 epoly
-1 0 0 0 273.617 210.858 277.207 210.858 277.207 214.45 273.617 214.45 273.617 210.858 0.470588 1 0.552941 epoly
-1 0 0 0 277.207 210.858 280.798 210.858 280.798 214.45 277.207 214.45 277.207 210.858 0.482353 1 0.545098 epoly
-1 0 0 0 273.617 207.266 277.207 207.266 277.207 210.858 273.617 210.858 273.617 207.266 0.435294 1 0.592157 epoly
-1 0 0 0 277.207 207.266 280.798 207.266 280.798 210.858 277.207 210.858 277.207 207.266 0.454902 1 0.572549 epoly
-1 0 0 0 280.798 214.45 287.979 214.45 287.979 221.633 280.798 221.633 280.798 214.45 0.505882 1 0.521569 epoly
-1 0 0 0 287.979 214.45 295.16 214.45 295.16 221.633 287.979 221.633 287.979 214.45 0.501961 1 0.52549 epoly
-1 0 0 0 280.798 207.266 287.979 207.266 287.979 214.45 280.798 214.45 280.798 207.266 0.490196 1 0.537255 epoly
-1 0 0 0 287.979 207.266 295.16 207.266 295.16 214.45 287.979 214.45 287.979 207.266 0.501961 1 0.52549 epoly
-1 0 0 0 237.711 203.675 241.302 203.675 241.302 207.266 237.711 207.266 237.711 203.675 0.501961 1 0.52549 epoly
-1 0 0 0 241.302 203.675 244.892 203.675 244.892 207.266 241.302 207.266 241.302 203.675 0.478431 1 0.54902 epoly
-1 0 0 0 237.711 200.083 241.302 200.083 241.302 203.675 237.711 203.675 237.711 200.083 0.494118 1 0.533333 epoly
-1 0 0 0 241.302 200.083 244.892 200.083 244.892 203.675 241.302 203.675 241.302 200.083 0.552941 1 0.47451 epoly
-1 0 0 0 244.892 203.675 248.483 203.675 248.483 207.266 244.892 207.266 244.892 203.675 0.654902 1 0.372549 epoly
-1 0 0 0 248.483 203.675 252.074 203.675 252.074 207.266 248.483 207.266 248.483 203.675 0.894118 1 0.133333 epoly
-1 0 0 0 244.892 200.083 248.483 200.083 248.483 203.675 244.892 203.675 244.892 200.083 0.92549 1 0.101961 epoly
-1 0 0 0 248.483 200.083 252.074 200.083 252.074 203.675 248.483 203.675 248.483 200.083 1 0.658824 0 epoly
-1 0 0 0 237.711 196.491 241.302 196.491 241.302 200.083 237.711 200.083 237.711 196.491 0.509804 1 0.517647 epoly
-1 0 0 0 241.302 196.491 244.892 196.491 244.892 200.083 241.302 200.083 241.302 196.491 0.709804 1 0.317647 epoly
-1 0 0 0 237.711 192.899 241.302 192.899 241.302 196.491 237.711 196.491 237.711 192.899 0.509804 1 0.517647 epoly
-1 0 0 0 241.302 192.899 244.892 192.899 244.892 196.491 241.302 196.491 241.302 192.899 0.878431 1 0.14902 epoly
-1 0 0 0 244.892 196.491 248.483 196.491 248.483 200.083 244.892 200.083 244.892 196.491 1 0.780392 0 epoly
-1 0 0 0 248.483 196.491 252.074 196.491 252.074 200.083 248.483 200.083 248.483 196.491 1 0.2 0 epoly
-1 0 0 0 244.892 192.899 248.483 192.899 248.483 196.491 244.892 196.491 244.892 192.899 1 0.537255 0 epoly
-1 0 0 0 248.483 192.899 252.074 192.899 252.074 196.491 248.483 196.491 248.483 192.899 0.894118 0 0 epoly
-1 0 0 0 252.074 203.675 255.664 203.675 255.664 207.266 252.074 207.266 252.074 203.675 1 0.882353 0 epoly
-1 0 0 0 255.664 203.675 259.255 203.675 259.255 207.266 255.664 207.266 255.664 203.675 1 0.847059 0 epoly
-1 0 0 0 252.074 200.083 255.664 200.083 255.664 203.675 252.074 203.675 252.074 200.083 1 0.356863 0 epoly
-1 0 0 0 255.664 200.083 259.255 200.083 259.255 203.675 255.664 203.675 255.664 200.083 1 0.34902 0 epoly
-1 0 0 0 259.255 203.675 262.845 203.675 262.845 207.266 259.255 207.266 259.255 203.675 1 1 0.0196078 epoly
-1 0 0 0 262.845 203.675 266.436 203.675 266.436 207.266 262.845 207.266 262.845 203.675 0.74902 1 0.278431 epoly
-1 0 0 0 259.255 200.083 262.845 200.083 262.845 203.675 259.255 203.675 259.255 200.083 1 0.631373 0 epoly
-1 0 0 0 262.845 200.083 266.436 200.083 266.436 203.675 262.845 203.675 262.845 200.083 0.976471 1 0.0509804 epoly
-1 0 0 0 252.074 196.491 255.664 196.491 255.664 200.083 252.074 200.083 252.074 196.491 0.870588 0 0 epoly
-1 0 0 0 255.664 196.491 259.255 196.491 259.255 200.083 255.664 200.083 255.664 196.491 0.882353 0 0 epoly
-1 0 0 0 252.074 192.899 255.664 192.899 255.664 196.491 252.074 196.491 252.074 192.899 0.576471 0 0 epoly
-1 0 0 0 255.664 192.899 259.255 192.899 259.255 196.491 255.664 196.491 255.664 192.899 0.603922 0 0 epoly
-1 0 0 0 259.255 196.491 262.845 196.491 262.845 200.083 259.255 200.083 259.255 196.491 1 0.243137 0 epoly
-1 0 0 0 262.845 196.491 266.436 196.491 266.436 200.083 262.845 200.083 262.845 196.491 1 0.823529 0 epoly
-1 0 0 0 259.255 192.899 262.845 192.899 262.845 196.491 259.255 196.491 259.255 192.899 0.980392 0 0 epoly
-1 0 0 0 262.845 192.899 266.436 192.899 266.436 196.491 262.845 196.491 262.845 192.899 1 0.698039 0 epoly
-1 0 0 0 237.711 189.308 241.302 189.308 241.302 192.899 237.711 192.899 237.711 189.308 0.478431 1 0.545098 epoly
-1 0 0 0 241.302 189.308 244.892 189.308 244.892 192.899 241.302 192.899 241.302 189.308 0.933333 1 0.0941176 epoly
-1 0 0 0 237.711 185.716 241.302 185.716 241.302 189.308 237.711 189.308 237.711 185.716 0.431373 1 0.596078 epoly
-1 0 0 0 241.302 185.716 244.892 185.716 244.892 189.308 241.302 189.308 241.302 185.716 0.835294 1 0.192157 epoly
-1 0 0 0 244.892 189.308 248.483 189.308 248.483 192.899 244.892 192.899 244.892 189.308 1 0.45098 0 epoly
-1 0 0 0 248.483 189.308 252.074 189.308 252.074 192.899 248.483 192.899 248.483 189.308 0.866667 0 0 epoly
-1 0 0 0 244.892 185.716 248.483 185.716 248.483 189.308 244.892 189.308 244.892 185.716 1 0.592157 0 epoly
-1 0 0 0 248.483 185.716 252.074 185.716 252.074 189.308 248.483 189.308 248.483 185.716 1 0.164706 0 epoly
-1 0 0 0 237.711 182.124 241.302 182.124 241.302 185.716 237.711 185.716 237.711 182.124 0.34902 1 0.678431 epoly
-1 0 0 0 241.302 182.124 244.892 182.124 244.892 185.716 241.302 185.716 241.302 182.124 0.619608 1 0.407843 epoly
-1 0 0 0 237.711 178.533 241.302 178.533 241.302 182.124 237.711 182.124 237.711 178.533 1 0.313725 0 epoly
-1 0 0 0 241.302 178.533 244.892 178.533 244.892 182.124 241.302 182.124 241.302 178.533 1 0.47451 0 epoly
-1 0 0 0 244.892 182.124 248.483 182.124 248.483 185.716 244.892 185.716 244.892 182.124 1 0.901961 0 epoly
-1 0 0 0 248.483 182.124 252.074 182.124 252.074 185.716 248.483 185.716 248.483 182.124 1 0.301961 0 epoly
-1 0 0 0 244.892 178.533 248.483 178.533 248.483 182.124 244.892 182.124 244.892 178.533 1 0.219608 0 epoly
-1 0 0 0 248.483 178.533 252.074 178.533 252.074 182.124 248.483 182.124 248.483 178.533 0.909804 0 0 epoly
-1 0 0 0 252.074 189.308 255.664 189.308 255.664 192.899 252.074 192.899 252.074 189.308 0.6 0 0 epoly
-1 0 0 0 255.664 189.308 259.255 189.308 259.255 192.899 255.664 192.899 255.664 189.308 0.529412 0 0 epoly
-1 0 0 0 252.074 185.716 255.664 185.716 255.664 189.308 252.074 189.308 252.074 185.716 0.803922 0 0 epoly
-1 0 0 0 255.664 185.716 259.255 185.716 259.255 189.308 255.664 189.308 255.664 185.716 0.596078 0 0 epoly
-1 0 0 0 259.255 189.308 262.845 189.308 262.845 192.899 259.255 192.899 259.255 189.308 0.890196 0 0 epoly
-1 0 0 0 262.845 189.308 266.436 189.308 266.436 192.899 262.845 192.899 262.845 189.308 1 0.729412 0 epoly
-1 0 0 0 259.255 185.716 262.845 185.716 262.845 189.308 259.255 189.308 259.255 185.716 1 0.0431373 0 epoly
-1 0 0 0 262.845 185.716 266.436 185.716 266.436 189.308 262.845 189.308 262.845 185.716 1 0.843137 0 epoly
-1 0 0 0 252.074 182.124 255.664 182.124 255.664 185.716 252.074 185.716 252.074 182.124 0.74902 0 0 epoly
-1 0 0 0 255.664 182.124 259.255 182.124 259.255 185.716 255.664 185.716 255.664 182.124 0.807843 0 0 epoly
-1 0 0 0 252.074 178.533 255.664 178.533 255.664 182.124 252.074 182.124 252.074 178.533 1 0 0 epoly
-1 0 0 0 255.664 178.533 259.255 178.533 259.255 182.124 255.664 182.124 255.664 178.533 1 0.541176 0 epoly
-1 0 0 0 259.255 182.124 262.845 182.124 262.845 185.716 259.255 185.716 259.255 182.124 1 0.501961 0 epoly
-1 0 0 0 262.845 182.124 266.436 182.124 266.436 185.716 262.845 185.716 262.845 182.124 0.843137 1 0.184314 epoly
-1 0 0 0 259.255 178.533 262.845 178.533 262.845 182.124 259.255 182.124 259.255 178.533 0.894118 1 0.133333 epoly
-1 0 0 0 262.845 178.533 266.436 178.533 266.436 182.124 262.845 182.124 262.845 178.533 0.568627 1 0.458824 epoly
-1 0 0 0 266.436 200.083 273.617 200.083 273.617 207.266 266.436 207.266 266.436 200.083 0.509804 1 0.517647 epoly
-1 0 0 0 273.617 203.675 277.207 203.675 277.207 207.266 273.617 207.266 273.617 203.675 0.392157 1 0.635294 epoly
-1 0 0 0 277.207 203.675 280.798 203.675 280.798 207.266 277.207 207.266 277.207 203.675 0.419608 1 0.607843 epoly
-1 0 0 0 273.617 200.083 277.207 200.083 277.207 203.675 273.617 203.675 273.617 200.083 0.376471 1 0.65098 epoly
-1 0 0 0 277.207 200.083 280.798 200.083 280.798 203.675 277.207 203.675 277.207 200.083 0.392157 1 0.635294 epoly
-1 0 0 0 266.436 196.491 270.026 196.491 270.026 200.083 266.436 200.083 266.436 196.491 0.713725 1 0.313725 epoly
-1 0 0 0 270.026 196.491 273.617 196.491 273.617 200.083 270.026 200.083 270.026 196.491 0.458824 1 0.568627 epoly
-1 0 0 0 266.436 192.899 270.026 192.899 270.026 196.491 266.436 196.491 266.436 192.899 0.756863 1 0.270588 epoly
-1 0 0 0 270.026 192.899 273.617 192.899 273.617 196.491 270.026 196.491 270.026 192.899 0.45098 1 0.576471 epoly
-1 0 0 0 273.617 196.491 277.207 196.491 277.207 200.083 273.617 200.083 273.617 196.491 0.337255 1 0.690196 epoly
-1 0 0 0 277.207 196.491 280.798 196.491 280.798 200.083 277.207 200.083 277.207 196.491 0.372549 1 0.654902 epoly
-1 0 0 0 273.617 192.899 277.207 192.899 277.207 196.491 273.617 196.491 273.617 192.899 0.352941 1 0.67451 epoly
-1 0 0 0 277.207 192.899 280.798 192.899 280.798 196.491 277.207 196.491 277.207 192.899 0.372549 1 0.654902 epoly
-1 0 0 0 280.798 203.675 284.388 203.675 284.388 207.266 280.798 207.266 280.798 203.675 0.458824 1 0.568627 epoly
-1 0 0 0 284.388 203.675 287.979 203.675 287.979 207.266 284.388 207.266 284.388 203.675 0.482353 1 0.545098 epoly
-1 0 0 0 280.798 200.083 284.388 200.083 284.388 203.675 280.798 203.675 280.798 200.083 0.443137 1 0.584314 epoly
-1 0 0 0 284.388 200.083 287.979 200.083 287.979 203.675 284.388 203.675 284.388 200.083 0.470588 1 0.556863 epoly
-1 0 0 0 287.979 200.083 295.16 200.083 295.16 207.266 287.979 207.266 287.979 200.083 0.494118 1 0.533333 epoly
-1 0 0 0 280.798 196.491 284.388 196.491 284.388 200.083 280.798 200.083 280.798 196.491 0.439216 1 0.588235 epoly
-1 0 0 0 284.388 196.491 287.979 196.491 287.979 200.083 284.388 200.083 284.388 196.491 0.470588 1 0.556863 epoly
-1 0 0 0 280.798 192.899 284.388 192.899 284.388 196.491 280.798 196.491 280.798 192.899 0.435294 1 0.592157 epoly
-1 0 0 0 284.388 192.899 287.979 192.899 287.979 196.491 284.388 196.491 284.388 192.899 0.47451 1 0.552941 epoly
-1 0 0 0 287.979 192.899 295.16 192.899 295.16 200.083 287.979 200.083 287.979 192.899 0.490196 1 0.537255 epoly
-1 0 0 0 266.436 189.308 270.026 189.308 270.026 192.899 266.436 192.899 266.436 189.308 0.662745 1 0.364706 epoly
-1 0 0 0 270.026 189.308 273.617 189.308 273.617 192.899 270.026 192.899 270.026 189.308 0.454902 1 0.572549 epoly
-1 0 0 0 266.436 185.716 270.026 185.716 270.026 189.308 266.436 189.308 266.436 185.716 0.627451 1 0.4 epoly
-1 0 0 0 270.026 185.716 273.617 185.716 273.617 189.308 270.026 189.308 270.026 185.716 0.368627 1 0.658824 epoly
-1 0 0 0 273.617 189.308 277.207 189.308 277.207 192.899 273.617 192.899 273.617 189.308 0.345098 1 0.682353 epoly
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-1 0 0 0 273.617 164.166 280.798 164.166 280.798 171.349 273.617 171.349 273.617 164.166 0.521569 1 0.505882 epoly
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-1 0 0 0 352.609 178.533 381.334 178.533 381.334 207.266 352.609 207.266 352.609 178.533 0.505882 1 0.521569 epoly
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-showpage
-
-%%Trailer
-cleartomark
-countdictstack exch sub { end } repeat
-restore
-%%EOF
diff --git a/doc/tutorial/tutorial.tex b/doc/tutorial/tutorial.tex
deleted file mode 100644
index 4f6cc7f..0000000
--- a/doc/tutorial/tutorial.tex
+++ /dev/null
@@ -1,1295 +0,0 @@
-\documentclass[a4paper]{article}
-\usepackage{hevea}
-\usepackage{color}
-\usepackage{graphicx}
-
-\oddsidemargin=4mm
-\evensidemargin=-1mm
-\topmargin=-7mm
-\textwidth=15.42cm
-\textheight=23.2cm
-
-\newcommand{\gfsweb}{http://gfs.sf.net}
-\newcommand{\htmladdnormallinkfoot}[2]{\footahref{#2}{#1}}
-\newcommand{\htmladdnormallink}[2]{\ahref{#2}{#1}}
-\loadcssfile{tutorial.css}
-
-\title{Gerris tutorial}
-
-\begin{document}
-
-\mbox{}\vspace{1cm}
-\begin{center}
-{\huge The Gerris Tutorial}\\
-{\large Version GFS_VERSION}\\
-\vspace{5mm}
-{\large St\'ephane Popinet\\
-{\tt popinet at users.sf.net}\\
-\vspace{5mm}
-\today}
-\vspace{1cm}
-\end{center}
-
-\tableofcontents 
-
-\section{Introduction}
-
-This tutorial is a step-by-step introduction to the different concepts
-necessary to use Gerris. It is specifically designed for a end-user
-and is not a technical description of the numerical techniques used
-within Gerris. If you are interested by that, you should consult the
-bibliography section on the \htmladdnormallinkfoot{Gerris web
-site}{\gfsweb}.
-
-Various versions of this tutorial are available:
-\begin{itemize}
-\item Printable format: \htmladdnormallinkfoot{PDF}{\gfsweb/tutorial/tutorial.pdf}.
-\item HTML: \htmladdnormallinkfoot{direct link}{\gfsweb/tutorial/tutorial/tutorial1.html} or
-\htmladdnormallinkfoot{compressed archive}{\gfsweb/tutorial/tutorial.tar.gz}.
-\end{itemize}
-
-In this tutorial I will assume that you are familiar with the Unix
-shell (and that you are running some version of a Unix system). Some
-knowledge of C programming would also be very helpful if you intend to 
-extend Gerris with your own objects.
-
-If Gerris is not already installed on your system, have a look at the
-\htmladdnormallinkfoot{installation
-  instructions}{\gfsweb/wiki/index.php/Installation\_summary} on the
-Gerris web site.
-
-We are now ready to start. Just to check that everything is okay try:
-\begin{verbatim}
-% gerris2D -V
-\end{verbatim}
-
-\subsection{Simulation file}
-
-Gerris is a console-based program. It takes a {\em parameter} or {\em
-simulation} file as input and produces various types of files as output.
-Everything needed to run the simulation is specified in the parameter
-file, this includes:
-\begin{itemize}
-\item Layout of the simulation domain
-\item Initial conditions
-\item Boundary conditions
-\item Solid boundaries
-\item What to output (and when)
-\item Control parameters for the numerical schemes
-\end{itemize}
-
-\section{A simple simulation file}
-
-In this section we will see how to write a simulation file for the
-{\em initial random vorticity} example in the Gerris web site
-gallery. First of all, it is always a good idea to run simulations in
-their own directory. Type this at your shell prompt:
-\begin{verbatim}
-% mkdir vorticity
-% cd vorticity
-\end{verbatim}
-As a starting point we will use the following simulation file: {\tt
-vorticity.gfs}
-\begin{verbatim}
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 0 }
-}
-GfsBox {}
-1 1 right
-1 1 top
-\end{verbatim}
-This is a valid simulation file but it does not do much as you can see 
-by typing
-\begin{verbatim}
-% gerris2D vorticity.gfs
-\end{verbatim}
-It is a good starting point however to explain the general structure
-of a simulation file.
-
-\subsection{A few comments on syntax}
-
-First of all, there are two types of parameters in a simulation file:
-{\em compulsory} and {\em optional} parameters. Optional parameters
-are always specified within a {\em braced} block (i.e. a block of text 
-delimited by braces ({\tt \{ like this \}}). They also often take the form
-\begin{verbatim}
-parameter = value
-\end{verbatim}
-where {\tt parameter} is an unique identifier (within this braced
-block). All the other parameters are compulsory parameters.
-For example, in {\tt vorticity.gfs} both
-\begin{verbatim}
-  GfsTime { end = 0 }
-\end{verbatim}
-and
-\begin{verbatim}
-end = 0
-\end{verbatim}
-are optional parameters.
-
-The second important syntax point regards the way various fields are
-delimited. Newline (or ``carriage return'') characters are generally used to
-delimitate different ``objects'' in the simulation file. The only
-case where this rule does not apply is within braced blocks defining
-optional arguments of the form
-\begin{verbatim}
-parameter = value
-\end{verbatim}
-For example, in {\tt vorticity.gfs} the following blocks of text are
-all objects:
-\begin{itemize}
-\item
-\begin{verbatim}
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 0 }
-}
-\end{verbatim}
-\item
-\begin{verbatim}
-  GfsTime { end = 0 }
-\end{verbatim}
-\item
-\begin{verbatim}
-GfsBox {}
-\end{verbatim}
-\item
-\begin{verbatim}
-1 1 right
-\end{verbatim}
-\item
-\begin{verbatim}
-1 1 top
-\end{verbatim}
-\end{itemize}
-Following this rule, {\tt vorticty.gfs} could have been written
-equivalently as:
-\begin{verbatim}
-1 2 GfsSimulation GfsBox GfsGEdge {} { GfsTime {
-  end = 0 }
-}
-GfsBox {}
-1 1 right
-1 1 top
-\end{verbatim}
-
-\subsection{Topology description of the simulation domain}
-
-Ok, so what are all these ``objects'' for?  The first line of the
-simulation file defines a {\em graph} representing the general layout
-of the simulation domain and follows this syntax:
-\begin{description}
-\item[1st field] number of nodes in the graph ({\tt 1})
-\item[2nd field] number of edges connecting the nodes ({\tt 2})
-\item[3rd field] object type for the graph ({\tt GfsSimulation})
-\item[4th field] default object type for the nodes ({\tt GfsBox})
-\item[5th field] object type for the edges ({\tt GfsGEdge})
-\item[6th field] 1st optional parameters (braced block)
-\item[7th field] 2nd optional parameters (braced block)
-\end{description}
-We then jump to the end of the 2nd optional parameters to line
-\begin{verbatim}
-GfsBox {}
-\end{verbatim}
-which describes the first (and unique in this case) node of the
-graph. The first field is the object type of the node ({\tt GfsBox}),
-the second field contains optional parameters.
-The following two lines 
-\begin{verbatim}
-1 1 right
-1 1 top
-\end{verbatim}
-define the edges of the graph as follows:
-\begin{description}
-\item[1st field] index of the starting node ({\tt 1})
-\item[2nd field] index of the ending node   ({\tt 1})
-\item[3rd field] spatial direction in which the two nodes are
-connected ({\tt right} and {\tt top})
-\end{description}
-The nodes are always indexed starting from one. The spatial directions 
-are defined on figure \ref{direction}.
-From this, we see that this file defines a simulation domain
-containing one node (a {\tt GfsBox}) connected with itself in both the
-horizontal ({\tt right}) and vertical ({\tt top}) directions.
-\begin{figure}[htbp]
-\begin{center}
-\includegraphics[width=0.4\hsize]{direction.eps}
-\end{center}
-\caption{Definition of spatial directions}
-\label{direction}
-\end{figure}
-By default, a {\tt GfsBox} is a square (in 2D) or a cube (in 3D) of
-size unity. The first node of the graph is always centered on the
-origin and is used as the reference to position the other nodes.  We
-have consequently defined a square simulation domain of size unity,
-centered on the origin and using periodic boundary conditions.
-
-\subsection{Controlling the simulation}
-
-Now that we have defined the simulation domain and the boundary
-conditions, we need to specify the initial conditions, numerical
-schemes parameters and so on. This is all done within the second
-optional parameters block of the graph definition.
-
-In our file we have for the moment only one object in this block:
-\begin{verbatim}
-  GfsTime { end = 0 }
-\end{verbatim}
-As its name indicate, this object defines the physical and the
-computational time. By ``computational time'' I mean the number of
-time steps performed. By default both the physical time and the time
-step number are zero when the program starts. It is possible to set
-different values using for example
-\begin{verbatim}
-  GfsTime { t = 1.4 i = 32 end = 0 }
-\end{verbatim}
-where {\tt i} is the time step number and {\tt t} is the physical
-time. The {\tt end} identifier specifies that the simulation should
-stop when the physical time reaches the given value. It is also
-possible to stop the simulation when a specified number of time steps
-is reached, using the {\tt iend} identifier. If both {\tt end} and
-{\tt iend} are specified, the simulation stops when either of these
-are reached. By default, both {\tt end} and {\tt iend} values are
-infinite.
-
-Ok, let's then change this object to
-\begin{verbatim}
-  GfsTime { end = 50 }
-\end{verbatim}
-
-\subsubsection{Spatial discretisation}
-
-The next step is to specify what spatial resolution we want for the
-discretisation. For the moment, the only thing we have defined is the
-root of the quad/octree. The whole domain is thus discretised with
-only one grid point\dots
-
-We need to specify how we want to refine this initial root cell. This
-is done by using an {\tt GfsRefine} object. We can do this by adding
-the line
-\begin{verbatim}
-  GfsRefine 6
-\end{verbatim}
-to the second optional parameter block. This is the simplest possible
-way to refine the initial root cell. We tell the program that we want
-to keep refining the cell tree (by dividing each cell in four children
-cells (in 2D, eight in 3D)) until the {\em level} of the cell is equal
-to five. The level of the root cell is zero, the level of all its
-children cells is one and so on recursively. After this refinement
-process completes we have created a regular Cartesian grid with
-$2^6=64$ cells in each dimension on the finest level ($6$).
-
-\subsubsection{Initial conditions}
-
-We now need to specify the initial conditions and the various actions
-(such as writing results, information messages etc\dots) we want to
-perform when the simulation is running. All these things are treated
-by Gerris as various types of {\em events}, all represented by objects
-derived from the same parent object {\tt GfsEvent}.
-
-Initial conditions are a particular type of event happening only once
-and before any other type of event, they are all derived from the same 
-parent object {\tt GfsInit}.
-
-Gerris comes with a few different objects describing various initial
-conditions. As there is no way Gerris could provide all the different
-initial conditions users could think of, Gerris makes it easy for
-users to create their own initialisation objects by extending the {\tt
-GfsInit} object class. In order not to have to recompile (or more
-exactly re-link) the whole code everytime a new class is added, Gerris
-uses dynamically linked {\em modules} which can be loaded at
-runtime. We will see later how to write your own modules. 
-
-For the moment, we will use the default {\tt GfsInit} object. Just add
-the following lines to {\tt vorticity.gfs}:
-\begin{verbatim}
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 50 }
-  GfsRefine 6
-  GfsInit {} {
-    U = (0.5 - rand()/(double)RAND_MAX)
-    V = (0.5 - rand()/(double)RAND_MAX)
-  }
-}
-GfsBox {}
-1 1 right
-1 1 top
-\end{verbatim}
-Using {\tt GfsInit} it is possible to set the initial value of each of
-the simulation variables. By default all variables are set to zero
-initially. In our case we tell Gerris to define the two components of
-the velocity field {\tt U} and {\tt V} as C functions. The standard
-{\tt rand{}} function of the C library returns a (pseudo)-random
-number between 0 and {\tt RAND\_MAX}. The two functions we defined
-thus set the components of the velocities in each cell as random
-numbers between -0.5 and 0.5.
-
-This is a powerful feature of the parameter file. In most cases where Gerris requires a number (such as the {\tt GfsRefine 6} line, a function of space and time can be used instead. For example, a valid parameter file could include:
-\begin{verbatim}
-...
-  GfsRefine 6.*(1. - sqrt (x*x + y*y))
-...
-\end{verbatim}
-which would define a mesh refined in concentric circles.
-
-Using this feature, it is possible to define most initial conditions directly in the parameter file.
-
-\subsubsection{Writing results}
-
-The {\tt vorticity.gfs} file we have now is all Gerris needs to run the
-simulation. However, for this run to be any use, we need to specify
-how and when to output the results. This is done by using another
-class of objects: {\tt GfsOutput}, derived from {\tt GfsEvent}. Gerris
-comes with a number of these objects allowing to output various
-aspects of the simulation.
-
-The general syntax for an {\tt GfsEvent} object is as follows:
-\begin{verbatim}
-GfsEvent {
-          start = 0.5 step = 1e-2 end = 3.4
-          istart = 10 iend = 46
-        }
-\end{verbatim}
-this defines an event:
-\begin{itemize}
-\item starting whenever the physical time is larger
-than (or equal to) 0.5 or the time step number is larger than (or
-equal to) 10,
-\item ending whenever the physical time is strictly larger than 3.4 or 
-the time step number is strictly larger than 46,
-\item and occurring every $10^{-2}$ physical time units.
-\end{itemize}
-It is also possible to specify an event step as a number of time steps 
-using the {\tt istep} identifier. Note, however, that you cannot
-specify both {\tt step} and {\tt istep} for the same event. By
-default, {\tt start} and {\tt istart} are zero and {\tt end}, {\tt
-iend}, {\tt step} and {\tt istep} are infinite.
-
-An {\tt GfsOutput} object is derived from {\tt GfsEvent} and follows this 
-syntax:
-\begin{verbatim}
-GfsOutput {} filename-%d-%f-%ld
-\end{verbatim}
-The first part of the line {\tt GfsOutput \{\}} defines the {\tt
-GfsEvent} part of {\tt GfsOutput} and follows the syntax above. In the
-remainder of this tutorial, I will use the following notation to
-express this inheritance of syntax:
-\begin{verbatim}
-[GfsEvent] filename-%d-%f-%ld
-\end{verbatim}
-to avoid repeating the whole thing for every derived objects.
-
-The second part {\tt filename-\%d-\%f-\%ld} specifies where to output
-things. The {\tt \%d}, {\tt \%f} and {\tt \%ld} characters are
-formatting strings which follow the C language syntax and will be
-replaced every time the event takes place according to:
-\begin{description}
-\item[{\tt \%d}] integer replaced with the current process number (used when
-running the parallel version of Gerris).
-\item[{\tt \%f}] floating-point number replaced with the current
-physical time.
-\item[{\tt \%ld}] (long) integer replaced with the current time step number.
-\end{description}
-Of course, you are free not to specify any of these, in which case the 
-output will just be appended to the same file every time the event
-takes place. There are also two filenames which have a special
-meaning: {\tt stdout} and {\tt stderr}, for the standard output and
-standard error of the shell respectively.
-
-We now add the following to our simulation file:
-\begin{verbatim}
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 50 }
-  GfsRefine 6
-  GfsInit {} {
-    U = (0.5 - rand()/(double)RAND_MAX)
-    V = (0.5 - rand()/(double)RAND_MAX)
-  }  
-  GfsOutputTime            { istep = 10 } stdout
-  GfsOutputProjectionStats { istep = 10 } stdout
-}
-GfsBox {}
-1 1 right
-1 1 top
-\end{verbatim}
-The first line we added tells the program to output information about
-the time every 10 time steps on the standard output. The second line
-outputs statistics about the projection part of the algorithm.
-
-You can now run the code like this:
-\begin{verbatim}
-% gerris2D vorticity.gfs
-\end{verbatim}
-and you should get an output in your console looking like this (you
-can stop the program using {\tt Ctrl-C}):
-\begin{verbatim}
-step:       0 t:      0.00000000 dt:  0.000000e+00
-MAC projection        before     after       rate
-    niter:    0
-    residual.bias:    0.000e+00  0.000e+00
-    residual.first:   0.000e+00  0.000e+00   0.0
-    residual.second:  0.000e+00  0.000e+00   0.0
-    residual.infty:   0.000e+00  0.000e+00   0.0
-Approximate projection
-    niter:    0
-    residual.bias:    0.000e+00  0.000e+00
-    residual.first:   1.050e-14  1.050e-14   0.0
-    residual.second:  1.612e-14  1.612e-14   0.0
-    residual.infty:   7.105e-14  7.105e-14   0.0
-step:      10 t:      0.02190704 dt:  2.801016e-03
-MAC projection        before     after       rate
-    niter:    5
-    residual.bias:   -3.053e-16  1.403e-16
-    residual.first:   3.365e+01  2.949e-05  16.3
-    residual.second:  4.274e+01  4.676e-05  15.6
-    residual.infty:   1.954e+02  3.285e-04  14.3
-Approximate projection
-    niter:    5
-    residual.bias:    9.714e-17  2.874e-16
-    residual.first:   3.322e+01  2.548e-05  16.7
-    residual.second:  4.250e+01  4.062e-05  16.0
-    residual.infty:   1.880e+02  3.380e-04  14.1
-step:      20 t:      0.05278371 dt:  3.531551e-03
-MAC projection        before     after       rate
-    niter:    5
-...
-\end{verbatim}
-The lines starting with {\tt step:} are written by {\tt
-GfsOutputTime}. They give the time step number, corresponding physical
-time and the time step used for the previous iteration.
-
-The other lines are written by {\tt GfsOutputProjectionStats} and give
-you an idea of the divergence errors and convergence rate of the two
-projection steps (MAC and approximate) performed during the previous
-iteration. The various norms of the residual of the solution of the
-Poisson equation are given before and after the projection step. The
-{\tt rate} column gives the average amount by which the divergence is
-reduced by each iteration of the multigrid solver.
-
-Well, numbers are great but what about some images? What we want to 
-do, for example, is output some graphical representation of a given
-scalar field. In 2D, a simple way to do that is to create an image
-where each pixel is coloured according to the local value of the
-scalar. Gerris provides an object to do just that: {\tt GfsOutputPPM}
-which will create a {\sc PPM} (Portable PixMap) image. This object is
-derived from a more general class used to deal with scalar fields:
-{\tt GfsOutputScalar} following this syntax:
-\begin{verbatim}
-[GfsOutput] { v = U min = -1 max = 2.5 }
-\end{verbatim}
-where as before the square brackets express inheritance from the
-parent class. The {\tt v} identifier specifies what scalar field we
-are dealing with, one of:
-\begin{description}
-\item[{\tt U}, {\tt V} (and {\tt W} in 3D)]: components of the velocity.
-\item[{\tt P}]: pressure.
-\item[{\tt C}]: passive tracer.
-\item[{\tt Vorticity}]: vorticity (norm of the vorticity vector in 3D).
-\item[{\tt Velocity}]: norm of the velocity.
-\end{description}
-The {\tt min} and {\tt max} values specify the minimum and maximum
-values this scalar can take. If they are not given, they are computed
-every time the event takes place.
-
-We can now use this in our simulation file:
-\begin{verbatim}
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 50 }
-  GfsRefine 6
-  GfsInit {} {
-    U = (0.5 - rand()/(double)RAND_MAX)
-    V = (0.5 - rand()/(double)RAND_MAX)
-  }  
-  GfsOutputTime            { istep = 10  } stdout
-  GfsOutputProjectionStats { istep = 10  } stdout
-  GfsOutputPPM             { step = 1 } vorticity-%4.1f.ppm { v = Vorticity }
-}
-GfsBox {}
-1 1 right
-1 1 top
-\end{verbatim}
-The code will output every 1 time units a {\sc PPM} image
-representing the vorticity field. The result will be written in files 
-named: {\tt vorticity-00.0.ppm}, {\tt vorticity-01.0.ppm}\dots (if the 
-{\tt \%4.1f} thing is not familiar, consult a C book or try {\tt \% man 
-3 printf}).
-
-If you re-run the program using this new simulation file, you will get
-a number of {\sc PPM} files (51 to be precise) you can then visualise
-with any image editing or viewing tool. I would recommend the very
-good \htmladdnormallinkfoot{ImageMagick toolbox}{http://www.imagemagick.org}. If you
-run a Linux box, these tools are very likely to be already installed
-on your system. Try typing this in your working directory:
-\begin{verbatim}
-% display *.ppm
-\end{verbatim}
-If it works, you should see a small (64x64) image representing the
-initial vorticity field. If you click on it, a menu will
-appear. Select File$\rightarrow$Next and look at the evolution of the
-vorticity field with time (you can also use the space bar and
-backspace key to change back and forth). You might also want to try
-the {\tt animate *.ppm} command. Read the man pages of ImageMagick if
-you want to know more. Note that you can use these tools also while
-Gerris is running (and creating new images). With a bit of patience
-you will get the image on figure \ref{vorticity} at $t=18$ (resolution
-has been increased to $128\times 128$).
-\begin{figure}
-\begin{center}
-\includegraphics[width=0.4\hsize]{vorticity.eps}
-\end{center}
-\caption{Vorticity field for the initial random vorticity problem at
-$t=18$.}
-\label{vorticity}
-\end{figure}
-
-Before we carry on, we are going to make two modifications to the
-simulation file. First of all, it is not really handy to generate one
-file for every image generated. ImageMagick (and most other programs)
-can deal with multiple {\sc PPM} images contained within the same
-file. Secondly, in the sequence of images we generate, a given value
-of the vorticity does not always correspond to the same colour
-(because the minimum and maximum values of the vorticity can vary in
-time). We can fix that like this:
-\begin{verbatim}
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 50 }
-  GfsRefine 6
-  GfsInit {} {
-    U = (0.5 - rand()/(double)RAND_MAX)
-    V = (0.5 - rand()/(double)RAND_MAX)
-  }  
-  GfsOutputTime            { istep = 10   } stdout
-  GfsOutputProjectionStats { istep = 10   } stdout
-  GfsOutputScalarStats     { istep = 10   } stdout { v = Vorticity }
-  GfsOutputPPM             { step = 0.1 } vorticity.ppm {
-    v = Vorticity 
-    min = -10
-    max =  10
-  }
-}
-GfsBox {}
-1 1 right
-1 1 top
-\end{verbatim}
-We have now specified fixed bounds for the vorticity (using the {\tt
-min} and {\tt max} identifiers). Each {\sc PPM} image will be appended to
-the same file: {\tt vorticity.ppm}.
-
-How did I choose the minimum and maximum values for the vorticity? The 
-line {\tt GfsOutputScalarStats \{ istep = 10 \} stdout \{ v = Vorticity
-\}}, writes the minimum, average, standard deviation and maximum
-values of the vorticity. By re-running the simulation and looking at
-these values it is easy to find a suitable range.
-
-\section{A more complex example with solid boundaries}
-
-In this section we will see how to set up a simulation for the flow past 
-a solid body (a half-cylinder) in a narrow channel. While doing that
-we will also encounter new ways of displaying simulation results.
-
-\subsection{Domain geometry and boundary conditions}
-
-What we want is a narrow channel ($4\times 1$ for example). From the
-previous example, we know that we can build it like this:
-\begin{verbatim}
-4 3 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 0 }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-1 2 right
-2 3 right
-3 4 right
-\end{verbatim}
-i.e. four boxes, box 1 connected to box 2 horizontally (to the right),
-box 2 connected to box 3 horizontally and box 3 connected to box 4
-horizontally. Box 1 is centered on the origin and is of size one. All
-the other boxes are positioned accordingly. We now have our $4\times
-1$ rectangular domain.
-
-\subsubsection{Boundary conditions}
-
-What about boundary conditions? By default Gerris assumes that
-boundaries are solid walls with slip conditions for the velocity
-(i.e. the tangential stress on the wall is zero). For the moment we
-then have defined a rectangular box closed on all sides by solid
-walls.
-
-What we really want is to specify an input velocity on the left side
-of the box and some sort of output condition on the right side. We can
-do that like this:
-\begin{verbatim}
-4 3 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 0 }
-}
-GfsBox { left = GfsBoundaryInflowConstant 1 }
-GfsBox {}
-GfsBox {}
-GfsBox { right = GfsBoundaryOutflow }
-1 2 right
-2 3 right
-3 4 right
-\end{verbatim}
-The whole left side of the first (leftmost) box is now defined to be a {\tt
-GfsBoundaryInflowConstant} object and the whole right side of the last
-(rightmost) box a {\tt GfsBoundaryOutflow} object. Again, boundary
-conditions objects are all derived from the {\tt GfsBoundary} object
-and, as initial conditions, new objects can be easily written by the
-user (see also section \ref{morebc}).
-
-We see that {\tt GfsBoundaryInflowConstant} takes one argument which is
-the value of the (constant) normal velocity applied to this
-boundary. All the other variables (pressure, tracer concentration
-etc...) follow a zero gradient condition.
-
-{\tt GfsBoundaryOutflow} implements a simple outflow boundary condition 
-where the pressure is set to zero as well as the gradient of all other quantities.
-
-\subsubsection{Solid boundaries}
-
-We now have an empty ``wind tunnel'' with a constant inlet velocity of
-norm unity. Gerris can deal with arbitrarily complex solid boundaries
-embedded in the quad/octree mesh. The geometry of the solid boundaries
-is described using {\sc GTS} triangulated surfaces. In 2D, using 3D
-triangulated surfaces seems overkill, as 2D curves would be
-enough. However, Gerris being both a 2D and 3D code it deals with 2D
-solid boundaries exactly as with 3D ones, even if the simulation is
-done only on a 2D cross-section.
-
-Creating 3D polygonal surfaces is not an easy job and is clearly
-outside the scope of this tutorial. There are a number of utilities
-you can use to do that, including big commercial {\sc CAD}
-packages. In general, once you have created a polygonal surface with
-one of these tools it should be relatively easy to convert it to the
-file format used by {\sc GTS}. In particular, most {\sc CAD} packages
-can export to the {\sc STL} (stereolithography) format which is easily
-converted to the {\sc GTS} file format using the {\tt stl2gts} utility
-which comes with the library.
-
-This tutorial comes (handily) with one such file:
-\htmladdnormallinkfoot{{\tt half-cylinder.gts}}
-{\gfsweb/half-cylinder.gts}. You can
-visualise the surface it describes using a program
-called
-\htmladdnormallinkfoot{Geomview}{http://www.geomview.org}. To do this,
-you first need to convert the {\sc GTS} file to a format Geomview
-understands. This can be done using the {\tt gts2oogl} utility like
-this:
-\begin{verbatim}
-% gts2oogl < half-cylinder.gts > half-cylinder.oogl
-\end{verbatim}
-({\sc OOGL} is the file format used by Geomview). {\tt gts2oogl} has a
-number of options. You can have a short explanation of what they do by 
-typing:
-\begin{verbatim}
-% gts2oogl -h
-\end{verbatim}
-If you now start geomview like this:
-\begin{verbatim}
-% geomview half-cylinder.oogl
-\end{verbatim}
-and play around with the pan/rotate/zoom functions of Geomview (read the
-manual for details), you should see something like the image on figure 
-\ref{half-cylinder}.
-\begin{figure}[htbp]
-\begin{center}
-\includegraphics[width=0.3\hsize]{half-cylinder.eps}
-\end{center}
-\caption{Geomview representation of {\tt half-cylinder.gts}}
-\label{half-cylinder}
-\end{figure}
-You can notice that this is a proper 3D object, even if we are only
-going to simulate the flow in a 2D cross-section. It is also important 
-that the object is ``tall'' enough so that it spans the entire
-``height'' of the 2D domain, as if we were going to simulate the flow
-around it in a proper 3D channel with a square cross-section. The
-orientation of the surface is also important to define what is inside
-(the solid) and what is outside (the fluid).
-
-We can now insert this object in the simulation domain like this:
-\begin{verbatim}
-4 3 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 0 }
-  GfsSolid half-cylinder.gts
-}
-GfsBox { left = GfsBoundaryInflowConstant 1 }
-GfsBox {}
-GfsBox {}
-GfsBox { right = GfsBoundaryOutflow }
-1 2 right
-2 3 right
-3 4 right
-\end{verbatim}
-add what mesh refinement we want and a few things to output:
-\begin{verbatim}
-4 3 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 9 }
-  GfsRefine 6
-  GfsSolid half-cylinder.gts
-  GfsInit {} { U = 1 }
-  GfsOutputBoundaries {} boundaries
-  GfsOutputTime { step = 0.02 } stdout
-  GfsOutputProjectionStats { step = 0.02 } stdout
-  GfsOutputPPM { step = 0.02 } vorticity.ppm { 
-    min = -100 max = 100 v = Vorticity 
-  }
-  GfsOutputTiming { start = end } stdout
-}
-GfsBox { left = GfsBoundaryInflowConstant 1 }
-GfsBox {}
-GfsBox {}
-GfsBox { right = GfsBoundaryOutflow }
-1 2 right
-2 3 right
-3 4 right
-\end{verbatim}
-I have added a new {\tt GfsOutput} object we haven't seen yet: {\tt
-GfsOutputTiming}. This object writes a summary of the time taken by
-various parts of the solver. You might also have noticed the unusual
-{\tt start = end} bit ; this just specifies that this event will only
-happen once at the end of the simulation.
-
-Another new output object is {\tt GfsOutputBoundaries}. This object
-writes a geometrical summary (in {\sc OOGL}/Geomview format) of the mesh
-used, including boundary conditions, solid boundaries and so on.
-
-We also initialise the velocity field on the whole domain
-to a constant value (1,0,0). We could have left the
-velocity field to its default value of (0,0,0) but, given that we
-impose inflow boundary conditions, it would have meant that the
-initial velocity would have been strongly divergent. Gerris always
-starts a simulation by a projection step (to fix problems like this)
-but it is always a good idea to start with the best possible velocity
-field.
-
-We can now run the code:
-\begin{verbatim}
-% gerris2D half-cylinder.gfs
-\end{verbatim}
-It is going to take a while to complete, but remember that you can
-look at files while they are being generated. The first file which
-will be generated is {\tt boundaries}. If you load it in Geomview, you
-should get something like figure \ref{boundaries} (you probably want
-to disable automatic normalization in Geomview by selecting
-Inspect$\rightarrow$Appearance$\rightarrow$Normalize$\rightarrow$None).
-\begin{figure}[htbp]
-\begin{center}
-\includegraphics[angle=90,width=0.8\hsize]{boundaries.eps}
-\end{center}
-\caption{Representation of boundary conditions and solid boundaries}
-\label{boundaries}
-\end{figure}
-The black lines represent the boundaries between solid cells and fluid 
-cells. If you zoom in on the half-cylinder, you will see that it is
-represented by lines following the grid (it is ``lego-looking''). This 
-does not mean that the ``real'' (i.e. computational) solid boundary is 
-also lego-looking because fluid cells can be cut by the solid
-boundaries, in which case the algorithm properly takes into account
-the corresponding cell geometry.
-
-Each {\tt GfsBoundary} object is colour-coded. From the colours in the
-picture we see that we have indeed an inflow boundary condition on the
-left side (blue) and an outflow boundary condition on the right side
-(green).
-
-You can also load in the full half-cylinder geometry we created
-before: {\tt half-cylinder.oogl} or visualise the {\sc PPM} files using {\tt 
-animate} and {\tt display} as in the previous example. By the way, a
-useful feature of {\tt display} is that you can zoom in by clicking on
-the middle button in the image being displayed.
-
-\subsection{Saving the whole simulation}
-
-Hmm, this simulation is taking quite a while\dots What if we want to
-stop the simulation, make some modifications to the simulation file
-and restart where we left from? Or equivalently, save the whole
-simulation at regular intervals for latter post-processing?
-
-You can do this using the {\tt GfsOutputSimulation} object. Like this
-for example:
-\begin{verbatim}
-GfsOutputSimulation { step = 0.1 } half-cylinder-%3.1f.gfs {
-  variables = U,V,P
-}
-\end{verbatim}
-where {\tt variables} defines which variables you want to save. By
-default all the variables are saved.
-
-If you now re-run the simulation, you will get a new file every 0.1
-time units. This file is a valid simulation file (like {\tt
-half-cylinder.gfs}) and you can use it directly to restart the
-simulation from this point onward. If you edit it, you will see that
-the general structure is the same as usual but for five pretty big
-chunks of data. 
-
-The first chunk starts with {\tt GfsSolid} and is
-just the data contained in {\tt half-cylinder.gts} but this time
-embedded directly into the simulation file. The goal there is to have
-fully self-contained simulations files which you can just move around
-without having to keep track of twenty different files.
-
-The four other chunks are each associated with a {\tt GfsBox} and
-contain both the topology of the corresponding cell tree but also the
-associated physical data, solid boundary definitions etc...
-
-You can of course edit this file, add new outputs and so on and
-restart the simulation from where you left it.
-
-\subsection{Visualisation}
-
-\subsubsection{\label{gfsview}GfsView}
-
-GfsView is a tool written specifically to visualise Gerris simulation
-files. It is still young but fully usable both for 2D and 3D
-simulations. Its main advantage over other options and the reason for
-its existence is that it makes full use of the adaptive nature of the
-octree representation at the visualisation level. The octree structure
-is used within GfsView to dynamically select the appropriate level of
-refinement depending on the viewpoint, zoom and rendering speed. It is
-also used to efficiently compute complex geometrical entities such as
-isosurfaces or cut-planes.
-
-The more classical viewers such as openDX or MayaVi are designed for
-either regular Cartesian grids or fully-unstructured meshes and do not
-take advantage of the octree representation (worse still, the octree
-representation first needs to be converted to Cartesian or
-fully-unstructured meshes before being imported into these programs).
-
-To install GfsView, you need to have the
-\htmladdnormallinkfoot{Gtk+}{http://www.gtk.org} toolkit installed on
-your system. If you are running a Linux machine, Gtk+ is most probably
-already installed. You will also need the
-\htmladdnormallinkfoot{GtkGlExt}{http://gtkglext.sourceforge.net/}
-OpenGL extension to Gtk+.
-
-If you are running a Debian-based system, you can install these packages using
-\begin{verbatim}
-% apt-get install libgtkglext1-dev
-\end{verbatim}
-
-If you then download a recent version of GfsView from the Gerris web
-site (either an official release or a snapshot) and do the now classical:
-\begin{verbatim}
-% gunzip gfsview.tar.gz
-% tar xvf gfsview.tar
-% cd gfsview
-% ./configure --prefix=/home/joe/local
-% make
-% make install
-\end{verbatim}
-you will be able to start GfsView using:
-\begin{verbatim}
-% gfsview2D half-cylinder-0.5.gfs
-\end{verbatim}
-Note that you can also install the most recent GfsView version using
-darcs and {\tt http://gfs.sourceforge.net/darcs/gfsview/gfsview-mainline} as source
-repository (you will also need to install Gerris this way, see section
-\ref{build_darcs} for details).
-
-Clicking on ``Linear'', ``Vectors'' and ``Solid'' in the toolbar and
-changing the vector length by editing the properties of the
-``Vectors'' object (select the object then choose
-``Edit$\rightarrow$Properties'') you should be able to get something
-looking like figure \ref{fig:gfsview}. You can pan by dragging the right
-mouse button, zoom by dragging the middle button and rotate by
-dragging the left button.
-\begin{figure}[htbp]
-\begin{center}
-%% \htmlimage{scale=2.0,external,thumbnail=1}
-\includegraphics[width=\hsize]{gfsview.eps}
-\end{center}
-\caption{Screenshot of a GfsView session.}
-\label{fig:gfsview}
-\end{figure}
-
-While by no means complete, you can already do many things with
-GfsView. I hope it is fairly user-friendly so just play with it and
-discover for yourself.
-
-\subsubsection{Some post-processing using {\tt gfs2oogl}}
-
-Gerris comes with a utility called {\tt gfs2oogl} which converts
-simulation files to various representations in {\sc OOGL} format. We are
-just going to look at two types of representations {\tt gfs2oogl} can
-do: scalar field cross-sections and vector fields.
-
-First of all, you can access a small summary of the options of {\tt
-gfs2oogl} by typing:
-\begin{verbatim}
-% gfs2oogl2D -h
-\end{verbatim}
-By default {\tt gfs2oogl} will generate the same output as {\tt
-GfsOutputBoundaries} like this:
-\begin{verbatim}
-% gfs2oogl2D < half-cylinder-0.1.gfs > boundaries.oogl
-\end{verbatim}
-To generate an {\sc OOGL} representation of a scalar field (a coloured square
-for each discretisation cell) do this:
-\begin{verbatim}
-% gfs2oogl2D -S -z 0 -c Vorticity < half-cylinder-0.5.gfs > squares.oogl
-\end{verbatim}
-which tells {\tt gfs2oogl} to do a cross-section for $z = 0$ ({\tt -z
-0}) represented by squares ({\tt -S}) and colored according to the local
-vorticity ({\tt -c Vorticity}).
-To generate a vector field representing the velocity try:
-\begin{verbatim}
-% gfs2oogl2D -V 2 -z 0 < half-cylinder-0.5.gfs > vectors.oogl
-\end{verbatim}
-where {\tt -V 2} specifies that the maximum length of the vector is
-twice the dimension of the smallest cell in the domain.
-
-If you now load all these files in Geomview and do a bit of panning
-and zooming around (and possibly tune things like face shading) you
-should get an image looking like figure \ref{gfs2oogl}.
-\begin{figure}[htbp]
-\begin{center}
-\includegraphics[angle=90,width=0.6\hsize]{gfs2oogl.eps}
-\end{center}
-\caption{Scalar and vector representation generated using {\tt
-gfs2oogl}.}
-\label{gfs2oogl}
-\end{figure}
-
-\subsection{Using dynamic adaptive mesh refinement}
-
-For the moment our simulation is not very well resolved. We could always 
-change the {\tt GfsRefine 6} line to something bigger but it would not
-make really good use of the quadtree approach used in Gerris. A code
-using a simple regular Cartesian grid approach would be faster and
-would produce the same results. Instead we are going to use {\em
-dynamic adaptive mesh refinement}, where the quadtree structure of the 
-discretisation is used to adaptively follow the small structures of
-the flow, thus concentrating the computational effort on the area
-where it is most needed. 
-
-This is done using yet another object class: {\tt GfsAdapt}, also derived 
-from {\tt GfsEvent}. Various criteria can be used to determine where
-refinement is needed. In practice, each criterium will be defined
-through a different object derived from {\tt GfsAdapt}. If several {\tt 
-GfsAdapt} objects are specified in the same simulation file, refinement 
-will occur whenever at least one of the criteria is verified.
-
-For this first example, we will use a simple criterium based on the
-local value of the vorticity. A cell will be refined whenever
-$$
-{|\nabla\times{\bf v}|\Delta x\over\max|{\bf v}|} > \delta,
-$$
-where $\Delta x$ is the size of the cell and $\delta$ is a
-user-defined threshold which can be interpreted as the maximum angular 
-deviation (caused by the local vorticity) of a particle traveling at 
-speed $\max|{\bf v}|$ across the cell. This criterium is implemented
-by the {\tt GfsAdaptVorticity} object.
-
-The general syntax for an {\tt GfsAdapt} object is:
-\begin{verbatim}
-[GfsEvent] { mincells = 1 maxcells = 100000 minlevel = 1 maxlevel = 10 cmax = 1e-2 }
-\end{verbatim}
-where {\tt mincells} specifies the minimum number of cells in the
-domain, {\tt maxcells} the maximum number of cells, {\tt minlevel} the
-level below which it is not possible to coarsen a cell, {\tt maxlevel}
-the level above which it is not possible to refine a cell and {\tt
-  cmax} the maximum cell cost. The default values are 0 for {\tt
-  minlevel} and {\tt mincells} and infinite for {\tt maxlevel} and
-{\tt maxcells}. An important point is that, for the moment, it is not
-possible to dynamically refine solid boundaries. A simple solution to
-this restriction is to always refine the solid boundary with the
-maximum resolution at the start of the simulation and to restrict the
-refinement using the {\tt maxlevel} identifier in {\tt GfsAdapt}.
-
-What happens if the maximum number of cells is reached? The refinement algorithm will keep the number of cells fixed but will minimize the maximum cost over all the cells. This can be used for example to run a constant-size simulation where the cells are optimally distributed across the simulation domain. This would be done by setting {\tt maxcells} to the desired number and {\tt cmax} to zero.
-
-Following this we can modify our simulation file:
-\begin{verbatim}
-4 3 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 9 }
-  GfsRefine 7
-  GfsSolid half-cylinder.gts
-  GfsInit {} { U = 1 }
-#  GfsOutputBoundaries {} boundaries
-  GfsAdaptVorticity { istep = 1 } { maxlevel = 7 cmax = 1e-2 }
-  GfsOutputTime { step = 0.02 } stdout
-  GfsOutputBalance { step = 0.02 } stdout
-  GfsOutputProjectionStats { step = 0.02 } stdout
-  GfsOutputPPM { step = 0.02 } vorticity.ppm {
-    min = -100 max = 100 v = Vorticity
-  }
-  GfsOutputSimulation { step = 0.1 } half-cylinder-%3.1f.gfs {
-    variables = U,V,P
-  }
-  GfsOutputTiming { start = end } stdout
-}
-GfsBox { left = GfsBoundaryInflowConstant 1 }
-GfsBox {}
-GfsBox {}
-GfsBox { right = GfsBoundaryOutflow }
-1 2 right
-2 3 right
-3 4 right
-\end{verbatim}
-We have added two lines and commented out (using {\tt \#}) the line
-outputting the boundaries (we don't need that anymore, we have the
-simulation files).
-
-The first line we added says that we want to refine dynamically the
-mesh through the {\tt GfsAdaptVorticity} object applied every timestep
-({\tt istep = 1}). The $\delta$ parameter ({\tt cmax}) is set to $10^{-2}$.
-
-The second line we added is a new {\tt GfsOutput} object which displays 
-the ``balance'' of the domain sizes across the different processes
-(when Gerris is ran in parallel). We will use this to monitor how the
-number of cells evolves with time as the simulation refines or
-coarsens the mesh according to our vorticity criterium.
-
-We can now run this new simulation. If the previous simulation did not
-complete yet, don't be afraid to abort it ({\tt Ctrl-C}), this one is going to
-be better (and faster).
-\begin{verbatim}
-% gerris2D half-cylinder.gfs
-\end{verbatim}
-If we now look at the balance summary written by {\tt
-GfsOutputBalance}, we see that initially ({\tt step: 0}) the total
-number of cells (on all levels) is 86966, which corresponds to a
-constant resolution of $4\times 2^7\times 2^7=512\times 128$. At step
-10 the number of cells is down to 990 with a corresponding increase in 
-computational speed. If we now look at the first simulation file we
-saved, using:
-\begin{verbatim}
-% gfs2oogl2D < half-cylinder-0.1.gfs > boundaries
-% gfs2oogl2D -S -z 0 -c Vorticity < half-cylinder-0.1.gfs > squares.oogl
-\end{verbatim}
-we obtain figure \ref{refined1} showing not only the domain boundaries 
-as usual, but also the boundaries (thin black lines) between different
-levels of refinement.
-\begin{figure}[htbp]
-\begin{center}
-\includegraphics[angle=90,width=0.6\hsize]{refined1.eps}
-\end{center}
-\caption{Dynamic adaptive mesh refinement $t=0.1$}
-\label{refined1}
-\end{figure}
-We see that the mesh is very refined around the solid and around the
-two vortices developing at the trailing edge and very coarse (one cell
-per box only) on the downstream part of the domain. If you are not
-sure what these thin black lines represent, just switch on the edge
-representation in Geomview (using the Inspect$\rightarrow$Appearance menu). You
-will get a picture looking like figure \ref{refined1-cells}, showing
-all the cells used for the discretisation.
-\begin{figure}[htbp]
-\begin{center}
-\includegraphics[angle=90,width=0.6\hsize]{refined1_cells.eps}
-\end{center}
-\caption{Dynamic adaptive mesh refinement $t=0.1$. Detail of the cells.}
-\label{refined1-cells}
-\end{figure}
-As the simulation goes on, you can see the number of cells in the
-domain increase as the trailing vortices develop. With a bit of
-patience you will get to figure \ref{refined2} showing the fully
-developed Von Karman vortex street with patches of increased
-resolution following each vortex. Even when the flow is fully
-developed using adaptive mesh refinement still saves a factor of \~{}6 in
-time and memory use. The advantage of adaptive mesh refinement is even
-more obvious in situations where it is necessary to use very large
-domains to avoid any contamination of the solution by the boundary
-conditions.
-\begin{figure}[htbp]
-\begin{center}
-\includegraphics[angle=90,width=0.8\hsize]{refined2.eps}
-\end{center}
-\caption{Dynamic adaptive mesh refinement $t=9$.}
-\label{refined2}
-\end{figure}
-You should also try to {\tt animate vorticity.ppm} which by now should 
-give you a nice animation of the developing trailing vortices becoming 
-unstable and generating the Von Karman street. If ImageMagick is
-properly installed on your system you can also try:
-\begin{verbatim}
-% convert vorticity.ppm vorticity.mpg
-\end{verbatim}
-which will produce a much smaller {\sc MPEG} video file, suitable for
-distribution through the network.
-
-\section{Going further}
-
-\subsection{More on boundary conditions}
-\label{morebc}
-
-Up to now we have only dealt with ``pre-packaged'' boundary conditions
-such as {\tt GfsBoundaryInflowConstant} and {\tt GfsBoundaryOutflow}.
-What if you need more specific boundary conditions?
-
-For most practical problems, boundary conditions can be reduced to two
-main categories: Dirichlet boundary conditions for which the value of
-the variable is set and Neumann boundary conditions for which the
-value of the derivative of the variable is set. As we have seen
-earlier, the default boundary condition in Gerris is Dirichlet (zero)
-for the normal components of the velocity and Neumann (zero) for all
-other variables.
-
-Let us say that we want to impose a Poiseuille (parabolic) profile
-rather than a constant inflow velocity for the half-cylinder problem
-i.e. we want a Dirichlet boundary condition on the normal component of
-the velocity ({\tt U}) with an imposed parabolic profile. This can
-easily be done in Gerris like this:
-\begin{verbatim}
-...
-GfsBox { left = GfsBoundary {
-                  GfsBcDirichlet U { return 1. - 4.*y*y; }
-                  GfsBcDirichlet V 0
-                }
-       }
-GfsBox {}
-GfsBox {}
-GfsBox { right = GfsBoundaryOutflow }
-...
-\end{verbatim}
-Similarly a Neumann boundary condition on variable {\tt X} would use
-{\tt GfsBcNeumann X ...}
-
-\subsection{Adding tracers}
-
-In the half cylinder example, it would be nice to be able to visualise
-the flow using for example a passive tracer injected at the inlet.
-This is very simple, just modify the {\tt half-cylinder.gfs} parameter
-file like this:
-\begin{verbatim}
-4 3 GfsSimulation GfsBox GfsGEdge {} {
-  GfsTime { end = 9 }
-  GfsRefine 7
-  GfsSolid half-cylinder.gts
-  GfsVariableTracer {} T
-  ...
-  GfsOutputPPM { step = 0.02 } tracer.ppm {
-    min = 0 max = 1 v = T
-  }
-  GfsOutputSimulation { step = 0.1 } half-cylinder-%3.1f.gfs {
-    variables = U,V,P,T
-  }
-  ...
-}
-GfsBox { left = GfsBoundary {
-                  GfsBcDirichlet U 1
-                  GfsBcDirichlet V 0
-                  GfsBcDirichlet T { return y > 0. ? 1. : 0.; }
-                } 
-       }
-...
-\end{verbatim}
-which will inject tracer {\tt T} at the inlet only in the upper half
-of the channel.
-
-The adaptive refinement algorithm shoud also take your tracer into account. Try this
-\begin{verbatim}
-  ...
-  GfsAdaptVorticity { istep = 1 } { maxlevel = 7 cmax = 1e-2 }
-  GfsAdaptGradient { istep = 1 } { maxlevel = 7 cmax = 1e-2 } T
-  ...
-\end{verbatim}
-which will adapt using both the gradient of tracer {\tt T} and the vorticity.
-
-You can have any number of tracers you want, they are dynamically
-allocated.
-
-\subsection{Adding diffusion terms}
-
-Up to now, we have only considered inviscid, incompressible flows.
-Without going into the details, this type of problems require the
-solution of two main subproblems: solving a Poisson equation for the
-pressure and an advection equation for the momentum and tracers with
-the corresponding boundary conditions.
-
-Gerris can also solve a third class of subproblems: diffusion
-equations. Diffusion equations are similar to Poisson equations (they
-both involve Laplacian operators) and can be solved efficiently using
-the same multigrid solver we use for the pressure.
-
-In practice adding diffusion to a given tracer is as simple as adding:
-\begin{verbatim}
-  ...
-  GfsSourceDiffusion {} T 0.01
-  ...
-\end{verbatim}
-to the parameter file, where 0.01 is the value of the diffusion
-coefficient.
-
-\subsubsection{\label{diffusionbc}Boundary conditions for diffusion terms}
-
-What if we want to modify the tracer example above so that now the
-half-cylinder itself is a (diffusive) source of tracer rather than the
-inlet? We need to be able to impose this boundary condition on the
-embedded solid surface. On embedded solids, the default boundary
-conditions for the diffusion equation is Neumann (zero flux) for
-tracers and Dirichlet (no-slip) for the velocity components. To change
-that use
-\begin{verbatim}
-  ...
-  GfsVariableTracer T
-  GfsSourceDiffusion {} T 0.001
-  GfsSurfaceBc T Dirichlet 1
-  ...
-\end{verbatim}
-and change the inlet boundary condition back to
-\begin{verbatim}
-  ...
-  GfsBox { left = GfsBoundary {
-                  GfsBcDirichlet U 1
-                  GfsBcDirichlet V 0
-                } 
-       }
-  ...
-\end{verbatim}
-
-\subsection{Outputs}
-
-\subsection{Boundary conditions}
-
-\section{Running Gerris in parallel}
-
-\section{Learning more}
-
-While this tutorial should give you a good overview of Gerris, it is
-by no means a complete description. To learn more you should first
-consult the \htmladdnormallinkfoot{Gerris Frequently Asked Questions}{\gfsweb/wiki/index.php/FAQ} and the
-\htmladdnormallinkfoot{Gerris object hierarchy}{\gfsweb/wiki/index.php/Object\_hierarchy} which describes each
-object and the corresponding file parameters in more detail.
-
-You should also have a look at the \htmladdnormallinkfoot{Gerris
-  Examples}{\gfsweb/examples/examples} page for examples of how to
-use Gerris for a range of problems. The parameter files are
-cross-linked with the reference manual.
-
-Another source of more advanced examples is the \htmladdnormallinkfoot{Gerris test suite}{\gfsweb/tests/tests/index.html}.
-
-If things are still unclear you can ask for help on the
-\htmladdnormallinkfoot{{\tt gfs-users} mailing
-  list}{\gfsweb/mailinglists.html}. Please note that you
-first need to subscribe to the list to be able to post messages.
-
-\section{Do you want to help?}
-
-The idea behind Gerris and other free software projects is that
-transparency, free exchange of information and cooperation benefit
-individuals but also society as a whole. If you are a scientist, you
-know that these same principles are also keys to the efficiency of
-Science.
-
-Helping with Gerris development can be done in various ways and aside
-from giving you this altruistic, warm fuzzy feeling of helping others
-will also benefit you directly. A few concrete simple ways of helping
-are (in approximate order of difficulty):
-\begin{itemize}
-\item Use the code, comment on the problems you find, what you like, don't like about it.
-\item Share your results with other Gerris users, write a web page
-  about the problem you solved using Gerris etc\dots
-\item If you publish papers using Gerris, send me the reference. It is
-  very useful to be able to show evidence of wider usage when seeking
-  continued funding for the project.
-\item Also, if Gerris capabilities are central to your article feel
-  free to ask me to be a co-author on your paper\dots
-\item Have a look at the Gerris internals (write your own modules) and share them with us.
-\item Think of ways to extend Gerris for your own problems, implement
-  them and share them with us (you can count on my and other
-  developers' help).
-\end{itemize}
-
-\end{document}
diff --git a/doc/tutorial/vorticity.png b/doc/tutorial/vorticity.png
deleted file mode 100644
index 5304c64..0000000
Binary files a/doc/tutorial/vorticity.png and /dev/null differ
diff --git a/modules/CW263.f b/modules/CW263.f
deleted file mode 100644
index 854a484..0000000
--- a/modules/CW263.f
+++ /dev/null
@@ -1,887 +0,0 @@
-      program CW263
-c
-c   Stream function wave theory code:
-c   * automatic selection of order
-c   * uniform current
-c   * returns proportion of limiting height
-c   j.r.chaplin at soton.ac.uk
-c
-c   Subroutine cw260 solves the wave.  Kinematics are then available
-c   through subtroutine kmts as illustrated below in the main program.
-c   Stores results in CW263.PSI in a format compatible with that used
-c      by CW6.FOR (24/3/99)
-c
-      character ans*1
-c
-   10 write(*,'(a)') ' Water depth (m)   = '
-      read*,d
-      write(*,'(a)') ' Period      (s)   = '
-      read*,t
-      write(*,'(a)') ' Wave height (m)   = '
-      read*,h
-      write(*,'(a)') ' Current     (m/s) = '
-      read*,u
-      nverb= 1
-c
-      call cw260(d,t,h,u,nverb,n,el)
-c
-   20 write(*,'(/a)')
-     :  ' (H)orizontal, (V)ertical, (S)urface, (N)ew wave, (Q)uit : '
-      read(*,'(a)') ans
-      goto (20,21,22,23,10,29) (index('HhVvSsNnQq',ans)+3)/2
-c
-c   Horizontal
-c
-   21 write(*,'(a)') ' y (m) = '
-      read*,yy
-      npt= 21
-      write(*,3)
-      do 31 i=1,npt
-      xx= el*(i-1)/float(npt-1)
-      tt= 0.0
-      call kmts(n,xx,yy,tt,uu,vv,ut,vt,du,dv,etah)
-      ans= ' '
-      if (yy.gt.etah) ans='*'
-   31 write(*,'(f9.3,8f8.3,1x,a)') xx,yy,uu,vv,ut,vt,du,dv,etah,ans
-      goto 20
-c
-c   Vertical
-c
-   22 write(*,'(a)') ' x/L = '
-      read*,xl
-      xx= xl*el
-      yy= 0.0
-      tt= 0.0
-      call kmts(n,xx,yy,tt,uu,vv,ut,vt,du,dv,etah)
-      npt= 21
-      write(*,3)
-      do 32 i=1,npt
-      yy= (d+etah)*(npt-i)/float(npt-1)-d
-      call kmts(n,xx,yy,tt,uu,vv,ut,vt,du,dv,etah)
-   32 write(*,'(f9.3,8f8.3,1x,1a)') xx,yy,uu,vv,ut,vt,du,dv,etah
-      goto 20
-c
-c   Free surface
-c
-   23 npt= 21
-      write(*,3)
-      do 33 i=1,npt
-      xx= el*(i-1)/float(npt-1)
-      yy= h
-      tt= 0.0
-      call kmts(n,xx,yy,tt,uu,vv,ut,vt,du,dv,etah)
-   33 write(*,'(f9.3,8f8.3)') xx,etah,uu,vv,ut,vt,du,dv,etah
-      goto 20
-c
-   29 stop
-    3 format('      x       y       u       v      ut   ',
-     :  '   vt      du      dv      eta')
-      end
-c
-c
-c
-      subroutine cw260(zd,zt,zh,zu,nverb,nfun,zel)
-c
-c  Input:  zd=depth; zt=period; zh=height; u=current; nverb=verbosity
-c  Output: nfun=order; zel=wavelength
-c
-      implicit double precision (a-h,o-z)
-      parameter (nmax=25)
-      real zd,zt,zh,zu,zel
-      double precision k
-      character itl*79,datim*22
-      common /one/ d,t,h,u,k
-     :       /two/ eta(nmax),c(nmax),amp(0:nmax)
-c
-      pi= 4*atan(1.0)
-c
-      d= zd
-      t= zt
-      hw= zh
-      u= zu
-c
-c  Get required solution order
-c
-      call wavecel(t,d,u,tr,cel)
-      call limit(hw,d,tr,rat,1)
-      dl0= d/(9.81*t*t/(2*pi))
-      a= 0.86/sqrt(dl0)
-      b= 7+2.2*log(dl0)
-      cc= 2.7-3*log(dl0)
-      nve= nint((a+b*rat+cc*rat**2)/2)*2
-      nve= nve+2
-      hb= hw/rat
-c
-      k= 2*pi/(cel*t)
-c
-c  Start with height=<Hb/2
-c    First step up orders; then heights ...
-c
-      if (nverb.ne.0) write(*,'(/2a)')
-     :   '      d       T       H       U    order  iter  ',
-     :   'rms error  code      L'
-      nfun = 6
-      h= min(hw,0.5*hb)
-      do 10 i=0,nmax
-   10 amp(i)= 0.0
-      amp(1)= h/2
-   12 continue
-      call cw261(nfun,iter,fsumsq,ifail)
-      if (ifail.eq.0) then
-         el= 2*pi/k
-         if (nverb.ne.0) write(*,'(a,4f8.3,i5,i7,1p1e12.3,0p,i5,f10.3)')
-     :      ' ',d,t,h,u,nfun,iter,fsumsq,ifail,el
-      else
-         if (nverb.ne.0) write(*,'(a,4f8.3,i5,i7,1p1e12.3,0p,i5)')
-     :      ' ',d,t,h,u,nfun,iter,fsumsq,ifail
-         stop
-      endif
-      if (nfun.lt.nve) then
-         nfun= nfun+2
-         goto 12
-      endif
-c
-      if (hw.gt.0.5*hb) then
-         fac= 1.1
-   11    hm= h
-         if (h*fac.gt.hw) then
-            h= hw
-            ilast= 1
-         else
-            h= h*fac
-            ilast= 0
-         endif
-         do 14 i=1,nfun-1
-   14    amp(i)= (h/hm)*amp(i)
-         call cw261(nfun,iter,fsumsq,ifail)
-         if (ifail.eq.0) then
-            el= 2*pi/k
-            if (nverb.ne.0)
-     :         write(*,'(a,4f8.3,i5,i7,1p1e12.3,0p,i5,f10.3)')
-     :         ' ',d,t,h,u,nfun,iter,fsumsq,ifail,el
-         else
-            if (nverb.ne.0) write(*,'(a,4f8.3,i5,i7,1p1e12.3,0p,i5)')
-     :         ' ',d,t,h,u,nfun,iter,fsumsq,ifail
-            stop
-         endif
-         if (ilast.ne.1) then
-            fac= 0.995*fac
-            goto 11
-         endif
-      endif
-      zel= 2*pi/k
-c
-c$$$      open(12,file='cw263.psi')
-c$$$      itl= 'Solved by CW263'
-c$$$      datim= 'Space for date & time:'
-c$$$      ver= 5.01
-c$$$      el0= 9.81*zt**2/(2*pi)
-c$$$      hl0= zh/el0
-c$$$      dl0= zd/el0
-c$$$      wl0= zel/el0
-c$$$      write(12,101) itl,datim,ver,hl0,dl0,wl0,zh,zd,zt,nfun-1,zu
-c$$$      write(12,102) (eta(i),c(i+1),i=1,nfun-1),eta(nfun)
-c$$$      write(12,107) (amp(i)/zh,i=0,nfun-1)
-c$$$      close(12)
-c
-  101 format(a/a,f10.2/3f16.10/3f16.10,i5,f16.10)
-  102 format(1p2e25.16)
-  107 format(1p1e25.16)
-c
-      return
-      end
-c
-c
-c
-      subroutine cw261(nfun,iter,fsumsq,ifail)
-      implicit double precision (a-h,o-z)
-      parameter (nmax=25)
-      double precision k
-      dimension x(nmax),f(nmax),etas(2*nmax),bb(0:nmax)
-      common /one/ d,t,h,u,k
-     :       /two/ eta(nmax),c(nmax),amp(0:nmax)
-c
-      pi= 4*atan(1.0)
-c
-      do 10 i=1,nfun-2
-      th= (i-1)*pi/(nfun-1)
-      x(i)= 0.0
-      do 10 j=1,nfun-1
-   10 x(i)= x(i)+cos(j*th)*amp(j)
-      x(nfun-1)= k
-      jverb= 0
-      call gaf(nfun,nfun-1,x,f,fsumsq,jverb,iter,ifail)
-      if (ifail.eq.1) return
-      k= x(nfun-1)
-      do 11 i=1,nfun
-   11 etas(i)= eta(i)
-      do 12 i=1,nfun-1
-   12 etas(nfun+i)= eta(nfun-i)
-      call four(etas,2*nfun-2,amp,bb,nfun-1)
-      amp(nfun)= 0.0
-      bb(nfun)= 0.0
-      return
-      end
-c
-c
-c
-      subroutine lsfun(nfun,x,f,jac,sq,ifail)
-c
-c  Computes function errors and Jacobian
-c  x(1:nfun-1) = unknowns,  f(1:nfun) = functions
-c
-      implicit double precision (a-h,o-z)
-      parameter (nmax=25)
-      double precision k,jac,ks
-      dimension x(nmax),f(nmax),jac(nmax,nmax)
-      dimension dex(nmax,nmax),th(nmax),s(nmax),
-     :	chcs(nmax,nmax),chsn(nmax,nmax),shcs(nmax,nmax),shsn(nmax,nmax),
-     :	fu(nmax,nmax),df(nmax,nmax),a(nmax),da(nmax,nmax),
-     :  dax(nmax,nmax),dcx(nmax,nmax),dfx(nmax,nmax),
-     :	us(nmax),vs(nmax),dux(nmax,nmax),dvx(nmax,nmax)
-      common /one/ d,t,h,u,k
-     :       /two/ eta(nmax),c(nmax),amp(0:nmax)
-c
-      pi= 4*atan(1.0d0)
-      g= 9.81d0
-      ifail= 0
-      om= 2*pi/t
-c
-c  Get surface elevations
-c
-      do 40 i=1,nfun-2
-   40 eta(i)= x(i)
-      eta(nfun)= eta(1)-h
-      sm= 0.0
-      do 10 i=2,nfun-2
-   10 sm= sm+eta(i)
-      eta(nfun-1)= -sm-(eta(1)+eta(nfun))/2
-      do 11 i=2,nfun
-      if (eta(i).gt.eta(i-1)+5*h/nfun) then
-	 ifail= 1
-c        write(*,'(7f11.3)') (eta(m),m=1,nfun-1)
-	 return
-      endif
-   11 continue
-      k= x(nfun-1)
-c
-c  Get dex(i,j) = d(eta(i))/d(eta(j)), 1 <= j <= nfun-2
-c
-      do 18 i=1,nfun
-      dex(i,nfun-1)= 0.0d0
-      do 18 j=1,nfun-2
-      if (i.lt.nfun-1) then
-	 if (i.eq.j) then
-	    dex(i,j)= 1.0d0
-	 else
-	    dex(i,j)= 0.0d0
-	 endif
-      else if (i.eq.nfun-1) then
-	 dex(i,j)= -1.0d0
-      else if (i.eq.nfun) then
-	 if (j.eq.1) then
-	    dex(i,j)= 1.0d0
-	 else
-	    dex(i,j)= 0.0d0
-	 endif
-      endif
-   18 continue
-c
-c  Set some useful functions
-c
-      do 23 i=1,nfun
-      th(i)= pi*(i-1)/float(nfun-1)
-      s(i)= d+eta(i)
-      ks= k*s(i)
-      do 23 n=1,nfun
-      ch= cosh(n*ks)
-      sh= sinh(n*ks)
-      cs= cos(n*th(i))
-      sn= sin(n*th(i))
-      chcs(i,n)= ch*cs
-      shsn(i,n)= sh*sn
-      chsn(i,n)= ch*sn
-   23 shcs(i,n)= sh*cs
-c
-c  Get normalised stream function coefficients a(j)
-c
-      do 12 i=1,nfun
-      fu(i,1)= k*s(i)
-      df(i,1)= k
-      do 12 j=2,nfun
-      n= j-1
-      fu(i,j)= shcs(i,n)
-   12 df(i,j)= chcs(i,n)*n*k
-      call trans2(nfun,fu,df,a,da)
-c
-c  Get dax(i,j) = d(a(i))/d(eta(j)), 1 <=j <= nfun-2
-c
-      do 41 i=1,nfun
-      do 41 j=1,nfun-2
-      dij= 0.0
-      do 42 n=1,nfun
-   42 dij= dij+da(i,n)*dex(n,j)
-   41 dax(i,j)= dij
-c
-c   Get dax(i,nfun-1) = d(a(i))/dk
-c
-      do 19 i=1,nfun
-      sm= 0.0
-      do 13 m=1,nfun
-   13 sm= sm+da(i,m)*s(m)/k
-   19 dax(i,nfun-1)= sm
-c
-c  De-normalise to get correct reverse mean flow
-c
-      a1k2= a(1)*k**2
-      r= (u*k-om)/a1k2
-      do 24 i=1,nfun
-      c(i)= a(i)*r
-      do 24 j=1,nfun-1
-      drx= -(u*k-om)*dax(1,j)*(k/a1k2)**2
-      if (j.eq.nfun-1) then
-         drx= drx+u/a1k2-2*a(1)*k*(u*k-om)/a1k2**2
-      endif
-   24 dcx(i,j)= r*dax(i,j)+a(i)*drx
-c
-c  Get surface velocities and functions
-c
-      do 14 i=1,nfun
-      su= k*c(1)
-      sv= 0.0d0
-      do 15 n=1,nfun-1
-      su= su+n*k*c(n+1)*chcs(i,n)
-   15 sv= sv+n*k*c(n+1)*shsn(i,n)
-      us(i)= su
-   14 vs(i)= sv
-      sm= 0.0d0
-      do 16 i=1,nfun
-      f(i)= (us(i)**2+vs(i)**2)/(2*g)+eta(i)
-   16 sm= sm+f(i)
-      sm= sm/float(nfun)
-      sq= 0.0d0
-      do 17 i=1,nfun
-      f(i)= f(i)-sm
-   17 sq= sq+f(i)**2
-      sq= sqrt(sq/nfun)/h
-c
-c  Get d(u(i))/d(eta(j)) and d(u(i))/dk
-c
-      do 20 i=1,nfun
-      do 21 j=1,nfun-2
-      su= k*dcx(1,j)
-      sv= 0.0d0
-      do 22 n=1,nfun-1
-      su= su+n*k*dcx(n+1,j)*chcs(i,n)+(n*k)**2*c(n+1)*shcs(i,n)*dex(i,j)
-   22 sv= sv+n*k*dcx(n+1,j)*shsn(i,n)+(n*k)**2*c(n+1)*chsn(i,n)*dex(i,j)
-      dux(i,j)= su
-   21 dvx(i,j)= sv
-      j= nfun-1
-      su= c(1)+k*dcx(1,j)
-      sv= 0.0d0
-      do 25 n=1,nfun-1
-      su= su+(c(n+1)+k*dcx(n+1,j))*n*chcs(i,n)+
-     :	    n**2*k*s(i)*c(n+1)*shcs(i,n)
-   25 sv= sv+(c(n+1)+k*dcx(n+1,j))*n*shsn(i,n)+
-     :	    n**2*k*s(i)*c(n+1)*chsn(i,n)
-      dux(i,j)= su
-   20 dvx(i,j)= sv
-c
-c  Get derivatives of functions
-c
-      do 44 i=1,nfun
-      do 44 j=1,nfun-1
-   44 dfx(i,j)= (us(i)*dux(i,j)+vs(i)*dvx(i,j))/g+dex(i,j)
-c
-      do 45 j=1,nfun-1
-      sm= 0.0
-      do 46 i=1,nfun
-   46 sm= sm+dfx(i,j)
-      sm= sm/nfun
-      do 45 i=1,nfun
-   45 jac(i,j)= dfx(i,j)-sm
-c
-      return
-      end
-c
-c
-c
-      subroutine trans2(n,f,df,a,da)
-c
-c  Gramm-Schmidt orthogonalisation with derivatives
-c
-      implicit double precision (a-h,o-z)
-      parameter (nmax=25)
-      dimension f(nmax,nmax),df(nmax,nmax),a(nmax),da(nmax,nmax)
-      dimension c(nmax,nmax),b(nmax),cr(nmax,nmax),g(nmax,nmax),
-     :   dly(nmax),dc(nmax,nmax),br(nmax,nmax),db(nmax)
-      do 10 i=1,n
-      do 10 j=1,n
-   10 c(i,j)= 0.0d0
-c
-      st= 0.0d0
-      do 54 i=1,n
-   54 st= st+f(i,1)**2
-      st= dsqrt(st)
-c
-      do 16 i=1,n
-   16 g(i,1)= f(i,1)/st
-      c(1,1)= st
-      do 18 k=2,n
-      km= k-1
-      do 29 j=1,km
-      st= 0.0d0
-      do 20 i=1,n
-   20 st= st+g(i,j)*f(i,k)
-   29 c(j,k)= st
-      c(k,k)= 1.0d0
-      do 21 i=1,n
-      st= 0.0d0
-      do 22 j=1,km
-   22 st= st+c(j,k)*g(i,j)
-   21 g(i,k)= f(i,k)-st
-      st= 0.0d0
-      do 50 i=1,n
-   50 st= st+g(i,k)**2
-      st= dsqrt(st)
-      do 52 i=1,n
-   52 g(i,k)= g(i,k)/st
-      c(k,k)= st
-      do 200 j=1,km
-      st= 0.0d0
-      do 202 i=1,n
-  202 st= st+g(i,j)*g(i,k)
-  200 db(j)= st
-      do 204 i=1,n
-      st= 0.0d0
-      do 206 j=1,km
-  206 st= st+db(j)*g(i,j)
-  204 g(i,k)=g(i,k)-st
-   18 continue
-      do 24 j=1,n
-      st= 0.0d0
-      do 26 i=1,n
-   26 st= st+g(i,j)
-   24 b(j)= st
-      st= 0.0d0
-      do 208 i=1,n
-      sb= 0.0d0
-      do 210 j=1,n
-  210 sb= sb+b(j)*g(i,j)
-  208 st= st+(sb-1.0d0)**2
-      call trinv(n,c,cr)
-      do 28 i=1,n
-      st= 0.0d0
-      do 30 j=1,n
-   30 st= st+cr(i,j)*b(j)
-   28 a(i)= st
-      st= 0.0d0
-      do 72 i=1,n
-      sb= 0.0d0
-      do 74 j=1,n
-   74 sb= sb+a(j)*f(i,j)
-   72 st= st+(sb-1.0d0)**2
-      st= dsqrt(st/float(n))
-      do 80 k=1,n
-      do 81 i=1,n
-      do 81 j=1,n
-   81 dc(i,j)= 0.0d0
-      dly(1)= 2.0d0*f(k,1)*df(k,1)
-      dc(1,1)= 0.5d0*dly(1)/c(1,1)
-      do 82 j=2,n
-   82 dc(1,j)= (f(k,j)*df(k,1)+df(k,j)*f(k,1))/c(1,1)
-     :	    -0.5d0*dly(1)*c(1,j)/c(1,1)**2
-      do 84 l=2,n
-      lm= l-1
-      st= 0.0d0
-      do 86 m=1,lm
-   86 st= st+c(m,l)*dc(m,l)
-      dly(l)= 2.0d0*(f(k,l)*df(k,l)-st)
-      dc(l,l)= 0.5d0*dly(l)/c(l,l)
-      if (l.eq.n) goto 84
-      lp= l+1
-      do 85 m=lp,n
-      st= 0.0d0
-      do 90 j=1,lm
-   90 st= st+c(j,m)*dc(j,l)+dc(j,m)*c(j,l)
-   85 dc(l,m)= (f(k,m)*df(k,l)+df(k,m)*f(k,l))/c(l,l)
-     :	    -st/c(l,l)-0.5d0*dly(l)*c(l,m)/c(l,l)**2
-   84 continue
-      do 92 l=1,n
-      do 92 m=1,n
-      st= 0.0d0
-      do 96 j=1,n
-   96 st= st+g(l,j)*dc(j,m)
-   92 br(l,m)= -st
-      do 94 m=1,n
-   94 br(k,m)= br(k,m)+df(k,m)
-      do 32 j=1,n
-      sb= 0.0d0
-      do 34 i=1,n
-      st= 0.0d0
-      do 36 l=1,n
-   36 st= st+br(i,l)*cr(l,j)
-   34 sb= sb+st
-   32 db(j)= sb
-      do 38 i=1,n
-      st= db(i)
-      do 40 j=1,n
-   40 st= st-dc(i,j)*a(j)
-   38 dly(i)= st
-      do 42 i=1,n
-      st= 0.0d0
-      do 44 j=1,n
-   44 st= st+cr(i,j)*dly(j)
-   42 da(i,k)= st
-   80 continue
-      return
-      end
-c
-c
-c
-      subroutine trinv(n,c,w)
-c
-c  3-diagonal system solver
-c
-      implicit double precision (a-h,o-z)
-      parameter (nmax=25)
-      dimension c(nmax,nmax),w(nmax,nmax)
-      do 10 i=1,n
-      do 10 j=1,n
-   10 w(i,j)= 0.0d0
-      do 12 jj=1,n
-      j= n+1-jj
-      w(j,j)= 1.0d0
-      if (j.eq.1) goto 12
-      k= j-1
-      do 13 ii=1,k
-      i= k-ii+1
-      sum= 0.0d0
-      do 14 l=1,ii
-      m= n+2-jj-l
-   14 sum= sum+c(i,m)*w(m,j)/c(m,m)
-   13 w(i,j)= -sum
-   12 continue
-      do 16 i=1,n
-      sum= c(i,i)
-      do 16 j=1,n
-   16 w(i,j)= w(i,j)/sum
-      return
-      end
-c
-c
-c
-      subroutine wavecel(ta,d,u,tr,c)
-c
-c  Linear theory C by series approximation for waves on a current u
-c    d  = still water depth
-c    ta = absolute period (fixed reference frame)
-c    tr = relative period (reference frame moving with the current)
-c    c  = celerity (reference frame moving with the current)
-c
-      implicit double precision (a-h,o-z)
-      pi= 4*atan(1.0d0)
-      g= 9.81
-      sigma= 2*pi/ta
-      y= sigma*sigma*d/g
-      a= 1.0/(1.0+y*(0.6667+y*(0.3556+y*(0.1608+y*(0.06321+
-     :	y*(0.02744+y*0.01))))))
-      c= dsqrt((d*g)/(y+a))
-      if (abs(u).lt.1.0d-6) then
-	 tr= ta
-	 return
-      else
-	 el= c*ta
-	 iter= 0
-   10	 tr= el/(el/ta-u)
-         elp= (g*tr**2/(2*pi))*tanh(2*pi*d/el)
-	 del= elp-el
-	 el= el+del*0.4
-	 if (abs(del/el).gt.1.0d-6) then
-	    iter= iter+1
-	    if (iter.eq.100) then
-               write(*,'(a)') ' WAVECEL error'
-	       stop
-	    endif
-	    goto 10
-	 endif
-	 tr= el/(el/ta-u)
-	 c= el/tr
-	 return
-      endif
-      end
-c
-c
-c
-      subroutine slpds(a,b,n,cc)
-c
-c  Linear system solution
-c
-      implicit double precision (a-h,o-z)
-      parameter (nmax=25)
-      dimension a(nmax,nmax),b(nmax),cc(nmax)
-      n1= n-1
-      do 100 k=1,n1
-      c= a(k,k)
-      k1= k+1
-      if (abs(c).lt.1.0d-10) then
-         write(*,'(a,i5)') ' Matrix error 1: ',k
-         stop
-      endif
-      do 4 j=k1,n
-    4 a(k,j)= a(k,j)/c
-      b(k)= b(k)/c
-      do 10 i=k1,n
-      c= a(i,k)
-      do 5 j=k1,n
-    5 a(i,j)= a(i,j)-c*a(k,j)
-   10 b(i)= b(i)-c*b(k)
-  100 continue
-      if (abs(a(n,n)).lt.1.0d-10) then
-         write(*,'(a,i5)') ' Matrix error 2: ',n
-         stop
-      endif
-      b(n)= b(n)/a(n,n)
-      do 200 l=1,n1
-      k= n-l
-      k1= k+1
-      do 200 j=k1,n
-  200 b(k)= b(k)-a(k,j)*b(j)
-      do 300 i=1,n
-  300 cc(i)= b(i)
-      return
-      end
-c
-c
-c
-      subroutine gaf(nf,nv,xc,fvecc,fsumsq,nverb,iter,ifail)
-c
-c   Non-linear system error minimisation
-c   ifail =  0: OK
-c            1: looks hopeless
-c            2: poor convergence
-c
-      implicit double precision (a-h,o-z)
-      parameter (nmax=25)
-      dimension xc(nmax),fvecc(nmax)
-      dimension fjacc(nmax,nmax),
-     :   aa(nmax,nmax),bb(nmax),cc(nmax),xcm(nmax)
-c
-      iter = 0
-      icalls= 0
-      orf= 2.0/nf
-      fsumsm= 100.0
-c
-   15 do 16 i=1,nv
-   16 xcm(i)= xc(i)
-   19 call lsfun(nf,xc,fvecc,fjacc,fsumsq,ifl)
-      icalls= icalls+1
-      if ((fsumsq.gt.fsumsm.and.iter.gt.1).or.ifl.ne.0) then
-         if (orf.lt.0.05) then
-            ifail= 1
-            return
-         endif
-         orf= 0.8*orf
-         iter= max(iter-1,0)
-         do 18 i=1,nv
-   18    xc(i)= xcm(i)
-         fsumsm= 100.0
-         goto 19
-      endif
-      call monit(nf,fvecc,icalls,nverb)
-c
-      do 10 i=1,nv
-      do 10 j=1,nv
-      ra= 0.0d0
-      do 11 l=1,nf
-   11 ra= ra+fjacc(l,i)*fjacc(l,j)
-   10 aa(i,j)= ra
-c
-      do 12 i=1,nv
-      ra= 0.0d0
-      do 13 l=1,nf
-   13 ra= ra+fvecc(l)*fjacc(l,i)
-   12 bb(i)= -ra
-c
-      call slpds(aa,bb,nv,cc)
-c
-      dxmax= 0.0d0
-      do 14 i=1,nv
-      dxmax= max(dxmax,abs(cc(i)))
-   14 xc(i)= xc(i)+orf*cc(i)
-c
-      iter= iter+1
-      fsumsm= fsumsq
-      orf= min(1.0d0,orf*1.1)
-c
-      if (iter.ge.50.and.fsumsq.lt.1.0d-4) then
-         ifail= 2
-         return
-      endif
-      if (iter.ge.50) then
-         ifail= 1
-         return
-      endif
-      if (fsumsq.gt.1.0d-6) goto 15
-      ifail= 0
-      return
-      end
-c
-c
-c
-      subroutine monit(nfun,f,icalls,nverb)
-      implicit double precision (a-h,o-z)
-      double precision k
-      parameter (nmax=25)
-      dimension f(nmax)
-      common /one/ d,t,h,u,k
-     :       /two/ eta(nmax),c(nmax),amp(0:nmax)
-c
-c  Outputs monitoring data
-c
-      if (nverb.eq.0) return
-      sm= 0.0d0
-      do 10 i=1,nfun
-   10 sm=sm+f(i)**2
-      sq= sqrt(sm/nfun)/h
-      write(*,'(/i11,1p1e11.3)') icalls,sq
-      write(*,'(1p7e11.3)') (eta(i),i=1,nfun)
-      return
-      end
-c
-c
-c
-      subroutine limit(h,d,t,rat,nverb)
-      double precision h,d,t,rat
-c
-c  Estimates H/(limiting height for d and t) = rat
-c
-      dimension dl0(18),hl0(18)
-      data dl0/2,0.578,0.440,0.356,0.293,0.243,0.201,0.166,0.1359,
-     :         0.1100,0.0876,0.0686,0.0524,0.0390,0.0277,0.01879,
-     :         0.01168,0.00638/
-      data hl0/0.1682,0.1665,0.1613,0.1531,0.1423,0.1298,0.1159,
-     :         0.1017,0.0873,0.0735,0.0605,0.0487,0.0380,0.0289,
-     :         0.0208,0.01440,0.00911,0.00501/
-      pi= 4*atan(1.0)
-      el0= 9.81*t**2/(2*pi)
-      ha= h/el0
-      da= d/el0
-      if (da.gt.dl0(1)) then
-         rat= ha/hl0(1)
-      else if (da.lt.dl0(18)) then
-         rat= ha/(0.8*da)
-      else
-         do 10 i=2,18
-         if (dl0(i).lt.da) goto 11
-   10    continue
-   11    x1= log(dl0(i))
-         x2= log(dl0(i-1))
-         y1= log(hl0(i))
-         y2= log(hl0(i-1))
-         r= (log(da)-x1)/(x2-x1)
-         hb= exp(y1+r*(y2-y1))
-         rat= ha/hb
-      endif
-c
-c      if (nverb.ne.0.or.rat.gt.1.0) then
-c         write(*,'(a,f5.3)') ' H/Hb              = ',rat
-c      endif
-      if (rat.gt.1.0) stop
-c
-      return
-      end
-c
-c
-c
-      subroutine four(f,n,a,b,nb)
-c
-c  Fourier analysis
-c
-      implicit double precision (a-h,o-z)
-      dimension a(0:nb),b(0:nb),f(n)
-      pi= 4*atan(1.0d0)
-      rn= 2.0d0/n
-      t= 2*pi/n
-      c= cos(t)
-      s= sin(t)
-      vk= 0.0d0
-      vl= -1.0d0
-      do 10 k=0,nb 
-      t= c*vk  
-      ck= t-vl 
-      vl= vk   
-      vk= ck+t 
-      t= ck+ck 
-      ul= 0.0d0
-      um= f(n) 
-      do 12 mm=3,n 
-      m= n+2-mm
-      u0= ul   
-      ul= um   
-   12 um= t*ul-u0+f(m) 
-      a(k)= (ck*um-ul+f(1))*rn 
-   10 b(k)= s*vl*um*rn 
-      a(0)= a(0)*0.5d0
-      if (2*nb.ne.n) return
-      a(nb)= a(nb)*0.5d0
-      b(nb)= 0.0d0
-      return   
-      end
-c
-c
-c
-      subroutine kmts(nfun,xx,yy,tt,uu,vv,ut,vt,du,dv,etah)
-c
-c   Computes
-c        horizontal and vertical velocity components (u,v)
-c        horizontal and vertical local acceleration components (ut,vt)
-c        horizontal and vertical total acceleration components (du,dv)
-c        water surface elevation (etah)
-c   at t=tt; x=xx; y=yy.
-c   If yy>eta kinematics are returned at the free surface
-c
-      implicit double precision (a-h,o-z)
-      real xx,yy,tt,uu,vv,ut,vt,du,dv,etah
-      parameter (nmax=25)
-      double precision k,ks
-      common /one/ d,t,h,u,k
-     :       /two/ eta(nmax),c(nmax),amp(0:nmax)
-      pi=4*atan(1.0d0)
-      om= 2*pi/t
-      theta= k*xx-om*tt
-c
-      etah= 0.0
-      do 11 i=1,nfun-1
-   11 etah= etah+cos(i*theta)*amp(i)
-c
-      ks= k*(d+min(yy,etah))
-      s1= 0.0
-      s2= 0.0
-      s3= 0.0
-      s4= 0.0
-c
-      do 10 i=1,nfun-1
-      ip= i+1
-      ch= cosh(i*ks)
-      sh= sinh(i*ks)
-      cs= cos(i*theta)
-      sn= sin(i*theta)
-      s1= s1+i*ch*cs*c(ip)
-      s2= s2+i*sh*sn*c(ip)
-      s3= s3+i*i*ch*sn*c(ip)
-   10 s4= s4+i*i*sh*cs*c(ip)
-      uu=  u+k*s1
-      vv=  k*s2
-      ut=  k*om*s3
-      vt= -k*om*s4
-      ux= -k*k*s3
-      vx=  k*k*s4
-      uy=  vx
-      vy= -ux
-      du= ut+uu*ux+vv*uy
-      dv= vt+uu*vx+vv*vy
-c
-      return
-      end
-
diff --git a/modules/Makefile.am b/modules/Makefile.am
deleted file mode 100644
index bfa50ab..0000000
--- a/modules/Makefile.am
+++ /dev/null
@@ -1,136 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-SUBDIRS = RStarTree fes2004 wavewatch
-
-AM_CPPFLAGS = -DGFS_MODULES_DIR=\"$(libdir)/gerris\"
-
-INCLUDES = -I$(top_srcdir)/src -I$(includedir) \
-           -DG_LOG_DOMAIN=\"Gfs-modules\" $(GTS_CFLAGS)
-
-if HAS_LIBPROJ
-MAP = libmap2D.la libmap3D.la libmap2D3.la
-endif
-if BUILD_TIDE
-TIDE = libtide2D.la libtide3D.la libtide2D3.la
-endif
-if BUILD_STOKES
-STOKES = libstokes2D.la libstokes3D.la
-endif
-if BUILD_WAVEWATCH
-WAVEWATCH = libwavewatch2D.la
-endif
-
-pkglib_LTLIBRARIES = \
-	$(MAP) \
-	libterrain2D.la \
-	libterrain3D.la \
-	libterrain2D3.la \
-	$(TIDE) \
-	$(STOKES) \
-	$(WAVEWATCH)
-
-bin_PROGRAMS = \
-	xyz2rsurface \
-	rsurfacequery \
-	rsurfacedraw
-
-EXTRA_DIST = \
-	map.mod \
-	tide.mod \
-	terrain.mod \
-	stokes.mod \
-	wavewatch.mod
-
-BUILT_SOURCES = \
-	map.c \
-	tide.c \
-	terrain.c \
-	stokes.c \
-	wavewatch.c
-
-AM_LDFLAGS = $(NO_UNDEFINED)\
-        -version-info $(LT_CURRENT):$(LT_REVISION):$(LT_AGE)\
-	-release $(LT_RELEASE) -export-dynamic
-
-libmap3D_la_SOURCES = map.c
-libmap3D_la_LIBADD = -lproj
-libmap2D_la_SOURCES = map.c
-libmap2D_la_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-libmap2D_la_LIBADD = -lproj
-libmap2D3_la_SOURCES = map.c
-libmap2D3_la_CFLAGS = $(AM_CFLAGS) -DFTT_2D3=1
-libmap2D3_la_LIBADD = -lproj
-
-libterrain3D_la_SOURCES = terrain.c rsurface.c rsurface.h
-libterrain3D_la_LIBADD = -LRStarTree -lcSmRST
-libterrain3D_la_DEPENDENCIES = RStarTree/libcSmRST.la
-
-libterrain2D_la_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-libterrain2D_la_SOURCES = terrain.c rsurface.c rsurface.h
-libterrain2D_la_LIBADD = -LRStarTree -lcSmRST
-libterrain2D_la_DEPENDENCIES = RStarTree/libcSmRST.la
-
-libterrain2D3_la_SOURCES = terrain.c rsurface.c rsurface.h
-libterrain2D3_la_CFLAGS = $(AM_CFLAGS) -DFTT_2D3=1
-libterrain2D3_la_LIBADD = -LRStarTree -lcSmRST
-libterrain2D3_la_DEPENDENCIES = RStarTree/libcSmRST.la
-
-libtide3D_la_SOURCES = tide.c
-libtide3D_la_CFLAGS = $(AM_CFLAGS) $(GSL_CFLAGS)
-libtide3D_la_LIBADD = -Lfes2004 -lfes -lnetcdf $(GSL_LIBS)
-libtide2D_la_SOURCES = tide.c
-libtide2D_la_CFLAGS = $(AM_CFLAGS) $(GSL_CFLAGS) -DFTT_2D=1
-libtide2D_la_LIBADD = -Lfes2004 -lfes -lnetcdf $(GSL_LIBS)
-libtide2D3_la_SOURCES = tide.c
-libtide2D3_la_CFLAGS = $(AM_CFLAGS) $(GSL_CFLAGS) -DFTT_2D3=1
-libtide2D3_la_LIBADD = -Lfes2004 -lfes -lnetcdf $(GSL_LIBS)
-
-libstokes3D_la_SOURCES = stokes.c CW263.f
-libstokes3D_la_CFLAGS = $(AM_CFLAGS)
-libstokes2D_la_SOURCES = stokes.c CW263.f
-libstokes2D_la_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-
-libwavewatch2D_la_SOURCES = wavewatch.c
-libwavewatch2D_la_LIBADD = -Lwavewatch -lwavewatch -L/usr/lib/gcc/i486-linux-gnu/4.2 -lgfortran
-libwavewatch2D_la_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1 \
-  -DW3SRCE=`nm wavewatch/libwavewatch.a | grep w3srce | awk '{ if ($$2 == "T") print $$3; }'` \
-  -DGFSW3INIT=`nm wavewatch/libwavewatch.a | grep gfsw3_init | awk '{ if ($$2 == "T") print $$3; }'`
-libwavewatch2D_la_DEPENDENCIES = wavewatch/libwavewatch.a
-
-xyz2rsurface_SOURCES = xyz2rsurface.c rsurface.c rsurface.h
-xyz2rsurface_LDADD = -LRStarTree -lcSmRST
-xyz2rsurface_CFLAGS = $(AM_CFLAGS)
-xyz2rsurface_DEPENDENCIES = RStarTree/libcSmRST.la
-
-rsurfacequery_SOURCES = rsurfacequery.c rsurface.c rsurface.h
-rsurfacequery_LDADD = -LRStarTree -lcSmRST
-rsurfacequery_CFLAGS = $(AM_CFLAGS)
-rsurfacequery_DEPENDENCIES = RStarTree/libcSmRST.la
-
-rsurfacedraw_SOURCES = rsurfacedraw.c rsurface.c rsurface.h
-rsurfacedraw_LDADD = -LRStarTree -lcSmRST
-rsurfacedraw_CFLAGS = $(AM_CFLAGS)
-rsurfacedraw_DEPENDENCIES = RStarTree/libcSmRST.la
-
-if HAVE_MODULES
-%.c : %.mod
-	@echo "/* $@" > $@
-	@echo " * This is a generated file.  Please modify \`$<'" >> $@
-	@echo " */" >> $@
-	@echo "#line 1 \""$<"\"" >> $@
-	@cat $< >> $@
-else
-%.c : %.mod
-	@echo "/* $@" > $@
-	@echo " * This is a generated file.  Please modify \`$<'" >> $@
-	@echo " */" >> $@
-	@echo "#line 1 \""$<"\"" >> $@
-	@replace="s/g_module_check_init/gfs_init_`basename $< .mod`/g";\
-	 sed $$replace < $< >> $@
-endif
-
-clean-generic:
-	$(RM) $(BUILT_SOURCES)
-
-dist-hook:
-	for file in $(BUILT_SOURCES); do $(RM) $(distdir)/$$file; done
diff --git a/modules/RStarTree/Makefile.am b/modules/RStarTree/Makefile.am
deleted file mode 100644
index ebb7d85..0000000
--- a/modules/RStarTree/Makefile.am
+++ /dev/null
@@ -1,21 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-noinst_LTLIBRARIES = libcSmRST.la
-
-libcSmRST_la_CFLAGS = $(AM_CFLAGS) -D_FILE_OFFSET_BITS=64
-libcSmRST_la_SOURCES = \
-		RStarTree.c \
-		RStarTree.h \
-		RSTInstDel.c \
-		RSTInstDel.h \
-		RSTJoin.c \
-		RSTJoin.h \
-		RSTUtil.c \
-	        RSTUtil.h \
-		RSTInOut.c \
-		RSTInOut.h \
-	        RSTInterUtil.c \
-	        RSTInterUtil.h  \
-	        RSTQuery.c \
-		RSTQuery.h \
-		RSTBase.h
diff --git a/modules/RStarTree/README b/modules/RStarTree/README
deleted file mode 100644
index 672da83..0000000
--- a/modules/RStarTree/README
+++ /dev/null
@@ -1,20 +0,0 @@
-User guide for RStarTree Version R2.xx (VR2.xx)
------------------------------------------------
-
-The files "RStarTree.h", "RSTBase.h" and "libcSmRST.a" should reside in the
-directory, where this README file resides. We will call this directory "dest".
-RStarTree.h is the user interface. RSTBase.h is a private header file included
-by RStarTree.h. Provided that, RSTREE is a typed pointer (not a void).
-
-SYNOPSYS
-
-Compilation:
-#include "dest/RStarTree.h"
-
-Linking:
--Ldest -lcSmRST
-
-The usage of the RStarTree implementation is explained in RStarTree.h.
-You might have a look at dest/src/trst.c as an example as well. trst uses a
-little set implementation also located in dest/src.
-Installation hints you'll find in dest/src/READMEInstall.
diff --git a/modules/RStarTree/RSTBase.h b/modules/RStarTree/RSTBase.h
deleted file mode 100644
index e93fdc6..0000000
--- a/modules/RStarTree/RSTBase.h
+++ /dev/null
@@ -1,216 +0,0 @@
-/* -----  RSTBase.h  ----- */
-#ifndef __RSTBase_h
-#define __RSTBase_h
-
-
-/*** Begin    -----  naming rules for structured types  -----   **********/
-/*
-Non vector types are always called "typ<..>",
-  Exceptions:
-    Side, rstree.
-References to non vector types are always called "ref<..>".
-  Exceptions:
-    RSTREE.
-Vector types are always called <..>Array.
-  Exceptions:
-    RSTName, typpoint, typrect, typfixblock,
-  and the internal arrays of the R*-tree as
-    typpath, typentrynumbs, typpagenrs, typflagarray, typpagecountarr.
-*/
-/***   End    -----  naming rules for structured types  -----   **********/
-
-/* constants */
-
-#define SIZEfixblock 512
-#define maxnum (((SIZEfixblock-2*sizeof(int)) / sizeof(int))-1)
-#define maxentries MaxNumbOfEntriesPerPage
-#define EntryRange (maxentries+sizeof(int))
-
-#define chainlen 42     /* 3^ 40  =  12,157,665,459,056,928,801 */
-
-#define datasuffix ".Data"
-#define dirPDsuffix ".DirPD"
-#define dataPDsuffix ".DataPD"
-
-#define STDMODE 0644
-
-#define paramblocknumb 0
-#define firstPDblocknumb (paramblocknumb+1)
-#define rootblocknumb 0
-
-
-/* types */
-
-typedef typinterval  *refinterval;
-
-typedef char RSTName[MaxNameLength];
-typedef double typpoint[NumbOfDim];
-
-typedef double    ValueArray[EntryRange];
-typedef int       IndexArray[EntryRange];
-typedef byte      ByteArray[EntryRange];
-typedef typrect   RectArray[EntryRange];
-typedef typrect   NbrsArray[EntryRange];
-typedef typpoint  PointArray[EntryRange];
-
-typedef enum {
-             low,
-             high
-             } Side;
-
-typedef struct {
-               typrect    rect;
-               int        ptrtosub;
-               PADDING_32_BITS;
-               typdirinfo info;
-               } typDIRent, *refDIRent;		/* inner entry */
-typedef struct {
-               typrect  rect;
-               typinfo  info;
-               } typDATAent, *refDATAent;	/* data entry */
-typedef union {
-              typDIRent   DIR;
-              typDATAent  DATA;
-              } typentry, *refentry;		/* universal entry */
-	/* If typentry v; Then                  */
-	/*   every access to rect by v.DIR.rect */
-	/* End                                  */
-	/* hope the compiler-designers agree.   */
-
-
-typedef typDIRent   typDIRentries[EntryRange];
-typedef typDATAent  typDATAentries[EntryRange];
-
-
-typedef struct {
-               int            nofentries;
-               PADDING_32_BITS;
-               typDIRentries  entries;		/* 0 .. nofentries-1 !! */
-               } typDIRnode, *refDIRnode;	/* inner node */
-typedef struct {
-               int             nofentries;
-               typDATAentries  entries;		/* 0 .. nofentries-1 !! */
-               } typDATAnode, *refDATAnode;	/* data node */
-typedef union {
-              typDIRnode   DIR;
-              typDATAnode  DATA;
-              } typnode, *refnode;		/* universal node */
-	/* If typnode v; Then                               */
-	/*   every access to nofentries by v.DIR.nofentries */
-	/* End                                              */
-	/* hope the compiler-designers agree.               */
-
-
-typedef refnode  typpath[chainlen+1];		/* 1 .. height !! */
-typedef int      typentrynumbs[chainlen+1];	/* 1 .. height !! */
-typedef int      typpagenrs[chainlen+1];	/* 1 .. height !! */
-typedef boolean  typflagarray[chainlen+1];	/* 1 .. height !! */
-
-typedef byte  typfixblock[SIZEfixblock];
-
-typedef struct {
-               int  childnr;
-               int  nofnumbers;
-               int  number[maxnum+1];		/* 0 + [1 .. maxnum] !! */
-               } typpagedir, *refpagedir;
-
-typedef union {
-              typpagedir   _;			/* call the intrinsics "_" */
-              typfixblock  fixblock;		/* adjust to SIZEfixblock   */
-              } typPDblock, *refPDblock;
-
-typedef int  typpagecountarr[chainlen+1];	/* 1 .. height !! */
-
-typedef struct {
-               boolean         unique;
-               int             height;
-               int             SIZE_DIRnofentries, SIZE_DATAnofentries;
-               int             SIZEinfo;
-               int             direntrylen, dataentrylen;
-               int             nbrsexam;
-               int             reinstpercent;
-               int             minfillpercent;
-               int             dirreinsertqty, datareinsertqty;
-               int             pagelen;
-               int             dirM, dirMwords, dirm;
-               int             dataM, dataMwords, datam;
-               int             maxdim;
-               int             dirpagecount, datapagecount, recordcount;
-               typpagecountarr pagecountarr;
-               } typparameters, *refparameters;
-
-typedef union {
-              typparameters  _;			/* call the intrinsics "_" */
-              typfixblock    fixblock;		/* adjust to SIZEfixblock   */
-              } typparamblock, *refparamblock;
-
-typedef struct { 
-               boolean  countflag;
-               int      dirvisitcount, datavisitcount;
-               int      dirreadcount, datareadcount;
-               int      dirmodifycount, datamodifycount;
-               int      dirwritecount, datawritecount;
-               } typcount, *refcount;
-
-typedef struct {
-               File f;
-               int bl;
-               } typfiledesc;
-
-typedef struct {
-               int            dirnodelen, datanodelen;
-               typpath        N, NInst, NDel;
-               typentrynumbs  E, EInst;
-               typpagenrs     P;
-               typflagarray   Nmodified, ReInsert;
-               typPDblock     dirpagedir, datapagedir;
-               typparamblock  parameters;
-               typcount       count;
-               boolean        RSTDone;
-               PADDING_32_BITS;
-               refnode        helpdirnode, helpdatanode, Ntosplit, Nsibling;
-               typfiledesc    dir, data, dirPD, dataPD;
-               RSTName        dirname;
-               } rstree;
-
-
-/****************************************************************/
-/* begin **** --- types to check for alignment problems --- *****/
-
-typedef
-  typDIRent typ2DIRentries[2];
-typedef
-  typDATAent typ2DATAentries[2];
-typedef
-  struct {
-           int nofentries;
-           PADDING_32_BITS;
-           typ2DIRentries entries;
-         } typDIRnodeOf2;	/* inner node containing 2 entries */
-typedef
-  struct {
-           int nofentries;
-           typ2DATAentries entries;
-         } typDATAnodeOf2;	/* data node containing 2 entries */
-
-typedef
-  typDIRent typ3DIRentries[3];
-typedef
-  typDATAent typ3DATAentries[3];
-typedef
-  struct {
-           int nofentries;
-           PADDING_32_BITS;
-           typ3DIRentries entries;
-         } typDIRnodeOf3;	/* inner node containing 3 entries */
-typedef
-  struct {
-           int nofentries;
-           typ3DATAentries entries;
-         } typDATAnodeOf3;	/* data node containing 3 entries */
-
-/*   end **** --- types to check for alignment problems --- *****/
-/****************************************************************/
-
-
-#endif /* !__RSTBase_h */
diff --git a/modules/RStarTree/RSTInOut.c b/modules/RStarTree/RSTInOut.c
deleted file mode 100644
index df60485..0000000
--- a/modules/RStarTree/RSTInOut.c
+++ /dev/null
@@ -1,226 +0,0 @@
-/* ----- RSTInOut.c ----- */
-
-
-#include "RStarTree.h"
-#include "RSTInOut.h"
-
-
-/* declarations */
-
-/************************************************************************/
-
-void PutNode(RSTREE R,
-             refnode nodeptr,
-             int pagenr,
-             int depth)
-
-{
-  refparameters par;
-  refcount c;
-  
-  par= &(*R).parameters._;
-  
-  if (depth == (*par).height) {
-    WritePage(R,(*R).data,pagenr,nodeptr);
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datawritecount++;
-    }
-  }
-  else {
-    WritePage(R,(*R).dir,pagenr,nodeptr);
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirwritecount++;
-    }
-  }
-}
-    
-/************************************************************************/
-
-void GetNode(RSTREE R,
-             refnode nodeptr,
-             int pagenr,
-             int depth)
-
-{
-  refparameters par;
-  refcount c;
-  
-  par= &(*R).parameters._;
-  
-  if (depth == (*par).height) {
-    ReadPage(R,(*R).data,pagenr,nodeptr);
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datareadcount++;
-    }
-  }
-  else {
-    ReadPage(R,(*R).dir,pagenr,nodeptr);
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirreadcount++;
-    }
-  }
-}
-
-/************************************************************************/
-
-void NewNode(RSTREE R,
-             int depth)
-
-{
-  if ((*R).Nmodified[depth]) {
-    PutNode(R,(*R).N[depth],(*R).P[depth],depth);
-    (*R).Nmodified[depth]= FALSE;
-  }
-  (*R).P[depth]= (*(*R).N[depth-1]).DIR.entries[(*R).E[depth-1]].ptrtosub;
-  GetNode(R,(*R).N[depth],(*R).P[depth],depth);
-}
-
-/************************************************************************/
-
-void ReadPage(RSTREE R,
-              typfiledesc fd,
-              int pagenr,
-              void *block)
-
-{
-  int pnb; /* position or nbytes */
-  
-  pnb= lseek(fd.f,(off_t)pagenr*(off_t)fd.bl,SEEK_SET);
-  if (pnb != -1) {
-    pnb= read(fd.f,block,fd.bl);
-  }
-  if (pnb <= 0) {
-    (*R).RSTDone= FALSE;
-  }
-}
-
-/************************************************************************/
-
-void WritePage(RSTREE R,
-               typfiledesc fd,
-               int pagenr,
-               void *block)
-
-{
-  int pnb; /* position or nbytes */
-  
-  pnb= lseek(fd.f,(off_t)pagenr*(off_t)fd.bl,SEEK_SET);
-  if (pnb != -1) {
-    pnb= write(fd.f,block,fd.bl);
-  }
-  if (pnb <= 0) {
-    (*R).RSTDone= FALSE;
-  }
-}
-
-/************************************************************************/
-
-void GetPageNr(RSTREE R, int *pagenr, int depth)
-
-{ 
-  refparameters par;
-  refpagedir dpd;
-  
-  par= &(*R).parameters._;
-  
-  if (depth == (*par).height) {
-  
-    dpd= &(*R).datapagedir._;
-    
-    if ((*dpd).nofnumbers == 0) {
-      if ((*dpd).childnr == firstPDblocknumb) {
-        (*dpd).number[0]++;
-        *pagenr= (*dpd).number[0];
-      }
-      else {
-        ReadPage(R,(*R).dataPD,(*dpd).childnr,&(*R).datapagedir._);
-        (*dpd).childnr--;
-        *pagenr= (*dpd).number[maxnum];
-        (*dpd).nofnumbers= maxnum - 1;
-      }
-    }
-    else {
-      *pagenr= (*dpd).number[(*dpd).nofnumbers];
-      (*dpd).nofnumbers--;
-    }
-    (*par).datapagecount++;
-  }
-  else {
-  
-    dpd= &(*R).dirpagedir._;
-    
-    if ((*dpd).nofnumbers == 0) {
-      if ((*dpd).childnr == firstPDblocknumb) {
-        (*dpd).number[0]++;
-        *pagenr= (*dpd).number[0];
-      }
-      else {
-        ReadPage(R,(*R).dirPD,(*dpd).childnr,&(*R).dirpagedir._);
-        (*dpd).childnr--;
-        *pagenr= (*dpd).number[maxnum];
-        (*dpd).nofnumbers= maxnum - 1;
-      }
-    }
-    else {
-      *pagenr= (*dpd).number[(*dpd).nofnumbers];
-      (*dpd).nofnumbers--;
-    }
-    (*par).dirpagecount++;
-  }
-  (*par).pagecountarr[depth]++;
-}
-
-/************************************************************************/
-
-void PutPageNr(RSTREE R, int pagenr, int depth)
-
-{
-  refparameters par;
-  refpagedir dpd;
-  
-  par= &(*R).parameters._;
-  
-  if (depth == (*par).height) {
-  
-    dpd= &(*R).datapagedir._;
-    
-    if ((*dpd).nofnumbers == maxnum) {
-      (*dpd).childnr++;
-      WritePage(R,(*R).dataPD,(*dpd).childnr,&(*R).datapagedir._);
-      (*dpd).nofnumbers= 1;
-      (*dpd).number[1]= pagenr;
-    }
-    else {
-      (*dpd).nofnumbers++;
-      (*dpd).number[(*dpd).nofnumbers]= pagenr;
-    }
-    (*par).datapagecount--;
-  }
-  else {
-  
-    dpd= &(*R).dirpagedir._;
-    
-    if ((*dpd).nofnumbers == maxnum) {
-      (*dpd).childnr++;
-      WritePage(R,(*R).dirPD,(*dpd).childnr,&(*R).dirpagedir._);
-      (*dpd).nofnumbers= 1;
-      (*dpd).number[1]= pagenr;
-    }
-    else {
-      (*dpd).nofnumbers++;
-      (*dpd).number[(*dpd).nofnumbers]= pagenr;
-    }
-    (*par).dirpagecount--;
-  }
-  (*par).pagecountarr[depth]--;
-}
-
-/************************************************************************/
diff --git a/modules/RStarTree/RSTInOut.h b/modules/RStarTree/RSTInOut.h
deleted file mode 100644
index 33ea1b9..0000000
--- a/modules/RStarTree/RSTInOut.h
+++ /dev/null
@@ -1,43 +0,0 @@
-/* -----  RSTInOut.h  ----- */
-#ifndef __RSTInOut_h
-#define __RSTInOut_h
-
-
-#include "RStarTree.h"
-
-
-/* declarations */
-
-void PutNode(RSTREE R,
-             refnode nodeptr,
-             int pagenr,
-             int depth);
-
-void GetNode(RSTREE R,
-             refnode nodeptr,
-             int pagenr,
-             int depth);
-
-void NewNode(RSTREE R,
-             int depth);
-
-void ReadPage(RSTREE R,
-              typfiledesc fd,
-              int pagenr,
-              void *block);
-
-void WritePage(RSTREE R,
-               typfiledesc fd,
-               int pagenr,
-               void *block);
-
-void GetPageNr(RSTREE R,
-               int *pagenr,
-               int depth);
-
-void PutPageNr(RSTREE R,
-               int pagenr,
-               int depth);
-
-
-#endif /* !__RSTInOut_h */
diff --git a/modules/RStarTree/RSTInstDel.c b/modules/RStarTree/RSTInstDel.c
deleted file mode 100644
index 2962798..0000000
--- a/modules/RStarTree/RSTInstDel.c
+++ /dev/null
@@ -1,1176 +0,0 @@
-/* ----- RSTInstDel.c ----- */
-
-
-#include "RStarTree.h"
-#include "RSTInstDel.h"
-#include "RSTUtil.h"
-#include "RSTInOut.h"
-
-
-/* declarations */
-
-static void ExcludeDataEntries(RSTREE R,
-                               refDATAent newentry,
-                               typrect newrect,
-                               int depth,
-                               int M,
-                               int reinsertqty);
-static void ExcludeDirEntries(RSTREE R,
-                              refDIRent newentry,
-                              typrect newrect,
-                              int depth,
-                              int M,
-                              int reinsertqty);
-static void Split(RSTREE R,
-                  refentry newentry,
-                  int *depth,
-                  int M,
-                  int m);
-static void SplitAndDistributDir(RSTREE R,
-                                 int depth,
-                                 refDIRent newentry,
-                                 int M,
-                                 int m);
-static void SplitAndDistributData(RSTREE R,
-                                  int depth,
-                                  refDATAent newentry,
-                                  int M,
-                                  int m);
-static void UnDistributData(RSTREE R,
-                            refDATAent newentry);
-static void GetInstChain(RSTREE R,
-                         typrect newrect,
-                         int depth);
-static void NtoNDel(RSTREE R,
-                    int depth);
-static void ShrinkTree(RSTREE R);
-
-
-/***********************************************************************/
-
-static void GetInstChain(RSTREE R,
-                         typrect newrect,
-                         int depth)
-
-{
-  int i;
-  refcount c;
-  
-  i= 1;
-  while (i < depth) {
-    if ((*R).NInst[i+1] != NULL) {
-      /* already in path */
-      (*R).E[i]= (*R).EInst[i]; (*R).EInst[i]= -1;
-      i++;
-      if ((*R).N[i] != (*R).NInst[i]) {
-        (*R).P[i]= (*(*R).N[i-1]).DIR.entries[(*R).E[i-1]].ptrtosub;
-        free((*R).N[i]); (*R).N[i]= NULL;
-        (*R).N[i]= (*R).NInst[i];
-      }
-      (*R).NInst[i]= NULL;
-    }
-    else if ((*R).EInst[i] != -1) {
-      /* known ... */
-      (*R).E[i]= (*R).EInst[i]; (*R).EInst[i]= -1;
-      i++;
-      if ((*(*R).N[i-1]).DIR.entries[(*R).E[i-1]].ptrtosub != (*R).P[i]) {
-        /* but not in path */
-        NewNode(R,i);
-      }
-    }
-    else {
-      /* not known */
-      ChooseSubtree(R,newrect,i,&(*(*R).N[i]).DIR,&(*R).E[i]);
-      i++;
-      if ((*(*R).N[i-1]).DIR.entries[(*R).E[i-1]].ptrtosub != (*R).P[i]) {
-        /* and not in path */
-        NewNode(R,i);
-      }
-    }
-  }
-  
-  c= &(*R).count;
-  if ((*c).countflag) {
-    if (depth == (*R).parameters._.height) {
-      (*c).dirvisitcount+= depth - 1;
-      (*c).datavisitcount++;
-    }
-    else {
-      (*c).dirvisitcount+= depth;
-    }
-  }
-}
-
-/***********************************************************************/
-
-void Insert(RSTREE R, typentry *newentry, int depth)
-
-{
-  typrect newrect;
-  int M, m;
-  int reinsertqty, heightbefore;
-  refparameters par;
-  refDIRnode DIN, DINdel;
-  refDATAnode DAN, DANdel;
-  refcount c;
-  int j;
-  
-  CopyRect(R,(*newentry).DIR.rect,newrect);     /* see RSTBase.h "hope ..." */
-  GetInstChain(R,newrect,depth);
-  
-  par= &(*R).parameters._;
-  
-  for (;;) {
-    if (depth == (*par).height) {
-      M= (*par).dataM; m= (*par).datam;
-      
-      DAN= &(*(*R).N[depth]).DATA;
-      
-      if ((*DAN).nofentries < M) {
-        (*DAN).entries[(*DAN).nofentries]= (*newentry).DATA; /* 0.. */
-        (*DAN).nofentries++;
-        (*R).Nmodified[depth]= TRUE;
-        
-        c= &(*R).count;
-        if ((*c).countflag) {
-          (*c).datamodifycount++;
-        }
-        
-        depth--;
-        AdjustChain(R,depth,newrect);
-        break;
-      }
-    }
-    else {
-      M= (*par).dirM; m= (*par).dirm;
-      
-      DIN= &(*(*R).N[depth]).DIR;
-      
-      if ((*DIN).nofentries < M) {
-        (*DIN).entries[(*DIN).nofentries]= (*newentry).DIR; /* 0.. */
-        (*DIN).nofentries++;
-        (*R).Nmodified[depth]= TRUE;
-        
-        c= &(*R).count;
-        if ((*c).countflag) {
-          (*c).dirmodifycount++;
-        }
-        
-        depth--;
-        AdjustChain(R,depth,newrect);
-        break;
-      }
-    }
-    
-    /*** --- LOOP not EXITed by direct insert --- ***/
-    
-    if ((*R).ReInsert[depth] && depth != 1 && M > 1) {
-      if (depth == (*par).height) {
-        reinsertqty= (*par).datareinsertqty;
-        (*R).NDel[depth]= (refnode)malloc((*R).datanodelen);
-        ExcludeDataEntries(R,&(*newentry).DATA,newrect,depth,M,reinsertqty);
-      }
-      else {
-        reinsertqty= (*par).dirreinsertqty;
-        (*R).NDel[depth]= (refnode)malloc((*R).dirnodelen);
-        ExcludeDirEntries(R,&(*newentry).DIR,newrect,depth,M,reinsertqty);
-      }
-      heightbefore= (*par).height;
-      (*R).ReInsert[depth]= FALSE;
-      (*R).ReInsert[depth-1]= TRUE;
-      (*R).Nmodified[depth]= TRUE;
-      AdjustChainAfterDeletion(R,depth);
-      
-      if (depth == (*par).height) {
-      
-        DANdel= &(*(*R).NDel[depth]).DATA;
-        
-        for (j= reinsertqty; j >= 0; j--) {
-          Insert(R,(refentry)&(*DANdel).entries[j],depth);
-          if ((*par).height > heightbefore) {
-            depth+= (*par).height - heightbefore;
-            heightbefore= (*par).height;
-          }
-        }
-      }
-      else {
-      
-        DINdel= &(*(*R).NDel[depth]).DIR;
-        
-        for (j= reinsertqty; j >= 0; j--) {
-          Insert(R,(refentry)&(*DINdel).entries[j],depth);
-          if ((*par).height > heightbefore) {
-            depth+= (*par).height - heightbefore;
-            heightbefore= (*par).height;
-          }
-        }
-      }
-      free((*R).NDel[depth]); (*R).NDel[depth]= NULL;
-      if (depth != 1) {
-        (*R).ReInsert[depth-1]= FALSE;
-        /* ReInitialisation for the case, that the LOOP
-           did not call ReInsert in the next higher level */
-      }
-      break;
-    }
-    else {
-      Split(R,newentry,&depth,M,m);
-    }
-  }
-}
-
-/***********************************************************************/
-
-static void ExcludeDataEntries(RSTREE R,
-                               typDATAent *newentry,
-                               typrect newrect,
-                               int depth,
-                               int M,
-                               int reinsertqty)
-
-{
-  refparameters par;
-  typpoint allcenter, newrectcenter, center;
-  refDATAnode n, nd;
-  ValueArray distarr;
-  IndexArray I;
-  ByteArray chosen;
-  int j, k, sortind;
-  
-  par= &(*R).parameters._;
-  
-  EvalCenter(R,(*(*R).N[depth-1]).DIR.entries[(*R).E[depth-1]].rect,allcenter);
-  EvalCenter(R,newrect,newrectcenter);
-  
-  n= &(*(*R).N[depth]).DATA;
-  
-  for (j= 0; j < M; j++) {
-    EvalCenter(R,(*n).entries[j].rect,center);
-    distarr[j]= RSTDistance(R,allcenter,center);
-    I[j]= j;
-  }
-  distarr[M]= RSTDistance(R,allcenter,newrectcenter);
-  I[M]= M;
-  QuickSortValArr(0,M,distarr,I);
-  
-  nd= &(*(*R).NDel[depth]).DATA;
-  
-  FalseArray((int *)chosen,(*par).dataMwords);
-  j= 0; k= M;
-  while (j < reinsertqty) {
-    sortind= I[k];
-    chosen[sortind]= 1;
-    if (sortind != M) {
-      (*nd).entries[j]= (*n).entries[sortind];
-    }
-    else {
-      (*nd).entries[j]= *newentry;
-    }
-    j++;
-    k--;
-  }
-  /* entry referenced by distarr[I[M]], [I[M-1]], ...
-     becomes NDel[depth]->entries[0], [1], ... */
-  
-  if (chosen[M] == 1) {
-    (*nd).entries[reinsertqty]= (*n).entries[I[M-reinsertqty]];
-    chosen[I[M-reinsertqty]]= 1;
-  }
-  else {
-    (*nd).entries[reinsertqty]= *newentry;
-  }
-  /* entry referenced by I[M-reinsertqty] or newentry (referenced
-     by I[?] == 0) becomes NDel[depth]->entries[reinsertqty] */
-  /* Entries to reinsert now in NDel[depth] sorted by */
-  /* decreasing distances to the midpoint.            */
-  /*    !!! newentry is reinserted in any case !!!    */
-  
-  (*n).nofentries= M - reinsertqty;
-  j= 0; k= M - 1;
-  do {
-    if (chosen[j] == 1) {
-      while (chosen[k] == 1) {
-        k--;
-      }
-      (*n).entries[j]= (*n).entries[k];
-      chosen[k]= 1;
-    }
-    j++;
-  } while (j < (*n).nofentries);
-}
-
-/***********************************************************************/
-
-static void ExcludeDirEntries(RSTREE R,
-                              typDIRent *newentry,
-                              typrect newrect,
-                              int depth,
-                              int M,
-                              int reinsertqty)
-
-{
-  refparameters par;
-  typpoint allcenter, newrectcenter, center;
-  refDIRnode n, nd;
-  ValueArray distarr;
-  IndexArray I;
-  ByteArray chosen;
-  int j, k, sortind;
-  
-  par= &(*R).parameters._;
-  
-  EvalCenter(R,(*(*R).N[depth-1]).DIR.entries[(*R).E[depth-1]].rect,allcenter);
-  EvalCenter(R,newrect,newrectcenter);
-  
-  n= &(*(*R).N[depth]).DIR;
-  
-  for (j= 0; j < M; j++) {
-    EvalCenter(R,(*n).entries[j].rect,center);
-    distarr[j]= RSTDistance(R,allcenter,center);
-    I[j]= j;
-  }
-  distarr[M]= RSTDistance(R,allcenter,newrectcenter);
-  I[M]= M;
-  QuickSortValArr(0,M,distarr,I);
-  
-  nd= &(*(*R).NDel[depth]).DIR;
-  
-  FalseArray((int *)chosen,(*par).dirMwords);
-  j= 0; k= M;
-  while (j < reinsertqty) {
-    sortind= I[k];
-    chosen[sortind]= 1;
-    if (sortind != M) {
-      (*nd).entries[j]= (*n).entries[sortind];
-    }
-    else {
-      (*nd).entries[j]= *newentry;
-    }
-    j++;
-    k--;
-  }
-  /* entry referenced by distarr[I[M]], [I[M-1]], ...
-     becomes NDel[depth]->entries[0], [1], ... */
-  
-  if (chosen[M] == 1) {
-    (*nd).entries[reinsertqty]= (*n).entries[I[M-reinsertqty]];
-    chosen[I[M-reinsertqty]]= 1;
-  }
-  else {
-    (*nd).entries[reinsertqty]= *newentry;
-  }
-  /* entry referenced by I[M-reinsertqty] or newentry (referenced
-     by I[?] == 0) becomes NDel[depth]->entries[reinsertqty] */
-  /* Entries to reinsert now in NDel[depth] sorted by */
-  /* decreasing distances to the midpoint.            */
-  /*    !!! newentry is reinserted in any case !!!    */
-  
-  (*n).nofentries= M - reinsertqty;
-  j= 0; k= M - 1;
-  do {
-    if (chosen[j] == 1) {
-      while (chosen[k] == 1) {
-        k--;
-      }
-      (*n).entries[j]= (*n).entries[k];
-      chosen[k]= 1;
-    }
-    j++;
-  } while (j < (*n).nofentries);
-}
-
-/***********************************************************************/
-
-static void Split(RSTREE R,
-                  typentry *newentry,
-                  int *depth,
-                  int M,
-                  int m)
-
-{
-  refparameters par;
-  refcount c;
-  int pagenr;
-  boolean isdata;
-  int i;
-  
-  par= &(*R).parameters._;
-  
-  if (*depth == (*par).height) {
-    if (M == 1) {
-      UnDistributData(R,&(*newentry).DATA);
-    }
-    else
-    {
-      SplitAndDistributData(R,*depth,&(*newentry).DATA,M,m);
-    }
-  }
-  else {
-    SplitAndDistributDir(R,*depth,&(*newentry).DIR,M,m);
-  }
-  if (*depth == 1) {
-    (*par).height++;
-    *depth= 2;
-    for (i= (*par).height; i >= 2; i--) {
-      (*R).N[i]= (*R).N[i-1];
-      (*R).NDel[i]= (*R).NDel[i-1];         /* for ReInsert */
-      (*R).ReInsert[i]= (*R).ReInsert[i-1]; /* for ReInsert */
-      /*    following assignments not necessary for i=2: */
-      (*R).P[i]= (*R).P[i-1];                      /* set(i=2) */
-      (*R).Nmodified[i]= (*R).Nmodified[i-1];      /* set(i=2) */
-      (*par).pagecountarr[i]= (*par).pagecountarr[i-1];
-    }
-    (*R).N[1]= (refnode)malloc((*R).dirnodelen);
-    /* R->P[1] is RSTBase.rootblocknumb forever */
-    /* R->Nmodified[1] set inserting the sibling */
-    (*R).NDel[1]= NULL;                /* for ReInsert */
-    (*R).ReInsert[1]= FALSE;           /* for ReInsert */
-    /* initiate first root entry: */
-    (*(*R).N[1]).DIR.nofentries= 1;
-    (*R).E[1]= 0;
-    GetPageNr(R,&pagenr,*depth);
-    (*(*R).N[1]).DIR.entries[0].ptrtosub= pagenr;
-    (*R).P[2]= pagenr;
-  }
-  isdata= *depth == (*par).height;
-  (*R).Nmodified[*depth]= TRUE;
-  GetPageNr(R,&pagenr,*depth);
-  (*newentry).DIR.ptrtosub= pagenr;
-
-  if (isdata) {
-    EvalDataEnclRect(R,&(*(*R).Nsibling).DATA,(*newentry).DIR.rect);
-    EvalDataEnclRect(R,&(*(*R).N[*depth]).DATA,
-                       (*(*R).N[*depth-1]).DIR.entries[(*R).E[*depth-1]].rect);
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datamodifycount+= 2;
-    }
-  }
-  else {
-    EvalDirEnclRect(R,&(*(*R).Nsibling).DIR,(*newentry).DIR.rect);
-    EvalDirEnclRect(R,&(*(*R).N[*depth]).DIR,
-                       (*(*R).N[*depth-1]).DIR.entries[(*R).E[*depth-1]].rect);
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirmodifycount+= 2;
-    }
-  }
-  PutNode(R,(*R).Nsibling,pagenr,*depth);
-  (*depth)--;
-}
-
-/***********************************************************************/
-
-static void SplitAndDistributDir(RSTREE R,
-                                 int depth,
-                                 typDIRent *newentry,
-                                 int M,
-                                 int m)
-
-{
-  ValueArray edgearray, spacearray;
-  RectArray rectarray;
-  refparameters par;
-  refDIRnode n;
-  refinterval re;
-  
-  IndexArray I;
-  Side sortside, currsortside, axsortside;
-  int axis;
-  int mlow, mhigh,
-      index, backind,
-      axisindex;
-  typrect leftrect, rightrect;
-  double leftspace, rightspace,
-         leftedge, rightedge, edge, validedge, backvaledge, axisedge,
-         ovlp,
-         value, validvalue, backvalvalue;
-  int i, j, ii;
-  
-  par= &(*R).parameters._;
-  
-  (*R).Ntosplit= (*R).N[depth];
-  (*R).N[depth]= (*R).helpdirnode;
-  (*R).helpdirnode= (*R).Ntosplit;
-  for (j= 0; j <= M; j++) {
-    I[j]= j;
-  }
-  mhigh= M-m+1;
-  mlow= m-1;
-  
-  n= &(*(*R).Ntosplit).DIR;
-  
-  (*n).entries[M]= *newentry;
-  for (i= 0; i <= (*par).maxdim; i++) {
-    sortside= low;
-    currsortside= low;
-    QuickSortDirEnt(0,M,i,low,(*n).entries,I);
-    CopyRect(R,(*n).entries[I[M]].rect,rightrect);
-    rightrect[i].l= (*n).entries[I[mhigh]].rect[i].l;
-    for (j= M-1; j >= m; j--) {
-      for (ii= 0; ii <= (*par).maxdim; ii++) {
-        
-        re= &(*n).entries[I[j]].rect[ii];
-        
-        if ((*re).l < rightrect[ii].l) {
-          rightrect[ii].l= (*re).l;
-        }
-        if ((*re).h > rightrect[ii].h) {
-          rightrect[ii].h= (*re).h;
-        }
-      }
-      if (j <= mhigh) {
-        rightedge= 0.0; rightspace= 1.0;
-        for (ii= 0; ii <= (*par).maxdim; ii++) {
-          rightedge+= rightrect[ii].h - rightrect[ii].l;
-          rightspace*= rightrect[ii].h - rightrect[ii].l;
-        }
-        CopyRect(R,rightrect,rectarray[j]);
-        edgearray[j]= rightedge;
-        spacearray[j]= rightspace;
-      }
-    }
-    /* fill array from M-m+1 down to m
-       with rightrect, rightedge, rightspace */
-    CopyRect(R,(*n).entries[I[0]].rect,leftrect);
-    for (j= 1; j < mhigh; j++) {
-      for (ii= 0; ii <= (*par).maxdim; ii++) {
-        
-        re= &(*n).entries[I[j]].rect[ii];
-        
-        if ((*re).l < leftrect[ii].l) {
-          leftrect[ii].l= (*re).l;
-        }
-        if ((*re).h > leftrect[ii].h) {
-          leftrect[ii].h= (*re).h;
-        }
-      }
-      if (j >= mlow) {
-        leftedge= 0.0;
-        for (ii= 0; ii <= (*par).maxdim; ii++) {
-          leftedge+= leftrect[ii].h - leftrect[ii].l;
-        }
-        if (Overlaps(R,leftrect,rectarray[j+1])) {
-          GetOverlap(R,leftrect,rectarray[j+1],&ovlp);
-          if (j == mlow) {
-            validedge= leftedge+edgearray[j+1];
-            validvalue= ovlp;
-            index= m;
-          }
-          else {
-            edge= leftedge+edgearray[j+1];
-            validedge= validedge+edge;
-            value= ovlp;
-            if (value < validvalue) {
-              validvalue= value;
-              index= j+1;
-            }
-          }
-        }
-        else {
-          leftspace= 1.0;
-          for (ii= 0; ii <= (*par).maxdim; ii++) {
-            leftspace*= leftrect[ii].h - leftrect[ii].l;
-          }
-          if (j == mlow) {
-            validedge= leftedge+edgearray[j+1];
-            validvalue= -1.0/(leftspace+spacearray[j+1]);
-            index= m;
-          }
-          else {
-            edge= leftedge+edgearray[j+1];
-            validedge= validedge+edge;
-            value= -1.0/(leftspace+spacearray[j+1]);
-            if (value < validvalue) {
-              validvalue= value;
-              index= j+1;
-            }
-          }
-        }
-      }
-    }
-    /* Compute sum of the edges
-       from leftedge[m-1]+rightedge[m]
-       up to leftedge[M-m]+rightedge[M-m+1], -> axis;
-       minimal area resp. overlap, -> index. */
-    currsortside= high;
-    QuickSortDirEnt(0,M,i,high,(*n).entries,I);
-    CopyRect(R,(*n).entries[I[0]].rect,leftrect);
-    leftrect[i].h= (*n).entries[I[mlow]].rect[i].h;
-    for (j= 1; j < mhigh; j++) {
-      for (ii= 0; ii <= (*par).maxdim; ii++) {
-        
-        re= &(*n).entries[I[j]].rect[ii];
-        
-        if ((*re).l < leftrect[ii].l) {
-          leftrect[ii].l= (*re).l;
-        }
-        if ((*re).h > leftrect[ii].h) {
-            leftrect[ii].h= (*re).h;
-        }
-      }
-      if (j >= mlow) {
-        leftedge= 0.0; leftspace= 1.0;
-        for (ii= 0; ii <= (*par).maxdim; ii++) {
-          leftedge+= leftrect[ii].h - leftrect[ii].l;
-          leftspace*= leftrect[ii].h - leftrect[ii].l;
-        }
-        CopyRect(R,leftrect,rectarray[j]);
-        edgearray[j]= leftedge;
-        spacearray[j]= leftspace;
-      }
-    }
-    /* fill array from m-1 up to M-m
-       with leftrect, leftedge, leftspace */
-    CopyRect(R,(*n).entries[I[M]].rect,rightrect);
-    for (j= M-1; j >= m; j--) {
-      for (ii= 0; ii <= (*par).maxdim; ii++) {
-        
-        re = &(*n).entries[I[j]].rect[ii];
-        
-        if ((*re).l < rightrect[ii].l) {
-          rightrect[ii].l= (*re).l;
-        }
-        if ((*re).h > rightrect[ii].h) {
-          rightrect[ii].h= (*re).h;
-        }
-      }
-      if (j <= mhigh) {
-        rightedge= 0.0;
-        for (ii= 0; ii <= (*par).maxdim; ii++) {
-          rightedge+= rightrect[ii].h- rightrect[ii].l;
-        }
-        if (Overlaps(R,rightrect,rectarray[j-1])) {
-          GetOverlap(R,rightrect,rectarray[j-1],&ovlp);
-          if (j == mhigh) {
-            backvaledge= rightedge+edgearray[j-1];
-            backvalvalue= ovlp;
-            backind= j;
-          }
-          else {
-            edge= rightedge+edgearray[j-1];
-            backvaledge= backvaledge+edge;
-            value= ovlp;
-            if (value < backvalvalue) {
-              backvalvalue= value;
-              backind= j;
-            }
-          }
-        }
-        else {
-          rightspace= 1.0;
-          for (ii= 0; ii <= (*par).maxdim; ii++) {
-            rightspace*= rightrect[ii].h - rightrect[ii].l;
-          }
-          if (j == mhigh) {
-            backvaledge= rightedge+edgearray[j-1];
-            backvalvalue= -1.0/(rightspace+spacearray[j-1]);
-            backind= j;
-          }
-          else {
-            edge= rightedge+edgearray[j-1];
-            backvaledge= backvaledge+edge;
-            value= -1.0/(rightspace+spacearray[j-1]);
-            if (value < backvalvalue) {
-              backvalvalue= value;
-              backind= j;
-            }
-          }
-        }
-      }
-    }
-    /* Compute sum of the edges
-       from rightedge[M-m+1]+leftedge[M-m]
-       down to rightedge[m] +leftedge[m-1], -> axis;
-       minimal area resp. overlap, -> index. */
-    if (backvalvalue <= validvalue) {
-      sortside= high;
-      index= backind;
-    }
-    validedge= validedge+backvaledge;
-    if (i == 0) {
-      axsortside= sortside;
-      axis= i;
-      axisedge= validedge;
-      axisindex= index;
-    }
-    else if (validedge < axisedge) {
-      axsortside= sortside;
-      axis= i;
-      axisedge= validedge;
-      axisindex= index;
-    }
-    
-  }
-  if (axis != (*par).maxdim || axsortside != currsortside) {
-    QuickSortDirEnt(0,M,axis,axsortside,(*n).entries,I);
-  }
-  
-  n= &(*(*R).N[depth]).DIR;
-  
-  (*n).nofentries= axisindex;
-  for (j= 0; j < (*n).nofentries; j++) {
-    (*n).entries[j]= (*(*R).Ntosplit).DIR.entries[I[j]];
-  }
-  /* printf("%3d",axisindex); */
-  /* N[depth] gets entries 0 up to axisindex-1 */
-  
-  n= &(*(*R).Nsibling).DIR;
-  
-  (*n).nofentries= M-axisindex+1;
-  for (j= 0; j < (*n).nofentries; j++) {
-    (*n).entries[j]= (*(*R).Ntosplit).DIR.entries[I[axisindex+j]];
-  }
-  /* printf("%3d",M-axisindex+1); */
-  /* printf("%3d\n",M+1); */
-}
-
-/***********************************************************************/
-
-static void SplitAndDistributData(RSTREE R,
-                                  int depth,
-                                  typDATAent *newentry,
-                                  int M,
-                                  int m)
-
-{
-  ValueArray edgearray, spacearray;
-  RectArray rectarray;
-  refparameters par;
-  refDATAnode n;
-  refinterval re;
-  
-  IndexArray I;
-  Side sortside, currsortside, axsortside;
-  int axis;
-  int mlow, mhigh,
-      index, backind,
-      axisindex;
-  typrect leftrect, rightrect;
-  double leftspace, rightspace,
-         leftedge, rightedge, edge, validedge, backvaledge, axisedge,
-         ovlp,
-         value, validvalue, backvalvalue;
-  int i, j, ii;
-  
-  par= &(*R).parameters._;
-  
-  (*R).Ntosplit= (*R).N[depth];
-  (*R).N[depth]= (*R).helpdatanode;
-  (*R).helpdatanode= (*R).Ntosplit;
-  for (j= 0; j <= M; j++) {
-    I[j]= j;
-  }
-  mhigh= M-m+1;
-  mlow= m-1;
-  
-  n= &(*(*R).Ntosplit).DATA;
-  
-  (*n).entries[M]= *newentry;
-  for (i= 0; i <= (*par).maxdim; i++) {
-    sortside= low;
-    currsortside= low;
-    QuickSortDataEnt(0,M,i,low,(*n).entries,I);
-    CopyRect(R,(*n).entries[I[M]].rect,rightrect);
-    rightrect[i].l= (*n).entries[I[mhigh]].rect[i].l;
-    for (j= M-1; j >= m; j--) {
-      for (ii= 0; ii <= (*par).maxdim; ii++) {
-        
-        re= &(*n).entries[I[j]].rect[ii];
-        
-        if ((*re).l < rightrect[ii].l) {
-          rightrect[ii].l= (*re).l;
-        }
-        if ((*re).h > rightrect[ii].h) {
-          rightrect[ii].h= (*re).h;
-        }
-      }
-      if (j <= mhigh) {
-        rightedge= 0.0; rightspace= 1.0;
-        for (ii= 0; ii <= (*par).maxdim; ii++) {
-          rightedge+= rightrect[ii].h - rightrect[ii].l;
-          rightspace*= rightrect[ii].h - rightrect[ii].l;
-        }
-        CopyRect(R,rightrect,rectarray[j]);
-        edgearray[j]= rightedge;
-        spacearray[j]= rightspace;
-      }
-    }
-    /* fill array from M-m+1 down to m
-       with rightrect, rightedge, rightspace */
-    CopyRect(R,(*n).entries[I[0]].rect,leftrect);
-    for (j= 1; j < mhigh; j++) {
-      for (ii= 0; ii <= (*par).maxdim; ii++) {
-        
-        re= &(*n).entries[I[j]].rect[ii];
-        
-        if ((*re).l < leftrect[ii].l) {
-          leftrect[ii].l= (*re).l;
-        }
-        if ((*re).h > leftrect[ii].h) {
-          leftrect[ii].h= (*re).h;
-        }
-      }
-      if (j >= mlow) {
-        leftedge= 0.0;
-        for (ii= 0; ii <= (*par).maxdim; ii++) {
-          leftedge+= leftrect[ii].h - leftrect[ii].l;
-        }
-        if (Overlaps(R,leftrect,rectarray[j+1])) {
-          GetOverlap(R,leftrect,rectarray[j+1],&ovlp);
-          if (j == mlow) {
-            validedge= leftedge+edgearray[j+1];
-            validvalue= ovlp;
-            index= m;
-          }
-          else {
-            edge= leftedge+edgearray[j+1];
-            validedge= validedge+edge;
-            value= ovlp;
-            if (value < validvalue) {
-              validvalue= value;
-              index= j+1;
-            }
-          }
-        }
-        else {
-          leftspace= 1.0;
-          for (ii= 0; ii <= (*par).maxdim; ii++) {
-            leftspace*= leftrect[ii].h - leftrect[ii].l;
-          }
-          if (j == mlow) {
-            validedge= leftedge+edgearray[j+1];
-            validvalue= -1.0/(leftspace+spacearray[j+1]);
-            index= m;
-          }
-          else {
-            edge= leftedge+edgearray[j+1];
-            validedge= validedge+edge;
-            value= -1.0/(leftspace+spacearray[j+1]);
-            if (value < validvalue) {
-              validvalue= value;
-              index= j+1;
-            }
-          }
-        }
-      }
-    }
-    /* Compute sum of the edges
-       from leftedge[m-1]+rightedge[m]
-       up to leftedge[M-m]+rightedge[M-m+1], -> axis;
-       minimal area resp. overlap, -> index. */
-    currsortside= high;
-    QuickSortDataEnt(0,M,i,high,(*n).entries,I);
-    CopyRect(R,(*n).entries[I[0]].rect,leftrect);
-    leftrect[i].h= (*n).entries[I[mlow]].rect[i].h;
-    for (j= 1; j < mhigh; j++) {
-      for (ii= 0; ii <= (*par).maxdim; ii++) {
-        
-        re= &(*n).entries[I[j]].rect[ii];
-        
-        if ((*re).l < leftrect[ii].l) {
-          leftrect[ii].l= (*re).l;
-        }
-        if ((*re).h > leftrect[ii].h) {
-            leftrect[ii].h= (*re).h;
-        }
-      }
-      if (j >= mlow) {
-        leftedge= 0.0; leftspace= 1.0;
-        for (ii= 0; ii <= (*par).maxdim; ii++) {
-          leftedge+= leftrect[ii].h - leftrect[ii].l;
-          leftspace*= leftrect[ii].h - leftrect[ii].l;
-        }
-        CopyRect(R,leftrect,rectarray[j]);
-        edgearray[j]= leftedge;
-        spacearray[j]= leftspace;
-      }
-    }
-    /* fill array from m-1 up to M-m
-       with leftrect, leftedge, leftspace */
-    CopyRect(R,(*n).entries[I[M]].rect,rightrect);
-    for (j= M-1; j >= m; j--) {
-      for (ii= 0; ii <= (*par).maxdim; ii++) {
-        
-        re = &(*n).entries[I[j]].rect[ii];
-        
-        if ((*re).l < rightrect[ii].l) {
-          rightrect[ii].l= (*re).l;
-        }
-        if ((*re).h > rightrect[ii].h) {
-          rightrect[ii].h= (*re).h;
-        }
-      }
-      if (j <= mhigh) {
-        rightedge= 0.0;
-        for (ii= 0; ii <= (*par).maxdim; ii++) {
-          rightedge+= rightrect[ii].h- rightrect[ii].l;
-        }
-        if (Overlaps(R,rightrect,rectarray[j-1])) {
-          GetOverlap(R,rightrect,rectarray[j-1],&ovlp);
-          if (j == mhigh) {
-            backvaledge= rightedge+edgearray[j-1];
-            backvalvalue= ovlp;
-            backind= j;
-          }
-          else {
-            edge= rightedge+edgearray[j-1];
-            backvaledge= backvaledge+edge;
-            value= ovlp;
-            if (value < backvalvalue) {
-              backvalvalue= value;
-              backind= j;
-            }
-          }
-        }
-        else {
-          rightspace= 1.0;
-          for (ii= 0; ii <= (*par).maxdim; ii++) {
-            rightspace*= rightrect[ii].h - rightrect[ii].l;
-          }
-          if (j == mhigh) {
-            backvaledge= rightedge+edgearray[j-1];
-            backvalvalue= -1.0/(rightspace+spacearray[j-1]);
-            backind= j;
-          }
-          else {
-            edge= rightedge+edgearray[j-1];
-            backvaledge= backvaledge+edge;
-            value= -1.0/(rightspace+spacearray[j-1]);
-            if (value < backvalvalue) {
-              backvalvalue= value;
-              backind= j;
-            }
-          }
-        }
-      }
-    }
-    /* Compute sum of the edges
-       from rightedge[M-m+1]+leftedge[M-m]
-       down to rightedge[m] +leftedge[m-1], -> axis;
-       minimal area resp. overlap, -> index. */
-    if (backvalvalue <= validvalue) {
-      sortside= high;
-      index= backind;
-    }
-    validedge= validedge+backvaledge;
-    if (i == 0) {
-      axsortside= sortside;
-      axis= i;
-      axisedge= validedge;
-      axisindex= index;
-    }
-    else if (validedge < axisedge) {
-      axsortside= sortside;
-      axis= i;
-      axisedge= validedge;
-      axisindex= index;
-    }
-    
-  }
-  if (axis != (*par).maxdim || axsortside != currsortside) {
-    QuickSortDataEnt(0,M,axis,axsortside,(*n).entries,I);
-  }
-  
-  n= &(*(*R).N[depth]).DATA;
-  
-  (*n).nofentries= axisindex;
-  for (j= 0; j < (*n).nofentries; j++) {
-    (*n).entries[j]= (*(*R).Ntosplit).DATA.entries[I[j]];
-  }
-  /* printf("%3d",axisindex); */
-  /* N[depth] gets entries 0 up to axisindex-1 */
-  
-  n= &(*(*R).Nsibling).DATA;
-  
-  (*n).nofentries= M-axisindex+1;
-  for (j= 0; j < (*n).nofentries; j++) {
-    (*n).entries[j]= (*(*R).Ntosplit).DATA.entries[I[axisindex+j]];
-  }
-  /* printf("%3d",M-axisindex+1); */
-  /* printf("%3d\n",M+1); */
-}
-
-/***********************************************************************/
-
-static void UnDistributData(RSTREE R,
-                            typDATAent *newentry)
-
-{
-  refDATAnode DAN;
-  
-  DAN= &(*(*R).Nsibling).DATA;
-  
-  (*DAN).nofentries= 1;
-  (*DAN).entries[0]= *newentry;
-  /* printf(" Un\n"); */
-}
-
-/***********************************************************************/
-
-void DeleteOneRec(RSTREE R)
-
-{
-  refparameters par;
-  refDIRnode DIN;
-  refDATAnode DAN;
-  refcount c;
-  int depth, heightbefore;
-  int i, j;
-  
-  par = &(*R).parameters._;
-      
-  depth= (*par).height;
-  for (;;) {
-    if (depth == (*par).height) {
-    
-      DAN= &(*(*R).N[depth]).DATA;
-      
-      (*DAN).nofentries--;
-      (*DAN).entries[(*R).E[depth]]= (*DAN).entries[(*DAN).nofentries];
-      if ((*DAN).nofentries >= (*par).datam || depth == 1) {
-        (*R).Nmodified[depth]= TRUE;
-        
-        c= &(*R).count;
-        if ((*c).countflag) {
-          (*c).datamodifycount++;
-        }
-          
-        AdjustChainAfterDeletion(R,depth);
-        break;
-      }
-    }
-    else {
-    
-      DIN= &(*(*R).N[depth]).DIR;
-      
-      (*DIN).nofentries--;
-      (*DIN).entries[(*R).E[depth]]= (*DIN).entries[(*DIN).nofentries];
-      if ((*DIN).nofentries >= (*par).dirm || depth == 1) {
-        (*R).Nmodified[depth]= TRUE;
-        
-        c= &(*R).count;
-        if ((*c).countflag) {
-          (*c).dirmodifycount++;
-        }
-        
-        AdjustChainAfterDeletion(R,depth);
-        break;
-      }
-    }
-    /*** --- LOOP not EXITed by deletion without underflow --- ***/
-    NtoNDel(R,depth);
-    depth--;
-  }
-  /*** --- ReInsertion --- ***/
-  i= 2; heightbefore= (*par).height;
-  while (i <= (*par).height) {
-    if ((*R).NDel[i] != NULL) {
-    
-      c= &(*R).count;
-      if ((*c).countflag) {
-        if (i == (*par).height) {
-          (*c).datavisitcount++;
-        }
-        else {
-          (*c).dirvisitcount++;
-        }
-      }
-      if (i == (*par).height) {
-      
-        DAN= &(*(*R).NDel[i]).DATA;
-        
-        for (j= 0; j < (*DAN).nofentries; j++) {
-          Insert(R,(refentry)&(*DAN).entries[j],i);
-          if ((*par).height > heightbefore) {
-            i++; heightbefore++;
-          }
-        }
-      }
-      else {
-      
-        DIN= &(*(*R).NDel[i]).DIR;
-        
-        for (j= 0; j < (*DIN).nofentries; j++) {
-          Insert(R,(refentry)&(*DIN).entries[j],i);
-          if ((*par).height > heightbefore) {
-            i++; heightbefore++;
-          }
-        }
-      }
-      free((*R).NDel[i]); (*R).NDel[i]= NULL;
-    }
-    i++;
-  }
-  /*** --- Shrink the tree --- ***/
-  if ((*par).height != 1 && (*(*R).N[1]).DIR.nofentries == 1) {
-    ShrinkTree(R);
-  }
-}
-
-/***********************************************************************/
-
-static void NtoNDel(RSTREE R,
-                    int depth)
-
-{
-  refparameters par;
-  
-  par= &(*R).parameters._;
-  
-  if ((*(*R).N[depth]).DIR.nofentries != 0) {     /* see RSTBase.h "hope ..." */
-    (*R).NDel[depth]= (*R).N[depth];
-    if (depth == (*par).height) {
-      (*R).N[depth]= (refnode)malloc((*R).datanodelen);
-    }
-    else {
-      (*R).N[depth]= (refnode)malloc((*R).dirnodelen);
-    }
-  }
-  else {
-    /* this is only possible for data nodes. NDel[height] stays NULL. */
-    /* ==> no ReInsertion(height). P[height] set to 0 in any case.    */
-    /* if height == 2 and shrink is done NewNode(R,2) is called.      */
-  }
-  PutPageNr(R,(*R).P[depth],depth);
-  (*R).P[depth]= 0;
-  (*R).Nmodified[depth]= FALSE;
-}
-
-/***********************************************************************/
-
-static void ShrinkTree(RSTREE R)
-
-{
-  refparameters par;
-  refcount c;
-  int i;
-  
-  par= &(*R).parameters._;
-  
-  if ((*R).P[2] == 0) {
-    (*R).E[1]= 0;
-    NewNode(R,2);
-  }
-  free((*R).N[1]);
-  for (i= 1; i <= (*par).height; i++) {
-    (*R).N[i]= (*R).N[i+1];
-  }
-  (*R).Nmodified[1]= TRUE;
-  
-  c= &(*R).count;
-  if ((*c).countflag) {
-    (*c).dirmodifycount++;
-  }
-  
-  PutPageNr(R,(*R).P[2],2);
-  for (i= 2; i <= (*par).height; i++) {
-    (*R).P[i]= (*R).P[i+1];
-    (*R).Nmodified[i]= (*R).Nmodified[i+1];
-    (*par).pagecountarr[i]= (*par).pagecountarr[i+1];
-  }
-  (*R).E[(*par).height]= -1;
-  (*par).height--;
-}
-
-/***********************************************************************/
diff --git a/modules/RStarTree/RSTInstDel.h b/modules/RStarTree/RSTInstDel.h
deleted file mode 100644
index 4779160..0000000
--- a/modules/RStarTree/RSTInstDel.h
+++ /dev/null
@@ -1,15 +0,0 @@
-/* -----  RSTInstDel.h  ----- */
-#ifndef __RSTInstDel_h
-#define __RSTInstDel_h
-
-
-#include "RStarTree.h"
-
-
-/* declarations */
-
-void Insert(RSTREE R, refentry newentry, int depth);
-void DeleteOneRec(RSTREE R);
-
-
-#endif /* !__RSTInstDel_h */
diff --git a/modules/RStarTree/RSTInterUtil.c b/modules/RStarTree/RSTInterUtil.c
deleted file mode 100644
index be01685..0000000
--- a/modules/RStarTree/RSTInterUtil.c
+++ /dev/null
@@ -1,431 +0,0 @@
-/* ----- RSTInterUtil.c ----- */
-
-
-#include "RStarTree.h"
-#include "RSTInterUtil.h"
-
-
-/* ----- declarations ----- */
-
-/***********************************************************************/
-
-void CreateRSFiles(RSTREE R)
-
-{
-  RSTName SufName;
-  int O_MODE= O_RDWR | O_CREAT | O_EXCL;
-  /* int O_MODE= O_RDWR | O_CREAT | O_TRUNC;     "forced Creation" */
-    
-  (*R).dir.f= open((*R).dirname,O_MODE,STDMODE);
-  if ((*R).dir.f == -1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  strcpy(SufName,(*R).dirname);
-  strcat(SufName,datasuffix);
-  (*R).data.f= open(SufName,O_MODE,STDMODE);
-  if ((*R).data.f == -1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  strcpy(SufName,(*R).dirname);
-  strcat(SufName,dirPDsuffix);
-  (*R).dirPD.f= open(SufName,O_MODE,STDMODE);
-  if ((*R).dirPD.f == -1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  strcpy(SufName,(*R).dirname);
-  strcat(SufName,dataPDsuffix);
-  (*R).dataPD.f= open(SufName,O_MODE,STDMODE);
-  if ((*R).dataPD.f == -1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-}
-
-/***********************************************************************/
-
-void OpenRSFiles(RSTREE R, int O_MODE)
-
-{
-  RSTName SufName;
-    
-  (*R).dir.f= open((*R).dirname,O_MODE,STDMODE);
-  if ((*R).dir.f == -1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  strcpy(SufName,(*R).dirname);
-  strcat(SufName,datasuffix);
-  (*R).data.f= open(SufName,O_MODE,STDMODE);
-  if ((*R).data.f == -1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  strcpy(SufName,(*R).dirname);
-  strcat(SufName,dirPDsuffix);
-  (*R).dirPD.f= open(SufName,O_MODE,STDMODE);
-  if ((*R).dirPD.f == -1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  strcpy(SufName,(*R).dirname);
-  strcat(SufName,dataPDsuffix);
-  (*R).dataPD.f= open(SufName,O_MODE,STDMODE);
-  if ((*R).dataPD.f == -1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-}
-
-/***********************************************************************/
-
-void FastCloseRSFiles(RSTREE R)
-
-{
-  close((*R).dir.f);
-  close((*R).data.f);
-  close((*R).dirPD.f);
-  close((*R).dataPD.f);
-}
-
-/***********************************************************************/
-
-void CloseRSFiles(RSTREE R)
-
-{
-  if (close((*R).dir.f) == -1) {
-    (*R).RSTDone= FALSE;
-  }
-  if (close((*R).data.f) == -1) {
-    (*R).RSTDone= FALSE;
-  }
-  if (close((*R).dirPD.f) == -1) {
-    (*R).RSTDone= FALSE;
-  }
-  if (close((*R).dataPD.f) == -1) {
-    (*R).RSTDone= FALSE;
-  }
-}
-
-/***********************************************************************/
-
-void SetBase(RSTREE R, int pagelen, boolean unique)
-
-{
-  refparameters par;
-  refpagedir dpd;
-  int dirminfill, dataminfill;
-  int i;
-  
-  par= &(*R).parameters._;
-  
-  (*par).minfillpercent= minimumFillPercentage;
-  (*par).reinstpercent= ReInsertPercentage;
-  (*par).nbrsexam= maximumNeighborsToExamine;
-  (*par).maxdim= NumbOfDim-1;
-  (*par).SIZEinfo= sizeof(typinfo);
-  (*par).unique= unique;
-  (*par).pagelen= pagelen;
-  
-  /* ----- set directory level parameters ----- */
-  SetCheckDir(R,TRUE);
-  (*par).dirM= ((*par).pagelen-(*par).SIZE_DIRnofentries) / (*par).direntrylen;
-  if ((*par).dirM > maxentries) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  if ((*par).dirM < 3) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  if ((*par).dirM < 5) {
-    dirminfill= minFillPercSmallFanout;
-  }
-  else {
-    dirminfill= minimumFillPercentage;
-  }
-  (*par).dirMwords= (*par).dirM / sizeof(int) + 1;
-  (*par).dirm= (dirminfill * (*par).dirM + 50) / 100;
-  (*par).dirreinsertqty= ((*par).reinstpercent * (*par).dirM + 50) / 100;
-  
-  /* ----- set data level parameters ----- */
-  SetCheckData(R,TRUE);
-  (*par).dataM= ((*par).pagelen-(*par).SIZE_DATAnofentries) /
-                                                           (*par).dataentrylen;
-  if ((*par).dataM > maxentries) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  if ((*par).dataM < 1) {
-    (*R).RSTDone= FALSE;
-    return;
-  }
-  if ((*par).dataM < 5) {
-    dataminfill= minFillPercSmallFanout;
-  }
-  else {
-    dataminfill= minimumFillPercentage;
-  }
-  (*par).dataMwords= (*par).dataM / sizeof(int) + 1;
-  (*par).datam= (dataminfill * (*par).dataM + 50) / 100;
-  (*par).datareinsertqty=
-                          ((*par).reinstpercent * (*par).dataM + 50) / 100;
-  
-  /* ----- set defaults ----- */
-  (*par).height= 1;
-  (*par).dirpagecount= 1;
-  (*par).datapagecount= 0;
-  for (i= 0; i < chainlen; i++) {
-    (*par).pagecountarr[i]= 0;
-  }
-  (*par).recordcount= 0;
-  
-  dpd= &(*R).dirpagedir._;
-  
-  (*dpd).childnr= firstPDblocknumb;
-  (*dpd).nofnumbers= 0;
-  (*dpd).number[0]= rootblocknumb;
-  
-  dpd= &(*R).datapagedir._;
-  
-  (*dpd).childnr= firstPDblocknumb;
-  (*dpd).nofnumbers= 0;
-  (*dpd).number[0]= rootblocknumb;
-}
-
-/***********************************************************************/
-
-void SetCheckDir(RSTREE R, boolean creation)
-
-{
-          /* Alignment and compatibility checks */
-             
-  refparameters par;
-  int SIZE_DIRnodeOf3, SIZE_DIRnodeOf2,
-      PACKEDdirentrylen, REALdirentrylen,
-      PACKEDSIZE_DIRnofentries, REALSIZE_DIRnofentries;
-  
-  par= &(*R).parameters._;
-  
-  if (creation) {
-    (*par).direntrylen= sizeof(typDIRent);			/* set */
-    PACKEDdirentrylen= sizeof(typrect) + sizeof(int);
-#if 0
-    if (PACKEDdirentrylen != (*par).direntrylen) {
-      fprintf(stderr,"\n%s\n","     -----  WARNING  -----");
-      fprintf(stderr,"%s\n","Directory entries are not packed!");
-      fprintf(stderr,"%s %d\n","Packed directory entry length:",PACKEDdirentrylen);
-      fprintf(stderr,"%s %d\n","            Real space needed:",(*par).direntrylen);
-      fprintf(stderr,"%s\n",/* implicitly */"Applying the latter!");
-    }
-#endif
-  }
-  
-  SIZE_DIRnodeOf3= sizeof(typDIRnodeOf3);
-  SIZE_DIRnodeOf2= sizeof(typDIRnodeOf2);
-  REALdirentrylen= SIZE_DIRnodeOf3 - SIZE_DIRnodeOf2;
-  if (creation) {
-    if (REALdirentrylen != (*par).direntrylen) {
-      fprintf(stderr,"\n%s\n","     -----  WARNING  -----");
-      fprintf(stderr,"%s\n","Directory nodes are not packed!");
-      fprintf(stderr,"%s %d\n","Directory entry length:",(*par).direntrylen);
-      fprintf(stderr,"%s %d\n","Space needed in a node:",REALdirentrylen);
-      fprintf(stderr,"%s\n",/* explicitly */"Applying the latter!");
-      (*par).direntrylen= REALdirentrylen;			/* reset */
-    }
-  }
-  else {
-    if ((*par).direntrylen != REALdirentrylen) {		/* check */
-      fprintf(stderr,"\n%s\n","FATAL ERROR:");
-      fprintf(stderr,"Incompatible R*-tree file '%s'\n", R->dirname);
-      fprintf(stderr,"%s %d\n","Size of a directory entry:",(*par).direntrylen);
-      fprintf(stderr,"%s %d\n","                Expecting:",REALdirentrylen);
-    }
-  }
-  
-  PACKEDSIZE_DIRnofentries= sizeof(int);
-  REALSIZE_DIRnofentries= SIZE_DIRnodeOf3 - 3 * (*par).direntrylen;
-  (*par).SIZE_DIRnofentries= REALSIZE_DIRnofentries;		/* set */
-  if (creation) {
-#if 0
-    if (PACKEDSIZE_DIRnofentries != (*par).SIZE_DIRnofentries) {
-      fprintf(stderr,"\n%s\n","     -----  WARNING  -----");
-      fprintf(stderr,"%s\n","Gap before directory entries!");
-    }
-#endif
-  }
-  else {
-    if ((*par).SIZE_DIRnofentries != REALSIZE_DIRnofentries) {
-      fprintf(stderr,"\n%s\n","FATAL ERROR:");
-      fprintf(stderr,"Incompatible R*-tree file '%s'\n", R->dirname);
-      fprintf(stderr,"%s %d\n","Offset for entries:",(*par).SIZE_DIRnofentries);
-      fprintf(stderr,"%s %d\n","         Expecting:",REALSIZE_DIRnofentries);
-    }
-  }
-  
-  if (! creation) {
-    if ((*par).maxdim+1 != NumbOfDim) {
-      fprintf(stderr,"\n%s\n","FATAL ERROR:");
-      fprintf(stderr,"Incompatible R*-tree file '%s'\n", R->dirname);
-      fprintf(stderr,"%s %d\n","Number of dimensions:",(*par).maxdim+1);
-      fprintf(stderr,"%s %d\n","           Expecting:",NumbOfDim);
-    }
-  }
-  
-  (*R).dirnodelen= (*par).pagelen + (*par).direntrylen;
-}
-
-/***********************************************************************/
-
-void SetCheckData(RSTREE R, boolean creation)
-
-{
-          /* Alignment and compatibility checks */
-             
-  refparameters par;
-  int SIZE_DATAnodeOf3, SIZE_DATAnodeOf2,
-      PACKEDdataentrylen, REALdataentrylen,
-      PACKEDSIZE_DATAnofentries, REALSIZE_DATAnofentries;
-  
-  par= &(*R).parameters._;
-  
-  if (creation) {
-    (*par).dataentrylen= sizeof(typDATAent);			/* set */
-    PACKEDdataentrylen= sizeof(typrect) + sizeof(typinfo);
-    if (PACKEDdataentrylen != (*par).dataentrylen) {
-      fprintf(stderr,"\n%s\n","     -----  WARNING  -----");
-      fprintf(stderr,"%s\n","Data entries are not packed!");
-      fprintf(stderr,"%s %d\n","Packed data entry length:",PACKEDdataentrylen);
-      fprintf(stderr,"%s %d\n","       Real space needed:",(*par).dataentrylen);
-      fprintf(stderr,"%s\n",/* implicitly */"Applying the latter!");
-    }
-  }
-  
-  SIZE_DATAnodeOf3= sizeof(typDATAnodeOf3);
-  SIZE_DATAnodeOf2= sizeof(typDATAnodeOf2);
-  REALdataentrylen= SIZE_DATAnodeOf3 - SIZE_DATAnodeOf2;
-  if (creation) {
-    if (REALdataentrylen != (*par).dataentrylen) {
-      fprintf(stderr,"\n%s\n","     -----  WARNING  -----");
-      fprintf(stderr,"%s\n","Data nodes are not packed!");
-      fprintf(stderr,"%s %d\n","     Data entry length:",(*par).dataentrylen);
-      fprintf(stderr,"%s %d\n","Space needed in a node:",REALdataentrylen);
-      fprintf(stderr,"%s\n",/* explicitly */"Applying the latter!");
-      (*par).dataentrylen= REALdataentrylen;			/* reset */
-    }
-  }
-  else {
-    if ((*par).dataentrylen != REALdataentrylen) {		/* check */
-      fprintf(stderr,"\n%s\n","FATAL ERROR:");
-      fprintf(stderr,"Incompatible R*-tree file '%s'\n", R->dirname);
-      fprintf(stderr,"%s %d\n","Size of a data entry:",(*par).dataentrylen);
-      fprintf(stderr,"%s %d\n","           Expecting:",REALdataentrylen);
-    }
-  }
-  
-  PACKEDSIZE_DATAnofentries= sizeof(int);
-  REALSIZE_DATAnofentries= SIZE_DATAnodeOf3 - 3 * (*par).dataentrylen;
-  (*par).SIZE_DATAnofentries= REALSIZE_DATAnofentries;		/* set */
-  if (creation) {
-    if (PACKEDSIZE_DATAnofentries != (*par).SIZE_DATAnofentries) {
-      fprintf(stderr,"\n%s\n","     -----  WARNING  -----");
-      fprintf(stderr,"%s\n","Gap before data entries!");
-    }
-  }
-  else {
-    if ((*par).SIZE_DATAnofentries != REALSIZE_DATAnofentries) {
-      fprintf(stderr,"\n%s\n","FATAL ERROR:");
-      fprintf(stderr,"Incompatible R*-tree file '%s'\n", R->dirname);
-      fprintf(stderr,"%s %d\n","Offset for entries:",(*par).SIZE_DATAnofentries);
-      fprintf(stderr,"%s %d\n","         Expecting:",REALSIZE_DATAnofentries);
-    }
-  }
-  
-  if (! creation) {
-    if ((*par).SIZEinfo != sizeof(typinfo)) {
-      fprintf(stderr,"\n%s\n","FATAL ERROR:");
-      fprintf(stderr,"%s %d\n","Size of an info part:",(*par).SIZEinfo);
-      fprintf(stderr,"%s %d\n","           Expecting:",sizeof(typinfo));
-    }
-  }
-  
-  (*R).datanodelen= (*par).pagelen + (*par).dataentrylen;
-}
-
-/***********************************************************************/
-
-void InitChainFlags(RSTREE R)
-
-{
-  int i;
-  
-  for (i= 1; i <= chainlen; i++) {
-    (*R).N[i]= NULL; (*R).NInst[i]= NULL; (*R).NDel[i]= NULL;
-    (*R).E[i]= -1; (*R).EInst[i]= -1;
-    (*R).P[i]= 0;
-    (*R).Nmodified[i]= FALSE;
-    (*R).ReInsert[i]= FALSE;
-  }
-}
-
-/***********************************************************************/
-
-void AllocBuffers(RSTREE R)
-
-{
-  refparameters par;
-  int i;
-  
-  par= &(*R).parameters._;
-  
-  for (i= 1; i < (*par).height; i++) {
-    (*R).N[i]= (refnode)malloc((*R).dirnodelen);
-  }
-  (*R).N[(*par).height]= (refnode)malloc((*R).datanodelen);
-  if ((*R).dirnodelen > (*R).datanodelen) {
-    (*R).Nsibling= (refnode)malloc((*R).dirnodelen);
-  }
-  else {
-    (*R).Nsibling= (refnode)malloc((*R).datanodelen);
-  }
-  (*R).helpdirnode= (refnode)malloc((*R).dirnodelen);
-  (*R).helpdatanode= (refnode)malloc((*R).datanodelen);
-}
-
-/***********************************************************************/
-
-void DeallocBuffers(RSTREE R)
-
-{
-  refparameters par;
-  int i;
-  
-  par= &(*R).parameters._;
-  
-  for (i= 1; i < (*par).height; i++) {
-    free((*R).N[i]); (*R).N[i]= NULL;
-  }
-  free((*R).N[(*par).height]); (*R).N[(*par).height]= NULL;
-  free((*R).Nsibling);
-  free((*R).helpdirnode);
-  free((*R).helpdatanode);
-}
-
-/***********************************************************************/
-
-void InitCount(RSTREE R)
-
-{
-  refcount c;
-  
-  c= &(*R).count;
-  (*c).countflag= FALSE;
-  (*c).dirvisitcount= 0; (*c).datavisitcount= 0;
-  (*c).dirreadcount= 0; (*c).datareadcount= 0;
-  (*c).dirmodifycount= 0; (*c).datamodifycount= 0;
-  (*c).dirwritecount= 0; (*c).datawritecount= 0;
-}
-
-/***********************************************************************/
diff --git a/modules/RStarTree/RSTInterUtil.h b/modules/RStarTree/RSTInterUtil.h
deleted file mode 100644
index 4c30a23..0000000
--- a/modules/RStarTree/RSTInterUtil.h
+++ /dev/null
@@ -1,32 +0,0 @@
-/* -----  RSTInterUtil.h  ----- */
-#ifndef __RSTInterUtil_h
-#define __RSTInterUtil_h
-
-
-#include "RStarTree.h"
-
-
-/* constants */
-
-#define minimumFillPercentage     40
-#define minFillPercSmallFanout    50
-#define ReInsertPercentage        30
-#define maximumNeighborsToExamine 32
-
-
-/* declarations */
-
-void CreateRSFiles(RSTREE R);
-void OpenRSFiles(RSTREE R, int O_MODE);
-void FastCloseRSFiles(RSTREE R);
-void CloseRSFiles(RSTREE R);
-void SetBase(RSTREE R, int pagelen, boolean unique);
-void SetCheckDir(RSTREE R, boolean creation);
-void SetCheckData(RSTREE R, boolean creation);
-void InitChainFlags(RSTREE R);
-void AllocBuffers(RSTREE R);
-void DeallocBuffers(RSTREE R);
-void InitCount(RSTREE R);
-
-
-#endif /* !__RSTInterUtil_h */
diff --git a/modules/RStarTree/RSTJoin.c b/modules/RStarTree/RSTJoin.c
deleted file mode 100644
index 86669e6..0000000
--- a/modules/RStarTree/RSTJoin.c
+++ /dev/null
@@ -1,514 +0,0 @@
-/* ----- RSTJoin.c ----- */
-
-
-#include "RStarTree.h"
-#include "RSTJoin.h"
-#include "RSTUtil.h"
-#include "RSTInOut.h"
-
-
-/* declarations */
-
-static void JnRgnCntNv(RSTREE R, RSTREE Rx,
-                       boolean order,
-                       int depth,
-                       typrect dataqueryrect1,
-                       typrect dataqueryrect2,
-                       typrect joinrect,
-                       DataQueryProc DataQuery,
-                       DirQueryProc DirJoin,
-                       DataQueryProc DataJoin,
-                       int *keysqualifying);
-
-static void JnRgnQueryNv(RSTREE R, RSTREE Rx,
-                         boolean order,
-                         int depth,
-                         typrect dataqueryrect1,
-                         typrect dataqueryrect2,
-                         typrect joinrect,
-                         refinfo ptr_to_info_of_other_tree,
-                         DataQueryProc DataQuery,
-                         DirQueryProc DirJoin,
-                         DataQueryProc DataJoin,
-                         JoinManageProc Manage,
-                         void *buf1,
-                         void *buf2,
-                         boolean *finish);
-
-
-/************************************************************************/
-
-void JnCntNv(RSTREE R1, RSTREE R2,
-             int depth,
-             typrect R1rectangle1,
-             typrect R1rectangle2,
-             typrect R2rectangle1,
-             typrect R2rectangle2,
-             DirQueryProc Dir1Query,
-             DataQueryProc Data1Query,
-             DirQueryProc Dir2Query,
-             DataQueryProc Data2Query,
-             DirQueryProc DirJoin,
-             DataQueryProc DataJoin,
-             int *keysqualifying,
-             int *mark)
-
-{
-  refDATAnode n;
-  refcount c;
-  boolean istoread1, istoread2;
-  int downqualifying;
-  typrect unused;
-  int i, j;
-  
-  boolean verbosejoincount= TRUE;
-  
-  if (depth != (*R1).parameters._.height && depth !=
-                                                   (*R2).parameters._.height) {
-    for (i= 0; i < (*(*R1).N[depth]).DIR.nofentries; i++) {
-      for (j= 0; j < (*(*R2).N[depth]).DIR.nofentries; j++) {
-        if ( Dir1Query(R1,(*(*R1).N[depth]).DIR.entries[i].rect,
-                                                  R1rectangle1,R1rectangle2) &&
-             Dir2Query(R2,(*(*R2).N[depth]).DIR.entries[j].rect,
-                                                 R2rectangle1,R2rectangle2) ) {
-          if (DirJoin(R1,(*(*R1).N[depth]).DIR.entries[i].rect,
-                               (*(*R2).N[depth]).DIR.entries[j].rect,unused)) {
-          /* R1 sets the number of dimensions and type */
-            (*R1).E[depth]= i; (*R2).E[depth]= j;
-            istoread1= (*(*R1).N[depth]).DIR.entries[i].ptrtosub !=
-                                                              (*R1).P[depth+1];
-            if ( istoread1 ) {
-              NewNode(R1,depth+1);
-            }
-            istoread2= (*(*R2).N[depth]).DIR.entries[j].ptrtosub !=
-                                                              (*R2).P[depth+1];
-            if ( istoread2 ) {
-              NewNode(R2,depth+1);
-            }
-            JnCntNv(R1,R2,
-                    depth+1,
-                    R1rectangle1,R1rectangle2,R2rectangle1,R2rectangle2,
-                    Dir1Query,Data1Query,Dir2Query,Data2Query,DirJoin,DataJoin,
-                    keysqualifying,
-                    mark);
-          }
-        }
-      }
-    }
-    
-    c= &(*R1).count;
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-    
-    c= &(*R2).count;
-    if ( (*c).countflag ) {
-      (*c).dirvisitcount++;
-    }
-  }
-  else {
-    if (depth == (*R1).parameters._.height) {
-    
-      n= &(*(*R1).N[depth]).DATA;
-      
-      for (i= 0; i < (*n).nofentries; i++) {
-        downqualifying= 0;
-        if (Data1Query(R1,(*n).entries[i].rect,R1rectangle1,R1rectangle2)) {
-          JnRgnCntNv(R2,R1,FALSE,depth,
-                     R2rectangle1,R2rectangle2,
-                     (*n).entries[i].rect,
-                     Data2Query,
-                     DirJoin,DataJoin,
-                     &downqualifying);
-          *keysqualifying+= downqualifying;
-          if (verbosejoincount) {
-            if (*keysqualifying > *mark) {
-              printf("%s%10d%s\n","More than",*mark," record pairs.");
-              if (*mark < 1000) {
-                *mark+= 100;
-              }
-              else if (*mark < 10000) {
-                *mark+= 1000;
-              }
-              else {
-                *mark+= 10000;
-              }
-            }
-          }
-        }
-      }
-        
-      c= &(*R1).count;
-      if ((*c).countflag) {
-        (*c).datavisitcount++;
-      }
-    }
-    else {
-      
-      n= &(*(*R2).N[depth]).DATA;
-        
-      for (i= 0; i < (*n).nofentries; i++) {
-        downqualifying= 0;
-        if (Data2Query(R2,(*n).entries[i].rect,R2rectangle1,R2rectangle2)) {
-          JnRgnCntNv(R1,R2,TRUE,depth,
-                     R1rectangle1,R1rectangle2,
-                     (*n).entries[i].rect,
-                     Data1Query,
-                     DirJoin,DataJoin,
-                     &downqualifying);
-          *keysqualifying+= downqualifying;
-          if (verbosejoincount) {
-            if (*keysqualifying > *mark) {
-              printf("%s%10d%s\n","More than",*mark," record pairs.");
-              if (*mark < 1000) {
-                *mark+= 100;
-              }
-              else if (*mark < 10000) {
-                *mark+= 1000;
-              }
-              else {
-                *mark+= 10000;
-              }
-            }
-          }
-        }
-      }
-        
-      c= &(*R2).count;
-      if ((*c).countflag) {
-        (*c).datavisitcount++;
-      }
-        
-    }
-  }
-}
-
-/************************************************************************/
-
-static void JnRgnCntNv(RSTREE R, RSTREE Rx,
-                       boolean order,
-                       int depth,
-                       typrect dataqueryrect1,
-                       typrect dataqueryrect2,
-                       typrect joinrect,
-                       DataQueryProc DataQuery,
-                       DirQueryProc DirJoin,
-                       DataQueryProc DataJoin,
-                       int *keysqualifying)
-
-{
-  refDIRnode DIN;
-  refDATAnode DAN;
-  refcount c;
-  boolean istoread;
-  typrect unused;
-  int i;
-  
-  
-  if (depth != (*R).parameters._.height) {
-  
-    DIN= &(*(*R).N[depth]).DIR;
-
-    if (order) {
-      for (i= 0; i < (*DIN).nofentries; i++) {
-        if (DirJoin(R,(*DIN).entries[i].rect,joinrect,unused)) {
-          (*R).E[depth]= i;
-          istoread= (*DIN).entries[i].ptrtosub != (*R).P[depth+1];
-          if ( istoread ) {
-            NewNode(R,depth+1);
-          }
-          JnRgnCntNv(R,Rx,order,depth+1,
-                     dataqueryrect1,dataqueryrect2,joinrect,
-                     DataQuery,DirJoin,DataJoin,
-                     keysqualifying);
-        }
-      }
-    }
-    else {
-      for (i= 0; i < (*DIN).nofentries; i++) {
-        if (DirJoin(Rx,joinrect,(*DIN).entries[i].rect,unused)) {
-          (*R).E[depth]= i;
-          istoread= (*DIN).entries[i].ptrtosub != (*R).P[depth+1];
-          if (istoread) {
-            NewNode(R,depth+1);
-          }
-          JnRgnCntNv(R,Rx,order,depth+1,
-                     dataqueryrect1,dataqueryrect2,joinrect,
-                     DataQuery,DirJoin,DataJoin,
-                     keysqualifying);
-        }
-      }
-    }
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-  }
-  else {
-  
-    DAN= &(*(*R).N[depth]).DATA;
-    
-    if (order) {
-      for (i= 0; i < (*DAN).nofentries; i++) {
-        if (DataQuery(R,(*DAN).entries[i].rect,dataqueryrect1,dataqueryrect2)) {
-          if (DataJoin(R,(*DAN).entries[i].rect,joinrect,unused)) {
-            (*R).E[depth]= i;
-            (*keysqualifying)++;
-          }
-        }
-      }
-    }
-    else {
-      for (i= 0; i < (*DAN).nofentries; i++) {
-        if (DataQuery(R,(*DAN).entries[i].rect,dataqueryrect1,dataqueryrect2)) {
-          if (DataJoin(Rx,joinrect,(*DAN).entries[i].rect,unused)) {
-            (*R).E[depth]= i;
-            (*keysqualifying)++;
-          }
-        }
-      }
-    }
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datavisitcount++;
-    }
-    
-  }
-}
-
-/************************************************************************/
-
-void JnNv(RSTREE R1, RSTREE R2,
-          int depth,
-          typrect R1rectangle1,
-          typrect R1rectangle2,
-          typrect R2rectangle1,
-          typrect R2rectangle2,
-          DirQueryProc Dir1Query,
-          DataQueryProc Data1Query,
-          DirQueryProc Dir2Query,
-          DataQueryProc Data2Query,
-          DirQueryProc DirJoin,
-          DataQueryProc DataJoin,
-          JoinManageProc Manage,
-          void *buf1,
-          void *buf2,
-          boolean *finish)
-
-{
-  refDATAnode n;
-  refcount c;
-  boolean istoread1, istoread2;
-  typrect unused;
-  int i, j;
-    
-  if (depth != (*R1).parameters._.height && depth !=
-                                                   (*R2).parameters._.height) {
-    c= &(*R1).count;
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-    c= &(*R2).count;
-    if ( (*c).countflag ) {
-      (*c).dirvisitcount++;
-    }
-    
-    for (i= 0; i < (*(*R1).N[depth]).DIR.nofentries; i++) {
-      if (*finish) {return;}
-      for (j= 0; j < (*(*R2).N[depth]).DIR.nofentries; j++) {
-        if (*finish) {return;}
-        if ( Dir1Query(R1,(*(*R1).N[depth]).DIR.entries[i].rect,
-                                                  R1rectangle1,R1rectangle2) &&
-             Dir2Query(R2,(*(*R2).N[depth]).DIR.entries[j].rect,
-                                                 R2rectangle1,R2rectangle2) ) {
-          if (DirJoin(R1,(*(*R1).N[depth]).DIR.entries[i].rect,
-                               (*(*R2).N[depth]).DIR.entries[j].rect,unused)) {
-            /* R1 sets the number of dimensions and type */
-            (*R1).E[depth]= i; (*R2).E[depth]= j;
-            istoread1= (*(*R1).N[depth]).DIR.entries[i].ptrtosub !=
-                                                              (*R1).P[depth+1];
-            if ( istoread1 ) {
-              NewNode(R1,depth+1);
-            }
-            istoread2= (*(*R2).N[depth]).DIR.entries[j].ptrtosub !=
-                                                              (*R2).P[depth+1];
-            if ( istoread2 ) {
-              NewNode(R2,depth+1);
-            }
-            JnNv(R1,R2,
-                 depth+1,
-                 R1rectangle1,R1rectangle2,R2rectangle1,R2rectangle2,
-                 Dir1Query,Data1Query,Dir2Query,Data2Query,DirJoin,DataJoin,
-                 Manage,buf1,buf2,finish);
-          }
-        }
-      }
-    }
-  }
-  else {
-    if (depth == (*R1).parameters._.height) {
-    
-      c= &(*R1).count;
-      if ((*c).countflag) {
-        (*c).datavisitcount++;
-      }
-      
-      n= &(*(*R1).N[depth]).DATA;
-      
-      for (i= 0; i < (*n).nofentries; i++) {
-        if (*finish) {return;}
-        if (Data1Query(R1,(*n).entries[i].rect,R1rectangle1,R1rectangle2)) {
-          JnRgnQueryNv(R2,R1,FALSE,depth,
-                       R2rectangle1,R2rectangle2,
-                       (*n).entries[i].rect,
-                       &(*n).entries[i].info,
-                       Data2Query,
-                       DirJoin,DataJoin,
-                       Manage,buf1,buf2,finish);
-        }
-      }
-    }
-    else {
-      
-      c= &(*R2).count;
-      if ((*c).countflag) {
-        (*c).datavisitcount++;
-      }
-      
-      n= &(*(*R2).N[depth]).DATA;
-        
-      for (i= 0; i < (*n).nofentries; i++) {
-        if (*finish) {return;}
-        if (Data2Query(R2,(*n).entries[i].rect,R2rectangle1,R2rectangle2)) {
-          JnRgnQueryNv(R1,R2,TRUE,depth,
-                       R1rectangle1,R1rectangle2,
-                       (*n).entries[i].rect,
-                       &(*n).entries[i].info,
-                       Data1Query,
-                       DirJoin,DataJoin,
-                       Manage,buf1,buf2,finish);
-        }
-      }
-    }
-  }
-}
-
-/************************************************************************/
-
-static void JnRgnQueryNv(RSTREE R, RSTREE Rx,
-                         boolean order,
-                         int depth,
-                         typrect dataqueryrect1,
-                         typrect dataqueryrect2,
-                         typrect joinrect,
-                         typinfo *joininfo,
-                         DataQueryProc DataQuery,
-                         DirQueryProc DirJoin,
-                         DataQueryProc DataJoin,
-                         JoinManageProc Manage,
-                         void *buf1,
-                         void *buf2,
-                         boolean *finish)
-{
-  refDIRnode DIN;
-  refDATAnode DAN;
-  refcount c;
-  boolean istoread;
-  typrect rectR1, rectR2, unused;
-  int i;
-  
-  if (depth != (*R).parameters._.height) {
-  
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-    
-    DIN= &(*(*R).N[depth]).DIR;
-
-    if (order) {
-      for (i= 0; i < (*DIN).nofentries; i++) {
-        if (*finish) {return;}
-        if (DirJoin(R,(*DIN).entries[i].rect,joinrect,unused)) {
-          (*R).E[depth]= i;
-          istoread= (*DIN).entries[i].ptrtosub != (*R).P[depth+1];
-          if ( istoread ) {
-            NewNode(R,depth+1);
-          }
-          JnRgnQueryNv(R,Rx,order,depth+1,
-                       dataqueryrect1,dataqueryrect2,
-                       joinrect,
-                       joininfo,
-                       DataQuery,DirJoin,DataJoin,
-                       Manage,buf1,buf2,finish);
-        }
-      }
-    }
-    else {
-      for (i= 0; i < (*DIN).nofentries; i++) {
-        if (*finish) {return;}
-        if (DirJoin(Rx,joinrect,(*DIN).entries[i].rect,unused)) {
-          (*R).E[depth]= i;
-          istoread= (*DIN).entries[i].ptrtosub != (*R).P[depth+1];
-          if (istoread) {
-            NewNode(R,depth+1);
-          }
-          JnRgnQueryNv(R,Rx,order,depth+1,
-                       dataqueryrect1,dataqueryrect2,
-                       joinrect,
-                       joininfo,
-                       DataQuery,DirJoin,DataJoin,
-                       Manage,buf1,buf2,finish);
-        }
-      }
-    }
-  }
-  else {
-  
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datavisitcount++;
-    }
-    
-    DAN= &(*(*R).N[depth]).DATA;
-    
-    if (order) {
-      for (i= 0; i < (*DAN).nofentries; i++) {
-        if (*finish) {return;}
-        if (DataQuery(R,(*DAN).entries[i].rect,dataqueryrect1,dataqueryrect2)) {
-          if (DataJoin(R,(*DAN).entries[i].rect,joinrect,unused)) {
-            (*R).E[depth]= i;
-            CopyRect(R,(*DAN).entries[i].rect,rectR1);
-            CopyRect(R,joinrect,rectR2);
-            Manage(R,Rx,
-                   rectR1,rectR2,
-                   &(*DAN).entries[i].info,joininfo,
-                   buf1,buf2,
-                   finish);
-          }
-        }
-      }
-    }
-    else {
-      for (i= 0; i < (*DAN).nofentries; i++) {
-        if (*finish) {return;}
-        if (DataQuery(R,(*DAN).entries[i].rect,dataqueryrect1,dataqueryrect2)) {
-          if (DataJoin(Rx,joinrect,(*DAN).entries[i].rect,unused)) {
-            (*R).E[depth]= i;
-            CopyRect(Rx,joinrect,rectR1);
-            CopyRect(Rx,(*DAN).entries[i].rect,rectR2);
-            Manage(Rx,R,
-                   rectR1,rectR2,
-                   joininfo,&(*DAN).entries[i].info,
-                   buf1,buf2,
-                   finish);
-          }
-        }
-      }
-    }
-  }
-}
-
-/************************************************************************/
diff --git a/modules/RStarTree/RSTJoin.h b/modules/RStarTree/RSTJoin.h
deleted file mode 100644
index 075fee5..0000000
--- a/modules/RStarTree/RSTJoin.h
+++ /dev/null
@@ -1,46 +0,0 @@
-/* -----  RSTJoin.h  ----- */
-#ifndef __RSTJoin_h
-#define __RSTJoin_h
-
-
-#include "RStarTree.h"
-
-
-/* declarations */
-
-void JnCntNv(RSTREE R1, RSTREE R2,
-             int depth,
-             typrect R1rectangle1,
-             typrect R1rectangle2,
-             typrect R2rectangle1,
-             typrect R2rectangle2,
-             DirQueryProc Dir1Query,
-             DataQueryProc Data1Query,
-             DirQueryProc Dir2Query,
-             DataQueryProc Data2Query,
-             DirQueryProc DirJoin,
-             DataQueryProc DataJoin,
-             int *keysqualifying,
-             int *mark);
-
-
-void JnNv(RSTREE R1, RSTREE R2,
-          int depth,
-          typrect R1rectangle1,
-          typrect R1rectangle2,
-          typrect R2rectangle1,
-          typrect R2rectangle2,
-          DirQueryProc Dir1Query,
-          DataQueryProc Data1Query,
-          DirQueryProc Dir2Query,
-          DataQueryProc Data2Query,
-          DirQueryProc DirJoin,
-          DataQueryProc DataJoin,
-          JoinManageProc Manage,
-          void *buf1,
-          void *buf2,
-          boolean *finish);
-
-
-#endif /* !__RSTJoin_h */
-
diff --git a/modules/RStarTree/RSTQuery.c b/modules/RStarTree/RSTQuery.c
deleted file mode 100644
index 6d8658f..0000000
--- a/modules/RStarTree/RSTQuery.c
+++ /dev/null
@@ -1,540 +0,0 @@
-/* ----- RSTQuery.c ----- */
-
-
-#include "RStarTree.h"
-#include "RSTQuery.h"
-#include "RSTUtil.h"
-#include "RSTInOut.h"
-
-
-/* declarations */
-
-/************************************************************************/
-
-boolean FoundRect(RSTREE R,
-                  int depth,
-                  typrect rectangle,
-                  boolean isinsert,
-                  refinfo *infoadr)
-
-{
-  refparameters par;
-  refcount c;
-  refDATAnode n;
-  int instind;
-  boolean found;
-  int i;
-  
-  i= -1; instind= -1; found= FALSE;
-  
-  par= &(*R).parameters._;
-  
-  if (depth != (*par).height) {
-    if (isinsert) {
-      ChooseSubtree(R,rectangle,depth,&(*(*R).N[depth]).DIR,&instind);
-      (*R).EInst[depth]= instind;
-    }
-    do {
-      i++;
-      if (Covers(R,(*(*R).N[depth]).DIR.entries[i].rect,rectangle)) {
-        (*R).E[depth]= i;
-        depth++;
-        if ((*R).N[depth] == (*R).NInst[depth]) {
-          if ((*R).Nmodified[depth]) {
-            PutNode(R,(*R).N[depth],(*R).P[depth],depth);
-            (*R).Nmodified[depth]= FALSE;
-          }
-          if (depth == (*par).height) {
-            (*R).N[depth]= (refnode)malloc((*R).datanodelen);
-          }
-          else {
-            (*R).N[depth]= (refnode)malloc((*R).dirnodelen);
-          }
-          (*R).P[depth]= (*(*R).N[depth-1]).DIR.entries[i].ptrtosub;
-          GetNode(R,(*R).N[depth],(*R).P[depth],depth);
-        }
-        else if ((*(*R).N[depth-1]).DIR.entries[i].ptrtosub != (*R).P[depth]) {
-          NewNode(R,depth);
-        }
-        if ( i == instind) {
-          (*R).NInst[depth]= (*R).N[depth];
-        }
-        found= FoundRect(R,depth,rectangle,i==instind,infoadr);
-        depth--;
-      }
-    } while (! found && i != (*(*R).N[depth]).DIR.nofentries - 1);
-
-    c = &(*R).count;
-      
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-  }
-  else {
-  
-    n= &(*(*R).N[depth]).DATA;
-    
-    while (! found && i != (*n).nofentries - 1) {
-      i++;
-      found= RSTEqual(R,(*n).entries[i].rect,rectangle);
-      if (found) {
-        (*R).E[depth]= i;
-        *infoadr= &(*n).entries[i].info;
-      }
-    }
-    
-    c = &(*R).count;
-    if ((*c).countflag) {
-      (*c).datavisitcount++;
-    }
-  }
-  if (found) {
-    (*R).EInst[depth]= -1;
-    depth++;
-    if ((*R).NInst[depth] != NULL) {
-      if ((*R).NInst[depth] != (*R).N[depth]) {
-        free((*R).NInst[depth]);
-      }
-      (*R).NInst[depth]= NULL;
-    }
-    depth--;
-  }
-  return found;
-}
-
-/************************************************************************/
-
-void XstsRgn(RSTREE R,
-             int depth,
-             typrect rectangle1,
-             typrect rectangle2,
-             DirQueryProc DirQuery,
-             DataQueryProc DataQuery,
-             boolean *found)
-
-{
-  refcount c;
-  refDIRnode DIN;
-  refDATAnode DAN;
-  boolean istoread;
-  int i;
-  
-  if (depth != (*R).parameters._.height) {
-    
-    DIN= &(*(*R).N[depth]).DIR;
-    
-    i= -1;
-    do {
-      i++;
-      if (DirQuery(R,(*DIN).entries[i].rect,rectangle1,rectangle2)) {
-        (*R).E[depth]= i;
-        istoread= (*DIN).entries[i].ptrtosub != (*R).P[depth+1];
-        if (istoread) {
-          NewNode(R,depth+1);
-        }
-        XstsRgn(R,depth+1,rectangle1,rectangle2,DirQuery,DataQuery,found);
-      }
-    } while (! *found && i != (*DIN).nofentries - 1);
-
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-  }
-  else {
-  
-    DAN= &(*(*R).N[depth]).DATA;
-    
-    i= -1;
-    while (! *found && i != (*DAN).nofentries - 1) {
-      i++;
-      if (DataQuery(R,(*DAN).entries[i].rect,rectangle1,rectangle2)) {
-        (*R).E[depth]= i;
-        *found= TRUE;
-      }
-    }
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datavisitcount++;
-    }
-  }
-}
-
-/************************************************************************/
-
-void RgnCnt(RSTREE R,
-            int depth,
-            typrect rectangle1,
-            typrect rectangle2,
-            DirQueryProc DirQuery,
-            DataQueryProc DataQuery,
-            int *keysqualifying)
-
-{
-  refcount c;
-  refDIRnode DIN;
-  refDATAnode DAN;
-  boolean istoread;
-  int i;
-  
-  if (depth != (*R).parameters._.height) {
-  
-    DIN= &(*(*R).N[depth]).DIR;
-    
-    for (i= 0; i < (*DIN).nofentries; i++) {
-      if (DirQuery(R,(*DIN).entries[i].rect,rectangle1,rectangle2)) {
-        (*R).E[depth]= i;
-        istoread= (*DIN).entries[i].ptrtosub != (*R).P[depth+1];
-        if (istoread) {
-          NewNode(R,depth+1);
-        }
-        RgnCnt(R,depth+1,rectangle1,rectangle2,
-               DirQuery, DataQuery,keysqualifying);
-      }
-    }
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-  }
-  else {
-  
-    DAN= &(*(*R).N[depth]).DATA;
-    
-    for (i= 0; i < (*DAN).nofentries; i++) {
-      if (DataQuery(R,(*DAN).entries[i].rect,rectangle1,rectangle2)) {
-        (*R).E[depth]= i;
-        (*keysqualifying)++;
-      }
-    }
-    
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datavisitcount++;
-    }
-      
-  }
-}
-
-/************************************************************************/
-
-void RgnQuery(RSTREE R,
-              int depth,
-              typrect rectangle1,
-              typrect rectangle2,
-              DirQueryProc DirQuery,
-              DataQueryProc DataQuery,
-              QueryManageProc Manage,
-              void *buf,
-              boolean *finish)
-
-{
-  refcount c;
-  refDIRnode DIN;
-  refDATAnode DAN;
-  boolean istoread;
-  typrect rectfound;
-  int i;
-  
-  if (depth != (*R).parameters._.height) {
-  
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-    
-    DIN= &(*(*R).N[depth]).DIR;
-    
-    for (i= 0; i < (*DIN).nofentries; i++) {
-      if (*finish) {return;}
-      
-      if (DirQuery(R,(*DIN).entries[i].rect,rectangle1,rectangle2)) {
-        (*R).E[depth]= i;
-        istoread= (*DIN).entries[i].ptrtosub != (*R).P[depth+1];
-        if (istoread) {
-          NewNode(R,depth+1);
-        }
-        RgnQuery(R,depth+1,rectangle1,rectangle2,
-                 DirQuery,DataQuery,
-                 Manage,buf,finish);
-      }
-    }
-  }
-  else {
-  
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datavisitcount++;
-    }
-    
-    DAN= &(*(*R).N[depth]).DATA;
-    
-    for (i= 0; i < (*DAN).nofentries; i++) {
-      if (*finish) {return;}
-
-      if (DataQuery(R,(*DAN).entries[i].rect,rectangle1,rectangle2)) {
-        (*R).E[depth]= i;
-        
-        CopyRect(R,(*DAN).entries[i].rect,rectfound); /* avoid modification */
-        Manage(R,rectfound,
-               &(*DAN).entries[i].info,
-               buf,
-               &(*R).Nmodified[depth],
-               finish);
-        
-      }
-    }
-  }
-}
-
-/************************************************************************/
-
-void All(RSTREE R,
-         int depth,
-         QueryManageProc Manage,
-         void *buf,
-         boolean *finish)
-
-{
-  refDIRnode DIN;
-  refDATAnode DAN;
-  typrect rectfound;
-  int i;
-  
-  if (depth != (*R).parameters._.height) {
-  
-    DIN= &(*(*R).N[depth]).DIR;
-    
-    for (i= 0; i < (*DIN).nofentries; i++) {
-      if (*finish) {return;}
-      
-      (*R).E[depth]= i;
-      if ((*DIN).entries[i].ptrtosub != (*R).P[depth+1]) {
-        NewNode(R,depth+1);
-      }
-      All(R,depth+1,Manage,buf,finish);
-    }
-  }
-  else {
-  
-    DAN= &(*(*R).N[depth]).DATA;
-    
-    for (i= 0; i < (*DAN).nofentries; i++) {
-      if (*finish) {return;}
-
-      (*R).E[depth]= i;
-        
-      CopyRect(R,(*DAN).entries[i].rect,rectfound); /* avoid modification */
-      Manage(R,rectfound,
-             &(*DAN).entries[i].info,
-             buf,
-             &(*R).Nmodified[depth],
-             finish);
-        
-    }
-  }
-}
-
-/************************************************************************/
-
-static void dirinfo_init (typdirinfo * info)
-{
-  memset (info, 0, sizeof (typdirinfo));
-  info->Hmin = 1e30;
-  info->Hmax = - 1e30;
-}
-
-static void relative (typrect rect, double * o, double * h)
-{
-  o[0] = (((double)rect[0].l) + ((double)rect[0].h))/2.;
-  o[1] = (((double)rect[1].l) + ((double)rect[1].h))/2.;
-  *h = ((double)rect[0].h) - ((double)rect[0].l);
-  if (((double)rect[1].h) - ((double)rect[1].l) > *h)
-    *h = ((double)rect[1].h) - ((double)rect[1].l);
-}
-
-static void dirinfo_add_dir (typrect parent, typdirinfo * info, typrect rect, typdirinfo * a)
-{
-  double op[2], oa[2], hp, ha;
-
-  relative (parent, op, &hp);
-  relative (rect, oa, &ha);
-  
-  double oap0 = oa[0] - op[0], oap1 = oa[1] - op[1];
-  double an = a->n;
-  double ha2 = ha*ha, hp2 = hp*hp;
-  info->m01 += (an*oap0 + a->m01*ha)/hp;
-  info->m02 += (an*oap1 + a->m02*ha)/hp;
-  info->m03 += (oap0*(an*oap1 + a->m02*ha) + ha*(a->m01*oap1 + a->m03*ha))/hp2;
-  double m11 = (oap0*(an*oap0 + 2.*a->m01*ha) + a->m11*ha2)/hp2;
-  info->m11 += m11;
-  double m13 = ha*(oap0*(a->m02*oap0 + 2.*a->m03*ha) + a->m13*ha2)/hp2;
-  info->m13 += (oap1*m11 + m13)/hp;
-  double m22 = (oap1*(an*oap1 + 2.*a->m02*ha) + a->m22*ha2)/hp2;
-  info->m22 += m22;
-  info->m23 += (oap0*m22 + ha*(oap1*(oap1*a->m01 + 2.*a->m03*ha) + a->m23*ha2)/hp2)/hp;
-  info->m33 += (oap1*(oap1*m11 + 2.*m13) + 
-		ha2*(oap0*(oap0*a->m22 + 2.*a->m23*ha) + ha2*a->m33)/hp2)/hp2;
-  double ha3 = ha2*ha, hp3 = hp2*hp;
-  info->m44 += (oap0*(oap0*(oap0*an + 3.*ha*a->m01) + 3.*ha2*a->m11) + ha3*a->m44)/hp3;
-  info->m55 += (oap1*(oap1*(oap1*an + 3.*ha*a->m02) + 3.*ha2*a->m22) + ha3*a->m55)/hp3;
-  double ha4 = ha3*ha, hp4 = hp3*hp;
-  info->m66 += (oap0*(oap0*(oap0*(oap0*an + 4.*ha*a->m01) + 6.*ha2*a->m11) 
-		      + 4.*ha3*a->m44) + ha4*a->m66)/hp4;
-  info->m77 += (oap1*(oap1*(oap1*(oap1*an + 4.*ha*a->m02) + 6.*ha2*a->m22)
-		      + 4.*ha3*a->m55) + ha4*a->m77)/hp4;
-  info->m67 += (oap1*(oap0*(oap0*(oap0*an + 3.*ha*a->m01) + 3.*ha2*a->m11) + ha3*a->m44)
-		+ oap0*(oap0*(ha*a->m02*oap0 + 3.*ha2*a->m03) + 3.*ha3*a->m13) 
-		+ ha4*a->m67)/hp4;
-  info->m76 += (oap0*(oap1*(oap1*(oap1*an + 3.*ha*a->m02) + 3.*ha2*a->m22) + ha3*a->m55)
-		+ oap1*(oap1*(ha*a->m01*oap1 + 3.*ha2*a->m03) + 3.*ha3*a->m23)
-		+ ha4*a->m76)/hp4;
-  info->H0 += a->H0;
-  info->H1 += (a->H0*oap0 + a->H1*ha)/hp;
-  info->H2 += (a->H0*oap1 + a->H2*ha)/hp;
-  info->H3 += (ha*(ha*a->H3 + oap0*a->H2 + oap1*a->H1) + oap0*oap1*a->H0)/hp2;
-  info->H4 += a->H4;
-  info->H5 += (oap0*(2.*ha*a->H1 + oap0*a->H0) + ha2*a->H5)/hp2;
-  info->H6 += (oap1*(2.*ha*a->H2 + oap1*a->H0) + ha2*a->H6)/hp2;
-  info->n += a->n;
-  if (a->Hmin < info->Hmin) info->Hmin = a->Hmin;
-  if (a->Hmax > info->Hmax) info->Hmax = a->Hmax;
-}
-
-static void dirinfo_add_data (typrect parent, typdirinfo * info, typrect rect, refinfo data)
-{
-  double p[3], o[2], h;
-
-  relative (parent, o, &h);
-
-  p[0] = (((double) rect[0].l) - o[0])/h; p[1] = (((double)rect[1].l) - o[1])/h; 
-  p[2] = data->height;
-  info->m01 += p[0];
-  info->m02 += p[1];
-  info->m03 += p[0]*p[1];
-  info->m11 += p[0]*p[0];
-  info->m13 += p[0]*p[0]*p[1];
-  info->m22 += p[1]*p[1];
-  info->m23 += p[0]*p[1]*p[1];
-  info->m33 += p[0]*p[0]*p[1]*p[1];
-  info->m44 += p[0]*p[0]*p[0];
-  info->m55 += p[1]*p[1]*p[1];
-  info->m66 += p[0]*p[0]*p[0]*p[0];
-  info->m77 += p[1]*p[1]*p[1]*p[1];
-  info->m67 += p[0]*p[0]*p[0]*p[1];
-  info->m76 += p[1]*p[1]*p[1]*p[0];
-  info->H0 += p[2];
-  info->H1 += p[0]*p[2];
-  info->H2 += p[1]*p[2];
-  info->H3 += p[0]*p[1]*p[2];
-  info->H4 += p[2]*p[2];
-  info->H5 += p[0]*p[0]*p[2];
-  info->H6 += p[1]*p[1]*p[2];
-  info->n++;
-  if (p[2] < info->Hmin) info->Hmin = p[2];
-  if (p[2] > info->Hmax) info->Hmax = p[2];
-}
-
-void UpdateAll(RSTREE R,
-	       int depth,
-	       typrect rect,
-	       typdirinfo * info)
-
-{
-  refDIRnode DIN;
-  refDATAnode DAN;
-  typrect rectfound;
-  int i;
-  
-  if (depth != (*R).parameters._.height) {
-  
-    DIN= &(*(*R).N[depth]).DIR;
-    
-    for (i= 0; i < (*DIN).nofentries; i++) {
-      (*R).E[depth]= i;
-      if ((*DIN).entries[i].ptrtosub != (*R).P[depth+1]) {
-        NewNode(R,depth+1);
-      }
-      dirinfo_init (&(*DIN).entries[i].info);
-      (*R).Nmodified[depth] = 1;
-      UpdateAll(R,depth+1,(*DIN).entries[i].rect,&(*DIN).entries[i].info);
-      dirinfo_add_dir (rect,info,(*DIN).entries[i].rect,&(*DIN).entries[i].info);
-    }
-  }
-  else {
-  
-    DAN= &(*(*R).N[depth]).DATA;
-    
-    for (i= 0; i < (*DAN).nofentries; i++) {
-      (*R).E[depth]= i;
-
-      CopyRect(R,(*DAN).entries[i].rect,rectfound); /* avoid modification */
-      dirinfo_add_data (rect,info,rectfound,&(*DAN).entries[i].info);
-    }
-  }
-}
-
-/************************************************************************/
-
-void RgnQueryInfo(RSTREE R,
-		  int depth,
-		  Check includes,
-		  Check intersects,
-		  void * data,
-		  typrect rect,
-		  typdirinfo * info)
-
-{
-  refcount c;
-  refDIRnode DIN;
-  refDATAnode DAN;
-  boolean istoread;
-  typrect rectfound;
-  int i;
-  
-  if (depth != (*R).parameters._.height) {
-  
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).dirvisitcount++;
-    }
-    
-    DIN= &(*(*R).N[depth]).DIR;
-    
-    for (i= 0; i < (*DIN).nofentries; i++) {
-      if ((* includes) ((*DIN).entries[i].rect,data,depth))
-	dirinfo_add_dir (rect, info, (*DIN).entries[i].rect, &(*DIN).entries[i].info);
-      else if ((* intersects) ((*DIN).entries[i].rect,data,depth)) {
-        (*R).E[depth]= i;
-        istoread= (*DIN).entries[i].ptrtosub != (*R).P[depth+1];
-        if (istoread) {
-          NewNode(R,depth+1);
-        }
-        RgnQueryInfo(R,depth+1,includes,intersects,data,rect,info);
-      }
-    }
-  }
-  else {
-  
-    c= &(*R).count;
-    if ((*c).countflag) {
-      (*c).datavisitcount++;
-    }
-    
-    DAN= &(*(*R).N[depth]).DATA;
-    
-    for (i= 0; i < (*DAN).nofentries; i++) {
-
-      if ((* includes) ((*DAN).entries[i].rect,data,depth)) {
-        (*R).E[depth]= i;
-	        
-        CopyRect(R,(*DAN).entries[i].rect,rectfound); /* avoid modification */
-	dirinfo_add_data (rect, info, rectfound, &(*DAN).entries[i].info);
-      }
-    }
-  }
-}
-
-/************************************************************************/
diff --git a/modules/RStarTree/RSTQuery.h b/modules/RStarTree/RSTQuery.h
deleted file mode 100644
index 7404cca..0000000
--- a/modules/RStarTree/RSTQuery.h
+++ /dev/null
@@ -1,65 +0,0 @@
-/* -----  RSTQuery.h  ----- */
-#ifndef __RSTQuery_h
-#define __RSTQuery_h
-
-
-#include "RStarTree.h"
-
-
-/* declarations */
-
-boolean FoundRect(RSTREE R,
-                  int depth,
-                  typrect rectangle,
-                  boolean isinsert,
-                  refinfo *infoadr);
-
-void XstsRgn(RSTREE R,
-             int depth,
-             typrect rectangle1,
-             typrect rectangle2,
-             DirQueryProc DirQuery,
-             DataQueryProc DataQuery,
-             boolean *found);
-
-
-void RgnCnt(RSTREE R,
-            int depth,
-            typrect rectangle1,
-            typrect rectangle2,
-            DirQueryProc DirQuery,
-            DataQueryProc DataQuery,
-            int *keysqualifying);
-
-
-void RgnQuery(RSTREE R,
-              int depth,
-              typrect rectangle1,
-              typrect rectangle2,
-              DirQueryProc DirQuery,
-              DataQueryProc DataQuery,
-              QueryManageProc Manage,
-              void *buf,
-              boolean *finish);
-
-void All(RSTREE R,
-         int depth,
-         QueryManageProc Manage,
-         void *buf,
-         boolean *finish);
-
-void UpdateAll(RSTREE R,
-	       int depth,
-	       typrect rect,
-	       typdirinfo * info);
-
-void RgnQueryInfo(RSTREE R,
-		  int depth,
-		  Check includes,
-		  Check intersects,
-		  void * data,
-		  typrect rect,
-		  typdirinfo * info);
-
-#endif /* !__RSTQuery_h */
-
diff --git a/modules/RStarTree/RSTUtil.c b/modules/RStarTree/RSTUtil.c
deleted file mode 100644
index 6763c58..0000000
--- a/modules/RStarTree/RSTUtil.c
+++ /dev/null
@@ -1,843 +0,0 @@
-/* ----- RSTUtil.c ----- */
-
-
-#include "RStarTree.h"
-#include "RSTUtil.h"
-
-
-/* declarations */
-
-static void ExChange(int *x, int *y);
-static void CSWorkAround(RSTREE R,
-                         typrect newrect,
-                         refDIRnode node,
-                         int index,
-                         double space,
-                         double newspace);
-
-
-/***********************************************************************/
-
-void FalseArray(int *ptr, int wordsqty)
-
-{
-  int i;
-  
-  i= 1;
-  while (i <= wordsqty) {
-    *ptr= FALSE;
-    ptr++;
-    i++;
-  }
-}
-
-/***********************************************************************/
-
-void CopyRect(RSTREE R,
-              typrect from,
-              typrect to)
-
-{
-  int d;
-  for (d= 0; d <= (*R).parameters._.maxdim; d++) {
-    to[d]= from[d];
-  }
-}
-
-/***********************************************************************/
-
-void EvalCenter(RSTREE R, typrect rectangle, typpoint center)
-
-{
-  int i;
-  
-  for (i= 0; i <= (*R).parameters._.maxdim; i++) {
-    center[i]= (rectangle[i].l + rectangle[i].h) / 2.0;
-  }
-}
-
-/***********************************************************************/
-
-double RSTDistance(RSTREE R, typpoint point1, typpoint point2)
-
-{
-  double sum, factor;
-  int i;
-
-  sum= 0.0;
-  for (i= 0; i <= (*R).parameters._.maxdim; i++) {
-    factor= point1[i] - point2[i];
-    sum= sum+factor*factor;
-  }
-  return sum; /* relativ distance (sqrt avoided) */
-}
-
-/***********************************************************************/
-
-void EvalDirEnclRect(RSTREE R, typDIRnode *node, typrect rectangle)
-
-{
-  int maxdim;
-  refinterval re;
-  int i, j;
-  
-  maxdim= (*R).parameters._.maxdim;
-  CopyRect(R,(*node).entries[0].rect,rectangle);
-  for (i= 0; i < (*node).nofentries; i++) {
-    for (j= 0; j <= maxdim; j++) {
-    
-      re= &(*node).entries[i].rect[j];
-      
-      if (rectangle[j].l > (*re).l) {
-        rectangle[j].l= (*re).l;
-      }
-      if (rectangle[j].h < (*re).h) {
-        rectangle[j].h= (*re).h;
-      }
-    }
-  }
-}
-
-/***********************************************************************/
-
-void EvalDataEnclRect(RSTREE R, typDATAnode *node, typrect rectangle)
-
-{
-  int maxdim;
-  refinterval re;
-  int i, j;
-  
-  maxdim= (*R).parameters._.maxdim;
-  CopyRect(R,(*node).entries[0].rect,rectangle);
-  for (i= 0; i < (*node).nofentries; i++) {
-    for (j= 0; j <= maxdim; j++) {
-    
-      re= &(*node).entries[i].rect[j];
-      
-      if (rectangle[j].l > (*re).l) {
-        rectangle[j].l= (*re).l;
-      }
-      if (rectangle[j].h < (*re).h) {
-        rectangle[j].h= (*re).h;
-      }
-    }
-  }
-}
-
-/***********************************************************************/
-
-boolean Overlaps(RSTREE R,
-                 typrect rect1,
-                 typrect rect2)
-
-{
-  boolean ovlp;
-  int maxdim;
-  int d;
-  
-  maxdim= (*R).parameters._.maxdim;
-  d= -1;
-  do {
-    d++;
-    ovlp= rect1[d].l <= rect2[d].h &&
-          rect1[d].h >= rect2[d].l;
-  } while (ovlp && d != maxdim);
-  return ovlp;
-}
-
-/***********************************************************************/
-
-void GetOverlap(RSTREE R,
-                typrect r1,
-                typrect r2,
-                double *spc)
-
-{
-  double low, high;
-  int i;
-
-  *spc= 1.0;
-  for (i= 0; i <= (*R).parameters._.maxdim; i++) {
-    if (r1[i].l < r2[i].l) {
-      low= r2[i].l;
-    }
-    else {
-      low= r1[i].l;
-    }
-    if (r1[i].h < r2[i].h) {
-      high= r1[i].h;
-    }
-    else {
-      high= r2[i].h;
-    }
-    *spc= *spc * (high-low);
-  }
-}
-
-/***********************************************************************/
-
-boolean RSTEqual(RSTREE R,
-                 typrect rect1,
-                 typrect rect2)
-
-{
-  boolean eql;
-  int d;
-  
-  d= -1;
-  do {
-    d++;
-    eql= rect1[d].l == rect2[d].l &&
-         rect1[d].h == rect2[d].h;
-  } while (eql && d != (*R).parameters._.maxdim);
-  return eql;
-}
-
-/***********************************************************************/
-
-boolean  Covers(RSTREE R,
-                typrect crect,
-                typrect rect)
-
-{
-  boolean cov;
-  int maxdim;
-  int d;
-  
-  maxdim= (*R).parameters._.maxdim;
-  d= -1;
-  do {
-    d++;
-    cov= crect[d].l <= rect[d].l &&
-         crect[d].h >= rect[d].h;
-  } while (cov && d != (*R).parameters._.maxdim);
-  return cov;
-}
-
-/***********************************************************************/
-
-void QuickSortValArr(int begin,
-                     int end,
-                     ValueArray value,
-                     IndexArray I)
-/* Sorts I
-   by value[I[i]]. */
-
-{
-  double midelem;
-  int i, j;
-  
-  i= begin; j= end;
-  midelem= value[I[(i+j) / 2]];
-  do {
-    while (value[I[i]] < midelem) {
-      i++;
-    }
-    while (value[I[j]]>midelem) {
-      j--;
-    }
-    if (i < j) {
-      ExChange(&I[i],&I[j]);
-      i++; j--;
-    }
-    else if (i == j) {
-      i++; j--;
-    }
-  } while (i <= j);
-  if (begin < j) {
-    if (j - begin > 1) {
-      QuickSortValArr(begin,j,value,I);
-    }
-    else {
-      if (value[I[begin]] > value[I[j]]) {
-        ExChange(&I[begin],&I[j]);
-      }
-    }
-  }
-  if (i < end) {
-    if (end - i > 1) {
-      QuickSortValArr(i,end,value,I);
-    }
-    else {
-      if (value[I[i]] > value[I[end]]) {
-        ExChange(&I[i],&I[end]);
-      }
-    }
-  }
-}
-
-/***********************************************************************/
-
-void QuickSortDirEnt(int begin,
-                     int end,
-                     int dim,
-                     Side side,
-                     typDIRentries Ntosort,
-                     IndexArray I)
-/* Sorts I
-   primarily   by Ntosort[I[i]].rect[dim].side,
-   secondarily by Ntosort[I[i]].rect[dim]."otherside". */
-
-{
-  refinterval re;
-  typatomkey midlow, midhigh;
-  typinterval int1, int2;
-  int i, j;
-  
-  i= begin; j= end;
-  if (side == low) {
-  
-    re = &Ntosort[I[(i+j) / 2]].rect[dim];
-    
-    midlow= (*re).l;
-    midhigh= (*re).h;
-    do {
-      while ( Ntosort[I[i]].rect[dim].l < midlow ||
-              ( Ntosort[I[i]].rect[dim].l == midlow &&
-                Ntosort[I[i]].rect[dim].h < midhigh ) ) {
-        i++;
-      }
-      while ( Ntosort[I[j]].rect[dim].l > midlow ||
-              ( Ntosort[I[j]].rect[dim].l == midlow &&
-                Ntosort[I[j]].rect[dim].h > midhigh ) ) {
-        j--;
-      }
-      if (i < j) {
-        ExChange(&I[i],&I[j]);
-        i++; j--;
-      }
-      else if (i == j) {
-        i++; j--;
-      }
-    } while (i <= j);
-    if (begin < j) {
-      if (j - begin > 1) {
-        QuickSortDirEnt(begin,j,dim,low,Ntosort,I);
-      }
-      else {
-        int1= Ntosort[I[begin]].rect[dim];
-        int2= Ntosort[I[j]].rect[dim];
-        if ( int1.l > int2.l ||
-             ( int1.l == int2.l &&
-               int1.h > int2.h ) ) {
-          ExChange(&I[begin],&I[j]);
-        }
-      }
-    }
-    if (i < end) {
-      if (end - i > 1) {
-        QuickSortDirEnt(i,end,dim,low,Ntosort,I);
-      }
-      else {
-        int1= Ntosort[I[i]].rect[dim];
-        int2= Ntosort[I[end]].rect[dim];
-        if ( int1.l > int2.l ||
-             ( int1.l == int2.l &&
-               int1.h > int2.h ) ) {
-          ExChange(&I[i],&I[end]);
-        }
-      }
-    }
-  }
-  else {
-  
-    re = &Ntosort[I[(i+j) / 2]].rect[dim];
-    
-    midhigh= (*re).h;
-    midlow= (*re).l;
-    do {
-      while ( Ntosort[I[i]].rect[dim].h < midhigh ||
-              ( Ntosort[I[i]].rect[dim].h == midhigh &&
-                Ntosort[I[i]].rect[dim].l < midlow ) ) {
-        i++;
-      };
-      while ( Ntosort[I[j]].rect[dim].h > midhigh ||
-              ( Ntosort[I[j]].rect[dim].h == midhigh &&
-                Ntosort[I[j]].rect[dim].l > midlow ) ) {
-        j--;
-      };
-      if (i < j) {
-        ExChange(&I[i],&I[j]);
-        i++; j--;
-      }
-      else if (i == j) {
-        i++; j--;
-      }
-    } while (i <= j);
-    if (begin < j) {
-      if (j - begin > 1) {
-        QuickSortDirEnt(begin,j,dim,high,Ntosort,I);
-      }
-      else {
-        int1= Ntosort[I[begin]].rect[dim];
-        int2= Ntosort[I[j]].rect[dim];
-        if ( int1.h > int2.h ||
-             ( int1.h == int2.h &&
-               int1.l > int2.l ) ) {
-          ExChange(&I[begin],&I[j]);
-        }
-      }
-    }
-    if (i < end) {
-      if (end - i > 1) {
-        QuickSortDirEnt(i,end,dim,high,Ntosort,I);
-      }
-      else {
-        int1= Ntosort[I[i]].rect[dim];
-        int2= Ntosort[I[end]].rect[dim];
-        if ( int1.h > int2.h ||
-             ( int1.h == int2.h &&
-               int1.l > int2.l ) ) {
-          ExChange(&I[i],&I[end]);
-        }
-      }     
-    }
-  }
-}
-
-/***********************************************************************/
-
-void QuickSortDataEnt(int begin,
-                      int end,
-                      int dim,
-                      Side side,
-                      typDATAentries Ntosort,
-                      IndexArray I)
-/* Sorts I
-   primarily   by Ntosort[I[i]].rect[dim].side,
-   secondarily by Ntosort[I[i]].rect[dim]."otherside". */
-
-{
-  refinterval re;
-  typatomkey midlow, midhigh;
-  typinterval int1, int2;
-  int i, j;
-  
-  i= begin; j= end;
-  if (side == low) {
-  
-    re = &Ntosort[I[(i+j) / 2]].rect[dim];
-    
-    midlow= (*re).l;
-    midhigh= (*re).h;
-    do {
-      while ( Ntosort[I[i]].rect[dim].l < midlow ||
-              ( Ntosort[I[i]].rect[dim].l == midlow &&
-                Ntosort[I[i]].rect[dim].h < midhigh ) ) {
-        i++;
-      }
-      while ( Ntosort[I[j]].rect[dim].l > midlow ||
-              ( Ntosort[I[j]].rect[dim].l == midlow &&
-                Ntosort[I[j]].rect[dim].h > midhigh ) ) {
-        j--;
-      }
-      if (i < j) {
-        ExChange(&I[i],&I[j]);
-        i++; j--;
-      }
-      else if (i == j) {
-        i++; j--;
-      }
-    } while (i <= j);
-    if (begin < j) {
-      if (j - begin > 1) {
-        QuickSortDataEnt(begin,j,dim,low,Ntosort,I);
-      }
-      else {
-        int1= Ntosort[I[begin]].rect[dim];
-        int2= Ntosort[I[j]].rect[dim];
-        if ( int1.l > int2.l ||
-             ( int1.l == int2.l &&
-               int1.h > int2.h ) ) {
-          ExChange(&I[begin],&I[j]);
-        }
-      }
-    }
-    if (i < end) {
-      if (end - i > 1) {
-        QuickSortDataEnt(i,end,dim,low,Ntosort,I);
-      }
-      else {
-        int1= Ntosort[I[i]].rect[dim];
-        int2= Ntosort[I[end]].rect[dim];
-        if ( int1.l > int2.l ||
-             ( int1.l == int2.l &&
-               int1.h > int2.h ) ) {
-          ExChange(&I[i],&I[end]);
-        }
-      }
-    }
-  }
-  else {
-  
-    re = &Ntosort[I[(i+j) / 2]].rect[dim];
-    
-    midhigh= (*re).h;
-    midlow= (*re).l;
-    do {
-      while ( Ntosort[I[i]].rect[dim].h < midhigh ||
-              ( Ntosort[I[i]].rect[dim].h == midhigh &&
-                Ntosort[I[i]].rect[dim].l < midlow ) ) {
-        i++;
-      };
-      while ( Ntosort[I[j]].rect[dim].h > midhigh ||
-              ( Ntosort[I[j]].rect[dim].h == midhigh &&
-                Ntosort[I[j]].rect[dim].l > midlow ) ) {
-        j--;
-      };
-      if (i < j) {
-        ExChange(&I[i],&I[j]);
-        i++; j--;
-      }
-      else if (i == j) {
-        i++; j--;
-      }
-    } while (i <= j);
-    if (begin < j) {
-      if (j - begin > 1) {
-        QuickSortDataEnt(begin,j,dim,high,Ntosort,I);
-      }
-      else {
-        int1= Ntosort[I[begin]].rect[dim];
-        int2= Ntosort[I[j]].rect[dim];
-        if ( int1.h > int2.h ||
-             ( int1.h == int2.h &&
-               int1.l > int2.l ) ) {
-          ExChange(&I[begin],&I[j]);
-        }
-      }
-    }
-    if (i < end) {
-      if (end - i > 1) {
-        QuickSortDataEnt(i,end,dim,high,Ntosort,I);
-      }
-      else {
-        int1= Ntosort[I[i]].rect[dim];
-        int2= Ntosort[I[end]].rect[dim];
-        if ( int1.h > int2.h ||
-             ( int1.h == int2.h &&
-               int1.l > int2.l ) ) {
-          ExChange(&I[i],&I[end]);
-        }
-      }     
-    }
-  }
-}
-
-/***********************************************************************/
-
-static void ExChange(int *x, int *y)
-
-{
-  int z;
-  
-  z= *x; *x= *y; *y= z;
-}
-
-/***********************************************************************/
-
-void ChooseSubtree(RSTREE R,
-                   typrect newrect,
-                   int depth,
-                   typDIRnode *node,
-                   int *found)
-
-{
-  int maxexam, inv;
-  typatomkey low, high;
-  double space, newspace,
-  enlarge,
-  validspace, ovlpspc, overlap, leastovlp;
-  boolean didfit, first, ok;
-  ValueArray enlarr;
-  IndexArray I;
-  typrect enlargedrect;
-  int maxdim;
-  refparameters par;
-  refinterval re;
-  refDIRent e;
-  int i, j, k;
-  
-  didfit= FALSE; ok= TRUE;
-  maxdim= (*R).parameters._.maxdim;
-  for (i= 0; i < (*node).nofentries; i++) {
-    space= 1.0; newspace= 1.0;
-    for (j= 0; j <= maxdim; j++) {
-    
-      re= &(*node).entries[i].rect[j];
-      
-      low= (*re).l;
-      high= (*re).h;
-      space= space * (high - low);
-      
-      re= &newrect[j];
-      
-      if (low > (*re).l) {
-        low= (*re).l;
-      }
-      if (high < (*re).h) {
-        high= (*re).h;
-      }
-      newspace= newspace * (high - low);
-    }
-    if (space == 0.0) {
-      CSWorkAround(R,newrect,node,i,space,newspace);
-      ok= FALSE;
-    } /* trap degenerated rectangles */
-    if (didfit) {
-      if (newspace == space) { /* it fits */
-        if (space < validspace) {
-          validspace= space;
-          *found= i;
-        }
-      }
-    }
-    else {
-      enlarge= newspace - space;
-      if (enlarge == 0.0) {
-        validspace= space;
-        *found= i;
-        didfit= TRUE;
-      }
-      else {
-        enlarr[i]= enlarge;
-      }
-    }
-  }
-  if (! didfit) {
-    for (i= 0; i < (*node).nofentries; i++) {
-      I[i]= i;
-    }
-    QuickSortValArr(0,(*node).nofentries - 1,enlarr,I);
-    if (ok && depth == (*R).parameters._.height - 1) { /* Subtrees are leafs */
-    
-      par = &(*R).parameters._;
-      
-      if ((*node).nofentries < (*par).nbrsexam) {
-        maxexam= (*node).nofentries;
-      }
-      else {
-        maxexam= (*par).nbrsexam;
-      }
-
-/*    maxexam= (*node).nofentries; *//* <- all  *) */
-
-      first= TRUE;
-      for (i= 0; i < maxexam; i++) {
-        for (j= 0; j <= maxdim; j++) {
-        
-          re= &(*node).entries[I[i]].rect[j];
-          
-          low= (*re).l;
-          high= (*re).h;
-          
-          re= &enlargedrect[j];
-          
-          (*re).l= low;
-          (*re).h= high;
-          if (low > newrect[j].l) {
-            (*re).l= newrect[j].l;
-          }
-          if (high < newrect[j].h) {
-            (*re).h= newrect[j].h;
-          }
-        } /* Create enlargedrect */
-        overlap= 0.0;
-        for (k= 0; k < (*node).nofentries; k++) {
-          if (k != i) {
-          
-            e= &(*node).entries[I[k]];
-            
-            if (Overlaps(R,enlargedrect,(*e).rect)) {
-              GetOverlap(R,enlargedrect,(*e).rect,&ovlpspc);
-              overlap= overlap+ovlpspc;
-              if (Overlaps(R,(*node).entries[I[i]].rect,(*e).rect)) {
-                GetOverlap(R,(*node).entries[I[i]].rect,(*e).rect,&ovlpspc);
-                overlap= overlap-ovlpspc;
-              }
-            }
-          }
-        }
-        if (first) {
-          leastovlp= overlap;
-          *found= I[0];
-          inv= 1;
-          first= FALSE;
-        }
-        else {
-          if (overlap < leastovlp) {
-            leastovlp= overlap;
-            *found= I[i];
-            inv= i;
-          }
-        }
-      }
-    }
-    else { /* Subtrees are not leafs */
-      *found= I[0];
-    }
-  }
-}
-
-/***********************************************************************/
-
-static void CSWorkAround(RSTREE R,
-                         typrect newrect,
-                         typDIRnode *node,
-                         int index,
-                         double space,
-                         double newspace)
-
-{
-#define epsilon (1.0e-100)
-  
-  typatomkey low, high;
-  double distance;
-  refinterval re;
-  int j;
-  
-  space= 1.0; newspace= 1.0;
-  for (j= 0; j <= (*R).parameters._.maxdim; j++) {
-  
-    re= &(*node).entries[index].rect[j];
-    
-    low= (*re).l;
-    high= (*re).h;
-    distance= high - low;
-    if (distance == 0.0) {
-      distance= epsilon;
-    }
-    space= space * distance;
-    
-    re= &newrect[j];
-    
-    if (low > (*re).l) {
-      low= (*re).l;
-    }
-    if (high < (*re).h) {
-      high= (*re).h;
-    }
-    distance= high - low;
-    if (distance == 0.0) {
-      distance= epsilon;
-    }
-    newspace= newspace * distance;
-  }
-
-#undef epsilon
-}
-
-/***********************************************************************/
-
-void AdjustChain(RSTREE R,
-                 int depth,
-                 typrect newrect)
-
-{
-  refinterval re;
-  refcount c;
-  int maxdim;
-  boolean adjusting;
-  int j;
-  
-  c= &(*R).count;
-  maxdim= (*R).parameters._.maxdim;
-
-  adjusting= TRUE;
-  
-  if (depth == (*R).parameters._.height) {
-    adjusting= FALSE;
-    for (j= 0; j <= maxdim; j++) {
-      
-      re = &(*(*R).N[depth]).DATA.entries[(*R).E[depth]].rect[j];
-        
-      if ((*re).l > newrect[j].l) {
-        (*re).l= newrect[j].l;
-        adjusting= TRUE;
-      }
-      if ((*re).h < newrect[j].h) {
-        (*re).h= newrect[j].h;
-        adjusting= TRUE;
-      }
-    }
-    if (adjusting) {
-      (*R).Nmodified[depth]= TRUE;
-      if ((*c).countflag) {
-        (*c).dirmodifycount++;
-      }
-    }
-    depth--;
-  }
-  while (depth != 0 && adjusting) {
-    adjusting= FALSE;
-    for (j= 0; j <= maxdim; j++) {
-      
-      re = &(*(*R).N[depth]).DIR.entries[(*R).E[depth]].rect[j];
-        
-      if ((*re).l > newrect[j].l) {
-        (*re).l= newrect[j].l;
-        adjusting= TRUE;
-      }
-      if ((*re).h < newrect[j].h) {
-        (*re).h= newrect[j].h;
-        adjusting= TRUE;
-      }
-    }
-    if (adjusting) {
-      (*R).Nmodified[depth]= TRUE;
-      if ((*c).countflag) {
-        (*c).dirmodifycount++;
-      }
-    }
-    depth--;
-  }
-}
-
-/***********************************************************************/
-
-void AdjustChainAfterDeletion(RSTREE R,
-                              int depth)
-
-{
-  refDIRent e;
-  refcount c;
-  boolean changed;
-  typrect helprect;
-  
-  c= &(*R).count;
-  
-  changed= TRUE;
-  
-  if (depth == (*R).parameters._.height && depth != 1) {
-    EvalDataEnclRect(R,&(*(*R).N[depth]).DATA,helprect);
-    depth--;
-      
-    e = &(*(*R).N[depth]).DIR.entries[(*R).E[depth]];
-      
-    changed= ! RSTEqual(R,helprect,(*e).rect);
-    if (changed) {
-      CopyRect(R,helprect,(*e).rect);
-      (*R).Nmodified[depth]= TRUE;
-      if ((*c).countflag) {
-        (*c).dirmodifycount++;
-      }
-    }
-  }
-  while (depth != 1 && changed) {
-    EvalDirEnclRect(R,&(*(*R).N[depth]).DIR,helprect);
-    depth--;
-      
-    e = &(*(*R).N[depth]).DIR.entries[(*R).E[depth]];
-      
-    changed= ! RSTEqual(R,helprect,(*e).rect);
-    if (changed) {
-      CopyRect(R,helprect,(*e).rect);
-      (*R).Nmodified[depth]= TRUE;
-      if ((*c).countflag) {
-        (*c).dirmodifycount++;
-      }
-    }
-  }
-}
-
-/***********************************************************************/
diff --git a/modules/RStarTree/RSTUtil.h b/modules/RStarTree/RSTUtil.h
deleted file mode 100644
index 6e00213..0000000
--- a/modules/RStarTree/RSTUtil.h
+++ /dev/null
@@ -1,84 +0,0 @@
-/* -----  RSTUtil.h  ----- */
-#ifndef __RSTUtil_h
-#define __RSTUtil_h
-
-
-#include "RStarTree.h"
-
-
-/* declarations */
-
-void     FalseArray(int *ptr,
-                    int wordsqty);
-
-void     CopyRect(RSTREE,
-                  typrect from,
-                  typrect to);
-
-void     EvalCenter(RSTREE R,
-                    typrect rectangle,
-                    typpoint center);
-
-double   RSTDistance(RSTREE R,
-                     typpoint point1,
-                     typpoint point2);
-
-void     EvalDirEnclRect(RSTREE R,
-                         refDIRnode node,
-                         typrect rect);
-
-void     EvalDataEnclRect(RSTREE R,
-                          refDATAnode node,
-                          typrect rect);
-
-boolean  Overlaps(RSTREE R,
-                  typrect rect1,
-                  typrect rect2);
-
-boolean  RSTEqual(RSTREE R,
-                  typrect rect1,
-                  typrect rect2);
-
-boolean  Covers(RSTREE R,
-                typrect crect,
-                typrect rect);
-
-void     GetOverlap(RSTREE R,
-                    typrect r1,
-                    typrect r2,
-                    double *spc);
-
-void     QuickSortValArr(int begin,
-                         int end,
-                         ValueArray value,
-                         IndexArray I);
-
-void     QuickSortDirEnt(int begin,
-                         int end,
-                         int dim,
-                         Side side,
-                         typDIRentries Ntosort,
-                         IndexArray I);
-                     
-void     QuickSortDataEnt(int begin,
-                          int end,
-                          int dim,
-                          Side side,
-                          typDATAentries Ntosort,
-                          IndexArray I);
-
-void     ChooseSubtree(RSTREE R,
-                       typrect newrect,
-                       int depth,
-                       refDIRnode node,
-                       int *found);
-
-void     AdjustChain(RSTREE R,
-                     int depth,
-                     typrect newrect);
-
-void     AdjustChainAfterDeletion(RSTREE R,
-                                  int depth);
-
-
-#endif /* !__RSTUtil_h */
diff --git a/modules/RStarTree/RStarTree.c b/modules/RStarTree/RStarTree.c
deleted file mode 100644
index cf71aff..0000000
--- a/modules/RStarTree/RStarTree.c
+++ /dev/null
@@ -1,920 +0,0 @@
-/* ----- RStarTree.c ----- */
-
-#include <stdlib.h>
-
-#include "RStarTree.h"
-#include "RSTInterUtil.h"
-#include "RSTInOut.h"
-#include "RSTInstDel.h"
-#include "RSTQuery.h"
-#include "RSTJoin.h"
-
-
-/* constants */
-
-
-/* types */
-
-
-/* declarations */
-
-static void BasicCheck(void);
-/*** --- Begin --- unused ***
-static boolean InternEqual(RSTREE rst,
-                           typrect RSTrect,
-                           typrect qrect1,
-                           typrect qrect2);
-static boolean InternEncloses(RSTREE rst,
-                              typrect RSTrect,
-                              typrect qrect1,
-                              typrect qrect2);
- *** ---   End --- unused ***/
-
-/************************************************************************/
-
-void NoRSTree(RSTREE *r)
-
-{
-  *r= NULL;
-}
-
-/************************************************************************/
-
-boolean CreateRST(char *name,
-                  int pagelen,
-                  boolean unique)
-
-{
-  RSTREE R;
-  refparameters par;
-  
-  BasicCheck();
-  
-  R= (RSTREE)malloc(sizeof(rstree));
-  strcpy((*R).dirname,name);
-  (*R).RSTDone= TRUE;
-  CreateRSFiles(R);
-  if (! (*R).RSTDone) {
-    free(R); R= NULL;
-    return FALSE;
-  }
-  SetBase(R,pagelen,unique);
-  if (! (*R).RSTDone) {
-    free(R); R= NULL;
-    return FALSE;
-  }
-  (*R).dirPD.bl= SIZEfixblock;
-  
-  par= &(*R).parameters._;
-  
-  WritePage(R,(*R).dirPD,paramblocknumb,par);
-  WritePage(R,(*R).dirPD,firstPDblocknumb,&(*R).dirpagedir);
-  (*R).dataPD.bl= SIZEfixblock;
-  WritePage(R,(*R).dataPD,paramblocknumb,par);     /* -- unused -- */
-  WritePage(R,(*R).dataPD,firstPDblocknumb,&(*R).datapagedir);
-  (*R).data.bl= (*par).pagelen;
-  (*R).N[1]= (refnode)malloc((*R).datanodelen);
-  (*(*R).N[1]).DATA.nofentries= 0;
-  PutNode(R,(*R).N[1],rootblocknumb,1);
-  free((*R).N[1]);
-  if (! (*R).RSTDone) {
-    free(R); R= NULL;
-    return FALSE;
-  }
-  CloseRSFiles(R);
-  if (! (*R).RSTDone) {
-    free(R); R= NULL;
-    return FALSE;
-  }
-  free(R); R= NULL;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean RemoveRST(char *name)
-
-{
-  RSTName SufName;
-  boolean success= TRUE;
-
-  if (unlink(name) != 0) {
-    success= FALSE;
-  }
-  strcpy(SufName,name);
-  strcat(SufName,datasuffix);
-  if (unlink(SufName) != 0) {
-    success= FALSE;
-  }
-  strcpy(SufName,name);
-  strcat(SufName,dirPDsuffix);
-  if (unlink(SufName) != 0) {
-    success= FALSE;
-  }
-  strcpy(SufName,name);
-  strcat(SufName,dataPDsuffix);
-  if (unlink(SufName) != 0) {
-    success= FALSE;
-  }
-  return success;
-}
-
-/************************************************************************/
-
-boolean OpenRST(RSTREE *r,
-                const char *name,
-		const char *mode)
-
-{
-  RSTREE R;
-  refparameters par;
-  
-  if (*r != NULL) {
-    return FALSE;
-  }
-  *r= (RSTREE)malloc(sizeof(rstree));
-  R= *r;
-  strcpy((*R).dirname,name);
-  (*R).RSTDone= TRUE;
-  OpenRSFiles(R, strcmp (mode, "rw") ? O_RDONLY : O_RDWR);
-  if (! (*R).RSTDone) {
-    free(R); *r= NULL;
-    return FALSE;
-  }
-  InitChainFlags(R);
-  (*R).dirPD.bl= SIZEfixblock;
-  
-  par= &(*R).parameters._;
-  
-  ReadPage(R,(*R).dirPD,paramblocknumb,par);
-  ReadPage(R,(*R).dirPD,firstPDblocknumb,&(*R).dirpagedir);
-  (*R).dataPD.bl= SIZEfixblock;
-  ReadPage(R,(*R).dataPD,firstPDblocknumb,&(*R).datapagedir);
-  if (! (*R).RSTDone) {
-    FastCloseRSFiles(R);
-    free(R); *r= NULL;
-    return FALSE;
-  }
-  SetCheckDir(R,FALSE);
-  SetCheckData(R,FALSE);
-  AllocBuffers(R);
-  (*R).dir.bl= (*par).pagelen;
-  (*R).data.bl= (*par).pagelen;
-  GetNode(R,(*R).N[1],rootblocknumb,1); (*R).P[1]= rootblocknumb;
-  InitCount(R);
-  if (! (*R).RSTDone) {
-    FastCloseRSFiles(R);
-    DeallocBuffers(R);
-    free(R); *r= NULL;
-    return FALSE;
-  }
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean CloseRST(RSTREE *r)
-
-{
-  RSTREE R;
-  refparameters par;
-  boolean success;
-  int i;
-  
-  if (*r == NULL) {
-    return FALSE;
-  }
-  R= *r;
-  (*R).RSTDone= TRUE;
-  
-  par= &(*R).parameters._;
-  WritePage(R,(*R).dirPD,paramblocknumb,par);
-  WritePage(R,(*R).dirPD,firstPDblocknumb,&(*R).dirpagedir);
-  WritePage(R,(*R).dataPD,paramblocknumb,par);     /* -- unused -- */
-  WritePage(R,(*R).dataPD,firstPDblocknumb,&(*R).datapagedir);
-  for (i= 1; i <= (*par).height; i++) {
-    if ((*R).Nmodified[i]) {
-      PutNode(R,(*R).N[i],(*R).P[i],i);
-    }
-  }
-  if (! (*R).RSTDone) {
-    return (*R).RSTDone;
-  }
-  CloseRSFiles(R);
-  if (! (*R).RSTDone) {
-    return (*R).RSTDone;
-  }
-  DeallocBuffers(R);
-  success= (*R).RSTDone;
-  free(R); *r= NULL;
-  return success;
-}
-
-/************************************************************************/
-
-boolean SetUnique(RSTREE R,
-                  boolean mode)
-
-{
-  if (R == NULL) {
-    return FALSE;
-  }
-  (*R).parameters._.unique= mode;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean InsertRecord(RSTREE R,
-                     typrect rectangle,
-                     typinfo *info,
-                     boolean *inserted)
-
-{
-  refparameters par;
-  typentry entry;
-  refinfo infoadr;
-  int d;
-  
-  if (R == NULL) {
-    *inserted= FALSE;
-    return FALSE;
-  }
-  
-  (*R).RSTDone= TRUE;
-  
-  par= &(*R).parameters._;
-  
-  if ((*par).unique) {
-    *inserted= ! FoundRect(R,1,rectangle,TRUE,&infoadr);
-  }
-  else {
-    *inserted= TRUE;
-  }
-  if (*inserted) {
-    for (d= 0; d <= (*par).maxdim; d++) {
-      entry.DATA.rect[d]= rectangle[d];      
-    }
-    entry.DATA.info= *info;
-    (*R).ReInsert[(*par).height]= TRUE; /* general switch for Forced ReInsert */
-    Insert(R,&entry,(*par).height);
-    (*R).ReInsert[(*par).height]= FALSE;
-    *inserted= (*R).RSTDone;
-    if (*inserted) {
-      (*par).recordcount++;
-    }
-  }
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
-
-boolean DeleteRecord(RSTREE R,
-                     typrect rectangle,
-                     boolean *deleted)
-
-{
-  refinfo infoadr;
-    
-  if (R == NULL) {
-    *deleted= FALSE;
-    return FALSE;
-  }
-  
-  (*R).RSTDone= TRUE;
-  
-  *deleted= FoundRect(R,1,rectangle,FALSE,&infoadr);
-  if (*deleted) {
-    DeleteOneRec(R);
-    *deleted= (*R).RSTDone;
-    if (*deleted) {
-      (*R).parameters._.recordcount--;
-    }
-  }
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
-
-boolean ExistsRegion(RSTREE R,
-                     typrect rectangle1,
-                     typrect rectangle2,
-                     DirQueryProc DirQuery,
-                     DataQueryProc DataQuery,
-                     boolean *regionfound)
-
-{
-  if (R == NULL) {
-    *regionfound= FALSE;
-    return FALSE;
-  }
-  /*
-  int i;
-  for (i= 2; i <= (*R).parameters._.height; i++) {
-    if ((*R).Nmodified[i]) {
-      PutNode(R,(*R).N[i],(*R).P[i],i);
-      (*R).Nmodified[i]= FALSE;
-    }
-    (*R).P[i]= 0;
-  }
-  *//* to be inserted, if main memory path shall be initialized
-         for test purpose */
-  
-  (*R).RSTDone= TRUE;
-  *regionfound= FALSE;
-  XstsRgn(R,1,rectangle1,rectangle2,DirQuery,DataQuery,regionfound);
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
-
-boolean RegionCount(RSTREE R,
-                    typrect rectangle1,
-                    typrect rectangle2,
-                    DirQueryProc DirQuery,
-                    DataQueryProc DataQuery,
-                    int *recordcount)
-
-{
-  if (R == NULL) {
-    *recordcount= 0;
-    return FALSE;
-  }
-  /*
-  int i;  
-  for (i= 2; i <= (*R).parameters._.height; i++) {
-    if ((*R).Nmodified[i]) {
-      PutNode(R,(*R).N[i],(*R).P[i],i);
-      (*R).Nmodified[i]= FALSE;
-    }
-    (*R).P[i]= 0;
-  }
-  *//* to be inserted, if main memory path shall be initialized
-         for test purpose */
-  
-  (*R).RSTDone= TRUE;
-  *recordcount= 0;
-  RgnCnt(R,1,rectangle1,rectangle2,DirQuery,DataQuery,recordcount);
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
-
-boolean RegionQuery(RSTREE R,
-                    typrect rectangle1,
-                    typrect rectangle2,
-                    DirQueryProc DirQuery,
-                    DataQueryProc DataQuery,
-                    QueryManageProc ManageProc,
-                    void *buf)
-
-{
-  boolean finish;
-  
-  if (R == NULL) {
-    return FALSE;
-  }
-  /*
-  int i;
-  for (i= 2; i <= (*R).parameters._.height; i++) {
-    if ((*R).Nmodified[i]) {
-      PutNode(R,(*R).N[i],(*R).P[i],i);
-      (*R).Nmodified[i]= FALSE;
-    }
-    (*R).P[i]= 0;
-  }
-  *//* to be inserted, if main memory path shall be initialized
-         for test purpose */
-  
-  (*R).RSTDone= TRUE;
-  finish= FALSE;
-  RgnQuery(R,1,rectangle1,rectangle2,DirQuery,DataQuery,
-           ManageProc,buf,&finish);
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
-
-boolean RegionQueryInfo(RSTREE R,
-			Check includes,
-			Check intersects,
-			void * data,
-			typrect rect,
-			typdirinfo * info)
-
-{
-  if (R == NULL) {
-    return FALSE;
-  }
-  /*
-  int i;
-  for (i= 2; i <= (*R).parameters._.height; i++) {
-    if ((*R).Nmodified[i]) {
-      PutNode(R,(*R).N[i],(*R).P[i],i);
-      (*R).Nmodified[i]= FALSE;
-    }
-    (*R).P[i]= 0;
-  }
-  *//* to be inserted, if main memory path shall be initialized
-         for test purpose */
-  
-  (*R).RSTDone= TRUE;
-  RgnQueryInfo(R,1,includes,intersects,data,rect,info);
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
-
-boolean AllQuery(RSTREE R,
-                 QueryManageProc ManageProc,
-                 void *buf)
-
-{
-  boolean finish;
-  
-  if (R == NULL) {
-    return FALSE;
-  }
-  /*
-  int i;
-  for (i= 2; i <= (*R).parameters._.height; i++) {
-    if ((*R).Nmodified[i]) {
-      PutNode(R,(*R).N[i],(*R).P[i],i);
-      (*R).Nmodified[i]= FALSE;
-    }
-    (*R).P[i]= 0;
-  }
-  *//* to be inserted, if main memory path shall be initialized
-         for test purpose */
-  
-  (*R).RSTDone= TRUE;
-  finish= FALSE;
-  All(R,1,ManageProc,buf,&finish);
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
-
-boolean Update(RSTREE R)
-
-{
-  typdirinfo info;
-
-  if (R == NULL) {
-    return FALSE;
-  }
-  /*
-  int i;
-  for (i= 2; i <= (*R).parameters._.height; i++) {
-    if ((*R).Nmodified[i]) {
-      PutNode(R,(*R).N[i],(*R).P[i],i);
-      (*R).Nmodified[i]= FALSE;
-    }
-    (*R).P[i]= 0;
-  }
-  *//* to be inserted, if main memory path shall be initialized
-         for test purpose */
-
-  typrect rect;
-  rect[0].l = -0.5; rect[0].h = 0.5;
-  rect[1].l = -0.5; rect[1].h = 0.5;
-  (*R).RSTDone= TRUE;
-  UpdateAll(R,1,rect,&info);
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
-
-boolean JoinCountNv(RSTREE R1, RSTREE R2,
-                    typrect R1rectangle1,
-                    typrect R1rectangle2,
-                    typrect R2rectangle1,
-                    typrect R2rectangle2,
-                    DirQueryProc Dir1Query,
-                    DataQueryProc Data1Query,
-                    DirQueryProc Dir2Query,
-                    DataQueryProc Data2Query,
-                    DirQueryProc DirJoin,
-                    DataQueryProc DataJoin,
-                    int *paircount)
-
-{
-  int mark;
-  boolean twiceopen, success;
-  int i;
-  
-  if (R1 == NULL || R2 == NULL) {
-    *paircount= 0;
-    return FALSE;
-  }
-  twiceopen= R1 == R2;
-  if (twiceopen) {
-    for (i= 1; i <= (*R1).parameters._.height; i++) {
-      if ((*R1).Nmodified[i]) {
-        PutNode(R1,(*R1).N[i],(*R1).P[i],i);
-        (*R1).Nmodified[i]= FALSE;
-      }
-    } /* syncronize R1 */
-    R2= NULL;
-    success= OpenRST(&R2,(*R1).dirname,"rw"); /* NEW(R2) */
-    if (! success) {
-      fprintf(stderr,"%s\n","FATAL INTERNAL ERROR");
-      fprintf(stderr,"%s\n","JoinCountNv 1");
-      abort();
-    }
-  }
-  /*
-  for (i= 2; i <= (*R1).parameters._.height; i++) {
-    if ((*R1).Nmodified[i]) {
-      PutNode(R1,(*R1).N[i],(*R1).P[i],i);
-      (*R1).Nmodified[i]= FALSE;
-    }
-    (*R1).P[i]= 0;
-  }
-  for (i= 2; i <= (*R2).parameters._.height; i++) {
-    if ((*R2).Nmodified[i]) {
-      PutNode(R2,(*R2).N[i],(*R2).P[i],i);
-      (*R2).Nmodified[i]= FALSE;
-    }
-    (*R2).P[i]= 0;
-  }
-  *//* to be inserted, if main memory path shall be initialized
-         for test purpose */
-  
-  if (! ((*R1).RSTDone && (*R2).RSTDone) ) {
-    *paircount= 0;
-    return FALSE;
-  }
-  *paircount= 0;
-  mark= 0;
-  JnCntNv(R1,R2,
-          1,
-          R1rectangle1,R1rectangle2,R2rectangle1,R2rectangle2,
-          Dir1Query,Data1Query,Dir2Query,Data2Query,DirJoin,DataJoin,
-          paircount,
-          &mark);
-  success= (*R1).RSTDone && (*R2).RSTDone;
-  if (twiceopen) {
-    success= success && CloseRST(&R2);
-  }
-  return success;
-}
-
-/************************************************************************/
-
-boolean JoinNv(RSTREE R1, RSTREE R2,
-               typrect R1rectangle1,
-               typrect R1rectangle2,
-               typrect R2rectangle1,
-               typrect R2rectangle2,
-               DirQueryProc Dir1Query,
-               DataQueryProc Data1Query,
-               DirQueryProc Dir2Query,
-               DataQueryProc Data2Query,
-               DirQueryProc DirJoin,
-               DataQueryProc DataJoin,
-               JoinManageProc Manage,
-               void *buf1,
-               void *buf2)
-
-{
-  boolean twiceopen, success;
-  boolean finish;
-  int i;
-  
-  if (R1 == NULL || R2 == NULL) {
-    return FALSE;
-  }
-  twiceopen= R1 == R2;
-  if (twiceopen) {
-    for (i= 1; i <= (*R1).parameters._.height; i++) {
-      if ((*R1).Nmodified[i]) {
-        PutNode(R1,(*R1).N[i],(*R1).P[i],i);
-        (*R1).Nmodified[i]= FALSE;
-      }
-    } /* syncronize R1 */
-    R2= NULL;
-    success= OpenRST(&R2,(*R1).dirname,"rw"); /* NEW(R2) */
-    if (! success) {
-      fprintf(stderr,"%s\n","FATAL INTERNAL ERROR");
-      fprintf(stderr,"%s\n","JoinCountNv 1");
-      abort();
-    }
-  }
-  /*
-  for (i= 2; i <= (*R1).parameters._.height; i++) {
-    if ((*R1).Nmodified[i]) {
-      PutNode(R1,(*R1).N[i],(*R1).P[i],i);
-      (*R1).Nmodified[i]= FALSE;
-    }
-    (*R1).P[i]= 0;
-  }
-  for (i= 2; i <= (*R2).parameters._.height; i++) {
-    if ((*R2).Nmodified[i]) {
-      PutNode(R2,(*R2).N[i],(*R2).P[i],i);
-      (*R2).Nmodified[i]= FALSE;
-    }
-    (*R2).P[i]= 0;
-  }
-  *//* to be inserted, if main memory path shall be initialized
-         for test purpose */
-  
-  if (! ((*R1).RSTDone && (*R2).RSTDone) ) {
-    return FALSE;
-  }
-  finish= FALSE;
-  JnNv(R1,R2,
-       1,
-       R1rectangle1,R1rectangle2,R2rectangle1,R2rectangle2,
-       Dir1Query,Data1Query,Dir2Query,Data2Query,DirJoin,DataJoin,
-       Manage,buf1,buf2,&finish);
-  success= (*R1).RSTDone && (*R2).RSTDone;
-  if (twiceopen) {
-    success= success && CloseRST(&R2);
-  }
-  return success;
-}
-
-/************************************************************************/
-
-boolean InquireRSTDesc(RSTREE R,
-                       char *name,
-                       int *numbofdim,
-                       int *pagesize,
-                       int *sizedirentry,
-                       int *sizedataentry,
-                       int *sizeinfo,
-                       int *maxdirfanout,
-                       int *maxdatafanout,
-                       int *numbofdirpages,
-                       int *numbofdatapages,
-                       int pagesperlevel[],
-                       int *numbofrecords,
-                       int *height,
-                       boolean *unique)
-
-{
-  refparameters par;
-  int i;
-  
-  if (R == NULL) {
-    return FALSE;
-  }
-  
-  strcpy(name,(*R).dirname);
-  
-  par= &(*R).parameters._;
-  
-  *numbofdim= (*par).maxdim+1;
-  *pagesize= (*par).pagelen;
-  *sizedirentry= (*par).direntrylen;
-  *sizedataentry= (*par).dataentrylen;
-  *sizeinfo= (*par).SIZEinfo;
-  *maxdirfanout= (*par).dirM;
-  *maxdatafanout= (*par).dataM;
-  *numbofdirpages= (*par).dirpagecount;
-  *numbofdatapages= (*par).datapagecount;
-  pagesperlevel[0]= 1;
-  for (i= 1; i < (*par).height; i++) {
-    pagesperlevel[i]= (*par).pagecountarr[i+1];
-  }
-  *numbofrecords= (*par).recordcount;
-  *height= (*par).height;
-  *unique= (*par).unique;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean CountsOn0(RSTREE R)
-
-{
-  refcount c;
-  
-  if (R == NULL) {
-    return FALSE;
-  }
-  c= &(*R).count;
-  (*c).countflag= TRUE;
-  (*c).dirvisitcount= 0; (*c).datavisitcount= 0;
-  (*c).dirreadcount= 0; (*c).datareadcount= 0;
-  (*c).dirmodifycount= 0; (*c).datamodifycount= 0;
-  (*c).dirwritecount= 0; (*c).datawritecount= 0;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean CountsOn(RSTREE R)
-
-{
-  if (R == NULL) {
-    return FALSE;
-  }
-  (*R).count.countflag= TRUE;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean CountsOff(RSTREE R)
-
-{
-  if (R == NULL) {
-    return FALSE;
-  }
-  (*R).count.countflag= FALSE;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean GetCountRead(RSTREE R,
-                     int *dirvis, int *datavis,
-                     int *dirread, int *dataread)
-
-{
-  refcount c;
-  
-  if (R == NULL) {
-    *dirvis= 0;
-    *datavis= 0;
-    *dirread= 0;
-    *dataread= 0;
-    return FALSE;
-  }
-  c= &(*R).count;
-  *dirvis= (*c).dirvisitcount;
-  *datavis= (*c).datavisitcount;
-  *dirread= (*c).dirreadcount;
-  *dataread= (*c).datareadcount;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean GetCountWrite(RSTREE R,
-                      int *dirmod, int *datamod,
-                      int *dirwrite, int *datawrite)
-
-{
-  refcount c;
-  
-  if (R == NULL) {
-    *dirmod= 0;
-    *datamod= 0;
-    *dirwrite= 0;
-    *datawrite= 0;
-    return FALSE;
-  }
-  c= &(*R).count;
-  *dirmod= (*c).dirmodifycount;
-  *datamod= (*c).datamodifycount;
-  *dirwrite= (*c).dirwritecount;
-  *datawrite= (*c).datawritecount;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean GetMemory(RSTREE R,
-                  int *dirpages, int *datapages)
-
-{
-  refparameters par;
-  
-  if (R == NULL) {
-    *dirpages= 0;
-    *datapages= 0;
-    return FALSE;
-  }
-  par= &(*R).parameters._;
-  *dirpages= (*par).dirpagecount;
-  *datapages= (*par).datapagecount;
-  return TRUE;
-}
-
-/************************************************************************/
-
-boolean GetHeight(RSTREE R,
-                  int *height)
-
-{
-  if (R == NULL) {
-    *height= 0;
-    return FALSE;
-  }
-  *height= (*R).parameters._.height;
-  return TRUE;
-}
-
-/************************************************************************/
-
-static void BasicCheck()
-{
-  if (sizeof(byte) != 1) {
-    fprintf(stderr,"%s\n","FATAL ERROR:");
-    fprintf(stderr,"%s\n","BasicCheck 1");
-    fprintf(stderr,"%s\n","sizeof(byte) != 1");
-    fprintf(stderr,"%s %d\n","sizeof(byte):",sizeof(byte));
-    abort();
-    /* concerning application of type ByteArray */
-  }
-  if (sizeof(int) < 4) {
-    fprintf(stderr,"%s\n","BasicCheck 2");
-    fprintf(stderr,"%s\n","sizeof(int) < 4");
-    fprintf(stderr,"%s %d\n","sizeof(int):",sizeof(int));
-    fprintf(stderr,"%s\n","WARNING: bigger int range assumed.");
-  }
-  if (sizeof(typinfo) < sizeof(int)) {
-    fprintf(stderr,"%s\n","FATAL ERROR:");
-    fprintf(stderr,"%s\n","BasicCheck 3");
-    fprintf(stderr,"%s\n","sizeof(typinfo) < sizeof(int)");
-    fprintf(stderr,"%s %d\n","sizeof(typinfo):",sizeof(typinfo));
-    fprintf(stderr,"%s %d\n","    sizeof(int):",sizeof(int));
-    abort();
-  }
-  if (sizeof(typpagedir) > sizeof(typfixblock)) {
-    fprintf(stderr,"%s\n","FATAL ERROR:");
-    fprintf(stderr,"%s\n","BasicCheck 4");
-    fprintf(stderr,"%s\n","sizeof(typpagedir) > sizeof(typfixblock)");
-    fprintf(stderr,"%s %d\n"," sizeof(typpagedir):",sizeof(typpagedir));
-    fprintf(stderr,"%s %d\n","sizeof(typfixblock):",sizeof(typfixblock));
-    abort();
-  }
-  if (sizeof(typparameters) > sizeof(typfixblock)) {
-    fprintf(stderr,"%s\n","FATAL ERROR:");
-    fprintf(stderr,"%s\n","BasicCheck 5");
-    fprintf(stderr,"%s\n","sizeof(typparameters) > sizeof(typfixblock)");
-    fprintf(stderr,"%s %d\n","sizeof(typparameters):",sizeof(typparameters));
-    fprintf(stderr,"%s %d\n","  sizeof(typfixblock):",sizeof(typfixblock));
-    abort();
-  }
-}
-
-/************************************************************************/
-/*** --- Begin --- unused ***
-
-static boolean InternEqual(RSTREE R,
-                           typrect RSTrect,
-                           typrect queryrect,
-                           typrect unused)
-
-{
-  boolean eql;
-  int d;
-  
-  d= -1;
-  do {
-    d++;
-    eql= RSTrect[d].l == queryrect[d].l &&
-         RSTrect[d].h == queryrect[d].h;
-  } while (eql && d != (*R).parameters._.maxdim);
-  return eql;
-}
-
-static boolean InternEncloses(RSTREE R,
-                              typrect RSTrect,
-                              typrect queryrect,
-                              typrect unused)
-
-{
-  int maxdim;
-  boolean encl;
-  int d;
-  
-  maxdim= (*R).parameters._.maxdim;
-  d= -1;
-  do {
-    d++;
-    encl= RSTrect[d].l <= queryrect[d].l &&
-          RSTrect[d].h >= queryrect[d].h;
-  } while (encl && d != maxdim);
-  return encl;
-}
-
- *** ---   End --- unused ***/
-/***********************************************************************/
-
-boolean Find(RSTREE R,
-             typrect rectangle,
-             boolean *found,
-             void *buf,
-             int nbytes)
-
-{
-  refinfo infoadr;
-  
-  if (R == NULL) {
-    *found= FALSE;
-    return FALSE;
-  }
-  
-  *found= FoundRect(R,1,rectangle,FALSE,&infoadr);
-  if (*found) {
-    memcpy(buf,infoadr,nbytes);
-  }
-  return (*R).RSTDone;
-}
-
-/************************************************************************/
diff --git a/modules/RStarTree/RStarTree.h b/modules/RStarTree/RStarTree.h
deleted file mode 100644
index 7652db3..0000000
--- a/modules/RStarTree/RStarTree.h
+++ /dev/null
@@ -1,780 +0,0 @@
-/* -----  RStarTree.h  ----- */
-#ifndef __RStarTree_h
-#define __RStarTree_h
-
-
-
-/**                             R*-tree
-                                =======                                 **/
-
-
-/**    Implementation:  Norbert Beckmann
-              Version:  R.2.0
-                 Date:  6/93                                            **/
-
-
-/**                     Praktische Informatik,
-             Universitaet Bremen, D-2800 Bremen 33, Germany             **/
-
-
-
-/* ---------------------- operating system version --------------------- */
-/*
-#ifndef SVR4
-#  define SVR4
-#endif
-*/
-#include <stddef.h>
-#include <sys/file.h>
-#include <unistd.h>
-#include <stdlib.h>
-#include <string.h>
-#include <stdio.h>
-#include <errno.h>
-#include <sys/stat.h>
-
-#include <fcntl.h>
-
-
-/* padding on 32 bits systems (to match automatic 64 bits padding) */
-
-#if defined (__LP64__) || defined (__64BIT__) || defined (_LP64) || (__WORDSIZE == 64)
-  #define PADDING_32_BITS
-#else
-  #define PADDING_32_BITS int padding
-#endif
-
-/* ----------------------------- constants ----------------------------- */
-
-#define byte unsigned char
-#define boolean int
-#define FALSE 0
-#define TRUE 1
-
-#define int int /**V**/ /* large data sets require a 32 bit int */
-
-#define MaxNameLength 160 /* including less than 10 bytes for a suffix */
-
-#define MaxNumbOfEntriesPerPage 512 /**V**/
-
-#define NumbOfDim 2 /**V**/
-
-
-/* ------------------------------- types ------------------------------- */
-
-typedef int File;
-
-
-typedef float  typatomkey; /**V**/
-
-        /* typatomkey may be of any type as far as the standard comparisons
-           apply */
-
-
-typedef struct {
-               typatomkey  l, h;
-               } typinterval;
-
-
-typedef typinterval  typrect[NumbOfDim];
-
-        /* A typrect is the key type an R*-tree handles. The smallest
-           entity which may be used as a key is an interval,
-           i.e. a typrect[1]. */
-
-
-typedef struct {
-               float height;
-               } typinfo, *refinfo;
-
-        /* A typinfo is a struct which may contain arbitrary information
-           associated with a data record.
-           RESTRICTION: sizeof(typinfo) >= sizeof(int) must hold! */
-
-typedef struct {
-  double m01, m02, m03;
-  double m11, m13;
-  double m22, m23, m33;
-  double m44, m55, m66, m77;
-  double m67, m76;
-  double H0, H1, H2, H3, H4;
-  double H5, H6;
-  float Hmin, Hmax;
-  int n;
-  PADDING_32_BITS;
-} typdirinfo;
-
-/* A typdirinfo is a struct which may contain arbitrary information
-   associated with a directory record. */
-
-typedef int (* Check) (typrect rect, void * data, int depth);
-
-/* ------------------------- private includes -------------------------- */
-
-#include "RSTBase.h"
-
-
-/* ----------------------------- R*-tree ------------------------------- */
-
-typedef rstree  *RSTREE; /* R*-tree identifier */
-
-
-/* ------------------------- procedure types --------------------------- */
-
-typedef boolean (*DirQueryProc) (RSTREE   /* rst */,
-                                 typrect  /* dirrect */,
-                                 typrect  /* queryrect1 */,
-                                 typrect  /* queryrect2 */);
-
-        /* rst:
-           contains the R*-tree identifier as passed to the procedures
-           RegionQuery, ExistsRegion and RegionCount respectively.
-           
-           dirrect:
-           contains a multidimensional directory rectangle.
-           
-           queryrect1, queryrect2:
-           contain queryrect1 and queryrect2 as passed to the procedures
-           RegionQuery, ExistsRegion and RegionCount respectively.
-           
-           This type is also used in the JoinXX procedures to perform the
-           join. Then the parameters will have a slightly different
-           contents, see the JoinXX procedures. */
-
-
-typedef boolean (*DataQueryProc) (RSTREE   /* rst */,
-                                  typrect  /* datarect */,
-                                  typrect  /* queryrect1 */,
-                                  typrect  /* queryrect2 */);
-
-        /* rst:
-           contains the R*-tree identifier as passed to the procedures
-           RegionQuery, ExistsRegion and RegionCount respectively.
-           
-           datarect:
-           contains a multidimensional data rectangle.
-           
-           queryrect1, queryrect2:
-           contain queryrect1 and queryrect2 as passed to the procedures
-           RegionQuery, ExistsRegion and RegionCount respectively.
-           
-           This type is also used in the JoinXX procedures to perform the
-           join. Then the parameters will have a slightly different
-           contents, see the JoinXX procedures. */
-
-
-typedef void (*QueryManageProc) (RSTREE    /* rst */,
-                                 typrect   /* rectangle */,
-                                 refinfo   /* info */,
-                                 void*     /* pointer */,
-                                 boolean*  /* modify */,
-                                 boolean*  /* finish */);
-
-        /* rst:
-           contains the R*-tree identifier as passed to the procedure
-           RegionQuery.
-           
-           rectangle:
-           contains the multidimensional data rectangle currently found.
-           
-           info:
-           points to the concerning information part.
-           
-           pointer:
-           is an arbitrary pointer as passed to the procedure RegionQuery.
-           It may be used as a pointer to a buffer structure.
-           
-           modify:
-           points to a flag labeling the node to be written back.
-           BEWARE:
-           record modified  |  modify  |  result
-           --------------------------------------------------------
-                 no         |  FALSE   |  record is not modified
-                 no         |  TRUE    |  undefined
-                 yes        |  FALSE   |  undefined
-                 yes        |  TRUE    |  record is modified
-           (See also RegionQuery)
-           
-           finish:
-           points to a flag labeling the query to be finished when the
-           procedure is left. */
-
-
-typedef void (*JoinManageProc) (RSTREE    /* rst1 */,
-                                RSTREE    /* rst2 */,
-                                typrect   /* rectangle1 */,
-                                typrect   /* rectangle2 */,
-                                refinfo   /* info1 */ ,
-                                refinfo   /* info2 */,
-                                void*     /* pointer1 */,
-                                void*     /* pointer2 */,
-                                boolean*  /* finish */);
-
-        /* rst1, rst2:
-           contain the R*-tree identifiers as passed to the JoinXX
-           procedures.
-           
-           rectangle1, rectangle2:
-           contain the two rectangles currently found by the join.
-           
-           info1, info2:
-           point to the concerning information parts.
-           
-           pointer1, pointer2:
-           are arbitrary pointers as passed to the JoinXX procedures.
-           They may be used as pointers to buffer structures.
-           
-           finish:
-           points to a flag labeling the join to be finished when the
-           procedure is left. */
-
-
-/* ---------------------- procedure declarations ----------------------- */
-
-/*
-              Almost all procedures return a boolean result.
-     If a procedure returns FALSE an error has occured. The implementation
-     attempts to detect errors before any update operations are performed.
-*/
-
-
-void     NoRSTree(RSTREE *rst);
-
-         /* Initializes an R*-tree identifier (at least sets *rst to NULL).
-            Each procedure which requires an R*-tree identifier checks the
-            value of this identifier at its entry.
-            OpenRST for example demands a NULL identifier while CloseRST
-            demands a non NULL identifier. */
-
-
-boolean  CreateRST(char     *name,
-                   int      pagesize,
-                   boolean  unique);
-
-         /* CreateRST creates an R*-tree on secondary memory.
-            To work on it, it has to be opened by the procedure OpenRST.
-            
-            name:
-            is the main filename under which the created R*-tree will be
-            stored, additionally a few files named filename.suffix with
-            different suffixes will be created. name is not fixed in the
-            internal parameter table, thus after renaming the files, the
-            R*-tree may be opened under another name.
-            
-            pagesize:
-            is the size in bytes, a page (directory or data) will occupy.
-            
-            unique:
-            if unique is set TRUE the procedure InsertRecord will not store
-            more than one record with the same rectangle (key) in the
-            R*-tree (rectangles will be real keys).
-            The unique flag may be reset with the procedure SetUnique
-            without further internal tests. */
-
-
-boolean  RemoveRST(char *name);
-
-         /* RemoveRST removes all files corresponding to an R*-tree. */
-
-
-boolean  OpenRST(RSTREE        *rst,
-                 const char    *name,
-		 const char    *mode);
-
-         /* OpenRST opens the R*-tree named name. */
-
-
-boolean  CloseRST(RSTREE *rst);
-
-         /* CloseRST closes the R*-tree referenced by rst. */
-
-
-boolean  SetUnique(RSTREE   rst,
-                   boolean  mode);
-
-         /* The unique state, defined in procedure CreateRST may be reset
-            by this procedure (see also CreateRST). The unique flag is set
-            without internal checks (even to TRUE). */
-
-
-boolean  InquireRSTDesc(RSTREE   rst,
-                        char     *name,
-                        int      *numbofdim,
-                        int      *sizedirentry,
-                        int      *sizedataentry,
-                        int      *sizeinfo,
-                        int      *maxdirfanout,
-                        int      *maxdatafanout,
-                        int      *pagesize,
-                        int      *numbofdirpages,
-                        int      *numbofdatapages,
-                        int      pagesperlevel[],
-                        int      *numbofrecords,
-                        int      *height,
-                        boolean  *unique);
-
-         /* InquireRSTDesc provides some useful information about the
-            R*-tree referenced by rst.
-            
-            name: see CreateRST.
-            
-            numbofdim:
-            contains the number of dimensions of the R*-tree referenced by
-            rst, i.e. the value the constant NumbOfDim was set to when it
-            was created.
-            
-            sizedirentry, sizedataentry:
-            contain the size (in bytes) of a directory and data entry
-            respectively.
-            
-            sizeinfo:
-            contains the size (in bytes) of an information part.
-            
-            maxdirfanout, maxdatafanout:
-            contain the maximum possible number of entries a directory
-            and data node respectively can store.
-            
-            pagesize: see CreateRST.
-            
-            numbofdirpages, numbofdatapages:
-            total number of directory and data pages respectively in use.
-            
-            pagesperlevel:
-            For each level i, beginning at the root, pagesperlevel[i]
-            contains the number of pages in use.
-            
-            numbofrecords:
-            total number of data records stored in the R*-tree.
-            
-            height:
-            height of the tree, the lowest height is "1" (only the root
-            exists).
-            
-            unique: see CreateRST. */
-
-
-boolean  InsertRecord(RSTREE   rst,
-                      typrect  rectangle,
-                      typinfo  *info,
-                      boolean  *inserted);
-
-         /* InsertRecord inserts a new record in the R*-tree.
-            If the unique flag is set TRUE (see CreateRST) a new record is
-            not inserted if a record with the same rectangle is found. In
-            this case inserted yields FALSE, but the return value is TRUE
-            (if no error occurred).
-            
-            rectangle:
-            is the rectangle part of the new record.
-            
-            info:
-            is the information part of the new record. */
-
-
-boolean  DeleteRecord(RSTREE   rst,
-                      typrect  rectangle,
-                      boolean  *deleted);
-
-         /* DeleteRecord deletes the first record with the given rectangle
-            it finds. It provides a fast deletion in trees where entries
-            are unique and may be used in trees where entries are not
-            unique, to delete iteratively all entries with the same
-            rectangle as passed. */
-
-
-boolean  ExistsRegion(RSTREE         rst,
-                      typrect        queryrect1,
-                      typrect        queryrect2,
-                      DirQueryProc   DirQuery,
-                      DataQueryProc  DataQuery,
-                      boolean        *recordfound);
-
-         /* ExistsRegion performs a RegionQuery on the R*-tree referenced
-            by rst. It stops after the first record satisfying the query
-            condition is found.
-            See also RegionQuery.
-            
-            recordfound:
-            is set to TRUE if a record satisfying the query condition
-            exists, otherwise FALSE. */
-
-
-boolean  RegionCount(RSTREE         rst,
-                     typrect        queryrect1,
-                     typrect        queryrect2,
-                     DirQueryProc   DirQuery,
-                     DataQueryProc  DatQuery,
-                     int            *recordcount);
-
-         /* RegionCount performs a RegionQuery on the R*-tree referenced
-            by rst. It does not return records but only counts the number
-            of records found.
-            See also RegionQuery.
-            
-            recordcount:
-            is set to the number of records satisfying the query
-            condition. */
-
-
-boolean  RegionQuery(RSTREE           rst,
-                     typrect          queryrect1,
-                     typrect          queryrect2,
-                     DirQueryProc     DirQuery,
-                     DataQueryProc    DatQuery,
-                     QueryManageProc  Manage,
-                     void             *pointer);
-
-         /* RegionQuery performs a RegionQuery on the R*-tree referenced
-            by rst. Up to two query rectangles may be passed by queryrect1
-            and queryrect2. Two different procedures have two be provided
-            (DirQuery, DataQuery) which perform the query in the directory
-            and the data level respectively. A third procedure (Manage) must
-            be provided to deal with the records successively found.
-            A query is closed either if it did not find an additional
-            record satisfying the query condition or if the finish flag is
-            set by the procedure Manage.
-            See also DirQueryProc, DataQueryProc, QueryManageProc.
-            
-            queryrect1, queryrect2:
-            query rectangles to be compared with directory rectangles and
-            data rectangles respectively.
-            
-            DirQuery, DataQuery:
-            Procedure parameters passing comparison procedures of type
-            boolean.
-            
-            Manage:
-            Procedure parameter passing a management procedure.
-            Manage is called each time a new data rectangle satisfying the
-            query condition is found.
-            Procedures of type QueryManageProc may provide the following
-            facilities:
-            Inspection of the data records rectangle and info part.
-            Communication to another structure, pointed to by pointer.
-            To modify the info part (the rectangle cannot be modified), and
-            label the node to be written back.
-            To finish the query.
-            
-            pointer:
-            Arbitrary pointer passed through to the procedure Manage. */
-
-boolean RegionQueryInfo(RSTREE R,
-			Check includes,
-			Check intersects,
-			void * data,
-			typrect rect,
-			typdirinfo * info);
-
-boolean  AllQuery(RSTREE           rst,
-                  QueryManageProc  Manage,
-                  void             *pointer);
-
-         /* AllQuery performs a fast query which returns all records stored
-            in the R*-tree referenced by rst.
-            
-            Manage:
-            Procedure parameter passing a management procedure.
-            Manage is called each time a new data rectangle satisfying the
-            query condition is found.
-            The type QueryManageProc provides the following functions:
-            To inspect a data records rectangle and info part.
-            To copy a record to the location pointer points to.
-            To modify the info part (the rectangle cannot be modified),
-            and label the node to be written back.
-            To finish the query.
-            
-            pointer:
-            Arbitrary pointer passed through to the procedure Manage.
-            
-            Since AllQuery is designed to be fast it does not support the
-            complete counting facility.
-
-            See also RegionQuery. */
-
-boolean  Update(RSTREE           rst);
-
-         /* Updates the directory nodes typdirinfo. */
-
-boolean  JoinCountNv(RSTREE         rst1,
-                     RSTREE         rst2,
-                     typrect        R1queryrect1,
-                     typrect        R1queryrect2,
-                     typrect        R2queryrect1,
-                     typrect        R2queryrect2,
-                     DirQueryProc   Dir1Query,
-                     DataQueryProc  Data1Query,
-                     DirQueryProc   Dir2Query,
-                     DataQueryProc  Data2Query,
-                     DirQueryProc   DirJoin,
-                     DataQueryProc  DataJoin,
-                     int            *paircount);
-
-         /* JoinCountNv performs a Join on the two R*-trees referenced by
-            rst1 and rst2. It does not return record pairs but only counts
-            the number of record pairs found.
-            See also JoinNv.
-            
-            paircount:
-            is set to the number of recordpairs satisfying the join
-            condition. */
-
-
-boolean  JoinNv(RSTREE          rst1,
-                RSTREE          rst2,
-                typrect         rst1queryrect1,
-                typrect         rst1queryrect2,
-                typrect         rst2queryrect1,
-                typrect         rst2queryrect2,
-                DirQueryProc    Dir1Query,
-                DataQueryProc   Data1Query,
-                DirQueryProc    Dir2Query,
-                DataQueryProc   Data2Query,
-                DirQueryProc    DirJoin,
-                DataQueryProc   DataJoin,
-                JoinManageProc  Manage,
-                void            *pointer1,
-                void            *pointer2);
-
-         /* The functionality of the join can be considered as follows:
-            On each of the two R*-trees to be joined a query is performed.
-            On the resulting restricted sets of records of the two R*-trees
-            the join is applied depending on the given join condition.
-            
-            Join performs a join on the two R*-trees referenced by rst1 and
-            rst2. A join is closed either if it did not find an additional
-            pair of records satisfying the join condition or if the finish
-            flag is set by the procedure Manage.
-            See also DirQueryProc, DataQueryProc, JoinManageProc.
-            
-            rst1queryrect1, rst1queryrect2:
-            Used in connection with the pre-query on rst1;
-            query rectangles to be compared with directory and data
-            rectangles respectively of rst1.
-            
-            rst2queryrect1, rst2queryrect2:
-            Used in connection with the pre-query on rst2;
-            query rectangles to be compared with directory and data
-            rectangles respectively of rst2.
-            
-            Dir1Query, Data1Query:
-            Procedure parameters passing comparison procedures of type
-            boolean.
-            The two procedures have to perform the pre-query on rst1.
-            See also DirQueryProc, DataQueryProc and RegionQuery.
-            
-            Dir2Query, Data2Query:
-            Procedure parameters passing comparison procedures of type
-            boolean.
-            The two procedures have to perform the pre-query on rst2.
-            See also DirQueryProc, DataQueryProc and RegionQuery.
-            
-            DirJoin, DataJoin:
-            Procedure parameters passing comparison procedures of type
-            boolean.
-            DirJoin has to determine if two directory rectangles, one of
-            rst1 the other of rst2 have to be joined,
-            DataJoin has to determine if two data rectangles, one of
-            rst1 the other of rst2 have to be joined.
-            Here the types DirQueryProc and DataQueryProc are used as
-            follows:
-            DQP(RSTREE   rst1,
-                typrect  rst1rect,
-                typrect  rst2rect,
-                typrect  unused);
-            rst1      contains rst1.
-            rst1rect  contains a directory or data rectangle respectively
-                      of rst1.
-            rst2rect  contains a directory or data rectangle respectively
-                      of rst2.
-            The last parameter is unused.
-            
-            Manage:
-            Procedure parameter passing a management procedure.
-            Manage is called each time a new pair of data rectangles
-            satisfying the join condition is found.
-            Procedures of type JoinManageProc may provide the following
-            facilities:
-            Inspection of the data records' rectangles and info parts.
-            Communication to two other structures, pointed to by pointer1
-            and pointer2.
-            To finish the join.
-            
-            pointer1, pointer2:
-            Arbitrary pointers passed through to the procedure Manage. */
-
-
-/*************** ----- Performance Controll Routines ----- ***************/
-
-/* ------ Counts-Switch: */
-
-boolean  CountsOn0(RSTREE rst);
-         /* put ON, set 0 */
-
-boolean  CountsOn(RSTREE rst);
-         /* put ON */
-
-boolean  CountsOff(RSTREE rst);
-         /* put OFF */
-         
-         /* the Counts-Switch applies to the variables set by the
-            procedures GetCountRead, GetCountWrite.
-            
-            The procedure OpenRST initializes counting:
-            the count variables are set to 0, the count switch is set to
-            OFF. */
-
-
-boolean  GetCountRead(RSTREE  rst,
-                      int     *DirVisitCount,
-                      int     *DataVisitCount,
-                      int     *DirReadCount,
-                      int     *DataReadCount);
-
-         /* DirVisitCount is set to the number of directory nodes visited
-            traversing the tree.
-            DataVisitCount is set to the number of data nodes visited
-            traversing the tree.
-            DirReadCount directory nodes and DataReadCount data nodes had
-            actually to be read from secondary memory.
-            
-            If the function returns FALSE these variables are set to 0.
-            DirVisitCount, DataVisitCount is counted:
-            for all query, join and update procedures.
-            DirReadCount, DataReadCount is counted:
-            whenever a read occurs. */
-
-
-boolean  GetCountWrite(RSTREE  rst,
-                       int     *DirModifyCount,
-                       int     *DataModifyCount,
-                       int     *DirWriteCount,
-                       int     *DataWriteCount);
-
-         /* DirModifyCount is set to the number of directory nodes
-            modified.    
-            DataModifyCount is set to the number of data nodes modified.
-            DirWriteCount is set to the number of directory nodes written
-            to secondary memory.
-            DataWriteCount is set to the number of data nodes written to
-            secondary memory.
-            If the function returns FALSE these variables are set to 0.
-            DirModifyCount, DataModifyCount is counted:
-            for all update procedures.
-            DirWriteCount, DataWriteCount is counted:
-            whenever a write occurs. */
-
-
-boolean  GetMemory(RSTREE  rst,
-                   int     *numbofdirpages,
-                   int     *numbofdatapages);
-
-         /* numbofdirpages and numbofdatapages are set to the number of
-            pages in use for the directory and the data level respectively.
-            If the function returns FALSE these variables are set to 0. */
-
-
-boolean  GetHeight(RSTREE  rst,
-                   int     *height);
-
-         /* height is set to the height of the tree, the lowest height
-            is "1" (only the root exists).
-            If the function returns FALSE these variables are set to 0. */
-
-
-/*************************************************************************/
-
-/* Layout of a directory and data node respectively (pidgin C)
-   -----------------------------------------------------------
-   
-   directory node layout:
-   
-   struct {
-          typrect  rectangle;
-          int      subtree_pointer;
-          } directory_entry;
-   
-   struct {
-          int              n;
-          directory_entry  entries[M];
-          } directory_node;
-   
-   The maximum number of entries M varies with different page sizes. The
-   minimum is M = 3.
-   The minimum number of entries m is calculated as max(round(0.4 * M), 2).
-   
-   data node layout:
-   
-   struct {
-          typrect  rectangle;
-          typinfo  information_part;
-          } data_entry;
-   
-   struct {
-          int         n;
-          data_entry  entries[M];
-          } data_node;
-   
-   The maximum number of entries M varies with different page sizes. The
-   minimum is M = 1.
-   The minimum number of entries m is calculated as max(round(0.4 * M), 1).
-*/
-
-/*************************************************************************/
-
-/* BUGS:
-
-   The implementation does not provide packing, thus depending on the
-   design of the machine and the compiler, and the choice of typatomkey and
-   typinfo nodes may have gaps, i.e. the fanout may be smaller than you
-   expect.
-   Alignment problems, i.e. gaps between the entities stored in the nodes
-   cause warning messages on stdout (with one restriction):   
-   The implementation does not know the internal structure of typinfo (it
-   only knows its size). Thus, if typinfo intrinsically contains gaps, this
-   cannot be detected. Information about the actual values of important
-   parameters may be obtained by calling InquireRSTDesc.
-   
-   R*-tree identifiers are only checked for NULL and non NULL. Though
-   passing a non NULL invalid identifier is not detected as an error.
-   
-   To open an R*-tree twice may damage consistency. But the implementation
-   does not detect this mistake.
-   
-   Early detection of memory limitations is not available. If accidentally
-   the file system fills up during an update operation, the tree may be
-   left in an inconsistent state.
-   
-   Although (aside from the lacks mentioned above) internal error detection
-   is nearly exhaustive, all you get is a boolean return value.
-   
-   Passing the same R*-tree identifier twice to the JoinXX procedures is
-   save. If a join is performed on one and the same R*-tree, a second
-   R*-tree is opened virtually, but the performance control parameters are
-   only available for one of them. Since the join internally does not work
-   symmetrically this information generally is useless.
-   
-   If deletions are performed the files holding the directory and data
-   pages will not shrink. Free pages are reoccupied by following
-   insertions. A file reorganization algorithm is not implemented.
-   
-   The procedures of type QueryManageProc and JoinManageProc permit
-   unprotected access to parts of the internal data structure of the
-   R*-tree. This avoids copying but is unsafe of course.
-   
-   The implementation restricts the informational part of a data record to
-   contain at least an integer sized contents.
-
-*/
-
-
-/*************************************************************************/
-/*************** ----- For Private Test Purpose Only ----- ***************/
-
-boolean  Find(RSTREE   rst,
-              typrect  rectangle,
-              boolean  *found,
-              void     *buf,
-              int      nbytes);
-
-
-#endif /* !__RStarTree_h */
diff --git a/modules/RStarTree/Set.c b/modules/RStarTree/Set.c
deleted file mode 100644
index 1e30d61..0000000
--- a/modules/RStarTree/Set.c
+++ /dev/null
@@ -1,149 +0,0 @@
-/* ----- Set.c ----- */
-
-
-#include "Set.h"
-
-
-/* declarations */
-
-Set AddLeft(Set set, Set branch);
-void OutputSet(Set set, int *cardcount);
-
-
-/*********************************************************************/
-
-Set EmptySet()
-
-{
-  return NULL;
-}
-
-/*********************************************************************/
-
-Set IncludeSet(Set set, int value)
-
-{
-  Set newson;
-  
-  if (set == NULL) {
-    newson= (Set)malloc(sizeof(SetRec));
-    (*newson).value= value;
-    (*newson).lson= NULL;
-    (*newson).rson= NULL;
-    return newson;
-  }
-  else {
-    if (value < (*set).value) {
-      (*set).lson= IncludeSet((*set).lson,value);
-    }
-    else if (value > (*set).value) {
-      (*set).rson= IncludeSet((*set).rson,value);
-    }
-  }
-  return set;
-}
-
-/*********************************************************************/
-
-Set ExcludeSet(Set set, int value)
-
-{
-  Set help;
-  
-  if (set != NULL) {
-    if (value == (*set).value) {
-      if ((*set).rson == NULL) {
-        help= (*set).lson;
-        free(set);
-        set= help;
-      }
-      else {
-        (*set).rson= AddLeft((*set).rson,(*set).lson);
-        help= (*set).rson;
-        free(set);
-        set= help;
-      }
-    }
-    else {
-      if (value < (*set).value) {
-        (*set).lson= ExcludeSet((*set).lson,value);
-      }
-      else {
-        (*set).rson= ExcludeSet((*set).rson,value);
-      }
-    }
-  }
-  return set;
-}
-
-/*********************************************************************/
-
-Set AddLeft(Set set, Set branch)
-
-{
-  if ((*set).lson == NULL) {
-    (*set).lson= branch;
-  }
-  else {
-    (*set).lson= AddLeft((*set).lson,branch);
-  }
-  return set;
-}
-
-/*********************************************************************/
-
-int Cardinality(Set set)
-
-{
-  if (set == NULL) {
-    return 0;
-  }
-  else {
-    return 1+Cardinality((*set).lson)+Cardinality((*set).rson);
-  }
-}
-
-/*********************************************************************/
-
-void WriteSet(Set set)
-
-{
-  int cardcount;
-  
-  cardcount= 0;
-  OutputSet(set,&cardcount);
-}
-
-/*********************************************************************/
-
-void OutputSet(Set set, int *cardcount)
-
-{
-  if (set != NULL) {
-    OutputSet((*set).lson,cardcount);
-    printf("%5d",(*set).value);
-    (*cardcount)++;
-    if (*cardcount % 10 == 0)
-      printf("\n");
-    OutputSet((*set).rson,cardcount);
-  }
-}
-
-/*********************************************************************/
-
-void WriteTree(Set set)
-
-{
-  if (set == 0) {
-    printf(".");
-  }
-  else {
-    printf("[");
-    WriteTree((*set).lson);
-    printf("%d",(*set).value);
-    WriteTree((*set).rson);
-    printf("]");
-  }
-}
-
-/*********************************************************************/
diff --git a/modules/RStarTree/Set.h b/modules/RStarTree/Set.h
deleted file mode 100644
index 903978e..0000000
--- a/modules/RStarTree/Set.h
+++ /dev/null
@@ -1,36 +0,0 @@
-/* -----  Set.h  ----- */
-#ifndef __Set_h
-#define __Set_h
-
-
-#include <stdio.h>
-#include <math.h>
-#include <malloc.h>
-
-
-/* private includes */
-
-#include "SetDef.h"
-
-
-/* ----- types ----- */
-
-typedef SetRec *Set;
-
-
-/* ----- procedure declarations ----- */
-
-Set EmptySet(void);
-
-Set IncludeSet(Set set, int value);
-
-Set ExcludeSet(Set set, int value);
-
-int Cardinality(Set set);
-
-void WriteSet(Set set);
-
-void WriteTree(Set set);
-
-
-#endif /* !__Set_h */
diff --git a/modules/RStarTree/SetDef.h b/modules/RStarTree/SetDef.h
deleted file mode 100644
index 7e485f6..0000000
--- a/modules/RStarTree/SetDef.h
+++ /dev/null
@@ -1,14 +0,0 @@
-/* -----  SetDef.h  ----- */
-#ifndef __SetDef_h
-#define __SetDef_h
-
-
-typedef struct BinTree {
-                       int value;
-                       struct BinTree *lson;
-                       struct BinTree *rson;
-                       } SetRec;
-
-
-#endif /* !__SetDef_h */
-
diff --git a/modules/RStarTree/rdata b/modules/RStarTree/rdata
deleted file mode 100644
index 706716a..0000000
Binary files a/modules/RStarTree/rdata and /dev/null differ
diff --git a/modules/RStarTree/trst.c b/modules/RStarTree/trst.c
deleted file mode 100644
index 2cdae0b..0000000
--- a/modules/RStarTree/trst.c
+++ /dev/null
@@ -1,1346 +0,0 @@
-/* -----  trst.c  ----- */
-
-
-#include "RStarTree.h"
-#include "Set.h"
-
-/* constants */
-
-#define STDMODE 0644
-#define RSTsuffix ".RSF"
-
-
-/* types */
-
-typedef
-  struct {
-         typatomkey  center[NumbOfDim], ext[NumbOfDim];
-         } data;
-
-
-/* declarations */
-
-    int GetLOF(File f);
-   void getname(char *name);
-   void DataAndTreeName(void);
-   void QueryName(void);
-   void DisplErr(char *name);
-boolean opendata(void);
-   void closedata(void);
-boolean openquery(void);
-   void closequery(void);
-   void exeCreate(void);
-   void exeRemove(void);
-   void exeOpen(RSTREE *RST);
-   void exeClose(void);
-   void GetTestParameters(File file,
-                          char *name);
-   void exeInsert(void);
-   void exeDelete(void);
-   void exeSearch(void);
-   void exeExistsRegion(void);
-   void exeRegionCount(void);
-   void exeRegionQueries(void);
-   void exeJoinCountNv(void);
-   void exeJoinNv(void);
-   void exeJoinCountX(void);
-   void exeJoinX(void);
-   void exeInquire(void);
-   void exeComputeNodeLengths(void);
-   void ShortInstruction(void);
-boolean Equal(RSTREE rst,
-              typrect RSTrect,
-              typrect qrect1,
-              typrect qrect2);
-boolean Intersects(RSTREE rst,
-                   typrect RSTrect,
-                   typrect qrect1,
-                   typrect qrect2);
-boolean Encloses(RSTREE rst,
-                 typrect RSTrect,
-                 typrect qrect1,
-                 typrect qrect2);
-boolean IsContained(RSTREE rst,
-                    typrect RSTrect,
-                    typrect qrect1,
-                    typrect qrect2);
-boolean AlwaysTrue(RSTREE rst,
-                   typrect RSTrect,
-                   typrect qrect1,
-                   typrect qrect2);
-void    CompCount0();
-void ManageQuery(RSTREE R,
-                 typrect rectangle,
-                 refinfo infoptr,
-                 void *buf,
-                 boolean *modify,
-                 boolean *finish);
-void ManageJoin(RSTREE R, RSTREE R2,
-                typrect rectangle, typrect rectangle2,
-                refinfo infoptr, refinfo infoptr2,
-                void *buf, void *buf2,
-                boolean *finish);
-
-
-/* global variables */
-
-char distname[80];
-char quername[80];
-char rfilename[80];
-char ch, dummy;
-
-File datafile, querfile;
-
-int ferr, nbytes, pos;
-int begin, end;
-int constante;
-int height;
-typrect rectangle;
-data datarect;
-boolean notdmsg, donemsg;
-RSTREE R, R2;
-
-int compcount;
-int globnumfound;
-int globpaircount;
-
-int i;
-
-
-/***********************************************************************/
-
-void main(int argc, char *argv[])
-
-{
-  char mainchoose, choose;
-  boolean WorkMenu;
-  NoRSTree(&R);
-  NoRSTree(&R2);
-  ShortInstruction();
-  do {
-    printf("\n");
-    printf("%20s,   %20s,\n","(forced)Create = \"c\"","Remove = \"R\"");
-    printf("%20s,   %20s,\n","Open = \"o\"","Close = \".\"");
-    printf("%30s,\n","Inquire Description = \"I\"");
-    printf("%30s,\n","Node lenghts computation = \"`\"");
-    printf("%30s,\n","leave this menu = \"-\"");
-    printf("%30s.\n","quit = \"q\"");
-    printf("Input: ");
-    do {
-      mainchoose= getchar();
-    } while ((mainchoose != 'c') && (mainchoose != 'R') &&
-             (mainchoose != 'o') && (mainchoose != '.') &&
-             (mainchoose != 'I') &&
-             (mainchoose != '`') &&
-             (mainchoose != '-') &&
-             (mainchoose != 'q'));
-    dummy= getchar();
-    WorkMenu= mainchoose != '`';
-    if (mainchoose != 'q') {
-      if (mainchoose == '-') {
-      }
-      else if (mainchoose == 'c') {
-        if (R != NULL) {
-          exeClose();
-        }
-        DataAndTreeName();
-        exeCreate();
-        exeOpen(&R);
-      }
-      else if (mainchoose == 'R') {
-        if (R != NULL) {
-          exeClose();
-        }
-        exeRemove();
-      }
-      else if (mainchoose == 'o') {
-        if (R != NULL) {
-          exeClose();
-        }
-        DataAndTreeName();
-        exeOpen(&R);
-        printf("\n     ===========================================\n\n");
-        printf("Prepare for Join? (y/n) ");
-        do {
-          ch= getchar();
-        } while ((ch != 'y') && (ch != 'n'));
-        dummy= getchar();
-        if (ch == 'y') {
-          printf("R2=R? (y/n) ");
-          do {
-            ch= getchar();
-          } while ((ch != 'y') && (ch != 'n'));
-          dummy= getchar();
-          if (ch == 'y') {
-            R2= R;
-          }
-          else {
-            DataAndTreeName();
-            exeOpen(&R2);
-          }
-        }
-      }
-      else if (mainchoose == '.') {
-        exeClose();
-      }
-      else if (mainchoose == 'I') {
-        exeInquire();
-      }
-      else if (mainchoose == '`') {
-        exeComputeNodeLengths();
-      }
-      if (WorkMenu) {
-        printf("\n");
-        printf("%20s,   %20s,\n","Insert = \"i\"","Delete = \"d\"");
-        printf("%30s,\n","Search = \"s\"");
-        printf("%30s,\n","ExistsRegion = \"e\"");
-        printf("%20s,   %20s,\n","RegionCount = \"r\"","RegionQueries = \"[\"");
-        printf("%20s,   %20s,\n","JoinCountNv = \"j\"","JoinNv = \"=\"");
-        printf("%20s,   %20s,\n","JoinCountX = \"J\"","JoinX = \"#\"");
-        printf("%30s.\n","leave this menu = \"-\"");
-        printf("Input: ");
-        do {
-          choose= getchar();
-        } while ((choose != 'i') && (choose != 'd') &&
-                 (choose != 's') &&
-                 (choose != 'e') &&
-                 (choose != 'r') && (choose != '[') &&
-                 (choose != 'j') && (choose != '=') &&
-                 (choose != 'J') && (choose != '#') &&
-                 (choose != '-'));
-        dummy= getchar();
-        if (choose == '-') {
-        }
-        else if (choose == 'i') {
-          if (opendata()) {
-            exeInsert();
-            closedata();
-          }
-        }
-        else if (choose == 'd') {
-          if (opendata()) {
-            exeDelete();
-            closedata();
-          }
-        }
-        else if (choose == 's') {
-          if (opendata()) {
-            exeSearch();
-            closedata();
-          }
-        }
-        else if (choose == 'e') {
-          QueryName();
-          if (openquery()) {
-            exeExistsRegion();
-            closequery();
-          }
-        }
-        else if (choose == 'r') {
-          QueryName();
-          if (openquery()) {
-            exeRegionCount();
-            closequery();
-          }
-        }
-        else if (choose == '[') {
-          QueryName();
-          if (openquery()) {
-            exeRegionQueries();
-            closequery();
-          }
-        }
-        else if (choose == 'j') {
-          exeJoinCountNv();
-        }
-        else if (choose == '=') {
-          exeJoinNv();
-        }
-        else if (choose == 'J') {
-          exeJoinCountX();
-        }
-        else if (choose == '#') {
-          exeJoinX();
-        }
-      }
-    }
-    else {
-      exeClose();
-    }
-  } while (mainchoose != 'q');
-}
-
-/***********************************************************************/
-
-void ShortInstruction()
-
-{
-  printf("\n  --- TestRStarTree ---\n");
-  printf("This testprogram principally works on one \"main\" tree only.\n");
-  printf("Exception: JoinCount.\n");
-  printf("Joins work on the main tree and a secondary tree.\n");
-  printf("Joins are normally initialized by \"Open\".\n");
-  printf("If an error occurs the corresponding procedure does nothing\n");
-  printf("but issuing a message, though actions may be retried.\n");
-  printf("\"Create\", \"Open\" and \"Remove\" automatically perform\n");
-  printf("\"Close\" on the main tree (if it is not NULL)\n");
-  printf("before performing the concerning action.\n");
-  printf("\"quit\" will also try to close the main tree.\n");
-  printf("The secondary tree is automatically closed after the join.\n");
-}
-
-/***********************************************************************/
-
-int GetLOF(File f) /* GetLengthOfFile */
-
-{
-  struct stat *refstatus;
-  
-  refstatus= (struct stat *)malloc(sizeof(struct stat));
-  ferr= fstat(f,refstatus);
-  if (ferr == -1) {
-    return 0;
-  }
-  else {
-    return (*refstatus).st_size;
-  }
-}
-
-/***********************************************************************/
-
-void getname(char *name)
-
-{
-  printf("\nData File (without suffix): ");
-  scanf("%s",name);
-}
-
-/***********************************************************************/
-
-void DataAndTreeName()
-
-{
-  getname(distname);
-  strcpy(rfilename,distname);
-  strcat(rfilename,RSTsuffix);
-}
-
-/***********************************************************************/
-
-void QueryName()
-
-{
-  getname(quername);
-}
-
-/***********************************************************************/
-
-void DisplErr(char *name)
-
-{
-  char message[80];
-  
-  printf("\n--------------------\n");
-  printf("%s %d\n","FileError:",errno);
-  strcpy(message,"Error handling file:\n");
-  strcat(message,name);
-  perror(message);
-  printf("--------------------\n");
-  errno= 0;
-}
-  
-/***********************************************************************/
-
-boolean opendata()
-
-{
-  printf("Open Data File:\n");
-  printf("%s\n",distname);
-  datafile= open(distname,O_RDONLY,STDMODE);
-  if (datafile == -1) {
-    DisplErr(distname);
-    return FALSE;
-  }
-  else {
-    GetTestParameters(datafile,distname);
-    return TRUE;
-  }
-}
-
-/***********************************************************************/
-
-void closedata()
-
-{
-  printf("Close Data File:\n");
-  printf("%s\n",distname);
-  ferr= close(datafile);
-  if (ferr == -1) {
-    DisplErr(distname);
-  }
-}
-
-/***********************************************************************/
-
-boolean openquery()
-
-{
-  printf("Open Query File:\n");
-  printf("%s\n",quername);
-  querfile= open(quername,O_RDONLY,STDMODE);
-  if (querfile == -1) {
-    DisplErr(quername);
-    return FALSE;
-  }
-  else {
-    GetTestParameters(querfile,quername);
-    return TRUE;
-  }
-}
-
-/***********************************************************************/
-
-void closequery()
-
-{
-  printf("Close Query File:\n");
-  printf("%s\n",quername);
-  ferr= close(querfile);
-  if (ferr == -1) {
-    DisplErr(quername);
-  }
-}
-
-/***********************************************************************/
-
-void exeCreate()
-
-{
-  int pagelen;
-  boolean unique;
-  
-  printf("Length of a page: ");
-  scanf("%d",&pagelen);
-  printf("Unique?, (y/n): ");
-  do {
-    ch= getchar();
-  } while ((ch != 'y') && (ch != 'n'));
-  dummy= getchar();
-  unique= ch == 'y';
-  printf("%s%s%s","\nRemoveRST(",rfilename,"):\n");
-  if (RemoveRST(rfilename)) {
-    printf("Done\n");
-  }
-  printf("%s%s,%d,%d%s","CreateRST(",rfilename,pagelen,unique,"):\n");
-  if (CreateRST(rfilename,pagelen,unique)) {
-    printf("Done\n");
-  }
-  else {
-    printf("FAILURE\n");
-  }
-}
-
-/***********************************************************************/
-
-void exeRemove()
-
-{
-  printf("%s%s%s","\nRemoveRST(",rfilename,"):\n");
-  if (RemoveRST(rfilename)) {
-    printf("Done\n");
-  }
-  else {
-    printf("FAILURE\n");
-  }
-}
-
-/***********************************************************************/
-
-void exeOpen(RSTREE *r)
-
-{
-  printf("%s%s%s","OpenRST(",rfilename,"):\n");
-  if (OpenRST(r,rfilename)) {
-    printf("Done\n");
-  }
-  else {
-    printf("FAILURE\n");
-  }
-}
-
-/***********************************************************************/
-
-void exeClose()
-
-{
-  printf("%s%s%s","CloseRST(",rfilename,"):\n");
-  if (CloseRST(&R)) {
-    printf("Done\n");
-  }
-  else {
-    printf("FAILURE\n");
-  }
-}
-
-/***********************************************************************/
-
-void GetTestParameters(File file, char *name)
-
-{
-  printf("\nExecution from/up to entrynumber\n");
-  printf("(\"0 0\": Execution on all entries of the file.)\n");
-  printf("Input: ");
-  scanf("%d",&begin); scanf("%d",&end);
-  if (begin != 0) { begin--; }
-  if (end == 0) {
-    end= GetLOF(file) / sizeof(data);
-  }
-  pos= lseek(file,begin*sizeof(data),SEEK_SET);
-  if (pos == -1) {
-    DisplErr(name);
-  }
-  printf("Message if done =\"d\",");
-  printf(" not done =\"n\", message off =\"o\"\n");
-  printf("Input: ");
-  do {
-    ch= getchar();
-  } while ((ch != 'd') && (ch != 'n') && (ch != 'o'));
-  dummy= getchar();
-  notdmsg= ch == 'n';
-  donemsg= ch == 'd';
-  printf("Echo resp. performance-measurement(Insert) at ");
-  printf("entrynumber MOD how much?\n");
-  printf("(\"0\": none, not \"0\": mandatory at the end)\n");
-  printf("Input: ");
-  scanf("%d",&constante);
-  dummy= getchar(); /* scanf leaves trailing white characters */
-  if (constante == 0) {constante= MAXINT;}
-}
-
-/***********************************************************************/
-
-void exeInsert()
-
-{
-  int xdirv, xdatav, xdirr, xdatar,
-      xdirm, xdatam, xdirw, xdataw;
-  boolean inserted, success;
-  int height;
-  int d;
-  typinfo info;
-  
-  CountsOn0(R);
-  i= begin;
-  do {
-    nbytes= read(datafile,&datarect,sizeof(data));
-    if (nbytes <= 0) {
-      DisplErr(distname);
-    }
-    i++;
-    for (d= 0; d < NumbOfDim; d++) {
-      rectangle[d].l= datarect.center[d] - datarect.ext[d];
-      rectangle[d].h= datarect.center[d] + datarect.ext[d];
-    }
-    /* Begin set info.contents to record number */
-    /**/
-    info.contents= i;
-    /**/
-    /* End   set info.contents to record number */
-    success= InsertRecord(R,rectangle,&info,&inserted);
-    if (notdmsg) {
-      if (! inserted) {
-        printf("%s%d\n"," NOT INSERTED: ",i);
-      }
-    }
-    else if (donemsg) {
-      if (inserted) {
-        printf("%s%d\n"," INSERTED: ",i);
-      }
-    }
-    if ((i % constante == 0) || (i == end)) {
-      printf("%5d%s",i,"::  ");
-      GetHeight(R,&height);
-      printf("%s%3d\n","height:",height);
-    }
-    if (! success) {printf("FAILURE\n"); return;}
-  } while (i != end);
-  GetCountRead(R,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-  GetCountWrite(R,&xdirm,&xdatam,&xdirw,&xdataw);
-  printf("%s%d\n","dirm: ",xdirm);
-  printf("%s%d\n","datam: ",xdatam);
-  printf("%s%d\n","dirw: ",xdirw);
-  printf("%s%d\n","dataw: ",xdataw);
-}
-
-/***********************************************************************/
-
-void exeDelete()
-
-{
-  int xdirv, xdatav, xdirr, xdatar,
-      xdirm, xdatam, xdirw, xdataw;
-  boolean found, success;
-  int d;
-  
-  CountsOn0(R);
-  i= begin;
-  do {
-    nbytes= read(datafile,&datarect,sizeof(data));
-    if (nbytes <= 0) {
-      DisplErr(distname);
-    }
-    i++;
-    for (d= 0; d < NumbOfDim; d++) {
-      rectangle[d].l= datarect.center[d] - datarect.ext[d];
-      rectangle[d].h= datarect.center[d] + datarect.ext[d];
-    }
-    success= DeleteRecord(R,rectangle,&found);    
-    if (notdmsg) {
-      if (! found) {
-        printf("%s%d\n"," NOT FOUND: ",i);
-      }
-    }
-    else if (donemsg) {
-      if (found) {
-        printf("%s%d\n"," FOUND: ",i);
-      }
-    }
-    if ((i % constante == 0) || (i == end)) {
-      printf("%5d%s",i,"::  ");
-      GetHeight(R,&height);
-      printf("%s%3d\n","height:",height);
-    }
-    if (! success) {printf("FAILURE\n"); return;}
-  } while (i != end);
-  GetCountRead(R,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-  GetCountWrite(R,&xdirm,&xdatam,&xdirw,&xdataw);
-  printf("%s%d\n","dirm: ",xdirm);
-  printf("%s%d\n","datam: ",xdatam);
-  printf("%s%d\n","dirw: ",xdirw);
-  printf("%s%d\n","dataw: ",xdataw);
-}
-
-/***********************************************************************/
-
-void exeSearch()
-
-{
-  int xdirv, xdatav, xdirr, xdatar;
-  int allfound;
-  boolean found, success;
-  typrect unused;
-  typinfo check;
-  int d;
-  
-  allfound= 0;
-  CountsOn0(R);
-  
-  i= begin;
-  do {
-    nbytes= read(datafile,&datarect,sizeof(data));
-    if (nbytes <= 0) {
-      DisplErr(distname);
-    }
-    i++;
-    for (d= 0; d < NumbOfDim; d++) {
-      rectangle[d].l= datarect.center[d] - datarect.ext[d];
-      rectangle[d].h= datarect.center[d] + datarect.ext[d];
-    }
-    success= Find(R,rectangle,&found,&check,sizeof(check));
-    if (found) {
-      allfound++;
-    }
-    if (notdmsg) {
-      if (! found) {
-        printf("%s%d\n"," NOT FOUND: ",i);
-      }
-    }
-    else if (donemsg) {
-      if (found) {
-        printf("%s%d\n"," FOUND: ",i);
-      }
-    }
-    if (found) {
-      /* Begin check correctness of an integer infopart */
-      /**/
-      if (check.contents != i) {
-        printf("%d%s%d\n",i,
-                        ": ODD INFOPART: ",
-                        check.contents);
-      }
-      /**/
-      /* End   check correctness of an integer infopart */
-    }
-    if ((i % constante == 0) || (i == end)) {
-      printf("%6d%s",i,"::  ");
-      GetHeight(R,&height);
-      printf("%s%3d","height:",height);
-      printf("%s%6d\n","  found:",allfound);
-    }
-    if (! success) {printf("FAILURE\n"); return;}
-  } while (i != end);
-  printf("\n");
-  GetCountRead(R,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-}
-
-/***********************************************************************/
-
-void exeExistsRegion()
-
-{
-  int xdirv, xdatav, xdirr, xdatar;
-  int allfound;
-  boolean found, success;
-  typrect unused;
-  int d;
-  
-  allfound= 0;
-  CountsOn0(R);
-  CompCount0();
-  
-  i= begin;
-  do {
-    nbytes= read(querfile,&datarect,sizeof(data));
-    if (nbytes <= 0) {
-      DisplErr(quername);
-    }
-    i++;
-    for (d= 0; d < NumbOfDim; d++) {
-      rectangle[d].l= datarect.center[d] - datarect.ext[d];
-      rectangle[d].h= datarect.center[d] + datarect.ext[d];
-    }
-    success= ExistsRegion(R,rectangle,unused,Encloses,Equal,&found);
-    if (found) {
-      allfound++;
-    }
-    if (notdmsg) {
-      if (! found) {
-        printf("%s%d\n"," NOT FOUND: ",i);
-      }
-    }
-    else if (donemsg) {
-      if (found) {
-        printf("%s%d\n"," FOUND: ",i);
-      }
-    }
-    if ((i % constante == 0) || (i == end)) {
-      printf("%5d%s",i,"::  ");
-      GetHeight(R,&height);
-      printf("%s%3d","height:",height);
-      printf("%s%6d\n","  found:",allfound);
-    }
-    if (! success) {printf("FAILURE\n"); return;}
-  } while (i != end);
-  printf("\n");
-  printf("%s%d\n","comp: ",compcount);
-  printf("\n");
-  GetCountRead(R,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-}
-
-/***********************************************************************/
-
-void exeRegionCount()
-
-{
-  int xdirv, xdatav, xdirr, xdatar;
-  int numfound, allfound, emptyquery;
-  typrect unused;
-  boolean success;
-  int d;
-  
-  allfound= 0;
-  emptyquery= 0;
-  CountsOn0(R);
-  CompCount0();
-
-  i= begin;
-  do {
-    nbytes= read(querfile,&datarect,sizeof(data));
-    if (nbytes <= 0) {
-      DisplErr(quername);
-    }
-    i++;
-    for (d= 0; d < NumbOfDim; d++) {
-      rectangle[d].l= datarect.center[d] - datarect.ext[d];
-      rectangle[d].h= datarect.center[d] + datarect.ext[d];
-    }
-    success= RegionCount(R,rectangle,unused,Intersects,Intersects,&numfound);
-    if (numfound == 0) {
-      emptyquery++;
-    }
-    else {
-      allfound= allfound+numfound;
-    }
-    if (notdmsg) {
-      if (numfound == 0) {
-        printf("%s%d\n"," NOT FOUND: ",i);
-      }
-    }
-    else if (donemsg) {
-      if (numfound != 0) {
-        printf("%s%d\n"," FOUND: ",i);
-      }
-    }
-    if ((i % constante == 0) || (i == end)) {
-      printf("%5d%s",i,"::  ");
-      GetHeight(R,&height);
-      printf("%s%3d","height:",height);
-      printf("%s%6d\n","  found:",allfound);
-    }
-    if (! success) {printf("FAILURE\n"); return;}
-  } while (i != end);
-  printf("\n");
-  printf("%s%d\n","comp: ",compcount);
-  printf("\n");
-  GetCountRead(R,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","empty queries: ",emptyquery);
-  printf("%s%d\n","rectangles found: ",allfound);
-  printf("\n");
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-}
-
-/***********************************************************************/
-
-void exeRegionQueries()
-
-{
-  int xdirv, xdatav, xdirr, xdatar;
-  int allfound, emptyquery;
-  typrect unused;
-  boolean success;
-  Set buffer;
-  int d;
-  
-  allfound= 0;
-  emptyquery= 0;
-  CountsOn0(R);
-  CompCount0();
-  
-  buffer= EmptySet();
-  
-  i= begin;
-  do {
-    nbytes= read(querfile,&datarect,sizeof(data));
-    if (nbytes <= 0) {
-      DisplErr(quername);
-    }
-    i++;
-    for (d= 0; d < NumbOfDim; d++) {
-      rectangle[d].l= datarect.center[d] - datarect.ext[d];
-      rectangle[d].h= datarect.center[d] + datarect.ext[d];
-    }
-    globnumfound= 0;
-    success= RegionQuery(R,
-                         rectangle,
-                         unused,
-                         Intersects,
-                         Intersects,
-                         ManageQuery,
-                         &buffer);
-    if (globnumfound == 0) {
-      emptyquery++;
-    }
-    else {
-      allfound= allfound+globnumfound;
-    }
-    if (notdmsg) {
-      if (globnumfound == 0) {
-        printf("%s%d\n"," NOT FOUND: ",i);
-      }
-    }
-    else if (donemsg) {
-      if (globnumfound != 0) {
-        printf("%s%d\n"," FOUND: ",i);
-      }
-    }
-    if ((i % constante == 0) || (i == end)) {
-      printf("%5d%s",i,"::  ");
-      GetHeight(R,&height);
-      printf("%s%3d","height:",height);
-      printf("%s%6d\n","  found:",allfound);
-    }
-    if (! success) {printf("FAILURE\n"); return;}
-  } while (i != end);
-  printf("\n");
-  printf("%s%d\n","comp: ",compcount);
-  printf("\n");
-  GetCountRead(R,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","empty queries: ",emptyquery);
-  printf("%s%d\n","rectangles found: ",allfound);
-  printf("\n");
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-    
-  WriteSet(buffer);
-  printf("\n");
-  WriteTree(buffer);
-  printf("\n");
-}
-
-/***********************************************************************/
-
-void ManageQuery(RSTREE R,
-                 typrect rectangle,
-                 refinfo infoptr,
-                 void *buf,
-                 boolean *modify,
-                 boolean *finish)
-
-{
-  Set *set;
-  char dummy;
-  int d;
-  
-  /***** ----- count ----- *****/
-  
-  globnumfound++;
-  
-  /***** ----- prompt the user ----- *****/
-  
-  printf(">"); dummy= getchar();
-  
-  /***** ----- print rectangle ----- *****/
-  
-  for (d= 0; d < NumbOfDim; d++) {
-    printf("%25.17f",rectangle[d].l);
-    printf("%25.17f",rectangle[d].h);
-    printf("\n");
-  }
-  
-  /***** ----- print info part ----- *****/
-  
-  printf("%15d\n",(*infoptr).contents);
-  
-  /***** ----- get info part ----- *****/
-  
-  set= buf;
-  *set= IncludeSet(*set,(*infoptr).contents);
-  
-  /***** ----- modify record ----- *****/
-  
-  (*infoptr).contents= 42;
-  *modify= TRUE;
-  
-  /***** ----- finish after finding one ----- *****/
-  
-  *finish= TRUE;
-  
-}
-
-/***********************************************************************/
-
-void exeJoinCountNv()
-
-{
-  int xdirv, xdatav, xdirr, xdatar;
-  int paircount;
-  typrect unused;
-  boolean success;
-  
-  CountsOn0(R);
-  CountsOn0(R2);
-  CompCount0();
-  
-  globpaircount= 0;
-  success= JoinCountNv(R,R2,
-                       unused,unused,unused,unused,
-                       AlwaysTrue,AlwaysTrue,AlwaysTrue,AlwaysTrue,
-                       Intersects,Intersects,
-                       &paircount);
-  if (! success) {printf("FAILURE\n"); return;}
-  printf("\n%s%d\n\n","Number of Pairs found: ",paircount);
-  printf("\n");
-  printf("%s%d\n","comp: ",compcount);
-  printf("\n");
-  GetCountRead(R,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-  GetCountRead(R2,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-
-  if (R2 != R) {
-    printf("Close R2:\n");
-    if (CloseRST(&R2)) {
-      printf("Done\n");
-    }
-    else {
-      printf("FAILURE\n");
-    }
-  }
-}
-
-/***********************************************************************/
-
-void exeJoinNv()
-
-{
-  int xdirv, xdatav, xdirr, xdatar;
-  typrect unused;
-  boolean success;
-  void *buffer, *buffer2;
-
-  CountsOn0(R);
-  CountsOn0(R2);
-  CompCount0();
-  
-  buffer= malloc(sizeof(typinfo));
-  buffer2= malloc(sizeof(typinfo));
-
-  success= JoinNv(R,R2,
-                  unused,unused,unused,unused,
-                  AlwaysTrue,AlwaysTrue,AlwaysTrue,AlwaysTrue,
-                  Intersects,Intersects,
-                  ManageJoin,buffer,buffer2);
-  if (! success) {printf("FAILURE\n"); return;}
-  printf("\n%s%d\n\n","Number of Pairs found: ",globpaircount);
-  printf("\n");
-  printf("%s%d\n","comp: ",compcount);
-  printf("\n");
-  GetCountRead(R,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-  GetCountRead(R2,&xdirv,&xdatav,&xdirr,&xdatar);
-  printf("%s%d\n","dirv: ",xdirv);
-  printf("%s%d\n","datav: ",xdatav);
-  printf("%s%d\n","dirr: ",xdirr);
-  printf("%s%d\n","datar: ",xdatar);
-
-  if (R2 != R) {
-    printf("Close R2:\n");
-    if (CloseRST(&R2)) {
-      printf("Done\n");
-    }
-    else {
-      printf("FAILURE\n");
-    }
-  }
-}
-
-/***********************************************************************/
-
-void ManageJoin(RSTREE R, RSTREE R2,
-                typrect rectangle, typrect rectangle2,
-                refinfo infoptr, refinfo infoptr2,
-                void *buf, void *buf2,
-                boolean *finish)
-
-{
-# define MAXPAIRS 42
-  
-  char dummy;
-  int d;
-  
-  /***** ----- count pairs ----- *****/
-  
-  globpaircount++;
-  
-  /***** ----- prompt the user ----- *****/
-  
-  printf(">"); dummy= getchar();
-  
-  /***** ----- print rectangle of R ----- *****/
-  
-  for (d= 0; d < NumbOfDim; d++) {
-    printf("%25.17f",rectangle[d].l);
-    printf("%25.17f",rectangle[d].h);
-    printf("\n");
-  }
-  
-  /***** ----- print info part of R ----- *****/
-  
-  printf("%15d\n",(*infoptr).contents);
-  
-  /***** ----- print rectangle of R2 ----- *****/
-  
-  for (d= 0; d < NumbOfDim; d++) {
-    printf("%25.17f",rectangle2[d].l);
-    printf("%25.17f",rectangle2[d].h);
-    printf("\n");
-  }
-  
-  /***** ----- print info part of R2 ----- *****/
-  
-  printf("%15d\n",(*infoptr2).contents);
-  
-  /***** ----- finish after finding MAXPAIRS pairs ----- *****/
-  /*
-  if (globpaircount == MAXPAIRS) {
-    *finish= TRUE;
-  }
-  */
-  
-# undef MAXPAIRS
-}
-
-/***********************************************************************/
-
-void exeJoinCountX()
-
-{
-  printf("\nJoinCountX NOT IMPLEMENTED\n");
-}
-
-/***********************************************************************/
-
-void exeJoinX()
-
-{
-  printf("\nJoinX NOT IMPLEMENTED\n");
-}
-
-/***********************************************************************/
-
-void exeInquire()
-
-{
-  char name[80];
-  int NumberOfDimensions,
-      SIZEdirentry, SIZEdataentry, SIZEinfo,
-      dirM, dataM,
-      PageLength,
-      NumbDirPages, NumbDataPages;
-  int PagesPerLevel[50];
-  int NumbRecords,
-      height;
-  boolean unique;
-  double spaceutil[50];
-  double sumspaceutil;
-  boolean success;
-  int i;
-  
-  success= InquireRSTDesc(R,
-                          name,
-                          &NumberOfDimensions,
-                          &PageLength,
-                          &SIZEdirentry,
-                          &SIZEdataentry,
-                          &SIZEinfo,
-                          &dirM,
-                          &dataM,
-                          &NumbDirPages,
-                          &NumbDataPages,
-                          PagesPerLevel,
-                          &NumbRecords,
-                          &height,
-                          &unique);
-  if (! success) {printf("FAILURE\n"); return;}
-  printf("%20s%s\n","name: ",name);
-  printf("%20s%d\n","NumberOfDimensions: ",NumberOfDimensions);
-  printf("%20s%d\n","PageLength: ",PageLength);
-  printf("%20s%d\n","SIZEdirentry: ",SIZEdirentry);
-  printf("%20s%d\n","SIZEdataentry: ",SIZEdataentry);
-  printf("%20s%d\n","SIZEinfo: ",SIZEinfo);
-  printf("%20s%d\n","dirM: ",dirM);
-  printf("%20s%d\n","dataM: ",dataM);
-  printf("%20s%d\n","NumbDirPages: ",NumbDirPages);
-  printf("%20s%d\n","NumbDataPages: ",NumbDataPages);
-  printf("%20s%d\n","NumbPages: ",NumbDirPages+NumbDataPages);
-  printf("%20s%d\n","NumbRecords: ",NumbRecords);
-  printf("%20s%d\n","height: ",height);
-  printf("%20s%d\n","unique: ",unique);
-  printf("pages per level:\n");
-  for(i= 0; i < height; i++) {
-    printf("%7d",PagesPerLevel[i]);
-  }
-  printf("\n");
-  for (i= 0; i < height-1; i++) {
-    spaceutil[i]= (double)PagesPerLevel[i+1] /
-                  (double)(PagesPerLevel[i]*dirM);
-  }
-  spaceutil[height-1]= (double)(NumbRecords) /
-                       (double)(PagesPerLevel[height-1]*dataM);
-  printf("space utilization:\n");
-  for(i= 0; i < height; i++) {
-    printf("%.2e ",spaceutil[i]);
-  }
-  printf("\n");
-  sumspaceutil= 0.0;
-  for (i= 1; i < height-1; i++) {
-    sumspaceutil= sumspaceutil+spaceutil[i];
-  }
-  printf("%s%.2e\n","    avg spc util dir (without root): ",
-  sumspaceutil / (double)(height-2));
-  sumspaceutil= sumspaceutil+spaceutil[height-1];
-  printf("%s%.2e\n","avg spc util overall (without root): ",
-  sumspaceutil / (double)(height-1));
-}
-
-/***********************************************************************/
-
-void exeComputeNodeLengths()
-
-{
-  int infolen;
-  int entryqty, bytesqty;
-  int keylen, direntrylen, dataentrylen;
-  int dirlen, datalen;
-  int dirnumb, datanumb;
-  char again;
-  do {
-    printf("Length of the info part: ");
-    scanf("%d",&infolen);
-    printf("Number of entries: ");
-    scanf("%d",&entryqty);
-    printf("Computing from sizeof(data),\n");
-    keylen= sizeof(data);
-    direntrylen= keylen+sizeof(int);
-    dataentrylen= keylen+infolen;
-    dirlen= sizeof(int)+entryqty*direntrylen;
-    datalen= sizeof(int)+entryqty*dataentrylen;
-    printf("directory page length is ");
-    printf("%5d\n",dirlen);
-    printf("     data page length is ");
-    printf("%5d\n",datalen);
-    printf("  Number of bytes: ");
-    scanf("%d",&bytesqty);
-    printf("Computing from sizeof(data),\n");
-    dirnumb= (bytesqty-sizeof(int)) / direntrylen;
-    datanumb= (bytesqty-sizeof(int)) / dataentrylen;
-    printf("number of directory page entries is ");
-    printf("%5d\n",dirnumb);
-    printf("     number of data page entries is ");
-    printf("%5d\n",datanumb);
-    printf("\nagain?, (y/n): ");
-    do {
-      again= getchar();
-    } while ((again != 'y') && (again != 'n'));
-    dummy= getchar();
-  } while (again == 'y');
-}
-
-/***********************************************************************/
-
-boolean Equal(RSTREE R,
-              typrect RSTrect,
-              typrect queryrect,
-              typrect unused)
-
-{
-  int maxdim= NumbOfDim -1;
-  boolean eql;
-  int d;
-  
-  compcount++;
-  d= -1;
-  do {
-    d++;
-    eql= RSTrect[d].l == queryrect[d].l &&
-         RSTrect[d].h == queryrect[d].h;
-  } while (eql && d != maxdim);
-  return eql;
-}
-
-/***********************************************************************/
-
-boolean Intersects(RSTREE R,
-                   typrect RSTrect,
-                   typrect queryrect,
-                   typrect unused)
-
-{
-  int maxdim= NumbOfDim -1;
-  boolean inter;
-  int d;
-  
-  compcount++;
-  d= -1;
-  do {
-    d++;
-    inter= RSTrect[d].l <= queryrect[d].h &&
-           RSTrect[d].h >= queryrect[d].l;
-  } while (inter && d != maxdim);
-  return inter;
-}
-
-/***********************************************************************/
-
-boolean Encloses(RSTREE R,
-                 typrect RSTrect,
-                 typrect queryrect,
-                 typrect unused)
-
-{
-  int maxdim= NumbOfDim -1;
-  boolean encl;
-  int d;
-  
-  compcount++;
-  d= -1;
-  do {
-    d++;
-    encl= RSTrect[d].l <= queryrect[d].l &&
-          RSTrect[d].h >= queryrect[d].h;
-  } while (encl && d != maxdim);
-  return encl;
-}
-
-/***********************************************************************/
-
-boolean IsContained(RSTREE R,
-                    typrect RSTrect,
-                    typrect queryrect,
-                    typrect unused)
-
-{
-  int maxdim= NumbOfDim -1;
-  boolean iscont;
-  int d;
-  
-  compcount++;
-  d= -1;
-  do {
-    d++;
-    iscont= RSTrect[d].l >= queryrect[d].l &&
-            RSTrect[d].h <= queryrect[d].h;
-  } while (iscont && d != maxdim);
-  return iscont;
-}
-
-/***********************************************************************/
-
-boolean AlwaysTrue(RSTREE R,
-                   typrect unused1,
-                   typrect unused2,
-                   typrect unused3)
-
-{
-  return TRUE;
-}
-
-/***********************************************************************/
-
-void CompCount0()
-
-{
-  compcount= 0;
-}
-
-/***********************************************************************/
diff --git a/modules/cform.lisp b/modules/cform.lisp
deleted file mode 100644
index 79f8abf..0000000
--- a/modules/cform.lisp
+++ /dev/null
@@ -1,198 +0,0 @@
-;;;
-;;; cform.lisp -- Maxima output formatter for Programming Language C.
-;;; Copyright (C) 2007-2008 Tomohide Naniwa
-;;; version 1.2: Aug. 8, 2008
-;;;    based on precious contribution by D.C. Hauagge
-
-;;; cform.lisp is free software; you can redistribute it
-;;; and/or modify it under the terms of the GNU General Public
-;;; License as published by the Free Software Foundation; either
-;;; version 2, or (at your option) any later version.
-
-;;; cform.lisp is distributed in the hope that it will be
-;;; useful, but WITHOUT ANY WARRANTY; without even the implied
-;;; warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
-;;; See the GNU General Public License for more details.
-
-;;; Based on f90.lisp.  Copyright statements for f90.lisp follow:
-;;; Copyright (C) 2004 James F. Amundson
-
-;;; Based on fortra.lisp. Copyright statements for fortra.lisp follow:
-;;;  Copyright (c) 1984,1987 by William Schelter,University of Texas
-;;;     All rights reserved
-;;;  (c) Copyright 1980 Massachusetts Institute of Technology
-
-(in-package "MAXIMA")
-(macsyma-module cform)
-
-(DECLARE-TOP (SPECIAL LB RB	        ;Used for communication with MSTRING.
-		  $LOADPRINT	;If NIL, no load message gets printed.
-		  1//2 -1//2)
-	 (*LEXPR C-PRINT $CFORMMX))
-
-(DEFMSPEC $CFORM (L)
- (SETQ L (FEXPRCHECK L))
- (LET ((VALUE (STRMEVAL L)))
-      (COND ((MSETQP L) (SETQ VALUE `((MEQUAL) ,(CADR L) ,(MEVAL L)))))
-      (COND ((AND (SYMBOLP L) ($MATRIXP VALUE))
-	     ($CFORMMX L VALUE))
-	    ((AND (NOT (ATOM VALUE)) (EQ (CAAR VALUE) 'MEQUAL)
-		  (SYMBOLP (CADR VALUE)) ($MATRIXP (CADDR VALUE)))
-	     ($CFORMMX (CADR VALUE) (CADDR VALUE)))
-	    (T (C-PRINT VALUE)))))
-
-;; Some aliases for C language may be omittable for Maxima 5.10.x
-(setq c-alias
-      '(($POW "pow")
-        ($EXP "exp")
-        (%SQRT "sqrt")
-        (%SIN "sin")
-	(%COS "cos")
-	(%TAN "tan")
-	(%ACOS "acos")
-	(%ASIN "asin")
-	(%ATAN "atan")
-	($ATAN2 "atan2")
-	(%LOG "log")
-	(%SINH "sinh")
-	(%COSH "cosh")
-	(%TANH "tanh")
-	(%ASINH "asinh")
-	(%ACOSH "acosh")
-	(%ATANH "atanh")
-        (MABS "fabs")
-	))
-
-(DEFUN C-PRINT (X &OPTIONAL (STREAM #+Maclisp NIL #-Maclisp *standard-output*)
-			&AUX #+PDP10 (TERPRI T) #+PDP10 ($LOADPRINT NIL)
-		        ;; This is a poor way of saying that array references
-  		        ;; are to be printed with parens instead of brackets.
-			(LB #\[ ) (RB #\] )
-			;; Definition of heading white space.
-			(WHS "    "))
-  ;; Restructure the expression for displaying.
-  (SETQ X (CSCAN X))
-  ;; Linearize the expression using MSTRING.  Some global state must be
-  ;; modified for MSTRING to generate using C syntax.  This must be
-  ;; undone so as not to modifiy the toplevel behavior of MSTRING.
-  (UNWIND-PROTECT
-    (DEFPROP MEXPT MSIZE-INFIX GRIND)
-    (DEFPROP MMINUS 100. LBP)
-    (DEFPROP MSETQ (#\:) STRSYM)  
-    (mapc (lambda (x) 
-	    (putprop (car x) (get (car x) 'REVERSEALIAS) 'KEEP-RA)
-	    (putprop (car x) (cadr x) 'REVERSEALIAS)) c-alias)
-    (SETQ X (mstring x))
-   ;; Make sure this gets done before exiting this frame.
-    (DEFPROP MEXPT MSZ-MEXPT GRIND)
-    (REMPROP 'MMINUS 'LBP)
-    (mapc (lambda (x) 
-	    (putprop (car x) (get (car x) 'KEEP-RA) 'REVERSEALIAS)
-	    (remprop (car x) 'KEEP-RA)) c-alias)
-  )
-  
-  ;; MSTRING returns a list of characters. Now print them
-  (do ((char 0 (1+ char))
-       (line ""))
-      ((>= char (length x)))
-    (setf line (concatenate 'string line (make-sequence 
-					  'string 1 
-					  :initial-element (nth char x))))
-    (if (>= (length line) 80)
-	(let ((break_point -1))
-	  (mapc #'(lambda (x)
-		    (let ((p (search x line :from-end t))) 
-		      (if (and p (> p 0))
-			  (setf break_point p))))
-		'("+" "-" "*" "/"))
-;	  (increment break_point)
-	  (setf break_point (+ break_point 1))
-	  (if (= break_point 0)
-	      (progn (princ line stream) (setf line WHS))
-	      (progn
-		(princ (subseq line 0 break_point) stream)
-		(terpri stream)
-		(setf line (concatenate 'string WHS
-					(subseq line break_point
-						(length line))))))))
-    (if (and (= char (1- (length x))) (not (equal line WHS)))
-	(princ line stream))
-    )
-  (princ ";" stream)
-  (terpri stream)
-  '$done)
-
-(DEFUN CSCAN (E)
- (COND ((ATOM E) (cond ((eq e '$%i) '((mprogn) 0.0 1.0))
-		       (t E))) ;%I is (0,1)
-; Recent C compilers may have prototype declarathions for math functions.
-;       ((AND (EQ (CAAR E) 'MEXPT) (EQ (CADR E) '$%E) (numberp (caddr e)))
-;	(LIST '($EXP SIMP) (float (CADDR E))))
-       ((AND (EQ (CAAR E) 'MEXPT) (EQ (CADR E) '$%E))
-	(LIST '($EXP SIMP) (CSCAN (CADDR E))))
-       ((AND (EQ (CAAR E) 'MEXPT) (ALIKE1 (CADDR E) 1//2))
-	(LIST '(%SQRT SIMP) (CSCAN (CADR E))))
-       ((AND (EQ (CAAR E) 'MEXPT) (ALIKE1 (CADDR E) -1//2))
-	(LIST '(MQUOTIENT SIMP) 1 (LIST '(%SQRT SIMP) (CSCAN (CADR E)))))
-;       ((and (EQ (CAAR E) 'MEXPT) (numberp (caddr E)))
-;	(LIST '($POW SIMP) (CSCAN (CADR E)) (float (CADDR E))))
-;       ((and (EQ (CAAR E) 'MEXPT) (numberp (cadr E)))
-;	(LIST '($POW SIMP) (float (CADR E)) (CSCAN (CADDR E))))
-       ((EQ (CAAR E) 'MEXPT)
-	(LIST '($POW SIMP) (CSCAN (CADR E)) (CSCAN (CADDR E))))
-       ((AND (EQ (CAAR E) 'MTIMES) (RATNUMP (CADR E))
-	     (ZL-MEMBER (CADADR E) '(1 -1)))
-	(COND ((EQUAL (CADADR E) 1) (CSCAN-MTIMES E))
-	      (T (LIST '(MMINUS SIMP) (CSCAN-MTIMES E)))))
-       ((EQ (CAAR E) 'RAT)
-	(LIST '(MQUOTIENT SIMP) (FLOAT (CADR E)) (FLOAT (CADDR E))))
-       ((EQ (CAAR E) 'MRAT) (CSCAN (RATDISREP E)))
-
-	;; x[1,2,3] => x[1][2][3]
-       ((AND (EQ (CADDAR E) 'ARRAY) (NOT (EQ (CAAR E) 'MQAPPLY)) )
-	(if (> (LENGTH  E) 2) 
-	    ;; then
-	    (LIST '(MQAPPLY SIMP ARRAY) 
-		  (CSCAN (APPEND (LIST (LIST (CAAR E) 'SIMP 'ARRAY))
-				 (BUTLAST (CDR E))))
-		  (CAR (LAST E)))
-	  ;; else
-	  E
-	  )
-	)
-
-       ;;  complex numbers to f77 syntax a+b%i ==> (a,b)
-       ((and (memq (caar e) '(mtimes mplus))
-	     ((lambda (a) 
-		      (and (numberp (cadr a))
-			   (numberp (caddr a))
-			   (not (zerop1 (cadr a)))
-			   (list '(mprogn) (caddr a) (cadr a))))
-	      (simplify ($bothcoef e '$%i)))))
-       (T (CONS (CAR E) (MAPCAR 'CSCAN (CDR E))))))
-
-(DEFUN CSCAN-MTIMES (E)
-       (LIST '(MQUOTIENT SIMP)
-	     (COND ((NULL (CDDDR E)) (CSCAN (CADDR E)))
-		   (T (CONS (CAR E) (MAPCAR 'CSCAN (CDDR E)))))
-	     (FLOAT (CADDR (CADR E)))))
-
-;; Takes a name and a matrix and prints a sequence of C assignment
-;; statements of the form
-;;  NAME[I][J] = <corresponding matrix element>
-;;  The indcies I, J will be counted from 1.
-
-(DEFMFUN $CFORMMX (NAME MAT &OPTIONAL (STREAM #-CL NIL #+CL *standard-output*)
-			 &AUX ($LOADPRINT NIL) (K 'array))
-  (COND ((NOT (symbolp NAME))
-	 (MERROR "~%First argument to CFORMMX must be a symbol."))
-	((NOT ($MATRIXP MAT))
-	 (MERROR "Second argument to CFORMMX not a matrix: ~M" MAT)))
-  (DO ((MAT (CDR MAT) (CDR MAT)) (I 1 (f1+ I))) ((NULL MAT))
-      (DECLARE (FIXNUM I))
-      (DO ((M (CDAR MAT) (CDR M)) (J 1 (f1+ J))) ((NULL M))
-	  (DECLARE (FIXNUM J))
-	  (C-PRINT `((MEQUAL) ((((,NAME ,K) ,I) ,K) ,J) ,(CAR M)) STREAM)))
-  '$DONE)
-
-;; End:
diff --git a/modules/fes2004/AUTHORS b/modules/fes2004/AUTHORS
deleted file mode 100644
index 08f2c94..0000000
--- a/modules/fes2004/AUTHORS
+++ /dev/null
@@ -1,20 +0,0 @@
-
-
-
-The FES2004_distribution_soft-1.0.2 was written by :
-
-Thierry LETELLIER  (tletelli  @  notos.cst.cnes.fr)
-LEGOS Toulouse FRANCE
-in October 2005
-
-
-
-
-The FES2004_distribution_soft-1.0.2 used some functions from Aktarus library
-The Aktarus library was written by :
-
-Thierry LETELLIER and Laurent ROBLOU
-LEGOS Toulouse FRANCE
-in 2003
-(tletelli  @  notos.cst.cnes.fr) and (laurent.roblou @  noveltis.fr)
-
diff --git a/modules/fes2004/COPYING b/modules/fes2004/COPYING
deleted file mode 100644
index d60c31a..0000000
--- a/modules/fes2004/COPYING
+++ /dev/null
@@ -1,340 +0,0 @@
-		    GNU GENERAL PUBLIC LICENSE
-		       Version 2, June 1991
-
- Copyright (C) 1989, 1991 Free Software Foundation, Inc.
-     59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
- Everyone is permitted to copy and distribute verbatim copies
- of this license document, but changing it is not allowed.
-
-			    Preamble
-
-  The licenses for most software are designed to take away your
-freedom to share and change it.  By contrast, the GNU General Public
-License is intended to guarantee your freedom to share and change free
-software--to make sure the software is free for all its users.  This
-General Public License applies to most of the Free Software
-Foundation's software and to any other program whose authors commit to
-using it.  (Some other Free Software Foundation software is covered by
-the GNU Library General Public License instead.)  You can apply it to
-your programs, too.
-
-  When we speak of free software, we are referring to freedom, not
-price.  Our General Public Licenses are designed to make sure that you
-have the freedom to distribute copies of free software (and charge for
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-(2) offer you this license which gives you legal permission to copy,
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-want its recipients to know that what they have is not the original, so
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-  The precise terms and conditions for copying, distribution and
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-
-		    GNU GENERAL PUBLIC LICENSE
-   TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
-
-  0. This License applies to any program or other work which contains
-a notice placed by the copyright holder saying it may be distributed
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-is covered only if its contents constitute a work based on the
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-with the Program (or with a work based on the Program) on a volume of
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-  4. You may not copy, modify, sublicense, or distribute the Program
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-		     END OF TERMS AND CONDITIONS
-
-	    How to Apply These Terms to Your New Programs
-
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-possible use to the public, the best way to achieve this is to make it
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-    Copyright (C) <year>  <name of author>
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-    it under the terms of the GNU General Public License as published by
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-    This program is distributed in the hope that it will be useful,
-    but WITHOUT ANY WARRANTY; without even the implied warranty of
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-    This is free software, and you are welcome to redistribute it
-    under certain conditions; type `show c' for details.
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-The hypothetical commands `show w' and `show c' should show the appropriate
-parts of the General Public License.  Of course, the commands you use may
-be called something other than `show w' and `show c'; they could even be
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-  `Gnomovision' (which makes passes at compilers) written by James Hacker.
-
-  <signature of Ty Coon>, 1 April 1989
-  Ty Coon, President of Vice
-
-This General Public License does not permit incorporating your program into
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diff --git a/modules/fes2004/ChangeLog b/modules/fes2004/ChangeLog
deleted file mode 100644
index e69de29..0000000
diff --git a/modules/fes2004/Makefile.am b/modules/fes2004/Makefile.am
deleted file mode 100644
index 9c22935..0000000
--- a/modules/fes2004/Makefile.am
+++ /dev/null
@@ -1,17 +0,0 @@
-if BUILD_TIDE
-TIDE = libfes.la
-endif
-
-noinst_LTLIBRARIES = $(TIDE)
-
-libfes_la_CFLAGS = $(AM_CFLAGS) $(GSL_CFLAGS)
-libfes_la_SOURCES = \
-	fes2004_alloc.c \
-	fes2004_error.c \
-	fes2004_extraction.c \
-	fes2004_init.c \
-	fes2004_io.c \
-	fes2004_prediction.c \
-	fes2004_kernel.c \
-	fes.h \
-	fes2004_lib.h
diff --git a/modules/fes2004/NEWS b/modules/fes2004/NEWS
deleted file mode 100644
index e69de29..0000000
diff --git a/modules/fes2004/README b/modules/fes2004/README
deleted file mode 100644
index 62a3666..0000000
--- a/modules/fes2004/README
+++ /dev/null
@@ -1,217 +0,0 @@
-################################################################
-#
-#   FES2004_distribution_soft-1.0.2
-#
-# -----------------------------------------------------------------------------------------------------------------------
-# THE SOFTWARE IS DISTRIBUTED FOR THE SCIENTIC COMMUNITY WITHOUT ANY GARANTEE
-# -----------------------------------------------------------------------------------------------------------------------
-#
-# Author : T. LETELLIER Legos Toulouse FRANCE
-#
-################################################################
-
-
-
-
-  REQUIREMENTS :
-================
-
-1---
-
-You need GSL (the Gnu Scientific Library) to be installed on your computer
-see : http://www.gnu.org/software/gsl/
-
-By default GSL is installed by root in the classical /usr/bin  /usr/lib  /usr/include 
-some times in /usr/local/bin  /usr/local/lib  /usr/local/include 
-
-If the installation was made made be a default user or if the configure script not found the GSL files
-you need to configure the environement :
-in bash :
-export PATH=$PATH:/home/user/softs/gsl/bin
-export CFLAGS="$CFLAGS -I/home/user/softs/gsl/include"
-export LDFLAGS="$LDLAGS -I/home/user/softs/gsl/lib"
-
-2---
-
-You need NETCDF (network Common Data Form) to be installed on your computer
-see : http://www.unidata.ucar.edu/software/netcdf/
-
-By default NETCDF is installed by root in the classical /usr/bin  /usr/lib  /usr/include 
-some times in /usr/local/bin  /usr/local/lib  /usr/local/include 
-
-If the installation was made made be a default user or if the configure script not found the NETCDF files
-you need to configure the environement :
-in bash :
-export PATH=$PATH:/home/user/softs/netcdf/bin
-export CFLAGS="$CFLAGS -I/home/user/softs/netcdf/include"
-export LDFLAGS="$LDLAGS -I/home/user/softs/netcdf/lib"
-
-
-
-
-
-  COMPILATION :
-================
-
-You just have to execute the 3 commands :
-	./configure
-	make
-	make install
-	
-in the major compilation case you do not have to install this program in the system path
-(and also if oyu are not root you do not have the right)
-
-Then use the option --prefix=/home/user/bin/... (path that pointing to an existing directory)
-to the configure script
-example :
-	mkdir /home/user/bin/FES2004_EXEC_DIR
-	./configure --prefix=/home/user/bin/FES2004_EXEC_DIR
-
-
-
-
-  INSTALLATION :
-================
-
-The "make install" script will install 3 files
-the executable FES2004.exe in bin directory
-the header file fes2004.h in include directory
-the lib file libfes.a in lib directory
-
-
-
-
-  USE FES2004.exe :
-===================
-
-Usage : FES2004.exe [parameters] [option] file ...
-
- ----PARAMETERS---- :
-  ------------------
-  -t [argument]    Process type           : extraction - prediction   Note : this option can be use two times ...
-  -s [argument]    Data set for process   :    tide    -  loading     Note : this option can be use two times ...
-  -A [FILE]        Necessary (with -s tide) path and filename of the --TIDE-- FES netcdf data file
-  -B [FILE]        Necessary (with -s load) path and filename of the --LOAD-- FES netcdf data file
-  -----VARIABLE PARAMETER---- :
-  ----------------------------
-  -r [value]       Necessary for prediction :
-                   This is the time refence of the input file.
-                   Use : 0 --> 01Jan1950  0H00
-                         1 --> 01Jan1958  0H00
-                         2 --> 01Jan1985  0H00
-                         3 --> 01Jan2000  0H00
-                         DEFAULT is 0
-  ----OPTION---- :
-  ---------------
-  -o [file]        Optionnal give a specific root output file name
-
-  ----EXAMPLES---- :
-  ----------------
-
-    1- FES2004.exe -t extraction -s loading -B load.nc inputFILE             --> extraction of the loading data in out_file.loading.extract
-
-    2- FES2004.exe -t extraction -t prediction -s tide -A tide.nc inputFILE  --> extraction of the tide data in out_file.tide.extract
-                                                                                 and prediction of the tide data in out_file.tide.pred
-
-    3- FES2004.exe -t prediction -s tide -s loading -A tide.nc -B load.nc inputFILE     --> prediction of both the tide and loading data
-                                                                                            in out_file.tide.pred and out_file.loading.extract
-
-    4- FES2004.exe -t prediction -A tide.nc -s tide -o my_output inputFILE   --> prediction of the tide data in my_output.tide.pred
-
-    5- FES2004.exe -t prediction -s tide -A tide.nc -d /MYPATH/  inputFILE   --> prediction of the tide data (FES2004.nc) found in /MYPATH/
-
-
-The inputFile MUST HAVE THIS FORMAT
-
-Latitude Longitude Time
-Latitude Longitude Time
-Latitude Longitude Time
-Latitude Longitude Time
-Latitude Longitude Time
-Latitude Longitude Time
- .
- .
- .
-Where latitude longitude and time are double
-With Latitude and Longitude in degrees (-180 +180) or (0 360)
-and time in hours since the time reference ...
-
-For the extraction process you do not have to indicate a valid time
-because it is not use
-BUT IT MUST PRESENT
-
-
-
-
-
-  USE libfes.a :
-===================
-
-The libfes can be used in C and C++ language
-
-You just have to include the file fes2004.h (that prototype the prediction and extraction functions)
-and use the libfes2004.a the gsl gslcblas and netcdf libraries during the linking
-
-Example
-
----
-C sources
-
-#include "fes2004.h"
-
-int main()
-{
-char netcdf_filename[256];
-int nb_position=600;
-double *lat,double *lon,double **amplitude,double **phase;
-int nb_CPU;
-
-//allocation
-
-rstatus=fes2004_extraction (netcdf_filename,nb_position,lat,lon,amplitude,phase,nb_CPU);
-
-}
-
----
-compilation
-
-gcc -g -IFES_Directory/include -lfes -lnetcdf -lgsl -lgslcblas -o My_own_extract.exe 
-
-
-For the Fortran We think that the liffes.a can also be use
-all the parameters used for the CALL are classical and correspond to Fortran tabular
-But yet it was never been tested ....
-
-
----
-experts
-
-You can use libfes on a defined number of processors
-You need to uncoment the 
-#define MULTI
-in the src/fes2004_kernel.c file and then recompile the lib
-with 
-./configure --prefix= ...
-make 
-make install
-
-You can now use the nb_cpu parameters of the extraction and prediction functions
- ...
- It's easy	
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
diff --git a/modules/fes2004/fes.h b/modules/fes2004/fes.h
deleted file mode 100644
index c606cc9..0000000
--- a/modules/fes2004/fes.h
+++ /dev/null
@@ -1,23 +0,0 @@
-
-// this file is a hearder file that prototype the libfes.a functions
-// The inputs are :
-//    char an string that contain the ath to load the NETCDF SOLUTION
-//    int time reference 0->01/01/1950   1->01/01/1958   2->01/01/1985   3->01/0/2000
-//    int nb_position the number of point the predict and or to extract
-//    double lat lon time 3 tabulars(nb_position) that contain the position and time for the prediction extraction
-// The returns are :
-//    double prediction  tabular(nb_position) that contains the prediction in meters 
-//    double amplitude phase 2 dimension tabular[nb_position][nb_wave=14] that contain the amplitude and the phase_lag extracted for each point and all waves
-
-// the int nb_cpu can be use if chachc in the source code src/fes2004_kernel.c
-// and activate the multithread mode ... read the end of the README file
-
-//extern int fes2004_prediction (char *netcdf_filename,int time_reference,int nb_position,double *lat,double *lon,double *time,double *prediction,int nb_CPU);
-//extern int fes2004_extraction (char *netcdf_filename,int nb_position,double *lat,double *lon,double **amplitude,double **phase,int nb_CPU);
-
-//  prototypes
-
-
-
-extern int fes2004_prediction (char *,int ,int ,double *,double *,double *,double *,int );
-extern int fes2004_extraction (char *,int ,double *,double *,double **,double **,int );
diff --git a/modules/fes2004/fes2004_alloc.c b/modules/fes2004/fes2004_alloc.c
deleted file mode 100644
index 8c949d8..0000000
--- a/modules/fes2004/fes2004_alloc.c
+++ /dev/null
@@ -1,123 +0,0 @@
-#include "fes2004_lib.h"
-
-
-/*####################################################*/
-/*                                                    */
-/*     spectrum variable allocation                   */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void alloc_tide_spectrum(spectrum_struct **spectrum )
-{
-  int nb_wave;
-  nb_wave=NB_WAVE_IN_SPECTRUM;
-  *spectrum=(spectrum_struct *)calloc(nb_wave,sizeof(spectrum_struct));
-  if(*spectrum==NULL) print_error_3("error in spectrum allocation, you may use a larger memory computer -->exit");
-
-}
-
-
-
-/*####################################################*/
-/*                                                    */
-/*     threads variable allocation                    */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void alloc_prediction_threads(mega_struct *P,int CPU)
-{
-  int i;
-  
-  for(i=0;i<CPU;i++)
-    {
-      P[i].Mat=gsl_matrix_calloc(coef_spline,coef_spline);
-      if(P[i].Mat==NULL) print_error_3("error in threads allocation, you may use a larger memory computer or reduce the number of CPU -->exit");
-
-      P[i].sec_r=gsl_vector_calloc(coef_spline);
-      if(P[i].sec_r==NULL) print_error_3("error in threads allocation, you may use a larger memory computer or reduce the number of CPU -->exit");
-
-      P[i].sec_i=gsl_vector_calloc(coef_spline);
-      if(P[i].sec_i==NULL) print_error_3("error in threads allocation, you may use a larger memory computer or reduce the number of CPU -->exit");
-
-      P[i].res_r=gsl_vector_calloc(coef_spline);
-      if(P[i].res_r==NULL) print_error_3("error in threads allocation, you may use a larger memory computer or reduce the number of CPU -->exit");
-
-      P[i].res_i=gsl_vector_calloc(coef_spline);
-      if(P[i].res_i==NULL) print_error_3("error in threads allocation, you may use a larger memory computer or reduce the number of CPU -->exit");
-
-      P[i].Perm=gsl_permutation_calloc(coef_spline);
-      if(P[i].Perm==NULL) print_error_3("error in threads allocation, you may use a larger memory computer or reduce the number of CPU -->exit");
-
-      P[i].spectrum=calloc(36,sizeof(spectrum_struct));
-      if(P[i].spectrum==NULL) print_error_3("error in threads allocation, you may use a larger memory computer or reduce the number of CPU -->exit");
-
-      P[i].data_amp=malloc(56*sizeof(float));
-      P[i].data_phi=malloc(56*sizeof(float));
-
-      P[i].weight=malloc(4*sizeof(double));
-      P[i].sindice=malloc(3*sizeof(int));
-      P[i].aindice=malloc(10*sizeof(int));
-     
-
-    }
-}
-
-/*####################################################*/
-/*                                                    */
-/*     threads variable allocation                    */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void alloc_extraction_threads(mega_struct *P,int CPU)
-{
-  int i;
-  for(i=0;i<CPU;i++)
-    {
-      P[i].spectrum=calloc(36,sizeof(spectrum_struct));
-      if(P[i].spectrum==NULL) print_error_3("error in threads allocation, you may use a larger memory computer or reduce the number of CPU -->exit");
-      P[i].data_amp=malloc(56*sizeof(float));
-      P[i].data_phi=malloc(56*sizeof(float)); 
-      P[i].weight=malloc(4*sizeof(double));
-    }
-
-}
-
-/*####################################################*/
-/*                                                    */
-/*              threads variable free                 */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 06Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-
-void free_threads(mega_struct *P,int CPU)
-{
-  int i;  
-  for(i=0;i<CPU;i++)
-    {
-      if(P[i].Mat!=NULL)gsl_matrix_free( P[i].Mat);
-      if(P[i].sec_r!=NULL)gsl_vector_free(P[i].sec_r);
-      if(P[i].sec_i!=NULL)gsl_vector_free(P[i].sec_i);
-      if(P[i].res_r!=NULL)gsl_vector_free(P[i].res_r);
-      if(P[i].res_i!=NULL)gsl_vector_free(P[i].res_i);
-      if(P[i].Perm!=NULL)gsl_permutation_free(P[i].Perm);
-
-      if(P[i].spectrum!=NULL)free(P[i].spectrum);
-      if(P[i].data_amp!=NULL)free(P[i].data_amp);
-      if( P[i].data_phi!=NULL)free( P[i].data_phi);
-      if(P[i].weight!=NULL) free(P[i].weight);
-      if(P[i].sindice!=NULL)free(P[i].sindice);
-      if(P[i].aindice!=NULL)free(P[i].aindice);
-    }
-}
diff --git a/modules/fes2004/fes2004_error.c b/modules/fes2004/fes2004_error.c
deleted file mode 100644
index a7510ef..0000000
--- a/modules/fes2004/fes2004_error.c
+++ /dev/null
@@ -1,37 +0,0 @@
-#include <stdio.h>
-#include <stdlib.h>
-
-void print_error_1() 
-{
-  printf("error: wrong run parameters\n use: [executable] [time origine (CNES:0,CTO:1,ESA:2)] [input file] [Nb CPU dispo]\nexit");
-  exit(101);
-
-}
-
-void print_error_2() 
-{
-  printf("a strange error occur, certainly due to the memory allocation in the spectrum initialisation --> exit\n");
-  exit(102);
-
-}
-
-void print_error_3(char *message) 
-{
-  printf("%s\n",message);
-  exit(103);
-
-}
-
-void print_error_4(char *message) 
-{
-  printf("%s\n",message);
-  exit(104);
-
-}
-
-void print_error_5(char *message) 
-{
-  printf("can not open the file : %s , please check this error --> exit\n",message);
-  exit(105);
-
-}
diff --git a/modules/fes2004/fes2004_extraction.c b/modules/fes2004/fes2004_extraction.c
deleted file mode 100644
index 10d19db..0000000
--- a/modules/fes2004/fes2004_extraction.c
+++ /dev/null
@@ -1,60 +0,0 @@
-#include "fes2004_lib.h"
-
-
-
-
-int fes2004_extraction (char *netcdf_filename,int nb_position,double *lat,double *lon,double **amplitude, double **phase,int nb_CPU)
-{
-
-  /*####################################################*/
-  /* variable*/
-  /*####################################################*/
-  //classical variables
-  int rstatus;
-  
-  //prediction typedef variables
-  spectrum_struct *spectrum=NULL;
-  mega_struct *P=NULL;
-  
- /*####################################################*/
-  /* allocation*/
-  /*####################################################*/
-
-  alloc_tide_spectrum(&spectrum);
-  P=calloc(nb_CPU,sizeof(mega_struct));
-  alloc_extraction_threads(P,nb_CPU);
- 
-  /*####################################################*/
-  /*init prediction spectrum*/
-  /*####################################################*/
-
-  rstatus=init_spectrum(spectrum,99);
-  if (rstatus != 0 ) print_error_2();  
-
-  /*####################################################*/
-  /* load data files*/
-  /*####################################################*/
-
-  load_netcdf_fes2004_data(netcdf_filename,P,nb_CPU);
-   
-
-  /*####################################################*/
-  /*init thread struct*/
-  /*####################################################*/
-
-  init_thread_struct(nb_CPU, P, 99, lat, lon, NULL, NULL, spectrum,amplitude,phase);
-
-  /*####################################################*/
-  /*Multithreaded extraction*/
-  /*####################################################*/
-  
-   multi_t_extraction( nb_position, nb_CPU, P);
-
-  /*####################################################*/
-  /*free memory and exit*/
-  /*####################################################*/
-   free_threads(P,nb_CPU);
-   free(P);
-
-   return 0;
-}/*end*/		  
diff --git a/modules/fes2004/fes2004_init.c b/modules/fes2004/fes2004_init.c
deleted file mode 100644
index 8f6960f..0000000
--- a/modules/fes2004/fes2004_init.c
+++ /dev/null
@@ -1,287 +0,0 @@
-#define LIB
-#include "fes2004_lib.h"
-
-
-/*####################################################*/
-/*                                                    */
-/*    received : 1 name                               */
-/*    return : 2 pointers (type FILE)                 */
-/*                                                    */
-/*    the 2 files are open in r (in) and w (out)      */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void in_out_file_open(char *name,FILE **in,FILE **out)
-{
-  char *outfilename;
-  int len;
-
-  *in=fopen(name,"r");
-  len=strlen(name);
-  outfilename=(char *)malloc( (len+15)*sizeof(char));
-  sprintf(outfilename,"%s.output_file",name);    
-  *out=fopen(outfilename,"w");
-
-}
-
-/*####################################################*/
-/*                                                    */
-/*    received and return: 1 spectrum                 */
-/*                                                    */
-/*    all the information in the spectrum are         */
-/*    readable in the prediction.h                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-int init_spectrum(spectrum_struct *spectrum, int CTO)
-{
-  int rstatus;
-  int i;
-
-  //the rstatus return code is not test YET 
-
-  // spectrum waves initialisation
-  /*------------FES2004-------------------*/
-  rstatus=Wave_select(8,&spectrum[0].wave,2); /*2N2*/
-  rstatus=Wave_select(5,&spectrum[1].wave,2); /*K1*/
-  rstatus=Wave_select(4,&spectrum[2].wave,2); /*K2*/
-  rstatus=Wave_select(1,&spectrum[3].wave,2); /*M2*/
-  rstatus=Wave_select(37,&spectrum[4].wave,2); /*M4*/
-  rstatus=Wave_select(27,&spectrum[5].wave,2);/*Mf*/
-  rstatus=Wave_select(28,&spectrum[6].wave,2);/*Mm*/
-  rstatus=Wave_select(30,&spectrum[7].wave,2);/*Msqm*/
-  rstatus=Wave_select(29,&spectrum[8].wave,2);/*Mtm*/
-  rstatus=Wave_select(3,&spectrum[9].wave,2); /*N2*/
-  rstatus=Wave_select(6,&spectrum[10].wave,2); /*O1*/
-  rstatus=Wave_select(16,&spectrum[11].wave,2); /*P1*/
-  rstatus=Wave_select(7,&spectrum[12].wave,2); /*Q1*/
-  rstatus=Wave_select(2,&spectrum[13].wave,2); /*S2*/
-  /*------------ADMITTED------------------*/
-  /*semidiurne*/
-  rstatus=Wave_select(10,&spectrum[14].wave,2);/*nu2*/
-  rstatus=Wave_select(9, &spectrum[15].wave,2);/*mu2*/
-  rstatus=Wave_select(11,&spectrum[16].wave,2);/*L2*/
-  rstatus=Wave_select(12,&spectrum[17].wave,2);/*T2*/
-  rstatus=Wave_select(13,&spectrum[18].wave,2);/*LA1*/
-  rstatus=Wave_select(14,&spectrum[19].wave,2);/*KJ2*/
-  rstatus=Wave_select(15,&spectrum[20].wave,2);/*R2*/
-  /*diurne*/
-  rstatus=Wave_select(17,&spectrum[21].wave,2);/*OO1*/
-  rstatus=Wave_select(18,&spectrum[22].wave,2);/*J1*/
-  rstatus=Wave_select(19,&spectrum[23].wave,2);/*PHI1*/
-  rstatus=Wave_select(20,&spectrum[24].wave,2);/*PI1*/
-  rstatus=Wave_select(21,&spectrum[25].wave,2);/*PSI1*/
-  rstatus=Wave_select(22,&spectrum[26].wave,2);/*RO1*/
-  rstatus=Wave_select(23,&spectrum[27].wave,2);/*SIG1*/
-  rstatus=Wave_select(24,&spectrum[28].wave,2);/*TTA1*/
-  rstatus=Wave_select(25,&spectrum[29].wave,2);/*2Q1*/
-  rstatus=Wave_select(26,&spectrum[30].wave,2);/*Ki1*/
-  /*long*/
-  rstatus=Wave_select(33,&spectrum[31].wave,2);/*Msm*/
-  rstatus=Wave_select(34,&spectrum[32].wave,2);/*Msf*/
-  rstatus=Wave_select(35,&spectrum[33].wave,2);/*Mqm*/
-  rstatus=Wave_select(36,&spectrum[34].wave,2);/*Mstm*/
-  /*------------computed------------------*/
-  rstatus=Wave_select(31,&spectrum[35].wave,2);/*SSA*/
-
-  //spectrum data initialisation
-  for(i=0;i<13;i++) 
-    {
-      spectrum[i].buffer=NULL;
-      spectrum[i].rstatus=-1;
-      sprintf(spectrum[i].PATH,"../data/%s.nc",spectrum[i].wave.name);
-    } 
-  for(i=0;i<36;i++) spectrum[i].CTO=CTO;
-  return(0);
-}
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*   init the mega struct P to prepare the            */
-/*   multithreaded part of the prediction             */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void  init_thread_struct(int CPU, mega_struct *P, int CTO,double *lat,double *lon, double *time, double *Otide, spectrum_struct *spectrum,  double **amplitude,double **phase)
-{
-  int i,j;
-  for(i=0;i<CPU;i++) 
-    {
-      P[i].CTO=CTO;
-      P[i].lat=lat;
-      P[i].lon=lon;
-      P[i].time=time;
-      P[i].Otide=Otide;
-      P[i].amplitude=amplitude;
-      P[i].phase=phase;
-      for(j=0;j<36;j++)P[i].spectrum[j]=spectrum[j];
-    }
-}
-
-
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*   init select the wave in prediction.h             */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/* this routine is a part of the aktarus lib LEGOS    */
-/*####################################################*/
-int Wave_select(int i, tidal_wave *carac,int detided)
-{
-
-  int verbose=1;
-
-switch (i)
-{ 
-
- case 1 : {*carac=wM2; break;}
- case 2 : {*carac=wS2; break;}
- case 3 : {*carac=wN2; break;}
- case 4 : {*carac=wK2; break;}
- case 5 : {*carac=wK1; break;}
- case 6 : {*carac=wO1; break;}
- case 7 : {*carac=wQ1; break;}
- case 8 : {*carac=w2N2; break;}
-/*-----------------------------*/
- case 9 : {*carac=wMu2; break;}
- case 10 : { *carac=wNu2;break;}
- case 11 : {*carac=wL2; break;}
- case 12 : {*carac=wT2; break;}
- case 13 : {*carac=wLa2; break;} 
- case 14 :
-   {
-     if (detided==2)  {*carac=wKJ2; break;} 
-     else {verbose=0;break;}
-   }
- case 15 : 
-   {
-     if (detided==2)  {*carac=wR2; break;}
-     else {verbose=0;break;}
-   }
-/*-----------------------------*/
- case 16 : {*carac=wP1; break;}
- case 17 : {*carac=wOO1; break;}
- case 18 : {*carac=wJ1; break;}
- case 19 : {*carac=wPhi1; break;}
- case 20 : {*carac=wPi1; break;}
- case 21 : 
-  {
-    if (detided==0)  {verbose=0;break; }
-    else {*carac=wPsi1; break;}
-  }
- case 22 : {*carac=wRo1; break;}
- case 23 : {*carac=wSig1; break;}
- case 24 : {*carac=wTta1; break;}
- case 25 : {*carac=w2Q1; break;}
- case 26 : {*carac=wKi1; break;}
-/*-----------------------------*/
- case 27 : {*carac=wMf; break;}
- case 28 : {*carac=wMm; break;}
- case 29 : {*carac=wMtm; break;}
- case 30 : 
-   {
-     if (detided==2) {*carac=wMSqm; break;}
-     else {verbose=0;break;}
-   }
- case 31 : {*carac=wSsa; break;}
- case 32 : {*carac=wSa; break;}
- case 33 : 
-   {
-     if (detided==2)  {*carac=wMSm; break;}
-     else {verbose=0;break;}
-   }
- case 34 : {*carac=wMSf; break;}
- case 35 : {*carac=wMqm; break;}
- case 36 : {*carac=wMStm; break;}
-
-/*-----------------------------*/
- case 37 : {*carac=wM4; break;}
- case 38 : {*carac=wMS4; break;}
- case 39 : {*carac=wMN4; break;}
- case 40 : {*carac=wS4; break;}
- case 41 : {*carac=wN4; break;}
-
-/*-----------------------------*/
- case 42 : {*carac=wS1; break;}
-
- default : verbose=0;}/*switch*/
-
-
-return(verbose);
-
-
-}/*end*/ 
-
-
-
-/*####################################################*/
-/*                                                    */
-/*       init the coef for the splien admittance      */
-/*                                                    */
-/*           Thierry LETELLIER 04Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void  init_admittance_coeff(int *sindice,int *aindice,int *nb,int GROUPE)
-{
-  switch(GROUPE)
-    {
-    case SEMI_DIURNAL :
-      { 
-	sindice[0]=2;
-	sindice[1]=3;
-	sindice[2]=9;
-	aindice[0]=14;
-	aindice[1]=15;
-	aindice[2]=16;
-	aindice[3]=17;
-	aindice[4]=18;
-	aindice[5]=19;
-	aindice[6]=20;
-	*nb=7;
-	break;
-      }
-    case DIURNAL :
-      {
-	sindice[0]=1;
-	sindice[1]=10;
-	sindice[2]=12;
-	aindice[0]=21;
-	aindice[1]=22;
-	aindice[2]=23;
-	aindice[3]=24;
-	aindice[4]=25;
-	aindice[5]=26;
-	aindice[6]=27;
-	aindice[7]=28;
-	aindice[8]=29;
-	aindice[9]=30;
-	*nb=10;
-	break;
-      }
-    case LONG :
-      {
-	sindice[0]=5;
-	sindice[1]=6;
-	sindice[2]=8;
-	aindice[0]=31;
-	aindice[1]=32;// LR, modif: 2008/12/18
-	aindice[2]=33;// LR, modif: 2008/12/18
-	aindice[3]=34;// LR, modif: 2008/12/18
-	*nb=4;
-	break;
-      }
-    }
-
-}
diff --git a/modules/fes2004/fes2004_io.c b/modules/fes2004/fes2004_io.c
deleted file mode 100644
index 15d3020..0000000
--- a/modules/fes2004/fes2004_io.c
+++ /dev/null
@@ -1,22 +0,0 @@
-#include "fes2004_lib.h"
-
-
-/*####################################################*/
-/*                                                    */
-/*        load the FES2004 data from FES2004.nc       */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-void  load_netcdf_fes2004_data(char *filename,mega_struct *P,int CPU)
-{
-
-
-  int i,rstatus;
- 
-  for(i=0;i<CPU;i++) 
-    {
-      rstatus=nc_open( filename, NC_NOWRITE,&P[i].ncid );
-      //  if (rstatus != NC_NOERR) handle_error(rstatus);
-    }
-}
diff --git a/modules/fes2004/fes2004_kernel.c b/modules/fes2004/fes2004_kernel.c
deleted file mode 100644
index 2af0ad2..0000000
--- a/modules/fes2004/fes2004_kernel.c
+++ /dev/null
@@ -1,1276 +0,0 @@
-#include "fes2004_lib.h"
-
-//#define H_THREAD
-//
-// Uncomment this define to compile with the multithread option
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*      running the multithread prediction            */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-void multi_t_prediction(int nocycle, int CPU, mega_struct *P)
-{
-
-#ifdef H_THREAD 
-  pthread_t *tid;
-#endif
-		
-  int cnt,i;
-
-#ifdef H_THREAD 
-  tid=malloc(CPU*sizeof(pthread_t));
-  printf("starting a multithread prediction on %d processors \n",CPU);
-#endif
-  cnt=0;
-  while(cnt<nocycle)
-    {
-      for(i=0;i<CPU;i++) 
-	{
-	  P[i].cnt=cnt;
-#ifdef H_THREAD 
-	  pthread_create(&tid[i], NULL,pred_coeur,(void *)&(P[i])); 
-#else
-	  pred_coeur( (void *)&(P[i]) );
-#endif
-	  cnt++;
-	} 
-#ifdef H_THREAD 
-      for (i=0;i<CPU;i++)pthread_join(tid[i], NULL);  
-#endif
-      
-      if(CPU>(nocycle-cnt))CPU=nocycle-cnt;
-    }/* end loop on AT points*/
-}
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*      running the multithread extraction            */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-void multi_t_extraction(int nocycle, int CPU, mega_struct *P)
-{
-
-#ifdef H_THREAD 
-  pthread_t *tid;
-#endif
-  int cnt,i;
-
-#ifdef H_THREAD 
-  tid=malloc(CPU*sizeof(pthread_t));
-  printf("starting a multithread extraction on %d processors \n",CPU);
-#endif
-  cnt=0;
-  while(cnt<nocycle)
-    {
-      for(i=0;i<CPU;i++) 
-	{
-	  P[i].cnt=cnt;
-#ifdef H_THREAD 
-	  pthread_create(&tid[i], NULL,extract_coeur,(void *)&(P[i])); 
-#else
-	  extract_coeur( (void *)&(P[i]) );
-#endif
-	  cnt++;
-	} 
-#ifdef H_THREAD 
-      for (i=0;i<CPU;i++)pthread_join(tid[i], NULL); 
-#endif
-      if(CPU>(nocycle-cnt))CPU=nocycle-cnt;
-    }/* end loop on AT points*/
-}
-
-
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*          the thread prediction function            */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void * pred_coeur(void *input)
-{
-  int i,cnt;
-  mega_struct *P;
-  double lat,lon,decal_lat,decal_lon;
-
-  size_t start[3],count[3];
-  int indice_y,indice_x,rstatus;
-  double pi;
-  
-  double prediction;
- 
-  //THE FAMOUS PI
-  pi=acos(-1.0);
-
-  //simplifie the variables name
-  P=(mega_struct *) input;
-  cnt=P->cnt;
-  lat=P->lat[cnt];
-  lon=P->lon[cnt];
-
-  //to recale lat with the indice I must :
-  decal_lat=lat+90;
-  if(lon<0.0) decal_lon=360.0+lon; else decal_lon=lon;
-
-
-  //find the indice in the data tab
-  indice_x=(int) floor( decal_lon/(RESOLUTION) );
-  indice_y=(int) floor( decal_lat /(RESOLUTION) );
-
-  //configure the loading parameters
-  start[0]=0;start[1]=indice_y;start[2]=indice_x;
-  count[0]=14;count[1]=2;count[2]=2;
-
-  //load data
-  rstatus=nc_get_vara_float(P->ncid,3,start,count,P->data_amp );
-  rstatus=nc_get_vara_float(P->ncid,4,start,count,P->data_phi );
-
-  //interpolation
-  rstatus=interpolation_w_mask(decal_lon,decal_lat,indice_x,indice_y,P->weight,P->data_amp);
-
-  if(rstatus==-99)
-    {
-      P->Otide[cnt]=MASK;
-      return input;
-    }
-
-  //initialisation of the prediction output
-  P->Otide[cnt]=0;
-
-  //prediction
-  for(i=0;i<4;i++)
-    {
-      if(P->weight[i]!=0.0)
-	{
-	  prediction=predic_and_admit(P->data_amp,P->data_phi,i,P,lat,lon);
-	  P->Otide[cnt]+=P->weight[i]*prediction;
-	} 
-    }
-  return input;
-}/*fin de pred_coeur*/
-
-
-
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*          the thread prediction function            */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void * extract_coeur(void *input)
-{
-  int i,j,cnt;
-  mega_struct *P;
-  double lat,lon,decal_lat,decal_lon;
-
-  size_t start[3],count[3];
-  int indice_y,indice_x,rstatus;
-  double pi;
- 
-  //THE FAMOUS PI
-  pi=acos(-1.0);
-
-  //simplifie the variables name
-  P=(mega_struct *) input;
-  cnt=P->cnt;
-  lat=P->lat[cnt];
-  lon=P->lon[cnt];
-
-  //to recale lat with the indice I must :
-  decal_lat=lat+90;
-  if(lon<0.0) decal_lon=360.0+lon; else decal_lon=lon;
-
-
-  //find the indice in the data tab
-  indice_x=(int) floor( decal_lon/(RESOLUTION) );
-  indice_y=(int) floor( decal_lat /(RESOLUTION) );
-
-  //configure the loading parameters
-  start[0]=0;start[1]=indice_y;start[2]=indice_x; 
-  count[0]=14;count[1]=2;count[2]=2;
-
-  //load data
-  rstatus=nc_get_vara_float(P->ncid,3,start,count,P->data_amp );
-  rstatus=nc_get_vara_float(P->ncid,4,start,count,P->data_phi );
-
-  //interpolation
-  rstatus=interpolation_w_mask(decal_lon,decal_lat,indice_x,indice_y,P->weight,P->data_amp);
-
-  if(rstatus==-99)
-    {
-      for(i=0;i<14;i++)
-	{
-	  P->amplitude[cnt][i]=MASK;
-	  P->phase[cnt][i]=MASK;
-	}
-      return input;
-    }
-
-  //extraction
-
-  for(i=0;i<14;i++)
-    {
-	      
-      for(j=0;j<4;j++)
-	{
-	  if(i==4) //the M4 case//
-	    {
-	      if((P->data_amp[i*4+j]!=MASK)&&(P->data_amp[i*4+j]==MASK) )
-		{
-		  P->amplitude[cnt][i]=MASK;                                    //M4 has a different Mask
-		  P->phase[cnt][i]=MASK;
-		}                                    //M4 has a different Mask
-	    }
-	  else
-	    {
-	      P->amplitude[cnt][i]+=P->data_amp[i*4+j]*P->weight[j];
-	      P->phase[cnt][i]+=P->data_phi[i*4+j]*P->weight[j];
-	    }
-	  
-	}
-
-    }
-  return input;
-}/*fin de extract_coeur*/
-
-
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*      the prediction and admittance function        */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 04Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-double predic_and_admit(float *data_amp,float *data_phi,int pt,mega_struct *P,double lat,double lon)
-{
-  int i;
-  double ampli,phase;
-  double prediction=0;
-  double Amp,G;
-  for(i=0;i<14;i++)
-    {
-      ampli=data_amp[i*4+pt];
-      if(ampli==MASK)
-	{
-	  //  printf("wave %s is masked --> not inclued in prediction\n lat : %lf --- lon : %lf\n", P->spectrum[i].wave.name,lat,lon);
-	  P->spectrum[i].prediction=0;
-	}
-      else
-	{
-	  phase=data_phi[i*4+pt];
-	  //going the complex space
-	  P->spectrum[i].Z.reel=ampli*cos(phase*-1.0*3.14/180.0);
-	  P->spectrum[i].Z.imag=ampli*sin(phase*-1.0*3.14/180.0);
-	  //prediction !!!!
-	  P->spectrum[i].prediction=Tide_prediction(P->time[P->cnt],P->spectrum[i].wave,P->spectrum[i].Z,0,P->CTO);  
-	}
-    }
-  /*------------------------------------------------------------------------------*/
-  /* spline admittance coefficients for semi-diurnal tidal waves                  */
-  /*------------------------------------------------------------------------------*/      
-  // compute_admittance(P->Mat,P->Perm,P->sec_r,P->sec_i,P->res_r,P->res_i,P->spectrum, SEMI_DIURNAL,P->sindice,P->aindice); LR, change: 2008/12/17 
-  compute_admittance(P->Mat,P->Perm,P->sec_r,P->sec_i,P->res_r,P->res_i,P->spectrum, SEMI_DIURNAL,P->sindice,P->aindice,P->time[P->cnt]);
-  
-  /*------------------------------------------------------------------------------*/
-  /* spline admittance coefficients for diurnal tidal waves                       */
-  /*------------------------------------------------------------------------------*/
-  // compute_admittance(P->Mat,P->Perm,P->sec_r,P->sec_i,P->res_r,P->res_i,P->spectrum, DIURNAL,P->sindice,P->aindice); LR, change: 2008/12/17 
-  compute_admittance(P->Mat,P->Perm,P->sec_r,P->sec_i,P->res_r,P->res_i,P->spectrum, DIURNAL,P->sindice,P->aindice,P->time[P->cnt]);
-  
-  /*------------------------------------------------------------------------------*/
-  /* spline admittance coefficients for long period tidal waves                   */
-  /*------------------------------------------------------------------------------*/  
-  // compute_admittance(P->Mat,P->Perm,P->sec_r,P->sec_i,P->res_r,P->res_i,P->spectrum, LONG,P->sindice,P->aindice); LR, change: 2008/12/17 
-  compute_admittance(P->Mat,P->Perm,P->sec_r,P->sec_i,P->res_r,P->res_i,P->spectrum, LONG,P->sindice,P->aindice,P->time[P->cnt]);
-  
-  /*------------------------------------------------------------------------------*/
-  /* compute prediction for Ssa tidal wave                                        */
-  /*------------------------------------------------------------------------------*/  
-  tidal_potential( P->spectrum[35].wave, lat, lon, &Amp, &G,0 );
-  P->spectrum[35].Z.reel=Amp*cos(G);
-  P->spectrum[35].Z.imag=Amp*sin(G);
-  P->spectrum[35].prediction=Tide_prediction(P->time[P->cnt],P->spectrum[34].wave,P->spectrum[34].Z,0,P->CTO);  
-  
-  for(i=0;i<36;i++)prediction+=P->spectrum[i].prediction;
-  return(prediction);
-    
-}
-
-
-
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*          an simple interpolation funtion           */
-/*                                                    */
-/*            it take in account the mask             */
-/*                                                    */
-/*           Thierry LETELLIER 04Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-int interpolation_w_mask(double lon,double lat,int indice_x,int indice_y,double *weight,float *data_amp)
-{
-  int i,nb_data;
-  int mask_true[4],redo;
-  double surface;
-  //DEBUG
-  double somme;
-
-  nb_data=4;
-  //init mask_true
-  for(i=0;i<4;i++)mask_true[i]=1;
-
-  for(i=0;i<4;i++){if(data_amp [i]==MASK) {mask_true[i]=0; nb_data--; } }
-  
-  redo=1;
-  while(redo==1)
-    {
-      switch (nb_data)
-	{
-	case 0 :
-	  {
-	    return(-99);
-	    break;
-	  }
-	case 1 :
-	  {
-	    for(i=0;i<4;i++)weight[i]=1.00*mask_true[i];
-	    redo=0;
-	    break;
-	  }
-	case 2 :
-	  {
-	    weight[0]=geo_d_km(lon,lat,indice_x*RESOLUTION,indice_y*RESOLUTION) * mask_true[0];
-	    weight[1]=geo_d_km(lon,lat,(indice_x+1)*RESOLUTION,indice_y*RESOLUTION) * mask_true[1];
-	    weight[2]=geo_d_km(lon,lat,indice_x*RESOLUTION,(indice_y+1)*RESOLUTION) * mask_true[2];
-	    weight[3]=geo_d_km(lon,lat,(indice_x+1)*RESOLUTION,(indice_y+1)*RESOLUTION) * mask_true[3];
-	    redo=0;
-	    break;
-	  }
-	case 3 :
-	  {
-	    surface=RESOLUTION*RESOLUTION;
-	    somme=( (indice_x+1)*RESOLUTION - lon )*((indice_y+1)*RESOLUTION - lat);
-	    if(somme==0){mask_true[0]=0;nb_data--;break;}
-	    weight[0]=surface*somme;
-	
-	    somme=( lon - indice_x*RESOLUTION  )*((indice_y+1)*RESOLUTION - lat);
-	    if(somme==0){mask_true[0]=0;nb_data--;break;}
-	    weight[1]=surface*somme;
-
-	    somme=( (indice_x+1)*RESOLUTION - lon  )*(lat - indice_y*RESOLUTION);
-	    if(somme==0){mask_true[0]=0;nb_data--;break;}
-	    weight[2]=surface*somme;
-
-	    somme=(  lon - indice_x*RESOLUTION   )*(lat - indice_y*RESOLUTION);
-	    if(somme==0){mask_true[0]=0;nb_data--;break;}
-	    weight[3]=surface*somme;
-	    redo=0;
-
-	    break;
-	  }
-	case 4 :
-	  {
-	    surface=RESOLUTION*RESOLUTION;
-	    somme=( (indice_x+1)*RESOLUTION - lon )*((indice_y+1)*RESOLUTION - lat);
-	    if(somme==0){mask_true[0]=0;nb_data--;break;}
-	    weight[0]=surface*somme;
-	
-	    somme=( lon - indice_x*RESOLUTION  )*((indice_y+1)*RESOLUTION - lat);
-	    if(somme==0){mask_true[0]=0;nb_data--;break;}
-	    weight[1]=surface*somme;
-
-	    somme=( (indice_x+1)*RESOLUTION - lon  )*(lat - indice_y*RESOLUTION);
-	    if(somme==0){mask_true[0]=0;nb_data--;break;}
-	    weight[2]=surface*somme;
-
-	    somme=(  lon - indice_x*RESOLUTION   )*(lat - indice_y*RESOLUTION);
-	    if(somme==0){mask_true[0]=0;nb_data--;break;}
-	    weight[3]=surface*somme;
-	    redo=0;
-	    break;
-	  }
-	}
-  
-    }
-  surface=weight[0]+weight[1]+weight[2]+weight[3];
-
-  weight[0]/=surface;
-  weight[1]/=surface;
-  weight[2]/=surface;
-  weight[3]/=surface;
-
-  //DEBUG
-  somme=weight[0]+weight[1]+weight[2]+weight[3];
-  
-  return(0);
-
-}
-
-
-
-
-/*####################################################*/
-/*                                                    */
-/*                                                    */
-/*        compute the admittance to extend            */
-/*            the prediction spectrum                 */
-/*                                                    */
-/*           Thierry LETELLIER 04Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void compute_admittance(gsl_matrix *Mat,gsl_permutation *Perm,gsl_vector *sec_r,gsl_vector *sec_i,gsl_vector *res_r,gsl_vector *res_i,spectrum_struct *spectrum,int GROUPE,int *sindice ,int *aindice, double time)
-{
-
-  int i,n,gsl_out;
-  double d2r,tau;
-  int signum;
-  double omega;
-  int nb;
-
-  d2r=pi/180.0;
-  tau=2*24;
-  n=0;
-
-  init_admittance_coeff(sindice,aindice,&nb,GROUPE);
- 
-  for(i=0;i<3;i++)
-    {
-      omega=pulsation(spectrum[sindice[i]].wave);
-      gsl_matrix_set(Mat,n,0,cos(tau*omega*d2r)*spectrum[sindice[i]].wave.Ap);
-      gsl_matrix_set(Mat,n,1,sin(tau*omega*d2r)*spectrum[sindice[i]].wave.Ap);
-      gsl_matrix_set(Mat,n,2,spectrum[sindice[i]].wave.Ap);
-      gsl_vector_set(sec_r,n,spectrum[sindice[i]].Z.reel);
-      gsl_vector_set(sec_i,n,spectrum[sindice[i]].Z.imag);
-      n++;
-    }	
-  gsl_out=gsl_linalg_LU_decomp(Mat,Perm,&signum);
-  gsl_out=gsl_linalg_LU_solve(Mat,Perm,sec_r,res_r);
-  gsl_out=gsl_linalg_LU_solve(Mat,Perm,sec_i,res_i);
-  
-  for(i=0;i<nb;i++)
-    {
-      omega=pulsation(spectrum[aindice[i]].wave);
-      
-      spectrum[aindice[i]].Z.reel=(gsl_vector_get(res_r,0)*cos(tau*omega*d2r)+gsl_vector_get(res_r,1)*sin(tau*omega*d2r)+gsl_vector_get(res_r,2))*spectrum[aindice[i]].wave.Ap;
-      spectrum[aindice[i]].Z.imag=(gsl_vector_get(res_i,0)*cos(tau*omega*d2r)+gsl_vector_get(res_i,1)*sin(tau*omega*d2r)+gsl_vector_get(res_i,2))*spectrum[aindice[i]].wave.Ap;
-      spectrum[aindice[i]].prediction=Tide_prediction(time,spectrum[aindice[i]].wave,spectrum[aindice[i]].Z,0,spectrum[aindice[i]].CTO); 
-    }
-
-}
-
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-  double geo_d_km(double t1,double p1,double t2,double p2)
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-{
-  double dt,dp;
-  double a1,a2,b1,b2,ux,uy,uz,vx,vy,vz,pds,angle;
-  double ro;
-  double pi=M_PI;
-
-  double dtr=pi/180.0;
-
-
-  dt=t2-t1;
-  dp=p2-p1;
-
-  if ((dt == 0.0) && (dp == 0.0)) return(0.);
-
-  a1=t1*dtr;
-  b1=p1*dtr;
-  a2=t2*dtr;
-  b2=p2*dtr;
-
-  ux=cos(a1)*cos(b1);
-  uy=sin(a1)*cos(b1);
-  uz=sin(b1);
-  vx=cos(a2)*cos(b2);
-  vy=sin(a2)*cos(b2);
-  vz=sin(b2);
-
-  pds=ux*vx+uy*vy+uz*vz;
-
-  if(pds < 1.0) 
-    {
-    angle=acos(pds);
-    /* Conversion real double de geo_mean_radius*/
-    ro=(double)(6400.*angle);
-    return(ro);
-    }
-  else return(0.);
-
-}
-
-
-
-
-
-
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-
-
-
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-
-
-
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-
-//          the next functions are a part of the Aktarus tide library developped 
-//                          By Thierry LETELLIER [LEGOS]
-//                          and Laurent ROBLOU [Noveltis]
-//
-//       These functions are the prediction kernel YOU DON'T NEED TO CHANGE THEM ...
-//                                                ----------------------------------
-
-//     You don't have the right to  use these functions in other programs than the FES2004 prediction
-//     If you want more information please contact --- thierry.letellier at free.fr ---
-
-
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-//##############################################################################################################################
-
-
-
-
-
-
-double Tide_prediction(double time,tidal_wave wave,fcomplex Z,int verbose,int CTO)
-/*---------------------------------------------------------------*/
-/* The prediction is made from a true complex,                   */
-/*      Z  =     (A cos(-G), A sin(-G) )                         */
-/*---------------------------------------------------------------*/
-{
-  double V,f,ret;
-  astro_ang_struct astro_ang;
-
- init_argument(time,verbose,CTO,&astro_ang);
- V=greenwhich_argument(wave,&astro_ang)+nodal_phase(wave,&astro_ang);
- f=nodal_factort(wave.formula,&astro_ang);
-
- ret=f*(cos(V)*Z.reel-sin(V)*Z.imag);
- return(ret); 
-}
-
-			
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-  void init_argument(double first_time, int verbose, int CTO,astro_ang_struct *astro_ang)
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-{
-  int N;
-
-  date_t t_schureman={1,1,1900,0.0};    /* LR: 21/07/2003, -43200 -> 0 */
-  date_t date58=     { 1, 1, 1958, 0.0};/* LR: 21/07/2003, -43200 -> 0 */ 
-  date_t date50=     { 1, 1, 1950, 0.0};/* LR: 21/07/2003, -43200 -> 0 */
-  date_t date85=     { 1, 1, 1985, 0.0};/* LR: 21/07/2003, -43200 -> 0 */
-  date_t date2000=     { 1, 1, 2000, 0.0};/* LR: 21/07/2003, -43200 -> 0 */
-  date_t date;
-  double tj;
-
-  
-  switch (CTO)
-    {
-    case(0): {date =date50;break;}
-    case(1): {date =date58;break;}
-    case(2): {date =date85;break;}
-    case(3): {date =date2000;break;}
-    default: {printf("error in time reference, exit\n");exit(22);}
-    }
-  
-  N=  julian_day(date.month,date.day,date.year)
-     -julian_day(t_schureman.month,t_schureman.day,t_schureman.year);
-  /* number of day elapsed between 1950 and 1900 (CNES Time and SCHUREMAN Time) */
-  /*or number of day elapsed between 1958 and 1900 (CTO Time and SCHUREMAN Time) */
-  /*or number of day elapsed between 1985 and 1900 (ESA Time and SCHUREMAN Time) */
-
-  tj=((double) N + first_time/(double) 24.) /(double) 36525.0;
-
-  astronomic_angle(tj,verbose,astro_ang);
-
-}
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-  void astronomic_angle(double tj, int verbose, astro_ang_struct *astro_ang)
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-
-/*----------------------------------------------------------------------
-
-  tj is time elapsed since 1st January 1900, 0 hour, counted in julian
-  century (e.g. time in days divide by 36525)
-----------------------------------------------------------------------*/
-
-{
-  double dtr,days,tt;
-  date_t actual;
-  double cosI,p,q;
-  double t2,t4,sin2I,s2;
-  double tgI2,P;
-  double sh_tgn2,at1,at2;
-
-  pi=acos(-1.0);
-  dtr=pi/180.0;
-
-/*----------------------------------------------------------------------
-  Sh_n Longitude of ascending lunar node
-----------------------------------------------------------------------*/
-
-  astro_ang->sh_N=(259.1560563 -1934.1423972 *tj)*dtr;
-
-/*----------------------------------------------------------------------
- T mean solar angle (Greenwhich time)
-----------------------------------------------------------------------*/
-  days=36525.0*tj;
-  astro_ang->sh_T=((days - (int)days)*24.0*15.0+180.0)*dtr;
-
-/*----------------------------------------------------------------------
- h mean solar Longitude
-----------------------------------------------------------------------*/
-
-  astro_ang->sh_h=(280.1895015 +36000.76892 *tj)*dtr;
-
-/*----------------------------------------------------------------------
- s mean lunar Longitude
-----------------------------------------------------------------------*/
-
-  astro_ang->sh_s=(277.0256206 +481267.892 *tj)*dtr;
-
-/*----------------------------------------------------------------------
- p1 Longitude of solar perigee
-----------------------------------------------------------------------*/
-
-  astro_ang->sh_p1=(281.2208568 +1.719175 *tj)*dtr;
-
-/*----------------------------------------------------------------------
- p Longitude of lunar perigee
-----------------------------------------------------------------------*/
-
-  astro_ang->sh_p=(334.3837214 +4069.0322056 *tj)*dtr;
-
-  astro_ang->sh_N =fmod(astro_ang->sh_N ,2*pi);
-  astro_ang->sh_s =fmod(astro_ang->sh_s ,2*pi);
-  astro_ang->sh_h =fmod(astro_ang->sh_h, 2*pi);
-  astro_ang->sh_p =fmod(astro_ang->sh_p, 2*pi);
-  astro_ang->sh_p1=fmod(astro_ang->sh_p1,2*pi);
-
-  cosI=0.913694997 -0.035692561 *cos(astro_ang->sh_N);
-
-  astro_ang->sh_I=acos(cosI);
-
-  sin2I=sin(astro_ang->sh_I);
-  sh_tgn2=tan(astro_ang->sh_N/2.0);
-  
-  at1=atan(1.01883*sh_tgn2);
-  at2=atan(0.64412*sh_tgn2);
-  
-  astro_ang->sh_xi=-at1-at2+astro_ang->sh_N;
-
-  if (astro_ang->sh_N > pi) astro_ang->sh_xi=astro_ang->sh_xi-2.0*pi;
-
-  astro_ang->sh_nu=at1-at2;
-
-/*----------------------------------------------------------------------
- For constituents l2 k1 k2
-----------------------------------------------------------------------*/
-
-  tgI2=tan(astro_ang->sh_I/2.0);
-  P=astro_ang->sh_p-astro_ang->sh_xi;
-  
-  t2=tgI2*tgI2;
-  t4=t2*t2;
-  astro_ang->sh_x1ra=sqrt(1.0-12.0*t2*cos(2.0*P)+36.0*t4);
-  
-  p=sin(2.0*P);
-  q=1.0/(6.0*t2)-cos(2.0*P);
-  astro_ang->sh_R=atan(p/q);
-  
-  p=sin(2.0*astro_ang->sh_I)*sin(astro_ang->sh_nu);
-  q=sin(2.0*astro_ang->sh_I)*cos(astro_ang->sh_nu)+0.3347;
-  astro_ang->sh_nuprim=atan(p/q);
-  
-  s2=sin(astro_ang->sh_I)*sin(astro_ang->sh_I);
-  p=s2*sin(2.0*astro_ang->sh_nu);
-  q=s2*cos(2.0*astro_ang->sh_nu)+0.0727;
-  astro_ang->sh_nusec=0.5*atan(p/q); 
-
-  tt=(tj*36525.-18262)*24;
-  getcnesdate(tt,&actual);
-
-
-  if (verbose)
-    {
-    printf ("%d/%d/%d \n",actual.day,actual.month,actual.year);
-    printf ("s: %f h: %f p: %f p1: %f \n",astro_ang->sh_s/dtr,astro_ang->sh_h/dtr,astro_ang->sh_p/dtr,astro_ang->sh_p1/dtr);
-    printf ("I: %f N: %f \n",astro_ang->sh_I/dtr,astro_ang->sh_N/dtr);
-    }
- 
-}
-
-    
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-  double greenwhich_argument(tidal_wave w,astro_ang_struct *astro_ang)
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-/*----------------------------------------------------------------------
-
-  Returns the phase of the tidal potential relative to the Greenwhich 
-  meridian (e.g. the position of the fictuous celestial body). Units are
-  radian.
-
-----------------------------------------------------------------------*/
-
-{
-  double V0;
-
-  V0=astro_ang->sh_T*w.nT+astro_ang->sh_s*w.ns+astro_ang->sh_h*w.nh+astro_ang->sh_p*w.np+astro_ang->sh_p1*w.np1+w.shift*deg_to_rad;
-  V0=fmod(V0,pi2);
-  return(V0);
-
-}
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-  double nodal_phase(tidal_wave w,astro_ang_struct *astro_ang)
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-/*----------------------------------------------------------------------
-
-  Returns the phase correction u due to nodal motion. Units are radian.
-
-----------------------------------------------------------------------*/
-
-{
-  double u;
-
-  u=astro_ang->sh_xi*w.nksi+astro_ang->sh_nu*w.nnu0+astro_ang->sh_nuprim*w.nnu1+astro_ang->sh_nusec*w.nnu2+astro_ang->sh_R*w.R;
-  return(u);
-
-}
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-int julian_day(int mm,int id,int iyyy)
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-/*-----------------------------------------------------------------------
-  tides_julianday routine returns the julian day number which begins at noon
-  of the calendar date specified by month mm, day id, and year iyyy.
-  positive year signifies a.d.; negative, b.c.  (remember that the
-  year after 1 b.c. was 1 a.d.
-  this routine has been lifted directly from the book
-  press et al., numerical recipes, cambridge univ. press, 1986.
-  routine handles changeover to gregorian calendar on oct. 15, 1582.
-  note: to get the corresponding modified julian day,
-        set mjd = julday - 2400001.
-
-	f77 to C: 7/10/2001 (Thierry)
------------------------------------------------------------------------*/
-
-  {
-   int igreg=15+31*(10+12*1582);
-   int jy,jm,ja, tmp_iyyy;
-   double temp_tides_juliandays = 0.;
-   
-   tmp_iyyy=iyyy;
-   
-   if (tmp_iyyy != 0)
-/*      if (tmp_iyyy == 2000) printf("Probleme avec le passage a l annee 2000"); */
-/*      else  */
-       { 
-       if (tmp_iyyy < 0) tmp_iyyy = tmp_iyyy + 1;
-       if (mm > 2)
-         {
-	 jy = tmp_iyyy;
-	 jm = mm + 1;
-	 }
-       else
-         {
-	 jy = tmp_iyyy - 1;
-	 jm = mm + 13;
-	 }
-       temp_tides_juliandays=floor(365.25*jy)+floor(30.6001*jm)+id+1720995;
-       if(id+31*(mm+12*tmp_iyyy) >= igreg)
-         {
-	 ja=floor(0.01*jy);
-         temp_tides_juliandays=temp_tides_juliandays+2-ja+floor(0.25*ja);
-	 }
-       }/*else*/
-       
-    return(temp_tides_juliandays);   
-    
-  }/*end*/
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-
-double nodal_factort(int formula, astro_ang_struct *astro_ang)
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-{
-  double s,f=0.;
-
-  switch (formula)
-    {
-
-/* formule 0, solar waves */
-  
-    case 0:
-      f=1.0;
-      break;
-   
-/* formule 1, compound waves (78 x 78)*/
-  
-    case 1:
-      f=nodal_factort(78,astro_ang)*nodal_factort(78,astro_ang);
-      break;
-
-/* formule 2, compound waves (78 x 0)  ===  (78)*/
-  
-    case 2:
-      f=nodal_factort(78,astro_ang)*nodal_factort(0,astro_ang);
-      break;
-  
-  
-  
-/* formule 4,  compound waves (78 x 235) */
-  
-    case 4:
-      f=nodal_factort(78,astro_ang)*nodal_factort(235,astro_ang);
-      break;
-
-  
-/* formule 5,  compound waves (78 *78 x 235) */
-  
-    case 5:
-      f=nodal_factort(78,astro_ang)*nodal_factort(78,astro_ang)*nodal_factort(235,astro_ang);
-      break;
-  
-/* formule 6,  compound waves (78 *78 x 0) */
-  
-    case 6:
-      f=nodal_factort(78,astro_ang)*nodal_factort(78,astro_ang)*nodal_factort(0,astro_ang);
-      break;
-  
-/* formule 7, compound waves (75 x 75)*/
-  
-    case 7:
-      f=nodal_factort(75,astro_ang)*nodal_factort(75,astro_ang);
-      break;
-      
-/* formule 8,  compound waves (78 x 0 x 235) */
-  
-    case 8:
-      f=nodal_factort(78,astro_ang)*nodal_factort(0,astro_ang)*nodal_factort(235,astro_ang);
-      break;
-  
-/* formule 9,  compound waves (78 x 0 x 227) */
-  
-    case 9:
-      f=nodal_factort(78,astro_ang)*nodal_factort(0,astro_ang)*nodal_factort(227,astro_ang);
-      break;
-  
-/* formule 10,  compound waves (78 x 227) */
-  
-    case 10:
-      f=nodal_factort(78,astro_ang)*nodal_factort(227,astro_ang);
-      break;
-  
-/* formule 11,  compound waves (75 x 0) */
-  
-    case 11:
-      f=nodal_factort(75,astro_ang)*nodal_factort(0,astro_ang);
-      break;
-      
-/* formule 12,  compound waves (78 x 78 x 78 x 0) */
-  
-    case 12:
-      f=nodal_factort(78,astro_ang)*nodal_factort(78,astro_ang)*nodal_factort(78,astro_ang)*nodal_factort(0,astro_ang);
-      break;
-      
-/* formule 13, compound waves (78 x 75)*/
-  
-    case 13:
-      f=nodal_factort(78,astro_ang)*nodal_factort(75,astro_ang);
-      break;
-  
-/* formule 14, compound waves (235 x 0)  ===  (235)*/
-  
-    case 14:
-      f=nodal_factort(235,astro_ang)*nodal_factort(0,astro_ang);
-      break;
-  
-/* formule 15, compound waves (235 x 75) */
-  
-    case 15:
-      f=nodal_factort(235,astro_ang)*nodal_factort(75,astro_ang);
-      break;
-  
-/* formule 16, compound waves (78 x 0 x 0)  ===  (78)*/
-  
-    case 16:
-      f=nodal_factort(78,astro_ang)*nodal_factort(0,astro_ang)*nodal_factort(0,astro_ang);
-      break;
-      
-/* formule 17,  compound waves (227 x 0) */
-  
-    case 17:
-      f=nodal_factort(227,astro_ang)*nodal_factort(0,astro_ang);
-      break;
-      
-/* formule 18,  compound waves (78 x 78 x 78 ) */
-  
-    case 18:
-      f=nodal_factort(78,astro_ang)*nodal_factort(78,astro_ang)*nodal_factort(78,astro_ang);
-      break;
-  
-/* formule 19, compound waves (78 x 0 x 0 x 0)  ===  (78)*/
-  
-    case 19:
-      f=nodal_factort(78,astro_ang)*nodal_factort(0,astro_ang)*nodal_factort(0,astro_ang);
-      break;
-      
-
-/* formule 73 */
-  
-    case 73:
-      s=sin(astro_ang->sh_I);
-      f=(2./3.-s*s)/0.5021;
-      break;
-
-/* formule 74 */
-  
-    case 74:
-      s=sin(astro_ang->sh_I);
-      f=s*s/0.1578;
-      break;
-  
-/* formule 75 */
-  
-    case 75:
-      s=cos (astro_ang->sh_I/2);
-      f=sin (astro_ang->sh_I)*s*s/0.3800;
-      break;  
-
-/* formule 76 */
-  
-    case 76:
-      f=sin (2*astro_ang->sh_I)/0.7214;
-      break;
-  
-/* formule 77 */
-  
-    case 77:
-      s=sin (astro_ang->sh_I/2);
-      f=sin (astro_ang->sh_I)*s*s/0.0164;
-      break;
-  
-/* formule 78 */
-  
-    case 78:
-      s=cos (astro_ang->sh_I/2);
-      f=s*s*s*s/0.9154;
-      break;
-
-/* formule 79 */
-    
-    case 79:
-      s=sin(astro_ang->sh_I);
-      f=s*s/0.1565;
-      break;
-  
-/* formule 144 */
-  
-    case 144:
-      s=sin (astro_ang->sh_I/2);
-      f=(1-10*s*s+15*s*s*s*s)*cos(astro_ang->sh_I/2)/0.5873;
-      break;
-
-/* formule 149 */
-  
-    case 149:
-      s=cos (astro_ang->sh_I/2);
-      f=s*s*s*s*s*s/0.8758;
-      break;
-
-/* formule 215 */
-  
-    case 215:
-      s=cos (astro_ang->sh_I/2);
-      f=s*s*s*s/0.9154*astro_ang->sh_x1ra;
-      break;
-  
-/* formule 227 */
-  
-    case 227:
-      s=sin (2*astro_ang->sh_I);
-      f=sqrt (0.8965*s*s+0.6001*s*cos (astro_ang->sh_nu)+0.1006);
-      break;
-
-/* formule 235 */
-   
-    case 235:
-      s=sin (astro_ang->sh_I);
-      f=sqrt (19.0444*s*s*s*s+2.7702*s*s*cos (2*astro_ang->sh_nu)+.0981);
-      break;
-
- 
-    default:
-      exit (1);
-    }
-  return(f);
-}
-/*-----------------------------------------------------------------------*/
-
-void calendary(int njd,date_t *actual)
-
-/*-----------------------------------------------------------------------*/
-
-{
-  int njul,nj,nb,nm1,nj3,m,j,ndj;
-  int na,nm,nd;
-  int n[12]= {31,28,31,30,31,30,31,31,30,31,30,31};
-
-/*-----------------------------------------------------------------------
-! Input = njd: nombre ecoules depuis le 1er  Janvier 1950, 0 heure
-! Output= nd,nm,na: jour, mois annee calendaire
-!-----------------------------------------------------------------------*/
-
-  njul=njd+1;
-  na=njul/365;
-  nj=njul-na*365;
-  nb=(na+1)/ 4;
-  nj=nj-nb;
-
-  if (nj >  0) goto a1;
-
-  na=na+1949;
-  nm=12;
-  nd=nj+31;
-  goto a9000;
-
-  a1:
-  j=na-2-nb*4;
-  na=na+1950;
-
-  if (j < 0) goto a5000;
-
-  if (60-nj < 0)  goto  a4500;
-  if (60-nj == 0) goto  a7000;
-  goto a5000;
-
-  a4500: 
-  nm1=60;
-
-  m=3;
-  goto a6000;
-
-  a5000: 
-  nm1=0;
-
-  m=1;
-
-  a6000: 
-  ndj=nm1+n[m-1];
-
-  nj3=nj-ndj;
-
-  if (nj3 <= 0) goto a8000;
-
-  m=m+1;
-
-  nm1=ndj;
-  goto a6000;
-
-  a7000: 
-  nm=2;
-
-  nd=29;
-
-  goto a9000;
-
-  a8000: 
-  nm=m;
-
-  nd=nj-nm1;
-
-  a9000: 
-  actual->year=na;
-  actual->month=nm;
-  actual->day=nd;
-  actual->second=0;
-
-}
-
-/*-------------------------------------------*/
-
-void getcnesdate(double t,date_t *actual)
-
-/*-------------------------------------------*/
-{
-  int nday;
-  float second;
-
-/* t is time elapsed from 1/1/1950 in hours */
-  
-  nday=floor(t/24.0);
-
-  calendary(nday,actual);
-  second=(t-nday*24)*3600.;
-  actual->second=second;
-}
-
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-   
-double pulsation( tidal_wave wave)
-
-/*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX*/
-/* redundant with tide_wavearray_initC */
-
-{
-  double scale=36525*24.0;
-  double omega;
-
-
-double omega_T=  13149000.0;
-double omega_s=    481267.892;
-double omega_h=     36000.76892; 
-double omega_p=      4069.0322056;
-double omega_p1=        1.719175;
-
-  omega = omega_T * wave.nT
-        + omega_s * wave.ns
-        + omega_h * wave.nh
-        + omega_p * wave.np
-        + omega_p1* wave.np1;
-  omega /= scale;
-  return(omega);
-}
-
-
-/*--------------------------------------------------------------------------------*/
-
-void tidal_potential(tidal_wave wave,double lat,double lon, double *Amp, double *G,int terrestre)
-
-/*--------------------------------------------------------------------------------*/
-{
-  float k2=0.3,h2=0.6;
-  double C,S,a,dV,pi,dtr;
-
-  pi=acos(-1.0);
-  dtr=pi/180.0;
-
-  if (terrestre) a=wave.Ap*h2;
-  else a=wave.Ap*(1+k2-h2);
-  switch (wave.nT)
-    {
-    case (0):
-
-/*######################### Long period tide #########################
-
-   potential/g = A*(1/2 -3/2 sin^2(Y)*cos(w*t+V0)
-
-   dP/dx=  0
-   dP/dy= -3*A*cos(Y)sin(Y)*cos(w*t+V0)
-
-----------------------------------------------------------------------*/
-      dV=0.0;
-      C=cos(lat*dtr);
-      S=sin(lat*dtr);
-      *Amp = a*(0.5-1.5*S*S)/100;
-      *G   = -dV*dtr;
-    break;
-
-    case (1):
-
-/*########################### Diurnal tide ###########################
-
-   potential/g = A*sin(2Y)*cos(w*t+V0+X)
-
-----------------------------------------------------------------------*/
-
-      dV=lon;
-      C=cos(lat*dtr);
-      S=sin(lat*dtr);
-      *Amp = 2*a*S*C/100;
-      *G   = -dV*dtr;
-    break;
-
-    case (2):
-
-/*######################### Semi-diurnal tide #########################
-
-   potential/g = A*cos^2(Y)*cos(w*t+V0+2*X)
-
-----------------------------------------------------------------------*/
-
-      dV=2*lon;
-      C=cos(lat*dtr);
-      S=sin(lat*dtr);
-      *Amp = a*C*C/100;
-      *G   = -dV*dtr;
-    break;
-
-/*####################### non-astronomical tide #######################
-   potential/g = 0
-
-----------------------------------------------------------------------*/
-    default:
-    break;
-
-  }/*end switch */
-}/* end*/
-
diff --git a/modules/fes2004/fes2004_lib.h b/modules/fes2004/fes2004_lib.h
deleted file mode 100644
index 24ddeb0..0000000
--- a/modules/fes2004/fes2004_lib.h
+++ /dev/null
@@ -1,418 +0,0 @@
-
-
-
-/*####################################################*/
-/*                                                    */
-/*      Includes for the prediction program           */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-// standard include //
-#include <stdio.h>
-#include <stdlib.h>
-#include <math.h>
-#include <string.h>   
-#include <strings.h>
-
-// standard multithread include //
-//#include <pthread.h>
-
-// netcdf include //
-#include <netcdf.h>
-
-// Gnu Scientific library include //
-//    www.gnu.org/software/gsl/   //
-#include <gsl/gsl_cblas.h>
-#include <gsl/gsl_linalg.h>
-#include <gsl/gsl_vector.h>
-#include <gsl/gsl_matrix.h>
-#include <gsl/gsl_permutation.h>
-
-
-/*####################################################*/
-/*                                                    */
-/*             constantes definitions                 */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-#define coef_spline 3
-#define NB_WAVE_IN_SPECTRUM 36
-#define RESOLUTION 0.125
-#define SEMI_DIURNAL 1
-#define DIURNAL 2
-#define LONG 3
-
-#define MASK -9999.000
-
-/*####################################################*/
-/*                                                    */
-/*           variables struct definitions             */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-//wave struct contains all the tials waves parameters
-typedef struct {
-  float Ap;                   /*  specify tidal potentiel amplitude */
-  int nT,ns,nh,np,np1;        /*  specify the main wave fequency V  */
-  int nksi,nnu0,nnu1,nnu2,R;    /*  specify nodal argument u          */
-  float shift;                /*  specify nodal argument u          */
-  int formula,code;           /*  formula index for nodal factor f + code for JMM */
-  double omega;               /*  specify pulsation, redondant with nT,ns,nh,np,np1  */
-  char   name[10];            /*   */
-  char   spec;
-  int admit;
-} tidal_wave;
-
-//simple complex definition
-typedef struct 
-   {
-     float  reel,imag;
-   } fcomplex;
-
-//the struct that contains all the predicted wave parameters
-typedef struct 
-{
-  fcomplex *buffer;
-  tidal_wave wave;
-  fcomplex mask,Z;
-  char PATH[256];
-  int rstatus, headN ,founded,CTO;
-  double lat,lon,time, prediction;
-} spectrum_struct;
-
-
-
-typedef struct 
-{
-  double amp,phi;
-} wave_cst_struct;
-
-/* typedef struct  */
-/* { */
-/*   wave_cst_struct M2,M4,K1,K2,O1,P1,Q1,S2,N2,DN2,MM,MF,MTM,MSQM; */
-/*   wave_cst_struct NU2,MU2,L2,T2,LA2,KJ2,R2,OO1,J1,PHI1,PI1,PSI1,RO1,SIG1,TTA1,DQ1,KI1,MSM,MSF,MQM,MSTM,SSA; */
-  
-/* } fes2004_extract_struct; */
-
-
-
-
-//the multithread struct
-typedef struct
-{
-  int cnt,CTO,ncid;
-  double *lat,*lon,*time,*Otide;
-  spectrum_struct *spectrum;
-  gsl_matrix *Mat;
-  gsl_vector *sec_r,*sec_i,*res_r,*res_i;
-  gsl_permutation *Perm;
-  //fes2004_extract_struct *constante;
-  double **amplitude,**phase; 
-  //allocatable variable need in the thread
-  float *data_amp;
-  float *data_phi;
-  double *weight;
-  int *sindice,*aindice;
-} mega_struct;
-
-typedef struct 
-{
-  double sh_T,sh_h,sh_s,sh_p1,sh_p;
-  double sh_xi,sh_nu,sh_R,sh_x1ra,sh_nuprim,sh_nusec;
-  double sh_I,sh_N;
-}astro_ang_struct;
-
-typedef struct 
-{
-  int   day,month,year;   /* Gregorian date (define uniquely a given day)         */
-  float second;           /* elapsed time in second from 0h00)*/
-} date_t;
-
-
-
-
-/*####################################################*/
-/*                                                    */
-/*               functions prototype                  */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-//fes2004_alloc.c
-extern void alloc_tide_spectrum(spectrum_struct ** );
-extern void alloc_prediction_threads(mega_struct *,int );
-extern void alloc_extraction_threads(mega_struct *,int );
-extern void free_threads(mega_struct *,int );
-
-//fes2004_extraction.c
-extern int fes2004_extraction (char *,int ,double *,double *,double **,double **,int );
-
-//fes2004_prediction.c
-extern int fes2004_prediction (char *,int ,int ,double *,double *,double *,double *,int );
-
-//fes2004_io.c
-extern void  load_netcdf_fes2004_data(char *,mega_struct *,int );
-
-//fes2004_init.c
-extern void in_out_file_open(char *,FILE **,FILE **);
-extern int init_spectrum(spectrum_struct *, int );
-extern void  init_thread_struct(int , mega_struct *, int ,double *,double *, double *, double *, spectrum_struct *,  double ** ,double **);
-extern int Wave_select(int i, tidal_wave *,int );
-extern void  init_admittance_coeff(int *,int *,int *,int );
-
-//fes2004_error.c
-extern void print_error_1() ;
-extern void print_error_2() ;
-extern void print_error_3(char *) ;
-extern void print_error_4(char *) ;
-extern void print_error_5(char *) ;
-
-//fes2004_kernel.c
-extern void multi_t_prediction(int , int , mega_struct *);
-extern void multi_t_extraction(int , int , mega_struct *);
-extern void * pred_coeur(void *);
-extern void * extract_coeur(void *);
-extern double predic_and_admit(float *,float *,int ,mega_struct *,double ,double );
-extern int interpolation_w_mask(double ,double ,int ,int ,double *,float *);
-extern void compute_admittance(gsl_matrix *,gsl_permutation *,gsl_vector *,gsl_vector *,gsl_vector *,gsl_vector *,spectrum_struct *,int ,int * ,int *,double);
-extern double geo_d_km(double ,double ,double ,double );
-//##############################################################################################################################
-//          the next functions are a part of the Aktarus tide library developped 
-//                          By Thierry LETELLIER [LEGOS]
-//                          and Laurent ROBLOU [Noveltis]
-//
-//       These functions are the prediction kernel YOU DON'T NEED TO CHANGE THEM ...
-//                                                ----------------------------------
-
-//     You don't have the right to  use these functions in other programs than the FES2004 prediction
-//     If you want more information please contact --- thierry.letellier at free.fr ---
-//##############################################################################################################################
-extern double Tide_prediction(double time,tidal_wave wave,fcomplex Z,int verbose,int CTO);
-extern  void init_argument(double first_time, int verbose, int CTO,astro_ang_struct *astro_ang);
-extern  void astronomic_angle(double tj, int verbose, astro_ang_struct *astro_ang);
-extern  double greenwhich_argument(tidal_wave w,astro_ang_struct *astro_ang);
-extern  double nodal_phase(tidal_wave w,astro_ang_struct *astro_ang);
-extern int julian_day(int mm,int id,int iyyy);
-extern double nodal_factort(int formula, astro_ang_struct *astro_ang);
-extern void calendary(int njd,date_t *actual);
-extern void getcnesdate(double t,date_t *actual);
-extern double pulsation( tidal_wave wave);
-extern void tidal_potential(tidal_wave wave,double lat,double lon, double *Amp, double *G,int terrestre);
-//##############################################################################################################################
-
-
-
-
-
-/*####################################################*/
-/*                                                    */
-/*               waves definitions                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-#ifdef LIB
-
-/*----------------potentiel---T---s---h---p--p1-ksi--nu-nu1-nu2-R--shift-form-code-frq--name-spec-admit*/
-
- tidal_wave wmean = { 0.0000,  0,  0,  0,  0,  0,  0,  0,  0,  0, 0,  0,   0,  187, 0.0, "mean",'p',999};/*LR: code=187*/
-
- tidal_wave wSa   = { 0.0000,  0,  0,  1,  0,  0,  0,  0,  0,  0, 0,   0,   0, 47, 0.0, "Sa",'p',999};
- tidal_wave wSsa  = { 1.9416,  0,  0,  2,  0,  0,  0,  0,  0,  0, 0,   0,   0, 46, 0.0, "Ssa",'p',999};
- tidal_wave wMm   = { 2.2056,  0, +1,  0, -1,  0,  0,  0,  0,  0, 0,   0,  73, 38, 0.0, "Mm",'p',999};
- tidal_wave wMSm  = { 0.3094,  0, +1, -2, +1,  0,  0,  0,  0,  0, 0,   0,  73, 41, 0.0, "MSm",'p',38};/*LR: 31/03/03 */
- tidal_wave wMSf  = { 0.2240,  0, +2, -2,  0,  0,  0,  0,  0,  0, 0,   0,  73, 39, 0.0, "MSf",'p',40};/*LR: 31/03/03  */
- tidal_wave wMf   = { 4.1765,  0, +2,  0,  0,  0, -2,  0,  0,  0, 0,   0,  74, 40, 0.0, "Mf",'p',999};
- tidal_wave wMtm  = { 0.8081,  0, +3,  0, -1,  0, -2,  0,  0,  0, 0,   0,  74, 42, 0.0, "Mtm",'p',999};/*LR: 24/01/02  */
- tidal_wave wMqm  = { 0.0000,  0, +4,  0, -2,  0, -2,  0,  0,  0, 0,   0,  74, 43, 0.0, "Mqm",'p',999};
- tidal_wave wMStm = { 0.1147,  0, +3, -2,  1,  0, -2,  0,  0,  0, 0,   0,  74, 44, 0.0, "MStm",'p',42};/*LR: 31/03/03  */
- tidal_wave wMSqm = { 0.0667,  0, +4, -2,  0,  0, -2,  0,  0,  0, 0,   0,  74, 45, 0.0, "MSqm",'p',999};/*LR: 24/01/02  */
-
-/*----------------potentiel---T---s---h---p--p1-ksi--nu-nu1-nu2-R--shift-form-code-frq--name-spec-admit*/
- tidal_wave wO1   = {10.0573, +1, -2, +1,  0,  0, +2, -1,  0,  0, 0, +90,  75,  1, 0.0, "O1",'p',999};
- tidal_wave wQ1   = { 1.9469, +1, -3, +1, +1,  0, +2, -1,  0,  0, 0, +90,  75, 27, 0.0, "Q1",'p',999};
- tidal_wave w2Q1  = { 0.2587, +1, -4, +1, +2,  0, +2, -1,  0,  0, 0, +90,  75, 67, 0.0, "2Q1",'p',999};/*LR: 24/01/02  */
- tidal_wave wRo1  = { 0.3787, +1, -3, +3, -1,  0, +2, -1,  0,  0, 0, +90,  75, 69, 0.0, "Ro1",'p',999};/*LR: 24/01/02  */
- tidal_wave wSig1 = { 0.1627, +1, -4, +3,  0,  0, +2, -1,  0,  0, 0, +90,  75, 68, 0.0, "Sig1",'p',999};/*LR: 24/01/02  */
- tidal_wave wJ1   = { 0.7921, +1, +1, +1, -1,  0,  0, -1,  0,  0, 0, -90,  76, 29, 0.0, "J1",'p',999};/*avant s=-2*/
- tidal_wave wKi1  = { 0.1120, +1, -1, +3, -1,  0,  0, -1,  0,  0, 0, -90,  76, 70, 0.0, "Ki1",'p',999};/*LR: 24/01/02  */
- tidal_wave wTta1 = { 0.1120, +1, +1, -1, +1,  0,  0, -1,  0,  0, 0, -90,  76, 73, 0.0, "Tta1",'p',999};/*LR: 24/01/02  */
- tidal_wave wS1   = { 0.0000, +1,  0,  0,  0,  0,  0,  0,  0,  0, 0,   0,   0, 26, 0.0, "S1",'p',3};/* LR: 28/03/03 */
- tidal_wave wPi1  = { 0.2747, +1,  0, -2,  0, +1,  0,  0,  0,  0, 0, +90,   0, 71, 0.0, "Pi1",'p',999};
- tidal_wave wK1   = {14.1484, +1,  0, +1,  0,  0,  0,  0, -1,  0, 0, -90, 227,  3, 0.0, "K1",'p',999};
- tidal_wave wP1   = { 4.6806, +1,  0, -1,  0,  0,  0,  0,  0,  0, 0, +90,   0,  2, 0.0, "P1",'p',3};
- tidal_wave wPsi1 = { 0.1120, +1,  0, +2,  0, -1,  0,  0,  0,  0, 0, -90,   0,  0, 0.0, "Psi1",'p',3};/*LR: 31/03/03  */
- tidal_wave wPhi1 = { 0.2027, +1,  0, +3,  0,  0,  0,  0,  0,  0, 0, -90,   0, 72, 0.0, "Phi1",'p',999};/*LR: 24/01/02  */
- tidal_wave wOO1  = { 0.4347, +1, +2, +1,  0,  0, -2, -1,  0,  0, 0, -90,  77, 28, 0.0, "OO1",'p',999};
- tidal_wave wMP1  = { 0.0000, +1, -2, +3,  0,  0,  0, -1,  0,  0, 0, -90,  76, 49, 0.0, "MP1",'n',999};/*LR: 2/04/02*/
- tidal_wave wSO1  = { 0.0000, +1, +2, -1,  0,  0,  0, -1,  0,  0, 0, -90,  76, 48, 0.0, "SO1",'n',999};/*LR: 2/04/02*/
- tidal_wave wKQ1  = { 0.0000, +1, +3, +1, -1,  0, -2, -1,  0,  0, 0, -90,  15, 76, 0.0, "KQ1",'n',999};/*LR: 2/04/02*/
- tidal_wave wM1   = { 0.9788, +1, -1, +1,  0,  0, +1, -1,  0,  0, 0,   0, 144, 74, 0.0, "M1",'p',999};/*LR: 2/04/02*/
-
-/*----------------potentiel---T---s---h---p--p1-ksi--nu-nu1-nu2-R--shift-form-code-frq--name-spec-admit*/
- tidal_wave wE2   = { 0.1789, +2, -5, +4, +1,  0, +2, -2,  0,  0, 0,   0,  78,  4, 0.0, "E2",'p',5};/*LR: 2/04/02*/
- tidal_wave w2N2  = { 0.6267, +2, -4, +2, +2,  0, +2, -2,  0,  0, 0,   0,  78,  5, 0.0, "2N2",'p',999};
- tidal_wave wMu2  = { 0.5841, +2, -4, +4,  0,  0, +2, -2,  0,  0, 0,   0,  78,  6, 0.0, "Mu2",'p',5};/*avant p=-1*/
- tidal_wave wN2   = { 4.6313, +2, -3, +2, +1,  0, +2, -2,  0,  0, 0,   0,  78,  7, 0.0, "N2",'p',999};
- tidal_wave wNu2  = { 0.9094, +2, -3, +4, -1,  0, +2, -2,  0,  0, 0,   0,  78,  8, 0.0, "Nu2",'p',7};
- tidal_wave wL2   = { 0.6694, +2, -1, +2, -1,  0, +2, -2,  0,  0, 1,+180, 215, 11, 0.0, "L2",'p',14};
- tidal_wave wLa2  = { 0.1760, +2, -1,  0, +1,  0, +2, -2,  0,  0, 0,+180,  78, 10, 0.0, "La2",'p',999};/*LR: 24/01/02 */
- tidal_wave wT2   = { 0.6614, +2,  0, -1,  0, +1,  0,  0,  0,  0, 0,   0,   0, 12, 0.0, "T2",'p',14};/*LR: 31/03/03  */
- tidal_wave wS2   = {11.2734, +2,  0,  0,  0,  0,  0,  0,  0,  0, 0,   0,   0, 13, 0.0, "S2",'p',999};
- tidal_wave wM2   = {24.2297, +2, -2, +2,  0,  0, +2, -2,  0,  0, 0,   0,  78,  9, 0.0, "M2",'p',999};
- tidal_wave wK2   = { 3.0697, +2,  0, +2,  0,  0,  0,  0,  0, -2, 0,   0, 235, 14, 0.0, "K2",'p',13};/*LR: 06/06/04  */
- tidal_wave wKJ2  = { 0.1707, +2, +1, +2, -1,  0,  0,  0,  0, -2, 0,   0,  79, 77, 0.0, "KJ2",'n',999};/*LR: 24/01/02 */
- tidal_wave wR2   = { 0.0933, +2,  0, +1,  0, -1,  0,  0,  0,  0, 0,   0,   0, 50, 0.0, "R2",'p',14};/*LR: 31/03/03  */
- tidal_wave wOQ2  = { 0.0000, +2, -5, +2, +1,  0,  0,  0,  0,  0, 0,+180,   7, 51, 0.0, "OQ2",'n',999};/*LR: 2/04/02*/
- tidal_wave w2MK2 = { 0.0000, +2, +4, +2,  0,  0,  4, -4,  0, +2, 0,   0,   5, 65, 0.0, "2MK2",'n',999};/*LR: 2/04/02*/
- tidal_wave wMSK2 = { 0.0000, +2, -2,  0,  0,  0, +2, -2,  0, +2, 0,   0,   8, 31, 0.0, "MSK2",'n',999};/*LR: 2/04/02*/
- tidal_wave wMSN2 = { 0.0000, +2, +1,  0, +1,  0, +2, -2,  0, +2, 0,   0,   6, 15, 0.0, "MSN2",'n',999};/*LR: 2/04/02*/
- tidal_wave w2SM2 = { 0.0000, +2, +2, -2,  0,  0, -2, +2,  0,  0, 0,   0,  16, 16, 0.0, "2SM2",'n',999};/*LR: 2/04/02*/
- tidal_wave wM_SK_2={ 0.0000, +2, -2, +1,  0,  0, +2, -2,  1,  0, 0, +90,   9, 37, 0.0, "M(SK)2",'n',999};/*LR: 2/04/02*/
- tidal_wave wM_KS_2={ 0.0000, +2, -2, +3,  0,  0, +2, -2, -1,  0, 0, -90,   9, 36, 0.0, "M(KS)2",'n',999};/*LR: 2/04/02*/
- tidal_wave wMKS2 = { 0.0000, +2, -2, +4,  0,  0, -2, -2,  0,  0, 0,   0,   8, 30, 0.0, "MKS2",'n',999};/*LR: 2/04/02*/
- tidal_wave wOP2  = { 0.0000, +2, -2,  0,  0,  0, +2, -1,  0,  0, 0,+180,  11,100, 0.0, "OP2",'n',999};/*LR: 2/04/02*/
- tidal_wave wMNS2 = { 0.0000, +2, -5, +4, +1,  0, +4, -4,  0,  0, 0,   0,   6,101, 0.0, "MNS2",'n',999};/*LR: 24/01/02 */
-
-/*----------------potentiel---T---s---h---p--p1-ksi--nu-nu1-nu2-R--shift-form-code-frq--name-spec-admit*/
- tidal_wave wM3   = { 0.4747, +3, -3, +3,  0,  0, +3, -3,  0,  0, 0,   0,   1, 34, 0.0, "M3",'n',999};/*LR: 24/01/02 */
- tidal_wave wS3   = { 0.0000, +3,  0,  0,  0,  0,  0,  0,  0,  0, 0,   0,   1, 35, 0.0, "S3",'n',999};/*LR: 2/04/02*/
- tidal_wave w2MK3 = { 0.0000, +3, -4, +3,  0,  0, +4, -4, +1,  0, 0, +90,  10, 25, 0.0, "2MK3",'n',999};/*LR: 2/04/02*/
- tidal_wave wSO3  = { 0.0000, +3, -2, +1,  0,  0, +2, -1,  0,  0, 0, +90,  11, 53, 0.0, "SO3",'n',999};/*LR: 2/04/02*/
- tidal_wave wMK3  = { 0.0000, +3, -2, +3,  0,  0, +2, -2, -1,  0, 0, -90,  10, 24, 0.0, "MK3",'n',999};/*LR: 2/04/02*/
- tidal_wave wSK3  = { 0.0000, +3,  0, +1,  0,  0,  0,  0, -1,  0, 0, -90,  17, 54, 0.0, "SK3",'n',999};/*LR: 2/04/02*/
- tidal_wave wMO3  = { 0.0000, +3, -4, +1,  0,  0, +2, -2,  0,  0, 0, +90,  13,102, 0.0, "MO3",'n',999};/*LR: 2/04/02*/
-
-/*----------------potentiel---T---s---h---p--p1-ksi--nu-nu1-nu2-R--shift-form-code-frq--name-spec-admit*/
- tidal_wave wN4   = { 0.0000, +4, -6, +4, +2,  0, +4, -4,  0,  0, 0,   0,   1, 33, 0.0, "N4",'n',999};
- tidal_wave wM4   = { 0.0000, +4, -4, +4,  0,  0, +4, -4,  0,  0, 0,   0,   1, 18, 0.0, "M4",'n',999};
- tidal_wave wS4   = { 0.0000, +4,  0,  0,  0,  0,  0,  0,  0,  0, 0,   0,   0, 56, 0.0, "S4",'n',999};
- tidal_wave wMN4  = { 0.0000, +4, -5, +4,  1,  0, +4, -4,  0,  0, 0,   0,   1, 17, 0.0, "MN4",'n',999};
- tidal_wave wMS4  = { 0.0000, +4, -2, +2,  0,  0, +2, -2,  0,  0, 0,   0,   2, 19, 0.0, "MS4",'n',999};
- tidal_wave wMK4  = { 0.0000, +4, -2, +4,  0,  0, +2, -2,  0, -2, 0,   0,   4, 20, 0.0, "MK4",'n',999};
- tidal_wave wSN4  = { 0.0000, +4, -3, +2, +1,  0, +2, -2,  0,  0, 0,   0,   2, 55, 0.0, "SN4",'n',999};/*LR: 29/03/02 */
- tidal_wave w3MS4 = { 0.0000, +4, -6, +6,  0,  0, +6, -6,  0,  0, 0,   0,  12, 58, 0.0, "3MS4",'n',999};/*LR: 29/03/02 */
- tidal_wave wSK4  = { 0.0000, +4,  0, +2,  0,  0,  0,  0,  0, -2, 0,   0,  14,103, 0.0, "SK4",'n',999};
-
-/*----------------potentiel---T---s---h---p--p1-ksi--nu-nu1-nu2-R--shift-form-code-frq--name-spec-admit*/
- tidal_wave wM6   = { 0.0000, +6, -6, +6,  0,  0, +6, -6,  0,  0, 0,   0,  18, 22, 0.0, "M6",'n',999};
- tidal_wave w2MN6 = { 0.0000, +6, -7, +6,  1,  0, +6, -6,  0,  0, 0,   0,  18, 21, 0.0, "2MN6",'n',999};
- tidal_wave w2MS6 = { 0.0000, +6, -4, +4,  0,  0, +4, -4,  0,  0, 0,   0,   6, 59, 0.0, "2MS6",'n',999};
- tidal_wave w2MK6 = { 0.0000, +6, -4, +6,  0,  0, +4, -4,  0, -2, 0,   0,   5, 60, 0.0, "2MK6",'n',999};
- tidal_wave wMSN6 = { 0.0000, +6, -5, +4, +1,  0, +4, -4,  0,  0, 0,   0,   6, 23, 0.0, "MSN6",'n',999};/*LR: 29/03/02 */
- tidal_wave w2SM6 = { 0.0000, +6, -2, +2,  0,  0, +2, -2,  0,  0, 0,   0,  16,104, 0.0, "2SM6",'n',999};/*LR: 2/04/02*/
- tidal_wave wMSK6 = { 0.0000, +6, -2, +4,  0,  0, +2, -2,  0, -2, 0,   0,   8,105, 0.0, "MSK6",'n',999};/*LR: 2/04/02*/
-
-/*----------------potentiel---T---s---h---p--p1-ksi--nu-nu1-nu2-R--shift-form-code-frq--name-spec-admit*/
- tidal_wave w3MS8 = { 0.0000, +8, -6, +6,  0,  0, +6, -6,  0,  0, 0,   0,  19, 61, 0.0, "3MS8",'n',999};/*LR: 2/04/02*/
-
-/*----------------potentiel---T---s---h---p--p1-ksi--nu-nu1-nu2-R--shift-form-code-frq--name-spec-admit*/
- tidal_wave wRH5  = { 0.0000,  0,  0,  0,  0,  0,  0,  0,  0,  0, 0,   0,   0, 78, 3.0, "RH5",'a',999};
-  
-  
-/*----------------potentiel---T---s---h---p--p1--ksi-nu-nu1-nu2-shift-form-code-frq--name-linear*/
- tidal_wave wNUL   = {0.0000, 0,  0,  0,  0,  0,  0,  0, 0,  0,  0,0,   0,  0,  0.0, "NUL",'p',999};  /*TL: 08/06/2004*/
- 
-  double  pi = 3.14159265358979323844;    
-  double  pi2 = 3.14159265358979323844*2.;    
-  double  deg_to_rad = 3.14159265358979323844/180.;   
-
-#else
-  extern tidal_wave wmean; 
-
-  extern tidal_wave wSa   ;
-  extern tidal_wave wSsa  ;
-  extern tidal_wave wMm   ;
-  extern tidal_wave wMSm  ;
-  extern tidal_wave wMSf  ;
-  extern tidal_wave wMf   ;
-  extern tidal_wave wMtm  ;
-  extern tidal_wave wMqm  ;
-  extern tidal_wave wMStm ;
-  extern tidal_wave wMSqm ;
-
-  extern tidal_wave wO1   ; 
-  extern tidal_wave wQ1   ;
-  extern tidal_wave w2Q1  ;
-  extern tidal_wave wRo1  ;
-  extern tidal_wave wSig1 ;
-  extern tidal_wave wJ1   ;
-  extern tidal_wave wKi1  ;
-  extern tidal_wave wTta1 ;
-  extern tidal_wave wS1   ;
-  extern tidal_wave wPi1  ;
-  extern tidal_wave wK1   ;
-  extern tidal_wave wP1   ;
-  extern tidal_wave wPsi1 ;
-  extern tidal_wave wPhi1 ;
-  extern tidal_wave wOO1  ;
-  extern tidal_wave wMP1  ;/*LR: 2/04/02*/
-  extern tidal_wave wSO1  ;/*LR: 2/04/02*/
-  extern tidal_wave wKQ1  ;/*LR: 2/04/02*/
-  extern tidal_wave wM1   ;/*LR: 2/04/02*/
-
-  extern tidal_wave wE2   ;
-  extern tidal_wave w2N2  ;
-  extern tidal_wave wMu2  ;
-  extern tidal_wave wN2   ;
-  extern tidal_wave wNu2  ;
-  extern tidal_wave wM2   ;
-  extern tidal_wave wL2   ;
-  extern tidal_wave wLa2  ;
-  extern tidal_wave wT2   ;
-  extern tidal_wave wS2   ;
-  extern tidal_wave wK2   ;
-  extern tidal_wave wKJ2  ;
-  extern tidal_wave wR2   ;
-  extern tidal_wave wOQ2  ;/*LR: 2/04/02*/
-  extern tidal_wave w2MK2 ;/*LR: 2/04/02*/
-  extern tidal_wave wMSK2 ;/*LR: 2/04/02*/
-  extern tidal_wave wMSN2 ;/*LR: 2/04/02*/
-  extern tidal_wave w2SM2 ;/*LR: 2/04/02*/
-  extern tidal_wave wM_SK_2 ;/*LR: 2/04/02*/
-  extern tidal_wave wM_KS_2;/*LR: 2/04/02*/
-  extern tidal_wave wMKS2 ;/*LR: 2/04/02*/
-  extern tidal_wave wOP2  ;/*LR: 2/04/02*/
-  extern tidal_wave wMNS2 ;/*LR: 2/04/02*/
-
-  extern tidal_wave wM3   ;
-  extern tidal_wave wS3   ;
-  extern tidal_wave w2MK3 ;/*LR: 2/04/02*/
-  extern tidal_wave wSO3  ;/*LR: 2/04/02*/
-  extern tidal_wave wMK3  ;/*LR: 2/04/02*/
-  extern tidal_wave wSK3  ;/*LR: 2/04/02*/
-  extern tidal_wave wMO3  ;/*LR: 2/04/02*/
-
-  extern tidal_wave wN4   ;
-  extern tidal_wave wM4   ;
-  extern tidal_wave wS4   ;
-  extern tidal_wave wMN4  ;
-  extern tidal_wave wMS4  ;
-  extern tidal_wave wMK4  ;
-  extern tidal_wave wSN4  ;/*LR: 2/04/02*/
-  extern tidal_wave w3MS4 ;/*LR: 2/04/02*/
-  extern tidal_wave wSK4  ;/*LR: 2/04/02*/
- 
-  extern tidal_wave wM6   ;
-  extern tidal_wave w2MN6 ;
-  extern tidal_wave w2MS6 ;
-  extern tidal_wave w2MK6 ;
-  extern tidal_wave wMSN6 ;/*LR: 29/03/02 */
-  extern tidal_wave w2SM6 ;/*LR: 2/04/02*/
-  extern tidal_wave wMSK6 ;/*LR: 2/04/02*/
-
-  extern tidal_wave w3MS8 ;/*LR: 2/04/02*/
-
-  extern tidal_wave wRH5  ;
-  extern tidal_wave wNUL  ;
-  
-  extern double pi;
-  extern double pi2;
-  extern double  deg_to_rad;      
-
-  
-#endif
diff --git a/modules/fes2004/fes2004_main.c b/modules/fes2004/fes2004_main.c
deleted file mode 100644
index ea7cbea..0000000
--- a/modules/fes2004/fes2004_main.c
+++ /dev/null
@@ -1,393 +0,0 @@
-// standard include //
-#include <stdio.h>
-#include <stdlib.h>
-#include <math.h>
-#include <string.h>   
-#include <strings.h>
-#include <malloc.h>
-
-#include "fes2004_lib.h"
-
-
-
-/*####################################################*/
-/*                                                    */
-/*    read an simple  file construct with             */
-/*    lat lon time structs                            */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-void load_input_file(FILE *in, int nb, double *lat ,double *lon, double *time)
-{
-  int i,val;
-  char carac[256];
-
-  for(i=0;i<nb;i++) 
-  {
-    val=fscanf(in, "%lf %lf %lf",&lat[i],&lon[i],&time[i]);
-    if (val!=3) {sprintf(carac,"fatal error during the read of the input file at line : %d",i+1); print_error_4(carac);}
-    if(lon[i]>180) lon[i]-=360;
-  }
-
-}
-
-/*####################################################*/
-/*                                                    */
-/*    search the number of lines in filename          */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-int  compter_lignes(char *filename)
-{
-
-  FILE *fichier;
-  int lignes = 0;
-  char line[1024];
-
-  fichier=fopen(filename,"r");
-  if(fichier==NULL) print_error_5(filename);
-  while (!feof(fichier))
-    {
-      fgets(line,sizeof(line),fichier);
-      if(!feof(fichier))lignes++;
-    }
-  printf("%s:  %d lignes\n", filename, lignes);
-  fclose(fichier);
-  return(lignes);
-
-} 
-
-
-/*####################################################*/
-/*                                                    */
-/*     vectors variables allocation                    */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 03Oct2005              */
-/*                                                    */
-/*####################################################*/
-
-void alloc_vectors(int nb, double **lat,double **lon,double **time,double **prediction,double ***amplitude,double ***phase)
-{
-  int i;
-  *lat=calloc(nb,sizeof(double));
-  *lon=calloc(nb,sizeof(double));
-  *time=calloc(nb,sizeof(double));
-  *prediction=calloc(nb,sizeof(double));
-  *amplitude=malloc(nb*sizeof(double *));
-  *phase=malloc(nb*sizeof(double *));
-  
-  for(i=0;i<nb;i++)
-    {
-      (*amplitude)[i]=calloc(14,sizeof(double));
-      (*phase)[i]=calloc(14,sizeof(double));
-    }
-  
-}
-
-/*####################################################*/
-/*                                                    */
-/*     generate a row output for the prediction       */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 07Oct2005              */
-/*                                                    */
-/*####################################################*/
-int  prediction_output(int nb_position,double *prediction,double *lat,double *lon,double *time,int time_reference,char *out_filename)
-{
-  int cnt;
-  FILE *out;
-  char ref[56];
-  out=fopen(out_filename,"w");
-  if(time_reference==0) sprintf(ref,"01/01/1950");
-  if(time_reference==1) sprintf(ref,"01/01/1958");
-  if(time_reference==2) sprintf(ref,"01/01/1985");
-  if(time_reference==3) sprintf(ref,"01/01/2000");
-  fprintf(out,"# FES2004 prediction in meter\n# read : lat, lon, time, prediction\n#the time is the number of hour since the %s\n###############################################\n",ref);
-  for(cnt=0;cnt<nb_position;cnt++) fprintf(out,"%12.6lf %12.6lf %12.6lf %12.6lf \n",lat[cnt],lon[cnt],time[cnt],prediction[cnt]);
-  fclose(out);
-}
-
-
-/*####################################################*/
-/*                                                    */
-/*     generate a row output for the extraction       */
-/*                                                    */
-/*                                                    */
-/*           Thierry LETELLIER 07Oct2005              */
-/*                                                    */
-/*####################################################*/
-int  extraction_output(int nb_position,double **amplitude,double **phase,double *lat,double *lon,char *out_filename)
-{
-  int cnt;
-  FILE *out;
-  out=fopen(out_filename,"w");
-  fprintf(out,"###############################################\n#\n# FES2004 extraction -- amplitude in meter and phase lag in degree\n# read header : Pt_X -- lat lon\n#Wave_name  Amp  phi \n#\n###############################################\n");
-  for(cnt=0;cnt<nb_position;cnt++)
-  { 
-    fprintf(out,"----------------------------------------------------------\n");
-    fprintf(out,"Pt %6d     %12.6lf N %12.6lf E\n",cnt,lat[cnt],lon[cnt]);
-    if(amplitude[cnt][2]==-9999.00){ fprintf(out,"Masked point\n");continue;}
-    fprintf(out,"M2    %12.6lf %12.6lf\n",amplitude[cnt][3],phase[cnt][3]);
-    fprintf(out,"S2    %12.6lf %12.6lf\n",amplitude[cnt][13],phase[cnt][13]);
-    fprintf(out,"K1    %12.6lf %12.6lf\n",amplitude[cnt][1],phase[cnt][1]);
-    fprintf(out,"K2    %12.6lf %12.6lf\n",amplitude[cnt][2],phase[cnt][2]);
-    fprintf(out,"N2    %12.6lf %12.6lf\n",amplitude[cnt][9],phase[cnt][9]);
-    fprintf(out,"2N2   %12.6lf %12.6lf\n",amplitude[cnt][0],phase[cnt][0]);
-    fprintf(out,"O1    %12.6lf %12.6lf\n",amplitude[cnt][10],phase[cnt][10]);
-    fprintf(out,"P1    %12.6lf %12.6lf\n",amplitude[cnt][11],phase[cnt][11]);
-    fprintf(out,"Q1    %12.6lf %12.6lf\n",amplitude[cnt][12],phase[cnt][12]);
-    fprintf(out,"M4    %12.6lf %12.6lf\n",amplitude[cnt][4],phase[cnt][4]);
-    fprintf(out,"Mf    %12.6lf %12.6lf\n",amplitude[cnt][5],phase[cnt][5]);
-    fprintf(out,"Mm    %12.6lf %12.6lf\n",amplitude[cnt][6],phase[cnt][6]);
-    fprintf(out,"Mtm   %12.6lf %12.6lf\n",amplitude[cnt][8],phase[cnt][8]);
-    fprintf(out,"Msqm  %12.6lf %12.6lf\n",amplitude[cnt][7],phase[cnt][7]);
- }
-  fclose(out);
-}
-
-
-void usage()
-{
-  printf("\n\n");
-  printf("################################################################################################################################\n#\n");
-  printf("#  This is the FES2004 extraction and prediction software : version 1.6.0\n#\n");
-  printf("#  Usage : FES2004.exe [parameters] [option] file ...\n");
-  printf("#  \n");
-  printf("#  ----PARAMETERS---- :\n");
-  printf("#  ------------------ \n");
-  printf("#  -t [argument]    Process type           : extraction - prediction  # Note : this option can be use two times ...\n");
-  printf("#  -s [argument]    Data set for process   :    tide    -  loading    # Note : this option can be use two times ...\n");
-  printf("#  -A [FILE]        Necessary (with -s tide) path and filename of the --TIDE-- FES netcdf data file \n");
-  printf("#  -B [FILE]        Necessary (with -s load) path and filename of the --LOAD-- FES netcdf data file \n");
-  printf("#  -----VARIABLE PARAMETER---- :\n");
-  printf("#  --------------------------- \n");
-  printf("#  -r [value]       Necessary for prediction :\n");
-  printf("#                   This is the time refence of the input file.\n");
-  printf("#                   Use : 0 --> 01Jan1950  0H00\n");
-  printf("#                         1 --> 01Jan1958  0H00\n");
-  printf("#                         2 --> 01Jan1985  0H00\n");
-  printf("#                         3 --> 01Jan2000  0H00\n");
-  printf("#                         DEFAULT is 0\n");
-  printf("#  ----OPTIONAL PARAMETER---- :\n");
-  printf("#  -------------------------- \n");
-  printf("#  -o [file]        Optionnal give a specific root output file name\n");
-  printf("#  \n");
-  printf("#  \n");
-  printf("#  \n");
-  printf("#  ----EXEMPLES---- : \n");
-  printf("#  ----------------  \n");
-  printf("#  \n");
-  printf("#    1- FES2004.exe -t extraction -s loading -B load.nc inputFILE             --> extraction of the loading data in out_file.loading.extract\n");
-  printf("#  \n");
-  printf("#    2- FES2004.exe -t extraction -t prediction -s tide -A tide.nc inputFILE  --> extraction of the tide data in out_file.tide.extract\n");
-  printf("#                                                                                 and prediction of the tide data in out_file.tide.pred\n");
-  printf("#  \n");
-  printf("#    3- FES2004.exe -t prediction -s tide -s loading -A tide.nc -B load.nc inputFILE     --> prediction of both the tide and loading data\n");
-  printf("#                                                                                            in out_file.tide.pred and out_file.loading.extract\n");
-  printf("#  \n");
-  printf("#    4- FES2004.exe -t prediction -A tide.nc -s tide -o my_output inputFILE   --> prediction of the tide data in my_output.tide.pred\n");
-  printf("#  \n");
-  printf("#    5- FES2004.exe -t prediction -s tide -A tide.nc -d /MYPATH/  inputFILE   --> prediction of the tide data (FES2004.nc) found in /MYPATH/\n");
-  printf("#  \n");
-  printf("################################################################################################################################\n\n");
-
-  exit(9);
-}
-
-/*--------------------------------------------------------------------------*/
-/*                                 MAIN 				    */ 
-/*                                 ----  				    */
-/*--------------------------------------------------------------------------*/
-
-
-int main(int argc, char *argv[])
-{
-
-  int rstatus,n,cnt;
-  double *lat,*lon,*time,*prediction;
-  int nb_position,nb_CPU;
-  FILE *in;
-  char *keyword;
- 
-  int time_reference=99;
-  char *netcdf_filename=NULL,*output_filename=NULL,*input_filename=NULL,*TIDE_cdf_filename=NULL,*LOAD_cdf_filename=NULL;
-  int conf_extract=0, conf_predict=0 , conf_tide=0,conf_loading=0;
-
-  double **amplitude,**phase;
-
-  keyword=malloc(56*sizeof(char));
-  netcdf_filename=malloc(256*sizeof(char));
-  if(argc==1) usage();;
-
-  n=1;
-  while (n < argc)
-    {
-      keyword=strdup(argv[n]);
-      switch (keyword[0])
-	{
-	case '-':
-	  {
-	    switch (keyword[1])
-	      {
-	      case 't' :
-		if(strcmp(argv[n+1],"extraction")==0)conf_extract=1;
-		else if(strcmp(argv[n+1],"prediction")==0)conf_predict=1;
-		else {printf("=======>> unknown option %s\n",argv[n+1]);exit(99);}
-		n++;
-		n++;
-		break;
-
-	      case 's' :
-		if(strcmp(argv[n+1],"tide")==0)conf_tide=1;
-		else if(strcmp(argv[n+1],"loading")==0)conf_loading=1;
-		else {printf("=======>> unknown option %s\n",argv[n+1]);exit(99);}
-		n++;
-		n++;
-		break;
-
-	      case 'o' :
-		output_filename=strdup(argv[n+1]);
-		n++;
-		n++;
-		break;
-
-	      case 'r' :
-		time_reference=atoi(argv[n+1]);
-		n++;
-		n++;
-		break;
-
-	      case 'A' :
-		TIDE_cdf_filename= strdup(argv[n+1]);
-		n++;
-		n++;
-		break;
-
-	      case 'B' :
-		LOAD_cdf_filename= strdup(argv[n+1]);
-		n++;
-		n++;
-		break;
-
-	      case 'h' :
-		usage();
-		break;
-
-	      default:
-		printf("=======>> unknown option %s\n",keyword);
-		exit(98);
-	      }
-	    break;
-	  }
-	default :
-	  {
-	    input_filename= strdup(argv[n]);
-	    n++;	
-	    break;
-	  }
-	  free(keyword);
-	}
-    }
-  if(input_filename==NULL)
-    {
-      printf("=======>> please give an input file \n");
-      printf("=======>> use FES2004.EXE -help \n");
-      exit(34);
-    }
-
-  if((conf_predict==1)&&(time_reference==-99) )
-    {
-      printf("=======>> You have not give a time reference use the -r option \n");
-      printf("=======>> use FES2004.EXE -help \n");
-    }
-
-  if(output_filename==NULL)
-    {
-      printf("=======>> the outputs will be write in files named (type.process) (example tide.pred)\n");
-      output_filename=calloc(56,sizeof(char));
-      sprintf(output_filename,"out_file");
-    }
-
- if(time_reference==99)
-    {
-      printf("=======>> No time ference was given --> take option 0 (01/01/1950) as reference\n");
-      time_reference=0;
-    }
-
-  
-  //  generality
-
-
-  nb_position=compter_lignes(input_filename);
-  printf("found %d lines in input file : %s\n",nb_position,input_filename);
-  alloc_vectors( nb_position, &lat,&lon,&time,&prediction,&amplitude,&phase);
-  printf("done --> allocation to load the input file\n");
-
-
-  in=fopen(input_filename,"r");
-  load_input_file(in,nb_position , lat ,lon, time);
-  fclose(in);
-  printf("done --> load the input file\n");
-
-
-  //  conf dependent
-
-
-
-  if(conf_predict==1)
-    {
-      if(conf_loading==1)
-	{
-	  if(LOAD_cdf_filename!=NULL)sprintf(netcdf_filename,"%s",LOAD_cdf_filename);
-	  else {printf("=======>> The load Netcdf file was not given\n");usage();}
-	  rstatus=fes2004_prediction(netcdf_filename,time_reference,nb_position,lat,lon,time,prediction,1);
-	  sprintf(output_filename,"loading.pred");
-	  rstatus=prediction_output(nb_position,prediction,lat,lon,time,time_reference,output_filename);
-	}
-      if(conf_tide==1)
-	{
-	  if(TIDE_cdf_filename!=NULL)sprintf(netcdf_filename,"%s",TIDE_cdf_filename);
-	  else {printf("=======>> The tide Netcdf file was not given do not forget the -A option !!!!\n");usage();printf("=======>> The tide Netcdf file was not given do not forget the -A option !!!!\n");}
-	  printf("entering in the prediction function ...\n");
-	  rstatus=fes2004_prediction(netcdf_filename,time_reference,nb_position,lat,lon,time,prediction,1);
-	  sprintf(output_filename,"tide.pred");
-	  rstatus=prediction_output(nb_position,prediction,lat,lon,time,time_reference,output_filename);
-	}
-      if((conf_loading==0)&&(conf_tide==0))
-	{
-	  printf("=======>> you have not give the data set type for prediction, use the -s option\n");
-	  printf("=======>> use FES2004.EXE -help \n");
-	  exit(66);
-	}
-    }
-
-  if(conf_extract==1)
-    {
-      if(conf_loading==1)
-	{
-	  if(LOAD_cdf_filename!=NULL)sprintf(netcdf_filename,"%s",LOAD_cdf_filename);
-	  else {printf("=======>> The load Netcdf file was not given\n");usage();}
-	  rstatus=fes2004_extraction(netcdf_filename,nb_position ,lat,lon,amplitude,phase,1);
-	  sprintf(output_filename,"loading.extract");
-	  rstatus=extraction_output(nb_position,amplitude,phase ,lat,lon,output_filename);	    
-	}
-      if(conf_tide==1)
-	{
-	  if(TIDE_cdf_filename!=NULL)sprintf(netcdf_filename,"%s",TIDE_cdf_filename);
-	  else {printf("=======>> The tide Netcdf file was not given\n");usage();}
-	  rstatus=fes2004_extraction(netcdf_filename,nb_position ,lat,lon,amplitude,phase,1);
-	  sprintf(output_filename,"tide.extract");
-	  rstatus=extraction_output(nb_position,amplitude,phase ,lat,lon,output_filename);	    
-	}
-      if((conf_loading==0)&&(conf_tide==0))
-	{
-	  printf("=======>> you have not give the data set type for extraction, use the -s option\n");
-	  printf("=======>> use FES2004.EXE -help \n");
-	  exit(66);
-	}
-    }
-
-}
diff --git a/modules/fes2004/fes2004_prediction.c b/modules/fes2004/fes2004_prediction.c
deleted file mode 100644
index 9aaeef1..0000000
--- a/modules/fes2004/fes2004_prediction.c
+++ /dev/null
@@ -1,61 +0,0 @@
-#include "fes2004_lib.h"
-
-
-int fes2004_prediction (char *netcdf_filename,int time_reference,int nb_position,double *lat,double *lon,double *time,double *prediction,int nb_CPU)
-{
-
-  /*####################################################*/
-  /* variable*/
-  /*####################################################*/
-
-  //classical variables
-  int rstatus;
-    
-  //prediction typedef variables
-  spectrum_struct *spectrum=NULL;
-   mega_struct *P=NULL;
-  
- /*####################################################*/
-  /* allocation*/
-  /*####################################################*/
-
-   alloc_tide_spectrum(&spectrum);
-   P=calloc(nb_CPU,sizeof(mega_struct));
-   alloc_prediction_threads(P,nb_CPU);
-      
-   /*####################################################*/
-   /*init prediction spectrum*/
-   /*####################################################*/
-   
-   rstatus=init_spectrum(spectrum,time_reference);
-   if (rstatus != 0 )  print_error_2();  
-   
-  /*####################################################*/
-  /* load data files*/
-  /*####################################################*/
-
-   load_netcdf_fes2004_data(netcdf_filename,P,nb_CPU);
-   
-  /*####################################################*/
-  /*init thread struct*/
-  /*####################################################*/
-
-   init_thread_struct(nb_CPU, P, time_reference, lat, lon, time, prediction, spectrum,NULL,NULL);
-
-  /*####################################################*/
-  /*Multithreaded prediction*/
-  /*####################################################*/
-
-   multi_t_prediction(nb_position , nb_CPU, P);
-
-  /*####################################################*/
-  /*free memory and exit*/
-  /*####################################################*/
-   free_threads(P,nb_CPU);
-   free(P);
-
-
-   printf("\n------------- prediction completed -------------\n");
-
-   return 0;
-}/*end*/		  
diff --git a/modules/map.mod b/modules/map.mod
deleted file mode 100644
index 3947296..0000000
--- a/modules/map.mod
+++ /dev/null
@@ -1,180 +0,0 @@
-/* Gerris - The GNU Flow Solver                       (-*-C-*-)
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <proj_api.h>
-#include "simulation.h"
-#include "map.h"
-
-/* GfsMapProjection: Header */
-
-typedef struct _GfsMapProjection         GfsMapProjection;
-
-struct _GfsMapProjection {
-  /*< private >*/
-  GfsMap parent;
-  projPJ pj;
-  gdouble cosa, sina;
-
-  /*< public >*/
-  gdouble lon, lat, angle;
-};
-
-#define GFS_MAP_PROJECTION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsMapProjection,\
-					         gfs_map_projection_class ())
-#define GFS_IS_MAP_PROJECTION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_map_projection_class ()))
-
-GfsMapClass * gfs_map_projection_class  (void);
-
-/* GfsMapProjection: Object */
-
-static void gfs_map_projection_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_map_projection_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GtsFileVariable var[] = {
-    {GTS_DOUBLE, "lon",    TRUE},
-    {GTS_DOUBLE, "lat",    TRUE},
-    {GTS_DOUBLE, "angle",  TRUE},
-    {GTS_NONE}
-  };
-  GfsMapProjection * map = GFS_MAP_PROJECTION (*o);
-  var[0].data = &map->lon;
-  var[1].data = &map->lat;
-  var[2].data = &map->angle;
-
-  gts_file_assign_variables (fp, var);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  map->cosa = cos (map->angle*DEG_TO_RAD);
-  map->sina = sin (map->angle*DEG_TO_RAD);
-
-  char * parms[] = {
-    "proj=lcc", /* Lambert Conformal Conic */
-    NULL, NULL, NULL, NULL
-  };
-  parms[1] = g_strdup_printf ("lon_0=%lf", map->lon);
-  parms[2] = g_strdup_printf ("lat_0=%lf", map->lat);
-  parms[3] = g_strdup_printf ("lat_1=%lf", map->lat);
-  parms[4] = g_strdup_printf ("lat_2=%lf", map->lat);
-  map->pj = pj_init (sizeof(parms)/sizeof(char *), parms);
-  if (!map->pj)
-    gts_file_error (fp, "cannot initialise projection");
-  g_free (parms[1]);
-  g_free (parms[2]);
-  g_free (parms[3]);
-  g_free (parms[4]);
-}
-
-static void gfs_map_projection_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_map_projection_class ())->parent_class->write) (o, fp);
-  GfsMapProjection * map = GFS_MAP_PROJECTION (o);
-  fprintf (fp, " { lon = %.8g lat = %.8g angle = %g }",
-	   map->lon, map->lat, map->angle);
-}
-
-static void gfs_map_projection_destroy (GtsObject * object)
-{
-  if (GFS_MAP_PROJECTION (object)->pj)
-    pj_free (GFS_MAP_PROJECTION (object)->pj);
-  (* GTS_OBJECT_CLASS (gfs_map_projection_class ())->parent_class->destroy) (object);
-}
-
-static void projection_transform (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  projLP idata;
-  projXY odata;
-  GfsMapProjection * m = GFS_MAP_PROJECTION (map);
-  idata.u = src->x*DEG_TO_RAD;
-  idata.v = src->y*DEG_TO_RAD;
-  odata = pj_fwd (idata, m->pj);
-  dest->x = odata.u*m->cosa - odata.v*m->sina;
-  dest->y = odata.v*m->cosa + odata.u*m->sina;
-  dest->z = src->z;
-}
-
-static void projection_inverse (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  projLP odata;
-  projXY idata;
-  GfsMapProjection * m = GFS_MAP_PROJECTION (map);
-  idata.u = src->x*m->cosa + src->y*m->sina;
-  idata.v = src->y*m->cosa - src->x*m->sina;
-  odata = pj_inv (idata, GFS_MAP_PROJECTION (map)->pj);
-  dest->x = odata.u*RAD_TO_DEG;
-  dest->y = odata.v*RAD_TO_DEG;
-  dest->z = src->z;
-}
-
-static void gfs_map_projection_class_init (GfsMapClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_map_projection_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_map_projection_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_map_projection_destroy;
-}
-
-static void gfs_map_projection_init (GfsMapProjection * object)
-{
-  /* Wellington */
-  object->lon = 174.777222;
-  object->lat = -41.288889;
-  object->angle = 0.; object->cosa = 1.; object->sina = 0.;
-  object->pj = NULL;
-  GFS_MAP (object)->transform = projection_transform;
-  GFS_MAP (object)->inverse = projection_inverse;
-}
-
-GfsMapClass * gfs_map_projection_class (void)
-{
-  static GfsMapClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_map_projection_info = {
-      "GfsMapProjection",
-      sizeof (GfsMapProjection),
-      sizeof (GfsMapClass),
-      (GtsObjectClassInitFunc) gfs_map_projection_class_init,
-      (GtsObjectInitFunc) gfs_map_projection_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_map_class ()),
-				  &gfs_map_projection_info);
-  }
-
-  return klass;
-}
-
-/* Initialize module */
-
-/* only define gfs_module_name for "official" modules (i.e. those installed in
-   GFS_MODULES_DIR) */
-const gchar gfs_module_name[] = "map";
-const gchar * g_module_check_init (void);
-
-const gchar * g_module_check_init (void)
-{
-  gfs_map_projection_class ();
-  return NULL;
-}
diff --git a/modules/rsurface.c b/modules/rsurface.c
deleted file mode 100644
index c00dfc7..0000000
--- a/modules/rsurface.c
+++ /dev/null
@@ -1,142 +0,0 @@
-#include <stdio.h>
-#include <string.h>
-#include "RStarTree/RStarTree.h"
-#include "rsurface.h"
-
-/* RSurface */
-
-struct _RSurface {
-  RSTREE t;
-  char * name;
-};
-
-RSurface * r_surface_new (const char * fname, int size, FILE * fp)
-{
-  return NULL;
-}
-
-RSurface * r_surface_open (const char * fname, const char * mode, int size)
-{
-  RSurface * rt = malloc (sizeof (RSurface));
-  if (!strcmp (mode, "w")) {
-    RemoveRST (fname);
-    if (!CreateRST (fname, size, FALSE)) {
-      free (rt);
-      return NULL;
-    }
-  }
-  rt->t = NULL;
-  if (!OpenRST (&rt->t, fname, !strcmp (mode, "w") ? "rw" : "r")) {
-    free (rt);
-    return NULL;
-  }
-  rt->name = malloc (sizeof (char)*(strlen (fname) + 1));
-  strcpy (rt->name, fname);
-  return rt;
-}
-
-void r_surface_close (RSurface * rt)
-{
-  CloseRST (&rt->t);
-  free (rt->name);
-  free (rt);
-}
-
-int r_surface_insert  (RSurface * rt, double p[3], int id)
-{
-  typrect rect;
-  typinfo info;
-  boolean inserted;
-  rect[0].l = p[0]; rect[0].h = p[0];
-  rect[1].l = p[1]; rect[1].h = p[1];
-  info.height = p[2];
-  return (InsertRecord (rt->t, rect, &info, &inserted) && inserted);
-}
-
-void r_surface_query (RSurface * rt, 
-		      double a[2], double b[2], double c[2], double d[2],
-		      RSurfaceQuery q, void * user_data)
-{
-}
-
-static boolean Intersects (RSTREE R,
-			   typrect RSTrect,
-			   typrect queryrect,
-			   typrect unused)
-{
-  int maxdim= NumbOfDim -1;
-  boolean inter;
-  int d;
-  
-  d= -1;
-  do {
-    d++;
-    inter= RSTrect[d].l <= queryrect[d].h &&
-           RSTrect[d].h >= queryrect[d].l;
-  } while (inter && d != maxdim);
-  return inter;
-}
-
-static void ManageQuery (RSTREE R,
-			 typrect rectangle,
-			 refinfo infoptr,
-			 void ** data,
-			 boolean *modify,
-			 boolean *finish)
-{
-  RSurfaceQuery q = data[0];
-  double p[3];
-  p[0] = rectangle[0].l; p[1] = rectangle[1].l;
-  p[2] = infoptr->height;
-  (*q) (p, data[1]);
-  *modify = FALSE;
-  *finish = FALSE;
-}
-
-void r_surface_query_region (RSurface * rt, 
-			     double min[2], double max[2],
-			     RSurfaceQuery q, void * user_data)
-{
-  typrect rect, unused;
-  rect[0].l = min[0]; rect[0].h = max[0];
-  rect[1].l = min[1]; rect[1].h = max[1];
-  void * data[2];
-  data[0] = q;
-  data[1] = user_data;
-  RegionQuery (rt->t, rect, unused, Intersects, Intersects, ManageQuery, data);
-}
-
-void r_surface_sum_init (RSurfaceSum * sum)
-{
-  memset (sum, 0, sizeof (RSurfaceSum));
-  sum->Hmin = 1e30;
-  sum->Hmax = - 1e30;
-}
-
-/**
- * Fills @sum using @rect to normalise the results i.e. the sums are
- * expressed in a coordinate system centered on 
- * (rect[0].l + rect[0].h, rect[1].l + rect[1].h)/2 
- * and scaled by 
- * MAX(rect[0].h - rect[0].l, rect[1].h - rect[1].l).
- */
-void r_surface_query_region_sum (RSurface * rt,
-				 RSurfaceCheck includes,
-				 RSurfaceCheck intersects,
-				 void * data,
-				 RSurfaceRect rect,
-				 RSurfaceSum * sum)
-{
-  RegionQueryInfo (rt->t, (Check) includes, (Check) intersects, data, (typinterval *) rect,
-		   (typdirinfo *) sum);
-}
-
-const char * r_surface_name (RSurface * rt)
-{
-  return rt->name;
-}
-
-void r_surface_update (RSurface * rt)
-{
-  Update (rt->t);
-}
diff --git a/modules/rsurface.h b/modules/rsurface.h
deleted file mode 100644
index 4eedfc9..0000000
--- a/modules/rsurface.h
+++ /dev/null
@@ -1,52 +0,0 @@
-/* padding on 32 bits systems (to match automatic 64 bits padding) */
-
-#if defined (__LP64__) || defined (__64BIT__) || defined (_LP64) || (__WORDSIZE == 64)
-  #define PADDING_32_BITS
-#else
-  #define PADDING_32_BITS int padding
-#endif
-
-typedef struct _RSurface RSurface;
-
-typedef struct { /* needs to be identical to typdirinfo in RStarTree.h */
-  double m01, m02, m03;
-  double m11, m13;
-  double m22, m23, m33;
-  double m44, m55, m66, m77;
-  double m67, m76;
-  double H0, H1, H2, H3, H4;
-  double H5, H6;
-  float Hmin, Hmax;
-  int n;
-  PADDING_32_BITS;
-} RSurfaceSum;
-
-typedef struct {
-  float l, h;
-} RSurfaceInterval;
-
-typedef RSurfaceInterval  RSurfaceRect[2];
-
-typedef int (* RSurfaceCheck) (RSurfaceRect rect, void * data, int depth);
-
-RSurface * r_surface_new      (const char * fname, int size, FILE * fp);
-RSurface * r_surface_open     (const char * fname, const char * mode, int size);
-void       r_surface_update   (RSurface * rt);
-void       r_surface_close    (RSurface * rt);
-int        r_surface_insert   (RSurface * rt, double p[3], int id);
-
-typedef int (* RSurfaceQuery) (double p[3], void * user_data);
-void       r_surface_query    (RSurface * rt, 
-			       double a[2], double b[2], double c[2], double d[2],
-			       RSurfaceQuery q, void * user_data);
-void       r_surface_query_region (RSurface * rt, 
-				   double min[2], double max[2],
-				   RSurfaceQuery q, void * user_data);
-void       r_surface_sum_init (RSurfaceSum * sum);
-void       r_surface_query_region_sum (RSurface * rt,
-				       RSurfaceCheck includes,
-				       RSurfaceCheck intersects,
-				       void * data,
-				       RSurfaceRect rect,
-				       RSurfaceSum * sum);
-const char * r_surface_name (RSurface * rt);
diff --git a/modules/rsurfacedraw.c b/modules/rsurfacedraw.c
deleted file mode 100644
index adf7c75..0000000
--- a/modules/rsurfacedraw.c
+++ /dev/null
@@ -1,150 +0,0 @@
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-
-#include "ftt.h"
-#include "rsurface.h"
-
-typedef struct {
-  FILE ** fp;
-  double * ratio;
-  int * size;
-  char * name, * ext;
-  int maxdepth;
-} Params;
-
-static int includes (RSurfaceRect RSTrect, Params * p, int depth)
-{
-  if (RSTrect[0].l == RSTrect[0].h && RSTrect[1].l == RSTrect[1].h)
-    p->size[depth]++;
-  return 0;
-}
-
-#define MAXEXT 10
-
-static int intersects (RSurfaceRect RSTrect, Params * p, int depth)
-{
-  if (p->fp[depth] == NULL) {
-    snprintf (p->ext, MAXEXT, "-l%d", depth);
-    p->fp[depth] = fopen (p->name, "w");
-  }
-  fprintf (p->fp[depth], "%g %g\n%g %g\n%g %g\n%g %g\n%g %g\n\n",
-	   RSTrect[0].l, RSTrect[1].l,
-	   RSTrect[0].h, RSTrect[1].l,
-	   RSTrect[0].h, RSTrect[1].h,
-	   RSTrect[0].l, RSTrect[1].h,
-	   RSTrect[0].l, RSTrect[1].l);
-  double w = RSTrect[0].h - RSTrect[0].l, h = RSTrect[1].h - RSTrect[1].l;
-  double ratio = 1e10;
-  if (w > 0. && h > 0.)
-    ratio = w > h ? w/h : h/w;
-  p->ratio[depth] += ratio;
-  p->size[depth]++;
-  return (depth < p->maxdepth);
-}
-
-int main (int argc, char** argv)
-{
-  int c = 0;
-  int verbose = 0, gnuplot = 0;
-
-  /* parse options using getopt */
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-      {"gnuplot", no_argument, NULL, 'g'},
-      {"verbose", no_argument, NULL, 'v'},
-      {"help", no_argument, NULL, 'h'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, "vhg",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, "vhg"))) {
-#endif /* not HAVE_GETOPT_LONG */
-    case 'g': /* gnuplot */
-      gnuplot = 1;
-      break;
-    case 'v': /* verbose */
-      verbose = 1;
-      break;
-    case 'h': /* help */
-      fprintf (stderr,
-	       "Usage: rsurfacedraw [OPTION] BASENAME MAXDEPTH\n"
-	       "\n"
-	       "Draws gnuplot representation of the bounding boxes of the R*-tree.\n"
-	       "\n"
-	       "  -g    --gnuplot     write gnuplot commands on standard output\n"
-	       "  -v    --verbose     display statistics\n"
-	       "  -h    --help        display this help and exit\n"
-	       "\n"
-	       "Report bugs to %s\n",
-	       FTT_MAINTAINER);
-      return 0; /* success */
-      break;
-    case '?': /* wrong options */
-      fprintf (stderr, "Try `rsurfacedraw --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-  if (optind >= argc) { /* missing BASENAME */
-    fprintf (stderr, 
-	     "rsurfacedraw: missing BASENAME\n"
-	     "Try `rsurfacedraw --help' for more information.\n");
-    return 1; /* failure */
-  }
-  if (optind + 1 >= argc) { /* missing MAXDEPTH */
-    fprintf (stderr, 
-	     "rsurfacedraw: missing MAXDEPTH\n"
-	     "Try `rsurfacedraw --help' for more information.\n");
-    return 1; /* failure */
-  }
-
-  RSurface * rs = r_surface_open (argv[optind], "r", 0);
-  RSurfaceRect rect = {{-0.5,-0.5},{0.5,0.5}};
-  RSurfaceSum s;
-  Params p;
-  p.maxdepth = atoi (argv[optind + 1]);
-  p.name = malloc (sizeof (char)*(strlen (argv[optind]) + MAXEXT + 1));
-  strcpy (p.name, argv[optind]);
-  p.ext = &p.name[strlen (p.name)];
-  p.fp = calloc (p.maxdepth + 1, sizeof (FILE *));
-  p.size = calloc (p.maxdepth + 1, sizeof (int));
-  p.ratio = calloc (p.maxdepth + 1, sizeof (double));
-  r_surface_sum_init (&s);
-  r_surface_query_region_sum (rs, (RSurfaceCheck) includes, (RSurfaceCheck) intersects, &p, 
-			      rect, &s);
-  r_surface_close (rs);
-
-  if (verbose) {
-    int i;
-    for (i = 1; i <= p.maxdepth; i++)
-      if (p.size[i] > 0) {
-	fprintf (stderr, "level %d: %d\n", i, p.size[i]);
-	if (i < p.maxdepth && p.size[i + 1] > 0)
-	  fprintf (stderr, "\taverage ratio: %g average # of entries: %g\n",
-		   p.ratio[i]/p.size[i],
-		   p.size[i + 1]/(double) p.size[i]);
-	else
-	  fputc ('\n', stderr);
-      }
-  }
-  
-  if (gnuplot) {
-    int i;
-    printf ("set size ratio -1\n");
-    printf ("plot '%s-l1' w l t 'Level 1'", argv[optind]);
-    for (i = 2; i <= p.maxdepth; i++)
-      if (p.size[i] > 0)
-	printf (", '%s-l%d' w l t 'Level %d'", argv[optind], i, i);
-    putchar ('\n');
-  }
-
-  return 0.;
-}
diff --git a/modules/rsurfacequery.c b/modules/rsurfacequery.c
deleted file mode 100644
index 5ff7be8..0000000
--- a/modules/rsurfacequery.c
+++ /dev/null
@@ -1,37 +0,0 @@
-#include <stdio.h>
-#include <stdlib.h>
-#include "rsurface.h"
-
-static int query (double p[3], void * data)
-{
-  printf ("%.8f %.8f %g\n", p[0], p[1], p[2]);
-  return 0;
-}
-
-int main (int argc, char** argv)
-{
-  if (argc != 2) {
-    fprintf (stderr, "Usage: %s basename\n", argv[0]);
-    return -1;
-  }
-
-  RSurface * rs = r_surface_open (argv[1], "r", 0);
-  if (rs == NULL) {
-    fprintf (stderr, "rsurfacequery: could not open `%s'\n", argv[1]);
-    return -1;
-  }    
-
-  double min[2], max[2];
-  int count = 0;
-  while (scanf ("%lf %lf %lf %lf", &min[0], &min[1], &max[0], &max[1]) == 4) {
-    r_surface_query_region (rs, min, max, query, NULL);
-    if (count > 0 && count % 1000 == 0)
-      fprintf (stderr, "\r%d", count);
-    count++;
-  }
-  if (count >= 1000)
-    fputc ('\n', stderr);
-  r_surface_close (rs);
-
-  return 0.;
-}
diff --git a/modules/stokes.mod b/modules/stokes.mod
deleted file mode 100644
index 93f2e61..0000000
--- a/modules/stokes.mod
+++ /dev/null
@@ -1,192 +0,0 @@
-/* Gerris - The GNU Flow Solver                       (-*-C-*-)
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-#include <stdlib.h>
-#include <math.h>
-#include "event.h"
-#include "solid.h"
-
-extern void cw260_ (const float * zd,
-		    const float * zt, 
-		    const float * zh, 
-		    const float * zu, 
-		    const int * nverb, 
-		    int * nfun, 
-		    float * zel);
-
-extern void kmts_  (const int * nfun,
-		    const float * xx,
-		    const float * yy,
-		    const float * tt,
-		    float * uu, 
-		    float * vv,
-		    float * ut,
-		    float * vt,
-		    float * du,
-		    float * dv,
-		    float * etah);
-
-/* GfsInitStokesWave: Header */
-
-typedef struct _GfsInitStokesWave         GfsInitStokesWave;
-
-struct _GfsInitStokesWave {
-  /*< private >*/
-  GfsGenericInit parent;
-  
-  /*< public >*/
-  gdouble steepness, depth;
-};
-
-#define GFS_INIT_STOKES_WAVE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsInitStokesWave,\
-					         gfs_init_stokes_wave_class ())
-
-GfsGenericInitClass * gfs_init_stokes_wave_class  (void);
-
-/* GfsInitStokesWave: Object */
-
-#define WAVELENGTH 100. /* metres */
-
-static int order = 0;
-
-static void gfs_init_stokes_wave_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_init_stokes_wave_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_init_stokes_wave_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsInitStokesWave * w = GFS_INIT_STOKES_WAVE (*o);
-  GtsFileVariable var[] = {
-    {GTS_DOUBLE, "depth",     TRUE},
-    {GTS_DOUBLE, "steepness", TRUE},
-    {GTS_NONE}
-  };
-  var[0].data = &w->depth;
-  var[1].data = &w->steepness;
-  gts_file_assign_variables (fp, var);  
-  if (fp->type == GTS_ERROR)
-    return;
-
-  float zd = WAVELENGTH*w->depth, zh = w->steepness*WAVELENGTH/M_PI, zu = 0., l;
-  int nverb = 0;
-  
-  float min = 1., max = 100., zt = (min + max)/2.;
-  do {
-    cw260_ (&zd, &zt, &zh, &zu, &nverb, &order, &l);
-    fprintf (stderr, "# order: %d wavelength: %g period: %g\n", 
-	     order, l, zt);
-    if (l > WAVELENGTH)
-      max = zt;
-    if (l < WAVELENGTH)
-      min = zt;
-    zt = (min + max)/2.;
-  } while (fabs (l - WAVELENGTH) > 1e-4);
-}
-
-static void gfs_init_stokes_wave_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_init_stokes_wave_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_init_stokes_wave_class ())->parent_class->write) 
-      (o, fp);
-
-  fprintf (fp, " { depth = %g steepness = %g }\n",
-	   GFS_INIT_STOKES_WAVE (o)->depth, 
-	   GFS_INIT_STOKES_WAVE (o)->steepness);
-}
-
-static void init_velocity (FttCell * cell, GfsVariable ** velocity)
-{
-  FttVector p;
-  gfs_cell_cm (cell, &p);
-  float x = (p.x + 0.5)*WAVELENGTH, y = p.y*WAVELENGTH, t = 0., u, v, ut, vt, du, dv, etah;
-  kmts_ (&order, &x, &y, &t, &u, &v, &ut, &vt, &du, &dv, &etah);
-  GFS_VALUE (cell, velocity[0]) = u/sqrt(WAVELENGTH*9.81);
-  GFS_VALUE (cell, velocity[1]) = v/sqrt(WAVELENGTH*9.81);
-}
-
-static gdouble stokes_height (gdouble x, gdouble y, gdouble z, gdouble t)
-{
-  float xx = (x + 0.5)*WAVELENGTH, yy = WAVELENGTH, u, v, ut, vt, du, dv, etah, t1 = 0.;
-  kmts_ (&order, &xx, &yy, &t1, &u, &v, &ut, &vt, &du, &dv, &etah);
-  return etah/WAVELENGTH - y;
-}
-
-static gboolean gfs_init_stokes_wave_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_init_stokes_wave_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsVariable ** velocity = gfs_domain_velocity (GFS_DOMAIN (sim));
-    GfsVariable * t = gfs_variable_from_name (GFS_DOMAIN (sim)->variables, "T");
-    g_assert (velocity);
-    g_assert (t);
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) init_velocity, velocity);
-    GfsSurface * surface = GFS_SURFACE (gts_object_new (GTS_OBJECT_CLASS (gfs_surface_class ())));
-    surface->f = gfs_function_spatial_new (gfs_function_spatial_class (), stokes_height);
-    gfs_object_simulation_set (surface->f, sim);
-    gfs_domain_init_fraction (GFS_DOMAIN (sim), GFS_GENERIC_SURFACE (surface), t);
-    gts_object_destroy (GTS_OBJECT (surface));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_init_stokes_wave_class_init (GfsGenericInitClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_init_stokes_wave_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_init_stokes_wave_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_init_stokes_wave_write;
-}
-
-static void gfs_init_stokes_wave (GfsInitStokesWave * w)
-{
-  w->depth = 0.5;
-  w->steepness = 0.3;
-}
-
-GfsGenericInitClass * gfs_init_stokes_wave_class (void)
-{
-  static GfsGenericInitClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_init_stokes_wave_info = {
-      "GfsInitStokesWave",
-      sizeof (GfsInitStokesWave),
-      sizeof (GfsGenericInitClass),
-      (GtsObjectClassInitFunc) gfs_init_stokes_wave_class_init,
-      (GtsObjectInitFunc) gfs_init_stokes_wave,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_generic_init_class ()),
-				  &gfs_init_stokes_wave_info);
-  }
-
-  return klass;
-}
-
-const gchar * g_module_check_init (void);
-
-const gchar * g_module_check_init (void)
-{
-  gfs_init_stokes_wave_class ();
-  return NULL;
-}
diff --git a/modules/terrain.mac b/modules/terrain.mac
deleted file mode 100644
index ee69b1c..0000000
--- a/modules/terrain.mac
+++ /dev/null
@@ -1,145 +0,0 @@
-/* Maxima code to compute coefficients used in terrain.mod:update_terrain() */
-
-/* usage: 
-   % maxima -p cform.lisp 
-   (%i1) batchload("terrain.mac"); 
-*/
-
-/* load("cform"); */
-
-hfactor(expr):=
-  block (
-    [a: expand(expr)],
-    a: ratsubst(s_H4,z*z,a),
-    a: ratsubst(s_H3,x*y*z,a),
-    a: expand(a),
-    a: ratsubst(s_m33,x^2*y^2,a),
-    a: expand(a),
-    a: ratsubst(s_m13,x^2*y,a),
-    a: expand(a),
-    a: ratsubst(s_m23,y^2*x,a),
-    a: expand(a),
-    a: ratsubst(s_m11,x^2,a),
-    a: expand(a),
-    a: ratsubst(s_m22,y^2,a),
-    a: expand(a),
-    a: ratsubst(s_m03,x*y,a),
-    a: expand(a),
-    a: ratsubst(s_H1,x*z,a),
-    a: expand(a),
-    a: ratsubst(s_H2,y*z,a),
-    a: expand(a),
-    a: ratsubst(s_m01,x,a),
-    a: expand(a),
-    a: ratsubst(s_m02,y,a),
-    a: expand(a),
-    a: ratsubst(s_H0,z,a),
-    a: expand(a),
-    factorfacsum(a,s_H0,s_H1,s_H2,s_H3,s_H4,s_m01,s_m02,s_m03,s_m13,s_m23,s_m11,s_m22,s_m33)
-  );
-
-/* We want to "recenter" the H coefficient on (xc,yc,hp(x)) where
-   hp(x) is the height on the coarser mesh (i.e. the parent cell) */
-
-H1: (x-xc)*(z-hp[0]-hp[1]*x-hp[2]*y-hp[3]*x*y);
-print("H1=",H1);
-H1: hfactor(H1);
-print("C code:");
-cform(H1);
-print("----------------------------------------------------------------");
-
-H2: (y-yc)*(z-hp[0]-hp[1]*x-hp[2]*y-hp[3]*x*y);
-print("H2=",H2);
-H2: hfactor(H2);
-print("C code:");
-cform(H2);
-print("----------------------------------------------------------------");
-
-H3: (x-xc)*(y-yc)*(z-hp[0]-hp[1]*x-hp[2]*y-hp[3]*x*y);
-print("H3=",H3);
-H3: hfactor(H3);
-print("C code:");
-cform(H3);
-print("----------------------------------------------------------------");
-
-H4: (z-hp[0]-hp[1]*x-hp[2]*y-hp[3]*x*y)^2;
-print("H4=",H4);
-H4: hfactor(H4);
-print("C code:");
-cform(H4);
-print("----------------------------------------------------------------");
-
-/* We want to "recenter" the m coefficient on (xc,yc) */
-
-m03: (x - xc)*(y - yc);
-print("m03=",m03);
-m03: hfactor(m03);
-print("C code:");
-cform(m03);
-print("----------------------------------------------------------------");
-
-m11: (x - xc)*(x - xc);
-print("m11=",m11);
-m11: hfactor(m11);
-print("C code:");
-cform(m11);
-print("----------------------------------------------------------------");
-
-m22: (y - yc)*(y - yc);
-print("m22=",m22);
-m22: hfactor(m22);
-print("C code:");
-cform(m22);
-print("----------------------------------------------------------------");
-
-m13: (x - xc)*(x - xc)*(y - yc);
-print("m13=",m13);
-m13: hfactor(m13);
-print("C code:");
-cform(m13);
-print("----------------------------------------------------------------");
-
-m23: (x - xc)*(y - yc)*(y - yc);
-print("m23=",m23);
-m23: hfactor(m23);
-print("C code:");
-cform(m23);
-print("----------------------------------------------------------------");
-
-m33: (x - xc)*(x - xc)*(y - yc)*(y - yc);
-print("m33=",m33);
-m33: hfactor(m33);
-print("C code:");
-cform(m33);
-print("----------------------------------------------------------------");
-
-/* Only recenter the H coefficients using (xc,yc) if we are looking at
-   the absolute height */
-
-H1: (x-xc)*z;
-print("H1=",H1);
-H1: hfactor(H1);
-print("C code:");
-cform(H1);
-print("----------------------------------------------------------------");
-
-H2: (y-yc)*z;
-print("H2=",H2);
-H2: hfactor(H2);
-print("C code:");
-cform(H2);
-print("----------------------------------------------------------------");
-
-H3: (x-xc)*(y-yc)*z;
-print("H3=",H3);
-H3: hfactor(H3);
-print("C code:");
-cform(H3);
-print("----------------------------------------------------------------");
-
-H4: z^2;
-print("H4=",H4);
-H4: hfactor(H4);
-print("C code:");
-cform(H4);
-print("----------------------------------------------------------------");
diff --git a/modules/terrain.mod b/modules/terrain.mod
deleted file mode 100644
index 4f6798a..0000000
--- a/modules/terrain.mod
+++ /dev/null
@@ -1,1674 +0,0 @@
-/* Gerris - The GNU Flow Solver                       (-*-C-*-)
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <glob.h>
-#if GSL
-# include <gsl/gsl_linalg.h>
-#endif
-#include "refine.h"
-#include "solid.h"
-#include "rsurface.h"
-#include "river.h"
-
-static gchar * default_path = ".";
-
-/* RSurfaces */
-
-typedef struct {
-  RSurface ** rs;
-  guint nrs; 
-  gchar * path, * basename;  
-} RSurfaces;
-
-static void rsurfaces_destroy (RSurfaces * rs)
-{
-  g_free (rs->path);
-  g_free (rs->basename);
-  if (rs->rs) {
-    guint i;
-    for (i = 0; i < rs->nrs; i++)
-      r_surface_close (rs->rs[i]);
-    g_free (rs->rs);
-  }
-}
-
-static void rsurfaces_read (RSurfaces * rs, GtsFile * fp)
-{
-  gchar * path = NULL;
-  if (fp->type == '{') {
-    GtsFileVariable var[] = {
-      {GTS_STRING, "basename", TRUE},
-      {GTS_STRING, "path",      TRUE},
-      {GTS_NONE}
-    };
-    var[0].data = &rs->basename;
-    var[1].data = &rs->path;
-    gts_file_assign_variables (fp, var);
-    if (fp->type == GTS_ERROR)
-      return;
-    path = g_strconcat (default_path, ":", rs->path, NULL);
-  }
-  else
-    path = g_strdup (default_path);
-
-  if (!strcmp (rs->basename, "*")) { /* file globbing */
-    gchar * pattern = g_strconcat (path, "/*.Data", NULL);
-    glob_t pglob;
-    if (glob (pattern, GLOB_ERR, NULL, &pglob)) {
-      gts_file_error (fp, "cannot find/open terrain databases in path:\n%s", pattern);
-      g_free (pattern);
-      g_free (path);
-      return;
-    }
-    g_free (pattern);
-    guint i;
-    for (i = 0; i < pglob.gl_pathc; i++) {
-      pglob.gl_pathv[i][strlen (pglob.gl_pathv[i]) - 5] = '\0';
-      rs->rs = g_realloc (rs->rs, (rs->nrs + 1)*sizeof (RSurface *));
-      rs->rs[rs->nrs] = r_surface_open (pglob.gl_pathv[i], "r", -1);
-      if (!rs->rs[rs->nrs]) {
-	gts_file_error (fp, "cannot open terrain database `%s'", pglob.gl_pathv[i]);
-	globfree (&pglob);
-	g_free (path);
-	return;
-      }
-      rs->nrs++;
-    }
-    globfree (&pglob);
-  }
-  else { /* basename is of the form: set1,set2,set3... */
-    gchar ** names = g_strsplit (rs->basename, ",", 0);
-    gchar ** s = names;
-    while (*s) {
-      rs->rs = g_realloc (rs->rs, (rs->nrs + 1)*sizeof (RSurface *));
-      if (path) {
-	/* search path */
-	gchar ** pathes = g_strsplit (path, ":", 0);
-	gchar ** spath = pathes, * fname;
-	g_assert (*spath);
-	do {
-	  fname = (*s)[0] == '/' ? g_strdup (*s) : g_strconcat (*spath, "/", *s, NULL);
-	  rs->rs[rs->nrs] = r_surface_open (fname, "r", -1);
-	} while (rs->rs[rs->nrs] == NULL && *(++spath));
-	g_strfreev (pathes);
-      }
-      else
-	rs->rs[rs->nrs] = r_surface_open (*s, "r", -1);
-      if (!rs->rs[rs->nrs]) {
-	if (path)
-	  gts_file_error (fp, "cannot find/open terrain database `%s' in path:\n%s", *s, path);
-	else
-	  gts_file_error (fp, "cannot open terrain database `%s'", *s);
-	g_strfreev (names);
-	g_free (path);
-	return;
-      }
-      rs->nrs++;
-      s++;
-    }
-    g_strfreev (names);
-  }
-  g_free (path);
-}
-
-static void rsurfaces_write (RSurfaces * rs, FILE * fp)
-{
-  if (rs->path || rs->basename) {
-    fputs (" {\n", fp);
-    if (rs->path)
-      fprintf (fp, "  path = %s\n", rs->path);
-    if (rs->basename)
-      fprintf (fp, "  basename = %s\n", rs->basename);
-    fputc ('}', fp);
-  }
-}
-
-/* GfsRefineTerrain: Header */
-
-typedef struct _GfsRefineTerrain         GfsRefineTerrain;
-
-#define NM 4
-
-struct _GfsRefineTerrain {
-  /*< private >*/
-  GfsRefine parent;
-  guint level;
-  gboolean refined;
-  GfsVariable * type;
-
-#if !FTT_2D
-  GfsVariable * min, * max;
-  gdouble front, scale;
-#endif
-
-  RSurfaces rs;
-
-  /*< public >*/
-  gchar * name;
-  GfsVariable * h[NM], * he, * hn, * hdmin, * hdmax;
-  GfsFunction * criterion;
-};
-
-#define GFS_REFINE_TERRAIN(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsRefineTerrain,\
-					           gfs_refine_terrain_class ())
-#define GFS_IS_REFINE_TERRAIN(obj)         (gts_object_is_from_class (obj,\
-						   gfs_refine_terrain_class ()))
-     
-GfsRefineClass * gfs_refine_terrain_class  (void);
-
-/* GfsRefineTerrain: Object */
-
-typedef struct {
-  FttVector c;
-  FttVector p[4];
-  gdouble min[2], max[2], h;
-  RSurfaces * rs;
-  FttCell * cell;
-} Polygon;
-
-static void map_inverse (GfsSimulation * sim, FttVector * p, Polygon * poly)
-{
-  gfs_simulation_map_inverse (sim, p);
-  if (p->x < poly->min[0]) poly->min[0] = p->x;
-  if (p->x > poly->max[0]) poly->max[0] = p->x;
-  if (p->y < poly->min[1]) poly->min[1] = p->y;
-  if (p->y > poly->max[1]) poly->max[1] = p->y;
-  poly->c.x += p->x; poly->c.y += p->y;
-}
-
-static void polygon_init (GfsSimulation * sim, Polygon * p, FttCell * cell, RSurfaces * rs)
-{
-  FttVector q;
-  ftt_cell_pos (cell, &q);
-  p->cell = cell;
-  p->rs = rs;
-  p->min[0] = p->min[1] = G_MAXDOUBLE;
-  p->max[0] = p->max[1] = - G_MAXDOUBLE;
-  p->c.x = p->c.y = 0.;
-  p->h = ftt_cell_size (cell)/2.;
-  p->p[0].x = q.x + p->h; p->p[0].y = q.y + p->h;
-  map_inverse (sim, &p->p[0], p);
-  p->p[1].x = q.x - p->h; p->p[1].y = q.y + p->h;
-  map_inverse (sim, &p->p[1], p);
-  p->p[2].x = q.x - p->h; p->p[2].y = q.y - p->h;
-  map_inverse (sim, &p->p[2], p);
-  p->p[3].x = q.x + p->h; p->p[3].y = q.y - p->h;
-  map_inverse (sim, &p->p[3], p);
-  p->c.x /= 4; p->c.y /= 4;
-  p->h = MAX (p->max[0] - p->min[0], p->max[1] - p->min[1])/2.;
-}
-
-static gboolean right (const double a[2], const double b[2], const double c[2])
-{
-  return (b[0] - a[0])*(c[1] - a[1]) - (b[1] - a[1])*(c[0] - a[0]) < 0.;
-}
-
-static gboolean polygon_contains (Polygon * p, gdouble q[2])
-{
-  if (right (&p->p[0].x, &p->p[1].x, q))
-    return FALSE;
-  if (right (&p->p[1].x, &p->p[2].x, q))
-    return FALSE;
-  if (right (&p->p[2].x, &p->p[3].x, q))
-    return FALSE;
-  if (right (&p->p[3].x, &p->p[0].x, q))
-    return FALSE;
-  return TRUE;
-}
-
-static gboolean polygon_includes (RSurfaceRect rect, Polygon * p)
-{
-  gdouble q[2];
-  q[0] = rect[0].l; q[1] = rect[1].l;
-  if (!polygon_contains (p, q))
-    return FALSE;
-  q[0] = rect[0].l; q[1] = rect[1].h;
-  if (!polygon_contains (p, q))
-    return FALSE;
-  q[0] = rect[0].h; q[1] = rect[1].l;
-  if (!polygon_contains (p, q))
-    return FALSE;
-  q[0] = rect[0].h; q[1] = rect[1].h;
-  if (!polygon_contains (p, q))
-    return FALSE;
-  return TRUE;
-}
-
-static gboolean polygon_intersects (RSurfaceRect rect, Polygon * p)
-{
-  /* fixme: this could be improved? */
-  return (rect[0].l <= p->max[0] && rect[0].h >= p->min[0] &&
-	  rect[1].l <= p->max[1] && rect[1].h >= p->min[1]);
-}
-
-typedef struct {
-  gdouble H[NM+1], m[NM][NM];
-  gdouble h[NM], he, cond, min, max;
-  GfsRefineTerrain * t;
-  FttCell * cell;
-  gboolean relative;
-} RMS;
-
-static void rms_init (GfsRefineTerrain * t, RMS * rms, Polygon * p, gboolean relative)
-{
-  guint i, j;
-  for (i = 0; i < NM + 1; i++)
-    rms->H[i] = 0.;
-  for (i = 0; i < NM; i++)
-    for (j = 0; j < NM; j++)
-      rms->m[i][j] = 0.;
-  rms->t = t;
-  rms->cell = p->cell;
-  rms->relative = relative;
-  rms->min = G_MAXDOUBLE;
-  rms->max = - G_MAXDOUBLE;
-}
-
-static void function_from_corners (gdouble h[4], gdouble H[4])
-{
-  h[0] = (H[0] + H[1] + H[2] + H[3])/4.;
-  h[1] = (H[0] - H[1] - H[2] + H[3])/4.;
-  h[2] = (H[0] + H[1] - H[2] - H[3])/4.;
-  h[3] = (H[0] - H[1] + H[2] - H[3])/4.;  
-}
-
-static gdouble rms_minimum (RMS * rms)
-{
-  if (rms->m[0][0] == 0.)
-    return 0.;
-  return sqrt (fabs (rms->h[0]*(rms->h[0]*rms->m[0][0] + 
-				2.*(rms->h[1]*rms->m[0][1] + 
-				    rms->h[2]*rms->m[0][2] +
-				    rms->h[3]*rms->m[0][3] - rms->H[0])) +
-		     rms->h[1]*(rms->h[1]*rms->m[1][1] + 
-				2.*(rms->h[2]*rms->m[1][2] +
-				    rms->h[3]*rms->m[1][3] - rms->H[1])) +
-		     rms->h[2]*(rms->h[2]*rms->m[2][2] +
-				2.*(rms->h[3]*rms->m[2][3] - rms->H[2])) +
-		     rms->h[3]*(rms->h[3]*rms->m[3][3] - 2.*rms->H[3]) +
-		     rms->H[4])/rms->m[0][0]);
-}
-
-static gdouble cell_value (FttCell * cell, GfsVariable * h[NM], FttVector p)
-{
-  gdouble size = ftt_cell_size (cell)/2.;
-  FttVector q;
-  ftt_cell_pos (cell, &q);
-  p.x = (p.x - q.x)/size;
-  p.y = (p.y - q.y)/size;
-  return (GFS_VALUE (cell, h[0]) + 
-	  GFS_VALUE (cell, h[1])*p.x + 
-	  GFS_VALUE (cell, h[2])*p.y + 
-	  GFS_VALUE (cell, h[3])*p.x*p.y);
-}
-
-static void corners_from_parent (FttCell * cell, GfsRefineTerrain * t, gdouble H[4])
-{
-  gdouble size = ftt_cell_size (cell);
-  FttCell * parent = ftt_cell_parent (cell);
-  FttVector p;
-  ftt_cell_pos (cell, &p);
-  p.x += size/2.; p.y += size/2.;
-  H[0] = cell_value (parent, t->h, p);
-  p.x -= size;
-  H[1] = cell_value (parent, t->h, p);
-  p.y -= size;
-  H[2] = cell_value (parent, t->h, p);
-  p.x += size;
-  H[3] = cell_value (parent, t->h, p);
-}
-
-static void variance_check (RMS * rms)
-{
-  g_assert (rms->m[0][0] >= NM);
-  gdouble H[4], h[4];
-  guint i;
-  h[0] = rms->h[0] + rms->h[1] + rms->h[2] + rms->h[3];
-  h[1] = rms->h[0] - rms->h[1] + rms->h[2] - rms->h[3];
-  h[2] = rms->h[0] - rms->h[1] - rms->h[2] + rms->h[3];
-  h[3] = rms->h[0] + rms->h[1] - rms->h[2] - rms->h[3];
-  if (rms->relative) {
-    gdouble H0[4];
-    corners_from_parent (rms->cell, rms->t, H0);
-    for (i = 0; i < 4; i++)
-      H[i] = CLAMP (h[i], rms->min - H0[i], rms->max - H0[i]);
-  }
-  else
-    for (i = 0; i < 4; i++)
-      H[i] = CLAMP (h[i], rms->min, rms->max);
-  function_from_corners (rms->h, H);
-}
-
-static void rms_update (RMS * rms)
-{
-  guint i;
-  if (rms->m[0][0] == 0.) {
-    for (i = 1; i < NM; i++)
-      rms->h[i] = 0.;
-    rms->h[0] = G_MAXDOUBLE;
-    rms->he = 0.;
-    rms->cond = G_MAXDOUBLE;
-    return;
-  }
-  else if (rms->m[0][0] >= NM) {
-    guint j;
-    for (i = 1; i < NM; i++)
-      for (j = 0; j < i; j++)
-	rms->m[i][j] = rms->m[j][i];
-#if GSL  
-    double m[NM*NM], v[NM*NM], s[NM];
-    gsl_matrix_view gv = gsl_matrix_view_array (v, NM, NM);
-    gsl_vector_view gs = gsl_vector_view_array (s, NM);
-    for (i = 0; i < NM; i++)
-      for (j = 0; j < NM; j++)
-	m[i+NM*j] = rms->m[i][j];
-    gsl_matrix_view gm = gsl_matrix_view_array (m, NM, NM);
-    gsl_linalg_SV_decomp_jacobi (&gm.matrix, &gv.matrix, &gs.vector);
-    rms->cond = s[NM - 1] > 0. ? s[0]/s[NM - 1] : G_MAXDOUBLE;
-    if (rms->cond < 10000.) {
-      gsl_vector_view gH = gsl_vector_view_array (rms->H, NM);
-      gsl_vector_view gh = gsl_vector_view_array (rms->h, NM);
-      gsl_linalg_SV_solve (&gm.matrix, &gv.matrix, &gs.vector, &gH.vector, &gh.vector);
-      variance_check (rms);
-      rms->he = rms_minimum (rms);
-      return;
-    }
-#else
-    gdouble ** m = gfs_matrix_new (NM, NM, sizeof (gdouble));
-    for (i = 0; i < NM; i++)
-      for (j = 0; j < NM; j++)
-	m[i][j] = rms->m[i][j];
-    if (gfs_matrix_inverse (m, NM, 1e-5)) {
-      for (i = 0; i < NM; i++) {
-	rms->h[i] = 0.;
-	for (j = 0; j < NM; j++)
-	  rms->h[i] += m[i][j]*rms->H[j];
-      }
-      gfs_matrix_free (m);
-      variance_check (rms);
-      rms->he = rms_minimum (rms);
-      return;
-    }
-    gfs_matrix_free (m);
-#endif
-  }
-  rms->h[0] = rms->H[0]/rms->m[0][0];
-  for (i = 1; i < NM; i++)
-    rms->h[i] = 0.;
-  rms->he = rms_minimum (rms);
-}
-
-#if DEBUG
-static gdouble rms_value (RMS * rms, FttVector * p)
-{
-  return rms->h[0] + rms->h[1]*p->x + rms->h[2]*p->y + rms->h[3]*p->x*p->y;
-}
-
-static void rms_write (RMS * rms, Polygon * p)
-{
-  FttVector q, r;
-  q.x = p->c.x + p->h; q.y = p->c.y + p->h;
-  r.x = 1.; r.y = 1.;
-  fprintf (stderr, "%g %g %g\n", q.x, q.y, rms_value (rms, &r)/20000.);
-  q.x = p->c.x + p->h; q.y = p->c.y - p->h;
-  r.x = 1.; r.y = - 1.;
-  fprintf (stderr, "%g %g %g\n", q.x, q.y, rms_value (rms, &r)/20000.);
-  q.x = p->c.x - p->h; q.y = p->c.y - p->h;
-  r.x = - 1.; r.y = - 1.;
-  fprintf (stderr, "%g %g %g\n", q.x, q.y, rms_value (rms, &r)/20000.);
-  q.x = p->c.x - p->h; q.y = p->c.y + p->h;
-  r.x = - 1.; r.y = 1.;
-  fprintf (stderr, "%g %g %g\n", q.x, q.y, rms_value (rms, &r)/20000.);
-}
-
-static int write_points (double p[3], Polygon * poly)
-{
-  if (polygon_contains (poly, p))
-    fprintf (stderr, "aa %g %g %g\n", p[0], p[1], p[2]);
-}
-#endif
-
-#define RAW        0. /* fitted but not continuous (C0) */
-#define FAIR       1. /* fitted and C0 */
-#define REFINED    2. /* non-fitted refined cell */
-#define NEW_CHILD  3. /* non-fitted child extrapolated from its parent */
-#define CONTAINS_SURFACE 4. /* 3D-only */
-#define BOUNDARY 5.         /* 3D-only */
-
-static void parent_cell_coefficients (FttCell * cell, GfsVariable ** v, gdouble hP[NM])
-{
-  FttCell * parent = ftt_cell_parent (cell);
-  gdouble h[4];
-  guint i;
-  for (i = 0; i < 4; i++)
-    h[i] = GFS_VALUE (parent, v[i]);
-
-  FttVector p;
-  ftt_cell_relative_pos (cell, &p);
-  p.x *= 2.; p.y *= 2.;
-
-  hP[0] = h[0] +  h[1]*p.x + (h[2] + h[3]*p.x)*p.y;
-  hP[1] = (h[1] + h[3]*p.y)/2.;
-  hP[2] = (h[2] + h[3]*p.x)/2.;
-  hP[3] = h[3]/4.;
-}
-
-static void projection_matrix (Polygon * poly, double m[2][2])
-{
-  double x[4], y[4];
-  guint i;
-  for (i = 0; i < 4; i++) {
-    x[i] = (poly->p[i].x - poly->c.x)/poly->h;
-    y[i] = (poly->p[i].y - poly->c.y)/poly->h;
-  }
-  m[0][0] = (x[0] - x[1] + x[3] - x[2])/4.;
-  m[0][1] = (x[0] + x[1] - x[3] - x[2])/4.;
-  m[1][0] = (y[0] - y[1] + y[3] - y[2])/4.;
-  m[1][1] = (y[0] + y[1] - y[3] - y[2])/4.;
-}
-
-static void update_terrain_rms (GfsRefineTerrain * t, Polygon * poly, gboolean relative, RMS * rms)
-{
-  rms_init (t, rms, poly, relative);
-  RSurfaceSum s;
-  r_surface_sum_init (&s);
-  guint i;
-  RSurfaceRect rect;
-  rect[0].l = poly->c.x - poly->h/2.; rect[0].h = poly->c.x + poly->h/2.; 
-  rect[1].l = poly->c.y - poly->h/2.; rect[1].h = poly->c.y + poly->h/2.; 
-  for (i = 0; i < poly->rs->nrs; i++)
-    r_surface_query_region_sum (poly->rs->rs[i],
-				(RSurfaceCheck) polygon_includes,
-				(RSurfaceCheck) polygon_intersects, poly, 
-				rect, &s);
-
-  rms->m[0][0] = s.n;
-  if (s.n > 0) {
-    RSurfaceSum sp;
-
-    sp.n = s.n;
-    sp.H0 = s.H0;
-    sp.H4 = s.H4;
-    sp.Hmin = s.Hmin;
-    sp.Hmax = s.Hmax;
-
-    /* The sums returned by r_surface_query_region_sum are defined in
-       a (lon,lat) coordinate system, we need to project these into
-       the local Cartesian coordinate system. The corresponding
-       transform is given by matrix p below. */
-    double p[2][2];
-    projection_matrix (poly, p);
-
-    /* This is the transformation of the sums */
-    double det = p[0][0]*p[1][1] - p[0][1]*p[1][0], det1 = det;
-    g_assert (det > 0.1);
-
-    sp.m01 = (s.m01*p[1][1] - s.m02*p[0][1])/det;
-    sp.m02 = (s.m02*p[0][0] - s.m01*p[1][0])/det;
-    sp.H1 =  (s.H1*p[1][1] - s.H2*p[0][1])/det;
-    sp.H2 =  (s.H2*p[0][0] - s.H1*p[1][0])/det;
-
-    det *= det1;
-    sp.m11 = (p[1][1]*p[1][1]*s.m11 + p[0][1]*p[0][1]*s.m22 - 2.*p[0][1]*p[1][1]*s.m03)/det;
-    sp.m22 = (p[1][0]*p[1][0]*s.m11 + p[0][0]*p[0][0]*s.m22 - 2.*p[0][0]*p[1][0]*s.m03)/det;
-    sp.m03 = - (p[1][0]*p[1][1]*s.m11 + p[0][0]*p[0][1]*s.m22 
-		- (p[0][0]*p[1][1] + p[0][1]*p[1][0])*s.m03)/det;
-    sp.H3  = - (p[1][0]*p[1][1]*s.H5 + p[0][0]*p[0][1]*s.H6 
-		- (p[0][0]*p[1][1] + p[0][1]*p[1][0])*s.H3)/det;
-
-    det *= det1;
-    sp.m13 = (- p[1][0]*p[1][1]*p[1][1]*s.m44 
-	      + p[0][0]*p[0][1]*p[0][1]*s.m55
-	      + p[1][1]*(p[0][0]*p[1][1] + 2.*p[0][1]*p[1][0])*s.m13
-	      - p[0][1]*(2.*p[0][0]*p[1][1] + p[0][1]*p[1][0])*s.m23)/det;
-    sp.m23 = (+ p[1][0]*p[1][0]*p[1][1]*s.m44 
-	      - p[0][0]*p[0][0]*p[0][1]*s.m55
-	      - p[1][0]*(2.*p[0][0]*p[1][1] + p[0][1]*p[1][0])*s.m13
-	      + p[0][0]*(p[0][0]*p[1][1] + 2.*p[0][1]*p[1][0])*s.m23)/det;
-
-    det *= det1;
-    sp.m33 = (+ p[1][0]*p[1][0]*p[1][1]*p[1][1]*s.m66
-	      + p[0][0]*p[0][0]*p[0][1]*p[0][1]*s.m77
-	      - 2.*p[1][0]*p[1][1]*(p[0][0]*p[1][1] + p[0][1]*p[1][0])*s.m67 
-	      - 2.*p[0][0]*p[0][1]*(p[0][0]*p[1][1] + p[0][1]*p[1][0])*s.m76
-	      + (p[0][0]*p[0][0]*p[1][1]*p[1][1]
-		 + 4.*p[0][0]*p[0][1]*p[1][0]*p[1][1]
-		 + p[0][1]*p[0][1]*p[1][0]*p[1][0])*s.m33)/det;
-
-    rms->m[0][1] = sp.m01;
-    rms->m[0][2] = sp.m02;
-    rms->m[1][1] = sp.m11;
-    rms->m[2][2] = sp.m22;
-    rms->m[0][3] = sp.m03;
-    rms->m[1][3] = sp.m13;
-    rms->m[2][3] = sp.m23;
-    rms->m[3][3] = sp.m33;
-    rms->m[1][2] = rms->m[0][3];
-
-    if (rms->relative) {
-      double hp[NM];
-
-      parent_cell_coefficients (rms->cell, rms->t->h, hp);
-      rms->H[0] = sp.H0 - sp.n*hp[0] - sp.m01*hp[1] - sp.m02*hp[2] - sp.m03*hp[3];
-
-      /* See terrain.mac for a "maxima" derivation of the terms below */
-      rms->H[1] = sp.H1 - hp[0]*sp.m01 - hp[1]*sp.m11 - hp[2]*sp.m03 - hp[3]*sp.m13;
-      rms->H[2] = sp.H2 - hp[0]*sp.m02 - hp[1]*sp.m03 - hp[2]*sp.m22 - hp[3]*sp.m23;
-      rms->H[3] = sp.H3 - hp[0]*sp.m03 - hp[1]*sp.m13 - hp[2]*sp.m23 - hp[3]*sp.m33;
-      rms->H[4] = (sp.H4 - 2.*hp[3]*sp.H3 - 2.*hp[2]*sp.H2 - 2.*hp[1]*sp.H1 - 2.*hp[0]*sp.H0
-		   + hp[3]*hp[3]*sp.m33
-		   + 2.*hp[2]*hp[3]*sp.m23
-		   + hp[2]*hp[2]*sp.m22
-		   + 2.*hp[1]*hp[3]*sp.m13
-		   + hp[1]*hp[1]*sp.m11
-		   + 2.*(hp[0]*hp[3] + hp[1]*hp[2])*sp.m03
-		   + 2.*hp[0]*hp[2]*sp.m02
-		   + 2.*hp[0]*hp[1]*sp.m01
-		   + hp[0]*hp[0]*sp.n);
-    }
-    else {
-      rms->H[0] = sp.H0;
-      rms->H[1] = sp.H1;
-      rms->H[2] = sp.H2;
-      rms->H[3] = sp.H3;
-      rms->H[4] = sp.H4;
-    }
-    rms->max = sp.Hmax;
-    rms->min = sp.Hmin;
-  }
-}
-
-static void update_terrain (FttCell * cell, GfsRefineTerrain * t)
-{
-  RMS rms;
-  guint i;
-  g_assert (GFS_VALUE (cell, t->type) == REFINED);
-  Polygon poly;
-  polygon_init (gfs_object_simulation (t), &poly, cell, &t->rs);
-  update_terrain_rms (t, &poly, ftt_cell_parent (cell) != NULL, &rms);
-  rms_update (&rms);
-
-  for (i = 0; i < NM; i++)
-    GFS_VALUE (cell, t->h[i]) = rms.h[i];
-  GFS_VALUE (cell, t->he) = rms.he;
-  GFS_VALUE (cell, t->hn) = rms.m[0][0];
-  GFS_VALUE (cell, t->hdmin) = rms.min;
-  GFS_VALUE (cell, t->hdmax) = rms.max;
-  GFS_VALUE (cell, t->type) = RAW;
-}
-
-static void function_from_parent (FttCell * cell, GfsRefineTerrain * t, gdouble h[4])
-{
-  gdouble H[4];
-  corners_from_parent (cell, t, H);
-  function_from_corners (h, H);
-}
-
-static void cell_fine_init (FttCell * parent, GfsRefineTerrain * t)
-{
-  gfs_cell_fine_init (parent, GFS_DOMAIN (gfs_object_simulation (t)));
-  FttCellChildren child;
-  ftt_cell_children (parent, &child);
-  guint i;
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i]) {
-      gdouble h[NM];
-      function_from_parent (child.c[i], t, h);
-      guint j;
-      for (j = 0; j < NM; j++)
-	GFS_VALUE (child.c[i], t->h[j]) = h[j];
-      GFS_VALUE (child.c[i], t->he) = GFS_VALUE (parent, t->he);
-      GFS_VALUE (child.c[i], t->hn) = GFS_VALUE (parent, t->hn)/FTT_CELLS;
-      GFS_VALUE (child.c[i], t->hdmin) = GFS_VALUE (parent, t->hdmin);
-      GFS_VALUE (child.c[i], t->hdmax) = GFS_VALUE (parent, t->hdmax);
-      GFS_VALUE (child.c[i], t->type) = NEW_CHILD;
-    }
-}
-
-static gdouble corner_value (GfsRefineTerrain * t, FttVector * p, gdouble eps, guint level)
-{
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (t));
-  gdouble v = 0., w = 0.;
-  gint i, j;
-  for (i = -1; i <= 1; i += 2)
-    for (j = -1; j <= 1; j += 2) {
-      FttVector q;
-      q.x = p->x + eps*i; q.y = p->y + eps*j; q.z = p->z;
-      FttCell * cell = gfs_domain_locate (domain, q, level, NULL);
-      if (cell) {
-	if (ftt_cell_level (cell) < level)
-	    return 0.;
-	else if (GFS_VALUE (cell, t->type) == FAIR)
-	  return cell_value (cell, t->h, *p);
-	gdouble n = GFS_VALUE (cell, t->hn);
-	if (n > 0.) {
-	  g_assert (GFS_VALUE (cell, t->type) == RAW);
-	  v += cell_value (cell, t->h, *p);
-	  w += 1.;
-	}
-      }
-    }
-  return w > 0 ? v/w : 0.;
-}
-
-static void update_error_estimate (FttCell * cell, GfsRefineTerrain * t, gboolean relative)
-{
-  if (GFS_VALUE (cell, t->hn) > 0.) {
-    RMS rms;
-    guint i;
-    Polygon poly;
-    polygon_init (gfs_object_simulation (t), &poly, cell, &t->rs);
-    update_terrain_rms (t, &poly, relative, &rms);
-    for (i = 0; i < NM; i++)
-      rms.h[i] = GFS_VALUE (cell, t->h[i]);
-    GFS_VALUE (cell, t->he) = rms_minimum (&rms);
-  }
-  else
-    GFS_VALUE (cell, t->he) = 0.;
-}
-
-static void remove_knots (FttCell * cell, GfsRefineTerrain * t)
-{
-  gdouble size = ftt_cell_size (cell), eps = size/1000.;
-  guint level = ftt_cell_level (cell);
-  FttVector p;
-  ftt_cell_pos (cell, &p);
-  gdouble h[4], H[4];
-  p.x += size/2.; p.y += size/2.;
-  H[0] = corner_value (t, &p, eps, level);
-  p.x -= size;
-  H[1] = corner_value (t, &p, eps, level);
-  p.y -= size;
-  H[2] = corner_value (t, &p, eps, level);
-  p.x += size;
-  H[3] = corner_value (t, &p, eps, level);
-  function_from_corners (h, H);
-  guint i;
-  for (i = 0; i < NM; i++)
-    GFS_VALUE (cell, t->h[i]) = h[i];
-  GFS_VALUE (cell, t->type) = FAIR;
-
-  update_error_estimate (cell, t, ftt_cell_parent (cell) != NULL);
-}
-
-static void update_height_and_check_for_refinement (FttCell * cell, GfsRefineTerrain * t)
-{
-  if (GFS_VALUE (cell, t->type) == FAIR) {
-    if (ftt_cell_parent (cell)) {
-      gdouble h[4];
-      function_from_parent (cell, t, h);
-      guint i;
-      for (i = 0; i < NM; i++)
-	GFS_VALUE (cell, t->h[i]) += h[i];
-    }
-
-    if (ftt_cell_level (cell) < gfs_function_value (GFS_REFINE (t)->maxlevel, cell) &&
-	gfs_function_value (t->criterion, cell)) {
-      g_assert (FTT_CELL_IS_LEAF (cell));
-      ftt_cell_refine_single (cell, (FttCellInitFunc) cell_fine_init, t);
-      FttCellChildren child;
-      guint i;
-      ftt_cell_children (cell, &child);
-      for (i = 0; i < FTT_CELLS; i++)
-	GFS_VALUE (child.c[i], t->type) = REFINED;
-    }
-
-    if (!FTT_CELL_IS_LEAF (cell))
-      t->refined = TRUE;
-  }
-  else
-    g_assert (GFS_VALUE (cell, t->type) == NEW_CHILD);
-}
-
-static void reset_terrain (FttCell * cell, GfsRefineTerrain * t)
-{
-  guint i;
-  for (i = 0; i < NM; i++)
-    GFS_VALUE (cell, t->h[i]) = 0.;
-  GFS_VALUE (cell, t->type) = REFINED;
-  if (FTT_CELL_IS_LEAF (cell) && ftt_cell_level (cell) < t->level)
-    t->level = ftt_cell_level (cell);
-}
-
-#if FTT_2D
-# define traverse_boundary(domain,order,flags,depth,func,data) \
-         gfs_domain_cell_traverse(domain,order,flags,depth,func,data)
-#else /* 3D */
-# define traverse_boundary(domain,order,flags,depth,func,data) \
-         gfs_domain_cell_traverse_boundary(domain,FTT_FRONT,order,flags,depth,func,data)
-
-static void terrain_min_max (gdouble H[NM], gdouble minmax[2], gdouble scale)
-{
-  gdouble dx, dy;
-  minmax[0] = G_MAXDOUBLE; minmax[1] = - G_MAXDOUBLE;
-  for (dx = -1.; dx <= 1.; dx += 2.)
-    for (dy = -1.; dy <= 1.; dy += 2.) {
-      gdouble v = H[0] + dx*H[1] + dy*H[2] + dx*dy*H[3];
-      if (v < minmax[0]) minmax[0] = v;
-      if (v > minmax[1]) minmax[1] = v;
-    }
-  minmax[0] *= scale;
-  minmax[1] *= scale;
-}
-
-static void min_max (FttCell * cell, GfsRefineTerrain * t)
-{
-  gdouble minmax[2] = { G_MAXDOUBLE, - G_MAXDOUBLE };
-  if (FTT_CELL_IS_LEAF (cell)) {
-    gdouble h[4];
-    h[0] = GFS_VALUE (cell, t->h[0]);
-    h[1] = GFS_VALUE (cell, t->h[1]);
-    h[2] = GFS_VALUE (cell, t->h[2]);
-    h[3] = GFS_VALUE (cell, t->h[3]);
-    terrain_min_max (h, minmax, t->scale);
-
-    FttVector p;
-    ftt_cell_pos (cell, &p);
-    if (p.z > t->front)
-      t->front = p.z;
-  }
-  else {
-    FttCellChildren child;
-    guint i;
-    ftt_cell_children (cell, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i]) {
-	if (GFS_VALUE (child.c[i], t->max) > minmax[1])
-	  minmax[1] = GFS_VALUE (child.c[i], t->max);
-	if (GFS_VALUE (child.c[i], t->min) < minmax[0])
-	  minmax[0] = GFS_VALUE (child.c[i], t->min);	
-      }
-  }
-  GFS_VALUE (cell, t->min) = minmax[0];
-  GFS_VALUE (cell, t->max) = minmax[1];
-  GFS_VALUE (cell, t->type) = BOUNDARY;
-}
-
-static gboolean refine_terrain_from_boundary (FttCell * cell, GfsRefineTerrain * t)
-{
-  FttVector p;
-  ftt_cell_pos (cell, &p);
-  gdouble h = ftt_cell_size (cell)/2., zmin = p.z - h, zmax = p.z + h;
-  p.z = t->front;
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (t));
-  FttCell * boundary = gfs_domain_locate (domain, p, ftt_cell_level (cell), NULL);
-  g_assert (boundary);
-  if (GFS_VALUE (boundary, t->min) > zmax || GFS_VALUE (boundary, t->max) < zmin)
-    return FALSE;
-  GFS_VALUE (cell, t->type) = CONTAINS_SURFACE;
-  return !FTT_CELL_IS_LEAF (boundary);
-}
-
-static void refine_box (GfsBox * box, GfsRefineTerrain * t)
-{
-  ftt_cell_refine (box->root, 
-		   (FttCellRefineFunc) refine_terrain_from_boundary, t,
-		   (FttCellInitFunc) gfs_cell_fine_init, gfs_box_domain (box));
-}
-
-static void init_terrain_from_boundary (FttCell * cell, GfsRefineTerrain * t)
-{
-  if (GFS_VALUE (cell, t->type) == CONTAINS_SURFACE) {
-    FttVector p;
-    ftt_cell_pos (cell, &p);
-    p.z = t->front;
-    GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (t));
-    FttCell * boundary = gfs_domain_locate (domain, p, -1, NULL);
-    g_assert (boundary);
-    g_assert (ftt_cell_level (cell) == ftt_cell_level (boundary));
-    guint i;
-    for (i = 0; i < NM; i++)
-      GFS_VALUE (cell, t->h[i]) = GFS_VALUE (boundary, t->h[i]);
-    GFS_VALUE (cell, t->he) = GFS_VALUE (boundary, t->he);
-    GFS_VALUE (cell, t->hn) = GFS_VALUE (boundary, t->hn);
-  }
-}
-
-static gboolean coarsen_boundary (FttCell * cell, GfsRefineTerrain * t)
-{
-  return (GFS_VALUE (cell, t->type) != CONTAINS_SURFACE);
-}
-
-static void coarsen_box (GfsBox * box, GfsRefineTerrain * t)
-{
-  ftt_cell_coarsen (box->root,
-		    (FttCellCoarsenFunc) coarsen_boundary, t,
-		    (FttCellCleanupFunc) gfs_cell_cleanup, gfs_box_domain (box));
-}
-
-static void reset_empty_cell (FttCell * cell, GfsRefineTerrain * t)
-{
-  if (GFS_VALUE (cell, t->type) != CONTAINS_SURFACE) {
-    guint i;
-    for (i = 0; i < NM; i++)
-      GFS_VALUE (cell, t->h[i]) = G_MAXDOUBLE;
-    GFS_VALUE (cell, t->he) = G_MAXDOUBLE;
-    GFS_VALUE (cell, t->hn) = G_MAXDOUBLE;
-  }
-}
-#endif /* 3D */
-
-#if DEBUG
-static void draw_terrain (FttCell * cell, gpointer * data)
-{
-  GfsRefineTerrain * t = data[0];
-  FILE * fp = data[1];
-  gdouble h = ftt_cell_size (cell);
-  FttVector p;
-  ftt_cell_pos (cell, &p);
-  p.x += h/2.; p.y += h/2.;
-  fprintf (fp, "%g %g %g\n", p.x, p.y, cell_value (cell, t->h, p));
-  p.x -= h;
-  fprintf (fp, "%g %g %g\n", p.x, p.y, cell_value (cell, t->h, p));
-  p.y -= h;
-  fprintf (fp, "%g %g %g\n", p.x, p.y, cell_value (cell, t->h, p));
-  p.x += h;
-  fprintf (fp, "%g %g %g\n", p.x, p.y, cell_value (cell, t->h, p));
-}
-
-static void draw_level (GfsDomain * domain, GfsRefine * refine, guint level, const gchar * name)
-{
-  gpointer data[2];
-  data[0] = refine;
-  data[1] = fopen (name, "w");
-  fprintf (data[1], "QUAD\n");
-  traverse_boundary (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, level,
-		     (FttCellTraverseFunc) draw_terrain, data);
-  fclose (data[1]);
-}
-
-static void draw_all (GfsDomain * domain, GfsRefine * refine, const gchar * name)
-{
-  gpointer data[2];
-  data[0] = refine;
-  data[1] = fopen (name, "w");
-  //  fprintf (data[1], "QUAD\n");
-  traverse_boundary (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		     (FttCellTraverseFunc) draw_terrain, data);
-  fclose (data[1]);
-}
-#endif
-
-#define ASCII_ZERO 48 /* ASCII value for character "0" */
-
-static void terrain_coarse_fine (FttCell * parent, GfsVariable * v)
-{
-  FttCellChildren child;
-  guint len = strlen (v->name) - 1;
-  gint c = v->name[len] - ASCII_ZERO;
-  guint n;
-  gdouble h[NM];
-
-  g_assert (c >= 0 && c < NM);
-  for (n = 0; n < NM; n++) {
-    GSList * i = v->domain->variables;
-    while (i && (!GFS_VARIABLE1 (i->data)->name || 
-		 strncmp (v->name, GFS_VARIABLE1 (i->data)->name, len) ||
-		 GFS_VARIABLE1 (i->data)->name[len] != ASCII_ZERO + n))
-      i = i->next;
-    g_assert (i);
-    h[n] = GFS_VALUE (parent, GFS_VARIABLE1 (i->data));
-  }
-
-  ftt_cell_children (parent, &child);
-  if (h[0] == G_MAXDOUBLE) {
-    for (n = 0; n < FTT_CELLS; n++)
-      if (child.c[n])
-	GFS_VALUE (child.c[n], v) = G_MAXDOUBLE;
-  }
-  else {
-    gdouble size = ftt_cell_size (parent)/4.;
-    for (n = 0; n < FTT_CELLS; n++)
-      if (child.c[n]) {
-	gdouble hc[NM];
-	FttVector p;
-	ftt_cell_relative_pos (child.c[n], &p);
-	p.x *= 2.; p.y *= 2.;
-	hc[0] = h[0] + h[1]*p.x + h[2]*p.y + h[3]*p.x*p.y;
-	hc[1] = (h[1] + h[3]*p.y)/2.;
-	hc[2] = (h[2] + h[3]*p.x)/2.;
-	hc[3] = h[3]/4.;
-#if !FTT_2D
-	ftt_cell_pos (child.c[n], &p);
-	gdouble zmin = p.z - size, zmax = p.z + size, minmax[2];
-	p.z = 1.;
-	gfs_simulation_map (GFS_SIMULATION (v->domain), &p);
-	terrain_min_max (hc, minmax, p.z);
-	if (minmax[0] > zmax || minmax[1] < zmin)
-	  GFS_VALUE (child.c[n], v) = G_MAXDOUBLE;
-	else
-#endif
-	  GFS_VALUE (child.c[n], v) = hc[c];
-      }
-  }
-}
-
-static void terrain_refine (GfsRefine * refine, GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsRefineTerrain * t = GFS_REFINE_TERRAIN (refine);
-  t->type = gfs_temporary_variable (domain);
-  t->level = G_MAXINT/2;
-  traverse_boundary (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-		     (FttCellTraverseFunc) reset_terrain, refine);
-  do {
-    traverse_boundary (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, t->level,
-		       (FttCellTraverseFunc) update_terrain, refine);
-    traverse_boundary (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, t->level,
-		       (FttCellTraverseFunc) remove_knots, refine);
-    t->refined = FALSE;
-    traverse_boundary (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, t->level,
-		       (FttCellTraverseFunc) update_height_and_check_for_refinement,
-		       refine);
-#if DEBUG
-    GfsNorm norm = gfs_domain_norm_variable (domain, t->he, NULL, FTT_TRAVERSE_LEAFS, -1);
-    fprintf (stderr, "level: %d bias: %g 1: %g 2: %g inf: %g\n", 
-	     t->level, norm.bias, norm.first, norm.second, norm.infty);
-    fprintf (stderr, "level: %d depth: %d\n", t->level, gfs_domain_depth (domain));
-    gchar name[] = "/tmp/level-x";
-    name[11] = ASCII_ZERO + t->level;
-    draw_level (domain, refine, t->level, name);
-#endif
-    t->level++;
-  } while (t->refined);
-#if DEBUG
-  draw_all (domain, refine, "/tmp/all");
-#endif
-#if !FTT_2D
-  /* The height field is only defined on the front boundary, we need
-     to define it volumetrically */
-  t->min = gfs_temporary_variable (domain);
-  t->max = gfs_temporary_variable (domain);
-  t->front = - G_MAXDOUBLE;
-  FttVector p = {0.,0.,1.};
-  gfs_simulation_map (sim, &p);
-  t->scale = p.z;
-  gfs_domain_cell_traverse_boundary (domain, FTT_FRONT, FTT_POST_ORDER, FTT_TRAVERSE_ALL, -1,
-				     (FttCellTraverseFunc) min_max, t);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) refine_box, t);
-  gts_object_destroy (GTS_OBJECT (t->min));
-  gts_object_destroy (GTS_OBJECT (t->max));
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) init_terrain_from_boundary, t);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) coarsen_box, t);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) reset_empty_cell, t);
-#endif /* 3D */  
-  gts_object_destroy (GTS_OBJECT (t->type));
-  guint i;
-  for (i = 0; i < NM; i++)
-    t->h[i]->coarse_fine = terrain_coarse_fine;
-}
-
-static void refine_terrain_destroy (GtsObject * object)
-{
-  GfsRefineTerrain * t = GFS_REFINE_TERRAIN (object);
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (object));
-
-  if (t->name) {
-    gchar * dname = g_strconcat (t->name, "min", NULL);
-    gfs_domain_remove_derived_variable (domain, dname);
-    g_free (dname);
-    
-    dname = g_strconcat (t->name, "max", NULL);
-    gfs_domain_remove_derived_variable (domain, dname);
-    g_free (dname);
-  }
-  g_free (t->name);
-
-  rsurfaces_destroy (&t->rs);
-  
-  gts_object_destroy (GTS_OBJECT (t->criterion));  
-  (* GTS_OBJECT_CLASS (gfs_refine_terrain_class ())->parent_class->destroy) (object);
-}
-
-static gdouble terrain_hmin (FttCell * cell, FttCellFace * face, 
-			     GfsDomain * domain, GfsRefineTerrain * t)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  gdouble dx, dy, min = G_MAXDOUBLE;
-  gdouble H0 = GFS_VALUE (cell, t->h[0]), H1 = GFS_VALUE (cell, t->h[1]);
-  gdouble H2 = GFS_VALUE (cell, t->h[2]), H3 = GFS_VALUE (cell, t->h[3]);
-
-  for (dx = -1.; dx <= 1.; dx += 2.)
-    for (dy = -1.; dy <= 1.; dy += 2.) {
-      double v = H0 + dx*H1 + dy*H2 + dx*dy*H3;
-      if (v < min) min = v;
-    }
-  return min;
-}
-
-static gdouble terrain_hmax (FttCell * cell, FttCellFace * face, 
-			     GfsDomain * domain, GfsRefineTerrain * t)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  gdouble dx, dy, max = - G_MAXDOUBLE;
-  gdouble H0 = GFS_VALUE (cell, t->h[0]), H1 = GFS_VALUE (cell, t->h[1]);
-  gdouble H2 = GFS_VALUE (cell, t->h[2]), H3 = GFS_VALUE (cell, t->h[3]);
-
-  for (dx = -1.; dx <= 1.; dx += 2.)
-    for (dy = -1.; dy <= 1.; dy += 2.) {
-      double v = H0 + dx*H1 + dy*H2 + dx*dy*H3;
-      if (v > max) max = v;
-    }
-  return max;
-}
-
-static void refine_terrain_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_refine_terrain_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (name)");
-    return;
-  }
-  GfsRefineTerrain * t = GFS_REFINE_TERRAIN (*o);
-  t->name = g_strdup (fp->token->str);
-  gts_file_next_token (fp);
-
-  rsurfaces_read (&t->rs, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  guint i;
-  for (i = 0; i < NM; i++) {
-    gchar * name = g_strdup_printf ("%s%d", t->name, i);
-    t->h[i] = gfs_domain_get_or_add_variable (domain, name, "Terrain height");
-    g_free (name);
-  }
-  gchar * name = g_strjoin (NULL, t->name, "e", NULL);
-  t->he = gfs_domain_get_or_add_variable (domain, name, "Terrain RMS error");
-  g_free (name);
-  name = g_strjoin (NULL, t->name, "n", NULL);
-  t->hn = gfs_domain_get_or_add_variable (domain, name, "Terrain samples #");
-  g_free (name);
-  name = g_strjoin (NULL, t->name, "dmin", NULL);
-  t->hdmin = gfs_domain_get_or_add_variable (domain, name, "Minimum data height");
-  g_free (name);
-  name = g_strjoin (NULL, t->name, "dmax", NULL);
-  t->hdmax = gfs_domain_get_or_add_variable (domain, name, "Maximum data height");
-  g_free (name);
-
-  GfsDerivedVariableInfo v;
-
-  v.name = g_strjoin (NULL, t->name, "min", NULL);
-  v.description = "Minimum terrain height";
-  v.func = terrain_hmin;
-  v.data = t;
-  if (!gfs_domain_add_derived_variable (domain, v)) {
-    gts_file_error (fp, "derived variable `%s' already defined", v.name);
-    g_free (v.name);
-    return;
-  }
-  g_free (v.name);
-
-  v.name = g_strjoin (NULL, t->name, "max", NULL);
-  v.description = "Maximum terrain height";
-  v.func = terrain_hmax;
-  v.data = t;
-  if (!gfs_domain_add_derived_variable (domain, v)) {
-    gts_file_error (fp, "derived variable `%s' already defined", v.name);
-    g_free (v.name);
-    return;
-  }
-  g_free (v.name);
-
-  gfs_function_read (t->criterion, domain, fp);
-}
-
-static void refine_terrain_write (GtsObject * o, FILE * fp)
-{
-  GfsRefineTerrain * t = GFS_REFINE_TERRAIN (o);
-  (* GTS_OBJECT_CLASS (gfs_refine_terrain_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %s", t->name);
-  rsurfaces_write (&t->rs, fp);
-  gfs_function_write (t->criterion, fp);
-}
-
-static void gfs_refine_terrain_class_init (GfsRefineClass * klass)
-{
-  klass->refine = terrain_refine;
-
-  GTS_OBJECT_CLASS (klass)->destroy = refine_terrain_destroy;
-  GTS_OBJECT_CLASS (klass)->read = refine_terrain_read;
-  GTS_OBJECT_CLASS (klass)->write = refine_terrain_write;
-}
-
-static void gfs_refine_terrain_init (GfsRefineTerrain * t)
-{
-  t->criterion = gfs_function_new (gfs_function_class (), 0.);
-  t->rs.basename = g_strdup ("*");
-}
-
-GfsRefineClass * gfs_refine_terrain_class (void)
-{
-  static GfsRefineClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_refine_terrain_info = {
-      "GfsRefineTerrain",
-      sizeof (GfsRefineTerrain),
-      sizeof (GfsRefineClass),
-      (GtsObjectClassInitFunc) gfs_refine_terrain_class_init,
-      (GtsObjectInitFunc) gfs_refine_terrain_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_refine_class ()),
-				  &gfs_refine_terrain_info);
-  }
-
-  return klass;
-}
-
-/* GfsSurfaceTerrain: Header */
-
-typedef struct _GfsSurfaceTerrain         GfsSurfaceTerrain;
-
-struct _GfsSurfaceTerrain {
-  /*< private >*/
-  GfsGenericSurface parent;
-  GfsVariable * h[NM];
-  gdouble scale;
-
-  /*< public >*/
-  gchar * name;
-};
-
-#define GFS_SURFACE_TERRAIN(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSurfaceTerrain,\
-					         gfs_surface_terrain_class ())
-#define GFS_IS_SURFACE_TERRAIN(obj)         (gts_object_is_from_class (obj,\
-						 gfs_surface_terrain_class ()))
-
-GfsGenericSurfaceClass * gfs_surface_terrain_class  (void);
-
-/* GfsSurfaceTerrain: Object */
-
-static void gfs_surface_terrain_read (GtsObject ** o, GtsFile * fp)
-{
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a variable name");
-    return;
-  }
-  GfsSurfaceTerrain * t = GFS_SURFACE_TERRAIN (*o);
-  t->name = g_strdup (fp->token->str);
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  guint i;
-  for (i = 0; i < NM; i++) {
-    gchar * name = g_strdup_printf ("%s%d", t->name, i);
-    t->h[i] = gfs_variable_from_name (domain->variables, name);
-    if (!t->h[i]) {
-      gts_file_error (fp, "%s is not a valid variable name", name);
-      g_free (name);
-      return;
-    }
-    t->h[i]->coarse_fine = terrain_coarse_fine;
-    g_free (name);
-  }
-  gts_file_next_token (fp);
-}
-
-static void gfs_surface_terrain_write (GtsObject * o, FILE * fp)
-{
-  fprintf (fp, " %s", GFS_SURFACE_TERRAIN (o)->name);
-}
-
-static void gfs_surface_terrain_destroy (GtsObject * object)
-{
-  g_free (GFS_SURFACE_TERRAIN (object)->name);
-  (* GTS_OBJECT_CLASS (gfs_surface_terrain_class ())->parent_class->destroy)
-    (object);
-}
-
-static GfsGenericSurface * cell_is_cut (FttCell * cell, GfsGenericSurface * s1,
-					gboolean flatten, gint maxlevel)
-{
-  g_assert (!flatten); /* not implemented */
-  if (!FTT_CELL_IS_LEAF (cell))
-    return s1;
-  return GFS_VALUE (cell, GFS_SURFACE_TERRAIN (s1)->h[0]) != G_MAXDOUBLE ? s1 : NULL;
-}
-
-static gdouble zscale (GfsSurfaceTerrain * t)
-{
-  if (t->scale == 0.) {
-    FttVector p = {0.,0.,1.};
-    gfs_simulation_map (gfs_object_simulation (t), &p);
-    t->scale = p.z;
-  }
-  return t->scale;
-}
-
-static guint surface_segment_intersection (GfsGenericSurface * s1,
-					   FttCell * cell,
-					   GfsSegment * I)
-{
-  I->n = 0;
-  I->x = 0.;
-  I->inside = 0;
-
-  FttVector pE, pD;
-  pE.x = I->E->x; pE.y = I->E->y;
-  pD.x = I->D->x; pD.y = I->D->y;
-  GfsSurfaceTerrain * t = GFS_SURFACE_TERRAIN (s1);
-  gdouble vE = I->E->z - cell_value (cell, t->h, pE)*zscale (t);
-  gdouble vD = I->D->z - cell_value (cell, t->h, pD)*zscale (t);
-  
-  if ((vE > 0. && vD <= 0.) || (vE <= 0. && vD > 0.)) {
-    I->n = 1;
-    I->inside = vE > 0. ? -1 : 1;
-    I->x = vE/(vE - vD);
-#if DEBUG
-    gdouble size = ftt_cell_size (cell)/2.;
-    FttVector q;
-    ftt_cell_pos (cell, &q);
-    pE.x = (pE.x - q.x)/size;
-    pE.y = (pE.y - q.y)/size;
-    pD.x = (pD.x - q.x)/size;
-    pD.y = (pD.y - q.y)/size;
-    fprintf (stderr, "p %g %g %g %g %g %g %g %d %g %g %g %g\n", 
-	     I->D->x, I->D->y, I->D->z,
-	     I->E->x, I->E->y, I->E->z,
-	     I->x,
-	     ftt_cell_level (cell),
-	     pE.x, pE.y, pD.x, pD.y);
-    fprintf (stderr, "q %g %g %g\nq %g %g %g\nq\nq\n",
-	     I->D->x, I->D->y, I->D->z,
-	     I->E->x, I->E->y, I->E->z);
-    fprintf (stderr, "i %g %g %g\n",
-	     I->E->x + I->x*(I->D->x - I->E->x),
-	     I->E->y + I->x*(I->D->y - I->E->y),
-	     I->E->z + I->x*(I->D->z - I->E->z));
-#endif
-  }
-  return I->n;
-}
-
-static void surface_segment_normal (GfsGenericSurface * s1,
-				    FttCell * cell,
-				    GfsSegment * I,
-				    GtsVector n)
-{
-  GfsVariable ** h = GFS_SURFACE_TERRAIN (s1)->h;
-  gdouble size = ftt_cell_size (cell)/2.;
-  FttVector p, q;
-  ftt_cell_pos (cell, &q);
-  p.x = I->E->x + I->x*(I->D->x - I->E->x);
-  p.y = I->E->y + I->x*(I->D->y - I->E->y);
-  p.x = (p.x - q.x)/size;
-  p.y = (p.y - q.y)/size;
-  n[0] = - (GFS_VALUE (cell, h[1]) + GFS_VALUE (cell, h[3])*p.y)/size;
-  n[1] = - (GFS_VALUE (cell, h[2]) + GFS_VALUE (cell, h[3])*p.x)/size;
-  n[2] = 1./zscale (GFS_SURFACE_TERRAIN (s1));
-}
-
-static void gfs_surface_terrain_class_init (GfsGenericSurfaceClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_surface_terrain_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_surface_terrain_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_surface_terrain_destroy;
-
-  klass->cell_is_cut = cell_is_cut;
-  klass->segment_intersection = surface_segment_intersection;
-  klass->segment_normal = surface_segment_normal;
-}
-
-GfsGenericSurfaceClass * gfs_surface_terrain_class (void)
-{
-  static GfsGenericSurfaceClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_surface_terrain_info = {
-      "GfsSurfaceTerrain",
-      sizeof (GfsSurfaceTerrain),
-      sizeof (GfsGenericSurfaceClass),
-      (GtsObjectClassInitFunc) gfs_surface_terrain_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_generic_surface_class ()),
-				  &gfs_surface_terrain_info);
-  }
-
-  return klass;
-}
-
-/* GfsTerrain: Header */
-
-#define GFS_IS_TERRAIN(obj)         (gts_object_is_from_class (obj,\
-						 gfs_terrain_class ()))
-
-GfsEventClass * gfs_terrain_class  (void);
-
-/* GfsTerrain: Object */
-
-static void terrain_init (GfsSolid * s)
-{
-  gts_object_destroy (GTS_OBJECT (s->s));
-  s->s = GFS_GENERIC_SURFACE (gts_object_new (GTS_OBJECT_CLASS (gfs_surface_terrain_class ())));
-}
-
-GfsEventClass * gfs_terrain_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_terrain_info = {
-      "GfsTerrain",
-      sizeof (GfsSolid),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) terrain_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_solid_class ()),
-				  &gfs_terrain_info);
-  }
-
-  return klass;
-}
-
-/* GfsVariableTerrain: header */
-
-typedef struct _GfsVariableTerrain                GfsVariableTerrain;
-
-struct _GfsVariableTerrain {
-  /*< private >*/
-  GfsVariable parent;
-
-  /*< public >*/
-  GfsVariable * p, * H;
-  RSurfaces rs;
-};
-
-#define GFS_VARIABLE_TERRAIN(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsVariableTerrain,\
-					           gfs_variable_terrain_class ())
-#define GFS_IS_VARIABLE_TERRAIN(obj)         (gts_object_is_from_class (obj,\
-					     gfs_variable_terrain_class ()))
-
-GfsVariableClass * gfs_variable_terrain_class  (void);
-
-/* GfsVariableTerrain: Object */
-
-static void variable_terrain_destroy (GtsObject * o)
-{
-  rsurfaces_destroy (&GFS_VARIABLE_TERRAIN (o)->rs);
-
-  (* GTS_OBJECT_CLASS (gfs_variable_terrain_class ())->parent_class->destroy) (o);
-}
-
-static void none (FttCell * parent, GfsVariable * v)
-{
-}
-
-static void variable_terrain_coarse_fine (FttCell * parent, GfsVariable * v)
-{
-  GfsVariableTerrain * t = GFS_VARIABLE_TERRAIN (v);
-  GfsSimulation * sim = GFS_SIMULATION (v->domain);
-  FttCellChildren child;
-  guint n;
-
-  /* Reconstruct terrain */
-  ftt_cell_children (parent, &child);
-  for (n = 0; n < FTT_CELLS; n++) 
-    if (child.c[n]) {
-      Polygon poly;
-      RSurfaceRect rect;
-      RSurfaceSum s;
-      guint i;
-      polygon_init (sim, &poly, child.c[n], &t->rs);
-      r_surface_sum_init (&s);
-      rect[0].l = poly.c.x - poly.h/2.; rect[0].h = poly.c.x + poly.h/2.; 
-      rect[1].l = poly.c.y - poly.h/2.; rect[1].h = poly.c.y + poly.h/2.; 
-      for (i = 0; i < poly.rs->nrs; i++)
-	r_surface_query_region_sum (poly.rs->rs[i],
-				    (RSurfaceCheck) polygon_includes,
-				    (RSurfaceCheck) polygon_intersects, &poly, 
-				    rect, &s);
-      if (s.n > 0)
-	GFS_VALUE (child.c[n], v) = s.H0/s.n/sim->physical_params.L;
-      else {
-	GFS_VALUE (child.c[n], v) = GFS_VALUE (parent, v);
-	if (!GFS_CELL_IS_BOUNDARY (parent)) {
-	  FttVector p;
-	  FttComponent c;
-	  
-	  ftt_cell_relative_pos (child.c[n], &p);
-	  for (c = 0; c < FTT_DIMENSION; c++)
-	    GFS_VALUE (child.c[n], v) += (&p.x)[c]*gfs_center_minmod_gradient (parent, c, v->i);
-	}
-      }
-    }
-
-  /* If we are part of GfsRiver, reconstruct H and P */
-  if (t->H) {
-    /* Reconstruct H */
-    if (GFS_VALUE (parent, t->p) < GFS_RIVER_DRY) {
-      /* Dry cell */
-      FttCellNeighbors neighbor;
-      ftt_cell_neighbors (parent, &neighbor);
-      FttDirection d;
-      gdouble H = 0., s = 0.;
-      for (d = 0; d < FTT_NEIGHBORS; d++)
-	if (neighbor.c[d] && GFS_VALUE (neighbor.c[d], t->p) >= GFS_RIVER_DRY) {
-	  H += GFS_VALUE (neighbor.c[d], t->H);
-	  s += 1.;
-	}
-      if (s > 0.) {
-	H /= s; /* average H of neighbouring wet cells */
-	for (n = 0; n < FTT_CELLS; n++)
-	  if (child.c[n])
-	    GFS_VALUE (child.c[n], t->H) = H;
-      }
-      else { /* surrounded by dry cells */
-	for (n = 0; n < FTT_CELLS; n++)
-	  if (child.c[n])
-	    GFS_VALUE (child.c[n], t->H) = GFS_VALUE (child.c[n], v); /* dry cell */
-      }
-    }
-    else {
-      /* wet cell */
-      GfsVariable * v = t->H;
-      for (n = 0; n < FTT_CELLS; n++)
-	if (child.c[n])
-	  GFS_VALUE (child.c[n], v) = GFS_VALUE (parent, v);
-      
-      if (!GFS_CELL_IS_BOUNDARY (parent)) {
-	FttVector g;
-	FttComponent c;
-	FttCellNeighbors neighbor;
-	ftt_cell_neighbors (parent, &neighbor);
-
-	for (c = 0; c < FTT_DIMENSION; c++)
-	  if (neighbor.c[2*c] && GFS_VALUE (neighbor.c[2*c], t->p) >= GFS_RIVER_DRY &&
-	      neighbor.c[2*c + 1] && GFS_VALUE (neighbor.c[2*c + 1], t->p) >= GFS_RIVER_DRY)
-	    (&g.x)[c] = gfs_center_minmod_gradient (parent, c, v->i);
-	  else
-	    (&g.x)[c] = 0.;
-	
-	for (n = 0; n < FTT_CELLS; n++) 
-	  if (child.c[n]) {
-	    FttVector p;
-	    
-	    ftt_cell_relative_pos (child.c[n], &p);
-	    for (c = 0; c < FTT_DIMENSION; c++)
-	      GFS_VALUE (child.c[n], v) += (&p.x)[c]*(&g.x)[c];
-	  }
-      }
-    }
-    /* Deduce P from the reconstruction of Zb and H */
-    for (n = 0; n < FTT_CELLS; n++)
-      if (child.c[n]) {
-	GFS_VALUE (child.c[n], t->p) = MAX (0., (GFS_VALUE (child.c[n], t->H) - 
-						 GFS_VALUE (child.c[n], v)));
-	GFS_VALUE (child.c[n], t->H) = GFS_VALUE (child.c[n], t->p) + GFS_VALUE (child.c[n], v);
-      }
-  }
-}
-
-static void variable_terrain_fine_coarse (FttCell * parent, GfsVariable * v)
-{
-  FttCellChildren child;
-  guint n;
-
-  /* Reconstruct terrain (weighted average) */
-  gdouble Zb = 0., sa = 0.;
-  ftt_cell_children (parent, &child);
-  for (n = 0; n < FTT_CELLS; n++) 
-    if (child.c[n]) {
-      gdouble a = GFS_IS_MIXED (child.c[n]) ? GFS_STATE (child.c[n])->solid->a : 1.;
-      Zb += GFS_VALUE (child.c[n], v)*a;
-      sa += a;
-    }
-  if (sa > 0.)
-    GFS_VALUE (parent, v) = Zb/sa;
-
-  /* If we are part of GfsRiver, reconstruct H and P */
-  GfsVariableTerrain * t = GFS_VARIABLE_TERRAIN (v);
-  if (t->H) {
-    /* Reconstruct H */
-    gdouble H = 0., sa = 0.;
-    for (n = 0; n < FTT_CELLS; n++) 
-      if (child.c[n] && GFS_VALUE (child.c[n], t->p) >= GFS_RIVER_DRY) {
-	gdouble a = GFS_IS_MIXED (child.c[n]) ? GFS_STATE (child.c[n])->solid->a : 1.;
-	H += GFS_VALUE (child.c[n], t->H)*a;
-	sa += a;
-      }
-    if (sa > 0.) {
-      GFS_VALUE (parent, t->H) = H/sa;
-      GFS_VALUE (parent, t->p) = MAX (0., GFS_VALUE (parent, t->H) - GFS_VALUE (parent, v));
-    }
-    else { /* dry cell */
-      GFS_VALUE (parent, t->p) = 0.;
-      GFS_VALUE (parent, t->H) = GFS_VALUE (parent, v);
-    }
-  }
-}
-
-static void variable_terrain_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_terrain_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsVariableTerrain * v = GFS_VARIABLE_TERRAIN (*o);
-  rsurfaces_read (&v->rs, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsVariable * v1 = GFS_VARIABLE1 (*o);
-  v1->units = 1.;
-  g_free (v1->description);
-  v1->description = g_strdup ("Terrain");
-  v1->coarse_fine = variable_terrain_coarse_fine;
-  v1->fine_coarse = variable_terrain_fine_coarse;
-
-  GfsSimulation * sim = gfs_object_simulation (*o);
-  if (GFS_IS_RIVER (sim) && fp->type == '{') {
-    gboolean reconstruct = FALSE;
-    GtsFileVariable var[] = {
-      {GTS_INT, "reconstruct", TRUE, &reconstruct},
-      {GTS_NONE}
-    };
-    gts_file_assign_variables (fp, var);
-    if (fp->type == GTS_ERROR)
-      return;
-    if (reconstruct) {
-      v->p = GFS_RIVER (sim)->v[0];
-      v->H = GFS_RIVER (sim)->H;
-      /* the coarse -> fine and fine -> coarse interpolations of p and H
-	 are taken over by variable_terrain_coarse_fine (below )*/
-      v->p->coarse_fine = none;
-      v->H->coarse_fine = none;
-      v->p->fine_coarse = none;
-      v->H->fine_coarse = none;
-    }
-  }
-}
-
-static void variable_terrain_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_terrain_class ())->parent_class->write) (o, fp);
-
-  rsurfaces_write (&GFS_VARIABLE_TERRAIN (o)->rs, fp);
-  if (GFS_VARIABLE_TERRAIN (o)->H)
-    fputs (" { reconstruct = 1 }", fp);
-}
-
-static void variable_terrain_class_init (GtsObjectClass * klass)
-{
-  klass->destroy = variable_terrain_destroy;
-  klass->read = variable_terrain_read;
-  klass->write = variable_terrain_write;
-}
-
-static void variable_terrain_init (GfsVariableTerrain * v)
-{
-  v->rs.basename = g_strdup ("*");
-}
-
-GfsVariableClass * gfs_variable_terrain_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_terrain_info = {
-      "GfsVariableTerrain",
-      sizeof (GfsVariableTerrain),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_terrain_class_init,
-      (GtsObjectInitFunc) variable_terrain_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_terrain_info);
-  }
-
-  return klass;
-}
-
-/* Initialize module */
-
-/* only define gfs_module_name for "official" modules (i.e. those installed in
-   GFS_MODULES_DIR) */
-const gchar gfs_module_name[] = "terrain";
-const gchar * g_module_check_init (void);
-
-const gchar * g_module_check_init (void)
-{
-  gchar * path = getenv ("GFS_TERRAIN_PATH");
-  if (path && path[0] != '\0')
-    default_path = path;
-  gfs_refine_terrain_class ();
-  gfs_terrain_class ();
-  gfs_variable_terrain_class ();
-  return NULL;
-}
diff --git a/modules/tide.mod b/modules/tide.mod
deleted file mode 100644
index 15d8ffa..0000000
--- a/modules/tide.mod
+++ /dev/null
@@ -1,406 +0,0 @@
-/* Gerris - The GNU Flow Solver                       (-*-C-*-)
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#define _XOPEN_SOURCE /* glibc2 needs this for strptime() */
-#include <string.h>
-#include <errno.h>
-#include <time.h>
-#include <stdlib.h>
-#include "fes2004/fes2004_lib.h"
-#include "gfsconfig.h"
-#include "variable.h"
-
-/* Heavily based on GfsBcFlather */
-
-static gchar * reference = "1950/01/01-00:00:00-UTC";
-static gdouble deltat = 0.;
-
-/* GfsBcTide: Header */
-
-typedef struct _GfsBcTide         GfsBcTide;
-
-struct _GfsBcTide {
-  /*< private >*/
-  GfsBcValue parent;
-  gdouble ** amplitude, ** phase, x, size;
-
-  /*< public >*/
-  GfsVariable * h, * p;
-};
-
-#define GFS_BC_TIDE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsBcTide,\
-					         gfs_bc_tide_class ())
-#define GFS_IS_BC_TIDE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_bc_tide_class ()))
-
-GfsBcClass * gfs_bc_tide_class  (void);
-
-/* GfsBcTide: Object */
-
-#define N  64 /* number of discretisation points */
-
-#define NM 14 /* number of tidal modes (must match those of FES2004) */
-
-static void bc_tide_write (GtsObject * o, FILE * fp)
-{
-  GfsBcTide * bc = GFS_BC_TIDE (o);
-  guint i, j;
-
-  (* GTS_OBJECT_CLASS (gfs_bc_tide_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " %s %s {\n", bc->h->name, bc->p->name);
-  for (i = 0; i < N; i++) {
-    for (j = 0; j < NM; j++)
-      fprintf (fp, "  %g %g\n", bc->amplitude[j][i], bc->phase[j][i]);
-  }
-  fputc ('}', fp);
-}
-
-static void set_gradient_boundary (FttCell * cell)
-{
-  cell->flags |= GFS_FLAG_GRADIENT_BOUNDARY;
-}
-
-static void bc_tide_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBcTide * bc = GFS_BC_TIDE (*o);
-  GfsDomain * domain = gfs_box_domain (GFS_BC (bc)->b->box);
-
-  (* GTS_OBJECT_CLASS (gfs_bc_tide_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsBoundary * b = GFS_BC (bc)->b;
-  if (b->d > FTT_BOTTOM) {
-    gts_file_error (fp, "GfsBcTide cannot be used for 3D boundaries");
-    return;
-  }
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (h)");
-    return;
-  }
-  bc->h = gfs_variable_from_name (domain->variables, fp->token->str);
-  if (bc->h == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (p)");
-    return;
-  }
-  bc->p = gfs_variable_from_name (domain->variables, fp->token->str);
-  if (bc->p == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  ftt_cell_traverse (b->root, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-		     (FttCellTraverseFunc) set_gradient_boundary, NULL);
-
-  guint i;  
-  gpointer tmp = g_malloc0 (N*NM*sizeof (double));
-  bc->amplitude = g_malloc (N*sizeof (double *));
-  for (i = 0; i < N; i++)
-    bc->amplitude[i] = tmp + i*NM*sizeof (double);
-  tmp = g_malloc0 (N*NM*sizeof (double));
-  bc->phase = g_malloc (N*sizeof (double *));
-  for (i = 0; i < N; i++)
-    bc->phase[i] = tmp + i*NM*sizeof (double);
-
-  FttCellFace face;
-  face.cell = b->root;
-  face.d = b->d;
-  FttVector p;
-  ftt_face_pos (&face, &p);
-  FttComponent c = face.d < FTT_TOP ? FTT_Y : FTT_X;
-  bc->size = ftt_cell_size (b->root);
-  (&p.x)[c] -= bc->size/2.;
-  bc->x = (&p.x)[c];
-
-  if (fp->type == '{') {
-    /* read embedded coefficients */
-    guint j;
-    fp->scope_max++;
-    gts_file_next_token (fp);
-    for (i = 0; i < N; i++) {
-      for (j = 0; j < NM; j++) {
-	while (fp->type == '\n') gts_file_next_token (fp);
-	if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-	  gts_file_error (fp, "expecting a number (amplitude[%d][%d])", j, i);
-	  return;
-	}
-	bc->amplitude[j][i] = atof (fp->token->str);
-	gts_file_next_token (fp);
-	if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-	  gts_file_error (fp, "expecting a number (phase[%d][%d])", j, i);
-	  return;
-	}
-	bc->phase[j][i] = atof (fp->token->str);
-	gts_file_next_token (fp);
-      }
-    }
-    while (fp->type == '\n') gts_file_next_token (fp);
-    if (fp->type != '}') {
-      gts_file_error (fp, "expecting a closing brace");
-      return;
-    }
-    fp->scope_max--;
-    gts_file_next_token (fp);
-  }
-  else {
-    /* extract FES2004 tidal coefficients */
-    gchar * fname = getenv ("GFS_FES2004") ?
-      g_strdup (getenv ("GFS_FES2004"))
-      :
-      g_strjoin ("/", GFS_MODULES_DIR, "tide.fes2004.nc", NULL);
-    FILE * f = fopen (fname, "r");
-    if (f == NULL) {
-      gts_file_error (fp, "cannot open file `%s': %s", fname, strerror (errno));
-      g_free (fname);
-      return;
-    }
-    fclose (f);
-
-    double * lon = g_malloc (N*sizeof (double));
-    double * lat = g_malloc (N*sizeof (double));
-    gdouble dh = bc->size/(N - 1);
-    for (i = 0; i < N; i++, (&p.x)[c] += dh) {
-      FttVector mp = p;
-      gfs_simulation_map_inverse (GFS_SIMULATION (gfs_box_domain (b->box)), &mp);
-      lon[i] = mp.x; lat[i] = mp.y;
-    }
-
-    fes2004_extraction (fname, N, lat, lon, bc->amplitude, bc->phase, 1);
-
-    g_free (fname);
-    g_free (lon);
-    g_free (lat);
-  }
-}
-
-static void bc_tide_destroy (GtsObject * o)
-{
-  GfsBcTide * bc = GFS_BC_TIDE (o);
-
-  if (bc->amplitude) {
-    g_free (bc->amplitude[0]);
-    g_free (bc->amplitude);
-  }
-  if (bc->phase) {
-    g_free (bc->phase[0]);
-    g_free (bc->phase);
-  }
-    
-  (* GTS_OBJECT_CLASS (gfs_bc_tide_class ())->parent_class->destroy) (o);
-}
-
-static tidal_wave wave[NM];
-
-static gdouble amplitude_value (FttCellFace * face, GfsBcTide * bc, gdouble t)
-{
-  FttComponent c = face->d < FTT_TOP ? FTT_Y : FTT_X;
-  FttVector p;
-  ftt_face_pos (face, &p);
-  guint i = floor (((&p.x)[c] - bc->x)/bc->size*(N - 1));
-  g_assert (i < N - 1);
-  if (bc->amplitude[i][2] < 0. && bc->amplitude[i+1][2] < 0.)
-    return G_MAXDOUBLE;
-
-  gdouble dh = bc->size/(N - 1);
-  gdouble a = ((&p.x)[c] - bc->x - dh*i)/dh;
-  if (bc->amplitude[i][2] < 0.)
-    a = 1.;
-  if (bc->amplitude[i+1][2] < 0.)
-    a = 0.;
-
-  gdouble prediction = 0.;
-  guint j;
-  for (j = 0; j < NM; j++) {
-    fcomplex Z1, Z2, Z;
-    Z1.reel = bc->amplitude[i][j]*cos (- bc->phase[i][j]*M_PI/180.);
-    Z1.imag = bc->amplitude[i][j]*sin (- bc->phase[i][j]*M_PI/180.);
-    Z2.reel = bc->amplitude[i+1][j]*cos (- bc->phase[i+1][j]*M_PI/180.);
-    Z2.imag = bc->amplitude[i+1][j]*sin (- bc->phase[i+1][j]*M_PI/180.);
-    Z.reel = (1. - a)*Z1.reel + a*Z2.reel;
-    Z.imag = (1. - a)*Z1.imag + a*Z2.imag;
-    prediction += Tide_prediction (t, wave[j], Z, 0, 0);
-  }
-  return prediction;
-}
-
-static gdouble tide_value (FttCellFace * f, GfsBc * b)
-{
-  /* fixme: this will not work for multilayer domains */
-  guint d, nb = 0;
-  FttCellNeighbors n;
-  gdouble H;
-
-  ftt_cell_neighbors (f->neighbor, &n);
-  for (d = 0; d < FTT_NEIGHBORS_2D; d++)
-    if (n.c[d] != NULL && GFS_CELL_IS_BOUNDARY(n.c[d]) && nb++ > 0)
-      /* if the boundary cell is bounded by more than one boundary -> no flux */
-      return 0.;
-
-  H = gfs_face_interpolated_value (f, GFS_BC_TIDE (b)->h->i);
-  if (H > 2e-3) { /* fixme: 2e-3 is an arbitrary constant which should be a parameter or sthg*/
-    GfsSimulation * sim = GFS_SIMULATION (gfs_box_domain (b->b->box));
-    gdouble a = amplitude_value (f, GFS_BC_TIDE (b), sim->time.t + deltat);
-    if (a < G_MAXDOUBLE) {
-      gdouble cg = sqrt (sim->physical_params.g*H);
-      
-      a *= sim->physical_params.g/5000.; /* fixme: reference depth is fixed at 5000 meters */
-      return gfs_function_face_value (GFS_BC_VALUE (b)->val, f) +
-	(FTT_FACE_DIRECT (f) ? -1. : 1.)*
-	(GFS_VARIABLE (f->neighbor, GFS_BC_TIDE (b)->p->i) - a)*
-	cg/sim->physical_params.g
-#if !FTT_2D
-	/H
-#endif
-	;
-    }
-  }
-  return 0.;
-}
-
-static void tide (FttCellFace * f, GfsBc * b)
-{
-  g_assert (GFS_CELL_IS_GRADIENT_BOUNDARY (f->cell));
-  g_assert (ftt_cell_neighbor (f->cell, f->d) == f->neighbor);
-  GFS_VARIABLE (f->cell, b->v->i) = 2.*tide_value (f, b) - GFS_VARIABLE (f->neighbor, b->v->i);
-}
-
-static void homogeneous_tide (FttCellFace * f, GfsBc * b)
-{
-  g_assert (GFS_CELL_IS_GRADIENT_BOUNDARY (f->cell));
-  GFS_VARIABLE (f->cell, b->v->i) = - GFS_VARIABLE (f->neighbor, b->v->i);
-}
-
-static void face_tide (FttCellFace * f, GfsBc * b)
-{
-  g_assert (GFS_CELL_IS_GRADIENT_BOUNDARY (f->cell));
-  GFS_STATE (f->cell)->f[f->d].v = tide_value (f, b);
-}
-
-static void gfs_bc_tide_class_init (GtsObjectClass * klass)
-{
-  klass->write   = bc_tide_write;
-  klass->read    = bc_tide_read;
-  klass->destroy = bc_tide_destroy;
-}
-
-static void gfs_bc_tide_init (GfsBc * bc)
-{
-  bc->bc =             (FttFaceTraverseFunc) tide;
-  bc->homogeneous_bc = (FttFaceTraverseFunc) homogeneous_tide;
-  bc->face_bc =        (FttFaceTraverseFunc) face_tide;
-}
-
-GfsBcClass * gfs_bc_tide_class (void)
-{
-  static GfsBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_bc_tide_info = {
-      "GfsBcTide",
-      sizeof (GfsBcTide),
-      sizeof (GfsBcClass),
-      (GtsObjectClassInitFunc) gfs_bc_tide_class_init,
-      (GtsObjectInitFunc) gfs_bc_tide_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_bc_value_class ()),
-				  &gfs_bc_tide_info);
-  }
-
-  return klass;
-}
-
-/* Initialize module */
-
-/* only define gfs_module_name for "official" modules (i.e. those installed in
-   GFS_MODULES_DIR) */
-const gchar gfs_module_name[] = "tide";
-const gchar * g_module_check_init (void);
-void          gfs_module_read     (GtsFile * fp);
-void          gfs_module_write    (FILE * fp);
-
-const gchar * g_module_check_init (void)
-{
-  wave[0] = w2N2;
-  wave[1] = wK1;
-  wave[2] = wK2;
-  wave[3] = wM2;
-  wave[4] = wM4;
-  wave[5] = wMf;
-  wave[6] = wMm;
-  wave[7] = wMSqm;
-  wave[8] = wMtm;
-  wave[9] = wN2;
-  wave[10] = wO1;
-  wave[11] = wP1;
-  wave[12] = wQ1;
-  wave[13] = wS2;
-  gfs_bc_tide_class ();
-  return NULL;
-}
-
-#define TIME_FORMAT "%Y/%m/%d-%T"
-
-void gfs_module_read (GtsFile * fp)
-{
-  g_return_if_fail (fp != NULL);
-  
-  if (fp->type == '{') {
-    GtsFileVariable var[] = {
-      {GTS_STRING, "reference",  TRUE},
-      {GTS_NONE}
-    };
-    var[0].data = &reference;
-    gts_file_assign_variables (fp, var);
-    if (fp->type == GTS_ERROR)
-      return;
-
-    if (var[0].set) {
-      struct tm timeref;
-      time_t tref, t0;
-      memset (&timeref, 0, sizeof(struct tm));
-      strptime ("1950/01/01-00:00:00-UTC", TIME_FORMAT, &timeref);
-      tref = mktime (&timeref);
-      memset (&timeref, 0, sizeof(struct tm));
-      if (!strptime (reference, TIME_FORMAT, &timeref)) {
-	gts_file_variable_error (fp, var, "reference", "error parsing date format");
-	return;
-      }
-      t0 = mktime (&timeref);
-      deltat = difftime (t0, tref)/3600.;
-    }
-  }
-}
-
-void gfs_module_write (FILE * fp)
-{
-  g_return_if_fail (fp != NULL);
- 
-  fprintf (fp, " { reference = %s }", reference);
-}
diff --git a/modules/wavewatch.mod b/modules/wavewatch.mod
deleted file mode 100644
index 7028c27..0000000
--- a/modules/wavewatch.mod
+++ /dev/null
@@ -1,321 +0,0 @@
-/* Gerris - The GNU Flow Solver                       (-*-C-*-)
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-#include <stdlib.h>
-#include <errno.h>
-#include <unistd.h>
-#include <sys/wait.h>
-#include "wave.h"
-#include "config.h"
-#if WW3_VERSION == 222
-#  include "wavewatch/wavewatch_222.h"
-#elif WW3_VERSION == 312
-#  include "wavewatch/wavewatch_312.h"
-#else /* 3.14 */
-#  include "wavewatch/wavewatch_314.h"
-#endif
-
-#define DEBUG 0
-
-static double frequency (int ik)
-{
-  return GFS_WAVE_F0*pow(GFS_WAVE_GAMMA, ik);
-}
-
-#if DEBUG      
-static double theta (guint ith, guint ntheta)
-{
-  return 2.*M_PI*ith/ntheta;
-}
-#endif
-
-typedef struct {
-  GfsWave * wave;
-  GfsVariable * ustar, * fpi, * u10, * v10, * as;
-  REAL * A;     /* Actions (NK*NTHETA) */
-  REAL * CG;    /* Group velocities (NK) */
-  REAL * WN;    /* Wavenumbers (NK) */
-  REAL * ALPHA; /* Nondimensional 1-D spectrum (NK) */  
-} SourceParams;
-
-static void energy_to_action (FttCell * cell, SourceParams * p)
-{
-  guint i, j;
-  REAL * A = p->A;
-  for (i = 0; i < p->wave->nk; i++)
-    for (j = 0; j < p->wave->ntheta; j++) {
-      *A = GFS_VALUE (cell, p->wave->F[i][j])*p->CG[i]/(2.*M_PI*frequency (i));
-      if (*A < 0.)
-        *A = 0.;
-      A++;
-    }
-}
-
-static void action_to_energy (FttCell * cell, SourceParams * p)
-{
-  guint i, j;
-  REAL * A = p->A;
-  for (i = 0; i < p->wave->nk; i++)
-    for (j = 0; j < p->wave->ntheta; j++) {
-      GFS_VALUE (cell, p->wave->F[i][j]) = *A*(2.*M_PI*frequency (i))/p->CG[i];
-      A++;
-    }
-}
-
-static void stability_correction (FttCell * cell, SourceParams * p, REAL * U10ABS, REAL * U10DIR)
-{
-  double u10 = p->u10 ? GFS_VALUE (cell, p->u10) : 0.;
-  double v10 = p->v10 ? GFS_VALUE (cell, p->v10) : 0.;
-  *U10ABS = sqrt (u10*u10 + v10*v10);
-  *U10DIR = atan2 (v10, u10);
-  if (p->as) {
-    /* see p.24 of wavewatch manual version 3.12 */
-    double shstab = 1.4, ofstab = -0.01, ccng = -0.1, ccps = 0.1, ffng = -150., ffps = 150.;
-    double zwind = 10.;  /* height at which the wind is defined */
-    double grav = 9.81; /* acceleration of gravity */
-    double stab0 = zwind*grav/273.;
-    double max = MAX (5., *U10ABS);
-    double stab = stab0*GFS_VALUE (cell, p->as)/(max*max);
-    stab = MAX (-1., MIN (1., stab));
-    double tharg1 = MAX (0., ffng*(stab - ofstab));
-    double tharg2 = MAX (0., ffps*(stab - ofstab));
-    double cor1 = ccng*tanh (tharg1);
-    double cor2 = ccps*tanh (tharg2);
-    double cor = sqrt ((1. + cor1 + cor2)/shstab);
-    *U10ABS /= cor;
-  }
-}
-
-static void source (FttCell * cell, SourceParams * p)
-{
-  energy_to_action (cell, p);
-
-  REAL DEPTH = 1000.; /* fixme: depth is fixed at 1000 m for now */
-  REAL U10ABS, U10DIR;
-
-  stability_correction (cell, p, &U10ABS, &U10DIR);
-
-  REAL USTAR = GFS_VALUE (cell, p->ustar);
-  REAL FPI = GFS_VALUE (cell, p->fpi);
-  REAL DTG = GFS_SIMULATION (p->wave)->advection_params.dt*3600.;
-
-  REAL EMEAN, FMEAN, WMEAN, AMAX;
-  REAL CD, Z0;
-  REAL DTDYN, FCUT;
-  
-#if WW3_VERSION == 222
-  REAL DTMIN = DTG/10., DTMAX = DTG;
-  W3SRCE (p->A, p->A, p->ALPHA, p->WN, p->CG, &DEPTH, 
-	  &U10ABS, &U10DIR, &USTAR,
-	  &EMEAN, &FMEAN, &WMEAN, &AMAX, 
-	  &FPI, &CD, &Z0, 
-	  &DTDYN, &FCUT, &DTG, &DTMIN, &DTMAX);
-#elif WW3_VERSION == 312
-  INTEGER IX, IY, IMOD = 1;
-  REAL USTDIR;
-  W3SRCE (&IX, &IY, &IMOD, p->A, p->ALPHA, p->WN, p->CG, &DEPTH, 
-	  &U10ABS, &U10DIR, &USTAR, &USTDIR,
-	  &EMEAN, &FMEAN, &WMEAN, &AMAX, 
-	  &FPI, &CD, &Z0, 
-	  &DTDYN, &FCUT, &DTG);
-#else /* 3.14 */
-  INTEGER IX, IY, IMOD = 1;
-  REAL AS = p->as ? GFS_VALUE (cell, p->as) : 0.;
-  REAL USTDIR;
-  REAL CX = 0., CY = 0.;
-  W3SRCE (&IX, &IY, &IMOD, p->A, p->ALPHA, p->WN, p->CG, &DEPTH, 
-	  &U10ABS, &U10DIR, &AS, &USTAR, &USTDIR,
-	  &CX, &CY,
-	  &EMEAN, &FMEAN, &WMEAN, &AMAX, 
-	  &FPI, &CD, &Z0, 
-	  &DTDYN, &FCUT, &DTG);
-#endif /* 3.14 */
-
-#if DEBUG
-  guint i, j;
-  for (i = 0; i < p->wave->nk; i++) {
-    for (j = 0; j < p->wave->ntheta; j++)      
-      fprintf (stderr, "%g %g %g\n", frequency (i), theta (j, p->wave->ntheta), 
-	       p->A[j + i*p->wave->ntheta]);
-    fprintf (stderr, "\n");
-  }
-#endif
-
-  action_to_energy (cell, p);
-  GFS_VALUE (cell, p->ustar) = USTAR;
-  GFS_VALUE (cell, p->fpi) = FPI;
-}
-
-static void deletedir (const char * name)
-{
-  gchar * command = g_strconcat ("rm -r -f ", name, NULL);
-  int status = system (command);
-  if (status)
-    g_warning ("could not cleanup wavewatch setup");
-  g_free (command);
-}
-
-static void initialize (GfsWave * wave)
-{
-  static gboolean initialized = FALSE;
-  if (!initialized) {
-
-    /* Creates temporary directory */
-    char template[] = "/tmp/gfswavewatch.XXXXXX", * tmp;
-    tmp = mkdtemp (template);
-    if (tmp == NULL) {
-      g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR, 
-	     "wavewatch module: could not create temporary directory\n"
-	     "%s\n", strerror (errno));
-      return;
-    }
-
-    /* Creates wavewatch ww3_grid.inp input file */
-    gchar * sinput = g_strconcat (tmp, "/ww3_grid.inp", NULL);
-    FILE * input = fopen (sinput, "w");
-    g_free (sinput);
-    if (input == NULL) {
-      g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR, 
-	     "wavewatch module: could not create input file\n"
-	     "%s\n", strerror (errno));
-      deletedir (tmp);
-      return;      
-    }
-    fprintf (input,
-	     "$\n"
-	     "      'Gerris wavewatch module'\n"
-	     "   %g  %g  %d  %d  0.\n"
-	     "   F F F F F T\n"
-	     "    900. 950. 900. 300.\n"
-	     "END OF NAMELISTS\n",
-	     GFS_WAVE_GAMMA, GFS_WAVE_F0, wave->nk, wave->ntheta);
-
-    /* Dummy wavewatch parameters */
-    static gchar constant_parameters[] =
-      "      3      3\n"
-      "      1000.     1000.     1.\n"
-      "     -1000.    -1000.     1.\n"
-      "     -0.1 2.50  10  -1000. 3 1 '(....)' 'NAME' 'bottom.inp'\n"
-      "  1 1 1\n"
-      "  1 1 1\n"
-      "  1 1 1\n"
-#if WW3_VERSION == 222
-      "      0   0   F\n"
-#else /* version 3.12 and 3.14 */
-      "   10 3 1 '(....)' 'PART' 'mapsta.inp'\n"
-      "      0   0   F\n"
-      "      0   0   F\n"
-      "      0   0\n"
-#endif /* version 3.12 and 3.14 */
-      "     0.    0.    0.    0.       0\n";
-    fputs (constant_parameters, input);
-    fclose (input);
-
-    /* Calls 'ww3_grid' of wavewatch to generate 'mod_def.w3'
-     * required to initialize wavewatch. */
-    char * wdir = getcwd (NULL, 0);
-    char * command = g_strconcat ("cd ",  tmp, " && "
-				  "test -f $HOME/.wwatch3.env && "
-				  "`grep WWATCH3_DIR $HOME/.wwatch3.env | "
-				  "awk '{print $2}'`/exe/ww3_grid > ", wdir, "/log_grid.ww3 && "
-				  "mv mod_def.ww3 ", wdir, " && "
-				  "rm -r -f ", tmp,
-				  NULL);
-    int status = system (command);
-    deletedir (tmp);
-    free (wdir);
-    g_free (command);
-    if (status == -1 || WEXITSTATUS (status) != 0) {
-      g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR, 
-	     "wavewatch module: error when running ww3_grid\nsee log_grid.ww3 for details");
-      return;
-    }
-
-    /* Initialize wavewatch */
-    GFSW3INIT ();
-
-    /* cleanup */
-    remove ("mod_def.ww3");
-    initialized = TRUE;
-  }
-}
-
-static void wavewatch_source (GfsWave * wave)
-{
-  GfsDomain * domain = GFS_DOMAIN (wave);
-  SourceParams p;
-
-  gfs_domain_timer_start (domain, "wavewatch_source");
-
-  initialize (wave);
-
-  p.wave = wave;
-  p.A = g_malloc (wave->nk*wave->ntheta*sizeof (REAL));
-  p.CG = g_malloc (wave->nk*sizeof (REAL));
-  p.WN = g_malloc (wave->nk*sizeof (REAL));
-  p.ALPHA = g_malloc (wave->nk*sizeof (REAL));
-  p.ustar = gfs_variable_from_name (domain->variables, "Ustar");
-  p.fpi = gfs_variable_from_name (domain->variables, "Fpi");
-  p.u10 = gfs_variable_from_name (domain->variables, "U10");
-  p.v10 = gfs_variable_from_name (domain->variables, "V10");
-  p.as = gfs_variable_from_name (domain->variables, "AS");
-
-  guint i;
-  for (i = 0; i < wave->nk; i++) {
-    REAL omega = 2.*M_PI*frequency (i);
-    p.WN[i] = omega*omega/9.81;
-    p.CG[i] = 9.81/omega/2.;
-  }
-
-  gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) source, &p);
-
-  g_free (p.A);
-  g_free (p.CG);
-  g_free (p.WN);
-  g_free (p.ALPHA);
-
-  gfs_domain_timer_stop (domain, "wavewatch_source");
-}
-
-/* Initialize module */
-
-/* only define gfs_module_name for "official" modules (i.e. those installed in
-   GFS_MODULES_DIR) */
-const gchar gfs_module_name[] = "wavewatch";
-const gchar * g_module_check_init (void);
-void          gfs_module_read     (GtsFile * fp, GfsSimulation * sim);
-
-const gchar * g_module_check_init (void)
-{
-  return NULL;
-}
-
-void gfs_module_read (GtsFile * fp, GfsSimulation * sim)
-{
-  g_return_if_fail (fp != NULL);
-  g_return_if_fail (sim != NULL);
-
-  if (!GFS_IS_WAVE (sim)) {
-    gts_file_error (fp, "wavewatch module can only be used with GfsWave");
-    return;
-  }
-
-  GFS_WAVE (sim)->source = wavewatch_source;
-  gfs_domain_get_or_add_variable (GFS_DOMAIN (sim), "Ustar", "Friction velocity");
-  gfs_domain_get_or_add_variable (GFS_DOMAIN (sim), "Fpi",   "Peak-input frequency");
-}
diff --git a/modules/wavewatch/Makefile.am b/modules/wavewatch/Makefile.am
deleted file mode 100644
index 7025b6d..0000000
--- a/modules/wavewatch/Makefile.am
+++ /dev/null
@@ -1,40 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-if BUILD_WAVEWATCH
-WAVEWATCH = libwavewatch.a
-CHECKTYPES = checktypes
-endif
-
-noinst_LIBRARIES = $(WAVEWATCH)
-noinst_PROGRAMS = $(CHECKTYPES)
-
-EXTRA_DIST = gfsad3 \
-	w3init222.ftn wavewatch_222.h \
-	wavewatch_312.h \
-	w3init314.ftn wavewatch_314.h \
-	fchecktypes.ftn
-
-checktypes_SOURCES = cchecktypes.c
-checktypes_LDADD = fchecktypes.o
-
-libwavewatch_a_SOURCES =
-
-CLEANFILES = cfortrantypes.h
-
-libwavewatch.a: w3initmd.o
-	rm -f libwavewatch.a
-	$(AR) cru libwavewatch.a `grep WWATCH3_DIR $(HOME)/.wwatch3.env | awk '{print $$2 "/obj/w3*.o"}'` w3initmd.o
-	$(RANLIB) libwavewatch.a
-
-w3initmd.o: $(W3INIT).ftn $(HOME)/.wwatch3.env gfsad3 cfortrantypes.h
-	sh gfsad3 $(W3INIT).ftn
-	mv -f $(W3INIT).o w3initmd.o
-
-fchecktypes.o: fchecktypes.ftn $(HOME)/.wwatch3.env gfsad3
-	sh gfsad3 fchecktypes.ftn
-
-cfortrantypes.h: checktypes
-	./checktypes > cfortrantypes.h
-
-w3init312.ftn: w3init314.ftn
-	cp -f w3init314.ftn w3init312.ftn
diff --git a/modules/wavewatch/cchecktypes.c b/modules/wavewatch/cchecktypes.c
deleted file mode 100644
index 642f3ab..0000000
--- a/modules/wavewatch/cchecktypes.c
+++ /dev/null
@@ -1,45 +0,0 @@
-/* Simple checks for compatibility of C and Fortran types */
-
-#include <stdio.h>
-
-extern void check_int_ (void * a, void * b, void * c);
-extern void check_float_ (void * a, void * b, void * c);
-
-int main (int argc, char * argv[])
-{
-  int ia, ib, ic;
-  long long lc, la, lb;
-  float fa, fb, fc;
-  double dc, da, db;
-
-  printf ("/* Automatically generated using 'checktypes' */\n");
-  ia = -123; ib = 875;
-  check_int_ (&ia, &ib, &ic);
-  if (ic == ia*ib)
-    printf ("typedef int INTEGER;\n");
-  else {
-    la = -123; lb = 875;
-    check_int_ (&la, &lb, &lc);
-    if (lc != la*lb) {
-      fprintf (stderr, "checktypes: could not find compatible C and Fortran integers\n");
-      return 1;
-    }
-    printf ("typedef long long INTEGER;\n");
-  }
-
-  fa = -123.; fb = 875.;
-  check_float_ (&fa, &fb, &fc);
-  if (fc == fa*fb)
-    printf ("typedef float REAL;\n");
-  else {
-    da = -123.; db = 875.;
-    check_float_ (&da, &db, &dc);
-    if (dc != da*db) {
-      fprintf (stderr, "checktypes: could not find compatible C and Fortran floats\n");
-      return 1;
-    }
-    printf ("typedef double REAL;\n");
-  }
-
-  return 0;
-}
diff --git a/modules/wavewatch/fchecktypes.ftn b/modules/wavewatch/fchecktypes.ftn
deleted file mode 100644
index 674f097..0000000
--- a/modules/wavewatch/fchecktypes.ftn
+++ /dev/null
@@ -1,9 +0,0 @@
-! Simple checks for compatibility of C and Fortran types
-SUBROUTINE CHECK_INT ( A, B, C )
-  INTEGER A, B, C
-  C = A*B
-END SUBROUTINE CHECK_INT
-SUBROUTINE CHECK_FLOAT ( A, B, C )
-  REAL A, B, C
-  C = A*B
-END SUBROUTINE CHECK_FLOAT
diff --git a/modules/wavewatch/gfsad3 b/modules/wavewatch/gfsad3
deleted file mode 100755
index 92e5060..0000000
--- a/modules/wavewatch/gfsad3
+++ /dev/null
@@ -1,52 +0,0 @@
-#!/bin/sh
-#
-# Uses WAVEWATCH III ad3 script to compile an ".ftn" fortran file
-#
-
-if [ "$#" -gt '3' ] || [ "$#" -lt 1 ]; then
-    echo "usage: gfsad3 file.ftn" 1>&2 ; exit 1
-fi
-
-if test -r $HOME/.wwatch3.env; then
-    main_dir=`awk '{if ($1 == "WWATCH3_DIR") print $2;}' < $HOME/.wwatch3.env`
-    tmp_dir=`awk '{if ($1 == "WWATCH3_TMP") print $2;}' < $HOME/.wwatch3.env`
-else
-    echo "gfsad3: Error: Wavewatch environment file '$HOME/.wwatch3.env' not found"
-    exit 1
-fi
-
-if test -f $main_dir/ftn/$1; then
-    echo "gfsad3: Error: file '$main_dir/ftn/$1' already exists"
-    exit 1
-fi
-
-if cp $1 $main_dir/ftn; then :
-else
-    echo "gfsad3: Error: could not copy $1 in '$main_dir/ftn/'"
-    exit 1
-fi
-
-PATH=$PATH:$main_dir/bin
-basename=`basename $1 .ftn`
-ad3 $basename
-rm -f $main_dir/ftn/$1
-
-if test -f $tmp_dir/w3adc.err; then
-    cat $tmp_dir/w3adc.err > /dev/stderr
-    exit 1
-fi
-
-if test -f $tmp_dir/$basename.l; then
-    if awk -v basename=$basename 'BEGIN{FS=":| "; i = 0;}{
-      if ($1 == basename ".f90") i = 1;
-      if (i == 1)
-        print $0;
-    }END{
-      exit (i == 0);
-    }' < $tmp_dir/$basename.l > $tmp_dir/$basename.l.error; then
-	cat $tmp_dir/$basename.l.error > /dev/stderr
-	exit 1
-    fi
-fi
-
-mv -f $main_dir/obj/$basename.o .
diff --git a/modules/wavewatch/switch b/modules/wavewatch/switch
deleted file mode 100644
index b6e6e91..0000000
--- a/modules/wavewatch/switch
+++ /dev/null
@@ -1 +0,0 @@
-F90 NOGRB LRB8 SHRD XYG IOS2 PR3 ST2 STAB2 NL1 BT1 WND1 RWND CUR1 LN1 O0 O1 O2 O2a O2b O3 O4 O5 O6 O7 FLX2 DB1 TR0 BS0 XX0 WNT1 WNX0 CRT1 CRX0
diff --git a/modules/wavewatch/w3init222.ftn b/modules/wavewatch/w3init222.ftn
deleted file mode 100644
index a399601..0000000
--- a/modules/wavewatch/w3init222.ftn
+++ /dev/null
@@ -1,22 +0,0 @@
-!/ ------------------------------------------------------------------- /
-!
-! Initialisation of Wavewatch III (version 2.22) when used with Gerris
-! (-*-F90-*-)
-!
-!/ ------------------------------------------------------------------- /
-MODULE GFSW3INIT
-  USE W3IOGRMD
-  USE W3TESTMD, ONLY : NAPROC, IAPROC, NAPOUT, NAPERR
-  IMPLICIT NONE
-  PUBLIC
-CONTAINS
-  SUBROUTINE GFSW3_INIT ( )
-    IMPLICIT NONE
-    NAPROC = 1
-    IAPROC = 1
-    NAPOUT = 1
-    NAPERR = 1
-    CALL W3IOGR ( 'READ', 30 )
-    RETURN
-  END SUBROUTINE GFSW3_INIT
-END MODULE GFSW3INIT
diff --git a/modules/wavewatch/w3init314.ftn b/modules/wavewatch/w3init314.ftn
deleted file mode 100644
index fad9529..0000000
--- a/modules/wavewatch/w3init314.ftn
+++ /dev/null
@@ -1,127 +0,0 @@
-!/ ------------------------------------------------------------------- /
-!
-! Initialisation of Wavewatch III (version 3.14) when used with Gerris
-! Adapted from ww3_shel.ftn, S. Popinet, 2009       (-*-F90-*-)
-!
-!/ ------------------------------------------------------------------- /
-      MODULE GFSW3INIT
-      USE W3GDATMD
-      USE W3WDATMD, ONLY: TIME, W3NDAT, W3DIMW, W3SETW
-      USE W3ADATMD, ONLY: W3NAUX, W3DIMA, W3SETA
-      USE W3IDATMD
-      USE W3ODATMD, ONLY: W3NOUT, W3SETO
-      USE W3ODATMD, ONLY: NAPROC, IAPROC, NAPOUT, NAPERR,             &
-                          NOGRD, IDOUT, FNMPRE, IOSTYP
-!/
-      USE W3INITMD
-!/
-      IMPLICIT NONE
-!
-!/ ------------------------------------------------------------------- /
-!/ Local parameters
-!/
-      INTEGER             :: NDSO, NDSE, NDST,     &
-                             NDS(13), NTRACE(2),      &
-                             ODAT(30),       &
-                             MPI_COMM = -99, &
-                             IPRT(6)
-      REAL, ALLOCATABLE   :: X(:), Y(:)
-      LOGICAL             :: FLGRD(NOGRD), PRTFRM
-      CHARACTER(LEN=10),                                              &
-              ALLOCATABLE :: PNAMES(:)
-!/
-!/ ------------------------------------------------------------------- /
-!/
-      PUBLIC
-CONTAINS
-      SUBROUTINE GFSW3_INIT ( )
-      IMPLICIT NONE
-!
-!--- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
-! 0.  Set up data structures
-!
-      CALL W3NMOD ( 1, 6, 6 )
-      CALL W3NDAT (    6, 6 )
-      CALL W3NAUX (    6, 6 )
-      CALL W3NOUT (    6, 6 )
-      CALL W3NINP (    6, 6 )
-!
-      CALL W3SETG ( 1, 6, 6 )
-      CALL W3SETW ( 1, 6, 6 )
-      CALL W3SETA ( 1, 6, 6 )
-      CALL W3SETO ( 1, 6, 6 )
-      CALL W3SETI ( 1, 6, 6 )
-
-! Time is not set
-      TIME(1) = -1
-!
-!/SHRD      NAPROC = 1
-!/SHRD      IAPROC = 1
-!
-!/MPI      IAPROC = IAPROC + 1
-!
-!/NCO/!     IF ( IAPROC .EQ. 1 ) CALL W3TAGB                         &
-!/NCO/!                         ('WAVEFCST',1998,0007,0050,'NP21   ')
-!
-!--- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
-! 1.  IO set-up
-! 1.a For shell
-!
-      NDSO   =  20
-      NDSE   =  20
-      NDST   =  20
-!
-!/NCO/!
-!/NCO/! Redo according to NCO standard and docblock
-!/NCO/!
-!/NCO      NDSO   =  6
-!/NCO      NDSE   = NDSO
-!/NCO      NDST   = NDSO
-!
-      NAPOUT = 1
-      NAPERR = 1
-!
-! 1.b For WAVEWATCH-III (See W3INIT)
-!
-      NDS( 1) = 20
-      NDS( 2) = 20
-      NDS( 3) = 20
-      NDS( 4) = 20
-      NDS( 5) = 30
-      NDS( 6) = 30
-      NDS( 7) = 31
-      NDS( 8) = 32
-      NDS( 9) = 33
-      NDS(10) = 35
-      NDS(11) = 22
-      NDS(12) = 23
-      NDS(13) = 34
-!
-      NTRACE(1) =  NDS(3)
-      NTRACE(2) =  10
-!
-!/NCO/!
-!/NCO/! Redo according to NCO standard and docblock
-!/NCO/!
-!/NCO      NDS( 1) = 51
-!/NCO      NDS( 2) = NDSO
-!/NCO      NDS( 3) = NDSO
-!/NCO      NDS( 4) = NDSO
-!/NCO      NDS( 5) = 20
-!/NCO      NDS( 6) = 21
-!/NCO      NDS( 7) = 52
-!/NCO      NDS( 8) = 53
-!/NCO      NDS( 9) = 22
-!/NCO      NDS(10) = 71
-!/NCO      NDS(11) = 23
-!/NCO      NDS(12) = 54
-!/NCO      NDS(13) = 55
-!/NCO      NTRACE(1) = NDSO
-!
-! 5.a Wave model
-!
-      CALL W3INIT ( 1, 'ww3', NDS, NTRACE, ODAT, FLGRD, 0, X, Y,   &
-                    PNAMES, IPRT, PRTFRM, -99 )
-      RETURN
-      END SUBROUTINE GFSW3_INIT
-    END MODULE GFSW3INIT
diff --git a/modules/wavewatch/wavewatch_222.h b/modules/wavewatch/wavewatch_222.h
deleted file mode 100644
index dce2d18..0000000
--- a/modules/wavewatch/wavewatch_222.h
+++ /dev/null
@@ -1,71 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "cfortrantypes.h"
-
-/**
- * Initialisation of wavewatch
- */
-extern void GFSW3INIT (void);
-
-/**
- * imported from w3srcemd.f90:W3SRCE
- * @SPEC: Spectrum (action) in 1-D form (NK*NTH elements): INPUT/OUTPUT
- * @SP2D: Spectrum (action) in 2-D form (NK*NTH elements): INPUT/OUTPUT
- * @ALPHA: Nondimensional 1-D spectrum (NK)                OUTPUT
- * @WN1: Discrete wavenumbers (NK)                         INPUT
- * @CG1: Discrete group velocities (NK)                    INPUT
- * @DEPTH: Depth                                           INPUT
- * @U10ABS: Wind speed at reference height                 INPUT
- * @U10DIR: Wind direction at reference height             INPUT
- * @USTAR: Friction velocity                               INPUT/OUTPUT
- * @EMEAN: Mean energy                                     OUTPUT (maybe model dependent?)
- * @FMEAN: Mean frequency                                  OUTPUT (maybe model dependent?)
- * @WMEAN: Mean wavenumber                                 OUTPUT (maybe model dependent?)
- * @AMAX: Maximum energy                                   OUTPUT
- * @FPI: Peak-input frequency                              INPUT/OUTPUT
- * @CD: Drag coefficient                                   OUTPUT (maybe model dependent?)
- * @Z0: Roughness length                                   OUTPUT (maybe model dependent?)
- * @DTDYN: Average dynamic time step                       OUTPUT
- * @FCUT: Cut-off frequency for tail                       OUTPUT
- * @DTG: Global time step                                  INPUT
- * @DTMIN: Minimum (partial) time step                     INPUT
- * @DTMAX: Maximum (partial) time step                     INPUT
- */
-extern void W3SRCE (REAL * SPEC,
-		    REAL * SP2D,
-		    REAL * ALPHA,
-		    REAL * WN1, 
-		    REAL * CG1, 
-		    REAL * DEPTH, 
-		    REAL * U10ABS, 
-		    REAL * U10DIR, 
-		    REAL * USTAR,
-		    REAL * EMEAN,
-		    REAL * FMEAN,
-		    REAL * WMEAN,
-		    REAL * AMAX,
-		    REAL * FPI,
-		    REAL * CD,
-		    REAL * Z0,
-		    REAL * DTDYN,
-		    REAL * FCUT,
-		    REAL * DTG,
-		    REAL * DTMIN,
-		    REAL * DTMAX);
diff --git a/modules/wavewatch/wavewatch_312.h b/modules/wavewatch/wavewatch_312.h
deleted file mode 100644
index ec18efe..0000000
--- a/modules/wavewatch/wavewatch_312.h
+++ /dev/null
@@ -1,70 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "cfortrantypes.h"
-
-/**
- * Initialisation of wavewatch
- */
-extern void GFSW3INIT (void);
-
-/**
- * imported from w3srcemd.f90:W3SRCE
- * @IX, at IY: Discrete grid point counters (hopefully unused)
- * @IMOD: Model number (always 1)
- * @SPEC: Spectrum (action) in 1-D form (NK*NTH elements): INPUT/OUTPUT
- * @ALPHA: Nondimensional 1-D spectrum (NK)                OUTPUT
- * @WN1: Discrete wavenumbers (NK)                         INPUT
- * @CG1: Discrete group velocities (NK)                    INPUT
- * @DEPTH: Depth                                           INPUT
- * @U10ABS: Wind speed at reference height                 INPUT
- * @U10DIR: Wind direction at reference height             INPUT
- * @USTAR: Friction velocity                               INPUT/OUTPUT
- * @USTDIR: Friction velocity direction                    OUTPUT (maybe model dependent?)
- * @EMEAN: Mean energy                                     OUTPUT (maybe model dependent?)
- * @FMEAN: Mean frequency                                  OUTPUT (maybe model dependent?)
- * @WMEAN: Mean wavenumber                                 OUTPUT (maybe model dependent?)
- * @AMAX: Maximum energy                                   OUTPUT
- * @FPI: Peak-input frequency                              INPUT/OUTPUT
- * @CD: Drag coefficient                                   OUTPUT (maybe model dependent?)
- * @Z0: Roughness length                                   OUTPUT (maybe model dependent?)
- * @DTDYN: Average dynamic time step                       OUTPUT
- * @FCUT: Cut-off frequency for tail                       OUTPUT
- * @DTG: Global time step                                  INPUT
- */
-extern void W3SRCE (INTEGER * IX, INTEGER * IY, INTEGER * IMOD,
-		    REAL * SPEC,
-		    REAL * ALPHA,
-		    REAL * WN1, 
-		    REAL * CG1, 
-		    REAL * DEPTH, 
-		    REAL * U10ABS, 
-		    REAL * U10DIR, 
-		    REAL * USTAR,
-		    REAL * USTDIR,
-		    REAL * EMEAN,
-		    REAL * FMEAN,
-		    REAL * WMEAN,
-		    REAL * AMAX,
-		    REAL * FPI,
-		    REAL * CD,
-		    REAL * Z0,
-		    REAL * DTDYN,
-		    REAL * FCUT,
-		    REAL * DTG);
diff --git a/modules/wavewatch/wavewatch_314.h b/modules/wavewatch/wavewatch_314.h
deleted file mode 100644
index a60f136..0000000
--- a/modules/wavewatch/wavewatch_314.h
+++ /dev/null
@@ -1,73 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "cfortrantypes.h"
-
-/**
- * Initialisation of wavewatch
- */
-extern void GFSW3INIT (void);
-
-/**
- * imported from w3srcemd.f90:W3SRCE
- * @IX, at IY: Discrete grid point counters (hopefully unused)
- * @IMOD: Model number (always 1)
- * @SPEC: Spectrum (action) in 1-D form (NK*NTH elements): INPUT/OUTPUT
- * @ALPHA: Nondimensional 1-D spectrum (NK)                OUTPUT
- * @WN1: Discrete wavenumbers (NK)                         INPUT
- * @CG1: Discrete group velocities (NK)                    INPUT
- * @DEPTH: Depth                                           INPUT
- * @U10ABS: Wind speed at reference height                 INPUT
- * @U10DIR: Wind direction at reference height             INPUT
- * @USTAR: Friction velocity                               INPUT/OUTPUT
- * @USTDIR: Friction velocity direction                    OUTPUT (maybe model dependent?)
- * @EMEAN: Mean energy                                     OUTPUT (maybe model dependent?)
- * @FMEAN: Mean frequency                                  OUTPUT (maybe model dependent?)
- * @WMEAN: Mean wavenumber                                 OUTPUT (maybe model dependent?)
- * @AMAX: Maximum energy                                   OUTPUT
- * @FPI: Peak-input frequency                              INPUT/OUTPUT
- * @CD: Drag coefficient                                   OUTPUT (maybe model dependent?)
- * @Z0: Roughness length                                   OUTPUT (maybe model dependent?)
- * @DTDYN: Average dynamic time step                       OUTPUT
- * @FCUT: Cut-off frequency for tail                       OUTPUT
- * @DTG: Global time step                                  INPUT
- */
-extern void W3SRCE (INTEGER * IX, INTEGER * IY, INTEGER * IMOD,
-		    REAL * SPEC,
-		    REAL * ALPHA,
-		    REAL * WN1, 
-		    REAL * CG1, 
-		    REAL * DEPTH, 
-		    REAL * U10ABS, 
-		    REAL * U10DIR, 
-		    REAL * AS,
-		    REAL * USTAR,
-		    REAL * USTDIR,
-		    REAL * CX,
-		    REAL * CY,
-		    REAL * EMEAN,
-		    REAL * FMEAN,
-		    REAL * WMEAN,
-		    REAL * AMAX,
-		    REAL * FPI,
-		    REAL * CD,
-		    REAL * Z0,
-		    REAL * DTDYN,
-		    REAL * FCUT,
-		    REAL * DTG);
diff --git a/modules/xyz2rsurface.c b/modules/xyz2rsurface.c
deleted file mode 100644
index 7c1185e..0000000
--- a/modules/xyz2rsurface.c
+++ /dev/null
@@ -1,111 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdio.h>
-#include <stdlib.h>
-
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-
-#include "ftt.h"
-#include "rsurface.h"
-
-int main (int argc, char** argv)
-{
-  int c = 0, pagesize = 2048;
-  int verbose = 0;
-
-  /* parse options using getopt */
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-      {"pagesize", required_argument, NULL, 'p'},
-      {"verbose", no_argument, NULL, 'v'},
-      {"help", no_argument, NULL, 'h'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, "p:vh",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, "p:vh"))) {
-#endif /* not HAVE_GETOPT_LONG */
-    case 'p': /* pagesize */
-      pagesize = atoi (optarg);
-      break;
-    case 'v': /* verbose */
-      verbose = 1;
-      break;
-    case 'h': /* help */
-      fprintf (stderr,
-	       "Usage: xyz2rsurface [OPTION] BASENAME\n"
-	       "\n"
-	       "Converts the x, y and z coordinates on standard input to an\n"
-	       "R*-tree-indexed database suitable for use with the\n"
-	       "GfsRefineTerrain object of Gerris.\n"
-	       "\n"
-	       "  -p N  --pagesize=N  sets the pagesize in bytes (default is 2048)\n"
-	       "  -v    --verbose     display progress bar\n"
-	       "  -h    --help        display this help and exit\n"
-	       "\n"
-	       "Report bugs to %s\n",
-	       FTT_MAINTAINER);
-      return 0; /* success */
-      break;
-    case '?': /* wrong options */
-      fprintf (stderr, "Try `xyz2rsurface --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-
-  if (optind >= argc) { /* missing BASENAME */
-    fprintf (stderr, 
-	     "xyz2rsurface: missing BASENAME\n"
-	     "Try `xyz2rsurface --help' for more information.\n");
-    return 1; /* failure */
-  }
-
-  RSurface * rs = r_surface_open (argv[optind], "w", pagesize);
-  if (rs == NULL) {
-    fprintf (stderr, "xyz2rsurface: cannot open files `%s*'\n", argv[optind]);
-    return 1;
-  }
-  double x[3];
-  int count = 0;
-  while (scanf ("%lf %lf %lf", &x[0], &x[1], &x[2]) == 3) {
-    if (!r_surface_insert (rs, x, 0)) {
-      fprintf (stderr, "\nxyz2rsurface: error inserting point #%d (%g,%g,%g)\n",
-	       count, x[0], x[1], x[2]);
-      return 1;
-    }
-    count++;
-    if (verbose && (count % 1000) == 0)
-      fprintf (stderr, "\rxyz2rsurface: %9d points inserted", count);
-  }
-  if (verbose) {
-    fprintf (stderr, "\rxyz2rsurface: %9d points inserted\n", count);
-    fprintf (stderr, "xyz2rsurface: updating...\n");
-  }
-  r_surface_update (rs);
-  r_surface_close (rs);
-
-  return 0.;
-}
diff --git a/rpm/gerris.spec b/rpm/gerris.spec
deleted file mode 100644
index a70afb4..0000000
--- a/rpm/gerris.spec
+++ /dev/null
@@ -1,205 +0,0 @@
-%define	alphatag %(date +%Y%m%d)
-%define current %(pkg-config gerris2D --modversion)
-%define gts_version %(pkg-config gts --modversion)
-
-Summary: The Gerris Flow Solver (development snapshot)
-Name: gerris
-%if "%{current}" == ""
-Version: 1.3.2
-%else
-Version: %{current}
-%endif
-Release: 9.%{alphatag}cvs%{?dist}
-License: GPLv2
-# SuSE should have this macro set. If doubt specify in ~/.rpmmacros
-%if 0%{?suse_version}
-Group: Productivity/Scientific/Other
-%endif
-# For Fedora you must specify fedora_version in your ~/.rpmmacros file
-%if 0%{?fedora_version}
-Group: Applications/Engineering
-%endif
-URL: http://gfs.sourceforge.net
-Packager: Ivan Adam Vari <i.vari at niwa.co.nz>
-Source0: %{name}-stable.tar.gz
-BuildRoot: %{_tmppath}/%{name}-%{version}-%{release}-root-%(%{__id_u} -n)
-%if 0%{?fedora_version}
-Requires: proj gsl netcdf
-BuildRequires: netcdf-devel proj-devel gcc-gfortran
-%endif
-%if 0%{?suse_version}
-Requires: libproj0 gsl libnetcdf-4
-BuildRequires: libnetcdf-devel libproj-devel gcc-fortran
-%endif
-# For both distros
-Requires: gts-snapshot-devel >= %{gts_version} pkgconfig gcc sed gawk m4
-BuildRequires: glibc-devel automake libtool gsl-devel gts-snapshot-devel >= %{gts_version}
-
-
-%description
-Gerris is an Open Source Free Software library for the solution of the 
-partial differential equations describing fluid flow.
-
-Gerris is supported by NIWA (National Institute of Water and Atmospheric
-research) and by the Marsden Fund of the Royal Society of New Zealand.
-
-A brief summary of its main (current) features:
-
-    * Quadtree-based (Octree in 3D) spatial discretisation with
-      automatic and dynamic refinement.
-    * Multigrid Poisson solver.
-    * Second-order Godunov type advection scheme.
-    * Solves the time-dependent incompressible Euler, Stokes ans Navier-Stokes
-      equations.
-    * Support for complex solid boundaries (automatic locally-refined
-      mesh generation).
-      
-See http://gfs.sf.net for more information and documentation.
-
-
-%prep
-%setup -q -n %{name}-stable
-
-
-%build
-RPM_OPT_FLAGS="$RPM_OPT_FLAGS -fPIC -DPIC"
-%if 0%{?suse_version}
-if [ -x ./configure ]; then
-    CFLAGS="$RPM_OPT_FLAGS" ./configure \
-	--prefix=%{_prefix} \
-	--libdir=%{_prefix}/%_lib \
-	--mandir=%{_mandir} \
-	--disable-mpi \
-	--disable-static
-else
-    CFLAGS="$RPM_OPT_FLAGS" sh autogen.sh \
-	--prefix=%{_prefix} \
-	--libdir=%{_prefix}/%_lib \
-	--mandir=%{_mandir} \
-	--disable-mpi \
-	--disable-static
-fi
-%endif
-%if 0%{?fedora_version}
-if [ -x ./configure ]; then
-    CFLAGS="$RPM_OPT_FLAGS" \
-    CPPFLAGS="-I%{_includedir}/netcdf-3" ./configure \
-	--prefix=%{_prefix} \
-	--libdir=%{_prefix}/%_lib \
-	--mandir=%{_mandir} \
-	--disable-mpi \
-	--disable-static
-else
-    CFLAGS="$RPM_OPT_FLAGS" \
-    CPPFLAGS="-I%{_includedir}/netcdf-3" sh autogen.sh \
-	--prefix=%{_prefix} \
-	--libdir=%{_prefix}/%_lib \
-	--mandir=%{_mandir} \
-	--disable-mpi \
-	--disable-static
-fi
-%endif
-
-%{__make}
-
-
-%install
-rm -rf $RPM_BUILD_ROOT
-mkdir $RPM_BUILD_ROOT
-make install DESTDIR=$RPM_BUILD_ROOT
-
-# Comply shared library policy
-find $RPM_BUILD_ROOT -name *.la -exec rm -f {} \;
-
-# Comply static build policy
-find $RPM_BUILD_ROOT -name *.a -exec rm -f {} \;
-
-
-%clean
-rm -rf $RPM_BUILD_ROOT
-
-
-%post
-/sbin/ldconfig
-touch --no-create %{_datadir}/icons/hicolor
-if [ -x %{_bindir}/gtk-update-icon-cache ]; then
- %{_bindir}/gtk-update-icon-cache --quiet %{_datadir}/icons/hicolor || :
-elif [ -x /opt/gnome/bin/gtk-update-icon-cache ]; then
- /opt/gnome/bin/gtk-update-icon-cache -t --quiet %{_datadir}/icons/hicolor || :
-fi
-update-mime-database %{_datadir}/mime &> /dev/null || :
-
-
-%postun
-/sbin/ldconfig
-touch --no-create %{_datadir}/icons/hicolor
-if [ -x %{_bindir}/gtk-update-icon-cache ]; then
- %{_bindir}/gtk-update-icon-cache --quiet %{_datadir}/icons/hicolor || :
-elif [ -x /opt/gnome/bin/gtk-update-icon-cache ]; then
- /opt/gnome/bin/gtk-update-icon-cache -t --quiet %{_datadir}/icons/hicolor || :
-fi
-update-mime-database %{_datadir}/mime &> /dev/null || :
-
-
-%files
-%defattr(-,root,root)
-%doc NEWS README TODO COPYING
-%{_bindir}/*
-%{_includedir}/*.h
-%dir %{_includedir}/gerris
-%{_includedir}/gerris/*.h
-%{_libdir}/*.so.*
-%{_libdir}/*.so
-%dir %{_libdir}/gerris
-%{_libdir}/gerris/*
-%{_libdir}/pkgconfig/*.pc
-%dir %{_datadir}/gerris
-%{_datadir}/gerris/gfs.lang
-%{_datadir}/gerris/gerris.dic
-%{_datadir}/mime/packages/*.xml
-%{_datadir}/icons/hicolor/48x48/mimetypes/*.png
-%{_mandir}/man1/*.gz
-
-
-%changelog
-* Thu Jan 29 2009 Ivan Adam Vari <i.vari at niwa.co.nz> - 9
-- Version change (1.3.1 -> 1.3.2) related minor fixes
-- Added fortran dependency
-
-* Wed Jul 16 2008 Ivan Adam Vari <i.vari at niwa.co.nz> - 8
-- Version change (1.2.0 -> 1.3.0) related minor fixes
-- Added macro for gts version specification
-  Some other changes found in debian packages
-
-* Thu Jul 3 2008 Ivan Adam Vari <i.vari at niwa.co.nz> - 7
-- Fixed typo in %files section (attr)
-- Added new file gfs.lang to %files section
-- Disabled MPI according to debian build rules
-
-* Thu May 15 2008 Ivan Adam Vari <i.vari at niwa.co.nz> - 6
-- Added fedora 8 support for x86 (32bit only)
-- Removed libtool config files to comply with shared
-  library policy
-- Removed static build bits to comply with shared
-  library policy
-- Fixed dependencies
-
-* Mon May 12 2008 Ivan Adam Vari <i.vari at niwa.co.nz> - 5
-- Added new package dependencies, minor fixes
-
-* Mon Jan 7 2008 Ivan Adam Vari <i.vari at niwa.co.nz> - 4
-- Removed %{?_smp_mflags} from make due to intermittent
-  build errors on some SMP systems
-
-* Mon Nov 12 2007 Ivan Adam Vari <i.vari at niwa.co.nz> - 3
-- Fixed package (install) dependencies
-
-* Mon Oct 1 2007 Ivan Adam Vari <i.vari at niwa.co.nz> - 2
-- Removed unnecessary version specifications for some
-  build requirements
-- Added SLEx/SuSE compatibilty
-- Added 64bit compatibility
-- Updated %post, %postun scriptlets
-
-* Tue May 1 2007 Ivan Adam Vari <i.vari at niwa.co.nz> - 1
-- Initial rpm release based on Fedora/Redhat Linux
diff --git a/src/Makefile.am b/src/Makefile.am
deleted file mode 100644
index d0ec605..0000000
--- a/src/Makefile.am
+++ /dev/null
@@ -1,159 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-AUTOMAKE_OPTIONS = 1.6
-
-AM_CPPFLAGS = -DGFS_MODULES_DIR=\"$(libdir)/gerris\"
-
-INCLUDES = -I$(top_srcdir) -I$(includedir) \
-           -DG_LOG_DOMAIN=\"Gfs\" $(GTS_CFLAGS)
-
-bin_SCRIPTS=gfs-config
-
-gfs-config: gfs-config.in
-gerris2D.pc: gerris2D.pc.in
-gerris2D3.pc: gerris2D3.pc.in
-gerris3D.pc: gerris3D.pc.in
-
-pkgconfigdir = $(libdir)/pkgconfig
-pkgconfig_DATA = gerris2D.pc gerris3D.pc gerris2D3.pc
-pkglib_DATA = m4.awk
-
-lib_LTLIBRARIES = libgfs2D.la libgfs3D.la libgfs2D3.la
-
-BUILT_SOURCES= \
-	gfs-config  \
-	gerris2D.pc \
-	gerris2D3.pc \
-	gerris3D.pc
-
-GFS_HDS = \
-	ftt.h \
-	fluid.h \
-	variable.h \
-	output.h \
-	solid.h \
-	poisson.h \
-	advection.h \
-	boundary.h \
-	mpi_boundary.h \
-	timestep.h \
-	domain.h \
-	init.h \
-	refine.h \
-	event.h \
-	simulation.h \
-	graphic.h \
-	adaptive.h \
-	source.h \
-	tension.h \
-	vof.h \
-	utils.h \
-	ocean.h \
-	wave.h \
-	levelset.h \
-	isocube.h \
-	cartesian.h \
-	surface.h \
-	unstructured.h \
-	map.h \
-	river.h \
-	moving.h \
-	balance.h \
-	metric.h \
-	version.h
-
-pkginclude_HEADERS = \
-	$(GFS_HDS) \
-	spatial.h \
-	function.h
-
-include_HEADERS = \
-	gfs.h \
-	gfsconfig.h
-
-SRC = \
-	ftt.c \
-	fluid.c \
-	variable.c \
-	output.c \
-	solid.c \
-	poisson.c \
-	advection.c \
-	boundary.c \
-	mpi_boundary.c \
-	timestep.c \
-	domain.c \
-	init.c \
-	refine.c \
-	event.c \
-	simulation.c \
-	graphic.c \
-	adaptive.c \
-	source.c \
-	tension.c \
-	vof.c \
-	utils.c \
-	ocean.c \
-	wave.c \
-	levelset.c \
-	myc.h \
-	myc2d.h \
-	cartesian.c \
-	surface.c \
-	unstructured.c \
-	map.c \
-	river.c \
-	moving.c \
-	balance.c \
-	metric.c \
-	$(GFS_HDS)
-
-domain.c: version.h
-
-libgfs3D_la_LDFLAGS = $(NO_UNDEFINED)\
-        -version-info $(LT_CURRENT):$(LT_REVISION):$(LT_AGE)\
-	-release $(LT_RELEASE) -export-dynamic
-libgfs3D_la_SOURCES = $(SRC)
-
-libgfs2D_la_LDFLAGS = $(NO_UNDEFINED)\
-        -version-info $(LT_CURRENT):$(LT_REVISION):$(LT_AGE)\
-	-release $(LT_RELEASE) -export-dynamic
-libgfs2D_la_SOURCES = $(SRC)
-libgfs2D_la_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-
-libgfs2D3_la_LDFLAGS = $(NO_UNDEFINED)\
-        -version-info $(LT_CURRENT):$(LT_REVISION):$(LT_AGE)\
-	-release $(LT_RELEASE) -export-dynamic
-libgfs2D3_la_SOURCES = $(SRC)
-libgfs2D3_la_CFLAGS = $(AM_CFLAGS) -DFTT_2D3=1
-
-CLEANFILES = $(BUILT_SOURCES)
-
-EXTRA_DIST = \
-	ftt_internal.c \
-	moving2.c \
-	m4.awk
-
-bin_PROGRAMS = gerris2D gerris3D gerris2D3
-
-gerris2D_SOURCES = gerris.c
-gerris2D_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-gerris2D_LDADD = $(GFS2D_LIBS)
-
-gerris3D_SOURCES = gerris.c
-gerris3D_LDADD = $(GFS3D_LIBS)
-
-gerris2D3_SOURCES = gerris.c
-gerris2D3_CFLAGS = $(AM_CFLAGS) -DFTT_2D3=1
-gerris2D3_LDADD = $(GFS2D3_LIBS)
-
-if DARCS_CONTROLLED
-DARCS_VERSION = darcsversion
-else
-DARCS_VERSION = 
-endif
-
-version.h: $(DARCS_VERSION)
-
-darcsversion:
-	sh darcsversion.sh
diff --git a/src/adaptive.c b/src/adaptive.c
deleted file mode 100644
index 839d592..0000000
--- a/src/adaptive.c
+++ /dev/null
@@ -1,1153 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <math.h>
-
-#include "adaptive.h"
-#include "solid.h"
-
-#include "graphic.h"
-
-/*#define DEBUG*/
-
-/**
- * gfs_cell_coarse_init:
- * @cell: a #FttCell.
- * @domain: a #GfsDomain containing @cell.
- *
- * Initialises the variables of @cell using the values of its children
- * cells.
- */
-void gfs_cell_coarse_init (FttCell * cell, GfsDomain * domain)
-{
-  GSList * i;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (!FTT_CELL_IS_LEAF (cell));
-  g_return_if_fail (domain != NULL);
-
-  i = domain->variables;
-  while (i) {
-    GfsVariable * v = i->data;
-
-    (* v->fine_coarse) (cell, v);
-    i = i->next;
-  }
-}
-
-/* GfsAdapt: Object */
-
-typedef struct {
-  GfsSimulation * sim;
-  guint nc;
-  GtsEHeap * hcoarse, * hfine;
-  gdouble clim;
-  GfsVariable * hcoarsev, * hfinev, * costv, * c;
-} AdaptParams;
-
-static void gfs_adapt_destroy (GtsObject * o)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_ADAPT (o)->minlevel));
-  gts_object_destroy (GTS_OBJECT (GFS_ADAPT (o)->maxlevel));
-
-  (* GTS_OBJECT_CLASS (gfs_adapt_class ())->parent_class->destroy) (o);
-}
-
-static void none (FttCell * cell, GfsVariable * v) {}
-
-static void gfs_adapt_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsAdapt * a = GFS_ADAPT (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_adapt_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_adapt_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a keyword");
-      return;
-    }
-    else if (!strcmp (fp->token->str, "minlevel")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      gfs_function_read (a->minlevel, gfs_object_simulation (*o), fp);
-    }
-    else if (!strcmp (fp->token->str, "maxlevel")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      gfs_function_read (a->maxlevel, gfs_object_simulation (*o), fp);
-    }
-    else if (!strcmp (fp->token->str, "mincells")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_INT) {
-	gts_file_error (fp, "expecting an integer (mincells)");
-	return;
-      }
-      a->mincells = atoi (fp->token->str);
-      gts_file_next_token (fp);
-    }
-    else if (!strcmp (fp->token->str, "maxcells")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_INT) {
-	gts_file_error (fp, "expecting an integer (maxcells)");
-	return;
-      }
-      a->maxcells = atoi (fp->token->str);
-      gts_file_next_token (fp);
-    }
-    else if (!strcmp (fp->token->str, "cmax")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      a->cmax = gfs_read_constant (fp, gfs_object_simulation (*o));
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-    else if (!strcmp (fp->token->str, "weight")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      a->weight = gfs_read_constant (fp, gfs_object_simulation (*o));
-      if (fp->type == GTS_ERROR)      
-	return;
-    }
-    else if (!strcmp (fp->token->str, "cfactor")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      a->cfactor = gfs_read_constant (fp, gfs_object_simulation (*o));
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-    else if (!strcmp (fp->token->str, "c")) {
-      GfsDomain * domain;
-
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_STRING) {
-	gts_file_error (fp, "expecting a variable name");
-	return;
-      }
-      domain = GFS_DOMAIN (gfs_object_simulation (*o));
-      a->c = gfs_domain_get_or_add_variable (domain, fp->token->str, "Adaptive refinement cost");
-      if (!a->c) {
-	gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-	return;
-      }
-      a->c->fine_coarse = none;
-      gts_file_next_token (fp);
-    }
-    else {
-      gts_file_error (fp, "unknown keyword `%s'", fp->token->str);
-      return;
-    }
-  }
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-}
-
-static void gfs_adapt_write (GtsObject * o, FILE * fp)
-{
-  GfsAdapt * a = GFS_ADAPT (o);
-
-  if (GTS_OBJECT_CLASS (gfs_adapt_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_adapt_class ())->parent_class->write) 
-      (o, fp);
-  fputs (" { minlevel =", fp);
-  gfs_function_write (a->minlevel, fp);
-  fputs (" maxlevel =", fp);
-  gfs_function_write (a->maxlevel, fp);
-  fputc (' ', fp);
-  if (a->mincells > 0)
-    fprintf (fp, "mincells = %u ", a->mincells);
-  if (a->maxcells < G_MAXINT)
-    fprintf (fp, "maxcells = %u ", a->maxcells);
-  if (a->cmax > 0.)
-    fprintf (fp, "cmax = %g ", a->cmax);
-  if (a->weight != 1.)
-    fprintf (fp, "weight = %g ", a->weight);
-  if (a->cfactor != 4.)
-    fprintf (fp, "cfactor = %g ", a->cfactor);
-  if (a->c != NULL)
-    fprintf (fp, "c = %s ", a->c->name);
-  fputc ('}', fp);
-}
-
-static gboolean gfs_adapt_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if (GFS_ADAPT (event)->cost == NULL) {
-    gts_object_destroy (GTS_OBJECT (event));
-    return FALSE;
-  }
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_adapt_class ())->parent_class)->event) 
-      (event, sim)) {
-    GFS_ADAPT (event)->active = TRUE;
-    return TRUE;
-  }
-  GFS_ADAPT (event)->active = FALSE;
-  return FALSE;
-}
-
-static void gfs_adapt_class_init (GfsEventClass * klass)
-{
-  klass->event = gfs_adapt_event;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_adapt_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_adapt_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_adapt_write;
-}
-
-static void gfs_adapt_init (GfsAdapt * object)
-{
-  object->active = FALSE;
-  object->minlevel = gfs_function_new (gfs_function_class (), 0);
-  object->maxlevel = gfs_function_new (gfs_function_class (), 5);
-  object->mincells = 0;
-  object->maxcells = G_MAXINT;
-  object->cmax = 0.;
-  object->weight = 1.;
-  object->cfactor = 4.;
-  object->c = NULL;
-}
-
-GfsEventClass * gfs_adapt_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_adapt_info = {
-      "GfsAdapt",
-      sizeof (GfsAdapt),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_adapt_class_init,
-      (GtsObjectInitFunc) gfs_adapt_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_adapt_info);
-  }
-
-  return klass;
-}
-
-/* GfsAdaptVorticity: Object */
-
-static gboolean gfs_adapt_vorticity_event (GfsEvent * event, 
-					   GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_adapt_vorticity_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsAdaptVorticity * a = GFS_ADAPT_VORTICITY (event);
-
-    a->u = gfs_domain_velocity (GFS_DOMAIN (sim));
-    a->maxa = gfs_domain_norm_velocity (GFS_DOMAIN (sim), FTT_TRAVERSE_LEAFS, -1).infty;
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_adapt_vorticity_class_init (GfsEventClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_adapt_vorticity_event;
-}
-
-static gdouble cost_vorticity (FttCell * cell, GfsAdaptVorticity * a)
-{
-  if (a->maxa <= 0.)
-    return 0.;
-  return fabs (gfs_vorticity (cell, a->u))*ftt_cell_size (cell)/a->maxa;
-}
-
-static void gfs_adapt_vorticity_init (GfsAdaptVorticity * object)
-{
-  GFS_ADAPT (object)->cost = (GtsKeyFunc) cost_vorticity;
-}
-
-GfsEventClass * gfs_adapt_vorticity_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_adapt_vorticity_info = {
-      "GfsAdaptVorticity",
-      sizeof (GfsAdaptVorticity),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_adapt_vorticity_class_init,
-      (GtsObjectInitFunc) gfs_adapt_vorticity_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_adapt_class ()),
-				  &gfs_adapt_vorticity_info);
-  }
-
-  return klass;
-}
-
-/* GfsAdaptStreamlineCurvature: Object */
-
-static void gfs_adapt_streamline_curvature_init (GfsAdapt * object)
-{
-  object->cost = (GtsKeyFunc) gfs_streamline_curvature;
-}
-
-GfsEventClass * gfs_adapt_streamline_curvature_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_adapt_streamline_curvature_info = {
-      "GfsAdaptStreamlineCurvature",
-      sizeof (GfsAdapt),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) gfs_adapt_streamline_curvature_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_adapt_class ()),
-				  &gfs_adapt_streamline_curvature_info);
-  }
-
-  return klass;
-}
-
-/* GfsAdaptFunction: Object */
-
-static void gfs_adapt_function_destroy (GtsObject * o)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_ADAPT_FUNCTION (o)->f));
-
-  (* GTS_OBJECT_CLASS (gfs_adapt_function_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_adapt_function_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_adapt_function_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  gfs_function_read (GFS_ADAPT_FUNCTION (*o)->f, gfs_object_simulation (*o), fp);
-}
-
-static void gfs_adapt_function_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_adapt_function_class ())->parent_class->write) (o, fp);
-  gfs_function_write (GFS_ADAPT_FUNCTION (o)->f, fp);
-}
-
-static void gfs_adapt_function_class_init (GtsObjectClass * klass)
-{
-  klass->destroy = gfs_adapt_function_destroy;  
-  klass->read = gfs_adapt_function_read;
-  klass->write = gfs_adapt_function_write;
-}
-
-static gdouble function_cost (FttCell * cell, GfsAdaptFunction * a)
-{
-  return gfs_function_value (a->f, cell);
-}
-
-static void gfs_adapt_function_init (GfsAdaptFunction * object)
-{
-  object->f = gfs_function_new (gfs_function_class (), 0.);
-  GFS_ADAPT (object)->cost = (GtsKeyFunc) function_cost;
-}
-
-GfsEventClass * gfs_adapt_function_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_adapt_function_info = {
-      "GfsAdaptFunction",
-      sizeof (GfsAdaptFunction),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_adapt_function_class_init,
-      (GtsObjectInitFunc) gfs_adapt_function_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_adapt_class ()),
-				  &gfs_adapt_function_info);
-  }
-
-  return klass;
-}
-
-/* GfsAdaptGradient: Object */
-
-static void gfs_adapt_gradient_destroy (GtsObject * o)
-{
-  if (GFS_ADAPT_GRADIENT (o)->v && !gfs_function_get_variable (GFS_ADAPT_FUNCTION (o)->f))
-    gts_object_destroy (GTS_OBJECT (GFS_ADAPT_GRADIENT (o)->v));
-
-  (* GTS_OBJECT_CLASS (gfs_adapt_gradient_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_adapt_gradient_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_adapt_gradient_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsAdaptGradient * a = GFS_ADAPT_GRADIENT (*o);
-  a->v = gfs_function_get_variable (GFS_ADAPT_FUNCTION (a)->f);
-  if (a->v == NULL)
-    a->v = gfs_temporary_variable (GFS_DOMAIN (gfs_object_simulation (a)));
-  a->dimension = pow (gfs_object_simulation (a)->physical_params.L, a->v->units);
-}
-
-static void update_f (FttCell * cell, GfsAdaptFunction * a)
-{
-  GFS_VALUE (cell, GFS_ADAPT_GRADIENT (a)->v) = gfs_function_value (a->f, cell);
-}
-
-static gboolean gfs_adapt_gradient_event (GfsEvent * event, 
-					  GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_adapt_gradient_class ())->parent_class)->event) 
-      (event, sim)) {
-    if (!gfs_function_get_variable (GFS_ADAPT_FUNCTION (event)->f)) {
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) update_f, event);
-      GfsVariable * v = GFS_ADAPT_GRADIENT (event)->v;
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-				FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-				(FttCellTraverseFunc) v->fine_coarse, v);
-      gfs_domain_bc (GFS_DOMAIN (sim), FTT_TRAVERSE_ALL, -1, v);
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_adapt_gradient_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_adapt_gradient_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_adapt_gradient_read;
-  klass->event = gfs_adapt_gradient_event;
-}
-
-static gdouble gradient_cost (FttCell * cell, GfsAdaptGradient * a)
-{
-  FttComponent c;
-  gdouble sum2 = 0;
-  gdouble * lambda;
-
-  lambda = (gdouble *) &GFS_DOMAIN (gfs_object_simulation (a))->lambda;
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gdouble g = lambda[c]*gfs_center_gradient (cell, c, a->v->i);
-
-    sum2 += g*g;
-  }
-  return sqrt (sum2)*a->dimension;
-}
-
-static void gfs_adapt_gradient_init (GfsAdaptGradient * object)
-{
-  GFS_ADAPT (object)->cost = (GtsKeyFunc) gradient_cost;
-  GFS_ADAPT_GRADIENT (object)->dimension = 1.;
-}
-
-GfsEventClass * gfs_adapt_gradient_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_adapt_gradient_info = {
-      "GfsAdaptGradient",
-      sizeof (GfsAdaptGradient),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_adapt_gradient_class_init,
-      (GtsObjectInitFunc) gfs_adapt_gradient_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_adapt_function_class ()),
-				  &gfs_adapt_gradient_info);
-  }
-
-  return klass;
-}
-
-/* GfsAdaptError: Object */
-
-static void gfs_adapt_error_destroy (GtsObject * o)
-{
-  if (GFS_ADAPT_ERROR (o)->v != GFS_ADAPT (o)->c)
-    gts_object_destroy (GTS_OBJECT (GFS_ADAPT_ERROR (o)->v));
-
-  (* GTS_OBJECT_CLASS (gfs_adapt_error_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_adapt_error_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_adapt_error_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GFS_ADAPT_ERROR (*o)->v = GFS_ADAPT (*o)->c ? GFS_ADAPT (*o)->c :
-    gfs_temporary_variable (GFS_DOMAIN (gfs_object_simulation (*o)));
-  GFS_ADAPT_ERROR (*o)->v->coarse_fine = none;
-  GFS_ADAPT_ERROR (*o)->v->fine_coarse = none;
-}
-
-static void compute_gradient (FttCell * cell, GfsAdaptError * a)
-{
-  GFS_VALUE (cell, a->dv) = gfs_center_regular_gradient (cell, a->dv->component, 
-							 GFS_ADAPT_GRADIENT (a)->v);
-}
-
-static void add_hessian_norm (FttCell * cell, GfsAdaptError * a)
-{
-  /* off-diagonal */
-  FttComponent j;
-  for (j = 0; j < FTT_DIMENSION; j++)
-    if (j != a->dv->component) {
-      gdouble g = gfs_center_regular_gradient (cell, j, a->dv);
-      GFS_VALUE (cell, a->v) += g*g;
-    }
-  /* diagonal */
-  gdouble g = gfs_center_regular_2nd_derivative (cell, a->dv->component, GFS_ADAPT_GRADIENT (a)->v);
-  GFS_VALUE (cell, a->v) += g*g;
-}
-
-static void scale (FttCell * cell, GfsAdaptError * a)
-{
-  GFS_VALUE (cell, a->v) = sqrt (GFS_VALUE (cell, a->v))/8.*GFS_ADAPT_GRADIENT (a)->dimension;
-}
-
-static gboolean gfs_adapt_error_event (GfsEvent * event, 
-				       GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_adapt_error_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsAdaptError * a = GFS_ADAPT_ERROR (event);
-    GfsDomain * domain = GFS_DOMAIN (sim);
-
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			      (FttCellTraverseFunc) gfs_cell_reset, a->v);
-    a->dv = gfs_temporary_variable (domain);
-    for (a->dv->component = 0; a->dv->component < FTT_DIMENSION; a->dv->component++) {
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-				(FttCellTraverseFunc) compute_gradient, a);
-      gfs_domain_bc (domain, FTT_TRAVERSE_ALL, -1, a->dv);
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-				(FttCellTraverseFunc) add_hessian_norm, a);
-    }
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			      (FttCellTraverseFunc) scale, a);
-    gts_object_destroy (GTS_OBJECT (a->dv));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_adapt_error_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_adapt_error_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_adapt_error_read;
-  GFS_EVENT_CLASS (klass)->event = gfs_adapt_error_event;
-}
-
-static gdouble cost_error (FttCell * cell, GfsAdaptError * a)
-{
-  return GFS_VALUE (cell, a->v);
-}
-
-static void gfs_adapt_error_init (GfsAdapt * object)
-{
-  object->cost = (GtsKeyFunc) cost_error;
-  object->cfactor = 2.;
-}
-
-GfsEventClass * gfs_adapt_error_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_adapt_error_info = {
-      "GfsAdaptError",
-      sizeof (GfsAdaptError),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_adapt_error_class_init,
-      (GtsObjectInitFunc) gfs_adapt_error_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_adapt_gradient_class ()),
-				  &gfs_adapt_error_info);
-  }
-
-  return klass;
-}
-
-static void refine_cell_corner (FttCell * cell, GfsDomain * domain)
-{
-  if (ftt_refine_corner (cell))
-    ftt_cell_refine_single (cell, domain->cell_init, domain->cell_init_data);
-}
-
-/**
- * @domain: a #GfsDomain.
- * @depth: the depth of @domain.
- *
- * Force the grading of the tree hierarchy of domain, matches the
- * boundaries, recomputes merged cells and applies the boundary
- * conditions for all variables.
- */
-void gfs_domain_reshape (GfsDomain * domain, guint depth)
-{
-  gint l;
-
-  g_return_if_fail (domain != NULL);
-
-  for (l = depth - 2; l >= 0; l--)
-    gfs_domain_cell_traverse (domain,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, l,
-			      (FttCellTraverseFunc) refine_cell_corner,
-			      domain);
-  gfs_domain_match (domain);
-  gfs_set_merged (domain);
-  GSList * i = domain->variables;
-  while (i) {
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, i->data);
-    i = i->next;
-  }
-}
-
-#define CELL_COST(cell) (GFS_VARIABLE (cell, p->costv->i))
-#define CELL_HCOARSE(c) (GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (c, p->hcoarsev->i)))
-#define CELL_HFINE(c) (GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (c, p->hfinev->i)))
-
-static FttCell * remove_top_coarse (GtsEHeap * h, gdouble * cost, GfsVariable * hcoarse)
-{
-  FttCell * cell = gts_eheap_remove_top (h, cost);
-
-  if (cell)
-    GFS_VARIABLE (cell, hcoarse->i) = 0.;
-  while (cell && !FTT_CELL_IS_LEAF (cell)) {
-    cell = gts_eheap_remove_top (h, cost);
-    if (cell) 
-      GFS_VARIABLE (cell, hcoarse->i) = 0.;
-  }
-  return cell;
-}
-
-static FttCell * remove_top_fine (GtsEHeap * h, gdouble * cost, GfsVariable * hfine)
-{
-  FttCell * cell = gts_eheap_remove_top (h, cost);
-
-  if (cell)
-    GFS_VARIABLE (cell, hfine->i) = 0.;
-  while (cell && ftt_cell_depth (cell) - ftt_cell_level (cell) != 1) {
-    cell = gts_eheap_remove_top (h, cost);
-    if (cell) 
-      GFS_VARIABLE (cell, hfine->i) = 0.;
-  }
-  return cell;
-}
-
-static gdouble refine_cost (FttCell * cell, GfsSimulation * sim)
-{
-  GSList * i = sim->adapts->items;
-  gdouble cost = 0.;
-
-  while (i) {
-    GfsAdapt * a = i->data;
-
-    if (a->active && a->cost)
-      cost += a->weight*(* a->cost) (cell, a);
-    i = i->next;
-  }
-
-  return cost;
-}
-
-static void compute_cost (FttCell * cell, AdaptParams * p)
-{
-  gdouble cost = refine_cost (cell, p->sim);
-
-  GFS_VARIABLE (cell, p->hcoarsev->i) = GFS_VARIABLE (cell, p->hfinev->i) = 0.;
-  if (FTT_CELL_IS_LEAF (cell))
-    CELL_COST (cell) = cost;
-  else {
-    FttCellChildren child;
-    FttCellNeighbors n;
-    guint i, level = ftt_cell_level (cell);
-    FttCell * parent;
-    gdouble cmax = 0.;
-
-    ftt_cell_children (cell, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i] && CELL_COST (child.c[i]) > cmax)
-	cmax = CELL_COST (child.c[i]);
-    if (cmax > cost) cost = cmax;
-    if (cost > CELL_COST (cell)) CELL_COST (cell) = cost;
-
-    ftt_cell_neighbors (cell, &n);
-    for (i = 0; i < FTT_NEIGHBORS; i++)
-      if (n.c[i] && ftt_cell_level (n.c[i]) == level && 
-	  (parent = ftt_cell_parent (n.c[i])) &&
-	  cmax > CELL_COST (parent))
-	CELL_COST (parent) = cmax;
-  }
-  p->nc++;
-}
-
-static void store_cost (FttCell * cell, AdaptParams * p)
-{
-  GFS_VARIABLE (cell, p->c->i) = CELL_COST (cell);
-}
-
-static guint minlevel (FttCell * cell, GfsSimulation * sim)
-{
-  guint minlevel = 0;
-  GSList * i = sim->adapts->items;
-
-  while (i) {
-    GfsAdapt * a = i->data;
-    guint l;
-    
-    if (a->active && (l = gfs_function_value (a->minlevel, cell)) > minlevel)
-      minlevel = l;
-    i = i->next;
-  }
-  return minlevel;
-}
-
-static guint maxlevel (FttCell * cell, GfsSimulation * sim)
-{
-  GSList * i = sim->adapts->items;
-  guint maxlevel = G_MAXINT;
-
-  while (i) {
-    GfsAdapt * a = i->data;
-    guint l;
-
-    if (a->active && (l = gfs_function_value (a->maxlevel, cell)) < maxlevel)
-      maxlevel = l;
-    i = i->next;
-  }
-  return maxlevel;
-}
-
-static void fill_heaps (FttCell * cell, AdaptParams * p)
-{
-  guint level = ftt_cell_level (cell);
-  FttCell * parent = ftt_cell_parent (cell);
-  
-  if (level < maxlevel (cell, p->sim))
-    GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (cell, p->hcoarsev->i)) = 
-      gts_eheap_insert_with_key (p->hcoarse, cell, - CELL_COST (cell));
-  if (parent && !GFS_CELL_IS_PERMANENT (parent) && GFS_VARIABLE (parent, p->hfinev->i) == 0. &&
-      level > minlevel (parent, p->sim))
-    GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (parent, p->hfinev->i)) = 
-      gts_eheap_insert_with_key (p->hfine, parent, CELL_COST (parent));
-}
-
-static gboolean fine_cell_coarsenable (FttCell * cell, AdaptParams * p)
-{
-  if (GFS_CELL_IS_BOUNDARY (cell))
-    return TRUE;
-  if (GFS_CELL_IS_PERMANENT (cell))
-    return FALSE;
-  if (CELL_COST (cell) >= -p->clim)
-    return FALSE;
-  if (ftt_cell_level (cell) < minlevel (cell, p->sim))
-    return FALSE;
-  return TRUE;      
-}
-
-static void fine_cell_cleanup (FttCell * cell, AdaptParams * p)
-{
-  if (!GFS_CELL_IS_BOUNDARY (cell)) {
-    gpointer o;
-
-    p->nc--;
-    if ((o = CELL_HCOARSE (cell)))
-      gts_eheap_remove (p->hcoarse, o);
-    if ((o = CELL_HFINE (cell)))
-      gts_eheap_remove (p->hfine, o);
-  }
-  gfs_cell_cleanup (cell, GFS_DOMAIN (p->sim));
-}
-
-static void cell_fine_init (FttCell * cell, AdaptParams * p)
-{
-  FttCellChildren child;
-  GfsDomain * domain = GFS_DOMAIN (p->sim);
-  guint n;
-
-  (* domain->cell_init) (cell, domain->cell_init_data);
-  ftt_cell_children (cell, &child);
-  for (n = 0; n < FTT_CELLS; n++)
-    if (child.c[n])
-      CELL_COST (child.c[n]) = G_MAXDOUBLE;
-  if (!GFS_CELL_IS_BOUNDARY (cell))
-    p->nc += FTT_CELLS;
-}
-
-static gboolean adapt_global (GfsSimulation * simulation,
-			      guint * depth,
-			      GfsAdaptStats * s,
-			      guint mincells, guint maxcells,
-			      GfsVariable * c,
-			      gdouble cmax)
-{
-  GfsDomain * domain = GFS_DOMAIN (simulation);
-  gint l;
-  gdouble ccoarse = 0., cfine = 0.;
-  FttCell * coarse, * fine;
-  gboolean changed = TRUE, global_changed = FALSE;
-  AdaptParams apar;
-  
-  apar.sim = simulation;
-  apar.nc = 0;
-  apar.costv = gfs_temporary_variable (domain);
-  apar.hcoarsev = gfs_temporary_variable (domain);
-  apar.hfinev = gfs_temporary_variable (domain);
-  apar.hcoarse = gts_eheap_new (NULL, NULL);
-  apar.hfine = gts_eheap_new (NULL, NULL);
-  apar.c = c;
-  
-  gfs_domain_cell_traverse (domain, 
-			    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) gfs_cell_reset, apar.costv);
-  for (l = *depth; l >= 0; l--)
-    gfs_domain_cell_traverse (domain, 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, l,
-			      (FttCellTraverseFunc) compute_cost, &apar);
-  if (apar.c)
-    gfs_domain_cell_traverse (domain, 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			      (FttCellTraverseFunc) store_cost, &apar);
-  gts_eheap_freeze (apar.hcoarse);
-  gts_eheap_freeze (apar.hfine);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) fill_heaps, &apar);
-  gts_eheap_thaw (apar.hcoarse);
-  gts_eheap_thaw (apar.hfine);
-  coarse = remove_top_coarse (apar.hcoarse, &ccoarse, apar.hcoarsev);
-  fine = remove_top_fine (apar.hfine, &cfine, apar.hfinev);
-#ifdef DEBUG
-  fprintf (stderr, "initial: %g %g %d\n", cfine, -ccoarse, apar.nc);
-#endif /* DEBUG */
-  while (changed) {
-#ifdef DEBUG
-    fprintf (stderr, "%g %g %d\n", cfine, -ccoarse, apar.nc);
-#endif /* DEBUG */
-    changed = FALSE;
-    if (fine && ((cfine < -ccoarse && apar.nc > maxcells) || 
-		 (cfine < cmax && apar.nc >= mincells))) {
-      guint n = apar.nc;
-	
-      apar.clim = MIN (ccoarse, -cmax);
-      ftt_cell_coarsen (fine,
-			(FttCellCoarsenFunc) fine_cell_coarsenable, &apar,
-			(FttCellCleanupFunc) fine_cell_cleanup, &apar);
-#ifdef DEBUG
-      fprintf (stderr, "coarsen: %d\n", apar.nc);
-#endif /* DEBUG */
-      fine = remove_top_fine (apar.hfine, &cfine, apar.hfinev);
-      s->removed += n - apar.nc;
-      changed = global_changed = TRUE;
-    }
-    if (coarse && ((-ccoarse > cfine && apar.nc < mincells) ||
-		   (-ccoarse > cmax && apar.nc <= maxcells))) {
-      guint level = ftt_cell_level (coarse), n = apar.nc;
-	
-      ftt_cell_refine_corners (coarse, (FttCellInitFunc) cell_fine_init, &apar);
-      ftt_cell_refine_single (coarse, (FttCellInitFunc) cell_fine_init, &apar);
-      if (level + 1 > *depth)
-	*depth = level + 1;
-#ifdef DEBUG
-      fprintf (stderr, "refine: %d\n", apar.nc);
-#endif /* DEBUG */
-      coarse = remove_top_coarse (apar.hcoarse, &ccoarse, apar.hcoarsev);
-      s->created += apar.nc - n;
-      changed = global_changed = TRUE;
-    }
-  }
-  gts_range_add_value (&s->cmax, -ccoarse);
-  gts_range_add_value (&s->ncells, apar.nc);
-
-  gts_eheap_destroy (apar.hcoarse);
-  gts_eheap_destroy (apar.hfine);
-  gts_object_destroy (GTS_OBJECT (apar.costv));
-  gts_object_destroy (GTS_OBJECT (apar.hcoarsev));
-  gts_object_destroy (GTS_OBJECT (apar.hfinev));  
-
-  return global_changed;
-}
-
-typedef struct {
-  GfsSimulation * sim;
-  guint depth, nc;
-  GfsVariable * r, * c;
-  GfsAdaptStats * s;
-  gboolean changed;
-} AdaptLocalParams;
-
-#define REFINABLE(cell, p) (GFS_VALUE (cell, (p)->r))
-#define COARSENABLE(cell, p) (GFS_VALUE (cell, (p)->c))
-
-static gboolean coarsen_cell (FttCell * cell, AdaptLocalParams * p)
-{
-  if (GFS_CELL_IS_BOUNDARY (cell))
-    return TRUE;
-  return COARSENABLE (cell, p);
-}
-
-static void cell_cleanup (FttCell * cell, AdaptLocalParams * p)
-{
-  gfs_cell_cleanup (cell, GFS_DOMAIN (p->sim));
-  p->s->removed++;
-  p->nc--;
-  p->changed = TRUE;
-}
-
-static void coarsen_box (GfsBox * box, AdaptLocalParams * p)
-{
-  ftt_cell_coarsen (box->root,
-		    (FttCellCoarsenFunc) coarsen_cell, p,
-		    (FttCellCleanupFunc) cell_cleanup, p);
-}
-
-static void local_cell_fine_init (FttCell * parent,  AdaptLocalParams * p)
-{
-  GfsDomain * domain = GFS_DOMAIN (p->sim);
-  (* domain->cell_init) (parent, domain->cell_init_data);
-  if (!GFS_CELL_IS_BOUNDARY (parent)) {
-    p->s->created += FTT_CELLS;
-    p->nc += FTT_CELLS;
-  }
-}
-
-static void refine_cell (FttCell * cell, AdaptLocalParams * p)
-{
-  if (REFINABLE (cell, p)) {
-    guint level = ftt_cell_level (cell);
-
-    ftt_cell_refine_corners (cell, (FttCellInitFunc) local_cell_fine_init, p);
-    ftt_cell_refine_single (cell, (FttCellInitFunc) local_cell_fine_init, p);
-    if (level + 1 > p->depth)
-      p->depth = level + 1;
-    p->changed = TRUE;
-  }
-}
-
-static void refine_cell_mark (FttCell * cell, AdaptLocalParams * p)
-{
-  p->nc++;
-  REFINABLE (cell, p) = FALSE;
-  COARSENABLE (cell, p) = !GFS_CELL_IS_PERMANENT (cell);
-
-  guint level = ftt_cell_level (cell);
-  GSList * i = p->sim->adapts->items;
-  while (i) {
-    GfsAdapt * a = i->data;
-    if (a->active) {
-      guint minlevel = gfs_function_value (a->minlevel, cell);
-      guint maxlevel = gfs_function_value (a->maxlevel, cell);
-      if (FTT_CELL_IS_LEAF (cell) && 
-	  (level < minlevel ||
-	   (level < maxlevel && (* a->cost) (cell, a) > a->cmax))) {
-	REFINABLE (cell, p) = TRUE;
-	COARSENABLE (cell, p) = FALSE;
-	return;
-      }
-      if (level < minlevel || (level < maxlevel && (* a->cost) (cell, a) > a->cmax/a->cfactor))
-	COARSENABLE (cell, p) = FALSE;
-    }
-    i = i->next;
-  }
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCell * parent = ftt_cell_parent (cell);    
-    if (parent)
-      COARSENABLE (parent, p) = FALSE;
-  }
-}
-
-static gboolean adapt_local (GfsSimulation * sim, guint * depth, GfsAdaptStats * s)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  AdaptLocalParams p;
-  p.sim = sim;
-  p.depth = *depth;
-  p.r = gfs_temporary_variable (domain);
-  p.c = gfs_temporary_variable (domain);
-  p.s = s;
-  p.nc = 0;
-  p.changed = FALSE;
-  gfs_domain_cell_traverse (domain,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) refine_cell_mark, &p);
-  gfs_domain_cell_traverse (domain,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) refine_cell, &p);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) coarsen_box, &p);
-  gts_object_destroy (GTS_OBJECT (p.r));
-  gts_object_destroy (GTS_OBJECT (p.c));
-  *depth = p.depth;
-
-  gts_range_add_value (&s->ncells, p.nc);
-  return p.changed;
-}
-
-/**
- * gfs_simulation_adapt:
- * @simulation: a #GfsSimulation.
- * @s: where to put statistics (or %NULL).
- *
- * Checks if any mesh adaptation is necessary and adapts the mesh
- * using an OR combination of all the regular criteria defined in
- * @simulation->adapts.
- * 
- * If any one or several criteria are defined as "not" refinements,
- * the mesh will be refined only if all of this criteria AND any other
- * regular criterion is verified.  
- */
-void gfs_simulation_adapt (GfsSimulation * simulation)
-{
-  gboolean active = FALSE;
-  guint mincells = 0, maxcells = G_MAXINT;
-  GfsDomain * domain;
-  gdouble cmax = 0.;
-  GfsVariable * c = NULL;
-
-  g_return_if_fail (simulation != NULL);
-
-  domain = GFS_DOMAIN (simulation);
-
-  gfs_domain_timer_start (domain, "adapt");
-
-  GSList * i = simulation->adapts->items;
-  while (i) {
-    GfsAdapt * a = i->data;
-
-    if (a->active) {
-      if (a->maxcells < maxcells) maxcells = a->maxcells;
-      if (a->mincells > mincells) mincells = a->mincells;
-      cmax += a->cmax;
-      active = TRUE;
-      if (a->c)
-	c = a->c;
-    }
-    i = i->next;
-  }
-  if (active) {
-    guint depth = gfs_domain_depth (domain);
-    gboolean changed;
-
-    if (maxcells < G_MAXINT)
-      changed = adapt_global (simulation, &depth, &simulation->adapts_stats, 
-			      mincells, maxcells, c, cmax);
-    else
-      changed = adapt_local (simulation, &depth, &simulation->adapts_stats);
-
-    gfs_all_reduce (domain, changed, MPI_INT, MPI_MAX);
-    if (changed)
-      gfs_domain_reshape (domain, depth);
-  }
-
-  gfs_domain_timer_stop (domain, "adapt");
-}
-
-/**
- * gfs_adapt_stats_init:
- * @s: the #GfsAdaptStats.
- *
- * Initializes or reset @s.
- */
-void gfs_adapt_stats_init (GfsAdaptStats * s)
-{
-  g_return_if_fail (s != NULL);
-
-  s->removed = 0;
-  s->created = 0;
-  gts_range_init (&s->cmax);
-  gts_range_init (&s->ncells);
-}
-
-/**
- * gfs_adapt_stats_update:
- * @s: the #GfsAdaptStats.
- *
- * Updates @s.
- */
-void gfs_adapt_stats_update (GfsAdaptStats * s)
-{
-  g_return_if_fail (s != NULL);
-
-  gts_range_update (&s->cmax);
-  gts_range_update (&s->ncells);
-}
diff --git a/src/adaptive.h b/src/adaptive.h
deleted file mode 100644
index 4747c22..0000000
--- a/src/adaptive.h
+++ /dev/null
@@ -1,157 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __ADAPTIVE_H__
-#define __ADAPTIVE_H__
-
-#include "simulation.h"
-#include "event.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-void          gfs_cell_coarse_init          (FttCell * cell,
-					     GfsDomain * domain);
-void          gfs_adapt_stats_init          (GfsAdaptStats * s);
-void          gfs_adapt_stats_update        (GfsAdaptStats * s);
-void          gfs_simulation_adapt          (GfsSimulation * simulation);
-void          gfs_domain_reshape            (GfsDomain * domain,
-					     guint depth);
-
-/* GfsAdapt: Header */
-
-typedef struct _GfsAdapt         GfsAdapt;
-
-struct _GfsAdapt {
-  /*< private >*/
-  GfsEvent parent;
-  gboolean active;
-
-  /*< public >*/
-  GfsFunction * minlevel, * maxlevel;
-  guint mincells, maxcells;
-  gdouble cmax, weight, cfactor;
-  GfsVariable * c;
-  GtsKeyFunc cost;
-};
-
-#define GFS_ADAPT(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsAdapt,\
-					         gfs_adapt_class ())
-#define GFS_IS_ADAPT(obj)         (gts_object_is_from_class (obj,\
-						 gfs_adapt_class ()))
-
-GfsEventClass * gfs_adapt_class  (void);
-
-/* GfsAdaptVorticity: Header */
-
-typedef struct _GfsAdaptVorticity         GfsAdaptVorticity;
-
-struct _GfsAdaptVorticity {
-  /*< private >*/
-  GfsAdapt parent;
-  GfsVariable ** u;
-  gdouble maxa;
-
-  /*< public >*/
-};
-
-#define GFS_ADAPT_VORTICITY(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsAdaptVorticity,\
-					         gfs_adapt_vorticity_class ())
-#define GFS_IS_ADAPT_VORTICITY(obj)         (gts_object_is_from_class (obj,\
-						 gfs_adapt_vorticity_class ()))
-
-GfsEventClass * gfs_adapt_vorticity_class  (void);
- 
-/* GfsAdaptStreamlineCurvature: Header */
-
-#define GFS_IS_ADAPT_STREAMLINE_CURVATURE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_adapt_streamline_curvature_class ()))
-
-GfsEventClass * gfs_adapt_streamline_curvature_class  (void);
- 
-/* GfsAdaptFunction: Header */
-
-typedef struct _GfsAdaptFunction         GfsAdaptFunction;
-
-struct _GfsAdaptFunction {
-  /*< private >*/
-  GfsAdapt parent;
-
-  /*< public >*/
-  GfsFunction * f;
-};
-
-#define GFS_ADAPT_FUNCTION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsAdaptFunction,\
-					         gfs_adapt_function_class ())
-#define GFS_IS_ADAPT_FUNCTION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_adapt_function_class ()))
-
-GfsEventClass * gfs_adapt_function_class  (void);
-
-/* GfsAdaptGradient: Header */
-
-typedef struct _GfsAdaptGradient         GfsAdaptGradient;
-
-struct _GfsAdaptGradient {
-  /*< private >*/
-  GfsAdaptFunction parent;
-  gdouble dimension;
-
-  /*< public >*/
-  GfsVariable * v;
-};
-
-#define GFS_ADAPT_GRADIENT(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsAdaptGradient,\
-					         gfs_adapt_gradient_class ())
-#define GFS_IS_ADAPT_GRADIENT(obj)         (gts_object_is_from_class (obj,\
-						 gfs_adapt_gradient_class ()))
-
-GfsEventClass * gfs_adapt_gradient_class  (void);
-
-/* GfsAdaptError: Header */
-
-typedef struct _GfsAdaptError         GfsAdaptError;
-
-struct _GfsAdaptError {
-  /*< private >*/
-  GfsAdaptGradient parent;
-  GfsVariable * dv;
-
-  /*< public >*/
-  GfsVariable * v;
-};
-
-#define GFS_ADAPT_ERROR(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsAdaptError,\
-					         gfs_adapt_error_class ())
-#define GFS_IS_ADAPT_ERROR(obj)         (gts_object_is_from_class (obj,\
-						 gfs_adapt_error_class ()))
-
-GfsEventClass * gfs_adapt_error_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __ADAPTIVE_H__ */
diff --git a/src/advection.c b/src/advection.c
deleted file mode 100644
index c0e9f50..0000000
--- a/src/advection.c
+++ /dev/null
@@ -1,1044 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "advection.h"
-#include "source.h"
-
-static gdouble transverse_term (FttCell * cell,
-				gdouble * msize,
-				FttComponent c,
-				const GfsAdvectionParams * par)
-{
-  GfsStateVector * s = GFS_STATE (cell);
-  gdouble vtan = par->use_centered_velocity ? 
-    GFS_VALUE (cell, par->u[c]) :
-    (s->f[2*c].un + s->f[2*c + 1].un)/2.;
-  FttCellFace f;
-  GfsGradient gf;
-  gdouble g;
-  
-  f.d = vtan > 0. ? 2*c + 1 : 2*c;
-  f.cell = cell;
-  f.neighbor = ftt_cell_neighbor (cell, f.d);
-  gfs_face_gradient (&f, &gf, par->v->i, -1);
-  g = gf.b - gf.a*GFS_VALUE (cell, par->v);
-  if (vtan > 0.) g = - g;
-  return par->dt*vtan*g/(2.*msize[c]);
-}
-
-/**
- * gfs_cell_advected_face_values:
- * @cell: a #FttCell.
- * @par: the advection parameters.
- *
- * Fills the face variable (@v field of #GfsFaceStateVector) of all the
- * faces of @cell with the advected value of variable @par->v at time
- * t + dt/2.
- */
-void gfs_cell_advected_face_values (FttCell * cell,
-				    const GfsAdvectionParams * par)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (par != NULL);
-
-  GfsStateVector * s = GFS_STATE (cell);
-  gdouble size = ftt_cell_size (cell), msize[FTT_DIMENSION];
-
-  FttComponent c;
-  if (par->v->domain->scale_metric)
-    for (c = 0; c < FTT_DIMENSION; c++)
-      msize[c] = size*(* par->v->domain->scale_metric) (par->v->domain, cell, c);
-  else
-    for (c = 0; c < FTT_DIMENSION; c++)
-      msize[c] = size;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gdouble unorm = par->use_centered_velocity ?
-      par->dt*GFS_VALUE (cell, par->u[c])/msize[c] :
-       par->dt*(s->f[2*c].un + s->f[2*c + 1].un)/(2.*msize[c]);
-    gdouble g = (* par->gradient) (cell, c, par->v->i);
-    gdouble vl = GFS_VALUE (cell, par->v) + MIN ((1. - unorm)/2., 0.5)*g;
-    gdouble vr = GFS_VALUE (cell, par->v) + MAX ((- 1. - unorm)/2., -0.5)*g;
-    gdouble src = par->dt*gfs_variable_mac_source (par->v, cell)/2.;
-    gdouble dv;
-
-#if FTT_2D
-    dv = transverse_term (cell, msize, FTT_ORTHOGONAL_COMPONENT (c), par);
-#else  /* FTT_3D */
-    static FttComponent orthogonal[FTT_DIMENSION][2] = {
-      {FTT_Y, FTT_Z}, {FTT_X, FTT_Z}, {FTT_X, FTT_Y}
-    };
-
-    dv =  transverse_term (cell, msize, orthogonal[c][0], par);
-    dv += transverse_term (cell, msize, orthogonal[c][1], par);
-#endif /* FTT_3D */
-
-    s->f[2*c].v     = vl + src - dv;
-    s->f[2*c + 1].v = vr + src - dv;
-  }
-}
-
-/**
- * gfs_cell_non_advected_face_values:
- * @cell: a #FttCell.
- * @par: the (non)advection parameters.
- *
- * Fills the face variable (@v field of #GfsFaceStateVector) of all the
- * faces of @cell with the non-advected value of variable @par->v at time
- * t + dt/2.
- */
-void gfs_cell_non_advected_face_values (FttCell * cell,
-					const GfsAdvectionParams * par)
-{
-  FttComponent c;
-  GfsStateVector * s;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (par != NULL);
-
-  s = GFS_STATE (cell);
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gdouble g = (* par->gradient) (cell, c, par->v->i);
-    gdouble vl = GFS_VALUE (cell, par->v) + g/2.;
-    gdouble vr = GFS_VALUE (cell, par->v) - g/2.;
-    gdouble src = par->dt*gfs_variable_mac_source (par->v, cell)/2.;
-
-    s->f[2*c].v     = vl + src;
-    s->f[2*c + 1].v = vr + src;
-  }
-}
-
-#if FTT_2D
-
-static gdouble interpolate_1D1 (const FttCell * cell,
-				FttDirection dright,
-				FttDirection dup,
-				gdouble x)
-{
-  FttCell * n;
-  FttDirection dleft;
-  GfsStateVector * s;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  dleft = FTT_OPPOSITE_DIRECTION (dright);
-  n = ftt_cell_neighbor (cell, dup);
-  s = GFS_STATE (cell);
-  if (n && !GFS_CELL_IS_BOUNDARY (n)) {
-    gdouble s1 = s->solid ? s->solid->s[dleft] : 1., s2;
-    gdouble v1 = s->f[dleft].v, v2;
-
-    g_assert (s1 > 0.);
-    /* check for corner refinement violation (topology.fig) */
-    g_assert (ftt_cell_level (n) == ftt_cell_level (cell));
-
-    if (FTT_CELL_IS_LEAF (n)) {
-      v2 = GFS_STATE (n)->f[dleft].v;
-      s2 = GFS_IS_MIXED (n) ? GFS_STATE (n)->solid->s[dleft] : 1.;
-    }
-    else {
-      FttDirection d[FTT_DIMENSION];
-
-      d[0] = dleft;
-      d[1] = FTT_OPPOSITE_DIRECTION (dup);
-      n = ftt_cell_child_corner (n, d);
-      if (n) {
-	v2 = GFS_STATE (n)->f[dleft].v;
-	s2 = GFS_IS_MIXED (n) ? GFS_STATE (n)->solid->s[dleft]/2. : 0.5;
-      }
-      else
-	s2 = v2 = 0.;
-    }
-    return s2 > 0. ? (v2*(s1 - 1. + 2.*x) + v1*(s2 + 1. - 2.*x))/(s1 + s2) : v1;
-  }
-  return s->f[dleft].v;
-}
-
-#elif FTT_2D3
-
-static gdouble interpolate_1D1 (const FttCell * cell,
-				FttDirection dright,
-				FttDirection dup,
-				gdouble x)
-{
-  FttCell * n;
-  FttDirection dleft;
-  GfsStateVector * s;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  dleft = FTT_OPPOSITE_DIRECTION (dright);
-  n = ftt_cell_neighbor (cell, dup);
-  s = GFS_STATE (cell);
-  if (n && !GFS_CELL_IS_BOUNDARY (n)) {
-    /* check for corner refinement violation (topology.fig) */
-    g_assert (ftt_cell_level (n) == ftt_cell_level (cell));
-
-    if (FTT_CELL_IS_LEAF (n))
-      return GFS_STATE (n)->f[dleft].v*x + s->f[dleft].v*(1. - x);
-    else {
-      FttDirection d[FTT_DIMENSION];
-
-      d[0] = dleft;
-      d[1] = FTT_OPPOSITE_DIRECTION (dup);
-      g_assert (d[0] < FTT_NEIGHBORS_2D);
-      g_assert (d[1] < FTT_NEIGHBORS_2D);
-      d[2] = 0;
-      n = ftt_cell_child_corner (n, d);
-      if (n)
-	return (GFS_STATE (n)->f[dleft].v*4.*x + s->f[dleft].v*(3. - 4.*x))/3.;
-    }
-  }
-  return s->f[dleft].v;
-}
-
-#else /* FTT_3D */
-
-static gdouble interpolate_2D1 (const FttCell * cell,
-				FttDirection dright,
-				FttDirection d1, FttDirection d2,
-				gdouble x, gdouble y)
-{
-  FttCell * n1, * n2;
-  gdouble x1 = 0., y1 = 1.;
-  gdouble x2 = 1., y2 = 0.;
-  gdouble v0, v1, v2;
-  FttDirection dleft;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  /* fixme: this routine does not take into account mixed cells
-     fractions (in contrast to interpolate_1D1 above) */
-
-  dleft = FTT_OPPOSITE_DIRECTION (dright);
-  v0 = GFS_STATE (cell)->f[dleft].v;
-
-  n1 = ftt_cell_neighbor (cell, d1);
-  if (n1 && !GFS_CELL_IS_BOUNDARY (n1)) {
-    /* check for corner refinement violation (topology.fig) */
-    g_assert (ftt_cell_level (n1) == ftt_cell_level (cell));
-
-    if (!FTT_CELL_IS_LEAF (n1)) {
-      FttDirection d[FTT_DIMENSION];
-
-      d[0] = FTT_OPPOSITE_DIRECTION (dright);
-      d[1] = FTT_OPPOSITE_DIRECTION (d1);
-      d[2] = d2;
-      if ((n1 = ftt_cell_child_corner (n1, d))) {
-	v1 = GFS_STATE (n1)->f[dleft].v;
-	x1 = 1./4.;
-	y1 = 3./4.;
-      }
-      else
-	v1 = v0;
-    }
-    else
-      v1 = GFS_STATE (n1)->f[dleft].v;
-  }
-  else
-    v1 = v0;
-
-  n2 = ftt_cell_neighbor (cell, d2);
-  if (n2 && !GFS_CELL_IS_BOUNDARY (n2)) {
-    /* check for corner refinement violation (topology.fig) */
-    g_assert (ftt_cell_level (n2) == ftt_cell_level (cell));
-
-    if (!FTT_CELL_IS_LEAF (n2)) {
-      FttDirection d[FTT_DIMENSION];
-
-      d[0] = FTT_OPPOSITE_DIRECTION (dright);
-      d[1] = FTT_OPPOSITE_DIRECTION (d2);
-      d[2] = d1;
-      if ((n2 = ftt_cell_child_corner (n2, d))) {
-	v2 = GFS_STATE (n2)->f[dleft].v;
-	x2 = 3./4.;
-	y2 = 1./4.;
-      }
-      else
-	v2 = v0;
-    }
-    else
-      v2 = GFS_STATE (n2)->f[dleft].v;
-  }
-  else
-    v2 = v0;
-
-  return ((v1 - v0)*(x*y2 - x2*y) + (v2 - v0)*(x1*y - x*y1))/
-    (x1*y2 - x2*y1) + v0;
-}
-
-#endif /* FTT_3D */
-
-/**
- * gfs_face_upwinded_value:
- * @face: a #FttCellFace.
- * @upwinding: type of upwinding.
- * @u: the cell-centered velocity.
- *
- * This function assumes that the face variable has been previously
- * defined using gfs_cell_advected_face_values().
- *
- * Returns: the upwinded value of the face variable.  
- */
-gdouble gfs_face_upwinded_value (const FttCellFace * face,
-				 GfsUpwinding upwinding,
-				 GfsVariable ** u)
-{
-  gdouble un = 0.;
-
-  g_return_val_if_fail (face != NULL, 0.);
-
-  if (GFS_FACE_FRACTION (face) == 0.)
-    return 0.;
-
-  switch (upwinding) {
-  case GFS_CENTERED_UPWINDING:
-    g_return_val_if_fail (u != NULL, 0.);
-    un = gfs_face_interpolated_value (face, u[face->d/2]->i); 
-    break;
-  case GFS_FACE_UPWINDING:
-    un = GFS_FACE_NORMAL_VELOCITY (face); 
-    break;
-  case GFS_NO_UPWINDING:
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-  if (!FTT_FACE_DIRECT (face))
-    un = - un;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    return 
-      un > 0. ? GFS_STATE (face->cell)->f[face->d].v :
-      un < 0. ? GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v :
-      (GFS_STATE (face->cell)->f[face->d].v +
-       GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v)/2.;
-  case FTT_FINE_COARSE:
-    if (un > 0.)
-      return GFS_STATE (face->cell)->f[face->d].v;
-    else {
-      gdouble vcoarse;
-#if (FTT_2D || FTT_2D3)
-      gint dp;
-      static gint perpendicular[FTT_NEIGHBORS_2D][FTT_CELLS] = 
-      {{-1,  2, -1,  3},
-       { 2, -1,  3, -1},
-       { 1,  0, -1, -1},
-       {-1, -1,  1,  0}};
-#else  /* FTT_3D */
-      gint * dp;
-      static gint perpendicular[FTT_NEIGHBORS][FTT_CELLS][2] = 
-      {{{-1,-1},{2,4},{-1,-1},{3,4},{-1,-1},{2,5},{-1,-1},{3,5}},
-       {{2,4},{-1,-1},{3,4},{-1,-1},{2,5},{-1,-1},{3,5},{-1,-1}},
-       {{4,1},{4,0},{-1,-1},{-1,-1},{5,1},{5,0},{-1,-1},{-1,-1}},
-       {{-1,-1},{-1,-1},{4,1},{4,0},{-1,-1},{-1,-1},{5,1},{5,0}},
-       {{1,2},{0,2},{1,3},{0,3},{-1,-1},{-1,-1},{-1,-1},{-1,-1}},
-       {{-1,-1},{-1,-1},{-1,-1},{-1,-1},{1,2},{0,2},{1,3},{0,3}}};
-#endif /* FTT_3D */
-
-#if FTT_2D3
-      g_assert (face->d < FTT_NEIGHBORS_2D);
-#endif
-
-      dp = perpendicular[face->d][FTT_CELL_ID (face->cell)];
-#if (FTT_2D || FTT_2D3)
-      g_assert (dp >= 0);
-      vcoarse = interpolate_1D1 (face->neighbor, face->d, dp, 1./4.);
-#else  /* FTT_3D */
-      g_assert (dp[0] >= 0 && dp[1] >= 0);
-      vcoarse = interpolate_2D1 (face->neighbor, face->d,
-				 dp[0], dp[1], 
-				 1./4., 1./4.);
-#endif /* FTT_3D */
-      if (un == 0.)
-	return (GFS_STATE (face->cell)->f[face->d].v + vcoarse)/2.;
-      else
-	return vcoarse;
-    }
-  default:
-    g_assert_not_reached ();
-  }
-  return 0.;
-}
-
-/**
- * gfs_face_advection_flux:
- * @face: a #FttCellFace.
- * @par: the advection parameters.
- *
- * Adds to variable @par->fv, the value of the (conservative)
- * advection flux of the face variable through @face.
- *
- * This function assumes that the face variable has been previously
- * defined using gfs_cell_advected_face_values().
- */
-void gfs_face_advection_flux (const FttCellFace * face,
-			      const GfsAdvectionParams * par)
-{
-  gdouble flux;
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (par != NULL);
-
-  flux = gfs_domain_face_fraction (par->v->domain, face)*GFS_FACE_NORMAL_VELOCITY (face)*par->dt*
-    gfs_face_upwinded_value (face, GFS_FACE_UPWINDING, NULL)/ftt_cell_size (face->cell);
-
-  if (!FTT_FACE_DIRECT (face))
-    flux = - flux;
-  GFS_VALUE (face->cell, par->fv) -= flux;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_VALUE (face->neighbor, par->fv) += flux;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_VALUE (face->neighbor, par->fv) += flux/FTT_CELLS;
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-/**
- * gfs_face_velocity_advection_flux:
- * @face: a #FttCellFace.
- * @par: the advection parameters.
- *
- * Adds to variable @par->fv, the value of the (conservative)
- * advection flux through @face of variable @par->v (a component
- * of the velocity).
- *
- * This function assumes that the @g field of the cells sharing @face
- * are filled with the pressure gradient at time t + dt/2.  
- *
- * This function also assumes that the face value of @par->v has been
- * previously defined using gfs_cell_advected_face_values().  
- */
-void gfs_face_velocity_advection_flux (const FttCellFace * face,
-				       const GfsAdvectionParams * par)
-{
-  gdouble flux;
-  FttComponent c;
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (par != NULL);
-
-  c = par->v->component;
-  g_return_if_fail (c >= 0 && c < FTT_DIMENSION);
-
-  flux = gfs_domain_face_fraction (par->v->domain, face)*GFS_FACE_NORMAL_VELOCITY (face)*par->dt
-    /ftt_cell_size (face->cell);
-#if 0
-  if (c == face->d/2) /* normal component */
-    flux *= GFS_FACE_NORMAL_VELOCITY (face);
-  else /* tangential component */
-#else
-    flux *= gfs_face_upwinded_value (face, par->upwinding, par->u)
-      /* pressure correction */
-      - gfs_face_interpolated_value (face, par->g[c]->i)*par->dt/2.;
-#endif
-  if (!FTT_FACE_DIRECT (face))
-    flux = - flux;
-  GFS_VALUE (face->cell, par->fv) -= flux;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_VALUE (face->neighbor, par->fv) += flux;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_VALUE (face->neighbor, par->fv) += flux/FTT_CELLS;
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-/**
- * gfs_face_velocity_convective_flux:
- * @face: a #FttCellFace.
- * @par: the advection parameters.
- *
- * Adds to variable @par->fv, the value of the (non-conservative)
- * convective flux through @face of variable @par->v (a component
- * of the velocity).
- *
- * This function assumes that the @g field of the cells sharing @face
- * are filled with the pressure gradient at time t + dt/2.  
- *
- * This function also assumes that the face value of @par->v has been
- * previously defined using gfs_cell_advected_face_values().  
- */
-void gfs_face_velocity_convective_flux (const FttCellFace * face,
-					const GfsAdvectionParams * par)
-{
-  gdouble u;
-  FttComponent c;
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (gfs_domain_face_fraction (par->v->domain, face) == 1.);
-
-  c = par->v->component;
-  g_return_if_fail (c >= 0 && c < FTT_DIMENSION);
-
-#if 0
-  if (c == face->d/2) /* normal component */
-    u = GFS_FACE_NORMAL_VELOCITY (face);
-  else /* tangential component */
-    u = gfs_face_upwinded_value (face, par->upwinding)
-      /* pressure correction */
-      - gfs_face_interpolated_value (face, GFS_GRADIENT_INDEX (c))*par->dt/2.;
-#else
-  u = gfs_face_upwinded_value (face, par->upwinding, par->u)
-    /* pressure correction */
-    - gfs_face_interpolated_value (face, par->g[c]->i)*par->dt/2.;
-#endif
-  u *= par->dt/(2.*ftt_cell_size (face->cell));
-  if (!FTT_FACE_DIRECT (face))
-    u = - u;
-  GFS_VALUE (face->cell, par->fv) -= 
-    u*(GFS_STATE (face->cell)->f[face->d].un + 
-       GFS_STATE (face->cell)->f[FTT_OPPOSITE_DIRECTION (face->d)].un);
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_VALUE (face->neighbor, par->fv) += 
-      u*(GFS_STATE (face->neighbor)->f[face->d].un + 
-	 GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].un);
-    break;
-  case FTT_FINE_COARSE:
-    GFS_VALUE (face->neighbor, par->fv) += 
-      u*(GFS_STATE (face->neighbor)->f[face->d].un + 
-	 GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].un)
-      /FTT_CELLS;
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-/**
- * gfs_face_advected_normal_velocity:
- * @face: a #FttCellFace.
- * @par: the #GfsAdvectionParams.
- *
- * Fills the normal component of the velocity at @face with the value
- * advected (to time t + dt/2) from the centered velocities.
- *
- * This function assumes that the face variable has been previously
- * defined for the correct component of the velocity using
- * gfs_cell_advected_face_values().  
- */
-void gfs_face_advected_normal_velocity (const FttCellFace * face,
-					const GfsAdvectionParams * par)
-{
-  gdouble u;
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (par != NULL);
-
-  if (GFS_FACE_FRACTION_RIGHT (face) == 0.)
-    return;
-
-  GFS_FACE_NORMAL_VELOCITY_LEFT (face) = u = 
-    gfs_face_upwinded_value (face, par->upwinding, par->u);
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_FACE_NORMAL_VELOCITY_RIGHT (face) = u;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_FACE_NORMAL_VELOCITY_RIGHT (face) += 
-      u*gfs_domain_face_fraction (par->v->domain, face)/
-      (gfs_domain_face_fraction_right (par->v->domain, face)*FTT_CELLS_DIRECTION (face->d));
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-/**
- * gfs_face_interpolated_normal_velocity:
- * @face: a #FttCellFace.
- * @v: the velocity.
- *
- * Fills the normal component of the velocity at @face with the value
- * interpolated from the centered velocities.
- */
-void gfs_face_interpolated_normal_velocity (const FttCellFace * face, GfsVariable ** v)
-{
-  gdouble u;
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (v != NULL);
-
-  if (GFS_FACE_FRACTION_RIGHT (face) == 0.)
-    return;
-
-  GFS_FACE_NORMAL_VELOCITY_LEFT (face) = u = gfs_face_interpolated_value (face, v[face->d/2]->i);
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_FACE_NORMAL_VELOCITY_RIGHT (face) = u;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_FACE_NORMAL_VELOCITY_RIGHT (face) += 
-      u*gfs_domain_face_fraction (v[0]->domain, face)/
-      (gfs_domain_face_fraction_right (v[0]->domain, face)*FTT_CELLS_DIRECTION (face->d));
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-/**
- * gfs_face_reset_normal_velocity:
- * @face: a #FttCellFace.
- *
- * Set velocity normal to @face to zero.
- */
-void gfs_face_reset_normal_velocity (const FttCellFace * face)
-{
-  g_return_if_fail (face != NULL);
-
-  GFS_FACE_NORMAL_VELOCITY_RIGHT (face) = 
-    GFS_FACE_NORMAL_VELOCITY_LEFT (face) = 0.;
-}
-
-/**
- * gfs_cell_is_small:
- * @cell: a #FttCell.
- *
- * Returns: %TRUE if @cell is "small" (i.e. should be merged with a neighbhor).
- */
-gboolean gfs_cell_is_small (const FttCell * cell)
-{
-  g_return_val_if_fail (cell != NULL, FALSE);
-
-  GfsSolidVector * solid = GFS_STATE (cell)->solid;
-
-  if (solid) {
-    FttDirection d;
-    FttCellNeighbors n;
-
-    ftt_cell_neighbors (cell, &n);
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (n.c[d] && !GFS_CELL_IS_BOUNDARY (n.c[d]) && solid->s[d] > 0. && 
-	  solid->a/solid->s[d] < GFS_SMALL)
-	return TRUE;
-  }
-  return FALSE;
-}
-
-static void set_merged (FttCell * cell)
-{
-  GfsSolidVector * solid = GFS_STATE (cell)->solid;
-
-  if (!gfs_cell_is_small (cell))
-    solid->merged = NULL;
-  else {
-    FttCellNeighbors neighbor;
-    gdouble abest = 0.;
-    FttDirection i;
-
-    ftt_cell_neighbors (cell, &neighbor);
-    for (i = 0; i < FTT_NEIGHBORS && abest < 1.; i++)
-      if (neighbor.c[i] && !GFS_CELL_IS_BOUNDARY (neighbor.c[i]) && solid->s[i] > 0.) {
-	if (FTT_CELL_IS_LEAF (neighbor.c[i])) {
-	  if (GFS_IS_MIXED (neighbor.c[i])) {
-	    gdouble a = GFS_STATE (neighbor.c[i])->solid->a;
-	    
-	    if (a > abest) {
-	      abest = a;
-	      solid->merged = neighbor.c[i];
-	    }
-	  }
-	  else {
-	    solid->merged = neighbor.c[i];
-	    return;
-	  }
-	}
-	else {
-	  FttCellChildren child;
-	  guint j, n = ftt_cell_children_direction (neighbor.c[i], FTT_OPPOSITE_DIRECTION (i), &child);
-
-	  for (j = 0; j < n; j++)
-	    if (child.c[j]) {
-	      if (GFS_IS_MIXED (child.c[j])) {
-		gdouble a = GFS_STATE (child.c[j])->solid->a;
-	    
-		if (a > abest) {
-		  abest = a;
-		  solid->merged = child.c[j];
-		}
-	      }
-	      else {
-		solid->merged = child.c[j];
-		return;
-	      }
-	    }
-	}
-      }
-    if (abest == 0.)
-      g_warning ("file %s: line %d (%s): cannot merge small cell: %g",
-		 __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		 solid->a);
-  }
-}
-
-/**
- * gfs_set_merged:
- * @domain: the domain to traverse.
- *
- * Sets the @merged field of the mixed cells of the domain defined
- * by @domain. 
- */
-void gfs_set_merged (GfsDomain * domain)
-{
-  g_return_if_fail (domain != NULL);
-
-  gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			     (FttCellTraverseFunc) set_merged, NULL);
-}
-
-static void add_merged (GSList ** merged, FttCell * cell)
-{
-  if ((cell->flags & GFS_FLAG_USED) == 0) {
-    FttCellNeighbors neighbor;
-    FttDirection i;
-    GfsSolidVector * solid = GFS_STATE (cell)->solid;
-
-    *merged = g_slist_prepend (*merged, cell);
-    cell->flags |= GFS_FLAG_USED;
-
-    if (solid && solid->merged)
-      add_merged (merged, solid->merged);
-
-    ftt_cell_neighbors (cell, &neighbor);
-    for (i = 0; i < FTT_NEIGHBORS; i++)
-      if (neighbor.c[i]) {
-	if (!FTT_CELL_IS_LEAF (neighbor.c[i])) {
-	  FttCellChildren child;
-	  guint j, n;
-
-	  n = ftt_cell_children_direction (neighbor.c[i], FTT_OPPOSITE_DIRECTION (i), &child);;
-	  for (j = 0; j < n; j++)
-	    if (GFS_IS_MIXED (child.c[j]) &&
-		GFS_STATE (child.c[j])->solid->merged == cell)
-	      add_merged (merged, child.c[j]);
-	}
-	else if (GFS_IS_MIXED (neighbor.c[i]) && 
-		 GFS_STATE (neighbor.c[i])->solid->merged == cell)
-	  add_merged (merged, neighbor.c[i]);
-      }
-  }
-}
-
-static void traverse_merged (FttCell * cell, gpointer * datum)
-{
-  if ((cell->flags & GFS_FLAG_USED) == 0) {
-    GfsMergedTraverseFunc func = (GfsMergedTraverseFunc) datum[0];
-    gpointer data = datum[1];
-    GSList * merged = NULL;
-
-    add_merged (&merged, cell);
-    (* func) (merged, data);
-    g_slist_free (merged);
-  }
-}
-
-static void traverse_non_merged (FttCell * cell, gpointer * datum)
-{
-  if ((cell->flags & GFS_FLAG_USED) != 0)
-    cell->flags &= ~GFS_FLAG_USED;
-  else {
-    GfsMergedTraverseFunc func = (GfsMergedTraverseFunc) datum[0];
-    gpointer data = datum[1];
-    GSList merged;
-    merged.data = cell;
-    merged.next = NULL;
-    (* func) (&merged, data);
-  }
-}
-
-/**
- * gfs_domain_traverse_merged:
- * @domain: the domain to traverse.
- * @func: the function to call for each visited merged cells.
- * @data: user data to pass to @func.
- *
- * Traverses the merged leaf cells of the domain defined by @domain. A
- * list of merged cells is passed to @func. No cell belongs to more
- * than one merged list.  
- */
-void gfs_domain_traverse_merged (GfsDomain * domain,
-				GfsMergedTraverseFunc func,
-				gpointer data)
-{
-  gpointer datum[2];
-  
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (func != NULL);
-
-  datum[0] = func;
-  datum[1] = data;
-  gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			    (FttCellTraverseFunc) traverse_merged, datum);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			   (FttCellTraverseFunc) traverse_non_merged, datum);
-}
-
-/**
- * gfs_advection_update:
- * @merged: a list of merged #FttCell.
- * @par: the advection parameters.
- *
- * Updates the @v variable of @par for the merged cells of @merged
- * using the @fv update of each merged cell.
- *
- * The @v variable in each cell of the @merged list is set to its
- * average updated value over the composite cell defined by all the
- * cells in @merged.  
- */
-void gfs_advection_update (GSList * merged, const GfsAdvectionParams * par)
-{
-  g_return_if_fail (merged != NULL);
-  g_return_if_fail (par != NULL);
-
-  if (merged->next == NULL) { /* cell is not merged */
-    FttCell * cell = merged->data;
-
-    g_assert (!gfs_cell_is_small (cell));
-
-#if 0 /* D. Calhoun approach (fixme: does not use gfs_domain_cell_fraction()) */
-    if (GFS_IS_MIXED (cell)) {
-      FttDirection d;
-      gdouble mins = G_MAXDOUBLE;
-      GfsSolidVector * solid = GFS_STATE (cell)->solid;
-
-      for (d = 0; d < FTT_NEIGHBORS; d++)
-	if (solid->s[d] > 0. && 1./solid->s[d] < mins)
-	  mins = 1./solid->s[d];
-#if 0
-fprintf (stderr, "%g %g %g\n",
-	 solid->a, mins, 
-	 GFS_VALUE (cell, par->fv)/(mins*solid->a));
-#endif
-      if (mins*solid->a > 0.01)
-	GFS_VALUE (cell, par->v) += GFS_VALUE (cell, par->fv)/(mins*solid->a);
-      else
-	GFS_VALUE (cell, par->v) += 100.*GFS_VALUE (cell, par->fv);
-      g_assert (GFS_VALUE (cell, par->v) < 10.);
-    }
-    else
-#endif
-
-      GFS_VALUE (cell, par->v) +=
-	GFS_VALUE (cell, par->fv)/gfs_domain_cell_fraction (par->v->domain, cell);
-  }
-  else if (par->average) {
-    /* average value */
-    GSList * i = merged;
-    gdouble w = 0., total_vol = 0.;
-
-    while (i) {
-      FttCell * cell = i->data;
-      gdouble vol = ftt_cell_volume (cell);
-      gdouble a = gfs_domain_cell_fraction (par->v->domain, cell);
-      
-      total_vol += vol*a;
-      w += vol*(a*GFS_VALUE (cell, par->v) + GFS_VALUE (cell, par->fv));
-      i = i->next;
-    }
-    w /= total_vol;
-
-    i = merged;
-    while (i) {
-      FttCell * cell = i->data;
-
-      GFS_VALUE (cell, par->v) = w;
-      i = i->next;
-    }
-  }
-  else {
-    GSList * i = merged;
-    gdouble w = 0., total_vol = 0.;
-
-    while (i) {
-      FttCell * cell = i->data;
-      gdouble vol = ftt_cell_volume (cell);
-      gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-      gdouble f = gfs_domain_cell_fraction (par->v->domain, cell);
-
-      total_vol += vol*f;
-      if (a < GFS_SMALL) {
-	GFS_VALUE (cell, par->v) += GFS_VALUE (cell, par->fv)/(GFS_SMALL*f/a);
-	w += vol*GFS_VALUE (cell, par->fv)*(1. - a/GFS_SMALL);
-      }
-      else
-	GFS_VALUE (cell, par->v) += GFS_VALUE (cell, par->fv)/f;
-
-      i = i->next;
-    }
-    w /= total_vol;
-
-    i = merged;
-    while (i) {
-      FttCell * cell = i->data;
-      /* fixme: small cells should be excluded here?? 
-	 (with corresponding modification in total_vol) */
-      GFS_VALUE (cell, par->v) += w;
-      i = i->next;
-    }
-  }
-}
-
-void gfs_advection_params_write (GfsAdvectionParams * par, FILE * fp)
-{
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp,
-           "{\n"
-	   "  cfl      = %g\n"
-	   "  gradient = %s\n"
-	   "  flux     = %s\n"
-	   "  average  = %d\n",
-	   par->cfl,
-	   par->gradient == gfs_center_gradient ? 
-	   "gfs_center_gradient" :
-	   par->gradient == gfs_center_van_leer_gradient ?
-	   "gfs_center_van_leer_gradient" :
-	   par->gradient == gfs_center_minmod_gradient ?
-	   "gfs_center_minmod_gradient" :
-	   "none",
-	   par->flux == gfs_face_advection_flux ?
-	   "gfs_face_advection_flux" :
-	   par->flux == gfs_face_velocity_advection_flux ?
-	   "gfs_face_velocity_advection_flux" :
-	   par->flux == gfs_face_velocity_convective_flux ?
-	   "gfs_face_velocity_convective_flux" : "NULL",
-	   par->average);
-  if (par->gc)
-    fputs ("  gc       = 1\n", fp);
-  switch (par->scheme) {
-  case GFS_GODUNOV: fputs ("  scheme   = godunov\n", fp); break;
-  case GFS_NONE:    fputs ("  scheme   = none\n", fp); break;
-  }
-  if (par->moving_order != 1)
-    fputs ("  moving_order = 2\n", fp);
-  fputc ('}', fp);
-}
-
-void gfs_advection_params_init (GfsAdvectionParams * par)
-{
-  g_return_if_fail (par != NULL);
-
-  par->fv = NULL;
-  par->u = NULL;
-  par->g = NULL;
-  par->cfl = 0.8;
-  par->dt = 0.;
-  par->gradient = gfs_center_gradient;
-  par->upwinding = GFS_FACE_UPWINDING;
-  par->use_centered_velocity = TRUE;
-  par->scheme = GFS_GODUNOV;
-  par->average = FALSE;
-  par->gc = FALSE;
-  par->update = (GfsMergedTraverseFunc) gfs_advection_update;
-  par->moving_order = 1;
-}
-
-static gdouble none (FttCell * cell, FttComponent c, guint v)
-{
-  return 0.;
-}
-
-void gfs_advection_params_read (GfsAdvectionParams * par, GtsFile * fp)
-{
-  GtsFileVariable var[] = {
-    {GTS_DOUBLE, "cfl",          TRUE},
-    {GTS_STRING, "gradient",     TRUE},
-    {GTS_STRING, "flux",         TRUE},
-    {GTS_STRING, "scheme",       TRUE},
-    {GTS_INT,    "average",      TRUE},
-    {GTS_INT,    "gc",           TRUE},
-    {GTS_UINT,   "moving_order", TRUE},
-    {GTS_NONE}
-  };
-  gchar * gradient = NULL, * flux = NULL, * scheme = NULL;
-
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (fp != NULL);
-
-  var[0].data = &par->cfl;
-  var[1].data = &gradient;
-  var[2].data = &flux;
-  var[3].data = &scheme;
-  var[4].data = &par->average;
-  var[5].data = &par->gc;
-  var[6].data = &par->moving_order;
-
-  gts_file_assign_variables (fp, var);
-
-  if (fp->type != GTS_ERROR && par->cfl <= 0.)
-    gts_file_variable_error (fp, var, "cfl", "cfl must be strictly positive");
-
-  if (gradient) {
-    if (!strcmp (gradient, "gfs_center_gradient"))
-      par->gradient = gfs_center_gradient;
-    else if (!strcmp (gradient, "gfs_center_van_leer_gradient"))
-      par->gradient = gfs_center_van_leer_gradient;
-    else if (!strcmp (gradient, "gfs_center_minmod_gradient"))
-      par->gradient = gfs_center_minmod_gradient;
-    else if (!strcmp (gradient, "none"))
-      par->gradient = none;
-    else if (fp->type != GTS_ERROR)
-      gts_file_variable_error (fp, var, "gradient",
-			       "unknown gradient parameter `%s'", gradient);
-    g_free (gradient);
-  }
-
-  if (flux) {
-    if (!strcmp (flux, "gfs_face_advection_flux"))
-      par->flux = gfs_face_advection_flux;
-    else if (!strcmp (flux, "gfs_face_velocity_advection_flux"))
-      par->flux = gfs_face_velocity_advection_flux;
-    else if (!strcmp (flux, "gfs_face_velocity_convective_flux"))
-      par->flux = gfs_face_velocity_convective_flux;
-    else if (!strcmp (flux, "NULL"))
-      par->flux = gfs_face_advection_flux;
-    else if (fp->type != GTS_ERROR)
-      gts_file_variable_error (fp, var, "flux",
-			       "unknown flux parameter `%s'", flux);
-    g_free (flux);
-  }
-
-  if (scheme) {
-    if (!strcmp (scheme, "godunov"))
-      par->scheme = GFS_GODUNOV;
-    else if (!strcmp (scheme, "none"))
-      par->scheme = GFS_NONE;
-    else if (fp->type != GTS_ERROR)
-      gts_file_variable_error (fp, var, "scheme",
-			       "unknown scheme parameter `%s'", scheme);
-    g_free (scheme);
-  }
-}
diff --git a/src/advection.h b/src/advection.h
deleted file mode 100644
index a8ce14e..0000000
--- a/src/advection.h
+++ /dev/null
@@ -1,97 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __ADVECTION_H__
-#define __ADVECTION_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "domain.h"
-
-#define GFS_SMALL 0.5
-
-typedef enum {
-  GFS_GODUNOV,
-  GFS_NONE
-} GfsAdvectionScheme;
-
-typedef enum {
-  GFS_CENTERED_UPWINDING,
-  GFS_FACE_UPWINDING,
-  GFS_NO_UPWINDING,
-} GfsUpwinding;
-
-typedef struct _GfsAdvectionParams GfsAdvectionParams;
-typedef
-void      (* GfsFaceAdvectionFluxFunc)       (const FttCellFace * face,
-					      const GfsAdvectionParams * par);
-typedef void (* GfsMergedTraverseFunc)       (GSList * merged,
-					      gpointer data);
-
-struct _GfsAdvectionParams {
-  gdouble cfl, dt;
-  GfsVariable * v, * fv, ** u, ** g;
-  GfsCenterGradient gradient;
-  gboolean use_centered_velocity;
-  GfsUpwinding upwinding;
-  GfsFaceAdvectionFluxFunc flux;
-  GfsAdvectionScheme scheme;
-  gboolean average, gc;
-  GfsMergedTraverseFunc update;
-  guint moving_order;
-};
-
-void         gfs_advection_params_init        (GfsAdvectionParams * par);
-void         gfs_advection_params_write       (GfsAdvectionParams * par, 
-					       FILE * fp);
-void         gfs_advection_params_read        (GfsAdvectionParams * par, 
-					       GtsFile * fp);
-void         gfs_cell_advected_face_values    (FttCell * cell,
-					       const GfsAdvectionParams * par);
-void         gfs_cell_non_advected_face_values (FttCell * cell,
-						const GfsAdvectionParams * par);
-gdouble      gfs_face_upwinded_value          (const FttCellFace * face,
-					       GfsUpwinding upwinding,
-					       GfsVariable ** u);
-void         gfs_face_advection_flux          (const FttCellFace * face,
-					       const GfsAdvectionParams * par);
-void         gfs_face_velocity_advection_flux (const FttCellFace * face,
-					       const GfsAdvectionParams * par);
-void         gfs_face_velocity_convective_flux (const FttCellFace * face,
-						const GfsAdvectionParams * par);
-void         gfs_face_advected_normal_velocity     (const FttCellFace * face,
-						    const GfsAdvectionParams * par);
-void         gfs_face_interpolated_normal_velocity (const FttCellFace * face,
-						    GfsVariable ** v);
-void         gfs_face_reset_normal_velocity        (const FttCellFace * face);
-gboolean     gfs_cell_is_small                     (const FttCell * cell);
-void         gfs_set_merged                        (GfsDomain * domain);
-void         gfs_domain_traverse_merged            (GfsDomain * domain,
-						    GfsMergedTraverseFunc func,
-						    gpointer data);
-void         gfs_advection_update                  (GSList * merged, 
-					            const GfsAdvectionParams * par);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __ADVECTION_H__ */
diff --git a/src/balance.c b/src/balance.c
deleted file mode 100644
index 1c54cdc..0000000
--- a/src/balance.c
+++ /dev/null
@@ -1,323 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "balance.h"
-#include "mpi_boundary.h"
-#include "adaptive.h"
-
-/* GfsEventBalance: Object */
-
-#ifdef HAVE_MPI
-
-static void find_neighbors (GfsBox * box, GArray * pe)
-{
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY_MPI (box->neighbor[d])) {
-      guint process = GFS_BOUNDARY_MPI (box->neighbor[d])->process;
-      gboolean found = FALSE;
-      gint i;
-      for (i = 0; i < pe->len && !found; i++)
-	if (g_array_index (pe, guint, i) == process)
-	  found = TRUE;
-      if (!found)
-	g_array_append_val (pe, process);
-    }      
-}
-
-static GArray * neighboring_processors (GfsDomain * domain)
-{
-  GArray * pe = g_array_new (FALSE, FALSE, sizeof (guint));
-  if (domain->pid >= 0)
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) find_neighbors, pe);
-  return pe;
-}
-
-static void count (FttCell * cell, int * n)
-{
-  (*n)++;
-}
-
-#define NITERMAX 100
-#define TOL 0.001
-
-typedef struct {
-  guint * pid;     /* pid of neighbors */
-  gdouble * flow;  /* flow to neighbors */
-  guint n;         /* number of neighbors */
-} BalancingFlow;
-
-/*
- * Computes the "balancing flow" necessary to balance the domain
- * sizes on all the processes. @average is the average domain size
- * (i.e. the target domain size).
- */
-static BalancingFlow * balancing_flow_new (GfsDomain * domain, int average)
-{
-  BalancingFlow * b;
-
-  b = g_malloc0 (sizeof (BalancingFlow));
-  GArray * pe = neighboring_processors (domain);
-  if (pe->len == 0) {
-    g_array_free (pe, TRUE);
-    return b;
-  }
-  int size = 0, i;
-  gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) count, &size);
-  gdouble rsize = size - average;
-  gdouble * lambda = g_malloc (sizeof (gdouble)*(pe->len + 1)), lambda1, eps = G_MAXDOUBLE;
-  MPI_Request * request = g_malloc (sizeof (MPI_Request)*pe->len);
-  lambda1 = 0.;
-  /* this is Gamma and s from the "double-loop" fix of Johnson,
-     Bickson and Dolev, 2009, equation (6) */
-  gdouble Gamma = 0.5*pe->len, s = 0.5;
-  gdouble tolerance = MAX (TOL*average, 1.);
-  int niter = NITERMAX;
-  while (niter-- && eps > tolerance) {
-    MPI_Status status;
-    /* Send lambda to all neighbors */
-    lambda[0] = lambda1;
-    for (i = 0; i < pe->len; i++)
-      MPI_Isend (&(lambda[0]), 1, MPI_DOUBLE, g_array_index (pe, guint , i), 
-		 domain->pid,
-		 MPI_COMM_WORLD,
-		 &(request[i]));
-    /* Do one iteration of the "double-loop"-fixed Jacobi method for
-       the (graph)-Poisson equation */
-    gdouble rhs = rsize;
-    for (i = 0; i < pe->len; i++) {
-      MPI_Recv (&(lambda[i + 1]), 1, MPI_DOUBLE, g_array_index (pe, guint , i), 
-		g_array_index (pe, guint , i),
-		MPI_COMM_WORLD, &status);
-      rhs += lambda[i + 1];
-    }
-    /* update RHS and lambda for "double-loop"-fix */
-    rsize = (1. - s)*rsize + s*(size - average + Gamma*lambda[0]);
-    lambda1 = rhs/(Gamma + pe->len);
-    eps = fabs (lambda[0] - lambda1);
-    /* synchronize */
-    for (i = 0; i < pe->len; i++)
-      MPI_Wait (&request[i], &status);
-    gfs_all_reduce (domain, eps, MPI_DOUBLE, MPI_MAX);
-  }
-  g_free (request);
-  if (niter < 0 && domain->pid == 0)
-    g_warning ("balancing_flow(): could not converge after %d iterations", NITERMAX);
-
-  b->n = pe->len;
-  lambda1 = lambda[0];
-  for (i = 0; i < b->n; i++)
-    lambda[i] = lambda1 - lambda[i + 1];
-  b->flow = lambda;
-  b->pid = (guint *) g_array_free (pe, FALSE);
-  return b;
-}
-
-static void balancing_flow_destroy (BalancingFlow * b)
-{
-  g_free (b->pid);
-  g_free (b->flow);
-  g_free (b);
-}
-
-static void reset_box_size (GfsBox * box)
-{
-  box->size = 0;
-}
-
-typedef struct {
-  GfsBox * box;
-  gint dest, flow, min, neighboring;
-} BoxData;
-
-static void select_neighbouring_box (GfsBox * box, BoxData * b)
-{
-  if (box->pid != b->dest) {
-    gint neighboring = 0;
-    FttDirection d;
-    
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if ((GFS_IS_BOUNDARY_MPI (box->neighbor[d]) &&
-	   GFS_BOUNDARY_MPI (box->neighbor[d])->process == b->dest) ||
-	  (GFS_IS_BOX (box->neighbor[d]) &&
-	   GFS_BOX (box->neighbor[d])->pid == b->dest))
-	neighboring++;
-
-    if (neighboring && neighboring >= b->neighboring) {
-      if (box->size == 0)
-	ftt_cell_traverse (box->root, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			   (FttCellTraverseFunc) count, &box->size);
-      if (neighboring > b->neighboring ||
-	  fabs (box->size - b->flow) < fabs (b->box->size - b->flow)) {
-	b->box = box;
-	b->neighboring = neighboring;
-      }
-    }
-  }
-}
-
-static void get_pid (GfsBox * box, GArray * pid)
-{
-  g_assert (box->id > 0 && box->id <= pid->len);
-  g_array_index (pid, guint, box->id - 1) = gfs_box_domain (box)->pid;
-}
-
-static void update_box_pid (GfsBox * box, GArray * pid)
-{
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY_MPI (box->neighbor[d])) {
-      guint id = GFS_BOUNDARY_MPI (box->neighbor[d])->id;
-      g_assert (id > 0 && id <= pid->len);
-      GFS_BOUNDARY_MPI (box->neighbor[d])->process = g_array_index (pid, guint, id - 1);
-    }
-}
-
-#endif /* HAVE_MPI */
-
-static void gfs_event_balance_write (GtsObject * o, FILE * fp)
-{
-  GfsEventBalance * s = GFS_EVENT_BALANCE (o);
-
-  if (GTS_OBJECT_CLASS (gfs_event_balance_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_event_balance_class ())->parent_class->write)
-      (o, fp);
-
-  fprintf (fp, " %g", s->max);
-}
-
-static void gfs_event_balance_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsEventBalance * s = GFS_EVENT_BALANCE (*o);
-  GfsDomain * domain =  GFS_DOMAIN (gfs_object_simulation (s));
-
-  if (GTS_OBJECT_CLASS (gfs_event_balance_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_event_balance_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  
-  s->max = gfs_read_constant (fp, domain);
-}
-
-static gboolean gfs_event_balance_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_balance_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    GfsEventBalance * s = GFS_EVENT_BALANCE (event);
-    GtsRange size, boundary, mpiwait;
-
-    gfs_domain_stats_balance (domain, &size, &boundary, &mpiwait);
-    if (size.max/size.min > 1. + s->max) {
-#ifdef HAVE_MPI
-      BalancingFlow * balance = balancing_flow_new (domain, size.mean);
-      GPtrArray * request = g_ptr_array_new ();
-      int modified = FALSE;
-      int i;
-      /* Send boxes */
-      gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) reset_box_size, NULL);
-      guint nb = gts_container_size (GTS_CONTAINER (domain));
-      for (i = 0; i < balance->n; i++)
-	if (balance->flow[i] > 0.) { /* largest subdomain */
-	  /* we need to find the list of boxes which minimizes 
-	     |\sum n_i - n| where n_i is the size of box i. This is known in
-	     combinatorial optimisation as a "knapsack problem". */
-	  GSList * l = NULL;
-	  BoxData b;
-	  b.flow = balance->flow[i];
-	  b.dest = balance->pid[i];
-	  while (b.flow > 0 && nb > 1) {
-	    b.box = NULL; b.neighboring = 0;
-	    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) select_neighbouring_box, &b);
-	    if (b.box && b.box->size <= 2*b.flow) {
-	      l = g_slist_prepend (l, b.box);
-	      b.box->pid = b.dest;
-	      b.flow -= b.box->size;
-	      nb--;
-	      modified = TRUE;
-	    }
-	    else
-	      b.flow = 0;
-	  }
-	  g_ptr_array_add (request, gfs_send_boxes (domain, l, balance->pid[i]));
-	  g_slist_free (l);
-	}
-      /* Receive boxes */
-      for (i = 0; i < balance->n; i++)
-	if (balance->flow[i] < 0.) { /* smallest subdomain */
-	  GSList * l = gfs_receive_boxes (domain, balance->pid[i]);
-	  g_slist_free (l);
-	}
-      /* Synchronize */
-      for (i = 0; i < request->len; i++)
-	gfs_wait (g_ptr_array_index (request, i));
-      g_ptr_array_free (request, TRUE);
-      balancing_flow_destroy (balance);
-      /* Reshape */
-      gfs_all_reduce (domain, modified, MPI_INT, MPI_MAX);
-      if (modified) {
-	/* Updates the pid associated with each box */
-	guint nb = gts_container_size (GTS_CONTAINER (domain));
-	gfs_all_reduce (domain, nb, MPI_UNSIGNED, MPI_SUM);
-	GArray * pid = g_array_sized_new (FALSE, TRUE, sizeof (guint), nb);
-	g_array_set_size (pid, nb);
-	gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) get_pid, pid);
-	MPI_Allreduce (MPI_IN_PLACE, pid->data, nb, MPI_UNSIGNED, MPI_MAX, MPI_COMM_WORLD);
-	/* pid[id] now contains the current pid of box with index id */
-	gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) update_box_pid, pid);
-	g_array_free (pid, TRUE);
-	gfs_domain_reshape (domain, gfs_domain_depth (domain));
-      }
-#else /* not HAVE_MPI */
-      g_assert_not_reached ();
-#endif /* not HAVE_MPI */
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_event_balance_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_event_balance_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_event_balance_write;
-  GFS_EVENT_CLASS (klass)->event = gfs_event_balance_event;
-}
-
-GfsEventClass * gfs_event_balance_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_balance_info = {
-      "GfsEventBalance",
-      sizeof (GfsEventBalance),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_balance_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_event_balance_info);
-  }
-
-  return klass;
-}
diff --git a/src/balance.h b/src/balance.h
deleted file mode 100644
index 2f5281f..0000000
--- a/src/balance.h
+++ /dev/null
@@ -1,51 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __BALANCE_H__
-#define __BALANCE_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "event.h"
-
-/* GfsEventBalance: Header */
-
-typedef struct _GfsEventBalance         GfsEventBalance;
-
-struct _GfsEventBalance {
-  GfsEvent parent;
-
-  gdouble max;
-};
-
-#define GFS_EVENT_BALANCE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsEventBalance,\
-					         gfs_event_balance_class ())
-#define GFS_IS_EVENT_BALANCE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_event_balance_class ()))
-
-GfsEventClass * gfs_event_balance_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __BALANCE_H__ */
diff --git a/src/boundary.c b/src/boundary.c
deleted file mode 100644
index 26306b0..0000000
--- a/src/boundary.c
+++ /dev/null
@@ -1,1867 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <math.h>
-
-#include "config.h"
-#include "boundary.h"
-#include "simulation.h"
-#include "adaptive.h"
-#include "vof.h"
-
-static FttVector rpos[FTT_NEIGHBORS] = {
-#if FTT_2D
-  {1.,0.,0.}, {-1.,0.,0.}, {0.,1.,0.}, {0.,-1.,0.}
-#else  /* FTT_3D */
-  {1.,0.,0.}, {-1.,0.,0.}, {0.,1.,0.}, {0.,-1.,0.}, {0.,0.,1.}, {0.,0.,-1.}
-#endif /* FTT_3D */
-};
-
-/* GfsBc: Object */
-
-static void symmetry (FttCellFace * f, GfsBc * b)
-{
-  if (b->v->component == f->d/2)
-    GFS_VARIABLE (f->cell, b->v->i) = - GFS_VARIABLE (f->neighbor, b->v->i);
-  else
-    GFS_VARIABLE (f->cell, b->v->i) =   GFS_VARIABLE (f->neighbor, b->v->i);
-}
-
-static void face_symmetry (FttCellFace * f, GfsBc * b)
-{
-  if (b->v->component == f->d/2)
-    GFS_STATE (f->cell)->f[f->d].v = 
-      GFS_STATE (f->neighbor)->f[FTT_OPPOSITE_DIRECTION (f->d)].v = 0.;
-  else if (GFS_IS_VARIABLE_TRACER_VOF (b->v))
-    GFS_STATE (f->cell)->f[f->d].v = GFS_VARIABLE (f->neighbor, b->v->i);
-  else
-    GFS_STATE (f->cell)->f[f->d].v = 
-      GFS_STATE (f->neighbor)->f[FTT_OPPOSITE_DIRECTION (f->d)].v;
-}
-
-static void bc_write (GtsObject * o, FILE * fp)
-{
-  g_assert (GFS_BC (o)->v);
-  fprintf (fp, "%s %s", o->klass->info.name, GFS_BC (o)->v->name);
-}
-
-static void bc_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBc * bc = GFS_BC (*o);
-
-  g_assert (bc->b);
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (klass)");
-    return;
-  }
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (v)");
-    return;
-  }
-  bc->v = gfs_variable_from_name (gfs_box_domain (bc->b->box)->variables, 
-				  fp->token->str);
-  if (bc->v == NULL)
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-  else
-    gts_file_next_token (fp);
-}
-
-static void gfs_bc_class_init (GtsObjectClass * klass)
-{
-  klass->write = bc_write;
-  klass->read =  bc_read;
-}
-
-static void gfs_bc_init (GfsBc * object)
-{
-  object->bc =             (FttFaceTraverseFunc) symmetry;
-  object->homogeneous_bc = (FttFaceTraverseFunc) symmetry;
-  object->face_bc =        (FttFaceTraverseFunc) face_symmetry;
-}
-
-GfsBcClass * gfs_bc_class (void)
-{
-  static GfsBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_bc_info = {
-      "GfsBc",
-      sizeof (GfsBc),
-      sizeof (GfsBcClass),
-      (GtsObjectClassInitFunc) gfs_bc_class_init,
-      (GtsObjectInitFunc) gfs_bc_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_object_class ()),
-				  &gfs_bc_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_bc_new:
- * @k: a #GfsBcClass.
- * @v: a variable associated with the BC or %NULL.
- * @extra:
- *
- * Returns: a new #GfsBc.
- */
-GfsBc * gfs_bc_new (GfsBcClass * k, GfsVariable * v, gboolean extra)
-{
-  GfsBc * b;
-
-  g_return_val_if_fail (k != NULL, NULL);
-
-  b = GFS_BC (gts_object_new (GTS_OBJECT_CLASS (k)));
-  if (v)
-    gfs_object_simulation_set (b, v->domain);
-  b->v = v;
-  b->extra = extra;
-
-  return b;
-}
-
-/* GfsBcValue: Object */
-
-static void bc_value_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_bc_value_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_bc_value_class ())->parent_class->write) 
-      (o, fp);
-  if (GFS_BC_VALUE (o)->val)
-    gfs_function_write (GFS_BC_VALUE (o)->val, fp);
-}
-
-static void bc_value_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBcValue * bc = GFS_BC_VALUE (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_bc_value_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_bc_value_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  if (bc->val == NULL)
-    bc->val = gfs_function_new (gfs_function_class (), 0.);
-  gfs_function_read (GFS_BC_VALUE (*o)->val, gfs_box_domain (GFS_BC (bc)->b->box), fp);
-}
-
-static void bc_value_destroy (GtsObject * o)
-{
-  if (GFS_BC_VALUE (o)->val)
-    gts_object_destroy (GTS_OBJECT (GFS_BC_VALUE (o)->val));
-
-  (* GTS_OBJECT_CLASS (gfs_bc_value_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_bc_value_class_init (GtsObjectClass * klass)
-{
-  klass->write   = bc_value_write;
-  klass->read    = bc_value_read;
-  klass->destroy = bc_value_destroy;
-}
-
-GfsBcClass * gfs_bc_value_class (void)
-{
-  static GfsBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_bc_value_info = {
-      "GfsBcValue",
-      sizeof (GfsBcValue),
-      sizeof (GfsBcClass),
-      (GtsObjectClassInitFunc) gfs_bc_value_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_bc_class ()),
-				  &gfs_bc_value_info);
-  }
-
-  return klass;
-}
-
-static GfsBc * gfs_bc_value_new (GfsBcClass * k,
-				 GfsVariable * v,
-				 GfsFunction * val,
-				 gboolean extra)
-{
-  GfsBcValue * bc = GFS_BC_VALUE (gfs_bc_new (k, v, extra));
-
-  if (val == NULL)
-    bc->val = gfs_function_new (gfs_function_class (), 0.);
-  else
-    bc->val = val;
-
-  return GFS_BC (bc);
-}
-
-/* GfsBcDirichlet: Object */
-
-static void dirichlet (FttCellFace * f, GfsBc * b)
-{
-  GFS_VALUE (f->cell, b->v) = 
-    2.*gfs_function_face_value (GFS_BC_VALUE (b)->val, f)
-    - GFS_VALUE (f->neighbor, b->v);
-}
-
-static void dirichlet_vof (FttCellFace * f, GfsBc * b)
-{
-  GFS_VALUE (f->cell, b->v) = gfs_function_face_value (GFS_BC_VALUE (b)->val, f);
-}
-
-static void homogeneous_dirichlet (FttCellFace * f, GfsBc * b)
-{
-  GFS_VALUE (f->cell, b->v) = - GFS_VALUE (f->neighbor, b->v);
-}
-
-static void face_dirichlet (FttCellFace * f, GfsBc * b)
-{
-  GFS_STATE (f->cell)->f[f->d].v = GFS_STATE (f->neighbor)->f[FTT_OPPOSITE_DIRECTION (f->d)].v = 
-    gfs_function_face_value (GFS_BC_VALUE (b)->val, f);
-}
-
-static void bc_dirichlet_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBc * bc = GFS_BC (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_bc_dirichlet_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_bc_dirichlet_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  gfs_function_set_units (GFS_BC_VALUE (bc)->val, bc->v->units);
-  if (GFS_IS_VARIABLE_TRACER_VOF (bc->v))
-    bc->bc = (FttFaceTraverseFunc) dirichlet_vof;
-}
-
-static void gfs_bc_dirichlet_init (GfsBc * object)
-{
-  object->bc =             (FttFaceTraverseFunc) dirichlet;
-  object->homogeneous_bc = (FttFaceTraverseFunc) homogeneous_dirichlet;
-  object->face_bc =        (FttFaceTraverseFunc) face_dirichlet;
-}
-
-static void gfs_bc_dirichlet_class_init (GtsObjectClass * klass)
-{
-  klass->read = bc_dirichlet_read;
-}
-
-GfsBcClass * gfs_bc_dirichlet_class (void)
-{
-  static GfsBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_bc_dirichlet_info = {
-      "GfsBcDirichlet",
-      sizeof (GfsBcValue),
-      sizeof (GfsBcClass),
-      (GtsObjectClassInitFunc) gfs_bc_dirichlet_class_init,
-      (GtsObjectInitFunc) gfs_bc_dirichlet_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_bc_value_class ()),
-				  &gfs_bc_dirichlet_info);
-  }
-
-  return klass;
-}
-
-/* GfsBcNeumann: Object */
-
-static void neumann (FttCellFace * f, GfsBc * b)
-{
-  GFS_VALUE (f->cell, b->v) = 
-    GFS_VALUE (f->neighbor, b->v) +
-    gfs_function_face_value (GFS_BC_VALUE (b)->val, f)
-    *ftt_cell_size (f->cell);
-}
-
-static void homogeneous_neumann (FttCellFace * f, GfsBc * b)
-{
-  GFS_VALUE (f->cell, b->v) = GFS_VALUE (f->neighbor, b->v);
-}
-
-static void face_neumann (FttCellFace * f, GfsBc * b)
-{
-  GFS_STATE (f->cell)->f[f->d].v = 
-    GFS_VALUE (f->neighbor, b->v) +
-    gfs_function_face_value (GFS_BC_VALUE (b)->val, f)
-    *ftt_cell_size (f->cell)/2.;
-}
-
-static void bc_neumann_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBc * bc = GFS_BC (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_bc_neumann_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_bc_neumann_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  gfs_function_set_units (GFS_BC_VALUE (bc)->val, bc->v->units - 1.);
-}
-
-static void gfs_bc_neumann_init (GfsBc * object)
-{
-  object->bc =             (FttFaceTraverseFunc) neumann;
-  object->homogeneous_bc = (FttFaceTraverseFunc) homogeneous_neumann;
-  object->face_bc =        (FttFaceTraverseFunc) face_neumann;
-}
-
-static void gfs_bc_neumann_class_init (GtsObjectClass * klass)
-{
-  klass->read = bc_neumann_read;
-}
-
-GfsBcClass * gfs_bc_neumann_class (void)
-{
-  static GfsBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_bc_neumann_info = {
-      "GfsBcNeumann",
-      sizeof (GfsBcValue),
-      sizeof (GfsBcClass),
-      (GtsObjectClassInitFunc) gfs_bc_neumann_class_init,
-      (GtsObjectInitFunc) gfs_bc_neumann_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_bc_value_class ()),
-				  &gfs_bc_neumann_info);
-  }
-
-  return klass;
-}
-
-/* GfsBcNavier: Object */
-
-static void navier (FttCellFace * f, GfsBc * b)
-{
-  gdouble h = ftt_cell_size (f->cell);
-  gdouble lambda = gfs_function_face_value (GFS_BC_NAVIER (b)->lambda, f);
-  GFS_VARIABLE (f->cell, b->v->i) = 
-    (2.*gfs_function_face_value (GFS_BC_VALUE (b)->val, f)*h
-     - (h - 2.*lambda)*GFS_VARIABLE (f->neighbor, b->v->i))/(h + 2.*lambda);
-}
-
-static void face_navier (FttCellFace * f, GfsBc * b)
-{
-  gdouble h = ftt_cell_size (f->cell);
-  gdouble lambda = gfs_function_face_value (GFS_BC_NAVIER (b)->lambda, f);
-  GFS_STATE (f->cell)->f[f->d].v = GFS_STATE (f->neighbor)->f[FTT_OPPOSITE_DIRECTION (f->d)].v = 
-    (gfs_function_face_value (GFS_BC_VALUE (b)->val, f)*h + 
-     2.*lambda*GFS_VARIABLE (f->neighbor, b->v->i))/(h + 2.*lambda);
-}
-
-static void bc_navier_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_bc_navier_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_bc_navier_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  GfsBcNavier * bc = GFS_BC_NAVIER (*o);
-  if (bc->lambda == NULL)
-    bc->lambda = gfs_function_new (gfs_function_class (), 0.);
-  gfs_function_set_units (bc->lambda, 1.);
-  gfs_function_read (bc->lambda, gfs_box_domain (GFS_BC (bc)->b->box), fp);
-}
-
-static void bc_navier_write (GtsObject * o, FILE * fp)
-{  
-  (* GTS_OBJECT_CLASS (gfs_bc_navier_class ())->parent_class->write) (o, fp);
-  if (GFS_BC_NAVIER (o)->lambda)
-    gfs_function_write (GFS_BC_NAVIER (o)->lambda, fp);
-}
-
-static void gfs_bc_navier_init (GfsBc * object)
-{
-  object->bc =             (FttFaceTraverseFunc) navier;
-  object->homogeneous_bc = (FttFaceTraverseFunc) homogeneous_dirichlet;
-  object->face_bc =        (FttFaceTraverseFunc) face_navier;
-}
-
-static void gfs_bc_navier_class_init (GtsObjectClass * klass)
-{
-  klass->read = bc_navier_read;
-  klass->write = bc_navier_write;
-}
-
-GfsBcClass * gfs_bc_navier_class (void)
-{
-  static GfsBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_bc_navier_info = {
-      "GfsBcNavier",
-      sizeof (GfsBcNavier),
-      sizeof (GfsBcClass),
-      (GtsObjectClassInitFunc) gfs_bc_navier_class_init,
-      (GtsObjectInitFunc) gfs_bc_navier_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_bc_value_class ()),
-				  &gfs_bc_navier_info);
-  }
-
-  return klass;
-}
-
-/* GfsBoundary: Object */
-
-static void destroy_bc (GfsVariable * v, GtsObject * o)
-{
-  gts_object_destroy (o);
-}
-
-static void gfs_boundary_destroy (GtsObject * object)
-{
-  GfsBoundary * boundary = GFS_BOUNDARY (object);
-
-  if (boundary->root) {
-    GfsDomain * domain = gfs_box_domain (boundary->box);
-    if (domain == NULL) /* domain has been destroyed */
-      ftt_cell_destroy (boundary->root, NULL, NULL);
-    else
-      ftt_cell_destroy (boundary->root, (FttCellCleanupFunc) gfs_cell_cleanup, domain);
-  }
-  boundary->box->neighbor[FTT_OPPOSITE_DIRECTION (boundary->d)] = NULL;
-
-  gts_object_destroy (GTS_OBJECT (boundary->default_bc));
-  if (boundary->bc) {
-    g_hash_table_foreach (boundary->bc, (GHFunc) destroy_bc, NULL);
-    g_hash_table_destroy (boundary->bc);
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_boundary_class ())->parent_class->destroy) (object);
-}
-
-static void match (FttCell * cell, GfsBoundary * boundary)
-{
-  FttCell * neighbor = ftt_cell_neighbor (cell, boundary->d);
-  FttCell * parent = ftt_cell_parent (cell);
-  guint level = ftt_cell_level (cell);
-
-  cell->flags |= GFS_FLAG_BOUNDARY;
-  if (parent && GFS_CELL_IS_GRADIENT_BOUNDARY (parent))
-    cell->flags |= GFS_FLAG_GRADIENT_BOUNDARY;
-  if (neighbor == NULL || ftt_cell_level (neighbor) < level) {
-    if (FTT_CELL_IS_ROOT (cell))
-      g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR,
-	     "root cell is entirely outside of the fluid domain\n"
-	     "the solid surface orientation may be incorrect");
-    ftt_cell_destroy (cell, (FttCellCleanupFunc) gfs_cell_cleanup, gfs_box_domain (boundary->box));
-    boundary->changed = TRUE;
-    return;
-  }
-  if (ftt_cell_level (neighbor) == level) {
-    GfsSolidVector * s = GFS_STATE (neighbor)->solid;
-
-    if (s && s->s[FTT_OPPOSITE_DIRECTION (boundary->d)] == 0.) {
-      if (FTT_CELL_IS_ROOT (cell))
-	g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR,
-	       "root cell is entirely outside of the fluid domain\n"
-	       "the solid surface orientation may be incorrect");
-      ftt_cell_destroy (cell, (FttCellCleanupFunc) gfs_cell_cleanup,
-			gfs_box_domain (boundary->box));
-      boundary->changed = TRUE;
-      return;
-    }
-    if (s) {
-      FttDirection d;
-      FttComponent c;
-      GfsSolidVector * t;
-
-      if (GFS_STATE (cell)->solid == NULL)
-	GFS_STATE (cell)->solid = g_malloc0 (sizeof (GfsSolidVector));
-      t = GFS_STATE (cell)->solid;
-      t->a = s->a;
-      for (d = 0; d < FTT_NEIGHBORS; d++)
-	if (d/2 == boundary->d/2)
-	  t->s[d] = s->s[FTT_OPPOSITE_DIRECTION (d)];
-	else
-	  t->s[d] = s->s[d];
-      for (c = 0; c < FTT_DIMENSION; c++)
-	if (c == boundary->d/2) {
-	  FttVector p1, p2;
-	  ftt_cell_pos (cell, &p1);
-	  ftt_cell_pos (neighbor, &p2);
-	  (&t->cm.x)[c] = (&p1.x)[c] + (&p2.x)[c] - (&s->cm.x)[c];
-	  (&t->ca.x)[c] = (&p1.x)[c] + (&p2.x)[c] - (&s->ca.x)[c];
-	}
-	else {
-	  (&t->cm.x)[c] = (&s->cm.x)[c];
-	  (&t->ca.x)[c] = (&s->ca.x)[c];
-	}
-    }
-    else if (GFS_STATE (cell)->solid != NULL) {
-      g_free (GFS_STATE (cell)->solid);
-      GFS_STATE (cell)->solid = NULL;
-    }      
-    if (FTT_CELL_IS_LEAF (cell) && !FTT_CELL_IS_LEAF (neighbor)) {
-      GfsDomain * domain = gfs_box_domain (boundary->box);
-      ftt_cell_refine_single (cell, domain->cell_init, domain->cell_init_data);
-      boundary->changed = TRUE;
-    }
-  }
-  else
-    g_assert_not_reached ();
-  if (!FTT_CELL_IS_LEAF (cell))
-    level++;
-  if (level > boundary->depth)
-    boundary->depth = level;
-}
-
-static void boundary_match (GfsBoundary * boundary)
-{
-  guint l = ftt_cell_level (boundary->root);
-
-  boundary->changed = FALSE;
-  boundary->depth = l;
-  while (l <= boundary->depth) {
-    ftt_cell_traverse_boundary (boundary->root, boundary->d,
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, l,
-				(FttCellTraverseFunc) match, boundary);
-    l++;
-  }
-  if (boundary->changed)
-    ftt_cell_flatten (boundary->root, boundary->d, (FttCellCleanupFunc) gfs_cell_cleanup, 
-		      gfs_box_domain (boundary->box));
-}
-
-static void is_extra (GfsVariable * v, GfsBc * bc, gboolean * extra)
-{
-  if (bc->extra)
-    *extra = TRUE;
-}
-
-static void write_extra (GfsVariable * v, GfsBc * bc, FILE * fp)
-{
-  if (bc->extra) {
-    g_assert (GTS_OBJECT (bc)->klass->write);
-    (* GTS_OBJECT (bc)->klass->write) (GTS_OBJECT (bc), fp);
-    fputc ('\n', fp);
-  }
-}
-
-static void gfs_boundary_write (GtsObject * o, FILE * fp)
-{
-  GfsBoundary * b = GFS_BOUNDARY (o);
-  gboolean any_extra = FALSE;
-
-  if (GTS_OBJECT_CLASS (gfs_boundary_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_boundary_class ())->parent_class->write) 
-      (o, fp);
-
-  g_hash_table_foreach (b->bc, (GHFunc) is_extra, &any_extra);
-  if (any_extra) {
-    fputs (" {\n", fp);
-    g_hash_table_foreach (b->bc, (GHFunc) write_extra, fp);
-    fputc ('}', fp);
-  }
-}
-
-static gboolean boundary_read_extra_bc (GfsBoundary * b, GtsFile * fp)
-{
-  gboolean ret = FALSE;
-
-  if (fp->type != '{')
-    return ret;
-
-  fp->scope_max++;
-  gts_file_next_token (fp);
-
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a keyword");
-      return ret;
-    }
-    else {
-      GtsObjectClass * klass = gfs_object_class_from_name (fp->token->str);
-      GtsObject * object;
-      
-      if (klass == NULL) {
-	gts_file_error (fp, "unknown keyword `%s'", fp->token->str);
-	return ret;
-      }
-      else if (!gts_object_class_is_from_class (klass, gfs_bc_class ())) {
-	gts_file_error (fp, "`%s' is not a GfsBc", fp->token->str);
-	return ret;
-      }
-
-      object = gts_object_new (klass);
-      g_assert (klass->read);
-      GFS_BC (object)->b = b;
-      GFS_BC (object)->extra = TRUE;
-      (* klass->read) (&object, fp);
-      if (fp->type == GTS_ERROR) {
-	gts_object_destroy (object);
-	return ret;
-      }
-
-      gfs_boundary_add_bc (b, GFS_BC (object));
-      ret = TRUE;
-    }
-  }
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return ret;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-
-  return ret;
-}
-
-static void gfs_boundary_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_boundary_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_boundary_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  boundary_read_extra_bc (GFS_BOUNDARY (*o), fp);
-}
-
-static void gfs_boundary_class_init (GfsBoundaryClass * klass)
-{
-  klass->match = boundary_match;
-
-  GTS_OBJECT_CLASS (klass)->write =   gfs_boundary_write;
-  GTS_OBJECT_CLASS (klass)->read =    gfs_boundary_read;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_boundary_destroy;
-}
-
-static void gfs_boundary_init (GfsBoundary * b)
-{
-  b->type = GFS_BOUNDARY_CENTER_VARIABLE;
-  b->bc = g_hash_table_new (g_str_hash, g_str_equal);
-  gfs_boundary_set_default_bc (b, gfs_bc_new (gfs_bc_class (), NULL, FALSE));
-}
-
-GfsBoundaryClass * gfs_boundary_class (void)
-{
-  static GfsBoundaryClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_boundary_info = {
-      "GfsBoundary",
-      sizeof (GfsBoundary),
-      sizeof (GfsBoundaryClass),
-      (GtsObjectClassInitFunc) gfs_boundary_class_init,
-      (GtsObjectInitFunc) gfs_boundary_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (gts_object_class (), &gfs_boundary_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_boundary_new:
- * @klass: a #GfsBoundaryClass.
- * @box: a #GfsBox.
- * @d: a direction.
- *
- * Creates a new boundary of type @klass for @box in direction @d.
- *
- * This function fails if @box has already a boundary in direction @d.
- *
- * Returns: a new #GfsBoundary.
- */
-GfsBoundary * gfs_boundary_new (GfsBoundaryClass * klass,
-				GfsBox * box,
-				FttDirection d)
-{
-  GfsBoundary * boundary;
-  GfsDomain * domain;
-  FttVector pos;
-  gdouble size;
-
-  g_return_val_if_fail (box != NULL, NULL);
-  g_return_val_if_fail (d < FTT_NEIGHBORS, NULL);
-  g_return_val_if_fail (box->neighbor[d] == NULL, NULL);
-
-  boundary = GFS_BOUNDARY (gts_object_new (GTS_OBJECT_CLASS (klass)));
-  boundary->box = box;
-  box->neighbor[d] = GTS_OBJECT (boundary);
-  boundary->d = FTT_OPPOSITE_DIRECTION (d);
-  if (box->root) {
-    domain = gfs_box_domain (box);
-    boundary->root = ftt_cell_new ((FttCellInitFunc) gfs_cell_init, domain);
-    FTT_ROOT_CELL (boundary->root)->parent = box;
-    ftt_cell_set_level (boundary->root, ftt_cell_level (box->root));
-    ftt_cell_set_neighbor_match (boundary->root, box->root, boundary->d, 
-				 (FttCellInitFunc) gfs_cell_init, domain);
-    ftt_cell_pos (box->root, &pos);
-    size = ftt_cell_size (box->root);
-    pos.x += rpos[d].x*size;
-    pos.y += rpos[d].y*size;
-    pos.z += rpos[d].z*size;
-    ftt_cell_set_pos (boundary->root, &pos);
-
-    boundary_match (boundary);
-  }
-
-  return boundary;
-}
-
-/**
- * gfs_boundary_send:
- * @boundary: a #GfsBoundary.
- *
- * Calls the @send() method of @boundary.
- */
-void gfs_boundary_send (GfsBoundary * boundary)
-{
-  g_return_if_fail (boundary != NULL);
-
-  if (GFS_BOUNDARY_CLASS (GTS_OBJECT (boundary)->klass)->send)
-    (* GFS_BOUNDARY_CLASS (GTS_OBJECT (boundary)->klass)->send) (boundary);
-}
-
-/**
- * gfs_boundary_receive:
- * @boundary: a #GfsBoundary.
- * @flags: the traversal flags.
- * @max_depth: the maximum depth of the traversal.
- *
- * Calls the @receive() method of @boundary.
- */
-void gfs_boundary_receive (GfsBoundary * boundary,
-			   FttTraverseFlags flags,
-			   gint max_depth)
-{
-  g_return_if_fail (boundary != NULL);
-
-  if (GFS_BOUNDARY_CLASS (GTS_OBJECT (boundary)->klass)->receive)
-    (* GFS_BOUNDARY_CLASS (GTS_OBJECT (boundary)->klass)->receive)
-      (boundary, flags, max_depth);
-}
-
-/**
- * gfs_boundary_synchronize:
- * @boundary: a #GfsBoundary.
- *
- * Calls the @synchronize() method of @boundary.
- */
-void gfs_boundary_synchronize (GfsBoundary * boundary)
-{
-  g_return_if_fail (boundary != NULL);
-
-  if (GFS_BOUNDARY_CLASS (GTS_OBJECT (boundary)->klass)->synchronize)
-    (* GFS_BOUNDARY_CLASS (GTS_OBJECT (boundary)->klass)->synchronize) (boundary);
-}
-
-/**
- * gfs_boundary_lookup:
- * @b: a #GfsBoundary.
- * @v: a #GfsVariable.
- *
- * Returns: the #GfsBc associated with @b and @v.
- */
-GfsBc * gfs_boundary_lookup_bc (GfsBoundary * b, GfsVariable * v)
-{
-  GfsBc * bv;
-
-  g_return_val_if_fail (b != NULL, NULL);
-  g_return_val_if_fail (v != NULL, NULL);
-
-  if (!v->name || !(bv = g_hash_table_lookup (b->bc, v->name))) {
-    if (v->default_bc) {
-      bv = v->default_bc;
-      bv->b = b;
-    }
-    else
-      bv = b->default_bc;
-    bv->v = v;
-  }
-  return bv;
-}
-
-/**
- * gfs_boundary_set_default_bc:
- * @b: a #GfsBoundary.
- * @bc: a #GfsBc.
- *
- * Sets the default boundary condition for @b to @bc.
- */
-void gfs_boundary_set_default_bc (GfsBoundary * b, GfsBc * bc)
-{
-  g_return_if_fail (b != NULL);
-  g_return_if_fail (bc != NULL);
-  g_return_if_fail (bc->b == NULL || bc->b == b);
-
-  if (b->default_bc)
-    gts_object_destroy (GTS_OBJECT (b->default_bc));
-  b->default_bc = bc;
-  bc->b = b;
-}
-
-/**
- * gfs_variable_set_default_bc:
- * @v: a #GfVariable.
- * @bc: a #GfsBc.
- *
- * Sets the default boundary condition for @v to @bc.
- */
-void gfs_variable_set_default_bc (GfsVariable * v, GfsBc * bc)
-{
-  g_return_if_fail (v != NULL);
-  g_return_if_fail (bc != NULL);
-  g_return_if_fail (bc->v == NULL || bc->v == v);
-
-  if (v->default_bc)
-    gts_object_destroy (GTS_OBJECT (v->default_bc));
-  v->default_bc = bc;
-  bc->v = v;
-}
-
-/**
- * gfs_boundary_add_bc:
- * @b: a #GfsBoundary.
- * @bc: a #GfsBc.
- *
- * Adds boundary condition @bc to @b.
- */
-void gfs_boundary_add_bc (GfsBoundary * b, GfsBc * bc)
-{
-  GfsBc * old;
-  
-  g_return_if_fail (b != NULL);
-  g_return_if_fail (bc != NULL);
-  g_return_if_fail (bc->v != NULL);
-  g_return_if_fail (bc->v->name != NULL);
-  g_return_if_fail (bc->b == NULL || bc->b == b);
-
-  old = g_hash_table_lookup (b->bc, bc->v->name);
-  if (!old || !old->extra) {
-    if (old) gts_object_destroy (GTS_OBJECT (old));
-    g_hash_table_insert (b->bc, bc->v->name, bc);
-    bc->b = b;
-  }
-  else
-    gts_object_destroy (GTS_OBJECT (bc));
-}
-
-/* GfsBoundaryInflowConstant: Object */
-
-static GtsColor inflow_color (GtsObject * o)
-{
-  GtsColor c = { 0., 0., 1. }; /* blue */
-
-  return c;
-}
-
-static void inflow_constant_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_boundary_inflow_constant_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_boundary_inflow_constant_class ())->parent_class->write) 
-      (o, fp);
-
-  gfs_function_write (GFS_BOUNDARY_INFLOW_CONSTANT (o)->un, fp);
-}
-
-static void inflow_constant_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBoundary * b = GFS_BOUNDARY (*o);  
-  FttComponent c;
-  GfsFunction * un = GFS_BOUNDARY_INFLOW_CONSTANT (*o)->un;
-  GfsVariable ** v;
-
-  if (GTS_OBJECT_CLASS (gfs_boundary_inflow_constant_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_boundary_inflow_constant_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  gfs_function_read (un, gfs_box_domain (b->box), fp);
-  gfs_function_set_units (un, 1.);
-
-  v = gfs_domain_velocity (gfs_box_domain (b->box));
-  for (c = 0; c < FTT_DIMENSION; c++)
-    if (c == b->d/2)
-      gfs_boundary_add_bc (b, gfs_bc_value_new (gfs_bc_dirichlet_class (),
-						v[c], un, FALSE));
-    else
-      gfs_boundary_add_bc (b, gfs_bc_value_new (gfs_bc_dirichlet_class (),
-						v[c], NULL, FALSE));
-}
-
-static void gfs_boundary_inflow_constant_class_init (GtsObjectClass * klass)
-{
-  klass->read    = inflow_constant_read;
-  klass->write   = inflow_constant_write;
-  klass->color   = inflow_color;
-}
-
-static void gfs_boundary_inflow_constant_init (GfsBoundaryInflowConstant * object)
-{
-  object->un = gfs_function_new (gfs_function_class (), 0.);
-}
-
-GfsBoundaryInflowConstantClass * gfs_boundary_inflow_constant_class (void)
-{
-  static GfsBoundaryInflowConstantClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_boundary_inflow_constant_info = {
-      "GfsBoundaryInflowConstant",
-      sizeof (GfsBoundaryInflowConstant),
-      sizeof (GfsBoundaryInflowConstantClass),
-      (GtsObjectClassInitFunc) gfs_boundary_inflow_constant_class_init,
-      (GtsObjectInitFunc) gfs_boundary_inflow_constant_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_boundary_class ()),
-				  &gfs_boundary_inflow_constant_info);
-  }
-
-  return klass;
-}
-
-/* GfsBoundaryOutflow: Object */
-
-static GtsColor outflow_color (GtsObject * o)
-{
-  GtsColor c = { 0., 1., 0. }; /* green */
-
-  return c;
-}
-
-static void outflow_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBoundary * b = GFS_BOUNDARY (*o);
-  GfsDomain * domain;
-  GfsVariable ** v;
-
-  if (GTS_OBJECT_CLASS (gfs_boundary_outflow_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_boundary_outflow_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  domain = gfs_box_domain (b->box);
-  v = gfs_domain_velocity (domain);
-  gfs_boundary_add_bc (b, gfs_bc_value_new (gfs_bc_neumann_class (),
-					    v[b->d/2],
-					    NULL, FALSE));
-  gfs_boundary_add_bc (b, gfs_bc_value_new (gfs_bc_dirichlet_class (),
-					    gfs_variable_from_name (domain->variables, "P"),
-					    NULL, FALSE));
-}
-
-static void gfs_boundary_outflow_class_init (GfsBoundaryClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read   = outflow_read;
-  GTS_OBJECT_CLASS (klass)->color  = outflow_color;
-}
-
-GfsBoundaryOutflowClass * gfs_boundary_outflow_class (void)
-{
-  static GfsBoundaryOutflowClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_boundary_outflow_info = {
-      "GfsBoundaryOutflow",
-      sizeof (GfsBoundary),
-      sizeof (GfsBoundaryOutflowClass),
-      (GtsObjectClassInitFunc) gfs_boundary_outflow_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_boundary_class ()),
-				  &gfs_boundary_outflow_info);
-  }
-
-  return klass;
-}
-
-/* GfsBoundaryGradient: Object */
-
-static GtsColor gradient_color (GtsObject * o)
-{
-  GtsColor c = { 1., 1., 0. }; /* red-green */
-
-  return c;
-}
-
-static void set_gradient_boundary (FttCell * cell)
-{
-  cell->flags |= GFS_FLAG_GRADIENT_BOUNDARY;
-}
-
-static void gradient_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBoundary * b = GFS_BOUNDARY (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_boundary_gradient_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_boundary_gradient_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  ftt_cell_traverse (b->root, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-		     (FttCellTraverseFunc) set_gradient_boundary, NULL);
-}
-
-static void gfs_boundary_gradient_class_init (GfsBoundaryClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read   = gradient_read;
-  GTS_OBJECT_CLASS (klass)->color  = gradient_color;
-}
-
-GfsBoundaryClass * gfs_boundary_gradient_class (void)
-{
-  static GfsBoundaryClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_boundary_gradient_info = {
-      "GfsBoundaryGradient",
-      sizeof (GfsBoundary),
-      sizeof (GfsBoundaryClass),
-      (GtsObjectClassInitFunc) gfs_boundary_gradient_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_boundary_class ()),
-				  &gfs_boundary_gradient_info);
-  }
-
-  return klass;
-}
-
-/* GfsBoundaryPeriodic: object */
-
-static void boundary_periodic_destroy (GtsObject * object)
-{
-  GfsBoundaryPeriodic * boundary = GFS_BOUNDARY_PERIODIC (object);
-
-  g_array_free (boundary->sndbuf, TRUE);
-  g_array_free (boundary->rcvbuf, TRUE);
-  
-  (* GTS_OBJECT_CLASS (gfs_boundary_periodic_class ())->parent_class->destroy) 
-    (object);
-}
-
-static void boundary_periodic_read (GtsObject ** object, GtsFile * fp)
-{
-  boundary_periodic_destroy (*object);
-}
-
-static void center_periodic (FttCellFace * face, GfsBc * b)
-{
-  GfsBoundaryPeriodic * boundary_periodic = GFS_BOUNDARY_PERIODIC (b->b);
-
-  g_assert (boundary_periodic->sndcount < boundary_periodic->sndbuf->len);
-  g_assert (ftt_face_type (face) == FTT_FINE_FINE);
-  g_assert (!FTT_CELL_IS_LEAF (face->cell) || FTT_CELL_IS_LEAF (face->neighbor));
-  g_array_index (boundary_periodic->sndbuf, gdouble, boundary_periodic->sndcount++) =
-    GFS_VARIABLE (face->neighbor, b->v->i);
-}
-
-static void face_periodic (FttCellFace * face, GfsBc * b)
-{
-  GfsBoundaryPeriodic * boundary_periodic = GFS_BOUNDARY_PERIODIC (b->b);
-
-  g_assert (boundary_periodic->sndcount < boundary_periodic->sndbuf->len);
-  g_array_index (boundary_periodic->sndbuf, gdouble, boundary_periodic->sndcount++) =
-    GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v;
-}
-
-static void boundary_size (FttCell * cell, guint * count)
-{
-  (*count)++;
-}
-
-static void set_buffers_size (GfsBoundaryPeriodic * boundary)
-{
-  guint count = 0;
-
-  ftt_cell_traverse (GFS_BOUNDARY (boundary)->root, 
-		     FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-		     (FttCellTraverseFunc) boundary_size, &count);
-  g_array_set_size (boundary->rcvbuf, count);
-  g_array_set_size (boundary->sndbuf, count);
-}
-
-static void boundary_tree (FttCell * cell, GfsBoundaryPeriodic * boundary)
-{
-  gdouble is_leaf = FTT_CELL_IS_LEAF (cell);
-
-  if (boundary->sndcount == boundary->sndbuf->len)
-    g_array_append_val (boundary->sndbuf, is_leaf);
-  else
-    g_array_index (boundary->sndbuf, gdouble, boundary->sndcount) = is_leaf;
-  boundary->sndcount++;
-
-  if (!is_leaf) {
-    FttCellChildren child;
-    guint i, n;
-
-    n = ftt_cell_children_direction (cell, GFS_BOUNDARY (boundary)->d, &child);
-    for (i = 0; i < n; i++) {
-      /* fixme: using a gdouble to store (and MPI transfer) a boolean is wasteful... */
-      gdouble is_destroyed = (child.c[i] == NULL);
-      
-      if (boundary->sndcount == boundary->sndbuf->len)
-	g_array_append_val (boundary->sndbuf, is_destroyed);
-      else
-	g_array_index (boundary->sndbuf, gdouble, boundary->sndcount) = is_destroyed;
-      boundary->sndcount++;
-    }
-    for (i = 0; i < n; i++)
-      if (child.c[i])
-	boundary_tree (child.c[i], boundary);
-  }
-}
-
-static void periodic_match (GfsBoundary * boundary)
-{
-  (* gfs_boundary_class ()->match) (boundary);
-
-  g_assert (GFS_BOUNDARY_PERIODIC (boundary)->sndcount == 0);
-  boundary_tree (boundary->root, GFS_BOUNDARY_PERIODIC (boundary));
-}
-
-static void send (GfsBoundary * bb)
-{
-  GfsBoundaryPeriodic * boundary = GFS_BOUNDARY_PERIODIC (bb);
-  g_assert (boundary->matching);
-  GfsBoundaryPeriodic * matching = 
-    GFS_BOUNDARY_PERIODIC (boundary->matching->neighbor[boundary->d]);
-
-  g_assert (GFS_IS_BOUNDARY_PERIODIC (matching));
-  g_assert (boundary->sndcount <= boundary->sndbuf->len);
-  
-  if (GFS_BOUNDARY (boundary)->type == GFS_BOUNDARY_MATCH_VARIABLE) {
-    if (boundary->sndcount > matching->rcvbuf->len)
-      g_array_set_size (matching->rcvbuf, boundary->sndcount);
-  }
-  memcpy (matching->rcvbuf->data, boundary->sndbuf->data, boundary->sndcount*sizeof (gdouble));
-}
-
-static void center_update (FttCell * cell,
-			   GfsBoundaryPeriodic * boundary)
-{
-  g_assert (boundary->rcvcount < boundary->rcvbuf->len);
-  GFS_VARIABLE (cell, GFS_BOUNDARY (boundary)->v->i) =
-    g_array_index (boundary->rcvbuf, gdouble, boundary->rcvcount++);
-}
-
-static void face_update (FttCellFace * face,
-			 GfsBoundaryPeriodic * boundary)
-{
-  g_assert (boundary->rcvcount < boundary->rcvbuf->len);
-  GFS_STATE (face->cell)->f[face->d].v = 
-    g_array_index (boundary->rcvbuf, gdouble, boundary->rcvcount++);
-}
-
-static void match_ignore (GfsBoundaryPeriodic * boundary)
-{
-  gboolean is_leaf;
-
-  g_assert (boundary->rcvcount < boundary->rcvbuf->len);
-  is_leaf = g_array_index (boundary->rcvbuf, gdouble, boundary->rcvcount++);
-
-  if (!is_leaf) {
-    gboolean is_destroyed[FTT_CELLS/2];
-    guint i;
-
-    for (i = 0; i < FTT_CELLS/2; i++) {
-      g_assert (boundary->rcvcount < boundary->rcvbuf->len);
-      is_destroyed[i] = g_array_index (boundary->rcvbuf, gdouble, boundary->rcvcount++);
-    }
-    for (i = 0; i < FTT_CELLS/2; i++)
-      if (!is_destroyed[i])
-	match_ignore (boundary);
-  }
-}
-
-static void match_update (FttCell * cell,
-			  GfsBoundaryPeriodic * boundary)
-{
-  gboolean is_leaf;
-
-  g_assert (boundary->rcvcount < boundary->rcvbuf->len);
-  is_leaf = g_array_index (boundary->rcvbuf, gdouble, boundary->rcvcount++);
-
-  if (!is_leaf) {
-    GfsDomain * domain = gfs_box_domain (GFS_BOUNDARY (boundary)->box);
-    FttCellChildren child;
-    gboolean is_destroyed[FTT_CELLS/2];
-    guint i, n;
-
-    if (FTT_CELL_IS_LEAF (cell)) {
-      FttCell * neighbor = ftt_cell_neighbor (cell, GFS_BOUNDARY (boundary)->d);
-
-      g_assert (neighbor);
-      ftt_cell_refine_single (cell, domain->cell_init, domain->cell_init_data);
-      if (FTT_CELL_IS_LEAF (neighbor))
-	ftt_cell_refine_single (neighbor, domain->cell_init, domain->cell_init_data);
-      /* what about solid fractions? */
-      GFS_BOUNDARY (boundary)->changed = TRUE;
-    }
-    n = ftt_cell_children_direction (cell, GFS_BOUNDARY (boundary)->d, &child);
-    for (i = 0; i < n; i++) {
-      g_assert (boundary->rcvcount < boundary->rcvbuf->len);
-      is_destroyed[i] = g_array_index (boundary->rcvbuf, gdouble, boundary->rcvcount++);
-      if (is_destroyed[i] && child.c[i]) {
-	ftt_cell_destroy (child.c[i], (FttCellCleanupFunc) gfs_cell_cleanup, domain);
-	child.c[i] = NULL;
-	GFS_BOUNDARY (boundary)->changed = TRUE;
-      }
-    }
-    for (i = 0; i < n; i++)
-      if (!is_destroyed[i]) {
-	if (child.c[i])
-	  match_update (child.c[i], boundary);
-	else
-	  match_ignore (boundary);
-      }
-  }
-}
-
-static void receive (GfsBoundary * bb,
-		     FttTraverseFlags flags,
-		     gint max_depth)
-{
-  GfsBoundaryPeriodic * boundary = GFS_BOUNDARY_PERIODIC (bb);
-
-  boundary->rcvcount = 0;
-  switch (GFS_BOUNDARY (boundary)->type) {
-  case GFS_BOUNDARY_FACE_VARIABLE:
-    ftt_face_traverse_boundary (GFS_BOUNDARY (boundary)->root,
-				GFS_BOUNDARY (boundary)->d,
-				FTT_PRE_ORDER, flags, max_depth,
-				(FttFaceTraverseFunc) face_update, boundary);
-    break;
-
-  case GFS_BOUNDARY_MATCH_VARIABLE:
-    match_update (GFS_BOUNDARY (boundary)->root, boundary);
-    ftt_cell_flatten (GFS_BOUNDARY (boundary)->root, 
-		      GFS_BOUNDARY (boundary)->d,
-		      (FttCellCleanupFunc) gfs_cell_cleanup, 
-		      gfs_box_domain (GFS_BOUNDARY (boundary)->box));
-    break;
-
-  default:
-    ftt_cell_traverse (GFS_BOUNDARY (boundary)->root,
-		       FTT_PRE_ORDER, flags, max_depth,
-		       (FttCellTraverseFunc) center_update, boundary);
-  }
-}
-
-static void synchronize (GfsBoundary * bb)
-{
-  GfsBoundaryPeriodic * boundary = GFS_BOUNDARY_PERIODIC (bb);
-
-  boundary->sndcount = 0;
-  if (bb->type == GFS_BOUNDARY_MATCH_VARIABLE)
-    set_buffers_size (boundary);
-}
-
-static GtsColor periodic_color (GtsObject * o)
-{
-  GtsColor c = { 1., 0., 0. }; /* red */
-
-  return c;
-}
-
-static void gfs_boundary_periodic_class_init (GfsBoundaryClass * klass)
-{
-  GfsBoundaryClass * parent_class = GFS_BOUNDARY_CLASS (klass);
-
-  parent_class->match             = periodic_match;
-  parent_class->send              = send;
-  parent_class->receive           = receive;
-  parent_class->synchronize       = synchronize;
-
-  GTS_OBJECT_CLASS (klass)->color =   periodic_color;
-  GTS_OBJECT_CLASS (klass)->destroy = boundary_periodic_destroy;
-  GTS_OBJECT_CLASS (klass)->read    = boundary_periodic_read;
-}
-
-static void gfs_boundary_periodic_init (GfsBoundaryPeriodic * boundary)
-{
-  GfsBc * b = GFS_BOUNDARY (boundary)->default_bc;
-
-  b->bc                = (FttFaceTraverseFunc) center_periodic;
-  b->homogeneous_bc    = (FttFaceTraverseFunc) center_periodic;
-  b->face_bc           = (FttFaceTraverseFunc) face_periodic;
-
-  boundary->sndbuf = g_array_new (FALSE, FALSE, sizeof (gdouble));
-  boundary->rcvbuf = g_array_new (FALSE, FALSE, sizeof (gdouble));
-  boundary->sndcount = boundary->rcvcount = 0;
-
-  boundary->rotate = 0.;
-}
-
-GfsBoundaryClass * gfs_boundary_periodic_class (void)
-{
-  static GfsBoundaryClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_boundary_periodic_info = {
-      "GfsBoundaryPeriodic",
-      sizeof (GfsBoundaryPeriodic),
-      sizeof (GfsBoundaryClass),
-      (GtsObjectClassInitFunc) gfs_boundary_periodic_class_init,
-      (GtsObjectInitFunc) gfs_boundary_periodic_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_boundary_class ()),
-				  &gfs_boundary_periodic_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_boundary_periodic_new:
- * @klass: a #GfsBoundaryClass.
- * @box: a #GfsBox.
- * @d: a #FttDirection.
- * @matching: a #GfsBox.
- *
- * Returns: a new #GfsBoundaryPeriodic connecting @box with @matching in direction @d.
- */
-GfsBoundaryPeriodic * gfs_boundary_periodic_new (GfsBoundaryClass * klass,
-						 GfsBox * box,
-						 FttDirection d,
-						 GfsBox * matching)
-{
-  GfsBoundaryPeriodic * boundary;
-
-  boundary = GFS_BOUNDARY_PERIODIC (gfs_boundary_new (klass, box, d));
-  set_buffers_size (boundary);
-  boundary->matching = matching;
-  boundary->d = FTT_OPPOSITE_DIRECTION (d);
-
-  return boundary;
-}
-
-static void center_periodic_rotate (FttCellFace * face, GfsBc * b)
-{
-  GfsBoundaryPeriodic * boundary_periodic = GFS_BOUNDARY_PERIODIC (b->b);
-
-  g_assert (boundary_periodic->sndcount < boundary_periodic->sndbuf->len);
-  g_assert (ftt_face_type (face) == FTT_FINE_FINE);
-  g_assert (!FTT_CELL_IS_LEAF (face->cell) || FTT_CELL_IS_LEAF (face->neighbor));
-
-  if (b->v->component < 2) { /* 2D-vector-rotation only */
-    FttComponent c = FTT_ORTHOGONAL_COMPONENT (b->v->component);
-    g_assert (b->v->vector[c]);
-    g_array_index (boundary_periodic->sndbuf, gdouble, boundary_periodic->sndcount++) =
-      (2.*c - 1.)*boundary_periodic->rotate*GFS_VALUE (face->neighbor, b->v->vector[c]);
-  }
-  else
-    g_array_index (boundary_periodic->sndbuf, gdouble, boundary_periodic->sndcount++) =
-      GFS_VALUE (face->neighbor, b->v);
-}
-
-/**
- * gfs_boundary_periodic_rotate_new:
- * @klass: a #GfsBoundaryClass.
- * @box: a #GfsBox.
- * @d: a #FttDirection.
- * @matching: a #GfsBox.
- * @rotate: a #FttDirection.
- * @orientation: the orientation (+1 or -1).
- *
- * Returns: a new "rotated" #GfsBoundaryPeriodic connecting @box in
- * direction @d with @matching in direction @rotate, oriented using
- * @orientation.
- */
-GfsBoundaryPeriodic * gfs_boundary_periodic_rotate_new (GfsBoundaryClass * klass,
-							GfsBox * box,
-							FttDirection d,
-							GfsBox * matching,
-							FttDirection rotate,
-							gdouble orientation)
-{
-  GfsBoundaryPeriodic * boundary;
-
-  boundary = gfs_boundary_periodic_new (klass, box, d, matching);
-  boundary->d = rotate;
-  boundary->rotate = orientation;
-
-  GfsBc * b = GFS_BOUNDARY (boundary)->default_bc;
-  b->bc = b->homogeneous_bc = (FttFaceTraverseFunc) center_periodic_rotate;
-
-  return boundary;
-}
-
-/* GfsGEdge: Object */
-
-static void gfs_gedge_write (GtsObject * object, FILE * fp)
-{
-  fprintf (fp, " %s", ftt_direction_name [GFS_GEDGE (object)->d]);
-  if (GFS_GEDGE (object)->rotate < FTT_NEIGHBORS)
-    fprintf (fp, " %s", ftt_direction_name [GFS_GEDGE (object)->rotate]);
-}
-
-static void gfs_gedge_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsGEdge * e = GFS_GEDGE (*o);
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (direction)");
-    return;
-  }
-  e->d = ftt_direction_from_name (fp->token->str);
-  if (e->d >= FTT_NEIGHBORS) {
-    gts_file_error (fp, "unknown direction `%s'", fp->token->str);
-    e->d = 0;
-    return;
-  }
-  gts_file_next_token (fp);
-  if (fp->type == GTS_STRING) {
-    e->rotate = ftt_direction_from_name (fp->token->str);
-    if (e->rotate >= FTT_NEIGHBORS) {
-      gts_file_error (fp, "unknown direction `%s'", fp->token->str);
-      e->rotate = -1;
-      return;
-    }
-    gts_file_next_token (fp);
-  }
-}
-
-static void gfs_gedge_class_init (GtsObjectClass * klass)
-{
-  klass->write = gfs_gedge_write;
-  klass->read = gfs_gedge_read;
-}
-
-static void gfs_gedge_init (GfsGEdge * object)
-{
-  object->d = object->rotate = FTT_NEIGHBORS;
-}
-
-GfsGEdgeClass * gfs_gedge_class (void)
-{
-  static GfsGEdgeClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_gedge_info = {
-      "GfsGEdge",
-      sizeof (GfsGEdge),
-      sizeof (GfsGEdgeClass),
-      (GtsObjectClassInitFunc) gfs_gedge_class_init,
-      (GtsObjectInitFunc) gfs_gedge_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_gedge_class ()),
-				  &gfs_gedge_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_gedge_link_boxes:
- * @edge: a #GfsGEdge.
- *
- * Links the two boxes connected by @edge. The boxes are set as their
- * respective neighbors in the direction defined by @edge (note that
- * their relative positions are not set).
- */
-void gfs_gedge_link_boxes (GfsGEdge * edge)
-{
-  GfsBox * b1, * b2;
-
-  g_return_if_fail (edge != NULL);
-  g_return_if_fail (GTS_GEDGE (edge)->n1 != NULL);
-  g_return_if_fail (GTS_GEDGE (edge)->n2 != NULL);
-  g_return_if_fail (edge->d >= 0 && edge->d < FTT_NEIGHBORS);
-
-  b1 = GFS_BOX (GTS_GEDGE (edge)->n1);
-  b2 = GFS_BOX (GTS_GEDGE (edge)->n2);
-
-  g_return_if_fail (b1->neighbor[edge->d] == NULL);
-  
-  if (edge->rotate < FTT_NEIGHBORS) {
-    g_return_if_fail (b2->neighbor[edge->rotate] == NULL);
-    gfs_boundary_periodic_rotate_new (gfs_boundary_periodic_class (),
-				      b1, edge->d, b2, edge->rotate,  1.);
-    gfs_boundary_periodic_rotate_new (gfs_boundary_periodic_class (),
-				      b2, edge->rotate, b1, edge->d, -1.);
-  }
-  else {
-    g_return_if_fail (b2->neighbor[FTT_OPPOSITE_DIRECTION (edge->d)] == NULL);
-    
-    GtsObject * periodic = GTS_OBJECT (b1);
-    while (periodic && GFS_IS_BOX (periodic) && GFS_BOX (periodic) != b2)
-      periodic = GFS_BOX (periodic)->neighbor[FTT_OPPOSITE_DIRECTION (edge->d)];
-    
-    if (GFS_BOX (periodic) == b2) {
-      gfs_boundary_periodic_new (gfs_boundary_periodic_class (), b1, edge->d, b2);
-      gfs_boundary_periodic_new (gfs_boundary_periodic_class (), b2, 
-				 FTT_OPPOSITE_DIRECTION (edge->d), b1);
-    }
-    else {
-      ftt_cell_set_neighbor (b1->root, b2->root, edge->d, 
-			     (FttCellInitFunc) gfs_cell_init, gfs_box_domain (b1));
-      b1->neighbor[edge->d] = GTS_OBJECT (b2);
-      b2->neighbor[FTT_OPPOSITE_DIRECTION (edge->d)] = GTS_OBJECT (b1);
-    }
-  }
-}
-
-/**
- * gfs_gedge_new:
- * @klass: a #GfsGEdgeClass.
- * @b1: a #GfsBox.
- * @b2: another #GfsBox.
- * @d: a direction.
- *
- * Returns: a new #GfsGEdge linking @b1 to @b2 in direction @d. The
- * boxes are linked using gfs_gedge_link_boxes().
- */
-GfsGEdge * gfs_gedge_new (GfsGEdgeClass * klass,
-			  GfsBox * b1, GfsBox * b2,
-			  FttDirection d)
-{
-  GfsGEdge * edge;
-
-  g_return_val_if_fail (klass != NULL, NULL);
-  g_return_val_if_fail (b1 != NULL, NULL);
-  g_return_val_if_fail (b2 != NULL, NULL);
-  g_return_val_if_fail (d >= 0 && d < FTT_NEIGHBORS, NULL);
-
-  edge = GFS_GEDGE (gts_gedge_new (GTS_GEDGE_CLASS (klass),
-				   GTS_GNODE (b1), GTS_GNODE (b2)));
-  edge->d = d;
-  
-  gfs_gedge_link_boxes (edge);
-
-  return edge;
-}
-
-/* GfsBox: Object */
-
-static void gfs_box_destroy (GtsObject * object)
-{
-  GfsBox * box = GFS_BOX (object);
-  FttDirection d;
-
-  if (box->root) {
-    GfsDomain * domain = gfs_box_domain (box);
-    if (domain == NULL) /* domain has been destroyed */
-      ftt_cell_destroy (box->root, NULL, NULL);
-    else
-      ftt_cell_destroy (box->root, (FttCellCleanupFunc) gfs_cell_cleanup, domain);
-  }
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d]))
-      gts_object_destroy (box->neighbor[d]);
-    else if (GFS_IS_BOX (box->neighbor[d])) {
-      g_assert (GFS_BOX (box->neighbor[d])->neighbor[FTT_OPPOSITE_DIRECTION (d)] == GTS_OBJECT (box));
-      GFS_BOX (box->neighbor[d])->neighbor[FTT_OPPOSITE_DIRECTION (d)] = NULL;
-    }
-
-  (* GTS_OBJECT_CLASS (gfs_box_class ())->parent_class->destroy) (object);
-}
-
-static void box_size (FttCell * cell, guint * size)
-{
-  (*size)++;
-}
-
-static void gfs_box_write (GtsObject * object, FILE * fp)
-{
-  GfsBox * box = GFS_BOX (object);
-  FttVector pos;
-  FttDirection d;
-  guint size = 0;
-  GfsDomain * domain = gfs_box_domain (box);
-
-  ftt_cell_traverse (box->root, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		     (FttCellTraverseFunc) box_size, &size);
-  ftt_cell_pos (box->root, &pos);
-  fprintf (fp, "%s { id = %u pid = %d size = %u x = %g y = %g z = %g",
-	   object->klass->info.name, box->id, box->pid, size, pos.x, pos.y, pos.z);
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d])) {
-      fprintf (fp, " %s = %s",
-	       ftt_direction_name[d],
-	       box->neighbor[d]->klass->info.name);
-      if (box->neighbor[d]->klass->write)
-	(* box->neighbor[d]->klass->write) (box->neighbor[d], fp);
-    }
-  fputs (" }", fp);
-  if (domain != NULL && domain->max_depth_write > -2) {
-    fputs (" {\n", fp);
-    if (domain->binary)
-      ftt_cell_write_binary (box->root, domain->max_depth_write, fp, 
-			     (FttCellWriteFunc) gfs_cell_write_binary, domain->variables_io);
-    else
-      ftt_cell_write (box->root, domain->max_depth_write, fp, 
-		      (FttCellWriteFunc) gfs_cell_write, domain->variables_io);
-    fputc ('}', fp);
-  }
-}
-
-static void gfs_box_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBox * b = GFS_BOX (*o);
-  GtsObjectClass * klass;
-  gboolean class_changed = FALSE;
-  FttVector pos = {0., 0., 0.};
-  GtsFileVariable var[] = {
-    {GTS_UINT,   "id",     TRUE},
-    {GTS_INT,    "pid",    TRUE},
-    {GTS_UINT,   "size",   TRUE},
-    {GTS_DOUBLE, "x",      TRUE},
-    {GTS_DOUBLE, "y",      TRUE},
-    {GTS_DOUBLE, "z",      TRUE},
-    {GTS_FILE,   "right",  TRUE},
-    {GTS_FILE,   "left",   TRUE},
-    {GTS_FILE,   "top",    TRUE},
-    {GTS_FILE,   "bottom", TRUE},
-#if (!FTT_2D)
-    {GTS_FILE,   "front",  TRUE},
-    {GTS_FILE,   "back",   TRUE},
-#endif /* 3D */
-    {GTS_NONE}
-  };
-  GtsFileVariable * v;
-  gfloat weight;
-  GfsDomain * domain = GTS_OBJECT (*o)->reserved;
-
-  if (domain == NULL) {
-    g_assert (GTS_SLIST_CONTAINEE (b)->containers &&
-	      !GTS_SLIST_CONTAINEE (b)->containers->next);
-    domain = GFS_DOMAIN (GTS_SLIST_CONTAINEE (b)->containers->data);
-  }
-  else
-    gts_container_add (GTS_CONTAINER (domain), GTS_CONTAINEE (b));
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (GfsBoxClass)");
-    return;
-  }
-  klass = gfs_object_class_from_name (fp->token->str);
-  if (klass == NULL) {
-    gts_file_error (fp, "unknown class `%s'", fp->token->str);
-    return;
-  }
-  if (!gts_object_class_is_from_class (klass, gfs_box_class ())) {
-    gts_file_error (fp, "`%s' is not a GfsBox", fp->token->str);
-    return;
-  }
-  if (klass != (*o)->klass) {
-    *o = gts_object_new (klass);
-    gts_object_destroy (GTS_OBJECT (b));
-    b = GFS_BOX (*o);
-    gts_container_add (GTS_CONTAINER (domain), GTS_CONTAINEE (b));
-    class_changed = TRUE;
-  }
-  gts_file_next_token (fp);
-
-  g_assert (b->root == NULL);
-  b->root = ftt_cell_new ((FttCellInitFunc) gfs_cell_init, domain);
-
-  weight = gts_gnode_weight (GTS_GNODE (b));
-  var[0].data = &b->id;
-  var[1].data = &b->pid;
-  var[2].data = &b->size;
-  var[3].data = &pos.x;
-  var[4].data = &pos.y;
-  var[5].data = &pos.z;
-  gts_file_assign_start (fp, var);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  while ((v = gts_file_assign_next (fp, var)))
-    if (v->type == GTS_FILE) {
-      GtsObjectClass * boundary_class = gfs_object_class_from_name (fp->token->str);
-      GtsObject * boundary;
-	
-      if (boundary_class == NULL) {
-	gts_file_error (fp, "unknown class `%s'", fp->token->str);
-	return;
-      }
-      if (!gts_object_class_is_from_class (boundary_class, gfs_boundary_class ())) {
-	gts_file_error (fp, "`%s' is not a GfsBoundary", fp->token->str);
-	return;
-      }
-      boundary = GTS_OBJECT (gfs_boundary_new (GFS_BOUNDARY_CLASS (boundary_class),
-					       b, ftt_direction_from_name (v->name)));
-      gts_file_next_token (fp);
-      if (boundary_class->read)
-	(* boundary_class->read) (&boundary, fp);
-    }
-  
-  if (fp->type == '{') {
-    FttDirection d;
-
-    ftt_cell_destroy (b->root, (FttCellCleanupFunc) gfs_cell_cleanup, domain);
-    fp->scope_max++;
-    if (domain->binary) {
-      if (gts_file_getc (fp) != '\n') {
-      	gts_file_error (fp, "expecting a newline");
-      	return;
-      }
-      b->root = ftt_cell_read_binary (fp, (FttCellReadFunc) gfs_cell_read_binary, domain);
-      if (fp->type == GTS_ERROR)
-	return;
-      gts_file_next_token (fp);
-    }
-    else {
-      gts_file_first_token_after (fp, '\n');
-      b->root = ftt_cell_read (fp, (FttCellReadFunc) gfs_cell_read, domain);
-    }
-    fp->scope_max--;
-    if (fp->type == GTS_ERROR)
-      return;
-    if (fp->type != '}') {
-      gts_file_error (fp, "expecting a closing brace");
-      return;
-    }
-    gts_file_next_token (fp);
-
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (GFS_IS_BOUNDARY (b->neighbor[d])) {
-	GfsBoundary * boundary = GFS_BOUNDARY (b->neighbor[d]);
-
-	ftt_cell_set_neighbor_match (boundary->root, b->root, boundary->d, 
-				     (FttCellInitFunc) gfs_cell_init, domain);
-      }
-  }
-
-  FTT_ROOT_CELL (b->root)->parent = b;
-  if (ftt_cell_level (b->root) != domain->rootlevel) {
-    FttDirection d;
-
-    ftt_cell_set_level (b->root, domain->rootlevel);
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (GFS_IS_BOUNDARY (b->neighbor[d]))
-	ftt_cell_set_level (GFS_BOUNDARY (b->neighbor[d])->root, domain->rootlevel);
-  }
-
-  if (var[3].set || var[4].set || var[5].set) {
-    gdouble size = ftt_cell_size (b->root);
-    FttDirection d;
-    ftt_cell_set_pos (b->root, &pos);
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (GFS_IS_BOUNDARY (b->neighbor[d])) {
-	FttVector bpos = pos;
-	bpos.x += rpos[d].x*size;
-	bpos.y += rpos[d].y*size;
-	bpos.z += rpos[d].z*size;
-	ftt_cell_set_pos (GFS_BOUNDARY (b->neighbor[d])->root, &bpos);
-      }
-  }
-  else /* position is not set */
-    FTT_ROOT_CELL (b->root)->pos.x = G_MAXDOUBLE;
-
-  /* updates weight of domain */
-  GTS_WGRAPH (domain)->weight += gts_gnode_weight (GTS_GNODE (b)) - weight;
-
-  if (class_changed && klass->read)
-    (* klass->read) (o, fp);
-}
-
-static gfloat gfs_box_weight (GtsGNode * node)
-{
-  GfsBox * box = GFS_BOX (node);
-
-  if (box->size >= 0)
-    return box->size;
-  else {
-    guint size = 0;
-
-    if (box->root)
-      ftt_cell_traverse (box->root, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			 (FttCellTraverseFunc) box_size, &size);
-    return size;
-  }
-}
-
-static void gfs_box_class_init (GfsBoxClass * klass)
-{
-  GTS_GNODE_CLASS (klass)->weight = gfs_box_weight;
-
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_box_destroy;
-  GTS_OBJECT_CLASS (klass)->write = gfs_box_write;
-  GTS_OBJECT_CLASS (klass)->read = gfs_box_read;
-}
-
-static void gfs_box_init (GfsBox * box)
-{
-  static guint id = 1;
-
-  box->id = id++;
-  box->pid = -1;
-  box->size = -1;
-}
-
-GfsBoxClass * gfs_box_class (void)
-{
-  static GfsBoxClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_box_info = {
-      "GfsBox",
-      sizeof (GfsBox),
-      sizeof (GfsBoxClass),
-      (GtsObjectClassInitFunc) gfs_box_class_init,
-      (GtsObjectInitFunc) gfs_box_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_gnode_class ()),
-				  &gfs_box_info);
-  }
-
-  return klass;
-}
-
-GfsBox * gfs_box_new (GfsBoxClass * klass)
-{
-  GfsBox * object;
-
-  object = GFS_BOX (gts_object_new (GTS_OBJECT_CLASS (klass)));
-
-  return object;
-}
-
diff --git a/src/boundary.h b/src/boundary.h
deleted file mode 100644
index 217ca7f..0000000
--- a/src/boundary.h
+++ /dev/null
@@ -1,353 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __BOUNDARY_H__
-#define __BOUNDARY_H__
-
-#include "fluid.h"
-#include "utils.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-typedef struct _GfsBox                    GfsBox;
-typedef struct _GfsBoxClass               GfsBoxClass;
-typedef struct _GfsBoundary               GfsBoundary;
-typedef struct _GfsBoundaryClass          GfsBoundaryClass;
-
-/* GfsBc: Header */
-
-typedef struct _GfsBc         GfsBc;
-
-struct _GfsBc {
-  /*< private >*/
-  GtsObject parent;
-
-  /*< public >*/
-  GfsBoundary * b;
-  GfsVariable * v;
-  gboolean extra;
-  FttFaceTraverseFunc bc, homogeneous_bc;
-  FttFaceTraverseFunc face_bc;
-};
-
-typedef struct _GfsBcClass    GfsBcClass;
-
-struct _GfsBcClass {
-  /*< private >*/
-  GtsObjectClass parent_class;
-
-  /*< public >*/  
-};
-
-#define GFS_BC(obj)                    GTS_OBJECT_CAST (obj,\
-				                        GfsBc,\
-				                        gfs_bc_class ())
-#define GFS_BC_CLASS(klass)            GTS_OBJECT_CLASS_CAST (klass,\
-						        GfsBcClass,\
-						        gfs_bc_class())
-#define GFS_IS_BC(obj)                 (gts_object_is_from_class (obj,\
-					gfs_bc_class ()))
-
-GfsBcClass * gfs_bc_class  (void);
-GfsBc *      gfs_bc_new    (GfsBcClass * k, 
-			    GfsVariable * v, 
-			    gboolean extra);
-
-/* GfsBcValue: Header */
-
-typedef struct _GfsBcValue         GfsBcValue;
-
-struct _GfsBcValue {
-  /*< private >*/
-  GfsBc parent;
-
-  /*< public >*/
-  GfsFunction * val;
-};
-
-#define GFS_BC_VALUE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsBcValue,\
-					         gfs_bc_value_class ())
-#define GFS_IS_BC_VALUE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_bc_value_class ()))
-
-GfsBcClass * gfs_bc_value_class  (void);
-
-/* GfsBcDirichlet: Header */
-
-#define GFS_IS_BC_DIRICHLET(obj)         (gts_object_is_from_class (obj,\
-						 gfs_bc_dirichlet_class ()))
-
-GfsBcClass * gfs_bc_dirichlet_class  (void);
-
-/* GfsBcNeumann: Header */
-
-#define GFS_IS_BC_NEUMANN(obj)         (gts_object_is_from_class (obj,\
-						 gfs_bc_neumann_class ()))
-
-GfsBcClass * gfs_bc_neumann_class  (void);
-
-/* GfsBcNavier: Header */
-
-typedef struct _GfsBcNavier         GfsBcNavier;
-
-struct _GfsBcNavier {
-  /*< private >*/
-  GfsBcValue parent;
-
-  /*< public >*/
-  GfsFunction * lambda;
-};
-
-#define GFS_BC_NAVIER(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsBcNavier,\
-					         gfs_bc_navier_class ())
-#define GFS_IS_BC_NAVIER(obj)         (gts_object_is_from_class (obj,\
-						 gfs_bc_navier_class ()))
-
-GfsBcClass * gfs_bc_navier_class  (void);
-
-/* GfsBoundary: Header */
-
-typedef enum {
-  GFS_BOUNDARY_CENTER_VARIABLE,
-  GFS_BOUNDARY_FACE_VARIABLE,
-  GFS_BOUNDARY_MATCH_VARIABLE,
-  GFS_BOUNDARY_VARIABLE_NUMBER
-} GfsBoundaryVariableType;
-
-struct _GfsBoundary {
-  /*< private >*/
-  GtsObject parent;
-
-  FttCell * root;
-  GfsBox * box;
-  FttDirection d;
-  guint depth;
-  GfsBc * default_bc;
-  gboolean changed;
-
-  /*< public >*/
-  GfsVariable * v;
-  GfsBoundaryVariableType type;
-  GHashTable * bc;
-};
-
-struct _GfsBoundaryClass {
-  GtsObjectClass parent_class;
-
-  void (* match)             (GfsBoundary * boundary);
-  void (* send)              (GfsBoundary * boundary);
-  void (* receive)           (GfsBoundary * boundary,
-			      FttTraverseFlags flags,
-			      gint max_depth);
-  void (* synchronize)       (GfsBoundary * boundary);
-};
-
-#define GFS_BOUNDARY(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsBoundary,\
-					           gfs_boundary_class ())
-#define GFS_BOUNDARY_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						   GfsBoundaryClass,\
-						   gfs_boundary_class())
-#define GFS_IS_BOUNDARY(obj)         (gts_object_is_from_class (obj,\
-						   gfs_boundary_class ()))
-     
-GfsBoundaryClass * gfs_boundary_class                (void);
-GfsBoundary *      gfs_boundary_new                  (GfsBoundaryClass * klass,
-						      GfsBox * box,
-						      FttDirection d);
-void               gfs_boundary_send                 (GfsBoundary * boundary);
-void               gfs_boundary_receive              (GfsBoundary * boundary,
-						      FttTraverseFlags flags,
-						      gint max_depth);
-void               gfs_boundary_synchronize          (GfsBoundary * boundary);
-GfsBc *            gfs_boundary_lookup_bc            (GfsBoundary * b, 
-						      GfsVariable * v);
-void               gfs_boundary_set_default_bc       (GfsBoundary * b, 
-						      GfsBc * bc);
-void               gfs_variable_set_default_bc       (GfsVariable * v, 
-						      GfsBc * bc);
-void               gfs_boundary_add_bc               (GfsBoundary * b, 
-						      GfsBc * bc);
-
-/* GfsBoundaryInflowConstant: Header */
-
-typedef struct _GfsBoundaryInflowConstant         GfsBoundaryInflowConstant;
-typedef struct _GfsBoundaryInflowConstantClass    GfsBoundaryInflowConstantClass;
-
-struct _GfsBoundaryInflowConstant {
-  GfsBoundary parent;
-
-  GfsFunction * un;
-};
-
-struct _GfsBoundaryInflowConstantClass {
-  GfsBoundaryClass parent_class;
-};
-
-#define GFS_BOUNDARY_INFLOW_CONSTANT(obj)  GTS_OBJECT_CAST (obj,\
-					 GfsBoundaryInflowConstant,\
-					 gfs_boundary_inflow_constant_class ())
-#define GFS_BOUNDARY_INFLOW_CONSTANT_CLASS(klass) GTS_OBJECT_CLASS_CAST (klass,\
-					 GfsBoundaryInflowConstantClass,\
-					 gfs_boundary_inflow_constant_class())
-#define GFS_IS_BOUNDARY_INFLOW_CONSTANT(obj) (gts_object_is_from_class (obj,\
-					 gfs_boundary_inflow_constant_class ()))
-     
-GfsBoundaryInflowConstantClass * gfs_boundary_inflow_constant_class  (void);
-
-/* GfsBoundaryOutflow: Header */
-
-typedef struct _GfsBoundaryOutflowClass    GfsBoundaryOutflowClass;
-
-struct _GfsBoundaryOutflowClass {
-  GfsBoundaryClass parent_class;
-};
-
-#define GFS_BOUNDARY_OUTFLOW_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						   GfsBoundaryOutflowClass,\
-						   gfs_boundary_outflow_class())
-#define GFS_IS_BOUNDARY_OUTFLOW(obj)         (gts_object_is_from_class (obj,\
-					    gfs_boundary_outflow_class ()))
-     
-GfsBoundaryOutflowClass * gfs_boundary_outflow_class    (void);
-
-/* GfsBoundaryGradient: Header */
-
-#define GFS_IS_BOUNDARY_GRADIENT(obj)         (gts_object_is_from_class (obj,\
-					    gfs_boundary_gradient_class ()))
-     
-GfsBoundaryClass * gfs_boundary_gradient_class    (void);
-
-/* GfsBoundaryPeriodic: Header */
-
-typedef struct _GfsBoundaryPeriodic         GfsBoundaryPeriodic;
-
-struct _GfsBoundaryPeriodic {
-  /*< private >*/
-  GfsBoundary parent;
-
-  GfsBox * matching;
-  FttDirection d;
-  GArray * sndbuf, * rcvbuf;
-  guint sndcount, rcvcount;
-
-  gdouble rotate;
-};
-
-#define GFS_BOUNDARY_PERIODIC(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsBoundaryPeriodic,\
-					           gfs_boundary_periodic_class ())
-#define GFS_IS_BOUNDARY_PERIODIC(obj)         (gts_object_is_from_class (obj,\
-						   gfs_boundary_periodic_class ()))
-     
-GfsBoundaryClass *    gfs_boundary_periodic_class    (void);
-GfsBoundaryPeriodic * gfs_boundary_periodic_new      (GfsBoundaryClass * klass,
-						      GfsBox * box,
-						      FttDirection d,
-						      GfsBox * matching);
-GfsBoundaryPeriodic * gfs_boundary_periodic_rotate_new (GfsBoundaryClass * klass,
-							GfsBox * box,
-							FttDirection d,
-							GfsBox * matching,
-							FttDirection rotate,
-							gdouble orientation);
-
-/* GfsGEdge: Header */
-  
-typedef struct _GfsGEdge         GfsGEdge;
-typedef struct _GfsGEdgeClass    GfsGEdgeClass;
-
-struct _GfsGEdge {
-  GtsGEdge parent;
-
-  FttDirection d, rotate;
-};
-
-struct _GfsGEdgeClass {
-  GtsGEdgeClass parent_class;
-};
-
-#define GFS_GEDGE(obj)            GTS_OBJECT_CAST (obj,\
-					          GfsGEdge,\
-					          gfs_gedge_class ())
-#define GFS_GEDGE_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						  GfsGEdgeClass,\
-						  gfs_gedge_class())
-#define GFS_IS_GEDGE(obj)         (gts_object_is_from_class (obj,\
-						  gfs_gedge_class ()))
-     
-GfsGEdgeClass * gfs_gedge_class          (void);
-GfsGEdge *      gfs_gedge_new            (GfsGEdgeClass * klass,
-					  GfsBox * b1, GfsBox * b2,
-					  FttDirection d);
-void            gfs_gedge_link_boxes     (GfsGEdge * edge);
-
-struct _GfsBox {
-  GtsGNode parent;
-
-  FttCell * root;
-  GtsObject * neighbor[FTT_NEIGHBORS];
-  guint id;
-  int pid;
-  gint size;
-};
-
-struct _GfsBoxClass {
-  GtsGNodeClass parent_class;
-};
-
-#define GFS_BOX(obj)            GTS_OBJECT_CAST (obj,\
-					        GfsBox,\
-					        gfs_box_class ())
-#define GFS_BOX_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						      GfsBoxClass,\
-						      gfs_box_class())
-#define GFS_IS_BOX(obj)         (gts_object_is_from_class (obj,\
-						          gfs_box_class ()))
-     
-GfsBoxClass *    gfs_box_class                (void);
-GfsBox *         gfs_box_new                  (GfsBoxClass * klass);
-
-static inline
-GfsDomain * gfs_box_domain (GfsBox * box)
-{
-  GfsDomain * d;
-
-  g_return_val_if_fail (box != NULL, NULL);
-  
-  d = GTS_OBJECT (box)->reserved;
-  if (GTS_SLIST_CONTAINEE (box)->containers) {
-    GSList * i = GTS_SLIST_CONTAINEE (box)->containers;
-
-    while (i->next)
-      i = i->next;
-    d = i->data;
-  }
-  return d;
-}
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __BOUNDARY_H__ */
diff --git a/src/cartesian.c b/src/cartesian.c
deleted file mode 100644
index fcd2628..0000000
--- a/src/cartesian.c
+++ /dev/null
@@ -1,246 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2007 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "cartesian.h"
-
-/* GfsCartesianGrid: Object */
-
-static void gfs_cartesian_grid_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsCartesianGrid * cgd = GFS_CARTESIAN_GRID (*o);
-  guint i, j, size = 1;
-
-  if (GTS_OBJECT_CLASS (gfs_cartesian_grid_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_cartesian_grid_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  while (fp->type == '\n') 
-    gts_file_next_token (fp);
-  if (fp->type != GTS_INT) {
-     gts_file_error (fp, "expecting an integer (N)");
-     return;
-  }
-  cgd->N = atoi (fp->token->str);
-  gts_file_next_token (fp);
-
-  cgd->name = g_malloc0 (cgd->N*sizeof (char *));
-  for (i = 0; i < cgd->N; i++) {
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a string (name[%d])", i);
-      return;
-    }
-    cgd->name[i] = g_strdup (fp->token->str);
-    gts_file_next_token (fp);
-  }
-
-  cgd->n = g_malloc (cgd->N*sizeof (guint));  
-  for (i = 0; i < cgd->N; i++) {
-    while (fp->type == '\n') 
-      gts_file_next_token (fp);
-    if (fp->type != GTS_INT) {
-      gts_file_error (fp, "expecting an integer (n[%d])", i);
-      return;
-    }
-    cgd->n[i] = atoi (fp->token->str);
-    gts_file_next_token (fp);
-    size *= cgd->n[i];
-  }
-
-  cgd->x = g_malloc0 (cgd->N*sizeof (gdouble *));
-  for (i = 0; i < cgd->N; i++) {
-    cgd->x[i] = g_malloc (cgd->n[i]*sizeof (gdouble));
-    for (j = 0; j < cgd->n[i]; j++) {
-      if (fp->type == '\n')
-	gts_file_next_token (fp);
-      if (fp->type != GTS_FLOAT && fp->type != GTS_INT) {
-        gts_file_error (fp, "expecting a number (x[%d][%d])", i, j);
-        return;
-      }
-      cgd->x[i][j] = atof (fp->token->str);
-      gts_file_next_token (fp);
-    }
-  }
-
-  cgd->v = g_malloc (size*sizeof (gdouble));  
-  for (i = 0; i < size; i++) {
-    if (fp->type == '\n')
-      gts_file_next_token (fp);
-    if (fp->type != GTS_FLOAT && fp->type != GTS_INT) {
-      gts_file_error (fp, "expecting a number");
-      return;
-    }
-    cgd->v[i] = atof (fp->token->str);
-    gts_file_next_token (fp);
-  }
-}
-
-static void gfs_cartesian_grid_write (GtsObject * o, FILE * fp)
-{
-  GfsCartesianGrid * cgd = GFS_CARTESIAN_GRID (o);
-  guint i, j, size = 1;
-
-  if (GTS_OBJECT_CLASS (gfs_cartesian_grid_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_cartesian_grid_class ())->parent_class->write) 
-      (o, fp);
-
-  for (i = 0; i < cgd->N; i++)
-    size *= cgd->n[i];
-
-  fprintf (fp, "%d ", cgd->N);
-  for (i = 0; i < cgd->N; i++)
-    fprintf (fp, "%s ", cgd->name[i]);
-  fputc ('\n', fp);
-  for (i = 0; i < cgd->N; i++)
-    fprintf (fp, "%d\n", cgd->n[i]);
-
-  for (i = 0; i < cgd->N; i++)
-    for (j = 0; j < cgd->n[i]; j++)
-      fprintf (fp, "%f\n", cgd->x[i][j]);
-
-  for (i = 0; i < size; i++)
-    fprintf (fp, "%f\n", cgd->v[i]);  
-}
-
-static void gfs_cartesian_grid_destroy (GtsObject * object)
-{
-  GfsCartesianGrid * cgd = GFS_CARTESIAN_GRID (object);  
-
-  guint i;
-  if (cgd->name) {
-    for (i = 0; i < cgd->N; i++)
-      g_free (cgd->name[i]);
-    g_free (cgd->name);
-  }
-  g_free (cgd->n);
-  if (cgd->x) {
-    for (i = 0; i < cgd->N; i++)
-      g_free (cgd->x[i]);
-    g_free (cgd->x);
-  }
-  g_free (cgd->v);
- 
-  (* GTS_OBJECT_CLASS (gfs_cartesian_grid_class ())->parent_class->destroy) (object);
-}
-
-static void gfs_cartesian_grid_class_init (GtsObjectClass * klass)
-{
-  /* define new methods and overload inherited methods here */
-  GTS_OBJECT_CLASS (klass)->read = gfs_cartesian_grid_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_cartesian_grid_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_cartesian_grid_destroy;
-}
-
-GtsObjectClass * gfs_cartesian_grid_class (void)
-{
-  static GtsObjectClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_cartesian_grid_info = {
-      "GfsCartesianGrid",
-      sizeof (GfsCartesianGrid),
-      sizeof (GtsObjectClass),
-      (GtsObjectClassInitFunc) gfs_cartesian_grid_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_object_class ()),
- 			  &gfs_cartesian_grid_info);
-  }
-
-  return klass;
-}
-
-GfsCartesianGrid * gfs_cartesian_grid_new (GtsObjectClass * klass)
-{
-  GfsCartesianGrid * object;
-
-  object = GFS_CARTESIAN_GRID (gts_object_new (GTS_OBJECT_CLASS (klass)));
-
-  return object;
-}
-
-static void slice (GfsCartesianGrid * g, guint p, GfsCartesianGrid * s)
-{
-  s->N = g->N - 1;
-  s->n = &g->n[1];
-  s->x = &g->x[1];
-  guint i;
-  gulong size = 1;
-  for (i = 1; i < g->N; i++)
-    size *= g->n[i];
-  s->v = &g->v[size*p];
-}
-
-static gint lookup (GfsCartesianGrid * g, gdouble x)
-{
-  guint min = 0, max = g->n[0] - 1;
-  if (x < g->x[0][min] || x > g->x[0][max])
-    return -1;
-  while (max > min + 1) {
-    guint n = (min + max)/2;
-    if (x > g->x[0][n])
-      min = n;
-    else
-      max = n;
-  }
-  return min;
-}
-
-/**
- * gfs_cartesian_grid_interpolate:
- * @g: a Cartesian grid.
- * @p: a position vector of dimension @g->N.
- * @val: the interpolated value at position @p.
- *
- * Returns: %TRUE if @val has been computed, %FALSE if @p is not
- * contained within @g.
- */
-gboolean gfs_cartesian_grid_interpolate (GfsCartesianGrid * g, gdouble * p, gdouble * val)
-{
-  g_return_val_if_fail (g != NULL, FALSE);
-  g_return_val_if_fail (g->N > 0, FALSE);
-  g_return_val_if_fail (p != NULL, FALSE);
-  g_return_val_if_fail (val != NULL, FALSE);
-
-  gint i = lookup (g, p[0]);
-  if (i < 0)
-    return FALSE;
-  gdouble v1, v2;
-  if (g->N > 1) {
-    GfsCartesianGrid g1;
-    slice (g, i, &g1);
-    if (!gfs_cartesian_grid_interpolate (&g1, &p[1], &v1))
-      return FALSE;
-    slice (g, i + 1, &g1);
-    if (!gfs_cartesian_grid_interpolate (&g1, &p[1], &v2))
-      return FALSE;
-  }
-  else {
-    v1 = g->v[i];
-    v2 = g->v[i + 1];
-  }
-
-  g_assert (g->x[0][i + 1] -  g->x[0][i] != 0.);
-  *val = v1 + (v2 - v1)*(p[0] - g->x[0][i])/(g->x[0][i + 1] -  g->x[0][i]);
-  return TRUE;
-}
diff --git a/src/cartesian.h b/src/cartesian.h
deleted file mode 100644
index 0a07bf0..0000000
--- a/src/cartesian.h
+++ /dev/null
@@ -1,63 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2007 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __CARTESIAN_H__
-#define __CARTESIAN_H__
-
-#include <gts.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-/* GfsCartesianGrid: Header */
-
-typedef struct _GfsCartesianGrid      GfsCartesianGrid;
-
-struct _GfsCartesianGrid {
-  /*< private >*/
-  GtsObject parent;
-  guint N;       /* Number of dimensions */
-  guint * n;     /* Size of each dimension */
-  gdouble ** x;  /* Position of each point in the grid */
-  gdouble * v;   /* Data */
-  gchar ** name; /* Name of each dimension */
-
-
-  /*< public >*/
-  /* add extra data here (if public) */
-};
-
-#define GFS_CARTESIAN_GRID(obj)            GTS_OBJECT_CAST (obj,\
-							    GfsCartesianGrid, \
-							    gfs_cartesian_grid_class ())
-#define GFS_IS_CARTESIAN_GRID(obj)         (gts_object_is_from_class (obj,\
-								      gfs_cartesian_grid_class ()))
-
-GtsObjectClass *    gfs_cartesian_grid_class         (void);
-GfsCartesianGrid *  gfs_cartesian_grid_new           (GtsObjectClass * klass);
-gboolean            gfs_cartesian_grid_interpolate   (GfsCartesianGrid * g, 
-						      gdouble * p, 
-						      gdouble * val);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __CARTESIAN_H__ */
diff --git a/src/darcsversion.sh b/src/darcsversion.sh
deleted file mode 100755
index 2d865e1..0000000
--- a/src/darcsversion.sh
+++ /dev/null
@@ -1,32 +0,0 @@
-#!/bin/sh
-
-# do not forget to update ../tools/darcs2dist when changing the way $version is computed
-version=`darcs changes --last=1 --xml-output | \
-    awk 'BEGIN{RS=" ";FS="="}{if ($1 == "date") print substr($2,4,6) "-" substr($2,10,6);}'`
-changes=`darcs whatsnew -s | awk '{
-  if ($1 == "M" && substr($2,1,6) != "./doc/") {
-    print " + local changes";
-    exit 0;
-  }
-}'`
-version="$version$changes"
-
-if test -f version.h ; then
-    oldversion=`awk '{if ($2 == "GFS_BUILD_VERSION") print $0;}' < version.h`
-fi
-
-if [ "x$oldversion" != "x#define GFS_BUILD_VERSION \"$version\"" ] ; then
-    cat <<EOF > version.h
-/* version.h
- *
- * This is a generated file.  Please modify 'darcsversion.sh'
- */
-
-#ifndef GFSVERSION_H
-#define GFSVERSION_H
-
-#define GFS_BUILD_VERSION "$version"
-
-#endif /* GFSVERSION_H */
-EOF
-fi
diff --git a/src/domain.c b/src/domain.c
deleted file mode 100644
index 186faa6..0000000
--- a/src/domain.c
+++ /dev/null
@@ -1,4343 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include <stdlib.h>
-#include <unistd.h>
-#include <string.h>
-#include <sys/stat.h>
-#include <sys/mman.h>
-#include "domain.h"
-
-#include "advection.h"
-#include "source.h"
-#include "solid.h"
-#include "adaptive.h"
-#include "mpi_boundary.h"
-#include "metric.h"
-#include "version.h"
-
-#include "config.h"
-
-/* LocateArray */
-
-typedef struct {
-  GtsObject ** root;
-  gdouble h, min[FTT_DIMENSION], max[FTT_DIMENSION];
-  gint n[FTT_DIMENSION];
-} LocateArray;
-
-static void locate_index (FttVector * p, LocateArray * a, gint i[FTT_DIMENSION])
-{
-  gint c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    i[c] = floor (((&p->x)[c] - a->min[c])/a->h);
-}
-
-static void root_bounds (FttCell * root, LocateArray * a)
-{
-  FttVector p;
-  ftt_cell_pos (root, &p);
-  gint i;
-  for (i = 0; i < FTT_DIMENSION; i++) {
-    if ((&p.x)[i] + a->h/2. > a->max[i]) a->max[i] = (&p.x)[i] + a->h/2.;
-    if ((&p.x)[i] - a->h/2. < a->min[i]) a->min[i] = (&p.x)[i] - a->h/2.;
-  }
-}
-
-static void box_bounds (GfsBox * box, LocateArray * a)
-{
-  root_bounds (box->root, a);
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d]))
-      root_bounds (GFS_BOUNDARY (box->neighbor[d])->root, a);
-}
-
-static gint locate_linear_index (FttVector * p, LocateArray * a)
-{
-  gint i[FTT_DIMENSION], index = 0, c;
-  locate_index (p, a, i);
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    if (i[c] < 0 || i[c] >= a->n[c])
-      return -1;
-    index = index*a->n[c] + i[c];
-  }
-  return index;
-}
-
-static void box_index (GfsBox * b, LocateArray * a)
-{
-  FttVector p;
-  ftt_cell_pos (b->root, &p);
-  gint i = locate_linear_index (&p, a);
-  g_assert (i >= 0);
-  a->root[i] = GTS_OBJECT (b);
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (b->neighbor[d])) {
-      GfsBoundary * boundary = GFS_BOUNDARY (b->neighbor[d]);
-      ftt_cell_pos (boundary->root, &p);
-      gint i = locate_linear_index (&p, a);
-      g_assert (i >= 0);
-      a->root[i] = GTS_OBJECT (boundary);
-    }
-}
-
-/*
- * Creates a rectangular array for fast location of which GfsBox
- * contains a given point.
- */
-static LocateArray * locate_array_new (GfsDomain * domain)
-{
-  LocateArray * a = g_malloc (sizeof (LocateArray));
-  guint i;
-  a->h = ftt_level_size (domain->rootlevel);
-  for (i = 0; i < FTT_DIMENSION; i++) {
-    a->min[i] = G_MAXDOUBLE;
-    a->max[i] = - G_MAXDOUBLE;
-  }
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_bounds, a);
-  guint size = 1;
-  for (i = 0; i < FTT_DIMENSION; i++) {
-    g_assert (a->max[i] > a->min[i]);
-    a->n[i] = ceil ((a->max[i] - a->min[i])/a->h - 0.5);
-    size *= a->n[i];
-  }
-  a->root = g_malloc0 (size*sizeof (GtsObject *));
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_index, a);
-  return a;
-}
-
-static GtsObject * locate_array_locate (LocateArray * a, FttVector * p)
-{
-  gint i = locate_linear_index (p, a);
-  return i < 0 ? NULL : a->root[i];
-}
-
-static void locate_array_destroy (LocateArray * a)
-{
-  if (a) {
-    g_free (a->root);
-    g_free (a);
-  }
-}
-
-/* GfsDomain: Object */
-
-static void domain_write (GtsObject * o, FILE * fp)
-{
-  GfsDomain * domain = GFS_DOMAIN (o);
-
-  if (GTS_OBJECT_CLASS (gfs_domain_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_domain_class ())->parent_class->write) (o, fp);
-
-  fputs (" { ", fp);
-  if (domain->rootlevel != 0)
-    fprintf (fp, "rootlevel = %u ", domain->rootlevel);
-  if (domain->refpos.x != 0.)
-    fprintf (fp, "x = %g ", domain->refpos.x);
-  if (domain->refpos.y != 0.)
-    fprintf (fp, "y = %g ", domain->refpos.y);
-  if (domain->refpos.z != 0.)
-    fprintf (fp, "z = %g ", domain->refpos.z);
-  if (domain->lambda.x != 1.)
-    fprintf (fp, "lx = %g ", domain->lambda.x);
-  if (domain->lambda.y != 1.)
-    fprintf (fp, "ly = %g ", domain->lambda.y);
-  if (domain->lambda.z != 1.)
-    fprintf (fp, "lz = %g ", domain->lambda.z);
-  fprintf (fp, "version = %d ", atoi (GFS_BUILD_VERSION));
-  if (!domain->overlap)
-    fputs ("overlap = 0 ", fp);
-  if (domain->max_depth_write > -2) {
-    GSList * i = domain->variables_io;
-
-    if (i != NULL) {
-      fprintf (fp, "variables = %s", GFS_VARIABLE1 (i->data)->name);
-      i = i->next;
-      while (i) {
-	fprintf (fp, ",%s", GFS_VARIABLE1 (i->data)->name);
-	i = i->next;
-      }
-      fputc (' ', fp);
-    }
-  }
-  if (domain->binary != FALSE)
-    fprintf (fp, "binary = 1 ");
-  fputc ('}', fp);
-}
-
-static void domain_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDomain * domain = GFS_DOMAIN (*o);
-  GtsFileVariable var[] = {
-    {GTS_UINT,   "rootlevel", TRUE},
-    {GTS_DOUBLE, "x",         TRUE},
-    {GTS_DOUBLE, "y",         TRUE},
-    {GTS_DOUBLE, "z",         TRUE},
-    {GTS_DOUBLE, "lx",        TRUE},
-    {GTS_DOUBLE, "ly",        TRUE},
-    {GTS_DOUBLE, "lz",        TRUE},
-    {GTS_STRING, "variables", TRUE},
-    {GTS_INT,    "binary",    TRUE},
-    {GTS_INT,    "version",   TRUE},
-    {GTS_INT,    "overlap",   TRUE},
-    {GTS_NONE}
-  };
-  gchar * variables = NULL;
-
-  if (GTS_OBJECT_CLASS (gfs_domain_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_domain_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  domain->version = -1;
-  var[0].data = &domain->rootlevel;
-  var[1].data = &domain->refpos.x;
-  var[2].data = &domain->refpos.y;
-  var[3].data = &domain->refpos.z;
-  var[4].data = &domain->lambda.x;
-  var[5].data = &domain->lambda.y;
-  var[6].data = &domain->lambda.z;
-  var[7].data = &variables;
-  var[8].data = &domain->binary;
-  var[9].data = &domain->version;
-  var[10].data = &domain->overlap;
-  gts_file_assign_variables (fp, var);
-  if (fp->type == GTS_ERROR) {
-    g_free (variables);
-    return;
-  }
-
-#if FTT_2D
-  if (var[3].set) {
-    gts_file_variable_error (fp, var, "z", "unknown identifier `z'");
-    return;
-  }
-  if (var[6].set) {
-    gts_file_variable_error (fp, var, "lz", "unknown identifier `lz'");
-    return;
-  }
-#endif
-
-  if (var[4].set && domain->lambda.x <= 0.) {
-    gts_file_variable_error (fp, var, "lx", "lx must be strictly positive");
-    return;
-  }
-  if (var[5].set && domain->lambda.y <= 0.) {
-    gts_file_variable_error (fp, var, "ly", "ly must be strictly positive");
-    return;
-  }
-  if (var[6].set && domain->lambda.z <= 0.) {
-    gts_file_variable_error (fp, var, "lz", "lz must be strictly positive");
-    return;
-  }
-
-  if (variables != NULL) {
-    gchar * variables1, * s;
-
-    variables1 = g_strdup (variables);
-    s = strtok (variables1, ",");
-    while (s) {
-      gfs_domain_add_variable (domain, s, NULL);
-      s = strtok (NULL, ",");
-    }
-    g_free (variables1);
-    domain->variables_io = gfs_variables_from_list (domain->variables, variables, &s);
-    g_free (variables);
-  }
-}
-
-static void box_set_pos (GfsBox * box, FttVector * pos, 
-			 FttDirection dold)
-{
-  FttVector p;
-  static FttVector rpos[FTT_NEIGHBORS] = {
-#if FTT_2D
-    {1.,0.,0.}, {-1.,0.,0.}, {0.,1.,0.}, {0.,-1.,0.}
-#else  /* FTT_3D */
-    {1.,0.,0.}, {-1.,0.,0.}, {0.,1.,0.}, {0.,-1.,0.}, {0.,0.,1.}, {0.,0.,-1.}
-#endif /* FTT_3D */
-  };  
-  static FttDirection id[FTT_NEIGHBORS][FTT_NEIGHBORS] = {
-#if FTT_2D
-    {0,1,2,3},
-    {1,0,3,2},
-    {2,3,1,0},
-    {3,2,0,1},
-#else  /* 3D */
-    {0,1,2,3,5,4},
-    {1,0,3,2,4,5},
-    {2,3,1,0,5,4},
-    {3,2,0,1,4,5},
-    {4,5,2,3,0,1},
-    {5,4,3,2,1,0}
-#endif /* 3D */
-  };
-
-  ftt_cell_pos (box->root, &p);
-  if (p.x != G_MAXDOUBLE) /* position already set */
-    return;
-
-  FttDirection i;
-  gdouble size;
-  size = ftt_cell_size (box->root);
-  ftt_cell_set_pos (box->root, pos);
-  for (i = 0; i < FTT_NEIGHBORS; i++) {
-    FttDirection d = id[dold][i];
-    
-    p.x = pos->x + rpos[d].x*size;
-    p.y = pos->y + rpos[d].y*size;
-    p.z = pos->z + rpos[d].z*size;
-    if (GFS_IS_BOX (box->neighbor[d]))
-      box_set_pos (GFS_BOX (box->neighbor[d]), &p, d);
-    else if (GFS_IS_BOUNDARY (box->neighbor[d]))
-      ftt_cell_set_pos (GFS_BOUNDARY (box->neighbor[d])->root, &p);
-  }
-}
-
-static void set_ref_pos (GfsBox * box, FttVector * pos)
-{
-  if (box->id == 1)
-    box_set_pos (box, pos, FTT_RIGHT);
-}
-
-static void removed_list (GfsBox * box, gpointer * data)
-{
-  GfsDomain * domain = data[0];
-  GSList ** removed = data[1];
-  guint * np = data[2];
-  if (box->pid != domain->pid)
-    *removed = g_slist_prepend (*removed, box);
-  else {
-    FttDirection d;
-    GfsBox * matching;
-
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (GFS_IS_BOUNDARY_PERIODIC (box->neighbor[d]) &&
-	  (matching = GFS_BOUNDARY_PERIODIC (box->neighbor[d])->matching)->pid != domain->pid) {
-	gts_object_destroy (GTS_OBJECT (box->neighbor[d]));
-	gfs_boundary_mpi_new (gfs_boundary_mpi_class (), box, d, matching->pid, matching->id);
-      }
-  }
-  if (box->pid > *np)
-    *np = box->pid;
-}
-
-static void mpi_links (GfsBox * box, GfsDomain * domain)
-{
-  FttDirection d;
-  GtsObject * neighbor[FTT_NEIGHBORS];
-  gint pid = box->pid;
-  gint id = box->id;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOX (box->neighbor[d]) && GFS_BOX (box->neighbor[d])->pid == domain->pid)
-      neighbor[d] = box->neighbor[d];
-    else
-      neighbor[d] = NULL;
-  gts_object_destroy (GTS_OBJECT (box));
-
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (neighbor[d])
-      gfs_boundary_mpi_new (gfs_boundary_mpi_class (),
-			    GFS_BOX (neighbor[d]), 
-			    FTT_OPPOSITE_DIRECTION (d), 
-			    pid, id);
-}
-
-static void add_id (GfsBox * box, GPtrArray * ids)
-{
-  if (box->id > ids->len)
-    g_ptr_array_set_size (ids, box->id);
-  g_ptr_array_index (ids, box->id - 1) = box;
-}
-
-static GPtrArray * box_ids (GfsDomain * domain)
-{
-  GPtrArray * ids = g_ptr_array_new ();
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) add_id, ids);
-  return ids;
-}
-
-
-static void convert_boundary_mpi_into_edges (GfsBox * box, GPtrArray * ids)
-{
-  gint pid = gfs_box_domain (box)->pid;
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY_MPI (box->neighbor[d])) {
-      GfsBoundaryMpi * b = GFS_BOUNDARY_MPI (box->neighbor[d]);
-      GfsBox * nbox;
-      if (b->id >= 0 && b->id <= ids->len && (nbox = g_ptr_array_index (ids, b->id - 1))) {
-	FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-	if (!GFS_IS_BOUNDARY_MPI (nbox->neighbor[od]))
-	  g_warning ("!GFS_IS_BOUNDARY_MPI (nbox->neighbor[FTT_OPPOSITE_DIRECTION (d)])");
-	else {
-	  GfsBoundaryMpi * nb = GFS_BOUNDARY_MPI (nbox->neighbor[od]);
-	  if (box->id != nb->id)
-	    g_warning ("box->id != nb->id");
-	  else {
-	    gts_object_destroy (GTS_OBJECT (b));
-	    gts_object_destroy (GTS_OBJECT (nb));
-	    gfs_gedge_new (gfs_gedge_class (), nbox, box, od);
-	  }
-	}
-      }
-    }
-  if (pid >= 0)
-    box->pid = pid;
-}
-
-static void domain_post_read (GfsDomain * domain, GtsFile * fp)
-{
-  gts_graph_foreach_edge (GTS_GRAPH (domain), (GtsFunc) gfs_gedge_link_boxes, NULL);
-
-  if (domain->pid >= 0) { /* Multiple PEs */
-    GSList * removed = NULL;
-    guint np = 0;
-    gpointer data[3];
-    
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) set_ref_pos, &domain->refpos);
-    data[0] = domain;
-    data[1] = &removed;
-    data[2] = &np;
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) removed_list, data);
-#ifdef HAVE_MPI
-    int comm_size;
-    MPI_Comm_size (MPI_COMM_WORLD, &comm_size);
-    if (np + 1 != comm_size) {
-      g_slist_free (removed);
-      gts_file_error (fp, "it would be valid if one or %d PE were used", np + 1);
-      return;
-    }
-#endif /* HAVE_MPI */
-    g_slist_foreach (removed, (GFunc) mpi_links, domain);
-    g_slist_free (removed);
-  }
-  else { /* Single PE */
-    /* Create array for fast linking of ids to GfsBox pointers */
-    GPtrArray * ids = box_ids (domain);
-    
-    /* Convert GfsBoundaryMpi into graph edges */
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) convert_boundary_mpi_into_edges, ids);
-
-    g_ptr_array_free (ids, TRUE);
-
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) set_ref_pos, &domain->refpos);
-  }
-
-  gfs_domain_match (domain);
-
-  locate_array_destroy (domain->array);
-  domain->array = locate_array_new (domain);
-
-  domain->version = atoi (GFS_BUILD_VERSION);
-}
-
-static void free_pair (gpointer key, gpointer value)
-{
-  g_free (key);
-  g_free (value);
-}
-
-static void cleanup_each_box (GfsBox * box, GfsDomain * domain)
-{
-  if (GFS_IS_BOX (box)) { /* this is a necessary check when using graph partitioning */
-    ftt_cell_traverse (box->root, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-		       (FttCellTraverseFunc) gfs_cell_cleanup, domain);
-    FttDirection d;
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (GFS_IS_BOUNDARY (box->neighbor[d]))
-	ftt_cell_traverse (GFS_BOUNDARY (box->neighbor[d])->root, 
-			   FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			   (FttCellTraverseFunc) gfs_cell_cleanup, domain);
-  }
-}
-
-static void domain_destroy (GtsObject * o)
-{
-  GfsDomain * domain = GFS_DOMAIN (o);
-  GSList * i;
-
-  gfs_clock_destroy (domain->timer);
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) cleanup_each_box, domain);
-
-  i = domain->variables;
-  while (i) {
-    GSList * next = i->next;
-    gts_object_destroy (i->data);
-    i = next;
-  }
-  g_assert (domain->variables == NULL);
-
-  g_slist_foreach (domain->derived_variables, (GFunc) gts_object_destroy, NULL);
-  g_slist_free (domain->derived_variables);
-  domain->derived_variables = NULL;
-
-  g_array_free (domain->allocated, TRUE);
-
-  g_hash_table_foreach (domain->timers, (GHFunc) free_pair, NULL);
-  g_hash_table_destroy (domain->timers);
-
-  g_slist_free (domain->variables_io);
-
-  locate_array_destroy (domain->array);
-
-  (* GTS_OBJECT_CLASS (gfs_domain_class ())->parent_class->destroy) (o);
-}
-
-static void add_item (gpointer item, GPtrArray * a)
-{
-  g_ptr_array_add (a, item);
-}
-
-static int compare_boxes (const void * p1, const void * p2)
-{
-  GfsBox * b1 = *(GfsBox **)p1;
-  GfsBox * b2 = *(GfsBox **)p2;
-  /* the check below is necessary when using graph partitioning */  
-  if (GFS_IS_BOX (b1) && GFS_IS_BOX (b2))
-    return b1->id < b2->id ? -1 : 1;
-  else
-    return 0;
-}
-
-static void domain_foreach (GtsContainer * c, 
-			    GtsFunc func, 
-			    gpointer data)
-{
-  GPtrArray * a = g_ptr_array_new ();
-  (* GTS_CONTAINER_CLASS (GTS_OBJECT_CLASS (gfs_domain_class ())->parent_class)->foreach)
-    (c, (GtsFunc) add_item, a);
-  qsort (a->pdata, a->len, sizeof (gpointer), compare_boxes);
-  guint i;
-  for (i = 0; i < a->len; i++)
-    (* func) (a->pdata[i], data);
-  g_ptr_array_free (a, TRUE);
-}
-
-static void domain_class_init (GfsDomainClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = domain_read;
-  GTS_OBJECT_CLASS (klass)->write = domain_write;
-  GTS_OBJECT_CLASS (klass)->destroy = domain_destroy;
-
-  GTS_CONTAINER_CLASS (klass)->foreach = domain_foreach;
-
-  klass->post_read = domain_post_read;
-}
-
-static void domain_init (GfsDomain * domain)
-{
-  domain->pid = -1;
-
-#ifdef HAVE_MPI
-  int size;
-
-  MPI_Comm_size (MPI_COMM_WORLD, &size);
-  if (size > 1)
-    MPI_Comm_rank (MPI_COMM_WORLD, &domain->pid);
-#endif /* HAVE_MPI */
-
-  domain->timer = gfs_clock_new ();
-  domain->timers = g_hash_table_new (g_str_hash, g_str_equal);
-
-  gts_range_init (&domain->size);
-
-  domain->profile_bc = FALSE;
-
-  gts_range_init (&domain->mpi_messages);
-  gts_range_init (&domain->mpi_wait);
-
-  domain->rootlevel = 0;
-  domain->refpos.x = domain->refpos.y = domain->refpos.z = 0.;
-  domain->lambda.x = domain->lambda.y = domain->lambda.z = 1.;
-
-  domain->allocated = g_array_new (FALSE, TRUE, sizeof (gboolean));
-  domain->variables = NULL;
-
-  domain->variables_io = NULL;
-  domain->max_depth_write = -1;
-
-  domain->cell_init = (FttCellInitFunc) gfs_cell_fine_init;
-  domain->cell_init_data = domain;
-
-  domain->version = atoi (GFS_BUILD_VERSION);
-
-  domain->overlap = TRUE;
-}
-
-GfsDomainClass * gfs_domain_class (void)
-{
-  static GfsDomainClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_domain_info = {
-      "GfsDomain",
-      sizeof (GfsDomain),
-      sizeof (GfsDomainClass),
-      (GtsObjectClassInitFunc) domain_class_init,
-      (GtsObjectInitFunc) domain_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_wgraph_class ()),
-				  &gfs_domain_info);
-  }
-
-  return klass;
-}
-
-typedef struct {
-  FttTraverseFlags flags;
-  gint max_depth;
-  GfsVariable * v, * v1;
-  FttComponent c;
-} BcData;
-
-static void box_bc (GfsBox * box, BcData * p)
-{
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++) 
-    if (GFS_IS_BOUNDARY (box->neighbor[d])) {
-      GfsBoundary * b = GFS_BOUNDARY (box->neighbor[d]);
-      GfsBc * bc = gfs_boundary_lookup_bc (b, p->v);
-
-      if (bc) {
-	b->v = p->v1;
-	bc->v = p->v1;
-	b->type = GFS_BOUNDARY_CENTER_VARIABLE;
-	ftt_face_traverse_boundary (b->root, b->d,
-				    FTT_PRE_ORDER, p->flags, p->max_depth,
-				    bc->bc, bc);
-	bc->v = p->v;
-	gfs_boundary_send (b);
-      }
-    }
-}
-
-static void direction_face_bc (GtsObject * neighbor,
-			       GfsVariable * v)
-{
-  if (GFS_IS_BOUNDARY (neighbor)) {
-    GfsBoundary * b = GFS_BOUNDARY (neighbor);
-    GfsBc * bc = gfs_boundary_lookup_bc (b, v);
-
-    if (bc) {
-      b->v = v;
-      b->type = GFS_BOUNDARY_CENTER_VARIABLE;
-      ftt_face_traverse_boundary (b->root, b->d,
-				  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				  bc->face_bc, bc);
-      b->type = GFS_BOUNDARY_FACE_VARIABLE;
-      gfs_boundary_send (b);
-    }
-  }
-}
-
-static void box_face_bc (GfsBox * box, BcData * p)
-{
-  if (p->c == FTT_XYZ) {
-    FttDirection d;
-    
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      direction_face_bc (box->neighbor[d], p->v);
-  }
-  else {
-    direction_face_bc (box->neighbor[2*p->c], p->v);
-    direction_face_bc (box->neighbor[2*p->c + 1], p->v);
-  }
-}
-
-static void box_receive_bc (GfsBox * box, BcData * r)
-{
-  if (r->c == FTT_XYZ) {
-    FttDirection d;
-    
-    for (d = 0; d < FTT_NEIGHBORS; d++) {
-      FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-
-      if (GFS_IS_BOUNDARY (box->neighbor[od]))
-	gfs_boundary_receive (GFS_BOUNDARY (box->neighbor[od]), r->flags, r->max_depth);
-    }
-  }
-  else {
-    if (GFS_IS_BOUNDARY (box->neighbor[2*r->c + 1]))
-      gfs_boundary_receive (GFS_BOUNDARY (box->neighbor[2*r->c + 1]), r->flags, r->max_depth);
-    if (GFS_IS_BOUNDARY (box->neighbor[2*r->c]))
-      gfs_boundary_receive (GFS_BOUNDARY (box->neighbor[2*r->c]), r->flags, r->max_depth);
-  }
-}
-
-static void box_match (GfsBox * box)
-{
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d])) {
-      GfsBoundary * boundary = GFS_BOUNDARY (box->neighbor[d]);
-
-      g_assert (GFS_BOUNDARY_CLASS (box->neighbor[d]->klass)->match);
-      boundary->type = GFS_BOUNDARY_MATCH_VARIABLE;
-      (* GFS_BOUNDARY_CLASS (box->neighbor[d]->klass)->match) (boundary);
-      gfs_boundary_send (boundary);
-    }
-}
-
-static void box_synchronize (GfsBox * box, FttComponent * c)
-{
-  if (*c == FTT_XYZ) {
-    FttDirection d;
-    
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (GFS_IS_BOUNDARY (box->neighbor[d]))
-	gfs_boundary_synchronize (GFS_BOUNDARY (box->neighbor[d]));
-  }
-  else {
-    if (GFS_IS_BOUNDARY (box->neighbor[2*(*c)]))
-      gfs_boundary_synchronize (GFS_BOUNDARY (box->neighbor[2*(*c)]));
-    if (GFS_IS_BOUNDARY (box->neighbor[2*(*c) + 1]))
-      gfs_boundary_synchronize (GFS_BOUNDARY (box->neighbor[2*(*c) + 1]));
-  }
-}
-
-/**
- * gfs_domain_copy_bc:
- * @domain: a #GfsDomain.
- * @flags: the traversal flags.
- * @max_depth: the maximum depth of the traversal.
- * @v: a #GfsVariable.
- * @v1: another #GfsVariable.
- *
- * Apply the boundary conditions of variable @v in @domain to variable @v1.
- */
-void gfs_domain_copy_bc (GfsDomain * domain,
-			 FttTraverseFlags flags,
-			 gint max_depth,
-			 GfsVariable * v,
-			 GfsVariable * v1)
-{
-  BcData b = { flags, max_depth, v, v1, FTT_XYZ };
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (v != NULL);
-  g_return_if_fail (v1 != NULL);
-
-  if (domain->profile_bc)
-    gfs_domain_timer_start (domain, "bc");
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_bc, &b);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_receive_bc, &b);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_synchronize, &b.c);
-
-  if (domain->profile_bc)
-    gfs_domain_timer_stop (domain, "bc");
-}
-
-/**
- * gfs_domain_bc:
- * @domain: a #GfsDomain.
- * @flags: the traversal flags.
- * @max_depth: the maximum depth of the traversal.
- * @v: a #GfsVariable.
- *
- * Apply the boundary conditions in @domain for variable @v.
- */
-void gfs_domain_bc (GfsDomain * domain,
-		    FttTraverseFlags flags,
-		    gint max_depth,
-		    GfsVariable * v)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (v != NULL);
-
-  gfs_domain_copy_bc (domain, flags, max_depth, v, v);
-}
-
-static void box_homogeneous_bc (GfsBox * box, BcData * p)
-{
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++) 
-    if (GFS_IS_BOUNDARY (box->neighbor[d])) {
-      GfsBoundary * b = GFS_BOUNDARY (box->neighbor[d]);
-      GfsBc * bc = gfs_boundary_lookup_bc (b, p->v);
-
-      if (bc) {
-	b->v = p->v1;
-	bc->v = p->v1;
-	b->type = GFS_BOUNDARY_CENTER_VARIABLE;
-	ftt_face_traverse_boundary (b->root, b->d,
-				    FTT_PRE_ORDER, p->flags, p->max_depth,
-				    bc->homogeneous_bc, bc);
-	bc->v = p->v;
-	gfs_boundary_send (b);
-      }
-    }
-}
-
-/**
- * gfs_domain_homogeneous_bc:
- * @domain: a #GfsDomain.
- * @flags: the traversal flags.
- * @max_depth: the maximum depth of the traversal.
- * @ov: a #GfsVariable.
- * @v: a #GfsVariable of which @ov is an homogeneous version.
- *
- * Apply the boundary conditions in @domain for variable @ov using the
- * homogeneous version of the boundary condititons for @v.
- */
-void gfs_domain_homogeneous_bc (GfsDomain * domain,
-				FttTraverseFlags flags,
-				gint max_depth,
-				GfsVariable * ov,
-				GfsVariable * v)
-{
-  BcData b = { flags, max_depth, v, ov, FTT_XYZ };
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (ov != NULL);
-  g_return_if_fail (v != NULL);
-
-  if (domain->profile_bc)
-    gfs_domain_timer_start (domain, "bc");
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_homogeneous_bc, &b);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_receive_bc, &b);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_synchronize, &b.c);
-
-  if (domain->profile_bc)
-    gfs_domain_timer_stop (domain, "bc");
-}
-
-typedef struct {
-  FttCellTraverseFunc func;
-  gpointer data;
-  FttTraverseType order;
-  FttTraverseFlags flags;
-  gint max_depth;
-} TraverseData;
-
-typedef struct {
-  TraverseData t;
-  BcData b;
-} TraverseBcData;
-
-static void update_mpi_cell (FttCell * cell, TraverseData * p)
-{
-  if ((cell->flags & GFS_FLAG_USED) == 0) {
-    (* p->func) (cell, p->data);
-    cell->flags |= GFS_FLAG_USED;
-  }
-}
-
-static void update_other_cell (FttCell * cell, TraverseData * p)
-{
-  if ((cell->flags & GFS_FLAG_USED) != 0)
-    cell->flags &= ~GFS_FLAG_USED;
-  else
-    (* p->func) (cell, p->data);
-}
-
-static void update_mpi_boundaries (GfsBox * box, TraverseBcData * p)
-{
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++) 
-    if (GFS_IS_BOUNDARY_MPI (box->neighbor[d])) {
-      GfsBoundary * b = GFS_BOUNDARY (box->neighbor[d]);
-      GfsBc * bc = gfs_boundary_lookup_bc (b, p->b.v);
-
-      if (bc) {
-	ftt_cell_traverse_boundary (box->root, d, p->t.order, p->t.flags, p->t.max_depth,
-				    (FttCellTraverseFunc) update_mpi_cell, p);
-	b->v = p->b.v1;
-	bc->v = p->b.v1;
-	b->type = GFS_BOUNDARY_CENTER_VARIABLE;
-	ftt_face_traverse_boundary (b->root, b->d,
-				    FTT_PRE_ORDER, p->b.flags, p->b.max_depth,
-				    bc->bc, bc);
-	bc->v = p->b.v;
-	gfs_boundary_send (b);
-      }
-    }
-}
-
-static void update_other_homogeneous_boundaries (GfsBox * box, BcData * p)
-{
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d]) &&
-	!GFS_IS_BOUNDARY_MPI (box->neighbor[d])) {
-      GfsBoundary * b = GFS_BOUNDARY (box->neighbor[d]);
-      GfsBc * bc = gfs_boundary_lookup_bc (b, p->v);
-
-      if (bc) {
-	b->v = p->v1;
-	bc->v = p->v1;
-	b->type = GFS_BOUNDARY_CENTER_VARIABLE;
-	ftt_face_traverse_boundary (b->root, b->d,
-				    FTT_PRE_ORDER, p->flags, p->max_depth,
-				    bc->homogeneous_bc, bc);
-	bc->v = p->v;
-	gfs_boundary_send (b);
-      }
-    }
-}
-
-/**
- * gfs_traverse_and_homogeneous_bc:
- * @domain: a #GfsDomain.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- * @ov: a #GfsVariable.
- * @v: a #GfsVariable of which @ov is an homogeneous version.
- *
- * For serial runs, this is identical to calling:
- *
- * gfs_domain_cell_traverse (domain, order, flags, max_depth, func, data);
- * gfs_domain_homogeneous_bc (domain, flags, max_depth, ov, v);
- *
- * For parallel runs, the communications needed to apply the boundary
- * conditions are overlapped with the calls to @func in the bulk of
- * the domain.
- */
-void gfs_traverse_and_homogeneous_bc (GfsDomain * domain,
-				      FttTraverseType order,
-				      FttTraverseFlags flags,
-				      gint max_depth,
-				      FttCellTraverseFunc func,
-				      gpointer data,
-				      GfsVariable * ov,
-				      GfsVariable * v)
-{
-  g_return_if_fail (domain != NULL);
-
-  if (domain->pid < 0 || !domain->overlap) {
-    gfs_domain_cell_traverse (domain, order, flags, max_depth, func, data);
-    gfs_domain_homogeneous_bc (domain, flags, max_depth, ov, v);
-  }
-  else {
-    TraverseBcData d = {
-      { func, data, order, flags, max_depth }, 
-      { flags, max_depth, v, ov, FTT_XYZ }
-    };
-    /* Update and send MPI boundary values */
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) update_mpi_boundaries, &d);
-    /* Update bulk of domain and other boundaries */
-    gfs_domain_cell_traverse (domain, order, flags, max_depth, 
-			      (FttCellTraverseFunc) update_other_cell, &d);
-    /* Apply homogeneous BC on other boundaries */
-    gts_container_foreach (GTS_CONTAINER (domain), 
-			   (GtsFunc) update_other_homogeneous_boundaries, &d.b);
-    /* Receive and synchronize */
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_receive_bc, &d.b);
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_synchronize, &d.b.c);
-  }
-}
-
-static void update_other_boundaries (GfsBox * box, BcData * p)
-{
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d]) &&
-	!GFS_IS_BOUNDARY_MPI (box->neighbor[d])) {
-      GfsBoundary * b = GFS_BOUNDARY (box->neighbor[d]);
-      GfsBc * bc = gfs_boundary_lookup_bc (b, p->v);
-
-      if (bc) {
-	b->v = p->v1;
-	bc->v = p->v1;
-	b->type = GFS_BOUNDARY_CENTER_VARIABLE;
-	ftt_face_traverse_boundary (b->root, b->d,
-				    FTT_PRE_ORDER, p->flags, p->max_depth,
-				    bc->bc, bc);
-	bc->v = p->v;
-	gfs_boundary_send (b);
-      }
-    }
-}
-
-/**
- * gfs_traverse_and_bc:
- * @domain: a #GfsDomain.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- * @v: a #GfsVariable.
- * @v1: another #GfsVariable.
- *
- * For serial runs, this is identical to calling:
- *
- * gfs_domain_cell_traverse (domain, order, flags, max_depth, func, data);
- * gfs_domain_copy_bc (domain, flags, max_depth, v, v1);
- *
- * For parallel runs, the communications needed to apply the boundary
- * conditions are overlapped with the calls to @func in the bulk of
- * the domain.
- */
-void gfs_traverse_and_bc (GfsDomain * domain,
-			  FttTraverseType order,
-			  FttTraverseFlags flags,
-			  gint max_depth,
-			  FttCellTraverseFunc func,
-			  gpointer data,
-			  GfsVariable * v,
-			  GfsVariable * v1)
-{
-  g_return_if_fail (domain != NULL);
-
-  if (domain->pid < 0 || !domain->overlap) {
-    gfs_domain_cell_traverse (domain, order, flags, max_depth, func, data);
-    gfs_domain_copy_bc (domain, flags, max_depth, v, v1);
-  }
-  else {
-    TraverseBcData d = {
-      { func, data, order, flags, max_depth },
-      { flags, max_depth, v, v1, FTT_XYZ }
-    };
-    /* Update and send MPI boundary values */
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) update_mpi_boundaries, &d);
-    /* Update bulk of domain and other boundaries */
-    gfs_domain_cell_traverse (domain, order, flags, max_depth, 
-    			      (FttCellTraverseFunc) update_other_cell, &d);
-    /* Apply BC on other boundaries */
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) update_other_boundaries, &d.b);
-    /* Receive and synchronize */
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_receive_bc, &d.b);
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_synchronize, &d.b.c);
-  }
-}
-
-/**
- * gfs_domain_face_bc:
- * @domain: a #GfsDomain.
- * @c: a component.
- * @v: a #GfsVariable.
- *
- * Apply the boundary conditions on the faces of @domain for variable @v.
- */
-void gfs_domain_face_bc (GfsDomain * domain,
-			 FttComponent c,
-			 GfsVariable * v)
-{
-  BcData b = { FTT_TRAVERSE_LEAFS, -1, v, v, c };
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (c == FTT_XYZ || (c >= 0 && c < FTT_DIMENSION));
-  g_return_if_fail (v != NULL);
-
-  if (domain->profile_bc)
-    gfs_domain_timer_start (domain, "face_bc");
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_face_bc, &b);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_receive_bc, &b);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_synchronize, &b.c);
-
-  if (domain->profile_bc)
-    gfs_domain_timer_stop (domain, "face_bc");
-}
-
-static void box_changed (GfsBox * box, gboolean * changed)
-{
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d]))
-      *changed |= GFS_BOUNDARY (box->neighbor[d])->changed;
-}
-
-static void refine_cell_corner (FttCell * cell, GfsDomain * domain)
-{
-  if (ftt_refine_corner (cell))
-    ftt_cell_refine_single (cell, domain->cell_init, domain->cell_init_data);
-}
-
-static void box_depth (GfsBox * box, guint * depth)
-{
-  guint d = ftt_cell_depth (box->root);
-
-  if (d > *depth)
-    *depth = d;
-}
-
-static gboolean domain_match (GfsDomain * domain)
-{
-  BcData b = { FTT_TRAVERSE_LEAFS, -1, NULL, NULL, FTT_XYZ };
-  gboolean changed = FALSE;
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_match, NULL);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_receive_bc, &b);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_synchronize, &b.c);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_changed, &changed);
-  if (changed) {
-    gint l;
-    guint depth = 0;
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_depth, &depth);
-    for (l = depth - 2; l >= 0; l--)
-      gfs_domain_cell_traverse (domain,
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, l,
-				(FttCellTraverseFunc) refine_cell_corner, domain);
-  }
-  gfs_all_reduce (domain, changed, MPI_INT, MPI_MAX);
-  return changed;
-}
-
-/**
- * gfs_domain_match:
- * @domain: a #GfsDomain.
- *
- * Match the boundaries of @domain.
- */
-void gfs_domain_match (GfsDomain * domain)
-{
-  g_return_if_fail (domain != NULL);
-
-  if (domain->profile_bc)
-    gfs_domain_timer_start (domain, "match");
-
-  while (domain_match (domain));
-
-  if (domain->profile_bc)
-    gfs_domain_timer_stop (domain, "match");
-}
-
-static void dirichlet_bc (FttCell * cell)
-{
-  cell->flags |= GFS_FLAG_DIRICHLET;
-  GFS_STATE (cell)->solid->fv = 0.;
-}
-
-static void neumann_bc (FttCell * cell)
-{
-  cell->flags &= ~GFS_FLAG_DIRICHLET;
-  GFS_STATE (cell)->solid->fv = 0.;
-}
-
-static gboolean is_velocity (GfsVariable * v, GfsDomain * domain)
-{
-  FttComponent c;
-  GfsVariable ** u = gfs_domain_velocity (domain);
-
-  for (c = 0; c < FTT_DIMENSION; c++)
-    if (v == u[c])
-      return TRUE;
-  return FALSE;
-}
-
-/**
- * gfs_domain_surface_bc:
- * @domain: a #GfsDomain.
- * @v: a #GfsVariable.
- *
- * Apply boundary conditions for variable @v on embedded surfaces. 
- */
-void gfs_domain_surface_bc (GfsDomain * domain,
-			    GfsVariable * v)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (v != NULL);
-
-  if (v->surface_bc)
-    gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL,
-      (FttCellTraverseFunc) GFS_SURFACE_GENERIC_BC_CLASS (GTS_OBJECT (v->surface_bc)->klass)->bc, 
-			       v->surface_bc);
-  else if (is_velocity (v, domain))
-    gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL,
-			       (FttCellTraverseFunc) dirichlet_bc, NULL);
-  else
-    gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL,
-			       (FttCellTraverseFunc) neumann_bc, NULL);
-}
-
-static void box_traverse (GfsBox * box, TraverseData * d)
-{
-  ftt_cell_traverse (box->root, d->order, d->flags, d->max_depth, d->func, d->data);
-}
-
-/**
- * gfs_domain_cell_traverse:
- * @domain: a #GfsDomain.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Traverses the cell trees of @domain. Calls the given function for
- * each cell visited.  
- */
-void gfs_domain_cell_traverse (GfsDomain * domain,
-			       FttTraverseType order,
-			       FttTraverseFlags flags,
-			       gint max_depth,
-			       FttCellTraverseFunc func,
-			       gpointer data)
-{
-  TraverseData d = { func, data, order, flags, max_depth };
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (func != NULL);
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_traverse, &d);
-}
-
-static void box_traverse_box (GfsBox * box, gpointer * datum)
-{
-  FttTraverseType * order = datum[0];
-  FttTraverseFlags * flags = datum[1];
-  gint * max_depth = datum[2];
-  FttCellTraverseFunc func = (FttCellTraverseFunc) datum[3];
-  gpointer data = datum[4];
-  GtsBBox * bb = datum[5];
-
-  ftt_cell_traverse_box (box->root, bb, 
-			 *order, *flags, *max_depth, func, data);
-}
-
-/**
- * gfs_domain_cell_traverse_box:
- * @domain: a #GfsDomain.
- * @box: a #GtsBBox.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Traverses the cell trees of @domain. Calls the given function for
- * each cell visited. Only the cells overlapping with @box are visited.
- */
-void gfs_domain_cell_traverse_box (GfsDomain * domain,
-				   GtsBBox * box,
-				   FttTraverseType order,
-				   FttTraverseFlags flags,
-				   gint max_depth,
-				   FttCellTraverseFunc func,
-				   gpointer data)
-{
-  gpointer datum[6];
-
-  datum[0] = &order;
-  datum[1] = &flags;
-  datum[2] = &max_depth;
-  datum[3] = func;
-  datum[4] = data;
-  datum[5] = box;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (box != NULL);
-  g_return_if_fail (func != NULL);
-
-  gts_container_foreach (GTS_CONTAINER (domain), 
-			 (GtsFunc) box_traverse_box, datum);
-}
-
-static void box_traverse_condition (GfsBox * box, gpointer * datum)
-{
-  FttTraverseType * order = datum[0];
-  FttTraverseFlags * flags = datum[1];
-  gint * max_depth = datum[2];
-  FttCellTraverseFunc func = (FttCellTraverseFunc) datum[3];
-  gpointer data = datum[4];
-  gboolean (* condition) (FttCell *, gpointer) = datum[5];
-  gpointer cdata = datum[6];
-
-  ftt_cell_traverse_condition (box->root, *order, *flags, *max_depth, func, data,
-			       condition, cdata);
-}
-
-/**
- * gfs_domain_cell_traverse_condition:
- * @domain: a #GfsDomain.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- * @condition: the condition.
- * @cdata: user data to pass to @condition.
- *
- * Traverses the cell trees of @domain. Calls the given function for
- * each cell visited.
- *
- * Traversal of any branch of the tree is stopped whenever @condition
- * is not verified.
- */
-void gfs_domain_cell_traverse_condition (GfsDomain * domain,
-					 FttTraverseType order,
-					 FttTraverseFlags flags,
-					 gint max_depth,
-					 FttCellTraverseFunc func,
-					 gpointer data,
-					 gboolean (* condition) (FttCell *, gpointer),
-					 gpointer cdata)
-{
-  gpointer datum[7];
-
-  datum[0] = &order;
-  datum[1] = &flags;
-  datum[2] = &max_depth;
-  datum[3] = func;
-  datum[4] = data;
-  datum[5] = condition;
-  datum[6] = cdata;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (func != NULL);
-  g_return_if_fail (condition != NULL);
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_traverse_condition, datum);
-}
-
-static void traverse_mixed (GfsBox * box, TraverseData * d)
-{
-  gfs_cell_traverse_mixed (box->root, d->order, d->flags, d->func, d->data);
-}
-
-/**
- * gfs_domain_traverse_mixed:
- * @domain: a #GfsDomain.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Calls @func for each mixed cell of @domain.
- */
-void gfs_domain_traverse_mixed (GfsDomain * domain,
-				FttTraverseType order,
-				FttTraverseFlags flags,
-				FttCellTraverseFunc func,
-				gpointer data)
-{
-  TraverseData d = { func, data, order, flags, -1 };
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (func != NULL);
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) traverse_mixed, &d);
-}
-
-typedef struct {
-  FttCellTraverseCutFunc func;
-  gpointer data;
-  FttTraverseType order;
-  FttTraverseFlags flags;
-  GfsGenericSurface * s;
-} TraverseCut;
-
-static void traverse_cut (GfsBox * box, TraverseCut * p)
-{
-  gfs_cell_traverse_cut (box->root, p->s, p->order, p->flags, p->func, p->data);
-}
-
-/**
- * gfs_domain_traverse_cut:
- * @domain: a #GfsDomain.
- * @s: a #GfsGenericSurface.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Calls @func for each cell of @domain cut by @s.
- */
-void gfs_domain_traverse_cut (GfsDomain * domain,
-			      GfsGenericSurface * s,
-			      FttTraverseType order,
-			      FttTraverseFlags flags,
-			      FttCellTraverseCutFunc func,
-			      gpointer data)
-{
-  TraverseCut p = { func, data, order, flags, s };
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (func != NULL);
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) traverse_cut, &p);
-}
-
-static void traverse_cut_2D (GfsBox * box, TraverseCut * p)
-{
-  gfs_cell_traverse_cut_2D (box->root, p->s, p->order, p->flags, p->func, p->data);
-}
-
-/**
- * gfs_domain_traverse_cut_2D:
- * @domain: a #GfsDomain.
- * @s: a #GfsGenericSurface.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Calls @func for each cell of @domain cut by @s.
- *
- * The cells are flattened in the z-direction.
- */
-void gfs_domain_traverse_cut_2D (GfsDomain * domain,
-				 GfsGenericSurface * s,
-				 FttTraverseType order,
-				 FttTraverseFlags flags,
-				 FttCellTraverseCutFunc func,
-				 gpointer data)
-{
-  TraverseCut p = { func, data, order, flags, s };
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (func != NULL);
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) traverse_cut_2D, &p);
-}
-
-/**
- * gfs_domain_depth:
- * @domain: a #GfsDomain.
- *
- * Returns: the maximum depth of the cell trees of @domain. This
- * function is global i.e. it returns the maximum depth over all the
- * processes (for parallel execution).
- */
-guint gfs_domain_depth (GfsDomain * domain)
-{
-  guint depth = 0;
-
-  g_return_val_if_fail (domain != NULL, 0);
-
-  gts_container_foreach (GTS_CONTAINER (domain),
-			 (GtsFunc) box_depth, &depth);
-  gfs_all_reduce (domain, depth, MPI_UNSIGNED, MPI_MAX);
-  return depth;
-}
-
-#include "ftt_internal.c"
-
-/**
- * gfs_domain_face_traverse:
- * @domain: a #GfsDomain.
- * @c: only the faces orthogonal to this component will be traversed - one of
- * %FTT_X, %FTT_Y, (%FTT_Z), %FTT_XYZ.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children and faces are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCellFace.
- * @data: user data to pass to @func.
- *
- * Traverses a @domain. Calls the given function for each face
- * of the cells of the domain.
- *
- * If %FTT_TRAVERSE_BOUNDARY_FACES is not set in @flags, only
- * "double-sided" faces are traversed i.e. the @neighbor field of the
- * face is never %NULL.  
- */
-void gfs_domain_face_traverse (GfsDomain * domain,
-			       FttComponent c,
-			       FttTraverseType order,
-			       FttTraverseFlags flags,
-			       gint max_depth,
-			       FttFaceTraverseFunc func,
-			       gpointer data)
-{
-  FttDirection d;
-  gpointer datum[6];
-  gboolean check = FALSE;
-  gboolean boundary_faces;
-  
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (c >= FTT_X && c <= FTT_XYZ);
-  g_return_if_fail (func != NULL);
-
-  boundary_faces = ((flags & FTT_TRAVERSE_BOUNDARY_FACES) != 0);
-  datum[1] = &max_depth;
-  datum[2] = func;
-  datum[3] = data;
-  datum[4] = &check;
-  datum[5] = &boundary_faces;
-  if (c == FTT_XYZ) {
-    if (boundary_faces) {
-      check = TRUE;
-      gfs_domain_cell_traverse (domain, order, flags, max_depth, 
-	  (FttCellTraverseFunc) traverse_all_faces, 
-				datum);
-    }
-    else {
-      gfs_domain_cell_traverse (domain, order, flags, max_depth, 
-	  (FttCellTraverseFunc) traverse_all_direct_faces, 
-				datum);
-      datum[0] = &d;
-      check = TRUE;
-      for (d = 1; d < FTT_NEIGHBORS; d += 2)
-	gfs_domain_cell_traverse_boundary (domain, 
-					   d, order, flags, max_depth, 
-					   (FttCellTraverseFunc) traverse_face, datum);
-    }
-  }
-  else if (c == FTT_XY) {
-    gfs_domain_face_traverse (domain, FTT_X, order, flags, max_depth, func, data);
-    gfs_domain_face_traverse (domain, FTT_Y, order, flags, max_depth, func, data);
-  }
-  else {
-    if (boundary_faces) {
-      check = TRUE;
-      datum[0] = &c;
-      gfs_domain_cell_traverse (domain, order, flags, max_depth, 
-				(FttCellTraverseFunc) traverse_face_component,
-				datum);
-    }
-    else {
-      d = 2*c;
-      datum[0] = &d;
-      gfs_domain_cell_traverse (domain, order, flags, max_depth, 
-				(FttCellTraverseFunc) traverse_face_direction, 
-				datum);
-      d = 2*c + 1;
-      check = TRUE;
-      gfs_domain_cell_traverse_boundary (domain, d, order, flags, max_depth, 
-					 (FttCellTraverseFunc) traverse_face, datum);
-    }
-  }
-  gfs_domain_cell_traverse (domain, order, flags, max_depth, 
-			    (FttCellTraverseFunc) reset_flag, NULL);
-}
-
-static void cell_traverse_boundary (GfsBox * box, gpointer * datum)
-{
-  FttDirection * d = datum[0];
-
-  if (!GFS_IS_BOX (box->neighbor[*d])) {
-    FttTraverseType * order = datum[1];
-    FttTraverseFlags * flags = datum[2];
-    gint * max_depth = datum[3];
-    FttCellTraverseFunc func = (FttCellTraverseFunc) datum[4];
-    gpointer data = datum[5];
-
-    ftt_cell_traverse_boundary (box->root, 
-				*d, *order, *flags, *max_depth, func, data);
-  }
-}
-
-/**
- * gfs_domain_cell_traverse_boundary:
- * @domain: a #GfsDomain.
- * @d: the direction of the boundary to traverse.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Traverses the boundary of a domain in direction @d. Calls the given
- * function for each cell visited.  
- */
-void gfs_domain_cell_traverse_boundary (GfsDomain * domain,
-					FttDirection d,
-					FttTraverseType order,
-					FttTraverseFlags flags,
-					gint max_depth,
-					FttCellTraverseFunc func,
-					gpointer data)
-{
-  gpointer datum[6];
-  
-  datum[0] = &d;
-  datum[1] = &order;
-  datum[2] = &flags;
-  datum[3] = &max_depth;
-  datum[4] = func;
-  datum[5] = data;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (d < FTT_NEIGHBORS);
-  g_return_if_fail (func != NULL);
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) cell_traverse_boundary, datum);
-}
-
-static void add_stats (const FttCell * cell, gpointer * data)
-{
-  GtsRange * s = data[0];
-  gdouble v = GFS_VARIABLE (cell, GFS_VARIABLE1 (data[1])->i);
-
-  if (v < G_MAXDOUBLE)
-    gts_range_add_value (s, v);
-}
-
-#ifdef HAVE_MPI
-static void range_reduce (void * i, void * o, 
-			  int * len,
-			  MPI_Datatype * type)
-{
-  gdouble * in = (gdouble *) i;
-  gdouble * inout = (gdouble *) o;
-  g_assert (*len == 5);
-  
-  if (in[0] < inout[0]) /* min */
-    inout[0] = in[0];
-  if (in[1] > inout[1]) /* max */
-    inout[1] = in[1];
-  inout[2] += in[2];    /* sum */
-  inout[3] += in[3];    /* sum2 */
-  inout[4] += in[4];    /* n */
-}
-
-static void domain_range_reduce (GfsDomain * domain, GtsRange * s)
-{
-  if (domain->pid >= 0) {
-    double in[5];
-    double out[5] = { G_MAXDOUBLE, - G_MAXDOUBLE, 0., 0., 0. };
-    MPI_Op op;
-    
-    MPI_Op_create (range_reduce, TRUE, &op);
-    in[0] = s->min; in[1] = s->max; in[2] = s->sum; in[3] = s->sum2;
-    in[4] = s->n;
-    MPI_Allreduce (in, out, 5, MPI_DOUBLE, op, MPI_COMM_WORLD);
-    MPI_Op_free (&op);
-    s->min = out[0]; s->max = out[1]; s->sum = out[2]; s->sum2 = out[3];
-    s->n = out[4];
-  }
-}
-#else /* not HAVE_MPI */
-static void domain_range_reduce (GfsDomain * domain, GtsRange * s)
-{
-}
-#endif /* HAVE_MPI */
-
-/**
- * gfs_domain_stats_variable:
- * @domain: the domain to obtain statistics from.
- * @v: a #GfsVariable.
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- *
- * Traverses the domain defined by @domain using gfs_domain_cell_traverse()
- * and gathers statistics about variable @v.
- *
- * Returns: a #GtsRange containing the statistics about @v.
- */
-GtsRange gfs_domain_stats_variable (GfsDomain * domain,
-				    GfsVariable * v,
-				    FttTraverseFlags flags,
-				    gint max_depth)
-{
-  GtsRange s;
-  gpointer data[2];
-
-  g_return_val_if_fail (domain != NULL, s);
-  g_return_val_if_fail (v != NULL, s);
-
-  gts_range_init (&s);
-  data[0] = &s;
-  data[1] = v;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, max_depth, 
-			   (FttCellTraverseFunc) add_stats, data);
-  domain_range_reduce (domain, &s);
-  gts_range_update (&s);
-
-  return s;
-}
-
-static void add_stats_solid (FttCell * cell, GtsRange * s)
-{
-  gts_range_add_value (s, GFS_STATE (cell)->solid->a);
-}
-
-/**
- * gfs_domain_stats_solid:
- * @domain: the domain to obtain statistics from.
- *
- * Traverses the domain defined by @domain using gfs_domain_traverse_mixed()
- * and gathers statistics about the solid volume fraction in mixed cells.
- *
- * Returns: statistics about the solid volume fraction @a in mixed cells.
- */
-GtsRange gfs_domain_stats_solid (GfsDomain * domain)
-{
-  GtsRange s;
-
-  g_return_val_if_fail (domain != NULL, s);
-
-  gts_range_init (&s);
-  gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			    (FttCellTraverseFunc) add_stats_solid, &s);
-  domain_range_reduce (domain, &s);
-  gts_range_update (&s);
-
-  return s;
-}
-
-static void add_stats_merged (GSList * m, gpointer * data)
-{
-  GtsRange * solid =  data[0];
-  GtsRange * number = data[1];
-  gdouble a = 0.;
-  guint n = 0;
-
-  while (m) {
-    FttCell * c = m->data;
-
-    a += GFS_IS_MIXED (c) ? GFS_STATE (c)->solid->a : 1.;
-    n++;
-    m = m->next;
-  }
-  if (n > 1 || a < 1.)
-    gts_range_add_value (solid, a);
-  if (n > 1)
-    gts_range_add_value (number, n);
-}
-
-/**
- * gfs_domain_stats_merged:
- * @domain: the domain to obtain statistics from.
- * @solid: #GtsRange in which to return stats for the total solid
- * volume fraction of merged cells. 
- * @number: #GtsRange in which to return stats for the number of cells
- * used per merged cell.
- *
- * Traverses the domain defined by @domain using
- * gfs_domain_traverse_merged() and gathers statistics about the total
- * solid volume fraction of merged cells and the number of cells used
- * per merged cell.
- */
-void gfs_domain_stats_merged (GfsDomain * domain,
-			     GtsRange * solid,
-			     GtsRange * number)
-{
-  gpointer data[2];
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (solid != NULL);
-  g_return_if_fail (number != NULL);
-
-  gts_range_init (solid);
-  gts_range_init (number);
-  data[0] = solid;
-  data[1] = number;
-  gfs_domain_traverse_merged (domain,
-			     (GfsMergedTraverseFunc) add_stats_merged, data);
-  domain_range_reduce (domain, solid);
-  domain_range_reduce (domain, number);
-  gts_range_update (solid);
-  gts_range_update (number);
-}
-
-static void cell_count (FttCell * cell, guint * count)
-{
-  (*count)++;
-}
-
-#define BPID(b) (gfs_box_domain (b)->pid >= 0 && (b)->pid > 0 ? (b)->pid : 0)
-
-static void box_count (GfsBox * b, GArray * a)
-{
-  guint count = 0, pid = BPID(b);
-  ftt_cell_traverse (b->root, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		     (FttCellTraverseFunc) cell_count, &count);
-  if (pid >= a->len)
-    g_array_set_size (a, pid + 1);
-  g_array_index (a, guint, pid) += count;
-}
-
-static void boundary_size (GfsBox * box, GArray * a)
-{
-  FttDirection d;
-  guint count = 0;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY_MPI (box->neighbor[d]) ||
-	(GFS_IS_BOX (box->neighbor[d]) && GFS_BOX (box->neighbor[d])->pid != box->pid))
-      ftt_cell_traverse_boundary (box->root, d, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				  (FttCellTraverseFunc) cell_count, &count);
-  g_array_index (a, guint, BPID (box)) += count;
-}
-
-/**
- * gfs_domain_stats_balance:
- * @domain: the domain to obtain statistics from.
- * @size: #GtsRange in which to return stats for the total size of the domain.
- * @boundary: #GtsRange in which to return stats for the size of the parallel 
- * boundaries of the domain.
- * @mpiwait:  #GtsRange in which to return stats for the average time spend
- * waiting for MPI calls in each PE.
- *
- * Gathers statistics about the sizes of the domains, their parallel
- * boundaries and the execution time on each PE.  
- */
-void gfs_domain_stats_balance (GfsDomain * domain,
-			       GtsRange * size,
-			       GtsRange * boundary,
-			       GtsRange * mpiwait)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (size != NULL);
-  g_return_if_fail (boundary != NULL);
-  g_return_if_fail (mpiwait != NULL);
-
-  gts_range_init (size);
-  gts_range_init (boundary);
-  gts_range_init (mpiwait);
-
-  if (domain->timestep.n > 0)
-    gts_range_add_value (mpiwait, domain->mpi_wait.sum/domain->timestep.n);
-
-  GArray * a = g_array_new (FALSE, TRUE, sizeof (guint));
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_count, a);
-  guint i;
-  for (i = 0; i < a->len; i++) {
-    guint v = g_array_index (a, guint, i);
-    if (v > 0) {
-      gts_range_add_value (size, v);
-      g_array_index (a, guint, i) = 0;
-    }
-  }
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) boundary_size, a);
-  for (i = 0; i < a->len; i++) {
-    guint v = g_array_index (a, guint, i);
-    if (v > 0)
-      gts_range_add_value (boundary, v);
-  }
-  domain_range_reduce (domain, size);
-  domain_range_reduce (domain, boundary);
-  domain_range_reduce (domain, mpiwait);
-  g_array_free (a, TRUE);
-  gts_range_update (size);
-  gts_range_update (boundary);
-  gts_range_update (mpiwait);
-}
-
-static void add_norm (const FttCell * cell, gpointer * data)
-{
-  GfsNorm * n = data[0];
-  GfsVariable * v = data[1];
-
-  gfs_norm_add (n, GFS_VALUE (cell, v), gfs_cell_volume (cell, v->domain));
-}
-
-static void add_norm_weighted (FttCell * cell, gpointer * data)
-{
-  GfsNorm * n = data[0];
-  GfsVariable * v = data[1];
-  GfsFunction * w = data[2];
-
-  gfs_norm_add (n, GFS_VALUE (cell, v), gfs_cell_volume (cell, v->domain)*
-		gfs_function_value (w, cell));
-}
-
-#ifdef HAVE_MPI
-static void norm_reduce (void * i, void * o, 
-			 int * len,
-			 MPI_Datatype * type)
-{
-  gdouble * in = (gdouble *) i;
-  gdouble * inout = (gdouble *) o;
-  g_assert (*len == 5);
-  
-  inout[0] += in[0];    /* bias */
-  inout[1] += in[1];    /* first */
-  inout[2] += in[2];    /* second */
-  if (in[3] > inout[3]) /* infty */
-    inout[3] = in[3];    
-  inout[4] += in[4];    /* w */
-}
-
-static void domain_norm_reduce (GfsDomain * domain, GfsNorm * n)
-{
-  if (domain->pid >= 0) {
-    double in[5];
-    double out[5] = { 0., 0., 0., - G_MAXDOUBLE, 0. };
-    MPI_Op op;
-
-    MPI_Op_create (norm_reduce, TRUE, &op);
-    in[0] = n->bias; in[1] = n->first; in[2] = n->second; in[3] = n->infty;
-    in[4] = n->w;
-    MPI_Allreduce (in, out, 5, MPI_DOUBLE, op, MPI_COMM_WORLD);
-    MPI_Op_free (&op);
-    n->bias = out[0]; n->first = out[1]; n->second = out[2]; n->infty = out[3];
-    n->w = out[4];
-  }
-}
-#else /* not HAVE_MPI */
-static void domain_norm_reduce (GfsDomain * domain, GfsNorm * n)
-{
-}
-#endif /* not HAVE_MPI */
-
-/**
- * gfs_domain_norm_variable:
- * @domain: the domain to obtain norm from.
- * @v: a #GfsVariable.
- * @w: a #GfsFunction or %NULL.
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- *
- * Traverses the domain defined by @domain using gfs_domain_cell_traverse()
- * and gathers norm statistics about variable @v.
- *
- * The norm is weighted by the volume of each cell times the value of
- * function @w (if @w is not %NULL).
- *
- * Returns: a #GfsNorm containing the norm statistics about @v.
- */
-GfsNorm gfs_domain_norm_variable (GfsDomain * domain,
-				  GfsVariable * v,
-				  GfsFunction * w,
-				  FttTraverseFlags flags,
-				  gint max_depth)
-{
-  GfsNorm n;
-  gpointer data[3];
-
-  g_return_val_if_fail (domain != NULL, n);
-  g_return_val_if_fail (v != NULL, n);
-  
-  gfs_norm_init (&n);
-  data[0] = &n;
-  data[1] = v;
-  data[2] = w;
-  if (w)
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, max_depth, 
-			      (FttCellTraverseFunc) add_norm_weighted, data);
-  else
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, max_depth, 
-			      (FttCellTraverseFunc) add_norm, data);
-  domain_norm_reduce (domain, &n);
-  gfs_norm_update (&n);
-
-  return n;
-}
-
-static void add_norm_residual (const FttCell * cell, gpointer * data)
-{
-  gdouble size = ftt_cell_size (cell);
-  GfsVariable * res = data[0];
-  GfsNorm * n = data[1];
-  
-  gfs_norm_add (n, GFS_VARIABLE (cell, res->i)/(size*size), 1.);
-}
-
-/**
- * gfs_domain_norm_residual:
- * @domain: the domain to obtain the norm from.
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- * @dt: the time step.
- * @res: the residual.
- *
- * Traverses the domain defined by @domain using gfs_domain_cell_traverse()
- * and gathers norm statistics about the volume weighted relative residual
- * (i.e. the sum of the residual over the volume defined by each cell
- * divided by the total volume of the cell).
- *
- * Returns: a #GfsNorm containing the norm statistics about the volume
- * weighted relative residual.  
- */
-GfsNorm gfs_domain_norm_residual (GfsDomain * domain,
-				  FttTraverseFlags flags,
-				  gint max_depth,
-				  gdouble dt,
-				  GfsVariable * res)
-{
-  GfsNorm n;
-  gpointer data[2];
-
-  g_return_val_if_fail (domain != NULL, n);
-  g_return_val_if_fail (res != NULL, n);
-  
-  gfs_norm_init (&n);
-  data[0] = res;
-  data[1] = &n;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, max_depth, 
-			   (FttCellTraverseFunc) add_norm_residual, data);
-  domain_norm_reduce (domain, &n);
-  gfs_norm_update (&n);
-
-  dt *= dt;
-  n.bias *= dt;
-  n.first *= dt;
-  n.second *= dt;
-  n.infty *= dt;
-  return n;
-}
-
-/**
- * gfs_domain_velocity:
- * @domain: a #GfsDomain.
- *
- * Returns: the components of the velocity vector for @domain.
- */
-GfsVariable ** gfs_domain_velocity (GfsDomain * domain)
-{
-  FttComponent c;
-  static gchar name[][2] = {"U","V","W"};
-
-  g_return_val_if_fail (domain != NULL, NULL);
-  
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    GfsVariable * v = gfs_variable_from_name (domain->variables, name[c]);
-    g_return_val_if_fail (v != NULL, NULL);
-    domain->velocity[c] = v;
-  }
-  return domain->velocity;
-}
-
-static void add_norm_velocity (FttCell * cell, gpointer * data)
-{
-  GfsVariable ** u = data[0];
-  GfsNorm * n = data[1];
-  
-  gfs_norm_add (n, gfs_vector_norm (cell, u), gfs_cell_volume (cell, u[0]->domain));
-}
-
-/**
- * gfs_domain_norm_velocity:
- * @domain: the domain to obtain the norm from.
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- *
- * Traverses the domain defined by @domain using gfs_domain_cell_traverse()
- * and gathers norm statistics about velocity.
- *
- * Returns: a #GfsNorm containing the norm statistics about the velocity.
- */
-GfsNorm gfs_domain_norm_velocity (GfsDomain * domain,
-				  FttTraverseFlags flags,
-				  gint max_depth)
-{
-  GfsNorm n;
-  gpointer data[2];
-
-  g_return_val_if_fail (domain != NULL, n);
-  
-  gfs_norm_init (&n);
-  data[0] = gfs_domain_velocity (domain);
-  data[1] = &n;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, max_depth, 
-			   (FttCellTraverseFunc) add_norm_velocity, data);
-  domain_norm_reduce (domain, &n);
-  gfs_norm_update (&n);
-
-  return n;
-}
-
-/**
- * gfs_domain_read:
- * @fp: a #GtsFile.
- *
- * Reads the graph nodes (#GfsBox) and edges and the
- * corresponding boundaries (#GfsBoundaryMpi if necessary) defined in
- * @fp.
- *
- * Returns: the #GfsDomain or %NULL if an error occured, in which case
- * the corresponding @fp fields (@pos and @error) are set.
- */
-GfsDomain * gfs_domain_read (GtsFile * fp)
-{
-  GfsDomain * domain;
-
-  g_return_val_if_fail (fp != NULL, NULL);
-						 
-  if (!(domain = GFS_DOMAIN (gts_graph_read (fp))))
-    return NULL;
-
-  (* GFS_DOMAIN_CLASS (GTS_OBJECT (domain)->klass)->post_read) (domain, fp);
-  if (fp->type == GTS_ERROR) {
-    gts_object_destroy (GTS_OBJECT (domain));
-    return NULL;
-  }
-
-  return domain;
-}
-
-typedef struct {
-  GSList * boxlist;
-  guint bid;
-  gboolean one_box_per_pe;
-  gint pid;
-  GfsVariable * newboxp;
-  GfsDomain * domain;
-} SplitPar;
-
-static void box_split (GfsBox * box, SplitPar * p)
-{
-  guint refid = FTT_DIMENSION == 2 ? 2 : 6;
-  FttCellChildren child;
-  FttDirection d;
-  guint i;
-  GfsDomain * domain = gfs_box_domain (box);
-
-  p->boxlist = g_slist_prepend (p->boxlist, box);
-
-  if (FTT_CELL_IS_LEAF (box->root))
-    ftt_cell_refine_single (box->root, (FttCellInitFunc) gfs_cell_init, domain);
-
-  ftt_cell_children (box->root, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i]) {
-      GfsBox * newbox = GFS_BOX (gts_object_new (GTS_OBJECT (box)->klass));
-
-      GTS_OBJECT (newbox)->reserved = domain;
-      if (p->one_box_per_pe)
-	newbox->pid = (p->pid)++;
-      else
-	newbox->pid = box->pid;
-      if (box->id == 1 && i == refid)
-	newbox->id = 1;
-      else
-	newbox->id = (p->bid)++;
-
-      GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (child.c[i], p->newboxp->i)) = newbox;
-
-      if (FTT_CELL_IS_LEAF (child.c[i]))
-	ftt_cell_refine_single (child.c[i], (FttCellInitFunc) gfs_cell_init, domain);
-    }
-
-#if FTT_2D3
-  g_assert_not_implemented ();
-#endif
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d])) {
-      GfsBoundary * boundary = GFS_BOUNDARY (box->neighbor[d]);
-
-      ftt_cell_children (boundary->root, &child);
-      for (i = 0; i < FTT_CELLS; i++)
-	if (child.c[i] && FTT_CELL_IS_LEAF (child.c[i]))
-	  ftt_cell_refine_single (child.c[i], (FttCellInitFunc) gfs_cell_init, domain);
-      ftt_cell_destroy_root (boundary->root, &child, (FttCellCleanupFunc) gfs_cell_cleanup, domain);
-      boundary->root = NULL;
-
-      ftt_cell_children_direction (box->root, d, &child);
-      for (i = 0; i < FTT_CELLS/2; i++)
-	if (child.c[i]) {
-	  FttCell * neighbor = ftt_cell_neighbor (child.c[i], d);
-	  GfsBox * newbox = GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (child.c[i], p->newboxp->i));
-	  GfsBoundaryClass * klass = GFS_BOUNDARY_CLASS (GTS_OBJECT (boundary)->klass);
-	  GtsObject * newboundary = GTS_OBJECT (gfs_boundary_new (klass, newbox, d));
-
-	  if (GFS_IS_BOUNDARY_PERIODIC (newboundary))
-	    GFS_BOUNDARY_PERIODIC (newboundary)->matching = 
-	      GFS_BOUNDARY_PERIODIC (boundary)->matching;
-	  else {
-	    gchar fname[] = "/tmp/XXXXXX";
-	    gint fd = mkstemp (fname);
-	    FILE * fp = fdopen (fd, "w");
-	    GtsFile * gfp;
-	    
-	    (* GTS_OBJECT_CLASS (klass)->write) (GTS_OBJECT (boundary), fp);
-	    fclose (fp);
-	    close (fd);
-	    fp = fopen (fname, "r");
-	    unlink (fname);
-	    gfp = gts_file_new (fp);
-	    (* GTS_OBJECT_CLASS (klass)->read) (&newboundary, gfp);
-	    g_assert (gfp->type != GTS_ERROR);
-	    gts_file_destroy (gfp);
-	    fclose (fp);
-	  }
-	  g_assert (neighbor);
-	  GFS_BOUNDARY (newboundary)->root = neighbor;
-	}
-      gts_object_destroy (GTS_OBJECT (boundary));
-    }
-}
-
-static GtsGEdge * node_is_linked (GtsGNode * n1, GtsGNode * n2, FttDirection d)
-{
-  GSList * i = GTS_SLIST_CONTAINER (n1)->items;
-  while (i) {
-    if (GTS_GNODE_NEIGHBOR (n1, i->data) == n2 &&
-	GFS_GEDGE (i->data)->d == d)
-      return i->data;
-    i = i->next;
-  }
-  return NULL;
-}
-
-static void box_link (GfsBox * box, SplitPar * p)
-{
-  FttCellChildren child;
-  guint i;
-
-  ftt_cell_children (box->root, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i]) {
-       GfsBox * newbox = GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (child.c[i], p->newboxp->i));
-       FttDirection d;
-       
-       g_assert (newbox);
-       gts_container_add (GTS_CONTAINER (p->domain), GTS_CONTAINEE (newbox));
-
-       for (d = 0; d < FTT_NEIGHBORS; d++)
-	 if (newbox->neighbor[d] != NULL && GFS_IS_BOUNDARY_PERIODIC (newbox->neighbor[d])) {
-	   GfsBox * matching =  GFS_BOUNDARY_PERIODIC (newbox->neighbor[d])->matching;
-	   static FttDirection match[FTT_CELLS][FTT_DIMENSION] = {
-#if FTT_2D
-	     {0,2}, {1,2}, {0,3}, {1,3}
-#elif FTT_2D3
-#else /* 3D */
-	     {0,2,4}, {1,2,4}, {0,3,4}, {1,3,4},
-	     {0,2,5}, {1,2,5}, {0,3,5}, {1,3,5}
-#endif /* 3D */
-	   };
-	   FttCell * neighbor = ftt_cell_child_corner (matching->root, 
-						       match[FTT_CELL_ID (child.c[i])]);
-	   g_assert (neighbor);
-	   GfsBox * newbox1 = GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (neighbor, p->newboxp->i));
-	   g_assert (newbox1);
-	   GFS_BOUNDARY_PERIODIC (newbox->neighbor[d])->matching = newbox1;
-	   if (!node_is_linked (GTS_GNODE (newbox1), GTS_GNODE (newbox), 
-				FTT_OPPOSITE_DIRECTION (d))) {
-	     GfsGEdge * edge = GFS_GEDGE (gts_gedge_new (GTS_GRAPH (p->domain)->edge_class,
-							 GTS_GNODE (newbox), 
-							 GTS_GNODE (newbox1)));
-	     edge->d = d;
-	   }
-	 }
-	 else if (newbox->neighbor[d] == NULL) {
-	   FttCell * neighbor = ftt_cell_neighbor (child.c[i], d);
-
-	   if (neighbor) {
-	     GfsBox * newbox1 = GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (neighbor, p->newboxp->i));
-	     FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-	     GfsGEdge * edge;
-
-	     g_assert (newbox1);
-	     newbox->neighbor[d] = GTS_OBJECT (newbox1);
-	     g_assert (newbox1->neighbor[od] == NULL);
-	     newbox1->neighbor[od] = GTS_OBJECT (newbox);
-	     edge = GFS_GEDGE (gts_gedge_new (GTS_GRAPH (p->domain)->edge_class,
-					      GTS_GNODE (newbox), 
-					      GTS_GNODE (newbox1)));
-	     edge->d = d;
-	   }
-	 }
-    }
-}
-
-static void box_destroy (GfsBox * box, GfsVariable * newboxp)
-{
-  GfsBox * newbox[FTT_CELLS];
-  FttCellChildren child;
-  guint i;
-
-  ftt_cell_children (box->root, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i])
-      newbox[i] = GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (child.c[i], newboxp->i));
-    else
-      newbox[i] = NULL;
-
-  ftt_cell_destroy_root (box->root, &child, (FttCellCleanupFunc) gfs_cell_cleanup, 
-			 gfs_box_domain (box));
-  box->root = NULL;
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i]) {
-      newbox[i]->root = child.c[i];
-      FTT_ROOT_CELL (newbox[i]->root)->parent = newbox[i];
-    }
-
-  gts_object_destroy (GTS_OBJECT (box));
-}
-
-static void get_ref_pos (GfsBox * box, FttVector * pos)
-{
-  if (box->id == 1)
-    ftt_cell_pos (box->root, pos);
-}
-
-/**
- * gfs_domain_split:
- * @domain: a #GfsDomain.
- * @one_box_per_pe: if %TRUE each new box created is assigned to a
- * different process, otherwise the newly created box inherits the pid
- * of its parent.
- *
- * Splits each box of @domain into its (4 in 2D, 8 in 3D)
- * children. The corresponding newly created boxes are added to the
- * graph and the parent boxes are destroyed.
- */
-void gfs_domain_split (GfsDomain * domain, gboolean one_box_per_pe)
-{
-  SplitPar p;
-
-  g_return_if_fail (domain != NULL);
-
-  p.newboxp = gfs_temporary_variable (domain);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, 1,
-  			   (FttCellTraverseFunc) gfs_cell_reset, p.newboxp);
-  p.boxlist = NULL;
-  p.bid = 2;
-  p.pid = 0;
-  p.one_box_per_pe = one_box_per_pe;
-  p.domain = domain;
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_split, &p);
-  g_slist_foreach (p.boxlist, (GFunc) box_link, &p);
-  g_slist_foreach (p.boxlist, (GFunc) box_destroy, p.newboxp);
-  g_slist_free (p.boxlist);
-  gts_object_destroy (GTS_OBJECT (p.newboxp));
-
-  gfs_domain_match (domain);
-  domain->rootlevel++;
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) get_ref_pos, &domain->refpos);
-}
-
-/**
- * gfs_domain_locate:
- * @domain: a #GfsDomain.
- * @target: position of the point to look for.
- * @max_depth: maximum depth to consider (-1 means no restriction, see below for -2).
- * @where: a pointer to a #GfsBox or %NULL.
- *
- * Locates the cell of @domain containing @target. This is done
- * efficiently in log(n) operations by using the topology of the cell
- * trees.
- *
- * If @max_depth is set to -2, the finest cell containing @target is
- * returned. This cell is not necessarily a leaf-cell in contrast to
- * the case where @max_depth is set to -1.
- *
- * If @where is not %NULL it is filled with the #GfsBox containing the
- * cell.
- *
- * Returns: a #FttCell of @domain containing (boundary included) the
- * point defined by @target or %NULL if @target is not contained in
- * any cell of @domain.  
- */
-FttCell * gfs_domain_locate (GfsDomain * domain,
-			     FttVector target,
-			     gint max_depth,
-			     GfsBox ** where)
-{
-  GtsObject * b = locate_array_locate (domain->array, &target);
-  if (GFS_IS_BOX (b)) {
-    if (where)
-      *where = GFS_BOX (b);
-    return ftt_cell_locate (GFS_BOX (b)->root, target, max_depth);
-  }
-  return NULL;
-}
-
-/**
- * gfs_domain_boundary_locate:
- * @domain: a #GfsDomain.
- * @target: position of the point to look for.
- * @max_depth: maximum depth to consider (-1 means no restriction).
- * @where: a pointer to a #GtsObject.
- *
- * Locates the cell of @domain or of its boundary containing @target.
- *
- * If @where is not %NULL it is filled with the #GtsObject (either a
- * #GfsBox or a #GfsBoundary) containing the cell.
- *
- * Returns: a #FttCell of @domain or of its boundary containing the
- * point defined by @target or %NULL if @target is not contained in
- * any cell of @domain or of its boundary.
- */
-FttCell * gfs_domain_boundary_locate (GfsDomain * domain,
-				      FttVector target,
-				      gint max_depth,
-				      GtsObject ** where)
-{
-  GtsObject * b = locate_array_locate (domain->array, &target);
-  if (where)
-    *where = b;
-  if (GFS_IS_BOX (b))
-    return ftt_cell_locate (GFS_BOX (b)->root, target, max_depth);
-  else if (GFS_IS_BOUNDARY (b)) {
-    FttCell * cell = ftt_cell_locate (GFS_BOUNDARY (b)->root, target, max_depth);
-    return cell && GFS_CELL_IS_BOUNDARY (cell) ? cell : NULL;
-  }
-  return NULL;
-}
-
-static void box_distance2 (GfsBox * box, GPtrArray * a)
-{
-  g_ptr_array_add (a, box);
-}
-
-static void bubble_sort (GPtrArray * a, gdouble * d)
-{
-  guint i, j;
-
-  for (i = 0; i < a->len - 1; i++)
-    for (j = 0; j < a->len - 1 - i; j++)
-      if (d[j+1] < d[j]) {
-	gdouble tmp = d[j];
-	gpointer data = a->pdata[j];
-	d[j] = d[j+1];
-	d[j+1] = tmp;
-	a->pdata[j] = a->pdata[j+1];
-	a->pdata[j+1] = data;
-      }
-}
-
-/**
- * gfs_domain_cell_point_distance2:
- * @domain: a #GfsDomain.
- * @p: a #GtsPoint.
- * @distance2: the squared distance function.
- * @data: user data to pass to @distance2.
- * @closest: where to return the closest cell or %NULL.
- *
- * For non-leafs cells @distance2 must return a lower-bound for the
- * minimum distance (using for example ftt_cell_point_distance2_min()).
- *
- * Returns: the square of the minimum distance measured according to
- * @distance2 between @p and a leaf cell of @domain.
- */
-gdouble gfs_domain_cell_point_distance2 (GfsDomain * domain,
-					 GtsPoint * p,
-					 gdouble (* distance2) (FttCell *, GtsPoint *, gpointer),
-					 gpointer data,
-					 FttCell ** closest)
-{
-  gdouble dmin = G_MAXDOUBLE;
-  GPtrArray * a;
-  gdouble * d;
-  guint i;
-
-  g_return_val_if_fail (domain != NULL, dmin);
-  g_return_val_if_fail (p != NULL, dmin);
-  g_return_val_if_fail (distance2 != NULL, dmin);
-
-  if (closest)
-    *closest = NULL;
-  a = g_ptr_array_new ();
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_distance2, a);
-  d = g_malloc (sizeof (gdouble)*a->len);
-  for (i = 0; i < a->len; i++)
-    d[i] = (* distance2) (GFS_BOX (a->pdata[i])->root, p, data);
-  bubble_sort (a, d);
-  for (i = 0; i < a->len; i++)
-    if (d[i] < dmin)
-      ftt_cell_point_distance2_internal (GFS_BOX (a->pdata[i])->root, p, d[i],
-					 distance2, data, closest, &dmin);
-  g_free (d);
-  g_ptr_array_free (a, TRUE);
-  return dmin;
-}
-
-/**
- * gfs_domain_advect_point:
- * @domain: a #GfsDomain.
- * @p: a #FttVector.
- * @dt: the time step.
- *
- * Updates the coordinates of point @p at time t + @dt using the
- * velocity field defined by @domain.
- *
- * If @p is not contained within @domain, the coordinates are unchanged.
- */
-void gfs_domain_advect_point (GfsDomain * domain, 
-			      FttVector * p,
-			      gdouble dt)
-{
-  FttCell * cell;
-  FttVector p0, p1;
-  FttComponent c;
-  GfsVariable ** u;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (p != NULL);
-
-  p0 = p1 = *p;
-  cell = gfs_domain_locate (domain, p0, -1, NULL);
-  if (cell == NULL)
-    return;
-  u = gfs_domain_velocity (domain);
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&p1.x)[c] += dt*gfs_interpolate (cell, p0, u[c])/2.;
-  cell = gfs_domain_locate (domain, p1, -1, NULL);
-  if (cell == NULL)
-    return;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&p->x)[c] += dt*gfs_interpolate (cell, p1, u[c]);
-}
-
-static void count (FttCell * cell, guint * n)
-{
-  (*n)++;
-}
-
-/**
- * gfs_domain_size:
- * @domain: a #GfsDomain.
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- *
- * Returns: the number of cells of @domain traversed using @flags and
- * @max_depth.
- */
-guint gfs_domain_size (GfsDomain * domain,
-		       FttTraverseFlags flags,
-		       gint max_depth)
-{
-  guint n = 0;
-
-  g_return_val_if_fail (domain != NULL, 0);
-  
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, max_depth, 
-			   (FttCellTraverseFunc) count, &n);
-  gfs_all_reduce (domain, n, MPI_UNSIGNED, MPI_SUM);
-  return n;
-}
-
-typedef struct {
-  gdouble cfl;
-  GfsVariable ** v;
-  GfsDomain * domain;
-} CflData;
-
-static void minimum_mac_cfl (FttCellFace * face, CflData * p)
-{
-  gdouble un = GFS_STATE (face->cell)->f[face->d].un;
-  gdouble length = ftt_cell_size (face->cell);
-  if (p->domain->cell_metric) {
-    gdouble fm = (* p->domain->face_metric) (p->domain, face);
-    if (fm <= 0.) /* e.g. Axi metric on the axis */
-      return;
-    length *= (* p->domain->cell_metric) (p->domain, face->cell)/fm;
-  }
-  if (un != 0.) {
-    gdouble cflu = length/fabs (un);
-    if (cflu*cflu < p->cfl)
-      p->cfl = cflu*cflu;
-  }
-  FttComponent c = face->d/2;
-  if (p->v[c]->sources) {
-    gdouble g = 0.;
-    GSList * i = GTS_SLIST_CONTAINER (p->v[c]->sources)->items;
-    while (i) {
-      GfsSourceGeneric * s = i->data;
-      if (s->face_value)
-	g += (* s->face_value) (s, face, p->v[c]);
-      i = i->next;
-    }
-    if (g != 0.) {
-      gdouble cflg = 2.*length/fabs (g);
-      if (cflg < p->cfl)
-	p->cfl = cflg;
-    }
-  }
-}
-
-static void minimum_cfl (FttCell * cell, CflData * p)
-{
-  gdouble length = ftt_cell_size (cell);
-  if (p->domain->cell_metric)
-    length *= (* p->domain->cell_metric) (p->domain, cell);
-
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gdouble fm;
-    if (p->domain->face_metric) {
-      FttCellFace f;
-      f.cell = cell; f.d = 2*c;
-      gdouble fm1 = (* p->domain->face_metric) (p->domain, &f);
-      f.d = 2*c + 1;
-      gdouble fm2 = (* p->domain->face_metric) (p->domain, &f);
-      fm = MAX (fm1, fm2);
-    }
-    else
-      fm = 1.;
-    if (GFS_VALUE (cell, p->v[c]) != 0.) {
-      gdouble cflu = length/fabs (fm*GFS_VALUE (cell, p->v[c]));
-
-      if (cflu*cflu < p->cfl)
-	p->cfl = cflu*cflu;
-    }
-    if (p->v[c]->sources) {
-      gdouble g = gfs_variable_mac_source (p->v[c], cell);
-
-      if (g != 0.) {
-	gdouble cflg = 2.*length/fabs (fm*g);
-
-	if (cflg < p->cfl)
-	  p->cfl = cflg;
-      }
-    }
-  }
-}
-
-/**
- * gfs_domain_cfl:
- * @domain: a #GfsDomain.
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- *
- * Returns: the minimum over the cells of @domain (traversed using
- * @flags and @max_depth) of the time scale defined by the size of the
- * cell and the norm of either the local velocity or the local
- * acceleration.
- */
-gdouble gfs_domain_cfl (GfsDomain * domain,
-			FttTraverseFlags flags,
-			gint max_depth)
-{
-  CflData p;
-
-  g_return_val_if_fail (domain != NULL, 0.);
-
-  p.cfl = G_MAXDOUBLE;
-  p.v = gfs_domain_velocity (domain);
-  p.domain = domain;
-  gfs_domain_face_traverse (domain, FTT_XYZ, FTT_PRE_ORDER, flags, max_depth, 
-			    (FttFaceTraverseFunc) minimum_mac_cfl, &p);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, max_depth, 
-			    (FttCellTraverseFunc) minimum_cfl, &p);
-  gfs_all_reduce (domain, p.cfl, MPI_DOUBLE, MPI_MIN);
-  return sqrt (p.cfl);
-}
-
-/**
- * gfs_cell_init:
- * @cell: a #FttCell.
- * @domain: a #GfsDomain containing @cell.
- *
- * Allocates the memory for fluid state data associated to @cell or its children.
- */
-void gfs_cell_init (FttCell * cell, GfsDomain * domain)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (domain != NULL);
-
-  if (FTT_CELL_IS_LEAF (cell)) {
-    g_return_if_fail (cell->data == NULL);
-    cell->data = g_malloc0 (gfs_domain_variables_size (domain));
-  }
-  else {
-    FttCellChildren child;
-    guint n;
-
-    ftt_cell_children (cell, &child);
-    for (n = 0; n < FTT_CELLS; n++) {
-      g_return_if_fail (child.c[n]->data == NULL);
-      child.c[n]->data = g_malloc0 (gfs_domain_variables_size (domain));
-    }
-    if (GFS_CELL_IS_BOUNDARY (cell))
-      for (n = 0; n < FTT_CELLS; n++)
-	child.c[n]->flags |= GFS_FLAG_BOUNDARY;
-  }
-}
-
-/**
- * gfs_cell_reinit:
- * @cell: a #FttCell.
- * @domain: a #GfsDomain containing @cell.
- *
- * Re-allocates the memory for fluid state data associated to @cell.
- */
-void gfs_cell_reinit (FttCell * cell, GfsDomain * domain)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (cell->data != NULL);
-  g_return_if_fail (domain != NULL);
-
-  cell->data = g_realloc (cell->data, gfs_domain_variables_size (domain));
-}
-
-/**
- * gfs_cell_fine_init:
- * @parent: a #FttCell.
- * @domain: a #GfsDomain containing @parent.
- *
- * Initialises the children of @parent.
- */
-void gfs_cell_fine_init (FttCell * parent, GfsDomain * domain)
-{
-  GSList * i;
-
-  g_return_if_fail (parent != NULL);
-  g_return_if_fail (!FTT_CELL_IS_LEAF (parent));
-  g_return_if_fail (domain != NULL);
-
-  gfs_cell_init (parent, domain);
-
-  if (!GFS_CELL_IS_BOUNDARY (parent) && GFS_IS_MIXED (parent))
-    gfs_solid_coarse_fine (parent, domain);
-
-  /* metric is used by gfs_cell_coarse_fine(), make sure it is
-     initialised first */
-  i = domain->variables;
-  while (i) {
-    GfsVariable * v = i->data;
-    if (GFS_IS_VARIABLE_METRIC (v))
-      (* v->coarse_fine) (parent, v);
-    i = i->next;
-  }
-
-  /* initialise remaining variables */
-  i = domain->variables;
-  while (i) {
-    GfsVariable * v = i->data;
-    if (!GFS_IS_VARIABLE_METRIC (v))
-      (* v->coarse_fine) (parent, v);
-    i = i->next;
-  }
-}
-
-/**
- * gfs_cell_copy:
- * @from: a #FttCell to copy attributes from.
- * @to: a #FttCell to copy attributes to.
- * @domain: the #GfsDomain containing @from.
- *
- * Copies the attributes of the fluid cell @from to the fluid cell @to.
- */
-void gfs_cell_copy (const FttCell * from, 
-		    FttCell * to,
-		    GfsDomain * domain)
-{
-  GfsSolidVector * solid;
-  GfsStateVector * froms, * tos;
-
-  g_return_if_fail (from != NULL);
-  g_return_if_fail (to != NULL);
-  g_return_if_fail (from != to);  
-  g_return_if_fail (domain != NULL);
-
-  froms = GFS_STATE (from);
-  tos = GFS_STATE (to);
-  if (froms != NULL) {
-    if (tos == NULL) {
-      gfs_cell_init (to, domain);
-      tos = GFS_STATE (to);
-    }
-    solid = tos->solid;
-    memcpy (to->data, from->data, gfs_domain_variables_size (domain));
-    if (froms->solid == NULL) {
-      if (solid)
-	g_free (solid);
-    }
-    else {
-      tos->solid = solid;
-      *solid = *(froms->solid);
-    }
-  }
-  else if (tos != NULL)
-    gfs_cell_cleanup (to, domain);
-}
-
-/**
- * gfs_cell_write:
- * @cell: a #FttCell.
- * @fp: a file pointer.
- * @variables: the list of #GfsVariable to be written.
- *
- * Writes in @fp the fluid data associated with @cell and described by
- * @variables. This function is generally used in association with
- * ftt_cell_write().  
- */
-void gfs_cell_write (const FttCell * cell, FILE * fp,
-		     GSList * variables)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (fp != NULL);
-
-  if (GFS_IS_MIXED (cell)) {
-    GfsStateVector * s = GFS_STATE (cell);
-    guint i;
-
-    for (i = 0; i < FTT_NEIGHBORS; i++)
-      fprintf (fp, " %g", s->solid->s[i]);
-    fprintf (fp, " %g", s->solid->a);
-    for (i = 0; i < FTT_DIMENSION; i++)
-      fprintf (fp, " %g", (&s->solid->cm.x)[i]);
-  }
-  else
-    fputs (" -1", fp);
-  
-  while (variables) {
-    fprintf (fp, " %g", GFS_VARIABLE (cell, GFS_VARIABLE1 (variables->data)->i));
-    variables = variables->next;
-  }
-}
-
-/**
- * gfs_cell_read:
- * @cell: a #FttCell.
- * @fp: a #GtsFile.
- * @domain: the #GfsDomain containing @cell.
- *
- * Reads from @fp the fluid data associated with @cell and described
- * by @domain->variables_io. This function is generally used in
- * association with ftt_cell_read().  
- */
-void gfs_cell_read (FttCell * cell, GtsFile * fp, GfsDomain * domain)
-{
-  gdouble s0;
-  GfsStateVector * s;
-  GSList * i;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (fp != NULL);
-  g_return_if_fail (domain != NULL);
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (solid->s[0])");
-    return;
-  }
-  s0 = atof (fp->token->str);
-  if (s0 < 0. && s0 != -1.) {
-    gts_file_error (fp, "solid->s[0] must be positive");
-    return;
-  }
-  gts_file_next_token (fp);
-
-  gfs_cell_init (cell, domain);
-  s = cell->data;
-  if (s0 >= 0.) {
-    guint i;
-
-    s->solid = g_malloc0 (sizeof (GfsSolidVector));
-    s->solid->s[0] = s0;
-
-    for (i = 1; i < FTT_NEIGHBORS; i++) {
-      if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-	gts_file_error (fp, "expecting a number (solid->s[%d])", i);
-	return;
-      }
-      s->solid->s[i] = atof (fp->token->str);
-      gts_file_next_token (fp);
-    }
-    if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-      gts_file_error (fp, "expecting a number (solid->a)");
-      return;
-    }
-    s->solid->a = atof (fp->token->str);
-    gts_file_next_token (fp);
-    for (i = 0; i < FTT_DIMENSION; i++) {
-      if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-	gts_file_error (fp, "expecting a number (solid->cm[%d])", i);
-	return;
-      }
-      (&s->solid->cm.x)[i] = atof (fp->token->str);
-      gts_file_next_token (fp);
-    }
-  }
-
-  i = domain->variables_io;
-  while (i) {
-    GfsVariable * v = i->data;
-
-    if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-      gts_file_error (fp, "expecting a number (%s)", v->name);
-      return;
-    }
-    GFS_VARIABLE (cell, v->i) = atof (fp->token->str);
-    gts_file_next_token (fp);
-    i = i->next;
-  }
-}
-
-/**
- * gfs_cell_write_binary:
- * @cell: a #FttCell.
- * @fp: a file pointer.
- * @variables: the list of #GfsVariable to be written.
- *
- * Writes in @fp the fluid data associated with @cell and described by
- * @variables. This function is generally used in association with
- * ftt_cell_write_binary().
- */
-void gfs_cell_write_binary (const FttCell * cell, FILE * fp,
-			    GSList * variables)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (fp != NULL);
-
-  if (GFS_IS_MIXED (cell)) {
-    GfsStateVector * s = GFS_STATE (cell);
-
-    fwrite (s->solid->s, sizeof (gdouble), FTT_NEIGHBORS, fp);
-    fwrite (&s->solid->a, sizeof (gdouble), 1, fp);
-    fwrite (&s->solid->cm.x, sizeof (gdouble), FTT_DIMENSION, fp);
-    fwrite (&s->solid->ca.x, sizeof (gdouble), FTT_DIMENSION, fp);
-  }
-  else {
-    gdouble a = -1.;
-    fwrite (&a, sizeof (gdouble), 1, fp);
-  }
-  
-  while (variables) {
-    gdouble a = GFS_VARIABLE (cell, GFS_VARIABLE1 (variables->data)->i);
-    fwrite (&a, sizeof (gdouble), 1, fp);
-    variables = variables->next;
-  }
-}
-
-/**
- * gfs_cell_read_binary:
- * @cell: a #FttCell.
- * @fp: a #GtsFile.
- * @domain: the #GfsDomain containing @cell.
- *
- * Reads from @fp the fluid data associated with @cell and described
- * by @domain->variables_io. This function is generally used in
- * association with ftt_cell_read_binary().
- */
-void gfs_cell_read_binary (FttCell * cell, GtsFile * fp, GfsDomain * domain)
-{
-  gdouble s0;
-  GfsStateVector * s;
-  GSList * i;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (fp != NULL);
-  g_return_if_fail (domain != NULL);
-
-  if (gts_file_read (fp, &s0, sizeof (gdouble), 1) != 1) {
-    gts_file_error (fp, "expecting a number (solid->s[0])");
-    return;
-  }
-  if (s0 < 0. && s0 != -1.) {
-    gts_file_error (fp, "solid->s[0] must be positive");
-    return;
-  }
-
-  gfs_cell_init (cell, domain);
-  s = cell->data;
-  if (s0 >= 0.) {
-    s->solid = g_malloc0 (sizeof (GfsSolidVector));
-    s->solid->s[0] = s0;
-    
-    if (gts_file_read (fp, &s->solid->s[1], sizeof (gdouble), FTT_NEIGHBORS - 1) 
-	!= FTT_NEIGHBORS - 1) {
-      gts_file_error (fp, "expecting numbers (solid->s[1..%d])", FTT_NEIGHBORS - 1);
-      return;
-    }
-    if (gts_file_read (fp, &s->solid->a, sizeof (gdouble), 1) != 1) {
-      gts_file_error (fp, "expecting a number (solid->a)");
-      return;
-    }
-    if (gts_file_read (fp, &s->solid->cm.x, sizeof (gdouble), FTT_DIMENSION) != FTT_DIMENSION) {
-      gts_file_error (fp, "expecting numbers (solid->cm[0..%d])", FTT_DIMENSION - 1);
-      return;
-    }
-    if (domain->version >= 90628 &&
-	gts_file_read (fp, &s->solid->ca.x, sizeof (gdouble), FTT_DIMENSION) != FTT_DIMENSION) {
-      gts_file_error (fp, "expecting numbers (solid->ca[0..%d])", FTT_DIMENSION - 1);
-      return;
-    }
-  }
-
-  i = domain->variables_io;
-  while (i) {
-    GfsVariable * v = i->data;
-    gdouble a;
-
-    if (gts_file_read (fp, &a, sizeof (gdouble), 1) != 1) {
-      gts_file_error (fp, "expecting a number (%s)", v->name);
-      return;
-    }
-    GFS_VARIABLE (cell, v->i) = a;
-    i = i->next;
-  }
-}
-
-static void box_realloc (GfsBox * box, GfsDomain * domain)
-{
-  FttDirection d;
-
-  ftt_cell_traverse (box->root, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-		     (FttCellTraverseFunc) gfs_cell_reinit, domain);
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY (box->neighbor[d]))
-      ftt_cell_traverse (GFS_BOUNDARY (box->neighbor[d])->root, 
-			 FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			 (FttCellTraverseFunc) gfs_cell_reinit, domain);
-}
-
-/**
- * gfs_domain_alloc:
- * @domain: a #GfsDomain.
- *
- * Returns: the index of a memory location newly allocated for each
- * cell of @domain.
- */
-guint gfs_domain_alloc (GfsDomain * domain)
-{
-  guint i = 0;
-
-  g_return_val_if_fail (domain != NULL, -1);
-
-  while (i < domain->allocated->len && g_array_index (domain->allocated, gboolean, i))
-    i++;
-  if (i == domain->allocated->len) {
-    g_array_set_size (domain->allocated, domain->allocated->len + 1);
-    gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) box_realloc, domain);
-  }
-  g_array_index (domain->allocated, gboolean, i) = TRUE;
-  return i;
-}
-
-/**
- * gfs_domain_free:
- * @domain: a #GfsDomain.
- * @i: a memory location index previously allocated using gfs_domain_alloc().
- *
- * Frees the memory location of @domain defined by @i.
- */
-void gfs_domain_free (GfsDomain * domain, guint i)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (i < domain->allocated->len);
-  g_return_if_fail (g_array_index (domain->allocated, gboolean, i));
-
-  g_array_index (domain->allocated, gboolean, i) = FALSE;
-}
-
-/**
- * gfs_domain_add_variable:
- * @domain: a #GfsDomain.
- * @name: the name of the variable to add or %NULL.
- * @description: the variable description or %NULL.
- *
- * Adds a new variable @name to @domain.
- *
- * Returns: the new variable or %NULL if a variable with the same name
- * already exists.  
- */
-GfsVariable * gfs_domain_add_variable (GfsDomain * domain,
-				       const gchar * name,
-				       const gchar * description)
-{
-  GfsVariable * v;
-
-  g_return_val_if_fail (domain != NULL, NULL);
-
-  if ((v = gfs_variable_new (gfs_variable_class (), domain, name, description)) == NULL)
-    return NULL;
-  domain->variables = g_slist_append (domain->variables, v);
-  return v;
-}
-
-/**
- * gfs_domain_get_or_add_variable:
- * @domain: a #GfsDomain.
- * @name: the name of the variable to add or get.
- * @description: the variable description or %NULL.
- *
- * Adds a new variable @name to @domain or returns the variable of
- * @domain with the same name. In either case the description of the
- * variable name is set to @description (if it is not %NULL).
- *
- * Returns: the new or already existing variable or %NULL if @name is a
- * reserved variable name.
- */
-GfsVariable * gfs_domain_get_or_add_variable (GfsDomain * domain,
-					      const gchar * name,
-					      const gchar * description)
-{
-  GfsVariable * v;
-
-  g_return_val_if_fail (domain != NULL, NULL);
-  g_return_val_if_fail (name != NULL, NULL);
-
-  v = gfs_variable_from_name (domain->variables, name);
-  if (v != NULL) {
-    if (description) {
-      if (v->description)
-	g_free (v->description);
-      v->description = g_strdup (description);
-    }
-  }
-  else
-    v = gfs_domain_add_variable (domain, name, description);
-  return v;
-}
-
-static void add_pressure_force (FttCell * cell, gpointer * data)
-{
-  gdouble weight = data[3] ? gfs_function_value (data[3], cell) : 1.;
-
-  if (weight != 0.) {
-    gdouble * f = data[0];
-    gdouble * m = data[1];
-    gdouble * r = &GFS_STATE (cell)->solid->ca.x;
-    GfsVariable * p = data[2];
-    FttVector ff, mm;
-    FttComponent c;
-    
-    gfs_pressure_force (cell, p, &ff);
-    gts_vector_cross (&mm.x, r, &ff.x);
-    for (c = 0; c < 3; c++) {
-      f[c] += weight*(&ff.x)[c];
-      m[c] += weight*(&mm.x)[c];
-    }
-  }
-}
-
-static GfsSourceDiffusion * source_diffusion (GfsVariable * v)
-{
-  if (v->sources) {
-    GSList * i = GTS_SLIST_CONTAINER (v->sources)->items;
-    
-    while (i) {
-      GtsObject * o = i->data;
-      
-      if (GFS_IS_SOURCE_DIFFUSION (o))
-	return GFS_SOURCE_DIFFUSION (o);
-      i = i->next;
-    }
-  }
-  return NULL;
-}
-
-static void add_viscous_force (FttCell * cell, gpointer * data)
-{
-  gdouble weight = data[4] ? gfs_function_value (data[4], cell) : 1.;
-
-  if (weight != 0.) {
-    gdouble * f = data[0];
-    gdouble * m = data[1];
-    GfsVariable * v = data[2];
-    GfsSourceDiffusion * d = data[3];
-    gdouble D;
-    GfsSolidVector * s = GFS_STATE (cell)->solid;
-    gdouble * r = &s->ca.x;
-    FttVector ff, mm, n, g;
-    FttComponent c;
-    
-    g_assert (((cell)->flags & GFS_FLAG_DIRICHLET) != 0);
-    gfs_cell_dirichlet_gradient (cell, v->i, -1, s->fv, &g);
-    
-    D = - gfs_source_diffusion_cell (d, cell);
-    n.x = s->s[1] - s->s[0];
-    n.y = s->s[3] - s->s[2];
-#if FTT_2D
-    ff.z = 0.;
-    switch (v->component) {
-    case FTT_X:
-      ff.x = D*(2.*g.x*n.x + g.y*n.y);
-      ff.y = D*g.y*n.x;
-      break;
-    case FTT_Y:
-      ff.x = D*g.x*n.y;
-      ff.y = D*(2.*g.y*n.y + g.x*n.x);
-      break;
-    default:
-      g_assert_not_reached ();
-    }
-#else /* 3D */
-    n.z = s->s[5] - s->s[4];
-    D *= ftt_cell_size (cell);
-    switch (v->component) {
-    case FTT_X:
-      ff.x = D*(2.*g.x*n.x + g.y*n.y + g.z*n.z);
-      ff.y = D*g.y*n.x;
-      ff.z = D*g.z*n.x;
-      break;
-    case FTT_Y:
-      ff.y = D*(2.*g.y*n.y + g.x*n.x + g.z*n.z);
-      ff.x = D*g.x*n.y;
-      ff.z = D*g.z*n.y;
-      break;
-    case FTT_Z:
-      ff.z = D*(2.*g.z*n.z + g.x*n.x + g.y*n.y);
-      ff.x = D*g.x*n.z;
-      ff.y = D*g.y*n.z;
-      break;
-    default:
-      g_assert_not_reached ();
-    }
-#endif /* 3D */
-    gts_vector_cross (&mm.x, r, &ff.x);
-    for (c = 0; c < 3; c++) {
-      f[c] += weight*(&ff.x)[c];
-      m[c] += weight*(&mm.x)[c];
-    }
-  }
-}
-
-/**
- * gfs_domain_solid_force:
- * @domain: a #GfsDomain.
- * @pf: a #FttVector.
- * @vf: a #FttVector.
- * @pm: a #FttVector.
- * @vm: a #FttVector.
- * @weight: an optional weight.
- *
- * Fills @pf and @vf (resp. @pm and @vm) with the components of the
- * net pressure and viscous forces (resp. pressure and viscous
- * moments) applied by the fluid on the solid surface embedded in
- * @domain.
- *
- * The reference point for the moments is the origin of the coordinate system.
- */
-void gfs_domain_solid_force (GfsDomain * domain, 
-			     FttVector * pf,
-			     FttVector * vf,
-			     FttVector * pm,
-			     FttVector * vm,
-			     GfsFunction * weight)
-{
-  FttComponent c;
-  GfsVariable ** v;
-  gpointer data[4];
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (pf != NULL);
-  g_return_if_fail (vf != NULL);
-  g_return_if_fail (pm != NULL);
-  g_return_if_fail (vm != NULL);
-
-  if (GFS_IS_AXI (domain))
-    g_assert_not_implemented ();
-
-  pf->x = pf->y = pf->z = 0.;
-  pm->x = pm->y = pm->z = 0.;
-  data[0] = pf;
-  data[1] = pm;
-  data[2] = gfs_variable_from_name (domain->variables, "P");
-  data[3] = weight;
-  gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			     (FttCellTraverseFunc) add_pressure_force, data);
-
-  vf->x = vf->y = vf->z = 0.;
-  vm->x = vm->y = vm->z = 0.;
-  v = gfs_domain_velocity (domain);
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    GfsSourceDiffusion * D = source_diffusion (v[c]);
-
-    if (D) {
-      gpointer data[5];
-
-      gfs_domain_surface_bc (domain, v[c]);
-      data[0] = vf;
-      data[1] = vm;
-      data[2] = v[c];
-      data[3] = D;
-      data[4] = weight;
-      gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				 (FttCellTraverseFunc) add_viscous_force, data);
-    }
-  }
-}
-
-#define THRESHOLD 1e-4
-
-static void tag_cell_fraction (GtsFifo * fifo,
-			       FttCell * cell,
-			       GfsVariable * c, GfsVariable * v,
-			       guint tag)
-{
-  FttDirection d;
-  FttCellNeighbors n;
-
-  g_assert (FTT_CELL_IS_LEAF (cell));
-  ftt_cell_neighbors (cell, &n);
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (n.c[d] && GFS_VALUE (n.c[d], v) == 0. && GFS_VALUE (n.c[d], c) > THRESHOLD) {
-      if (FTT_CELL_IS_LEAF (n.c[d])) {
-	GFS_VALUE (n.c[d], v) = tag;
-	gts_fifo_push (fifo, n.c[d]);
-      }
-      else {
-	FttCellChildren child;
-	FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-	guint i;
-
-#if FTT_2D3
-	g_assert_not_implemented ();
-#endif	
-	ftt_cell_children_direction (n.c[d], od, &child);
-	for (i = 0; i < FTT_CELLS/2; i++)
-	  if (child.c[i] && GFS_VALUE (child.c[i], v) == 0. &&
-	      GFS_VALUE (child.c[i], c) > THRESHOLD) {
-	    GFS_VALUE (child.c[i], v) = tag;
-	    gts_fifo_push (fifo, child.c[i]);
-	  }
-      }
-    }
-}
-
-typedef struct {
-  GfsVariable * v, * c;
-  FttDirection d;
-  guint * touch, * tags, tag, tagshift;
-} TagPar;
-
-static void tag_new_fraction_region (FttCell * cell, TagPar * p)
-{
-  if (GFS_VALUE (cell, p->v) == 0. && GFS_VALUE (cell, p->c) > THRESHOLD) {
-    GtsFifo * fifo = gts_fifo_new ();
-
-    GFS_VALUE (cell, p->v) = ++p->tag;
-    gts_fifo_push (fifo, cell);
-    while ((cell = gts_fifo_pop (fifo)))
-      tag_cell_fraction (fifo, cell, p->c, p->v, p->tag);
-    gts_fifo_destroy (fifo);
-  }
-}
-
-/* @touch defines the touching connectivity. This function updates
-   @touch with the info that region tagged with @tag1 touches the
-   region tagged with @tag2  */
-static void touching_regions (guint tag1, guint tag2, guint * touch)
-{
-  if (tag2 < tag1) {
-    guint tmp = tag1;
-    tag1 = tag2;
-    tag2 = tmp;
-  }
-  else if (tag2 == tag1)
-    return;
-  guint ntag = touch[tag2];
-  if (ntag == tag1)
-    return;
-  if (ntag == 0)
-    touch[tag2] = tag1;
-  else {
-    if (tag1 < ntag)
-      touch[tag2] = tag1;
-    touching_regions (tag1, ntag, touch);
-  }
-}
-
-#ifdef HAVE_MPI
-static void reduce_touching_regions (void * in, void * inout, int * len, MPI_Datatype * type)
-{
-  guint * ltouch = (guint *) in;
-  guint * gtouch = (guint *) inout;
-  guint i;
-
-  for (i = 1; i < *len; i++)
-    if (ltouch[i] > 0)
-      touching_regions (i, ltouch[i], gtouch);
-}
-
-static void shift_tags (FttCell * cell, TagPar * p)
-{
-  if (GFS_VALUE (cell, p->v) > 0.)
-    GFS_VALUE (cell, p->v) += p->tagshift;
-}
-#endif /* HAVE_MPI */
-
-static void unify_tag_range (GfsDomain * domain, TagPar * p)
-{
-#ifdef HAVE_MPI
-  if (domain->pid >= 0) {
-    int gsize;
-    guint * tags;
-    MPI_Comm_size (MPI_COMM_WORLD, &gsize);
-    tags = g_malloc (sizeof (guint)*gsize);
-    tags[domain->pid] = p->tag;
-    MPI_Allgather (&tags[domain->pid], 1, MPI_UNSIGNED, tags, 1, MPI_UNSIGNED, MPI_COMM_WORLD);
-    /* tags[] now contains the p->tag value on each PE */
-    guint i;
-    p->tag = 0;
-    for (i = 0; i < gsize; i++)
-      p->tag += tags[i];
-    /* shift tag values to get a single tag space across all PEs */
-    if (domain->pid > 0) {
-      p->tagshift = 0;
-      for (i = 0; i < domain->pid; i++)
-	p->tagshift += tags[i];
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) shift_tags, p);
-    }
-    g_free (tags);
-  }
-#endif /* HAVE_MPI */
-}
-
-static void match_periodic_bc (FttCell * cell, TagPar * p)
-{
-  guint tag = GFS_VALUE (cell, p->v);
-  if (tag > 0) {
-    FttCell * neighbor = ftt_cell_neighbor (cell, p->d);
-    guint ntag = GFS_VALUE (neighbor, p->v);
-    if (ntag > 0)
-      touching_regions (tag, ntag, p->touch);
-  }
-}
-
-static void match_box_bc (GfsBox * box, TagPar * p)
-{
-  for (p->d = 0; p->d < FTT_NEIGHBORS; p->d++)
-    if (GFS_IS_BOUNDARY_PERIODIC (box->neighbor[p->d]))
-      ftt_cell_traverse_boundary (box->root, p->d, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				  (FttCellTraverseFunc) match_periodic_bc, p);
-}
-
-static void fix_touching (FttCell * cell, TagPar * p)
-{
-  GFS_VALUE (cell, p->v) = p->tags[p->touch[(guint) GFS_VALUE (cell, p->v)]];
-}
-
-/**
- * gfs_domain_tag_droplets:
- * @domain: a #GfsDomain.
- * @c: the volume fraction.
- * @tag: a #GfsVariable.
- *
- * Fills the @tag variable of the cells of @domain with the (strictly
- * positive) index of the droplet they belong to. The cells belonging
- * to the background phase have an index of zero.
- *
- * Note that the volume fraction @c must be defined on all levels.
- *
- * Returns: the number of droplets.
- */
-guint gfs_domain_tag_droplets (GfsDomain * domain,
-			       GfsVariable * c,
-			       GfsVariable * tag)
-{
-  g_return_val_if_fail (domain != NULL, 0);
-  g_return_val_if_fail (c != NULL, 0);
-  g_return_val_if_fail (tag != NULL, 0);
-
-  TagPar p;
-  gboolean touching = FALSE;
-  p.c = c;
-  p.v = tag;
-  p.tag = 0;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) gfs_cell_reset, tag);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) tag_new_fraction_region, &p);
-
-  /* the rest of the algorithm deals with periodic and parallel BCs */
-  unify_tag_range (domain, &p);
-  gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, tag);
-  p.touch = g_malloc0 ((p.tag + 1)*sizeof (guint));
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) match_box_bc, &p);
-
-#ifdef HAVE_MPI
-  if (domain->pid >= 0) {
-    guint * gtouch = g_malloc0 ((p.tag + 1)*sizeof (guint));
-    MPI_Op op;    
-    MPI_Op_create (reduce_touching_regions, TRUE, &op);
-    MPI_Allreduce (p.touch, gtouch, p.tag + 1, MPI_UNSIGNED, op, MPI_COMM_WORLD);
-    MPI_Op_free (&op);
-    g_free (p.touch);
-    p.touch = gtouch;
-  }
-#endif /* HAVE_MPI */
-  
-  /* find region with smallest tag touching each region i.e. reduces
-     the chain of touching tags */
-  guint i, maxtag = 0;
-  for (i = 1; i <= p.tag; i++) {
-    guint touch = p.touch[i];
-    while (touch > 0) {
-      p.touch[i] = touch;
-      touch = p.touch[touch];
-      touching = TRUE;
-    }
-    if (p.touch[i] == 0 && i > maxtag)
-      maxtag = i;
-  }
-  
-  /* fix touching regions */
-  if (touching) {
-    guint ntag = 0; /* fresh tag index */
-    p.tags = g_malloc ((maxtag + 1)*sizeof (guint));
-    p.tags[0] = 0;
-    for (i = 1; i <= maxtag; i++)
-      if (p.touch[i] == 0) { /* this region is not touching any other */
-	p.touch[i] = i;
-	p.tags[i] = ++ntag;
-      }
-    maxtag = ntag;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) fix_touching, &p);
-    g_free (p.tags);
-  }
-
-  g_free (p.touch);
-  return maxtag;
-}
-
-typedef struct {
-  GfsVariable * tag, * c;
-  guint * sizes;
-  guint n, min;
-} RemoveDropletsPar;
-
-static void compute_droplet_size (FttCell * cell, RemoveDropletsPar * p)
-{
-  guint i = GFS_VALUE (cell, p->tag);
-  if (i > 0)
-    p->sizes[i - 1]++;
-}
-
-static void reset_small_fraction (FttCell * cell, RemoveDropletsPar * p)
-{
-  guint i = GFS_VALUE (cell, p->tag);
-  if (i > 0 && p->sizes[i - 1] < p->min)
-    GFS_VALUE (cell, p->c) = 0.;
-}
-
-static int greater (const void * a, const void * b)
-{
-  return *((guint *)a) > *((guint *)b) ? -1 : 1;
-}
-
-/**
- * gfs_domain_remove_droplets:
- * @domain: a #GfsDomain.
- * @c: a #GfsVariable.
- * @v: a #GfsVariable.
- * @min: the minimum size (in cells) of the droplets.
- *
- * Resets the @v variable of all the droplets (defined by the @c
- * variable) smaller than @min cells if @min is positive, or all the
- * droplets but the -$min largest ones if @min is negative.
- */
-void gfs_domain_remove_droplets (GfsDomain * domain,
-				 GfsVariable * c,
-				 GfsVariable * v,
-				 gint min)
-{
-  RemoveDropletsPar p;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (c != NULL);
-  g_return_if_fail (v != NULL);
-
-  p.c = c;
-  p.tag = gfs_temporary_variable (domain);
-  p.n = gfs_domain_tag_droplets (domain, c, p.tag);
-  if (p.n > 0 && -min < (gint) p.n) {
-    p.sizes = g_malloc0 (p.n*sizeof (guint));
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) compute_droplet_size, &p);
-#ifdef HAVE_MPI
-    if (domain->pid >= 0) {
-      guint * sizes = g_malloc0 (p.n*sizeof (guint));
-      MPI_Allreduce (p.sizes, sizes, p.n, MPI_UNSIGNED, MPI_SUM, MPI_COMM_WORLD);
-      g_free (p.sizes);
-      p.sizes = sizes;
-    }
-#endif
-    if (min >= 0)
-      p.min = min;
-    else {
-      guint * tmp = g_malloc (p.n*sizeof (guint));
-      memcpy (tmp, p.sizes, p.n*sizeof (guint));
-      qsort (tmp, p.n, sizeof (guint), greater);
-      g_assert (-1 - min < p.n);
-      p.min = tmp[-1 - min];
-      g_free (tmp);
-    }
-    p.c = v;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) reset_small_fraction, &p);
-    g_free (p.sizes);
-  }
-  gts_object_destroy (GTS_OBJECT (p.tag));
-}
-
-static void tag_cell (FttCell * cell, GfsVariable * v, guint tag, guint * size)
-{
-  FttDirection d;
-  FttCellNeighbors n;
-  GfsSolidVector * solid = GFS_STATE (cell)->solid;
-
-  g_assert (FTT_CELL_IS_LEAF (cell));
-  GFS_VARIABLE (cell, v->i) = tag;
-  (*size)++;
-  ftt_cell_neighbors (cell, &n);
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (n.c[d] && GFS_VARIABLE (n.c[d], v->i) == 0. &&
-	!GFS_CELL_IS_BOUNDARY (n.c[d]) &&
-	(!solid || solid->s[d] > 0.)) {
-      if (FTT_CELL_IS_LEAF (n.c[d]))
-	tag_cell (n.c[d], v, tag, size);
-      else {
-	FttCellChildren child;
-	FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-	guint i, j;
-	
-	j = ftt_cell_children_direction (n.c[d], od, &child);
-	for (i = 0; i < j; i++)
-	  if (child.c[i] && GFS_VARIABLE (child.c[i], v->i) == 0. &&
-	      (!GFS_IS_MIXED (child.c[i]) || GFS_STATE (child.c[i])->solid->s[od] > 0.))
-	    tag_cell (child.c[i], v, tag, size);
-      }
-    }
-}
-
-static void tag_new_region (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-
-  if (GFS_VARIABLE (cell, v->i) == 0.) {
-    GArray * sizes = data[1];
-    guint size = 0;
-
-    tag_cell (cell, v, sizes->len + 1, &size);
-    g_array_append_val (sizes, size);
-  }
-}
-
-static gboolean remove_small (FttCell * cell, gpointer * data)
-{
-  if (FTT_CELL_IS_LEAF (cell)) {
-    GArray * sizes = data[0];
-    GfsVariable * v = data[5];
-    guint * min = data[1], i = GFS_VARIABLE (cell, v->i) - 1.;
-
-    g_assert (GFS_VARIABLE (cell, v->i) > 0.);
-    if (g_array_index (sizes, guint, i) < *min) {
-      if (FTT_CELL_IS_ROOT (cell))
-	g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR, "root cell belongs to a pond");
-      else
-	ftt_cell_destroy (cell, data[2], data[3]);
-      return TRUE;
-    }
-    return FALSE;
-  }
-  else {
-    FttCellChildren child;
-    guint i;
-    gboolean changed = FALSE;
-
-    ftt_cell_children (cell, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i] && remove_small (child.c[i], data))
-	changed = TRUE;
-    if (FTT_CELL_IS_LEAF (cell)) {
-      /* all the children have been destroyed i.e. the cell belongs to a small pond */
-      if (FTT_CELL_IS_ROOT (cell))
-	g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR, "root cell belongs to a pond");
-      else
-	ftt_cell_destroy (cell, data[2], data[3]);
-    }
-    else if (changed)
-      gfs_cell_init_solid_fractions_from_children (cell);
-    return changed;
-  }
-}
-
-static void remove_small_box (GfsBox * box, gpointer * data)
-{
-  gboolean * changed = data[4];
-
-  if (remove_small (box->root, data))
-    *changed = TRUE;
-}
-
-/**
- * gfs_domain_remove_ponds:
- * @domain: a #GfsDomain.
- * @min: the minimum size (in cells) of the ponds.
- * @cleanup: a #FttCellCleanupFunc or %NULL.
- * @data: user data to pass to @cleanup.
- *
- * Removes all the fluid "ponds" of @domain smaller than @min cells
- * if @min is positive, or all the ponds but the - at min largest ones
- * if @min is negative.
- *
- * If the domain is modified its boundaries are re"matched" using
- * gfs_domain_match().
- */
-void gfs_domain_remove_ponds (GfsDomain * domain, 
-			      gint min,
-			      FttCellCleanupFunc cleanup,
-			      gpointer data)
-{
-  GArray * sizes;
-  gpointer dat[6];
-  guint minsize;
-  gboolean changed = FALSE;
-  GfsVariable * v;
-
-  g_return_if_fail (domain != NULL);
-
-  v = gfs_temporary_variable (domain);
-  sizes = g_array_new (FALSE, FALSE, sizeof (guint));
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) gfs_cell_reset, v);
-  dat[0] = v;
-  dat[1] = sizes;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) tag_new_region, dat);
-  g_assert (sizes->len > 0);
-  if (min >= 0)
-    minsize = min;
-  else if (-min >= sizes->len)
-    minsize = 0;
-  else {
-    guint * tmp = g_malloc (sizes->len*sizeof (guint));
-    memcpy (tmp, sizes->data, sizes->len*sizeof (guint));
-    qsort (tmp, sizes->len, sizeof (guint), greater);
-    minsize = tmp[-1 - min];
-    g_free (tmp);
-  }
-  dat[0] = sizes;
-  dat[1] = &minsize;
-  dat[2] = cleanup;
-  dat[3] = data;
-  dat[4] = &changed;
-  dat[5] = v;
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) remove_small_box, dat);
-  g_array_free (sizes, TRUE);
-  gts_object_destroy (GTS_OBJECT (v));
-  if (changed)
-    gfs_domain_match (domain);
-}
-
-static gboolean tag_speck (FttCell * cell, GfsVariable * v)
-{
-  if (GFS_VARIABLE (cell, v->i) == 0.) {
-    FttDirection d;
-    FttCellNeighbors n;
-    GfsSolidVector * solid = GFS_STATE (cell)->solid;
-    
-    g_assert (FTT_CELL_IS_LEAF (cell));
-    ftt_cell_neighbors (cell, &n);
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (!n.c[d])
-	return FALSE;
-    GFS_VARIABLE (cell, v->i) = 1.;
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (GFS_VARIABLE (n.c[d], v->i) == 0. && 
-	  !GFS_CELL_IS_BOUNDARY (n.c[d]) &&
-	  solid->s[d] > 0. && solid->s[d] < 1.) {
-	g_assert (GFS_IS_MIXED (n.c[d]));
-	if (FTT_CELL_IS_LEAF (n.c[d])) {
-	  if (!tag_speck (n.c[d], v)) {
-	    GFS_VARIABLE (cell, v->i) = 0.;
-	    return FALSE;
-	  }
-	}
-	else {
-	  FttCellChildren child;
-	  FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-	  guint i;
-	  
-#if FTT_2D3
-	  g_assert_not_implemented ();
-#endif	
-	  ftt_cell_children_direction (n.c[d], od, &child);
-	  for (i = 0; i < FTT_CELLS/2; i++)
-	    if (!child.c[i] || (GFS_VARIABLE (child.c[i], v->i) == 0 && 
-				GFS_IS_MIXED (child.c[i]) &&
-				!tag_speck (child.c[i], v))) {
-	      GFS_VARIABLE (cell, v->i) = 0.;
-	      return FALSE;
-	    }
-	}
-      }
-  }
-  return TRUE;
-}
-
-static void fill_speck (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-
-  if (GFS_VARIABLE (cell, v->i) == 1.) {
-    gboolean * changed = data[1];
-    g_free (GFS_STATE (cell)->solid);
-    GFS_STATE (cell)->solid = NULL;
-    *changed = TRUE;
-  }
-}
-
-/**
- * gfs_domain_remove_specks:
- * @domain: a #GfsDomain.
- *
- * Removes all the solid "specks" of @domain. Solid specks are islands
- * which do not contain any empty cell.
- *
- * Note that the domain's boundaries are not "matched" automatically.
- */
-void gfs_domain_remove_specks (GfsDomain * domain)
-{
-  gboolean changed = FALSE;
-  GfsVariable * v;
-  gpointer data[2];
-
-  g_return_if_fail (domain != NULL);
-
-  v = gfs_temporary_variable (domain);
-  gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL,
-			     (FttCellTraverseFunc) gfs_cell_reset, v);
-  gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			     (FttCellTraverseFunc) tag_speck, v);
-  data[0] = v;
-  data[1] = &changed;
-  gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			     (FttCellTraverseFunc) fill_speck, data);
-  gts_object_destroy (GTS_OBJECT (v));
-  if (changed)
-    gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_init_solid_fractions_from_children, 
-			      NULL);
-    
-}
-
-/**
- * gfs_domain_timer_start:
- * @domain: a #GfsDomain.
- * @name: the name of the timer.
- *
- * Starts timer @name of @domain. If @name does not exist it is
- * created first.
- */
-void gfs_domain_timer_start (GfsDomain * domain, const gchar * name)
-{
-  GfsTimer * t;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (name != NULL);
-
-  t = g_hash_table_lookup (domain->timers, name);
-  if (t == NULL) {
-    t = g_malloc (sizeof (GfsTimer));
-    gts_range_init (&t->r);
-    g_hash_table_insert (domain->timers, g_strdup (name), t);
-  }
-  else
-    g_return_if_fail (t->start < 0.);
-  t->start = gfs_clock_elapsed (domain->timer);
-}
-
-/**
- * gfs_domain_timer_stop:
- * @domain: a #GfsDomain.
- * @name: the name of the timer.
- *
- * Stops timer @name of @domain. This function fails if @name is not a
- * timer of @domain.
- */
-void gfs_domain_timer_stop (GfsDomain * domain, const gchar * name)
-{
-  GfsTimer * t;
-  gdouble end;
-
-  g_return_if_fail (domain != NULL);
-  end = gfs_clock_elapsed (domain->timer);
-  g_return_if_fail (name != NULL);
-
-  t = g_hash_table_lookup (domain->timers, name);
-  g_return_if_fail (t != NULL);
-  g_return_if_fail (t->start >= 0.);
-
-  gts_range_add_value (&t->r, end - t->start);
-  gts_range_update (&t->r);
-  t->start = -1.;
-}
-
-static void cell_combine_traverse (FttCell * cell,
-				   FttCell * parent,
-				   FttCellCombineTraverseFunc inside,
-				   gpointer idata,
-				   FttCellTraverseFunc outside,
-				   gpointer odata)
-{
-  FttCell * locate;
-  FttVector p;
-
-  ftt_cell_pos (cell, &p);
-  locate = ftt_cell_locate (parent, p, ftt_cell_level (cell));
-  if (locate == NULL) {
-    if (outside)
-      ftt_cell_traverse (cell, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1, outside, odata);
-  }
-  else {
-    if (FTT_CELL_IS_LEAF (cell))
-      (* inside) (cell, locate, idata);
-    else {
-      FttCellChildren child;
-      guint i;
-
-      ftt_cell_children (cell, &child);
-      for (i = 0; i < FTT_CELLS; i++)
-	if (child.c[i])
-	  cell_combine_traverse (child.c[i], locate, inside, idata, outside, odata);
-    }
-  }  
-}
-
-static void box_combine_traverse (GfsBox * box, gpointer * data)
-{
-  FttVector p;
-  FttCell * locate;
-
-  ftt_cell_pos (box->root, &p);
-  locate = gfs_domain_locate (data[0], p, ftt_cell_level (box->root), NULL);
-  if (locate == NULL) {
-    if (data[3])
-      ftt_cell_traverse (box->root, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1, data[3], data[4]);
-  }
-  else
-    cell_combine_traverse (box->root, locate, data[1], data[2], data[3], data[4]);
-}
-
-/**
- * gfs_domain_combine_traverse:
- * @domain1: a #GfsDomain.
- * @domain2: another #GfsDomain.
- * @inside: function to call for each pair of cells.
- * @idata: user data to pass to @inside.
- * @outside: function to call for cells falling outside of @domain2 or
- * %NULL.
- * @odata: user data to pass to @outside.
- *
- * Calls @inside for each leaf cell of @domain1 contained in
- * @domain2. The second cell argument to @inside is set to the cell of
- * @domain2 containing the first cell argument.
- *
- * If @outside is not %NULL it is called for each leaf cell of
- * @domain1 which is outside of @domain2.
- */
-void gfs_domain_combine_traverse (GfsDomain * domain1,
-				  GfsDomain * domain2,
-				  FttCellCombineTraverseFunc inside,
-				  gpointer idata,
-				  FttCellTraverseFunc outside,
-				  gpointer odata)				  
-{
-  gpointer data[5];
-
-  g_return_if_fail (domain1 != NULL);
-  g_return_if_fail (domain2 != NULL);
-  g_return_if_fail (inside != NULL);
-
-  data[0] = domain2;
-  data[1] = inside;
-  data[2] = idata;
-  data[3] = outside;
-  data[4] = odata;
-
-  gts_container_foreach (GTS_CONTAINER (domain1), (GtsFunc) box_combine_traverse, data);
-}
-
-/**
- * gfs_domain_add_derived_variable:
- * @domain: a #GfsDomain.
- * @info: the #GfsDerivedVariableInfo.
- *
- * Adds a derived variable described by @info to @domain.
- *
- * Returns: the #GfsDerivedVariable if the variable was successfully
- * added to @domain or %NULL if a variable with the same name already
- * exists.
- */
-GfsDerivedVariable * gfs_domain_add_derived_variable (GfsDomain * domain, 
-						      GfsDerivedVariableInfo info)
-{
-  GfsDerivedVariable * v;
-
-  g_return_val_if_fail (domain != NULL, NULL);
-
-  if (gfs_variable_from_name (domain->variables, info.name) ||
-      gfs_derived_variable_from_name (domain->derived_variables, info.name))
-    return NULL;
-  v = GFS_DERIVED_VARIABLE (gts_object_new (GTS_OBJECT_CLASS (gfs_derived_variable_class ())));
-  v->name = g_strdup (info.name);
-  v->description = info.description ? g_strdup (info.description) : NULL;
-  v->func = info.func;
-  v->data = info.data;
-  domain->derived_variables = g_slist_prepend (domain->derived_variables, v);
-  GTS_OBJECT (v)->reserved = domain;
-  return v;
-}
-
-/**
- * gfs_domain_remove_derived_variable:
- * @domain: a #GfsDomain.
- * @name: the name of a #GfsDerivedVariable.
- *
- * Removes derived variable @name from @domain.
- *
- * Returns: %TRUE if the variable was successfully removed from @domain or
- * %FALSE if a derived variable with the this name does not exist.
- */
-gboolean gfs_domain_remove_derived_variable (GfsDomain * domain, const gchar * name)
-{
-  GSList * i;
-  
-  g_return_val_if_fail (domain != NULL, FALSE);
-  g_return_val_if_fail (name != NULL, FALSE);
-
-  i = domain->derived_variables;
-  while (i) {
-    GfsDerivedVariable * u = i->data;
-
-    if (!strcmp (u->name, name)) {
-      gts_object_destroy (GTS_OBJECT (u));
-      domain->derived_variables = g_slist_remove_link (domain->derived_variables, i);
-      g_slist_free (i);
-      return TRUE;
-    }
-    i = i->next;
-  }
-  return FALSE;
-}
-
-typedef struct {
-  FttDirection d;
-  GfsFunction * f;
-  GfsVariable * v;
-} SumData;
-
-static gdouble product (FttCell * cell, GfsFunction * f)
-{
-  GfsSolidVector * solid = GFS_STATE (cell)->solid;
-  return ftt_cell_volume (cell)*(solid ? solid->a : 1.)*gfs_function_value (f, cell);
-}
-
-static void sum (FttCell * cell, SumData * data)
-{
-  FttCell * n = ftt_cell_neighbor (cell, data->d);
-  GfsSolidVector * solid = GFS_STATE (cell)->solid;
-
-  if (!n || GFS_CELL_IS_BOUNDARY (n) || (solid && solid->s[data->d] == 0.)) {
-    gdouble s = 0.;
-
-    n = cell;
-    do {
-      /* fixme: does not work if the resolution varies along data->d */
-      g_assert (ftt_cell_level (n) == ftt_cell_level (cell));
-      s += product (n, data->f);
-      GFS_VARIABLE (n, data->v->i) = s;
-      n = ftt_cell_neighbor (n, FTT_OPPOSITE_DIRECTION (data->d));
-    } while (n && !GFS_CELL_IS_BOUNDARY (n) && 
-	     (!GFS_IS_MIXED (n) || GFS_STATE (n)->solid->s[data->d] > 0.));
-  }
-}
-
-/**
- * gfs_domain_sum:
- * @domain: a #GfsDomain.
- * @d: the #FttDirection.
- * @f: a #GfsFunction.
- * @v: a #GfsVariable.
- *
- * Fills variable @v of each cell of @domain with the sum in direction
- * @d of the volume-weighted function @f.
- */
-void gfs_domain_sum (GfsDomain * domain, FttDirection d, GfsFunction * f, GfsVariable * v)
-{
-  SumData data;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (d >= 0 && d < FTT_NEIGHBORS);
-  g_return_if_fail (f != NULL);
-  g_return_if_fail (v != NULL);
-
-  data.d = d;
-  data.f = f;
-  data.v = v;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) sum, &data);
-}
-
-static void filter (FttCell * cell, gpointer * data)
-{
-  FttDirection d[4*(FTT_DIMENSION - 1)][FTT_DIMENSION] = {
-#if FTT_2D
-    {FTT_RIGHT, FTT_TOP}, {FTT_RIGHT, FTT_BOTTOM}, {FTT_LEFT, FTT_TOP}, {FTT_LEFT, FTT_BOTTOM}
-#else
-    {FTT_RIGHT, FTT_TOP, FTT_FRONT}, {FTT_RIGHT, FTT_BOTTOM, FTT_FRONT}, 
-    {FTT_LEFT, FTT_TOP, FTT_FRONT}, {FTT_LEFT, FTT_BOTTOM, FTT_FRONT},
-    {FTT_RIGHT, FTT_TOP, FTT_BACK}, {FTT_RIGHT, FTT_BOTTOM, FTT_BACK}, 
-    {FTT_LEFT, FTT_TOP, FTT_BACK}, {FTT_LEFT, FTT_BOTTOM, FTT_BACK}
-#endif
-  };
-  guint i;
-  gdouble val = 0.;
-  GfsVariable * a = data[0];
-  GfsVariable * b = data[1];
-
-  for (i = 0; i < 4*(FTT_DIMENSION - 1); i++)
-    val += gfs_cell_corner_value (cell, d[i], a, -1);
-  GFS_VARIABLE (cell, b->i) = val/(4*(FTT_DIMENSION - 1));
-}
-
-/**
- * gfs_domain_filter:
- * @domain: a #GfsDomain.
- * @v: a #GfsVariable.
- * @fv: the filtered variable or %NULL.
- *
- * Apply a "corner-averaging" filter to variable @v on all leaf cells
- * of @domain.
- *
- * If @fv is %NULL, @v is replaced by its filtered value.
- */
-void gfs_domain_filter (GfsDomain * domain, GfsVariable * v, GfsVariable * fv)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (v != NULL);
-
-  gpointer data[2];
-  data[0] = v;
-  data[1] = fv ? fv : gfs_temporary_variable (domain);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) filter, data);
-  if (fv == NULL) {
-    gfs_variables_swap (data[0], data[1]);
-    gts_object_destroy (data[1]);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, v);
-  }
-  else
-    gfs_domain_copy_bc (domain, FTT_TRAVERSE_LEAFS, -1, v, fv);
-}
-
-struct _GfsRequest {  
-  FILE * fp;
-  long length;
-#ifdef HAVE_MPI
-  MPI_Request request[2];
-  void * buf;
-#endif
-};
-
-/**
- * gfs_send_objects:
- * @list: a list of #GtsObject.
- * @dest: the rank of the destination PE.
- *
- * Sends the objects in @list to PE @dest of a parallel simulation.
- * This is a non-blocking operation which returns a handler which must
- * be cleared by calling gfs_wait().
- *
- * Note that this functions assumes that the write() method of the
- * #GtsObject sent begins by writing the object class name.
- *
- * Returns: a #GfsRequest.
- */
-GfsRequest * gfs_send_objects (GSList * list, int dest)
-{
-#ifdef HAVE_MPI
-  GfsRequest * r = g_malloc (sizeof (GfsRequest));
-  r->fp = tmpfile ();
-  int fd = fileno (r->fp);
-  struct stat sb;
-  while (list) {
-    GtsObject * object = list->data;
-    g_assert (object->klass->write != NULL);
-    (* object->klass->write) (object, r->fp);
-    fputc ('\n', r->fp);
-    list = list->next;
-  }
-  fflush (r->fp);
-  g_assert (fstat (fd, &sb) != -1);
-  r->length = sb.st_size;
-  MPI_Isend (&r->length, 1, MPI_LONG, dest, 0, MPI_COMM_WORLD, &r->request[0]);
-  /*  g_log (G_LOG_DOMAIN, G_LOG_LEVEL_MESSAGE, "sending %ld bytes to PE %d", length, dest); */
-  if (r->length > 0) {
-    r->buf = mmap (NULL, r->length, PROT_READ, MAP_PRIVATE, fd, 0);
-    g_assert (r->buf != MAP_FAILED);
-    MPI_Isend (r->buf, r->length, MPI_BYTE, dest, 1, MPI_COMM_WORLD, &r->request[1]);
-  }
-  return r;
-#else  /* not HAVE_MPI */
-  return NULL;
-#endif /* HAVE_MPI */
-}
-
-/**
- * gfs_wait:
- * @r: a #GfsRequest.
- *
- * Waits for completion of and deallocates @r.
- */
-void gfs_wait (GfsRequest * r)
-{
-#ifdef HAVE_MPI
-  g_return_if_fail (r != NULL);
-
-  MPI_Status status;
-  MPI_Wait (&r->request[0], &status);
-  if (r->length > 0) {
-    MPI_Wait (&r->request[1], &status);
-    munmap (r->buf, r->length);
-  }
-  fclose (r->fp);
-  g_free (r);
-#endif /* HAVE_MPI */
-}
-
-/**
- * gfs_receive_objects:
- * @domain: a #GfsDomain.
- * @src: the rank of the source PE.
- *
- * Receives a list of #GtsObject from PE @src of a parallel simulation.
- *
- * Returns: a list of newly-allocated objects.
- */
-GSList * gfs_receive_objects (GfsDomain * domain, int src)
-{
-  g_return_val_if_fail (domain != NULL, NULL);
-
-#ifdef HAVE_MPI
-  MPI_Status status;
-  long length;
-  MPI_Recv (&length, 1, MPI_LONG, src, 0, MPI_COMM_WORLD, &status);
-  /*  g_log (G_LOG_DOMAIN, G_LOG_LEVEL_MESSAGE, "receiving %ld bytes from PE %d", length, src); */
-  if (length > 0) {
-    char * buf = g_malloc (length);
-    MPI_Recv (buf, length, MPI_BYTE, src, 1, MPI_COMM_WORLD, &status);
-    FILE * f = tmpfile ();
-    fwrite (buf, 1, length, f);
-    rewind (f);
-    GtsFile * fp = gts_file_new (f);
-    GSList * list = NULL;
-    while (fp->type == GTS_STRING) {
-      GtsObjectClass * klass = gfs_object_class_from_name (fp->token->str);
-      if (klass == NULL)
-	g_error ("gfs_receive_object():%d:%d: unknown class '%s'", 
-		 fp->line, fp->pos, fp->token->str);
-      GtsObject * object = gts_object_new (klass);
-      gfs_object_simulation_set (object, domain);
-      g_assert (klass->read);
-      (* klass->read) (&object, fp);
-      if (fp->type == GTS_ERROR)
-	g_error ("gfs_receive_object():%d:%d: %s", fp->line, fp->pos, fp->error);
-      list = g_slist_prepend (list, object);
-      while (fp->type == '\n')
-	gts_file_next_token (fp);
-    }
-    gts_file_destroy (fp);
-    fclose (f);
-    g_free (buf);
-    return list;
-  }
-#endif /* HAVE_MPI */
-  return NULL;
-}
-
-static void unlink_box (GfsBox * box, gint * dest)
-{
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOX (box->neighbor[d])) {
-      GfsBox * nbox = GFS_BOX (box->neighbor[d]);
-      FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-      nbox->neighbor[od] = NULL;
-      gfs_boundary_mpi_new (gfs_boundary_mpi_class (), nbox, od, *dest, box->id);
-      box->neighbor[d] = NULL;
-      gfs_boundary_mpi_new (gfs_boundary_mpi_class (), box, d, nbox->pid, nbox->id);
-    }
-}
-
-static void setup_binary_IO (GfsDomain * domain)
-{
-  /* make sure that all the variables are sent */
-  g_slist_free (domain->variables_io);
-  domain->variables_io = NULL;
-  GSList * i = domain->variables;
-  while (i) {
-    if (GFS_VARIABLE1 (i->data)->name)
-      domain->variables_io = g_slist_append (domain->variables_io, i->data);
-    i = i->next;
-  }
-  domain->binary = TRUE;	
-}
-
-/**
- * gfs_send_boxes:
- * @domain: a #GfsDomain.
- * @boxes: a list of #GfsBox belonging to @domain.
- * @dest: the destination processor id.
- *
- * Send boxes to @dest and removes them from @domain.
- * This is a non-blocking operation.
- *
- * Returns: a #GfsRequest which must be cleared using gfs_wait().
- */
-GfsRequest * gfs_send_boxes (GfsDomain * domain, GSList * boxes, int dest)
-{
-  g_return_val_if_fail (domain != NULL, NULL);
-  g_return_val_if_fail (dest != domain->pid, NULL);
-
-  g_slist_foreach (boxes, (GFunc) unlink_box, &dest);
-  setup_binary_IO (domain);
-  GfsRequest * r = gfs_send_objects (boxes, dest);
-  g_slist_foreach (boxes, (GFunc) gts_object_destroy, NULL);
-  locate_array_destroy (domain->array);
-  domain->array = locate_array_new (domain);
-  return r;
-}
-
-/**
- * gfs_receive_boxes:
- * @domain: a #GfsDomain.
- * @src: the source processor id.
- *
- * Receive boxes from @src and adds them to @domain.
- *
- * Returns: the list of boxes received.
- */
-GSList * gfs_receive_boxes (GfsDomain * domain, int src)
-{
-  g_return_val_if_fail (domain != NULL, NULL);
-  g_return_val_if_fail (src != domain->pid, NULL);
-
-  setup_binary_IO (domain);
-  GSList * boxes = gfs_receive_objects (domain, src);
-  if (boxes) {
-    /* Create array for fast linking of ids to GfsBox pointers */
-    GPtrArray * ids = box_ids (domain);
-	  
-    /* Convert internal GfsBoundaryMpi into graph edges */
-    g_slist_foreach (boxes, (GFunc) convert_boundary_mpi_into_edges, ids);
-    g_ptr_array_free (ids, TRUE);
-
-    /* Update LocateArray */
-    locate_array_destroy (domain->array);
-    domain->array = locate_array_new (domain);
-  }
-  return boxes;
-}
diff --git a/src/domain.h b/src/domain.h
deleted file mode 100644
index 1133baf..0000000
--- a/src/domain.h
+++ /dev/null
@@ -1,429 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __DOMAIN_H__
-#define __DOMAIN_H__
-
-#include "boundary.h"
-#include "surface.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-typedef struct _GfsDomainClass     GfsDomainClass;
-typedef struct _GfsSourceDiffusion GfsSourceDiffusion;
-typedef struct _GfsTimer           GfsTimer;
-
-struct _GfsTimer {
-  GtsRange r;
-  gdouble start;
-};
-
-struct _GfsDomain {
-  GtsWGraph parent;
-
-  int pid;
-  GfsClock * timer;
-  GHashTable * timers;
-
-  GtsRange timestep;
-  GtsRange size;
-
-  gboolean profile_bc;
-
-  GtsRange mpi_messages;
-  GtsRange mpi_wait;
-
-  guint rootlevel;
-  FttVector refpos;
-  FttVector lambda;
-
-  GArray * allocated;
-  GSList * variables;
-  GSList * derived_variables;
-
-  GfsVariable * velocity[FTT_DIMENSION];
-
-  GSList * variables_io;
-  gboolean binary;
-  gint max_depth_write;
-
-  FttCellInitFunc cell_init;
-  gpointer cell_init_data;
-
-  gint version;
-
-  gpointer array;
-
-  gboolean overlap; /* whether to overlap MPI communications with computation */
-
-  /* coordinate metrics */
-  gpointer metric_data;
-  gdouble (* face_metric)  (const GfsDomain *, const FttCellFace *);
-  gdouble (* cell_metric)  (const GfsDomain *, const FttCell *);
-  gdouble (* solid_metric) (const GfsDomain *, const FttCell *);
-  gdouble (* scale_metric) (const GfsDomain *, const FttCell *, FttComponent);
-};
-
-struct _GfsDomainClass {
-  GtsWGraphClass parent_class;
-
-  void    (* post_read) (GfsDomain *, GtsFile * fp);
-};
-
-#define GFS_DOMAIN(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsDomain,\
-					           gfs_domain_class ())
-#define GFS_DOMAIN_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						   GfsDomainClass,\
-						   gfs_domain_class())
-#define GFS_IS_DOMAIN(obj)         (gts_object_is_from_class (obj,\
-						   gfs_domain_class ()))
-
-#define gfs_domain_variables_number(d) ((d)->allocated->len - 1)
-#define gfs_domain_variables_size(d)   (sizeof (GfsStateVector) +\
-                                        sizeof (gdouble)*((d)->allocated->len - 1))
-     
-GfsDomainClass * gfs_domain_class          (void);
-void         gfs_domain_cell_traverse         (GfsDomain * domain,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       FttCellTraverseFunc func,
-					       gpointer data);
-#define gfs_domain_traverse_leaves(d,f,data)  (gfs_domain_cell_traverse(d, \
-					    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1, f,data))
-void         gfs_domain_cell_traverse_condition (GfsDomain * domain,
-						 FttTraverseType order,
-						 FttTraverseFlags flags,
-						 gint max_depth,
-						 FttCellTraverseFunc func,
-						 gpointer data,
-						 gboolean (* condition) (FttCell *, gpointer),
-						 gpointer cdata);
-void         gfs_domain_cell_traverse_box     (GfsDomain * domain,
-					       GtsBBox * box,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       FttCellTraverseFunc func,
-					       gpointer data);
-void         gfs_domain_cell_traverse_boundary (GfsDomain * domain,
-					       FttDirection d,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       FttCellTraverseFunc func,
-					       gpointer data);
-void         gfs_domain_traverse_mixed        (GfsDomain * domain,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       FttCellTraverseFunc func,
-					       gpointer data);
-void         gfs_domain_traverse_cut          (GfsDomain * domain,
-					       GfsGenericSurface * s,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       FttCellTraverseCutFunc func,
-					       gpointer data);
-void         gfs_domain_traverse_cut_2D       (GfsDomain * domain,
-					       GfsGenericSurface * s,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       FttCellTraverseCutFunc func,
-					       gpointer data);
-void         gfs_domain_face_traverse         (GfsDomain * domain,
-					       FttComponent c,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       FttFaceTraverseFunc func,
-					       gpointer data);
-void         gfs_domain_bc                    (GfsDomain * domain,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       GfsVariable * v);
-void         gfs_domain_copy_bc               (GfsDomain * domain,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       GfsVariable * v,
-					       GfsVariable * v1);
-void         gfs_domain_homogeneous_bc        (GfsDomain * domain,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       GfsVariable * ov,
-					       GfsVariable * v);
-void         gfs_traverse_and_homogeneous_bc  (GfsDomain * domain,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       FttCellTraverseFunc func,
-					       gpointer data,
-					       GfsVariable * ov,
-					       GfsVariable * v);
-void         gfs_traverse_and_bc              (GfsDomain * domain,
-					       FttTraverseType order,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       FttCellTraverseFunc func,
-					       gpointer data,
-					       GfsVariable * v,
-					       GfsVariable * v1);
-void         gfs_domain_face_bc               (GfsDomain * domain,
-					       FttComponent c,
-					       GfsVariable * v);
-void         gfs_domain_match                 (GfsDomain * domain);
-void         gfs_domain_surface_bc            (GfsDomain * domain,
-					       GfsVariable * v);
-guint        gfs_domain_depth                 (GfsDomain * domain);
-GtsRange     gfs_domain_stats_variable        (GfsDomain * domain,
-					       GfsVariable * v,
-					       FttTraverseFlags flags,
-					       gint max_depth);
-GtsRange     gfs_domain_stats_solid           (GfsDomain * domain);
-void         gfs_domain_stats_merged          (GfsDomain * domain,
-					       GtsRange * solid,
-					       GtsRange * number);
-void         gfs_domain_stats_balance         (GfsDomain * domain,
-					       GtsRange * size,
-					       GtsRange * boundary,
-					       GtsRange * mpiwait);
-GfsNorm      gfs_domain_norm_variable         (GfsDomain * domain,
-					       GfsVariable * v,
-					       GfsFunction * w,
-					       FttTraverseFlags flags,
-					       gint max_depth);
-GfsNorm      gfs_domain_norm_residual         (GfsDomain * domain,
-					       FttTraverseFlags flags,
-					       gint max_depth,
-					       gdouble dt,
-					       GfsVariable * res);
-GfsVariable ** gfs_domain_velocity            (GfsDomain * domain);
-GfsNorm      gfs_domain_norm_velocity         (GfsDomain * domain,
-					       FttTraverseFlags flags,
-					       gint max_depth);
-GfsDomain *  gfs_domain_read                  (GtsFile * fp);
-void         gfs_domain_split                 (GfsDomain * domain,
-					       gboolean one_box_per_pe);
-FttCell *    gfs_domain_locate                (GfsDomain * domain,
-					       FttVector target,
-					       gint max_depth,
-					       GfsBox ** where);
-FttCell *    gfs_domain_boundary_locate       (GfsDomain * domain,
-					       FttVector target,
-					       gint max_depth,
-					       GtsObject ** where);
-gdouble      gfs_domain_cell_point_distance2  (GfsDomain * domain,
-					       GtsPoint * p,
-					       gdouble (* distance2) (FttCell *, 
-								      GtsPoint *, 
-								      gpointer),
-					       gpointer data,
-					       FttCell ** closest);
-void         gfs_domain_advect_point          (GfsDomain * domain, 
-					       FttVector * p,
-					       gdouble dt);
-guint        gfs_domain_size                  (GfsDomain * domain,
-					       FttTraverseFlags flags,
-					       gint max_depth);
-gdouble      gfs_domain_cfl                   (GfsDomain * domain,
-					       FttTraverseFlags flags,
-					       gint max_depth);
-void         gfs_cell_init                    (FttCell * cell,
-					       GfsDomain * domain);
-void         gfs_cell_reinit                  (FttCell * cell, 
-					       GfsDomain * domain);
-void         gfs_cell_fine_init               (FttCell * cell,
-					       GfsDomain * domain);
-void         gfs_cell_copy                    (const FttCell * from, 
-					       FttCell * to,
-					       GfsDomain * domain);
-void         gfs_cell_read                    (FttCell * cell, 
-					       GtsFile * fp,
-					       GfsDomain * domain);
-void         gfs_cell_write                   (const FttCell * cell, 
-					       FILE * fp,
-					       GSList * variables);
-void         gfs_cell_read_binary             (FttCell * cell, 
-					       GtsFile * fp,
-					       GfsDomain * domain);
-void         gfs_cell_write_binary            (const FttCell * cell, 
-					       FILE * fp,
-					       GSList * variables);
-guint        gfs_domain_alloc                 (GfsDomain * domain);
-void         gfs_domain_free                  (GfsDomain * domain, 
-					       guint i);
-GfsVariable * gfs_domain_add_variable         (GfsDomain * domain, 
-					       const gchar * name,
-					       const gchar * description);
-GfsVariable * gfs_domain_get_or_add_variable  (GfsDomain * domain,
-					       const gchar * name,
-					       const gchar * description);
-void         gfs_domain_solid_force           (GfsDomain * domain, 
-					       FttVector * pf,
-					       FttVector * vf,
-					       FttVector * pm,
-					       FttVector * vm,
-					       GfsFunction * weight);
-guint        gfs_domain_tag_droplets          (GfsDomain * domain,
-					       GfsVariable * c,
-					       GfsVariable * tag);
-void         gfs_domain_remove_droplets       (GfsDomain * domain,
-					       GfsVariable * c,
-					       GfsVariable * v,
-					       gint min);
-void         gfs_domain_remove_ponds          (GfsDomain * domain, 
-					       gint min,
-					       FttCellCleanupFunc cleanup,
-					       gpointer data);
-void         gfs_domain_remove_specks         (GfsDomain * domain);
-void         gfs_domain_timer_start           (GfsDomain * domain, 
-					       const gchar * name);
-void         gfs_domain_timer_stop            (GfsDomain * domain, 
-					       const gchar * name);
-typedef
-void      (* FttCellCombineTraverseFunc)      (FttCell * cell1, 
-					       FttCell * cell2, 
-					       gpointer data);
-void         gfs_domain_combine_traverse      (GfsDomain * domain1,
-					       GfsDomain * domain2,
-					       FttCellCombineTraverseFunc inside,
-					       gpointer idata,
-					       FttCellTraverseFunc outside,
-					       gpointer odata);
-
-typedef struct {
-  gchar * name, * description;
-  gpointer func, data;
-} GfsDerivedVariableInfo;
-
-GfsDerivedVariable * gfs_domain_add_derived_variable  (GfsDomain * domain, 
-						       GfsDerivedVariableInfo info);
-gboolean     gfs_domain_remove_derived_variable (GfsDomain * domain, 
-						 const gchar * name);
-void         gfs_domain_sum                     (GfsDomain * domain, 
-						 FttDirection d, 
-						 GfsFunction * f, 
-						 GfsVariable * v);
-void         gfs_domain_filter                  (GfsDomain * domain, 
-						 GfsVariable * v,
-						 GfsVariable * fv);
-typedef struct _GfsRequest GfsRequest;
-GfsRequest * gfs_send_objects                   (GSList * list,
-						 int dest);
-void         gfs_wait                           (GfsRequest * r);
-GSList *     gfs_receive_objects                (GfsDomain * domain, 
-						 int src);
-GfsRequest * gfs_send_boxes                     (GfsDomain * domain, 
-						 GSList * boxes, 
-						 int dest);
-GSList *     gfs_receive_boxes                  (GfsDomain * domain, 
-						 int src);
-
-/**
- * gfs_domain_face_fraction:
- * @domain; a #GfsDomain.
- * @face: a #FttCellFace.
- *
- * Returns: the surface fraction of @face taking into account any
- * orthogonal metric of @domain.
- */
-static inline
-gdouble gfs_domain_face_fraction (const GfsDomain * domain, const FttCellFace * face)
-{
-  gdouble f = GFS_FACE_FRACTION (face);
-  if (domain->face_metric)
-    f *= (* domain->face_metric) (domain, face);
-  return f;
-}
-
-/**
- * gfs_domain_face_fraction_right:
- * @domain; a #GfsDomain.
- * @face: a #FttCellFace.
- *
- * Returns: the surface fraction "to the right" of @face taking into account any
- * orthogonal metric of @domain.
- */
-static inline
-gdouble gfs_domain_face_fraction_right (const GfsDomain * domain, const FttCellFace * face)
-{
-  gdouble f = GFS_FACE_FRACTION_RIGHT (face);
-  if (domain->face_metric) {
-    FttCellFace face1;
-    face1.cell = face->neighbor;
-    face1.d = FTT_OPPOSITE_DIRECTION (face->d);
-    f *= (* domain->face_metric) (domain, &face1);
-  }
-  return f;
-}
-
-/**
- * gfs_domain_cell_fraction:
- * @domain; a #GfsDomain.
- * @cell: a #FttCell.
- *
- * Returns: the volume fraction of @cell taking into account any
- * orthogonal metric of @domain.
- */
-static inline
-gdouble gfs_domain_cell_fraction (const GfsDomain * domain, const FttCell * cell)
-{
-  gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-  if (domain->cell_metric)
-    a *= (* domain->cell_metric) (domain, cell);
-  return a;
-}
-
-/**
- * gfs_domain_solid_metric:
- * @domain; a #GfsDomain.
- * @cell: a mixed #FttCell.
- *
- * Returns: the coordinate metric at the center of area of the solid
- * surface contained within @cell.
- */
-static inline
-gdouble gfs_domain_solid_metric (const GfsDomain * domain, const FttCell * cell)
-{
-  if (domain->solid_metric)
-    return (* domain->solid_metric) (domain, cell);
-  return 1.;
-}
-
-/**
- * gfs_cell_volume:
- * @cell: a #FttCell.
- * @domain: a #GfsDomain.
- *
- * Returns: the volume of @cell.
- */
-static inline
-gdouble gfs_cell_volume (const FttCell * cell, const GfsDomain * domain)
-{
-  double v = ftt_cell_volume (cell)*(GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.);
-  return domain->cell_metric ? (* domain->cell_metric) (domain, cell)*v : v;
-}
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __DOMAIN_H__ */
diff --git a/src/event.c b/src/event.c
deleted file mode 100644
index 2d51cef..0000000
--- a/src/event.c
+++ /dev/null
@@ -1,2223 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <sys/wait.h>
-#include <sys/types.h>
-#include <sys/stat.h>
-#include <errno.h>
-#include <unistd.h>
-#include <math.h>
-#include "event.h"
-#include "solid.h"
-#include "output.h"
-
-/**
- * gfs_event_next:
- * @event: a #GfsEvent.
- * @sim: a #GfsSimulation.
- *
- * Returns: the next physical time at which @event will be realised.
- */
-gdouble gfs_event_next (GfsEvent * event, GfsSimulation * sim)
-{
-  g_return_val_if_fail (event != NULL, G_MAXDOUBLE);
-  g_return_val_if_fail (sim != NULL, G_MAXDOUBLE);
-
-  if (sim->time.t < event->t)
-    return event->t;
-  if (event->t >= event->end ||
-      event->i >= event->iend ||
-      sim->time.t > event->end || 
-      sim->time.i > event->iend)
-    return G_MAXDOUBLE;
-  if (event->end_event)
-    return G_MAXDOUBLE;
-  if (sim->time.t >= event->t) {
-    if (event->istep < G_MAXINT) {
-      if (event->n == 0)
-	return G_MAXDOUBLE;
-    }
-    else
-      return event->start + (event->n + 1)*event->step;
-  }
-  if (sim->time.i >= event->i && event->step < G_MAXDOUBLE && event->n == 0)
-    return sim->time.t + event->step;
-  return G_MAXDOUBLE;
-}
-
-static gboolean gfs_event_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if (event->redo) {
-    event->redo = FALSE;
-    return event->realised;
-  }
-  if (event->t >= event->end ||
-      event->i >= event->iend ||
-      sim->time.t > event->end || 
-      sim->time.i > event->iend) {
-    gts_object_destroy (GTS_OBJECT (event));
-    return FALSE;
-  }
-  if (event->end_event) {
-    if (event->n == 0 &&
-	(sim->time.t >= sim->time.end ||
-	 sim->time.i >= sim->time.iend)) {
-      event->n = 1;
-      return (event->realised = TRUE);
-    }
-    else
-      return (event->realised = FALSE);
-  }
-  if (sim->time.t >= event->t) {
-    if (event->istep < G_MAXINT) {
-      if (event->n == 0) {
-	event->i = sim->time.i + event->istep;
-	event->n++;
-	return (event->realised = TRUE);
-      }
-    }
-    else {
-      event->n++;
-      event->t = event->start + event->n*event->step;
-      return (event->realised = TRUE);
-    }
-  }
-  if (sim->time.i >= event->i) {
-    if (event->step < G_MAXDOUBLE) {
-      if (event->n == 0) {
-	event->start = sim->time.t;
-	event->t = event->start + event->step;
-	event->n = 1;
-	return (event->realised = TRUE);
-      }
-    }
-    else {
-      event->n++;
-      event->i += event->istep;
-      return (event->realised = TRUE);
-    }
-  }
-  return (event->realised = FALSE);
-}
-
-static void gfs_event_write (GtsObject * object, FILE * fp)
-{
-  GfsEvent * event = GFS_EVENT (object);
-
-  fprintf (fp, "%s { ", object->klass->info.name);
-  if (event->end_event)
-    fputs ("start = end ", fp);
-  else {
-    if (event->start > 0. && event->start < G_MAXDOUBLE/2.)
-      fprintf (fp, "start = %g ", event->start);
-    if (event->step < G_MAXDOUBLE)
-      fprintf (fp, "step = %g ", event->step);
-    if (event->end < G_MAXDOUBLE)
-      fprintf (fp, "end = %g ", event->end);
-    if (event->istart > 0 && event->istart < G_MAXINT/2)
-      fprintf (fp, "istart = %u ", event->istart);
-    if (event->istep < G_MAXINT)
-      fprintf (fp, "istep = %u ", event->istep);
-    if (event->iend < G_MAXINT)
-      fprintf (fp, "iend = %u ", event->iend);
-  }
-  fputc ('}', fp);
-}
-
-static void event_init (GfsEvent * object)
-{
-  object->t      = 0.;
-  object->start  = 0.;
-  object->end    = G_MAXDOUBLE;
-  object->step   = G_MAXDOUBLE;
-
-  object->i      = 0;
-  object->istart = 0;
-  object->iend   = G_MAXINT;
-  object->istep  = G_MAXINT;
-
-  object->n         = 0;
-  object->end_event = FALSE;
-}
-
-static void gfs_event_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsEvent * event = GFS_EVENT (*o);
-  GtsObjectClass * klass;
-  gboolean class_changed = FALSE;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (GfsEventClass)");
-    return;
-  }
-  klass = gfs_object_class_from_name (fp->token->str);
-  if (klass == NULL) {
-    gts_file_error (fp, "unknown class `%s'", fp->token->str);
-    return;
-  }
-  if (!gts_object_class_is_from_class (klass, gfs_event_class ())) {
-    gts_file_error (fp, "`%s' is not a GfsEvent", fp->token->str);
-    return;
-  }
-  if (klass != (*o)->klass) {
-    *o = gts_object_new (klass);
-    gts_object_destroy (GTS_OBJECT (event));
-    event = GFS_EVENT (*o);
-    class_changed = TRUE;
-  }
-  gts_file_next_token (fp);
-
-  if (fp->type == '{') {
-    GtsFileVariable var[] = {
-      {GTS_STRING, "start",  TRUE},
-      {GTS_DOUBLE, "end",    TRUE},
-      {GTS_DOUBLE, "step",   TRUE},
-      {GTS_UINT,   "istart", TRUE},
-      {GTS_UINT,   "iend",   TRUE},
-      {GTS_UINT,   "istep",  TRUE},
-      {GTS_NONE}
-    };
-    gchar * start = NULL;
-
-    var[0].data = &start;
-    var[1].data = &event->end;
-    var[2].data = &event->step;
-
-    var[3].data = &event->istart;
-    var[4].data = &event->iend;
-    var[5].data = &event->istep;
- 
-    gts_file_assign_variables (fp, var);
-
-    if (fp->type == GTS_ERROR)
-      return;
-
-    if (start) {
-      if (!strcmp (start, "end")) {
-	event->end_event = TRUE;
-	if (var[1].set)
-	  gts_file_variable_error (fp, var, "end", 
-				   "end cannot be set for an `end' event");
-	else if (var[2].set)
-	  gts_file_variable_error (fp, var, "step", 
-				   "step cannot be set for an `end' event");
-	else if (var[3].set)
-	  gts_file_variable_error (fp, var, "istart", 
-				   "istart cannot be set for an `end' event");
-	else if (var[4].set)
-	  gts_file_variable_error (fp, var, "iend", 
-				   "iend cannot be set for an `end' event");
-	else if (var[5].set)
-	  gts_file_variable_error (fp, var, "istep", 
-				   "istep cannot be set for an `end' event");
-      }
-      else
-	event->start = atof (start);
-      g_free (start);
-    }
-
-    if (fp->type == GTS_ERROR)
-      return;
-
-    if (var[2].set && var[5].set) {
-      gts_file_variable_error (fp, var, "istep", 
-			       "step and istep cannot be set simultaneously");
-      return;
-    }
-    if (var[2].set)
-      event->istep = G_MAXINT;
-
-    if (var[2].set && event->step <= 0.) {
-      gts_file_variable_error (fp, var, "step",
-			       "step `%g' must be strictly positive", 
-			       event->step);
-      return;
-    }
-    if (!var[2].set && !var[5].set && var[1].set) {
-      gts_file_error (fp, "expecting a number (step or istep)");
-      return;
-    }
-    if (var[1].set && event->end <= event->start) {
-      gts_file_variable_error (fp, var, "end",
-			       "end `%g' must be larger than start `%g'", 
-			       event->end, event->start);
-      return;
-    }
-    if (event->start < 0. && var[1].set) {
-      gts_file_variable_error (fp, var, "end",
-			       "end cannot be specified for an `init' event");
-      return;
-    }
-    if (event->start < 0. && var[2].set)
-      event->start = 0.;
-    if (var[0].set || !var[3].set)
-      event->t = event->start;
-    else
-      event->t = event->start = G_MAXDOUBLE/2.;
-
-    if (!var[5].set && !var[2].set && var[4].set) {
-      gts_file_error (fp, "expecting a number (istep or step)");
-      return;
-    }
-    if (var[3].set && event->iend <= event->istart) {
-      gts_file_variable_error (fp, var, "iend",
-			       "iend `%u' must be larger than istart `%u'", 
-			       event->iend, event->istart);
-      return;
-    }
-    if (var[3].set || !var[0].set)
-      event->i = event->istart;
-    else
-      event->i = event->istart = G_MAXINT/2;
-  }
-
-  if (class_changed && fp->type != '\n' && klass->read)
-    (* klass->read) (o, fp);
-}
-
-static void gfs_event_class_init (GfsEventClass * klass)
-{
-  klass->event = gfs_event_event;
-
-  GTS_OBJECT_CLASS (klass)->write = gfs_event_write;
-  GTS_OBJECT_CLASS (klass)->read  = gfs_event_read;
-}
-
-GfsEventClass * gfs_event_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_info = {
-      "GfsEvent",
-      sizeof (GfsEvent),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_class_init,
-      (GtsObjectInitFunc) event_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = 
-      gts_object_class_new (GTS_OBJECT_CLASS (gts_slist_containee_class ()),
-			    &gfs_event_info);
-  }
-
-  return klass;
-}
-
-GfsEvent * gfs_event_new (GfsEventClass * klass)
-{
-  GfsEvent * object;
-
-  g_return_val_if_fail (klass != NULL, NULL);
-
-  object = GFS_EVENT (gts_object_new (GTS_OBJECT_CLASS (klass)));
-
-  return object;
-}
-
-/**
- * gfs_event_set:
- * @e: a #GfsEvent.
- * @start: start time.
- * @end: end time.
- * @step: time step.
- * @istart: start iteration.
- * @iend: end iteration.
- * @istep: iteration step.
- *
- * Sets the properties of event @e.
- *
- * If any of the arguments is negative, the corresponding value in @e
- * is unchanged.
- */
-void gfs_event_set (GfsEvent * e,
-		    gdouble start, gdouble end, gdouble step,
-		    gint istart, gint iend, gint istep)
-{
-  g_return_if_fail (e != NULL);
-  g_return_if_fail (end < 0. || start < 0. || start <= end);
-  g_return_if_fail (istep >= 0 || step >= 0. || iend < 0);
-  g_return_if_fail (istart < 0 || iend < 0 || istart <= iend);
-  
-  if (start >= 0.) e->start = start;
-  if (end >= 0.)   e->end = end;
-  if (step >= 0.)  e->step = step;
-  if (istart >= 0) e->istart = istart;
-  if (iend >= 0)   e->iend = iend;
-  if (istep >= 0)  e->istep = istep;
-  if (start >= 0. || istart < 0)
-    e->t = e->start;
-  else
-    e->t = e->start = G_MAXDOUBLE/2.;
-  if (istart >= 0 || start < 0.)
-    e->i = e->istart;
-  else
-    e->i = e->istart = G_MAXINT/2;
-}
-
-/**
- * gfs_event_init:
- * @event: a #GfsEvent.
- * @sim: a #GfsSimulation.
- *
- * Initalizes @event associated with @sim. In particular, if @event is
- * an "init" event it is activated by this function.
- */
-void gfs_event_init (GfsEvent * event,
-		     GfsSimulation * sim)
-{
-  g_return_if_fail (event != NULL);
-  g_return_if_fail (sim != NULL);
-
-  if (event->start < 0.) { /* "init" event */
-    g_assert (GFS_EVENT_CLASS (GTS_OBJECT (event)->klass)->event);
-    (* GFS_EVENT_CLASS (GTS_OBJECT (event)->klass)->event) (event, sim);
-  }
-  else if (event->end_event)
-    event->t = event->start = G_MAXDOUBLE/2.;
-  else {
-    if (event->istep < G_MAXINT)
-      while (event->i < sim->time.i) {
-	event->n++;
-	event->i += event->istep;
-      }
-    else
-      while (event->t < sim->time.t) {
-	event->n++;
-	event->t = event->start + event->n*event->step;
-      }
-  }
-}
-
-/**
- * gfs_event_do:
- * @event: a #GfsEvent:
- * @sim: a #GfsSimulation.
- * 
- * Realises the event if active.
- */
-void gfs_event_do (GfsEvent * event, GfsSimulation * sim)
-{
-  GfsEventClass * klass;
-
-  g_return_if_fail (event != NULL);
-  g_return_if_fail (sim != NULL);
-  
-  gchar * name = GTS_OBJECT (event)->klass->info.name;
-  gfs_domain_timer_start (GFS_DOMAIN (sim), name);
-
-  klass = GFS_EVENT_CLASS (GTS_OBJECT (event)->klass);
-  g_assert (klass->event);
-  if ((* klass->event) (event, sim) && klass->post_event)
-    (* klass->post_event) (event, sim);
-
-  gfs_domain_timer_stop (GFS_DOMAIN (sim), name);
-}
-
-/**
- * gfs_event_half_do:
- * @event: a #GfsEvent:
- * @sim: a #GfsSimulation.
- * 
- * Realises the half-event if active.
- */
-void gfs_event_half_do (GfsEvent * event, GfsSimulation * sim)
-{
-  g_return_if_fail (event != NULL);
-  g_return_if_fail (sim != NULL);
-
-  if (event->realised && GFS_EVENT_CLASS (GTS_OBJECT (event)->klass)->event_half)
-    (* GFS_EVENT_CLASS (GTS_OBJECT (event)->klass)->event_half) (event, sim);
-}
-
-/**
- * gfs_event_redo:
- * @event: a #GfsEvent:
- * @sim: a #GfsSimulation.
- * 
- * Realises the event if it has just been realised.
- */
-void gfs_event_redo (GfsEvent * event, GfsSimulation * sim)
-{
-  GfsEventClass * klass;
-
-  g_return_if_fail (event != NULL);
-  g_return_if_fail (sim != NULL);
-
-  klass = GFS_EVENT_CLASS (GTS_OBJECT (event)->klass);
-  g_assert (klass->event);
-  event->redo = TRUE;
-  if ((* klass->event) (event, sim) && klass->post_event)
-    (* klass->post_event) (event, sim);
-}
-
-/* GfsGenericInit: Object */
-
-static void gfs_generic_init_init (GfsEvent * event)
-{
-  event->start = -1;
-}
-
-GfsEventClass * gfs_generic_init_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_generic_init_info = {
-      "GfsGenericInit",
-      sizeof (GfsEvent),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) gfs_generic_init_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_generic_init_info);
-  }
-
-  return klass;
-}
-
-/* GfsInit: Object */
-
-typedef struct {
-  GfsVariable * v;
-  GfsFunction * f;
-} VarFunc;
-
-static VarFunc * var_func_new (GfsVariable * v, GfsFunction * f)
-{
-  VarFunc * vf = g_malloc (sizeof (VarFunc));
-  vf->v = v;
-  vf->f = f;
-  gfs_function_set_units (vf->f, vf->v->units);
-  return vf;
-}
-
-static void var_func_destroy (VarFunc * v)
-{
-  gts_object_destroy (GTS_OBJECT (v->f));
-  g_free (v);
-}
-
-static void gfs_init_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_init_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_init_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a variable name");
-      return;
-    }
-    else {
-      GfsInit * init = GFS_INIT (*o);
-      GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-      GfsVariable * v = gfs_domain_get_or_add_variable (domain, fp->token->str, NULL);
-      GfsFunction * f;
-
-      if (!v) {
-	gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-	return;
-      }
-      gts_file_next_token (fp);
-
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting `='");
-	return;
-      }
-      gts_file_next_token (fp);
-
-      f = gfs_function_new (gfs_function_class (), 0.);
-      gfs_function_read (f, gfs_object_simulation (*o), fp);
-      if (fp->type == GTS_ERROR) {
-	gts_object_destroy (GTS_OBJECT (f));
-	return;
-      }
-      init->f = g_slist_append (init->f, var_func_new (v, f));
-    }
-  }
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-
-  GfsEvent * event = GFS_EVENT (*o);
-  if (event->start < 0. && (event->istep < G_MAXINT || event->step < G_MAXDOUBLE))
-    event->start = 0.;
-}
-
-static void gfs_init_write (GtsObject * o, FILE * fp)
-{
-  GSList * i;
-  
-  if (GTS_OBJECT_CLASS (gfs_init_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_init_class ())->parent_class->write) 
-      (o, fp);
-
-  fputs (" {\n", fp);
-  i = GFS_INIT (o)->f;
-  while (i) {
-    VarFunc * v = i->data;
-    fprintf (fp, "  %s =", v->v->name);
-    gfs_function_write (v->f, fp);
-    fputc ('\n', fp);
-    i = i->next;
-  }
-  fputc ('}', fp);
-}
-
-static void gfs_init_destroy (GtsObject * object)
-{
-  GfsInit * i = GFS_INIT (object);
-
-  g_slist_foreach (i->f, (GFunc) var_func_destroy, NULL);
-  g_slist_free (i->f);
-
-  (* GTS_OBJECT_CLASS (gfs_init_class ())->parent_class->destroy) 
-    (object);
-}
-
-static void init_vf (FttCell * cell, VarFunc * vf)
-{
-  GFS_VALUE (cell, vf->v) = gfs_function_value (vf->f, cell);
-}
-
-static gboolean gfs_init_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_init_class ())->parent_class)->event) 
-      (event, sim)) {
-    GSList * i = GFS_INIT (event)->f;
-
-    while (i) {
-      VarFunc * vf = i->data;
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) init_vf, vf);
-      i = i->next;
-    }
-    /* boundary conditions need to be called in a separate loop so
-       that they are correctly applied for vector quantities */
-    i = GFS_INIT (event)->f;
-    while (i) {
-      VarFunc * vf = i->data;
-      gfs_domain_bc (GFS_DOMAIN (sim), FTT_TRAVERSE_LEAFS, -1, vf->v);
-      i = i->next;
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_init_class_init (GfsGenericInitClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_init_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_init_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_init_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_init_destroy;
-}
-
-GfsGenericInitClass * gfs_init_class (void)
-{
-  static GfsGenericInitClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_init_info = {
-      "GfsInit",
-      sizeof (GfsInit),
-      sizeof (GfsGenericInitClass),
-      (GtsObjectClassInitFunc) gfs_init_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_generic_init_class ()),
-				  &gfs_init_info);
-  }
-
-  return klass;
-}
-
-/* GfsInitFlowConstant: Object: fixme: deprecated */
-
-static void gfs_init_flow_constant_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_init_flow_constant_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_init_flow_constant_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  g_warning ("GfsInitFlowConstant is deprecated you should use GfsInit instead");
-}
-
-static void gfs_init_flow_constant_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_init_flow_constant_read;
-}
-
-GfsEventClass * gfs_init_flow_constant_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_init_flow_constant_info = {
-      "GfsInitFlowConstant",
-      sizeof (GfsInit),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_init_flow_constant_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_init_class ()),
-				  &gfs_init_flow_constant_info);
-  }
-
-  return klass;
-}
-
-#if FTT_2D
-
-/* GfsInitVorticity: Object */
-
-static void gfs_init_vorticity_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_init_vorticity_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_init_vorticity_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  gfs_function_read (GFS_INIT_VORTICITY (*o)->f, gfs_object_simulation (*o), fp);
-}
-
-static void gfs_init_vorticity_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_init_vorticity_class ())->parent_class->write) (o, fp);
-  gfs_function_write (GFS_INIT_VORTICITY (o)->f, fp);
-}
-
-static void gfs_init_vorticity_destroy (GtsObject * object)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_INIT_VORTICITY (object)->f));
-  (* GTS_OBJECT_CLASS (gfs_init_vorticity_class ())->parent_class->destroy) (object);
-}
-
-static void sum_volume (FttCell * cell, GtsRange * vol)
-{
-  gdouble size = ftt_cell_size (cell);
-  
-  if (GFS_IS_MIXED (cell))
-    gts_range_add_value (vol, size*size*GFS_STATE (cell)->solid->a);
-  else
-    gts_range_add_value (vol, size*size);
-}
-
-static void add_ddiv (FttCell * cell, gpointer * data)
-{
-  gdouble * ddiv = data[0];
-  GfsVariable * div = data[1];
-  gdouble size = ftt_cell_size (cell);
-  
-  if (GFS_IS_MIXED (cell))
-    GFS_VARIABLE (cell, div->i) += size*size*GFS_STATE (cell)->solid->a*(*ddiv);
-  else
-    GFS_VARIABLE (cell, div->i) += size*size*(*ddiv);
-}
-
-static void correct_div (GfsDomain * domain, GfsVariable * v)
-{
-  GtsRange div, vol;
-  gdouble ddiv;
-  gpointer data[2];
-
-  div = gfs_domain_stats_variable (domain, v, FTT_TRAVERSE_LEAFS, -1);
-  gts_range_init (&vol);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) sum_volume, &vol);
-  gts_range_update (&vol);
-  ddiv = - div.mean/vol.mean;
-
-  data[0] = &ddiv;
-  data[1] = v;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) add_ddiv, data);
-}
-
-static void stream_from_vorticity (GfsDomain * domain,
-				   GfsVariable * stream,
-				   GfsVariable * vorticity,
-				   gdouble tolerance)
-{
-  GfsNorm norm;
-  guint maxit = 100;
-  GfsVariable * res, * dia;
-  GfsMultilevelParams par;
-
-  g_return_if_fail (domain != NULL);
-
-  dia = gfs_temporary_variable (domain);
-  gfs_poisson_coefficients (domain, NULL);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) gfs_cell_reset, dia);
-  correct_div (domain, vorticity); /* enforce solvability condition */
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) gfs_cell_reset, stream);
-  res = gfs_temporary_variable (domain);
-  gfs_residual (domain, FTT_DIMENSION, FTT_TRAVERSE_LEAFS, -1, stream, vorticity, dia, res);
-  norm = gfs_domain_norm_residual (domain, FTT_TRAVERSE_LEAFS, -1, 1., res);
-  gfs_multilevel_params_init (&par);
-  par.depth = gfs_domain_depth (domain);
-  while (norm.infty > tolerance && maxit) {
-    gfs_poisson_cycle (domain, &par, stream, vorticity, dia, res);
-    norm = gfs_domain_norm_residual (domain, FTT_TRAVERSE_LEAFS, -1, 1., res);
-    maxit--;
-  }
-  if (maxit == 0)
-    g_warning ("GfsInitVorticity: cannot solve streamfunction from vorticity\n"
-	       "  (residual: %g)", norm.infty);
-  gts_object_destroy (GTS_OBJECT (res));
-  gts_object_destroy (GTS_OBJECT (dia));
-}
-
-static void init_from_streamfunction (FttCell * cell, GfsInitVorticity * init)
-{
-  gdouble size = ftt_cell_size (cell);
-
-  GFS_VARIABLE (cell, init->u[0]->i) = - gfs_center_gradient (cell, FTT_Y, init->stream->i)/size;
-  GFS_VARIABLE (cell, init->u[1]->i) = gfs_center_gradient (cell, FTT_X, init->stream->i)/size;
-}
-
-static void compute_vorticity (FttCell * cell, GfsInitVorticity * init)
-{
-  gdouble size = ftt_cell_size (cell);
-
-  GFS_VARIABLE (cell, init->vort->i) = gfs_function_value (init->f, cell)*size*size;  
-}
-
-static gboolean gfs_init_vorticity_event (GfsEvent * event, 
-					  GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_init_vorticity_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsInitVorticity * init = GFS_INIT_VORTICITY (event);
-    GfsDomain * domain = GFS_DOMAIN (sim);
-
-    init->vort = gfs_temporary_variable (domain);
-    init->stream = gfs_temporary_variable (domain);
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) compute_vorticity, event);
-    stream_from_vorticity (domain, init->stream, init->vort, 1e-9);
-    gts_object_destroy (GTS_OBJECT (init->vort));
-    init->u = gfs_domain_velocity (domain);
-    gfs_domain_cell_traverse (domain, 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) init_from_streamfunction, init);
-    gts_object_destroy (GTS_OBJECT (init->stream));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_init_vorticity_class_init (GtsObjectClass * klass)
-{
-  klass->read = gfs_init_vorticity_read;
-  klass->write = gfs_init_vorticity_write;
-  klass->destroy = gfs_init_vorticity_destroy;
-  GFS_EVENT_CLASS (klass)->event = gfs_init_vorticity_event;
-}
-
-static void gfs_init_vorticity_init (GfsInitVorticity * init)
-{
-  init->f = gfs_function_new (gfs_function_class (), 0.);
-}
-
-GfsGenericInitClass * gfs_init_vorticity_class (void)
-{
-  static GfsGenericInitClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_init_vorticity_info = {
-      "GfsInitVorticity",
-      sizeof (GfsInitVorticity),
-      sizeof (GfsGenericInitClass),
-      (GtsObjectClassInitFunc) gfs_init_vorticity_class_init,
-      (GtsObjectInitFunc) gfs_init_vorticity_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_generic_init_class ()),
-				  &gfs_init_vorticity_info);
-  }
-
-  return klass;
-}
-
-#endif /* FTT_2D */
-
-/* GfsEventSum: Object */
-
-static void gfs_event_sum_destroy (GtsObject * o)
-{
-  GfsEventSum * s = GFS_EVENT_SUM (o);
-
-  gts_object_destroy (GTS_OBJECT (s->v));
-
-  (* GTS_OBJECT_CLASS (gfs_event_sum_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_event_sum_write (GtsObject * o, FILE * fp)
-{
-  GfsEventSum * s = GFS_EVENT_SUM (o);
-
-  (* GTS_OBJECT_CLASS (gfs_event_sum_class ())->parent_class->write) (o, fp);
-
-  gfs_function_write (s->v, fp);
-  fprintf (fp, " %s", s->sv->name);
-}
-
-static void gfs_event_sum_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsEventSum * s = GFS_EVENT_SUM (*o);
-  GfsDomain * domain =  GFS_DOMAIN (gfs_object_simulation (s));
-
-  (* GTS_OBJECT_CLASS (gfs_event_sum_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  gfs_function_read (s->v, domain, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (sv)");
-    return;
-  }
-  if (!(s->sv = gfs_domain_get_or_add_variable (domain, fp->token->str, "Sum"))) {
-    gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-}
-
-static gboolean gfs_event_sum_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_sum_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsEventSum * s = GFS_EVENT_SUM (event);
-
-    if (s->last < 0.)
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) gfs_cell_reset, s->sv);
-    else {
-      s->dt = sim->time.t - s->last;
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				s->sum, s);
-    }
-    s->last = sim->time.t;
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_event_sum_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_event_sum_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_event_sum_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_event_sum_destroy;
-  GFS_EVENT_CLASS (klass)->event = gfs_event_sum_event;
-}
-
-static void sum (FttCell * cell, GfsEventSum * s)
-{
-  GFS_VARIABLE (cell, s->sv->i) += s->dt*gfs_function_value (s->v, cell);
-}
-
-static void gfs_event_sum_init (GfsEventSum * object)
-{
-  object->last = -1.;
-  object->v = gfs_function_new (gfs_function_class (), 0.);
-  object->sum = (FttCellTraverseFunc) sum;
-}
-
-GfsEventClass * gfs_event_sum_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_sum_info = {
-      "GfsEventSum",
-      sizeof (GfsEventSum),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_sum_class_init,
-      (GtsObjectInitFunc) gfs_event_sum_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_event_sum_info);
-  }
-
-  return klass;
-}
-
-/* GfsEventSumDirection: Object */
-
-static void gfs_event_sum_direction_write (GtsObject * o, FILE * fp)
-{
-  GfsEventSumDirection * s = GFS_EVENT_SUM_DIRECTION (o);
-
-  (* GTS_OBJECT_CLASS (gfs_event_sum_direction_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " %s", ftt_direction_name [s->d]);
-}
-
-static void gfs_event_sum_direction_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsEventSumDirection * s = GFS_EVENT_SUM_DIRECTION (*o);
-
-  (* GTS_OBJECT_CLASS (gfs_event_sum_direction_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (direction)");
-    return;
-  }
-  s->d = ftt_direction_from_name (fp->token->str);
-  if (s->d >= FTT_NEIGHBORS) {
-    gts_file_error (fp, "unknown direction `%s'", fp->token->str);
-    s->d = 0;
-    return;
-  }
-  gts_file_next_token (fp);
-}
-
-static gboolean gfs_event_sum_direction_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_sum_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsEventSumDirection * s = GFS_EVENT_SUM_DIRECTION (event);
-
-    gfs_domain_sum (GFS_DOMAIN (sim), s->d, GFS_EVENT_SUM (event)->v, GFS_EVENT_SUM (event)->sv);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_event_sum_direction_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_event_sum_direction_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_event_sum_direction_write;
-  GFS_EVENT_CLASS (klass)->event = gfs_event_sum_direction_event;
-}
-
-GfsEventClass * gfs_event_sum_direction_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_sum_direction_info = {
-      "GfsEventSumDirection",
-      sizeof (GfsEventSumDirection),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_sum_direction_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_sum_class ()),
-				  &gfs_event_sum_direction_info);
-  }
-
-  return klass;
-}
-
-/* GfsEventHarmonic: Object */
-
-static void gfs_event_harmonic_destroy (GtsObject * o)
-{
-  GfsEventHarmonic * s = GFS_EVENT_HARMONIC (o);
-
-  if (s->Mn)
-    gfs_matrix_free (s->Mn);
-  if (s->M)
-    gfs_matrix_free (s->M);
-  if (s->iM)
-    gfs_matrix_free (s->iM);
-
-  g_free (s->A);
-  g_free (s->B);
-  g_free (s->vsin);
-  g_free (s->vcos);
-  g_free (s->x);
-  g_free (s->a);
-
-  g_free (s->Aname);
-  g_free (s->Bname);
-
-  g_array_free (s->omega, TRUE);
-
-  (* GTS_OBJECT_CLASS (gfs_event_harmonic_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_event_harmonic_write (GtsObject * o, FILE * fp)
-{
-  GfsEventHarmonic * s = GFS_EVENT_HARMONIC (o);
-  guint i, j;
-
-  (* GTS_OBJECT_CLASS (gfs_event_harmonic_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " %s %s %s %s", s->v->name, s->Aname, s->Bname, s->z->name);
-  if (s->e)
-    fprintf (fp, " %s", s->e->name);
-  for (i = 0; i < s->omega->len; i++)
-    fprintf (fp, " %.12lf", g_array_index (s->omega, gdouble, i));
-  fprintf (fp, " { %d", s->invertible);
-  for (i = 0; i < 2*s->omega->len + 1; i++)
-    for (j = 0; j < 2*s->omega->len + 1; j++)
-      fprintf (fp, " %.12lf", s->M[i][j]);
-  fputs (" }", fp);
-}
-
-static void gfs_event_harmonic_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsEventHarmonic * s = GFS_EVENT_HARMONIC (*o);
-  GfsDomain * domain =  GFS_DOMAIN (gfs_object_simulation (s));
-  guint i;
-
-  (* GTS_OBJECT_CLASS (gfs_event_harmonic_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (v)");
-    return;
-  }
-  if (!(s->v = gfs_variable_from_name (domain->variables, fp->token->str))) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (A)");
-    return;
-  }
-  s->Aname = g_strdup (fp->token->str);  
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (B)");
-    return;
-  }
-  s->Bname = g_strdup (fp->token->str);
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (Z)");
-    return;
-  }
-  if (!(s->z = gfs_domain_get_or_add_variable (domain, fp->token->str, 
-					       "Offset of harmonic decomposition"))) {
-    gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-    return;
-  }
-  s->z->units = s->v->units;
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a string (E)");
-      return;
-    }
-    if (!(s->e = gfs_domain_get_or_add_variable (domain, fp->token->str, 
-						 "Remainder of harmonic decomposition"))) {
-      gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-      return;
-    }
-    s->e->units = s->v->units;
-    gts_file_next_token (fp);
-  }
-
-  do {
-    gdouble omega = gfs_read_constant (fp, domain);
-    if (fp->type == GTS_ERROR)      
-      return;
-    g_array_append_val (s->omega, omega);
-  } while (fp->type != '\n' && fp->type != '{');
-
-  s->Mn = gfs_matrix_new (2*s->omega->len + 1, 2*s->omega->len + 1, sizeof (gdouble));
-  for (i = 0; i < 2*s->omega->len + 1; i++)
-    s->Mn[i][i] = 1.;
-
-  s->M  = gfs_matrix_new (2*s->omega->len + 1, 2*s->omega->len + 1, sizeof (gdouble));
-  s->iM = gfs_matrix_new (2*s->omega->len + 1, 2*s->omega->len + 1, sizeof (gdouble));
-
-  s->A =    g_malloc (sizeof (GfsVariable *)*s->omega->len);
-  s->B =    g_malloc (sizeof (GfsVariable *)*s->omega->len);
-  s->vsin = g_malloc (sizeof (gdouble)*s->omega->len);
-  s->vcos = g_malloc (sizeof (gdouble)*s->omega->len);
-  s->x    = g_malloc (sizeof (gdouble)*(2*s->omega->len + 1));
-  s->a    = g_malloc (sizeof (gdouble)*(2*s->omega->len + 1));
-
-  for (i = 0; i < s->omega->len; i++) {
-    gchar * u;
-    
-    u = g_strdup_printf ("%s%d", s->Aname, i);
-    if (!(s->A[i] = gfs_domain_get_or_add_variable (domain, u, 
-					"In-phase component of the harmonic decomposition"))) {
-      gts_file_error (fp, "`%s' is a reserved keyword", u);
-      return;
-    }
-    s->A[i]->units = s->v->units;
-    g_free (u);
-    u = g_strdup_printf ("%s%d", s->Bname, i);
-    if (!(s->B[i] = gfs_domain_get_or_add_variable (domain, u,
-				       "Out-of-phase component of the harmonic decomposition"))) {
-      gts_file_error (fp, "`%s' is a reserved keyword", u);
-      return;
-    }
-    s->B[i]->units = s->v->units;
-    g_free (u);
-  }
-
-  if (fp->type == '{') {
-    guint n = 2*s->omega->len + 1;
-    guint j;
-
-    fp->scope_max++;
-    gts_file_next_token (fp);
-    if (fp->type != GTS_INT) {
-      gts_file_error (fp, "expecting a number (invertible)");
-      return;
-    }
-    s->invertible = atoi (fp->token->str);
-    gts_file_next_token (fp);
-    for (i = 0; i < n; i++)
-      for (j = 0; j < n; j++)
-	if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-	  gts_file_error (fp, "expecting a number (M[%d][%d])", i, j);
-	  return;
-	}
-	else {
-	  s->M[i][j] = atof (fp->token->str);
-	  gts_file_next_token (fp);
-	}
-    if (fp->type != '}') {
-      gts_file_error (fp, "expecting a closing brace");
-      return;
-    }
-    gts_file_next_token (fp);
-    fp->scope_max--;
-
-    if (s->invertible)
-      for (i = 0; i < n; i++)
-	for (j = 0; j < n; j++)
-	  s->Mn[i][j] = s->M[i][j];
-  }
-}
-
-static void add_xsin_xcos (FttCell * cell, GfsEventHarmonic * h)
-{
-  gdouble x = GFS_VARIABLE (cell, h->v->i);
-  guint i;
-
-  for (i = 0; i < h->omega->len; i++) {
-    GFS_VARIABLE (cell, h->A[i]->i) += x*h->vcos[i];
-    GFS_VARIABLE (cell, h->B[i]->i) += x*h->vsin[i];
-  }
-  GFS_VARIABLE (cell, h->z->i) += x;
-  if (h->e)
-    GFS_VARIABLE (cell, h->e->i) += x*x;
-}
-
-static gdouble de (GfsEventHarmonic * h, gdouble ** M)
-{
-  guint n = h->omega->len;
-  gdouble xm = h->a[2*n];
-  gdouble e = xm*(M[2*n][2*n]*xm - 2.*h->x[2*n]);
-  guint i, j;
-
-  for (i = 0; i < n; i++) {
-    e += 2.*(h->a[i]*(xm*M[i][2*n] - h->x[i]) +
-	     h->a[n + i]*(xm*M[n + i][2*n] - h->x[n + i]));
-    for (j = 0; j < n; j++)
-      e += (h->a[i]*h->a[j]*M[j][i] + 
-	    h->a[n + i]*h->a[n + j]*M[n + j][n + i] +
-	    2.*h->a[i]*h->a[n + j]*M[n + j][i]);
-  }
-  return e;
-}
-
-static void update_A_B_Z (FttCell * cell, GfsEventHarmonic * h)
-{
-  gdouble x = GFS_VARIABLE (cell, h->v->i), sx2 = 0.;
-  guint n = h->omega->len;
-  guint i, j;
-
-  /* A^n */
-  for (i = 0; i < n; i++) {
-    h->a[i] =     GFS_VARIABLE (cell, h->A[i]->i);
-    h->a[i + n] = GFS_VARIABLE (cell, h->B[i]->i);
-  }
-  h->a[2*n] = GFS_VARIABLE (cell, h->z->i);
-
-  /* X^n = M^n.A^n */
-  for (i = 0; i < 2*n + 1; i++) {
-    h->x[i] = 0.;
-    for (j = 0; j < 2*n + 1; j++)
-      h->x[i] += h->Mn[i][j]*h->a[j];
-  }
-
-  if (h->e) {
-    if (h->invertible)
-      sx2 = x*x + h->Mn[2*n][2*n]*GFS_VARIABLE (cell, h->e->i) - de (h, h->Mn);
-    else
-      sx2 = x*x + GFS_VARIABLE (cell, h->e->i);
-  }
-  
-  /* X^n+1 = X^n + Delta^n */
-  for (i = 0; i < n; i++) {
-    h->x[i]     += x*h->vcos[i];
-    h->x[i + n] += x*h->vsin[i];
-  }
-  h->x[2*n] += x;
-
-  /* A^n+1 = (M^n+1)^-1.X^n+1 */
-  for (i = 0; i < 2*n + 1; i++) {
-    h->a[i] = 0.;
-    for (j = 0; j < 2*n + 1; j++)
-      h->a[i] += h->iM[i][j]*h->x[j];
-  }
-
-  for (i = 0; i < n; i++) {
-    GFS_VARIABLE (cell, h->A[i]->i) = h->a[i];
-    GFS_VARIABLE (cell, h->B[i]->i) = h->a[i + n];
-  }
-  GFS_VARIABLE (cell, h->z->i) = h->a[2*n];
-
-  if (h->e)
-    GFS_VARIABLE (cell, h->e->i) = (sx2 + de (h, h->M))/h->M[2*n][2*n];
-}
-
-static gboolean gfs_event_harmonic_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_harmonic_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsEventHarmonic * h = GFS_EVENT_HARMONIC (event);
-    gdouble ** M = h->M, * vsin = h->vsin, * vcos = h->vcos;
-    gdouble ** iM = h->iM, ** Mn = h->Mn;
-    guint i, j, n = h->omega->len;
-
-    for (i = 0; i < n; i++) {
-      vsin[i] = sin (g_array_index (h->omega, gdouble, i)*sim->time.t);
-      vcos[i] = cos (g_array_index (h->omega, gdouble, i)*sim->time.t);
-    }
-
-    for (i = 0; i < n; i++) {
-      for (j = 0; j < n; j++) {
-        M[i][j]         += vcos[j]*vcos[i];
-	M[i][n + j]     += vsin[j]*vcos[i];
-        M[n + i][j]     += vcos[j]*vsin[i];
-	M[n + i][n + j] += vsin[j]*vsin[i];
-      }
-      M[i][2*n]     += vcos[i];
-      M[n + i][2*n] += vsin[i];
-    }
-    for (j = 0; j < n; j++) {
-      M[2*n][j]     += vcos[j];
-      M[2*n][n + j] += vsin[j];
-    }
-    M[2*n][2*n] += 1.;
-
-    for (i = 0; i < 2*n + 1; i++)
-      for (j = 0; j < 2*n + 1; j++)
-	iM[i][j] = M[i][j];
-
-    if (!gfs_matrix_inverse (iM, 2*n + 1, 1e-6)) {
-      g_assert (!h->invertible);
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) add_xsin_xcos, h);
-    }
-    else {
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) update_A_B_Z, h);
-      h->invertible = TRUE;
-      for (i = 0; i < 2*n + 1; i++)
-	for (j = 0; j < 2*n + 1; j++)
-	  Mn[i][j] = M[i][j];
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_event_harmonic_class_init (GtsObjectClass * klass)
-{
-  klass->destroy = gfs_event_harmonic_destroy;
-  klass->read = gfs_event_harmonic_read;
-  klass->write = gfs_event_harmonic_write;
-  GFS_EVENT_CLASS (klass)->event = gfs_event_harmonic_event;
-}
-
-static void gfs_event_harmonic_init (GfsEventHarmonic * object)
-{
-  object->omega = g_array_new (FALSE, FALSE, sizeof (gdouble));
-}
-
-GfsEventClass * gfs_event_harmonic_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_harmonic_info = {
-      "GfsEventHarmonic",
-      sizeof (GfsEventHarmonic),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_harmonic_class_init,
-      (GtsObjectInitFunc) gfs_event_harmonic_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_event_harmonic_info);
-  }
-
-  return klass;
-}
-
-/* GfsEventStop: Object */
-
-static void gfs_event_stop_write (GtsObject * o, FILE * fp)
-{
-  GfsEventStop * s = GFS_EVENT_STOP (o);
-
-  if (GTS_OBJECT_CLASS (gfs_event_stop_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_event_stop_class ())->parent_class->write)
-      (o, fp);
-
-  fprintf (fp, " %s %g", s->v->name, s->max);
-  if (s->diff)
-    fprintf (fp, " %s", s->diff->name);
-}
-
-static void gfs_event_stop_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsEventStop * s = GFS_EVENT_STOP (*o);
-  GfsDomain * domain =  GFS_DOMAIN (gfs_object_simulation (s));
-
-  if (GTS_OBJECT_CLASS (gfs_event_stop_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_event_stop_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (v)");
-    return;
-  }
-  if (!(s->v = gfs_variable_from_name (domain->variables, fp->token->str))) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  s->max = gfs_read_constant (fp, domain);
-  if (fp->type == GTS_ERROR)      
-    return;
-  s->oldv = gfs_domain_add_variable (domain, NULL, NULL);
-  /* fixme: the lines below are necessary in the general case (e.g. when dealing with a VOF tracer)
-   * but will crash if s->oldv is not of the same class as s->v.
-   * s->oldv->fine_coarse = s->v->fine_coarse;
-   * s->oldv->coarse_fine = s->v->coarse_fine;
-   */
-
-  if (fp->type == GTS_STRING) {
-    if (!(s->diff = gfs_domain_get_or_add_variable (domain, fp->token->str, 
-						    "Stopping field difference"))) {
-      gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-      return;
-    }
-    s->diff->units = s->v->units;
-    gts_file_next_token (fp);
-  }
-}
-
-static void gfs_event_stop_destroy (GtsObject * o)
-{
-  if (GFS_EVENT_STOP (o)->oldv)
-    gts_object_destroy (GTS_OBJECT (GFS_EVENT_STOP (o)->oldv));
-
-  (* GTS_OBJECT_CLASS (gfs_event_stop_class ())->parent_class->destroy) (o);
-}
-
-static void diff (FttCell * cell, GfsEventStop * s)
-{
-  GFS_VALUE (cell, s->oldv) -= GFS_VALUE (cell, s->v);
-}
-
-static void copy (FttCell * cell, GfsEventStop * s)
-{
-  GFS_VALUE (cell, s->oldv) = GFS_VALUE (cell, s->v);
-}
-
-static gboolean gfs_event_stop_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_stop_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    GfsEventStop * s = GFS_EVENT_STOP (event);
-
-    if (s->last >= 0.) {
-      GfsNorm n;
-
-      gfs_domain_cell_traverse (domain,
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) diff, s);
-      n = gfs_domain_norm_variable (domain, s->oldv, NULL, FTT_TRAVERSE_LEAFS, -1);
-      if (gfs_dimensional_value (s->v, n.infty) <= s->max)
-	sim->time.end = sim->time.t;
-      if (s->diff) {
-	gfs_variables_swap (s->diff, s->oldv);
-	gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, s->diff);
-      }
-    }
-    gfs_domain_cell_traverse (domain,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) copy, s);
-    gfs_domain_copy_bc (domain, FTT_TRAVERSE_LEAFS, -1, s->v, s->oldv);
-    s->last = sim->time.t;
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_event_stop_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_event_stop_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_event_stop_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_event_stop_destroy;
-  GFS_EVENT_CLASS (klass)->event = gfs_event_stop_event;
-}
-
-static void gfs_event_stop_init (GfsEventStop * object)
-{
-  object->last = -1.;
-}
-
-GfsEventClass * gfs_event_stop_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_stop_info = {
-      "GfsEventStop",
-      sizeof (GfsEventStop),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_stop_class_init,
-      (GtsObjectInitFunc) gfs_event_stop_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_event_stop_info);
-  }
-
-  return klass;
-}
-
-/* GfsEventScript: Object */
-
-static void gfs_event_script_destroy (GtsObject * o)
-{
-  GfsEventScript * s = GFS_EVENT_SCRIPT (o);
-
-  g_free (s->script);
-
-  (* GTS_OBJECT_CLASS (gfs_event_script_class ())->parent_class->destroy) (o);
-} 
-
-static void gfs_event_script_write (GtsObject * o, FILE * fp)
-{
-  GfsEventScript * s = GFS_EVENT_SCRIPT (o);
-
-  if (GTS_OBJECT_CLASS (gfs_event_script_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_event_script_class ())->parent_class->write)
-      (o, fp);
-
-  fputs (" {", fp);
-  if (s->script)
-    fputs (s->script, fp);
-  fputc ('}', fp);
-}
-
-static void gfs_event_script_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsEventScript * s = GFS_EVENT_SCRIPT (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_event_script_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_event_script_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  g_free (s->script);
-  if ((s->script = gfs_file_statement (fp)))
-    gts_file_next_token (fp);
-}
-
-/**
- * gfs_popen:
- * @sim: a #GfsSimulation.
- * @command: a shell command.
- * @type: "r" for reading or "w" for writing.
- *
- * Returns: a file descriptor pointing to a pipe opened using the
- * standard popen() command but which also defines standard Gerris
- * shell variables. In case of error returns %NULL.
- */
-FILE * gfs_popen (GfsSimulation * sim, const char * command, const char * type)
-{
-  g_return_val_if_fail (command != NULL, NULL);
-  g_return_val_if_fail (type != NULL, NULL);
-  
-  gchar sname[] = "/tmp/gfsXXXXXX";
-  if (!mktemp (sname)) {
-    g_warning ("gfs_popen() cannot create unique temporary filename");
-    return NULL;
-  }
-  if (mkfifo (sname, 0666)) {
-    g_warning ("gfs_popen() cannot create FIFO: %s", strerror (errno));
-    return NULL;
-  }
-  /* When adding pre-defined shell variables please update this page:
-     http://gfs.sourceforge.net/wiki/index.php/GfsEventScript */
-  gchar * scommand = g_strdup_printf ("GfsTime=%g GfsIter=%d GfsPid=%d "
-				      "GFS_STOP=%d sh %s",
-				      sim->time.t, sim->time.i, 
-				      GFS_DOMAIN (sim)->pid,
-				      GFS_EVENT_SCRIPT_STOP,
-				      sname);
-  fflush (stdout);
-  fflush (stderr);
-  FILE * fp = popen (scommand, type);
-  g_free (scommand);
-  if (fp != NULL) {
-    FILE * f = fopen (sname, "w");
-    fputs (command, f);
-    fclose (f);
-  }
-  remove (sname);
-  return fp;
-}
-
-static gboolean gfs_event_script_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_script_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsEventScript * s = GFS_EVENT_SCRIPT (event);
-    if (s->script && GFS_DOMAIN (sim)->pid <= 0) {
-      FILE * fp = gfs_popen (sim, s->script, "w");
-      if (fp == NULL) {
-	g_warning ("GfsEventScript cannot start script");
-	return TRUE;
-      }
-      int status = pclose (fp);
-      if (status != -1)
-	status = WEXITSTATUS (status);
-      if (status == GFS_EVENT_SCRIPT_STOP)
-	exit (1);
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_event_script_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_event_script_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_event_script_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_event_script_write;
-  GFS_EVENT_CLASS (klass)->event = gfs_event_script_event;
-}
-
-GfsEventClass * gfs_event_script_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_script_info = {
-      "GfsEventScript",
-      sizeof (GfsEventScript),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_script_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_event_script_info);
-  }
-
-  return klass;
-}
-
-/* GfsInitFraction: Object */
-
-static void gfs_init_fraction_destroy (GtsObject * object)
-{
-  GfsInitFraction * init = GFS_INIT_FRACTION (object);
-
-  gts_object_destroy (GTS_OBJECT (init->surface));
-
-  (* GTS_OBJECT_CLASS (gfs_init_fraction_class ())->parent_class->destroy) 
-    (object);
-}
-
-static void gfs_init_fraction_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsInitFraction * init;
-  GfsDomain * domain;
-
-  if (GTS_OBJECT_CLASS (gfs_init_fraction_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_init_fraction_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  init = GFS_INIT_FRACTION (*o);
-  domain =  GFS_DOMAIN (gfs_object_simulation (init));
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (variable)");
-    return;
-  }
-  if ((init->c = gfs_variable_from_name (domain->variables, fp->token->str))
-      == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  gfs_generic_surface_read (init->surface, gfs_object_simulation (*o), fp);
-}
-
-static void gfs_init_fraction_write (GtsObject * o, FILE * fp)
-{
-  GfsInitFraction * init = GFS_INIT_FRACTION (o);
-
-
-  (* GTS_OBJECT_CLASS (gfs_init_fraction_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %s", init->c->name);
-  gfs_generic_surface_write (init->surface, gfs_object_simulation (o), fp);
-}
-
-static gboolean gfs_init_fraction_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_init_fraction_class ())->parent_class)->event) 
-      (event, sim)) {
-    gfs_domain_init_fraction (GFS_DOMAIN (sim), 
-			      GFS_INIT_FRACTION (event)->surface,
-			      GFS_INIT_FRACTION (event)->c);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_init_fraction_class_init (GfsInitFractionClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_init_fraction_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_init_fraction_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_init_fraction_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_init_fraction_destroy;
-}
-
-static void gfs_init_fraction_init (GfsInitFraction * object)
-{
-  object->surface = GFS_GENERIC_SURFACE (gts_object_new (GTS_OBJECT_CLASS (gfs_surface_class ())));
-}
-
-GfsInitFractionClass * gfs_init_fraction_class (void)
-{
-  static GfsInitFractionClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_init_fraction_info = {
-      "GfsInitFraction",
-      sizeof (GfsInitFraction),
-      sizeof (GfsInitFractionClass),
-      (GtsObjectClassInitFunc) gfs_init_fraction_class_init,
-      (GtsObjectInitFunc) gfs_init_fraction_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_generic_init_class ()),
-				  &gfs_init_fraction_info);
-  }
-
-  return klass;
-}
-
-/* GfsRemoveDroplets: Object */
-
-static void gfs_remove_droplets_destroy (GtsObject * object)
-{
-  GfsRemoveDroplets * d = GFS_REMOVE_DROPLETS (object);
-  if (d->fc)
-    gts_object_destroy (GTS_OBJECT (d->fc));
-  (* GTS_OBJECT_CLASS (gfs_remove_droplets_class ())->parent_class->destroy) (object);
-}
-
-static void compute_v (FttCell * cell, GfsRemoveDroplets * d)
-{
-  GFS_VALUE (cell, d->v) = gfs_function_value (d->fc, cell);
-}
-
-static gboolean gfs_remove_droplets_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_remove_droplets_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsRemoveDroplets * d = GFS_REMOVE_DROPLETS (event);
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    d->v = d->fc ? gfs_function_get_variable (d->fc) : d->c;
-    if (d->v)
-      gfs_domain_remove_droplets (domain, d->v, d->c, d->min);
-    else {
-      d->v = gfs_temporary_variable (domain);
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-				(FttCellTraverseFunc) compute_v, d);
-      gfs_domain_remove_droplets (domain, d->v, d->c, d->min);
-      gts_object_destroy (GTS_OBJECT (d->v));
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_remove_droplets_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_remove_droplets_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_remove_droplets_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (variable)");
-    return;
-  }
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  GfsRemoveDroplets * r = GFS_REMOVE_DROPLETS (*o);
-  if ((r->c = gfs_variable_from_name (domain->variables, fp->token->str)) == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT) {
-    gts_file_error (fp, "expecting an integer (min)");
-    return;
-  }
-  GFS_REMOVE_DROPLETS (*o)->min = atoi (fp->token->str);
-  gts_file_next_token (fp);
-
-  if (fp->type != '\n') {
-    r->fc = gfs_function_new (gfs_function_class (), 0.);
-    gfs_function_read (r->fc, gfs_object_simulation (r), fp);
-  }
-}
-
-static void gfs_remove_droplets_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_remove_droplets_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_remove_droplets_class ())->parent_class->write) 
-      (o, fp);
-  GfsRemoveDroplets * r = GFS_REMOVE_DROPLETS (o);
-  fprintf (fp, " %s %d", r->c->name, r->min);
-  if (r->fc)
-    gfs_function_write (r->fc, fp);
-}
-
-static void gfs_remove_droplets_class_init (GfsEventClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_remove_droplets_event;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_remove_droplets_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_remove_droplets_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_remove_droplets_write;
-}
-
-GfsEventClass * gfs_remove_droplets_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_remove_droplets_info = {
-      "GfsRemoveDroplets",
-      sizeof (GfsRemoveDroplets),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_remove_droplets_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_remove_droplets_info);
-  }
-
-  return klass;
-}
-
-/* GfsRemovePonds: Object */
-
-static gboolean gfs_remove_ponds_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_remove_ponds_class ())->parent_class)->event) 
-      (event, sim)) {
-    gfs_domain_remove_ponds (GFS_DOMAIN (sim), GFS_REMOVE_PONDS (event)->min,
-			     (FttCellCleanupFunc) gfs_cell_cleanup, sim);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_remove_ponds_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_remove_ponds_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_remove_ponds_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_INT) {
-    gts_file_error (fp, "expecting an integer (min)");
-    return;
-  }
-  GFS_REMOVE_PONDS (*o)->min = atoi (fp->token->str);
-  gts_file_next_token (fp);
-}
-
-static void gfs_remove_ponds_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_remove_ponds_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_remove_ponds_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %d", GFS_REMOVE_PONDS (o)->min);
-}
-
-static void gfs_remove_ponds_class_init (GfsEventClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_remove_ponds_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_remove_ponds_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_remove_ponds_write;
-}
-
-GfsEventClass * gfs_remove_ponds_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_remove_ponds_info = {
-      "GfsRemovePonds",
-      sizeof (GfsRemovePonds),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_remove_ponds_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_generic_init_class ()),
-				  &gfs_remove_ponds_info);
-  }
-
-  return klass;
-}
-
-/* GfsEventFilter: Object */
-
-static void filter (FttCell * cell, GfsEventFilter * f)
-{
-  FttDirection d[4*(FTT_DIMENSION - 1)][FTT_DIMENSION] = {
-#if FTT_2D
-    {FTT_RIGHT, FTT_TOP}, {FTT_RIGHT, FTT_BOTTOM}, {FTT_LEFT, FTT_TOP}, {FTT_LEFT, FTT_BOTTOM}
-#else
-    {FTT_RIGHT, FTT_TOP, FTT_FRONT}, {FTT_RIGHT, FTT_BOTTOM, FTT_FRONT}, 
-    {FTT_LEFT, FTT_TOP, FTT_FRONT}, {FTT_LEFT, FTT_BOTTOM, FTT_FRONT},
-    {FTT_RIGHT, FTT_TOP, FTT_BACK}, {FTT_RIGHT, FTT_BOTTOM, FTT_BACK}, 
-    {FTT_LEFT, FTT_TOP, FTT_BACK}, {FTT_LEFT, FTT_BOTTOM, FTT_BACK}
-#endif
-  };
-  guint i;
-  gdouble val = 0.;
-
-  for (i = 0; i < 4*(FTT_DIMENSION - 1); i++)
-    val += gfs_cell_corner_value (cell, d[i], f->v, -1);
-  GFS_VARIABLE (cell, f->tmp->i) = val/(4*(FTT_DIMENSION - 1));
-}
-
-static void filtered (FttCell * cell, GfsEventFilter * f)
-{
-  gdouble dt = gfs_object_simulation (f)->advection_params.dt/f->scale;
-  GFS_VALUE (cell, f->v) = ((1. - dt)*GFS_VALUE (cell, f->v) +
-			    dt*GFS_VALUE (cell, f->tmp));
-}
-
-static gboolean gfs_event_filter_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_filter_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsEventFilter * f = GFS_EVENT_FILTER (event);
-
-    f->tmp = gfs_temporary_variable (GFS_DOMAIN (sim));
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) filter, f);
-    gfs_traverse_and_bc (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			 (FttCellTraverseFunc) filtered, f,
-			 f->v, f->v);
-    gts_object_destroy (GTS_OBJECT (f->tmp));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_event_filter_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDomain * domain;
-
-  if (GTS_OBJECT_CLASS (gfs_event_filter_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_event_filter_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (variable)");
-    return;
-  }
-  domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  if ((GFS_EVENT_FILTER (*o)->v = gfs_variable_from_name (domain->variables, fp->token->str))
-      == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  GFS_EVENT_FILTER (*o)->scale = gfs_read_constant (fp, domain);
-  if (fp->type == GTS_ERROR)
-    return;
-  if (GFS_EVENT_FILTER (*o)->scale <= 0.) {
-    gts_file_error (fp, "time scale must be strictly positive");
-    return;
-  }
-}
-
-static void gfs_event_filter_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_event_filter_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_event_filter_class ())->parent_class->write) 
-      (o, fp);
-  fprintf (fp, " %s %g", GFS_EVENT_FILTER (o)->v->name, GFS_EVENT_FILTER (o)->scale);
-}
-
-static void gfs_event_filter_class_init (GfsEventClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_event_filter_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_event_filter_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_event_filter_write;
-}
-
-GfsEventClass * gfs_event_filter_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_filter_info = {
-      "GfsEventFilter",
-      sizeof (GfsEventFilter),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_filter_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_event_filter_info);
-  }
-
-  return klass;
-}
-
-/* GfsEventList: Object */
-
-static gboolean gfs_event_list_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_list_class ())->parent_class)->event) 
-      (event, sim)) {
-    gts_container_foreach (GTS_CONTAINER (GFS_EVENT_LIST (event)->list), 
-			   (GtsFunc) gfs_event_do, sim);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void copy_event (GfsEvent * event, GfsEvent * list)
-{
-  gfs_event_set (event, list->start, list->end, list->step, list->istart, list->iend, list->istep);
-}
-
-static void gfs_event_list_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_event_list_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsEventList * l = GFS_EVENT_LIST (*o);
-  if (fp->type == GTS_STRING) {
-    l->klass = gfs_object_class_from_name (fp->token->str);
-    if (l->klass == NULL) {
-      gts_file_error (fp, "unknown class `%s'", fp->token->str);
-      return;
-    }
-    gts_file_next_token (fp);
-  }
-
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-  while (fp->type == '\n') gts_file_next_token (fp);
-
-  GtsObjectClass * default_class = l->klass;
-  GfsSimulation * sim = gfs_object_simulation (*o);
-  while (fp->type != '}') {
-    GtsObjectClass * klass = default_class;
-    if (klass == NULL) {
-      if (fp->type != GTS_STRING) {
-	gts_file_error (fp, "expecting a keyword");
-	return;
-      }
-      klass = gfs_object_class_from_name (fp->token->str);
-      if (klass == NULL) {
-	gts_file_error (fp, "unknown class `%s'", fp->token->str);
-	return;
-      }
-      if (!gts_object_class_is_from_class (klass, gfs_event_class ())) {
-	gts_file_error (fp, "'%s' is not a GfsEvent", fp->token->str);
-	return;
-      }
-    }
-    
-    GtsObject * object = gts_object_new (klass);
-    gfs_object_simulation_set (object, sim);
-    (* klass->read) (&object, fp);
-    if (fp->type == GTS_ERROR) {
-      gts_object_destroy (object);
-      return;
-    }
-    while (fp->type == '\n') gts_file_next_token (fp);
-
-    gts_container_add (GTS_CONTAINER (l->list), GTS_CONTAINEE (object));
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-  
-  l->list->items = g_slist_reverse (l->list->items);
-  gts_container_foreach (GTS_CONTAINER (l->list), (GtsFunc) copy_event, l);
-}
-
-static void gfs_event_list_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_event_list_class ())->parent_class->write) (o, fp);
-  GfsEventList * l = GFS_EVENT_LIST (o);
-  if (l->klass)
-    fprintf (fp, " %s", l->klass->info.name);
-  fputs (" {\n", fp);
-  GSList * i = l->list->items;
-  while (i) {
-    fputs ("    ", fp);
-    (* GTS_OBJECT (i->data)->klass->write) (i->data, fp);
-    fputc ('\n', fp);
-    i = i->next;
-  }
-  fputc ('}', fp);
-}
-
-static void gfs_event_list_destroy (GtsObject * o)
-{
-  GfsEventList * l = GFS_EVENT_LIST (o);
-  gts_container_foreach (GTS_CONTAINER (l->list), (GtsFunc) gts_object_destroy, NULL);
-  gts_object_destroy (GTS_OBJECT (l->list));
-
-  (* GTS_OBJECT_CLASS (gfs_event_list_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_event_list_class_init (GfsEventClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_event_list_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_event_list_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_event_list_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_event_list_destroy;
-}
-
-static void gfs_event_list_init (GfsEventList * l)
-{
-  l->list = 
-    GTS_SLIST_CONTAINER (gts_container_new (GTS_CONTAINER_CLASS (gts_slist_container_class ())));
-}
-
-GfsEventClass * gfs_event_list_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_event_list_info = {
-      "GfsEventList",
-      sizeof (GfsEventList),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_event_list_class_init,
-      (GtsObjectInitFunc) gfs_event_list_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_event_list_info);
-  }
-
-  return klass;
-}
-
diff --git a/src/event.h b/src/event.h
deleted file mode 100644
index feec3df..0000000
--- a/src/event.h
+++ /dev/null
@@ -1,366 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __EVENT_H__
-#define __EVENT_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include <gts.h>
-
-typedef struct _GfsEvent                GfsEvent;
-typedef struct _GfsEventClass           GfsEventClass;
-
-struct _GfsEvent {
-  GtsSListContainee parent;
-
-  gdouble t, start, end, step;
-  guint i, istart, iend, istep;
-  
-  guint n;
-  gboolean end_event, realised, redo;
-};
-
-typedef struct _GfsSimulation           GfsSimulation;
-
-struct _GfsEventClass {
-  GtsSListContaineeClass parent_class;
-
-  gboolean (* event)      (GfsEvent * event, GfsSimulation * sim);
-  void     (* post_event) (GfsEvent * event, GfsSimulation * sim);
-  void     (* event_half) (GfsEvent * event, GfsSimulation * sim);
-};
-
-#include "simulation.h"
-
-#define GFS_EVENT(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsEvent,\
-					           gfs_event_class ())
-#define GFS_EVENT_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						   GfsEventClass,\
-						   gfs_event_class())
-#define GFS_IS_EVENT(obj)         (gts_object_is_from_class (obj,\
-						   gfs_event_class ()))
-
-GfsEventClass * gfs_event_class       (void);
-GfsEvent *      gfs_event_new         (GfsEventClass * klass);
-void            gfs_event_set         (GfsEvent * e, 
-				       gdouble start, 
-				       gdouble end, 
-				       gdouble step,
-				       gint istart, 
-				       gint iend, 
-				       gint istep);
-void            gfs_event_init        (GfsEvent * event,
-				       GfsSimulation * sim);
-void            gfs_event_do          (GfsEvent * event, 
-				       GfsSimulation * sim);
-void            gfs_event_redo        (GfsEvent * event, 
-				       GfsSimulation * sim);
-gdouble         gfs_event_next        (GfsEvent * event, 
-				       GfsSimulation * sim);
-void            gfs_event_half_do     (GfsEvent * event, 
-				       GfsSimulation * sim);
-#define         gfs_event_is_repetitive(e) ((e)->step < G_MAXDOUBLE || (e)->istep < G_MAXINT)
-
-/* GfsGenericInit: Header */
-
-typedef struct _GfsEvent      GfsGenericInit;
-typedef struct _GfsEventClass GfsGenericInitClass;
-
-#define GFS_IS_GENERIC_INIT(obj)         (gts_object_is_from_class (obj,\
-						 gfs_generic_init_class ()))
-
-GfsEventClass * gfs_generic_init_class         (void);
-
-/* GfsInit: Header */
-
-typedef struct _GfsInit         GfsInit;
-
-struct _GfsInit {
-  /*< private >*/
-  GfsGenericInit parent;
-  GSList * f;
-};
-
-#define GFS_INIT(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsInit,\
-					         gfs_init_class ())
-#define GFS_IS_INIT(obj)         (gts_object_is_from_class (obj,\
-						 gfs_init_class ()))
-
-GfsGenericInitClass * gfs_init_class  (void);
-
-/* GfsInitFlowConstant: Header */
-
-GfsEventClass * gfs_init_flow_constant_class  (void);
-
-#if FTT_2D
-
-/* GfsInitVorticity: Header */
-
-typedef struct _GfsInitVorticity         GfsInitVorticity;
-
-struct _GfsInitVorticity {
-  /*< private >*/
-  GfsGenericInit parent;
-  GfsVariable * vort, * stream, ** u;
-
-  /*< public >*/
-  GfsFunction * f;
-};
-
-#define GFS_INIT_VORTICITY(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsInitVorticity,\
-					         gfs_init_vorticity_class ())
-#define GFS_IS_INIT_VORTICITY(obj)         (gts_object_is_from_class (obj,\
-						 gfs_init_vorticity_class ()))
-
-GfsGenericInitClass * gfs_init_vorticity_class  (void);
-
-#endif /* FTT_2D */
-
-/* GfsEventSum: Header */
-
-typedef struct _GfsEventSum         GfsEventSum;
-
-struct _GfsEventSum {
-  GfsEvent parent;
-
-  GfsFunction * v;
-  GfsVariable * sv;
-  FttCellTraverseFunc sum;
-  gdouble last, dt;
-};
-
-#define GFS_EVENT_SUM(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsEventSum,\
-					         gfs_event_sum_class ())
-#define GFS_IS_EVENT_SUM(obj)         (gts_object_is_from_class (obj,\
-						 gfs_event_sum_class ()))
-
-GfsEventClass * gfs_event_sum_class  (void);
-
-/* GfsEventSumDirection: Header */
-
-typedef struct _GfsEventSumDirection         GfsEventSumDirection;
-
-struct _GfsEventSumDirection {
-  GfsEventSum parent;
-
-  FttDirection d;
-};
-
-#define GFS_EVENT_SUM_DIRECTION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsEventSumDirection,\
-					         gfs_event_sum_direction_class ())
-#define GFS_IS_EVENT_SUM_DIRECTION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_event_sum_direction_class ()))
-
-GfsEventClass * gfs_event_sum_direction_class  (void);
-
-/* GfsEventHarmonic: Header */
-
-typedef struct _GfsEventHarmonic         GfsEventHarmonic;
-
-struct _GfsEventHarmonic {
-  GfsEvent parent;
-
-  GArray * omega;
-  GfsVariable * v, * z, * e, ** A, ** B;
-  gdouble * vsin, * vcos, ** M, ** iM, ** Mn, * x, * a;
-  gchar * Aname, * Bname;
-  gboolean invertible;
-};
-
-#define GFS_EVENT_HARMONIC(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsEventHarmonic,\
-					         gfs_event_harmonic_class ())
-#define GFS_IS_EVENT_HARMONIC(obj)         (gts_object_is_from_class (obj,\
-						 gfs_event_harmonic_class ()))
-
-GfsEventClass * gfs_event_harmonic_class  (void);
-
-/* GfsEventStop: Header */
-
-typedef struct _GfsEventStop         GfsEventStop;
-
-struct _GfsEventStop {
-  GfsEvent parent;
-
-  GfsVariable * v, * oldv, * diff;
-  gdouble last, max;
-};
-
-#define GFS_EVENT_STOP(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsEventStop,\
-					         gfs_event_stop_class ())
-#define GFS_IS_EVENT_STOP(obj)         (gts_object_is_from_class (obj,\
-						 gfs_event_stop_class ()))
-
-GfsEventClass * gfs_event_stop_class  (void);
-
-/* GfsEventScript: Header */
-
-FILE * gfs_popen (GfsSimulation * sim, 
-		  const char * command, 
-		  const char * type);
-
-typedef struct _GfsEventScript         GfsEventScript;
-
-struct _GfsEventScript {
-  GfsEvent parent;
-
-  gchar * script;
-};
-
-#define GFS_EVENT_SCRIPT(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsEventScript,\
-					         gfs_event_script_class ())
-#define GFS_IS_EVENT_SCRIPT(obj)         (gts_object_is_from_class (obj,\
-						 gfs_event_script_class ()))
-#define GFS_EVENT_SCRIPT_STOP            64
-
-GfsEventClass * gfs_event_script_class  (void);
-
-/* GfsInitFraction: Header */
-
-typedef struct _GfsInitFraction         GfsInitFraction;
-
-struct _GfsInitFraction {
-  /*< private >*/
-  GfsGenericInit parent;
-
-  GfsVariable * c;
-  GfsGenericSurface * surface;
-};
-
-typedef struct _GfsInitFractionClass    GfsInitFractionClass;
-
-struct _GfsInitFractionClass {
-  /*< private >*/
-  GfsGenericInitClass parent_class;
-
-  /*< public >*/
-};
-
-#define GFS_INIT_FRACTION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsInitFraction,\
-					         gfs_init_fraction_class ())
-#define GFS_INIT_FRACTION_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 GfsInitFractionClass,\
-						 gfs_init_fraction_class())
-#define GFS_IS_INIT_FRACTION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_init_fraction_class ()))
-
-GfsInitFractionClass * gfs_init_fraction_class  (void);
-
-/* GfsRemoveDroplets: Header */
-
-typedef struct _GfsRemoveDroplets         GfsRemoveDroplets;
-
-struct _GfsRemoveDroplets {
-  /*< private >*/
-  GfsEvent parent;
-  GfsVariable * v;
-
-  /*< public >*/
-  GfsFunction * fc;
-  GfsVariable * c;
-  gint min;
-};
-
-#define GFS_REMOVE_DROPLETS(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsRemoveDroplets,\
-					         gfs_remove_droplets_class ())
-#define GFS_IS_REMOVE_DROPLETS(obj)         (gts_object_is_from_class (obj,\
-						 gfs_remove_droplets_class ()))
-
-GfsEventClass * gfs_remove_droplets_class  (void);
-
-/* GfsRemovePonds: Header */
-
-typedef struct _GfsRemovePonds         GfsRemovePonds;
-
-struct _GfsRemovePonds {
-  /*< private >*/
-  GfsGenericInit parent;
-
-  /*< public >*/
-  gint min;
-};
-
-#define GFS_REMOVE_PONDS(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsRemovePonds,\
-					         gfs_remove_ponds_class ())
-#define GFS_IS_REMOVE_PONDS(obj)         (gts_object_is_from_class (obj,\
-						 gfs_remove_ponds_class ()))
-
-GfsEventClass * gfs_remove_ponds_class  (void);
-
-/* GfsEventFilter: Header */
-
-typedef struct _GfsEventFilter         GfsEventFilter;
-
-struct _GfsEventFilter {
-  /*< private >*/
-  GfsEvent parent;
-  GfsVariable * tmp;
-
-  /*< public >*/
-  GfsVariable * v;
-  gdouble scale;
-};
-
-#define GFS_EVENT_FILTER(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsEventFilter,\
-					         gfs_event_filter_class ())
-#define GFS_IS_EVENT_FILTER(obj)         (gts_object_is_from_class (obj,\
-						 gfs_event_filter_class ()))
-
-GfsEventClass * gfs_event_filter_class  (void);
-
-/* GfsEventList: Header */
-
-typedef struct _GfsEventList         GfsEventList;
-
-struct _GfsEventList {
-  /*< private >*/
-  GfsEvent parent;
-
-  /*< public >*/
-  GtsObjectClass * klass;
-  GtsSListContainer * list;
-};
-
-#define GFS_EVENT_LIST(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsEventList,\
-					         gfs_event_list_class ())
-#define GFS_IS_EVENT_LIST(obj)         (gts_object_is_from_class (obj,\
-						 gfs_event_list_class ()))
-
-GfsEventClass * gfs_event_list_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __EVENT_H__ */
diff --git a/src/fluid.c b/src/fluid.c
deleted file mode 100644
index bb6e8af..0000000
--- a/src/fluid.c
+++ /dev/null
@@ -1,2754 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-
-#include <stdlib.h>
-
-#include "fluid.h"
-#include "variable.h"
-#include "domain.h"
-#include "solid.h"
-
-/**
- * gfs_cell_face:
- * @cell: a #FttCell.
- * @d: a direction.
- *
- * This function is different from ftt_cell_face() because it takes
- * into account the solid fractions.
- *
- * Returns: the face of @cell in direction @d.
- */
-FttCellFace gfs_cell_face (FttCell * cell,
-			   FttDirection d)
-{
-  FttCellFace f = {cell, NULL, d};
-
-  g_return_val_if_fail (cell != NULL, f);
-
-  if (!GFS_IS_MIXED (cell) || GFS_STATE (cell)->solid->s[d] > 0.)
-    f.neighbor = ftt_cell_neighbor (cell, d);
-  return f;
-}
-
-typedef struct _Gradient Gradient;
-
-/* grad(p) = -a*p(cell) + b*p(neighbor) + c */
-struct _Gradient {
-  gdouble a, b, c;
-};
-
-static gdouble average_neighbor_value (const FttCellFace * face,
-				       guint v,
-				       gdouble * x)
-{
-  /* check for corner refinement violation (topology.fig) */
-  g_assert (ftt_cell_level (face->neighbor) == ftt_cell_level (face->cell));
-  
-  if (FTT_CELL_IS_LEAF (face->neighbor))
-    return GFS_VARIABLE (face->neighbor, v);
-  else {
-    FttCellChildren children;
-    gdouble av = 0., a = 0.;
-    FttDirection od = FTT_OPPOSITE_DIRECTION (face->d);
-    guint i, n;
-    
-    n = ftt_cell_children_direction (face->neighbor, od, &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i]) {
-	gdouble w = GFS_IS_MIXED (children.c[i]) ? GFS_STATE (children.c[i])->solid->s[od] : 1.;
-	a += w;
-	av += w*GFS_VARIABLE (children.c[i], v);
-      }
-    if (a > 0.) {
-      *x = 3./4.;
-      return av/a;
-    }
-    else
-      return GFS_VARIABLE (face->cell, v);
-  }
-}
-
-static void average_neighbor_value_stencil (const FttCellFace * face, guint v)
-{
-  /* check for corner refinement violation (topology.fig) */
-  g_assert (ftt_cell_level (face->neighbor) == ftt_cell_level (face->cell));
-  
-  if (FTT_CELL_IS_LEAF (face->neighbor))
-    GFS_VARIABLE (face->neighbor, v) = 1.;
-  else {
-    FttCellChildren children;
-    gdouble a = 0.;
-    guint i, n;
-    
-    n = ftt_cell_children_direction (face->neighbor,
-				     FTT_OPPOSITE_DIRECTION (face->d),
-				     &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i]) {
-	a += 1.;
-	GFS_VARIABLE (children.c[i], v) = 1.;
-      }
-    if (a == 0.)
-      GFS_VARIABLE (face->cell, v) = 1.;
-  }
-}
-
-#if (FTT_2D || FTT_2D3)
-
-/* v = a*v(cell) + b 
- * 
- * Second order 1D interpolation.
- */
-static GfsGradient interpolate_1D2 (FttCell * cell,
-				    FttDirection d,
-				    gdouble x,
-				    guint v)
-{
-  GfsGradient p;
-  FttCellFace f1, f2;
-  gdouble p1 = 0., p2 = 0.;
-  gdouble x1 = 1., x2 = 1.;
-  gdouble a1, a2;
-
-  g_return_val_if_fail (cell != NULL, p);
-  g_return_val_if_fail (!GFS_IS_MIXED (cell), p);
-  
-  f1 = gfs_cell_face (cell, FTT_OPPOSITE_DIRECTION (d));
-  if (f1.neighbor)
-    p1 = average_neighbor_value (&f1, v, &x1);
-  f2 = gfs_cell_face (cell, d);
-  if (f2.neighbor)
-    p2 = average_neighbor_value (&f2, v, &x2);
-
-  a1 = x*(x - x2)/(x1*(x1 + x2));
-  a2 = x*(x + x1)/(x2*(x1 + x2));
-
-  p.a = 1. - a1 - a2;
-  p.b = 0.;
-  if (f1.neighbor)
-    p.b += a1*p1;
-  else
-    p.a += a1;
-  if (f2.neighbor)
-    p.b += a2*p2;
-  else
-    p.a += a2;
-
-  return p;
-}
-
-/* v = a*v(cell) + b 
- * 
- * First order 1D interpolation.
- */
-static GfsGradient interpolate_1D1 (FttCell * cell,
-				    FttDirection d,
-				    gdouble x,
-				    guint v)
-{
-  GfsGradient p;
-  FttCellFace f;
-
-  f = gfs_cell_face (cell, d);
-  if (f.neighbor) {
-    gdouble x2 = 1., p2 = average_neighbor_value (&f, v, &x2);
-    p.a = 1. - x/x2;
-    p.b = p2*x/x2;
-  }
-  else {
-    p.a = 1.;
-    p.b = 0.;
-  }
-
-  return p;
-}
-
-static void interpolate_1D1_stencil (FttCell * cell,
-				     FttDirection d,
-				     guint v)
-{
-  FttCellFace f;
-
-  GFS_VARIABLE (cell, v) = 1.;
-  f = ftt_cell_face (cell, d);
-  if (f.neighbor)
-    average_neighbor_value_stencil (&f, v);
-}
-
-#else /* not FTT_2D */
-
-/* v = a*v(cell) + b 
- * 
- * First order 2D interpolation.
- */
-static GfsGradient interpolate_2D1 (FttCell * cell,
-				    FttDirection d1, FttDirection d2,
-				    gdouble x, gdouble y,
-				    guint v)
-{
-  GfsGradient p;
-  gdouble y1 = 1.;
-  gdouble x2 = 1.;
-  gdouble p1 = 0., p2 = 0.;
-  gdouble a1, a2;
-  FttCellFace f1, f2;
-
-  f1 = gfs_cell_face (cell, d1);
-  if (f1.neighbor)
-    p1 = average_neighbor_value (&f1, v, &y1);
-  f2 = gfs_cell_face (cell, d2);
-  if (f2.neighbor)
-    p2 = average_neighbor_value (&f2, v, &x2);
-
-  a1 = y/y1;
-  a2 = x/x2;
-
-  p.a = 1. - a1 - a2;
-  p.b = 0.;
-  if (f1.neighbor)
-    p.b += a1*p1;
-  else
-    p.a += a1;
-  if (f2.neighbor)
-    p.b += a2*p2;
-  else
-    p.a += a2;
-  
-  return p;
-}
-
-static void interpolate_2D1_stencil (FttCell * cell,
-				     FttDirection d1, FttDirection d2,
-				     guint v)
-{
-  FttCellFace f1, f2;
-
-  GFS_VARIABLE (cell, v) = 1.;
-  f1 = ftt_cell_face (cell, d1);
-  if (f1.neighbor)
-    average_neighbor_value_stencil (&f1, v);
-  f2 = ftt_cell_face (cell, d2);
-  if (f2.neighbor)
-    average_neighbor_value_stencil (&f2, v);
-}
-
-#endif /* not FTT_2D */
-
-#if (FTT_2D || FTT_2D3)
-static gint perpendicular[FTT_NEIGHBORS][FTT_CELLS] = 
-  {{-1,  2, -1,  3},
-   { 2, -1,  3, -1},
-   { 1,  0, -1, -1},
-   {-1, -1,  1,  0}};
-#else  /* FTT_3D */
-static gint perpendicular[FTT_NEIGHBORS][FTT_CELLS][2] = 
-  {{{-1,-1},{2,4},{-1,-1},{3,4},{-1,-1},{2,5},{-1,-1},{3,5}},
-   {{2,4},{-1,-1},{3,4},{-1,-1},{2,5},{-1,-1},{3,5},{-1,-1}},
-   {{4,1},{4,0},{-1,-1},{-1,-1},{5,1},{5,0},{-1,-1},{-1,-1}},
-   {{-1,-1},{-1,-1},{4,1},{4,0},{-1,-1},{-1,-1},{5,1},{5,0}},
-   {{1,2},{0,2},{1,3},{0,3},{-1,-1},{-1,-1},{-1,-1},{-1,-1}},
-   {{-1,-1},{-1,-1},{-1,-1},{-1,-1},{1,2},{0,2},{1,3},{0,3}}};
-#endif /* FTT_3D */
-
-static Gradient gradient_fine_coarse (const FttCellFace * face, guint v)
-{
-  Gradient g;
-  GfsGradient p;
-#if (FTT_2D || FTT_2D3)
-  gint dp;
-#else  /* FTT_3D */
-  gint * dp;
-#endif /* FTT_3D */
-
-  g_assert (face != NULL);
-  g_assert (ftt_face_type (face) == FTT_FINE_COARSE);
-
-  dp = perpendicular[face->d][FTT_CELL_ID (face->cell)];
-#if (FTT_2D || FTT_2D3)
-  g_assert (dp >= 0);
-  p = interpolate_1D1 (face->neighbor, dp, 1./4., v);
-#else  /* FTT_3D */
-  g_assert (dp[0] >= 0 && dp[1] >= 0);
-  p = interpolate_2D1 (face->neighbor, dp[0], dp[1], 1./4., 1./4., v);
-#endif /* FTT_3D */
-
-  g.a = 2./3.;
-  g.b = 2.*p.a/3.;
-  g.c = 2.*p.b/3.;
-
-  return g;
-}
-
-#define REFINE_CORNER(cell) {if (cell && FTT_CELL_IS_LEAF (cell) && \
-                              ftt_cell_level (cell) < level - 1) \
-	                    ftt_cell_refine_single (cell, init, data);}
-
-void ftt_cell_refine_corners (FttCell * cell,
-			      FttCellInitFunc init,
-			      gpointer data)
-{
-  FttDirection d;
-  FttCellNeighbors neighbor;
-  guint level;
-
-  g_return_if_fail (cell != NULL);
-
-  level = ftt_cell_level (cell);
-  ftt_cell_neighbors (cell, &neighbor);
-#if FTT_2D3
-  for (d = 0; d < FTT_NEIGHBORS_2D; d++)
-#else /* 2D && 3D */
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-#endif  /* 2D && 3D */
-    if (neighbor.c[d] && ftt_cell_level (neighbor.c[d]) < level) {
-      if (GFS_CELL_IS_BOUNDARY (neighbor.c[d]))
-	ftt_cell_refine_single (neighbor.c[d], init, data);
-      else {
-	FttCell * n;
-#if (FTT_2D || FTT_2D3)
-	gint dp;
-#else  /* FTT_3D */
-	gint * dp;
-#endif /* FTT_3D */
-	
-	dp = perpendicular[d][FTT_CELL_ID (cell)];
-#if (FTT_2D || FTT_2D3)
-	g_assert (dp >= 0);
-	n = ftt_cell_neighbor (neighbor.c[d], dp);
-	REFINE_CORNER (n)
-#else  /* FTT_3D */
-	g_assert (dp[0] >= 0 && dp[1] >= 0);
-	n = ftt_cell_neighbor (neighbor.c[d], dp[0]);
-	REFINE_CORNER (n)
-	n = ftt_cell_neighbor (neighbor.c[d], dp[1]);
-	REFINE_CORNER (n)
-#endif /* FTT_3D */
-      }
-    }
-}
-
-static gdouble neighbor_value (const FttCellFace * face,
-			       guint v,
-			       gdouble * x)
-{
-  GfsGradient vc;
-#if (FTT_2D || FTT_2D3)
-  gint dp;
-#else  /* FTT_3D */
-  gint * dp;
-#endif /* FTT_3D */
-
-  if (ftt_cell_level (face->neighbor) == ftt_cell_level (face->cell))
-    /* neighbor at same level */
-    return average_neighbor_value (face, v, x);
-  else {
-    /* neighbor at coarser level */
-    dp = perpendicular[face->d][FTT_CELL_ID (face->cell)];
-#if (FTT_2D || FTT_2D3)
-    g_assert (dp >= 0);
-    vc = interpolate_1D1 (face->neighbor, dp, 1./4., v);
-#else  /* FTT_3D */
-    g_assert (dp[0] >= 0 && dp[1] >= 0);
-    vc = interpolate_2D1 (face->neighbor, dp[0], dp[1], 1./4., 1./4., v);
-#endif /* FTT_3D */
-    *x = 3./2.;
-    return vc.a*GFS_VARIABLE (face->neighbor, v) + vc.b;
-  }
-}
-
-static void neighbor_value_stencil (const FttCellFace * face, guint v)
-{
-#if (FTT_2D || FTT_2D3)
-  gint dp;
-#else  /* FTT_3D */
-  gint * dp;
-#endif /* FTT_3D */
-
-  if (ftt_cell_level (face->neighbor) == ftt_cell_level (face->cell))
-    /* neighbor at same level */
-    average_neighbor_value_stencil (face, v);
-  else {
-    /* neighbor at coarser level */
-    dp = perpendicular[face->d][FTT_CELL_ID (face->cell)];
-#if (FTT_2D || FTT_2D3)
-    g_assert (dp >= 0);
-    interpolate_1D1_stencil (face->neighbor, dp, v);
-#else  /* FTT_3D */
-    g_assert (dp[0] >= 0 && dp[1] >= 0);
-    interpolate_2D1_stencil (face->neighbor, dp[0], dp[1], v);
-#endif /* FTT_3D */
-    GFS_VARIABLE (face->neighbor, v) = 1.;
-  }
-}
-
-/**
- * gfs_center_gradient:
- * @cell: a #FttCell.
- * @c: a component.
- * @v: a #GfsVariable index.
- *
- * The gradient is normalized by the size of the cell.
- *
- * Returns: the value of the @c component of the gradient of variable @v
- * at the center of the cell.  
- */
-gdouble gfs_center_gradient (FttCell * cell,
-			     FttComponent c,
-			     guint v)
-{
-  FttDirection d = 2*c;
-  FttCellFace f1;
-  gdouble v0;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (c < FTT_DIMENSION, 0.);
-
-  f1 = gfs_cell_face (cell, FTT_OPPOSITE_DIRECTION (d));
-  v0 = GFS_VARIABLE (cell, v);
-  if (f1.neighbor) {
-    FttCellFace f2 = gfs_cell_face (cell, d);
-    gdouble x1 = 1., v1;
-    
-    v1 = neighbor_value (&f1, v, &x1);
-    if (f2.neighbor) {
-      /* two neighbors: second-order differencing (parabola) */
-      gdouble x2 = 1., v2;
-      
-      v2 = neighbor_value (&f2, v, &x2);
-      return (x1*x1*(v2 - v0) + x2*x2*(v0 - v1))/(x1*x2*(x2 + x1));
-    }
-    else
-      /* one neighbor: first-order differencing */
-      return (v0 - v1)/x1;
-  }
-  else {
-    FttCellFace f2 = gfs_cell_face (cell, d);
-
-    if (f2.neighbor) {
-      gdouble x2 = 1.;
-      
-      /* one neighbor: first-order differencing */
-      return (neighbor_value (&f2, v, &x2) - v0)/x2;
-    }
-  }
-  /* no neighbors */
-  return 0.;
-}
-
-/**
- * gfs_center_gradient_stencil:
- * @cell: a #FttCell.
- * @c: a component.
- * @v: a #GfsVariable index.
- *
- * Sets to 1. the @v variable of all the cells which would be used if
- * gfs_center_gradient() was called with identical arguments.
- */
-void gfs_center_gradient_stencil (FttCell * cell,
-				  FttComponent c,
-				  guint v)
-{
-  FttDirection d = 2*c;
-  FttCellFace f1, f2;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (c < FTT_DIMENSION);
-
-  f1 = ftt_cell_face (cell, FTT_OPPOSITE_DIRECTION (d));
-  if (f1.neighbor == cell) /* periodic */
-    return;
-  if (f1.neighbor) {
-    GFS_VARIABLE (cell, v) = 1.;
-    neighbor_value_stencil (&f1, v);
-  }
-  f2 = ftt_cell_face (cell, d);
-  if (f2.neighbor) {
-    GFS_VARIABLE (cell, v) = 1.;
-    neighbor_value_stencil (&f2, v);
-  }
-}
-
-/**
- * gfs_center_van_leer_gradient:
- * @cell: a #FttCell.
- * @c: a component.
- * @v: a #GfsVariable index.
- *
- * The gradient is normalized by the size of the cell and is limited
- * using van Leer's limiter.
- *
- * Returns: the value of the @c component of the gradient of variable @v
- * at the center of the cell.  
- */
-gdouble gfs_center_van_leer_gradient (FttCell * cell,
-				      FttComponent c,
-				      guint v)
-{
-  FttDirection d = 2*c;
-  FttCellFace f1;
-  
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (c < FTT_DIMENSION, 0.);
-
-  f1 = gfs_cell_face (cell, FTT_OPPOSITE_DIRECTION (d));
-  if (f1.neighbor) {
-    FttCellFace f2 = gfs_cell_face (cell, d);
-    
-    if (f2.neighbor) {
-      /* two neighbors: second-order differencing (parabola)
-	 + van Leer limiter */
-      gdouble x1 = 1., x2 = 1., v0, v1, v2;
-      gdouble s0, s1, s2;
-      
-      v0 = GFS_VARIABLE (cell, v);
-      v1 = neighbor_value (&f1, v, &x1);
-      v2 = neighbor_value (&f2, v, &x2);
-
-      s1 = 2.*(v0 - v1);
-      s2 = 2.*(v2 - v0);
-
-      if (s1*s2 <= 0.)
-	return 0.;
-      s0 = (x1*x1*(v2 - v0) + x2*x2*(v0 - v1))/(x1*x2*(x2 + x1));
-      if (ABS (s2) < ABS (s1))
-	s1 = s2;
-      if (ABS (s0) < ABS (s1))
-	return s0;
-      return s1;
-    }
-  }
-  /* only one or no neighbors */
-  return 0.;
-}
-
-static gdouble limiter (gdouble r, gdouble beta)
-{
-  gdouble v1 = MIN (r, beta), v2 = MIN (beta*r, 1.);
-  v1 = MAX (0., v1);
-  return MAX (v1, v2);
-}
-
-/**
- * gfs_center_minmod_gradient:
- * @cell: a #FttCell.
- * @c: a component.
- * @v: a #GfsVariable index.
- *
- * The gradient is normalized by the size of the cell and is limited
- * using a minmod limiter.
- *
- * Returns: the value of the @c component of the gradient of variable @v
- * at the center of the cell.  
- */
-gdouble gfs_center_minmod_gradient (FttCell * cell,
-				    FttComponent c,
-				    guint v)
-{
-  FttDirection d = 2*c;
-  FttCellFace f1;
-  gdouble v0;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (c < FTT_DIMENSION, 0.);
-
-  f1 = gfs_cell_face (cell, FTT_OPPOSITE_DIRECTION (d));
-  v0 = GFS_VARIABLE (cell, v);
-  if (f1.neighbor) {
-    FttCellFace f2 = gfs_cell_face (cell, d);
-    if (f2.neighbor) {
-      /* two neighbors */
-      gdouble x1 = 1., v1, x2 = 1., v2;
-      v1 = neighbor_value (&f1, v, &x1);
-      v2 = neighbor_value (&f2, v, &x2);
-
-      gdouble g;
-      if (v0 == v1)
-	g = 0.;
-      else
-	g = limiter ((v2 - v0)*x1/((v0 - v1)*x2), 1.)*(v0 - v1)/x1;
-      return g;
-    }
-  }
-  /* only one or no neighbors */
-  return 0.;
-}
-
-/**
- * gfs_center_regular_gradient:
- * @cell: a #FttCell.
- * @c: a component.
- * @v: a #GfsVariable.
- *
- * The gradient is normalized by the size of the cell. Only regular
- * Cartesian stencils are used to compute the gradient.
- *
- * Returns: the value of the @c component of the gradient of variable @v
- * at the center of the cell. 
- */
-gdouble gfs_center_regular_gradient (FttCell * cell,
-				     FttComponent c,
-				     GfsVariable * v)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (c < FTT_DIMENSION, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  FttCell * n1 = ftt_cell_neighbor (cell, 2*c);
-  guint level = ftt_cell_level (cell);
-  if (n1) {
-    if (ftt_cell_level (n1) < level)
-      return gfs_center_regular_gradient (ftt_cell_parent (cell), c, v)/2.;
-    FttCell * n2 = ftt_cell_neighbor (cell, 2*c + 1);
-    if (n2) {
-      if (ftt_cell_level (n2) < level)
-	return gfs_center_regular_gradient (ftt_cell_parent (cell), c, v)/2.;
-      /* two neighbors: second-order differencing (parabola) */
-      return (GFS_VALUE (n1, v) - GFS_VALUE (n2, v))/2.;
-    }
-    else
-      /* one neighbor: first-order differencing */
-      return GFS_VALUE (n1, v) - GFS_VALUE (cell, v);
-  }
-  else {
-    FttCell * n2 = ftt_cell_neighbor (cell, 2*c + 1);
-    if (n2) {
-      if (ftt_cell_level (n2) < level)
-	return gfs_center_regular_gradient (ftt_cell_parent (cell), c, v)/2.;
-      /* one neighbor: first-order differencing */
-      return GFS_VALUE (cell, v) - GFS_VALUE (n2, v);
-    }
-  }
-  /* no neighbors */
-  return 0.;
-}
-
-/**
- * gfs_center_regular_2nd_derivative:
- * @cell: a #FttCell.
- * @c: a component.
- * @v: a #GfsVariable.
- *
- * The derivative is normalized by the size of the cell squared. Only
- * regular Cartesian stencils are used to compute the derivative.
- *
- * Returns: the value of the @c component of the 2nd derivative of
- * variable @v at the center of the cell.
- */
-gdouble gfs_center_regular_2nd_derivative (FttCell * cell, 
-					   FttComponent c, 
-					   GfsVariable * v)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (c < FTT_DIMENSION, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  FttCell * n1 = ftt_cell_neighbor (cell, 2*c);
-  FttCell * n2 = ftt_cell_neighbor (cell, 2*c + 1);
-  if (n1 && n2) {
-    guint level = ftt_cell_level (cell);
-    if (ftt_cell_level (n1) < level || ftt_cell_level (n2) < level)
-      return gfs_center_regular_2nd_derivative (ftt_cell_parent (cell), c, v)/4.;
-    return GFS_VALUE (n1, v) - 2.*GFS_VALUE (cell, v) + GFS_VALUE (n2, v);
-  }
-  /* one or no neighbors */
-  return 0.;
-}
-
-/**
- * gfs_face_gradient:
- * @face: a #FttCellFace.
- * @g: the #GfsGradient.
- * @v: a #GfsVariable index.
- * @max_level: the maximum cell level to consider (-1 means no restriction).
- *
- * Set the value of @g as the gradient of variable @v on the
- * @face. The value returned is second order accurate in space and
- * conservative, in the sense that values at a coarse/fine cell
- * boundary are consistent.
- *
- * The value of the gradient (normalised by the size of @face->cell)
- * is given by: @g->b - @g->a*GFS_VARIABLE (@face->cell, @v).
- */
-void gfs_face_gradient (const FttCellFace * face,
-			GfsGradient * g,
-			guint v,
-			gint max_level)
-{
-  guint level;
-
-  g_return_if_fail (face != NULL);
-
-  g->a = g->b = 0.;
-  if (face->neighbor == NULL || GFS_FACE_FRACTION (face) == 0.)
-    return;
-
-  level = ftt_cell_level (face->cell);
-  if (ftt_cell_level (face->neighbor) < level) {
-    /* neighbor is at a shallower level */
-    Gradient gcf;
-
-    gcf = gradient_fine_coarse (face, v);
-    g->a = gcf.a;
-    g->b = gcf.b*GFS_VARIABLE (face->neighbor, v) + gcf.c;
-  }
-  else {
-    if (level == max_level || FTT_CELL_IS_LEAF (face->neighbor)) {
-      /* neighbor is at the same level */
-      g->a = 1.;
-      g->b = GFS_VARIABLE (face->neighbor, v);
-    }
-    else {
-      /* neighbor is at a deeper level */
-      FttCellChildren children;
-      FttCellFace f;
-      guint i, n;
-      gdouble s;
-      
-      f.d = FTT_OPPOSITE_DIRECTION (face->d);
-      n = ftt_cell_children_direction (face->neighbor, f.d, &children);
-      f.neighbor = face->cell;
-      for (i = 0; i < n; i++)
-	if ((f.cell = children.c[i])) {
-	  Gradient gcf;
-	  gcf = gradient_fine_coarse (&f, v);
-	  s = GFS_FACE_FRACTION (&f);
-	  g->a += s*gcf.b;
-	  g->b += s*(gcf.a*GFS_VARIABLE (f.cell, v) - gcf.c);
-	}
-      s = GFS_FACE_FRACTION (face)*n/2.;
-      g->a /= s;
-      g->b /= s;
-    }
-  }
-}
-
-static void face_weighted_gradient (const FttCellFace * face,
-				    GfsGradient * g,
-				    guint v,
-				    gint max_level,
-				    guint dimension)
-{
-  guint level;
-
-  g_return_if_fail (face != NULL);
-
-  g->a = g->b = 0.;
-  if (face->neighbor == NULL)
-    return;
-
-  level = ftt_cell_level (face->cell);
-  if (ftt_cell_level (face->neighbor) < level) {
-    /* neighbor is at a shallower level */
-    Gradient gcf;
-    gdouble w = GFS_STATE (face->cell)->f[face->d].v;
-
-    gcf = gradient_fine_coarse (face, v);
-    g->a = w*gcf.a;
-    g->b = w*(gcf.b*GFS_VARIABLE (face->neighbor, v) + gcf.c);
-  }
-  else {
-    if (level == max_level || FTT_CELL_IS_LEAF (face->neighbor)) {
-      /* neighbor is at the same level */
-      gdouble w = GFS_STATE (face->cell)->f[face->d].v;
-
-      g->a = w;
-      g->b = w*GFS_VARIABLE (face->neighbor, v);
-    }
-    else {
-      /* neighbor is at a deeper level */
-      FttCellChildren children;
-      FttCellFace f;
-      guint i, n;
-      
-      f.d = FTT_OPPOSITE_DIRECTION (face->d);
-      n = ftt_cell_children_direction (face->neighbor, f.d, &children);
-      f.neighbor = face->cell;
-      for (i = 0; i < n; i++) 
-	if ((f.cell = children.c[i])) {
-	  Gradient gcf;
-	  gdouble w = GFS_STATE (f.cell)->f[f.d].v;
-	
-	  gcf = gradient_fine_coarse (&f, v);
-	  g->a += w*gcf.b;
-	  g->b += w*(gcf.a*GFS_VARIABLE (f.cell, v) - gcf.c);
-	}
-      if (dimension > 2) {
-	/* fixme??? */
-	g->a /= n/2.;
-	g->b /= n/2.;
-      }
-    }
-  }
-}
-
-/**
- * gfs_face_weighted_gradient:
- * @face: a #FttCellFace.
- * @g: the #GfsGradient.
- * @v: a #GfsVariable index.
- * @max_level: the maximum cell level to consider (-1 means no restriction).
- *
- * Set the value of @g as the gradient of variable @v on the @face
- * weighted by the value of the @v field of the face state vector of the
- * corresponding cell. The value returned is second order accurate in
- * space and conservative, in the sense that values at a coarse/fine
- * cell boundary are consistent.  
- */
-void gfs_face_weighted_gradient (const FttCellFace * face,
-				 GfsGradient * g,
-				 guint v,
-				 gint max_level)
-{
-  face_weighted_gradient (face, g, v, max_level, FTT_DIMENSION);
-}
-
-void gfs_face_weighted_gradient_2D (const FttCellFace * face,
-				    GfsGradient * g,
-				    guint v,
-				    gint max_level)
-{
-  face_weighted_gradient (face, g, v, max_level, 2);
-}
-
-static void fullest_directions (const FttCellFace * face,
-				FttDirection d[FTT_DIMENSION])
-{
-  FttComponent c = face->d/2, i;
-  FttCell * mixed = GFS_IS_MIXED (face->cell) ? face->cell : face->neighbor;
-  GfsSolidVector * s = GFS_STATE (mixed)->solid;
-
-  d[0] = face->d;
-  for (i = 1; i < FTT_DIMENSION; i++) {
-    guint cp = (c + i) % FTT_DIMENSION;
-    d[i] = s->s[2*cp] > s->s[2*cp + 1] ? 2*cp : 2*cp + 1;
-  }
-}
-
-static FttCell * cell_corner_neighbor1 (FttCell * cell,
-					FttDirection * d,
-					gint max_level)
-{
-  if (!cell)
-    return NULL;
-  FttCell * neighbor = ftt_cell_neighbor (cell, d[0]);
-  if (!neighbor)
-    return NULL;
-  else {
-    guint level = ftt_cell_level (cell);
-    if (ftt_cell_level (neighbor) < level)
-      /* neighbor is at a shallower level */
-      return neighbor;
-    else {
-      if (level == max_level || FTT_CELL_IS_LEAF (neighbor))
-	/* neighbor is at the same level */
-	return neighbor;
-      else {
-	/* neighbor is at a deeper level */
-	guint i;
-	FttDirection d1[FTT_DIMENSION];
-	d1[0] = FTT_OPPOSITE_DIRECTION (d[0]);
-	for (i = 1; i < FTT_DIMENSION; i++)
-	  d1[i] = d[i];
-	return ftt_cell_child_corner (neighbor, d1);
-      }
-    }
-  }
-}
-
-#if FTT_2D
-# define N_CELLS 4
-#else  /* 2D3 and 3D */
-# define N_CELLS 8
-#endif /* 2D3 and 3D */
-
-static gboolean inverse (gdouble mi[N_CELLS - 1][N_CELLS - 1])
-{
-#if FTT_2D
-  gdouble m[N_CELLS - 1][N_CELLS - 1], det;
-  guint i, j;
-  
-  for (i = 0; i < N_CELLS - 1; i++)
-    for (j = 0; j < N_CELLS - 1; j++)
-      m[i][j] = mi[i][j];
-  
-  det = (m[0][0]*(m[1][1]*m[2][2] - m[2][1]*m[1][2]) -
-	 m[0][1]*(m[1][0]*m[2][2] - m[2][0]*m[1][2]) +
-	 m[0][2]*(m[1][0]*m[2][1] - m[2][0]*m[1][1]));
-  if (det == 0.)
-    return FALSE;
-  
-  mi[0][0] = (m[1][1]*m[2][2] - m[1][2]*m[2][1])/det; 
-  mi[0][1] = (m[2][1]*m[0][2] - m[0][1]*m[2][2])/det;
-  mi[0][2] = (m[0][1]*m[1][2] - m[1][1]*m[0][2])/det; 
-  mi[1][0] = (m[1][2]*m[2][0] - m[1][0]*m[2][2])/det; 
-  mi[1][1] = (m[0][0]*m[2][2] - m[2][0]*m[0][2])/det; 
-  mi[1][2] = (m[1][0]*m[0][2] - m[0][0]*m[1][2])/det; 
-  mi[2][0] = (m[1][0]*m[2][1] - m[2][0]*m[1][1])/det; 
-  mi[2][1] = (m[2][0]*m[0][1] - m[0][0]*m[2][1])/det; 
-  mi[2][2] = (m[0][0]*m[1][1] - m[0][1]*m[1][0])/det; 
-#else /* 3D */
-  gint indxc[N_CELLS - 1], indxr[N_CELLS - 1], ipiv[N_CELLS - 1];
-  gint i, icol = 0, irow = 0, j, k, l, ll;
-  gdouble big, dum, pivinv, temp;
-  
-#define SWAP(a,b) {temp=(a);(a)=(b);(b)=temp;}
-
-  for (j = 0; j < N_CELLS - 1; j++) 
-    ipiv[j] = -1;
-
-  for (i = 0; i < N_CELLS - 1; i++) {
-    big = 0.0;
-    for (j = 0; j < N_CELLS - 1; j++)
-      if (ipiv[j] != 0)
-	for (k = 0; k < N_CELLS - 1; k++) {
-	  if (ipiv[k] == -1) {
-	    if (fabs (mi[j][k]) >= big) {
-	      big = fabs (mi[j][k]);
-	      irow = j;
-	      icol = k;
-	    }
-	  }
-	}
-    ipiv[icol]++;
-    if (irow != icol)
-      for (l = 0; l < N_CELLS - 1; l++) 
-	SWAP (mi[irow][l], mi[icol][l]);
-    indxr[i] = irow;
-    indxc[i] = icol;
-    if (mi[icol][icol] == 0.)
-      return FALSE;
-    pivinv = 1.0/mi[icol][icol];
-    mi[icol][icol] = 1.0;
-    for (l = 0; l < N_CELLS - 1; l++) mi[icol][l] *= pivinv;
-    for (ll = 0; ll < N_CELLS - 1; ll++)
-      if (ll != icol) {
-	dum = mi[ll][icol];
-	mi[ll][icol] = 0.0;
-	for (l = 0; l < N_CELLS - 1; l++)
-	  mi[ll][l] -= mi[icol][l]*dum;
-      }
-  }
-  for (l = N_CELLS - 1 - 1; l >= 0; l--) {
-    if (indxr[l] != indxc[l])
-      for (k = 0; k < N_CELLS - 1; k++)
-	SWAP (mi[k][indxr[l]], mi[k][indxc[l]]);
-  }
-#endif /* 3D */
-  return TRUE;
-}
-
-#if (!FTT_2D)
-static void draw_cell (FttCell * cell, gdouble r, gdouble g, gdouble b,
-		       const gchar * name)
-{
-  FttVector p;
-  gdouble size = ftt_cell_size (cell)/2.;
-
-  ftt_cell_pos (cell, &p);
-  fprintf (stderr,
-	   "(geometry \"%s\" = OFF 8 6 12\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "4 3 2 1 0 %g %g %g\n"
-	   "4 4 5 6 7 %g %g %g\n"
-	   "4 2 3 7 6 %g %g %g\n"
-	   "4 0 1 5 4 %g %g %g\n"
-	   "4 0 4 7 3 %g %g %g\n"
-	   "4 1 2 6 5 %g %g %g\n"
-	   ")\n",
-	   name,
-	   p.x - size, p.y - size, p.z - size,
-	   p.x + size, p.y - size, p.z - size,
-	   p.x + size, p.y + size, p.z - size,
-	   p.x - size, p.y + size, p.z - size,
-	   p.x - size, p.y - size, p.z + size,
-	   p.x + size, p.y - size, p.z + size,
-	   p.x + size, p.y + size, p.z + size,
-	   p.x - size, p.y + size, p.z + size,
-	   r, g, b,
-	   r, g, b,
-	   r, g, b,
-	   r, g, b,
-	   r, g, b,
-	   r, g, b);
-  gfs_cell_cm (cell, &p);
-  size /= 8.;
-  fprintf (stderr,
-	   "(geometry \"cm %s\" = OFF 8 6 12\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "4 3 2 1 0 %g %g %g\n"
-	   "4 4 5 6 7 %g %g %g\n"
-	   "4 2 3 7 6 %g %g %g\n"
-	   "4 0 1 5 4 %g %g %g\n"
-	   "4 0 4 7 3 %g %g %g\n"
-	   "4 1 2 6 5 %g %g %g\n"
-	   ")\n",
-	   name,
-	   p.x - size, p.y - size, p.z - size,
-	   p.x + size, p.y - size, p.z - size,
-	   p.x + size, p.y + size, p.z - size,
-	   p.x - size, p.y + size, p.z - size,
-	   p.x - size, p.y - size, p.z + size,
-	   p.x + size, p.y - size, p.z + size,
-	   p.x + size, p.y + size, p.z + size,
-	   p.x - size, p.y + size, p.z + size,
-	   r, g, b,
-	   r, g, b,
-	   r, g, b,
-	   r, g, b,
-	   r, g, b,
-	   r, g, b);
-}
-
-static void output_error_mesh (FttCell ** n)
-{
-  draw_cell (n[0], 0., 0., 0., "n0");
-  draw_cell (n[1], 0.5, 0., 0., "n1");
-  draw_cell (n[2], 0., 0.5, 0., "n2");
-  draw_cell (n[3], 0., 0., 0.5, "n3");
-  draw_cell (n[4], 1., 1., 1., "n4");
-  draw_cell (n[5], 1., 0., 0., "n5");
-  draw_cell (n[6], 0., 1., 0., "n6");
-  draw_cell (n[7], 0., 0., 1., "n7");
-  g_assert_not_reached ();
-}
-#endif /* 3D */
-
-static gboolean face_bilinear (const FttCellFace * face,
-			       FttCell ** n,
-			       FttVector * o,
-			       void (*cell_pos) (const FttCell *, FttVector *),
-			       gint max_level,
-			       gdouble m[N_CELLS - 1][N_CELLS - 1])
-{
-  FttDirection d[3], d1[3];
-  guint i;
-  gdouble size = ftt_cell_size (face->cell);
-
-  fullest_directions (face, d);
-  n[0] = face->cell; n[1] = face->neighbor;
-  d1[0] = d[1]; d1[1] = d[0]; d1[2] = d[2];
-  if ((n[2] = cell_corner_neighbor1 (n[0], d1, max_level)) == NULL)
-    return FALSE;
-  d1[1] = FTT_OPPOSITE_DIRECTION (d[0]);
-  if ((n[3] = cell_corner_neighbor1 (n[1], d1, max_level)) == NULL)
-    return FALSE;
-  if (n[3] == n[2]) {
-    d1[0] = d[0]; d1[1] = FTT_OPPOSITE_DIRECTION (d[1]);
-    if ((n[3] = cell_corner_neighbor1 (n[2], d1, max_level)) == NULL)
-      return FALSE;
-  }
-
-#if FTT_2D
-  for (i = 0; i < 3; i++) {
-    FttVector cm;
-    guint j;
-
-    (*cell_pos) (n[i + 1], &cm);
-
-    for (j = 0; j < FTT_DIMENSION; j++) {
-      (&cm.x)[j] -= (&o->x)[j];
-      (&cm.x)[j] /= size;
-      g_assert (fabs ((&cm.x)[j]) <= 4.);
-    }
-
-    m[i][0] = cm.x;
-    m[i][1] = cm.y; 
-    m[i][2] = cm.x*cm.y;
-  }
-  g_assert (inverse (m));
-#else /* 3D */
-  d1[0] = d[2]; d1[1] = d[0]; d1[2] = d[1];
-  if ((n[4] = cell_corner_neighbor1 (n[0], d1, max_level)) == NULL)
-    return FALSE;
-  d1[1] = FTT_OPPOSITE_DIRECTION (d[0]);
-  if ((n[5] = cell_corner_neighbor1 (n[1], d1, max_level)) == NULL)
-    return FALSE;
-  if (n[5] == n[4]) {
-    d1[0] = d[0]; d1[1] = d[1]; d1[2] = FTT_OPPOSITE_DIRECTION (d[2]);
-    if ((n[5] = cell_corner_neighbor1 (n[4], d1, max_level)) == NULL)
-      return FALSE;
-  }
-  d1[0] = d[2]; d1[1] = d[0]; d1[2] = FTT_OPPOSITE_DIRECTION (d[1]);
-  if ((n[6] = cell_corner_neighbor1 (n[2], d1, max_level)) == NULL)
-    return FALSE;
-  if (n[6] == n[4]) {
-    d1[0] = d[1]; d1[1] = d[0]; d1[2] = FTT_OPPOSITE_DIRECTION (d[2]);
-    if ((n[6] = cell_corner_neighbor1 (n[4], d1, max_level)) == NULL)
-      return FALSE;
-  }
-  d1[0] = d[2]; d1[1] = FTT_OPPOSITE_DIRECTION (d[0]); d1[2] = FTT_OPPOSITE_DIRECTION (d[1]);
-  if ((n[7] = cell_corner_neighbor1 (n[3], d1, max_level)) == NULL)
-    return FALSE;
-  if (n[7] == n[4] || n[7] == n[5]) {
-    d1[0] = d[1]; d1[2] = FTT_OPPOSITE_DIRECTION (d[2]);
-    if ((n[7] = cell_corner_neighbor1 (n[5], d1, max_level)) == NULL)
-      return FALSE;
-  }
-  if (n[7] == n[6]) {
-    d1[0] = d[0]; d1[1] = FTT_OPPOSITE_DIRECTION (d[1]); d1[2] = FTT_OPPOSITE_DIRECTION (d[2]);
-    if ((n[7] = cell_corner_neighbor1 (n[6], d1, max_level)) == NULL)
-      return FALSE;
-  }
-
-  for (i = 0; i < 7; i++) {
-    FttVector cm;
-    guint j;
-
-    for (j = i + 1; j < 7; j++)
-      if (n[i + 1] == n[j + 1])
-	output_error_mesh (n);
-
-    (*cell_pos) (n[i + 1], &cm);
-
-    for (j = 0; j < FTT_DIMENSION; j++) {
-      (&cm.x)[j] -= (&o->x)[j];
-      (&cm.x)[j] /= size;
-      if (fabs ((&cm.x)[j]) > 4.)
-	output_error_mesh (n);
-    }
-
-    m[i][0] = cm.x;
-    m[i][1] = cm.y; 
-    m[i][2] = cm.z;
-    m[i][3] = cm.x*cm.y;
-    m[i][4] = cm.x*cm.z;
-    m[i][5] = cm.y*cm.z;
-    m[i][6] = cm.x*cm.y*cm.z;
-  }
-  if (!inverse (m))
-    output_error_mesh (n);
-#endif /* 3D */
-
-  return TRUE;
-}
-
-/* grad(v) = -a*v(cell) + b*v(neighbor) + c */
-static gboolean mixed_face_gradient (const FttCellFace * face,
-				     Gradient * g,
-				     guint v,
-				     gint max_level)
-{
-  FttCell * n[N_CELLS];
-  gdouble m[N_CELLS - 1][N_CELLS - 1];
-  FttVector o, cm;
-  FttComponent c = face->d/2;
-  gdouble h = ftt_cell_size (face->cell);
-
-  gfs_cell_cm (face->cell, &o);
-  if (!face_bilinear (face, n, &o, gfs_cell_cm, max_level, m))
-    return FALSE;
-
-  gfs_face_ca (face, &cm);
-
-#if FTT_2D
-  {
-    FttComponent cp = FTT_ORTHOGONAL_COMPONENT (c);
-    gdouble vp;
-    
-    vp = ((&cm.x)[cp] - (&o.x)[cp])/h;
-    g->a = ((m[c][0] + m[2][0]*vp) +
-	    (m[c][1] + m[2][1]*vp) +
-	    (m[c][2] + m[2][2]*vp));
-    g->b = m[c][0] + m[2][0]*vp;
-    g->c = ((m[c][1] + m[2][1]*vp)*GFS_VARIABLE (n[2], v) +
-	    (m[c][2] + m[2][2]*vp)*GFS_VARIABLE (n[3], v));
-  }
-#else /* 3D */
-  {
-    guint j;
-
-    cm.x = (cm.x - o.x)/h;
-    cm.y = (cm.y - o.y)/h;
-    cm.z = (cm.z - o.z)/h;
-    g->c = 0.;
-    
-    switch (c) {
-    case FTT_X:
-      g->a = g->b = m[0][0] + cm.y*m[3][0] + cm.z*m[4][0] + cm.y*cm.z*m[6][0];
-      for (j = 1; j < N_CELLS - 1; j++) {
-	gdouble a = m[0][j] + cm.y*m[3][j] + cm.z*m[4][j] + cm.y*cm.z*m[6][j];
-	g->a += a;
-	g->c += a*GFS_VARIABLE (n[j+1], v);
-      }
-      break;
-    case FTT_Y:
-      g->a = g->b = m[1][0] + cm.x*m[3][0] + cm.z*m[5][0] + cm.x*cm.z*m[6][0];
-      for (j = 1; j < N_CELLS - 1; j++) {
-	gdouble a = m[1][j] + cm.x*m[3][j] + cm.z*m[5][j] + cm.x*cm.z*m[6][j];
-	g->a += a;
-	g->c += a*GFS_VARIABLE (n[j+1], v);
-      }
-      break;
-    case FTT_Z:
-      g->a = g->b = m[2][0] + cm.x*m[4][0] + cm.y*m[5][0] + cm.x*cm.y*m[6][0];
-      for (j = 1; j < N_CELLS - 1; j++) {
-	gdouble a = m[2][j] + cm.x*m[4][j] + cm.y*m[5][j] + cm.x*cm.y*m[6][j];
-	g->a += a;
-	g->c += a*GFS_VARIABLE (n[j+1], v);
-      }
-      break;
-    default:
-      g_assert_not_reached ();
-    }
-  }
-#endif /* 3D */
-
-  if (!FTT_FACE_DIRECT (face)) {
-    g->a = - g->a;
-    g->b = - g->b;
-    g->c = - g->c;
-  }
-
-  return TRUE;
-}
-
-/**
- * gfs_face_gradient_flux:
- * @face: a #FttCellFace.
- * @g: the #GfsGradient.
- * @v: a #GfsVariable index.
- * @max_level: the maximum cell level to consider (-1 means no restriction).
- *
- * Set the value of @g as the gradient of variable @v on the @face
- * weighted by the value of the @v field of the face state vector of
- * the corresponding cell. Variable @v is defined at the center of
- * mass of its cell. Linear interpolation is used to evaluate the
- * gradient in the vicinity of cut cells.
- */
-void gfs_face_gradient_flux (const FttCellFace * face,
-			     GfsGradient * g,
-			     guint v,
-			     gint max_level)
-{
-  guint level;
-  Gradient gcf;
-  gdouble w;
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (g != NULL);
-
-  g->a = g->b = 0.;
-  if (face->neighbor == NULL || (w = GFS_STATE (face->cell)->f[face->d].v) == 0.)
-    return;
-
-  level = ftt_cell_level (face->cell);
-  if (ftt_cell_level (face->neighbor) < level) {
-    /* neighbor is at a shallower level */
-    if (GFS_IS_MIXED (face->cell) || GFS_IS_MIXED (face->neighbor)) {
-      if (!mixed_face_gradient (face, &gcf, v, max_level))
-	gcf = gradient_fine_coarse (face, v);
-    }
-    else
-      gcf = gradient_fine_coarse (face, v);
-    g->a = w*gcf.a;
-    g->b = w*(gcf.b*GFS_VARIABLE (face->neighbor, v) + gcf.c);
-  }
-  else {
-    if (level == max_level || FTT_CELL_IS_LEAF (face->neighbor)) {
-      /* neighbor is at the same level */
-      if (!GFS_IS_MIXED (face->cell) && !GFS_IS_MIXED (face->neighbor)) {
-	g->a = w;
-	g->b = w*GFS_VARIABLE (face->neighbor, v);
-      }
-      else if (mixed_face_gradient (face, &gcf, v, max_level)) {
-	g->a = w*gcf.a;
-	g->b = w*(gcf.b*GFS_VARIABLE (face->neighbor, v) + gcf.c);
-      }
-      else {
-	g->a = w;
-	g->b = w*GFS_VARIABLE (face->neighbor, v);
-      }
-    }
-    else {
-      /* neighbor is at a deeper level */
-      FttCellChildren children;
-      FttCellFace f;
-      guint i, n;
-      
-      f.d = FTT_OPPOSITE_DIRECTION (face->d);
-      n = ftt_cell_children_direction (face->neighbor, f.d, &children);
-      f.neighbor = face->cell;
-      for (i = 0; i < n; i++) 
-	if ((f.cell = children.c[i])) {
-	  w = GFS_STATE (f.cell)->f[f.d].v;
-	  if (GFS_IS_MIXED (f.cell) || GFS_IS_MIXED (f.neighbor)) {
-	    if (!mixed_face_gradient (&f, &gcf, v, max_level))
-	      gcf = gradient_fine_coarse (&f, v);
-	  }
-	  else
-	    gcf = gradient_fine_coarse (&f, v);
-	  g->a += w*gcf.b;
-	  g->b += w*(gcf.a*GFS_VARIABLE (f.cell, v) - gcf.c);
-	}
-    }
-  }
-}
-
-static gboolean cell_bilinear (FttCell * cell,
-			       FttCell ** n,
-			       FttVector * o,
-			       void (*cell_pos) (const FttCell *, FttVector *),
-			       gint max_level,
-			       gdouble m[N_CELLS - 1][N_CELLS - 1])
-{
-  GfsSolidVector * s = GFS_STATE (cell)->solid;  
-  FttCellFace f;
-  FttDirection d[FTT_DIMENSION];
-  FttComponent c;
-
-  if ((s->s[FTT_RIGHT] == 0. && s->s[FTT_LEFT] == 0.) ||
-      (s->s[FTT_RIGHT] == 1. && s->s[FTT_LEFT] == 1.))
-    return FALSE;
-
-  for (c = 0; c < FTT_DIMENSION; c++)
-    d[c] = s->s[2*c] > s->s[2*c + 1] ? 2*c : 2*c + 1;
-  f.cell = cell;
-  f.d = d[0];
-  f.neighbor = cell_corner_neighbor1 (cell, d, max_level);
-
-  return face_bilinear (&f, n, o, cell_pos, max_level, m);
-}
-
-/**
- * gfs_cell_dirichlet_gradient:
- * @cell: a #FttCell.
- * @v: a #GfsVariable index.
- * @max_level: the maximum cell level to consider (-1 means no restriction).
- * @v0: the Dirichlet value on the boundary.
- * @grad: a #FttVector.
- *
- * Fills @grad with components of the gradient of variable @v
- * interpolated at the center of area of the solid boundary contained
- * in @cell. The gradient is scaled by the size of the cell.
- */
-void gfs_cell_dirichlet_gradient (FttCell * cell,
-				  guint v,
-				  gint max_level,
-				  gdouble v0,
-				  FttVector * grad)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (grad != NULL);
-
-  if (!GFS_IS_MIXED (cell))
-    return;
-  else {
-    FttCell * n[N_CELLS];
-    gdouble m[N_CELLS - 1][N_CELLS - 1];
-    guint i, c;
-
-    grad->x = grad->y = grad->z = 0.;
-    if (!cell_bilinear (cell, n, &GFS_STATE (cell)->solid->ca, 
-			gfs_cell_cm, max_level, m))
-      return;
-
-    for (i = 0; i < N_CELLS - 1; i++)
-      for (c = 0; c < FTT_DIMENSION; c++)
-	(&grad->x)[c] += m[c][i]*(GFS_VARIABLE (n[i + 1], v) - v0);
-  }
-}
-
-/**
- * gfs_mixed_cell_gradient:
- * @cell: a mixed #FttCell.
- * @v: a #GfsVariable.
- * @g: the gradient.
- *
- * Fills @g with the components of the gradient of @v at the center of
- * mass of @cell.
- *
- * The gradient is normalized by the size of the cell.
- */
-void gfs_mixed_cell_gradient (FttCell * cell,
-			      GfsVariable * v,
-			      FttVector * g)
-{
-  FttCell * n[N_CELLS];
-  gdouble m[N_CELLS - 1][N_CELLS - 1];
-  gdouble v0, h;
-  FttVector * o, cm;
-  guint i;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (GFS_IS_MIXED (cell));
-  g_return_if_fail (v != NULL);
-  g_return_if_fail (g != NULL);
-
-  g->x = g->y = g->z = 0.;
-
-  o = &GFS_STATE (cell)->solid->cm;
-  v0 = GFS_VARIABLE (cell, v->i);
-  cm = *o;
-
-  if (v->surface_bc) {
-    (* GFS_SURFACE_GENERIC_BC_CLASS (GTS_OBJECT (v->surface_bc)->klass)->bc) (cell, v->surface_bc);
-    if (((cell)->flags & GFS_FLAG_DIRICHLET) != 0) {
-      o = &GFS_STATE (cell)->solid->ca;
-      v0 = GFS_STATE (cell)->solid->fv;
-    }
-  }
-  g_assert (cell_bilinear (cell, n, o, gfs_cell_cm, -1, m));
-  
-  h = ftt_cell_size (cell);
-  cm.x = (cm.x - o->x)/h;
-  cm.y = (cm.y - o->y)/h;
-  cm.z = (cm.z - o->z)/h;
-  for (i = 0; i < N_CELLS - 1; i++) {
-    gdouble val = GFS_VARIABLE (n[i + 1], v->i) - v0;
-#if FTT_2D
-    g->x += (m[0][i] + m[2][i]*cm.y)*val;
-    g->y += (m[1][i] + m[2][i]*cm.x)*val;
-#else /* 3D */
-    g->x += (m[0][i] + m[3][i]*cm.y + m[4][i]*cm.z + m[6][i]*cm.y*cm.z)*val;
-    g->y += (m[1][i] + m[3][i]*cm.x + m[5][i]*cm.z + m[6][i]*cm.x*cm.z)*val;
-    g->z += (m[2][i] + m[4][i]*cm.x + m[5][i]*cm.y + m[6][i]*cm.x*cm.y)*val;
-#endif /* 3D */
-  }
-}
-
-/**
- * gfs_mixed_cell_interpolate:
- * @cell: a mixed #FttCell.
- * @p: a #FttVector.
- * @v: a #GfsVariable.
- *
- * Returns: the value of variable @v interpolated at position @p within @cell.
- */
-gdouble gfs_mixed_cell_interpolate (FttCell * cell,
-				    FttVector p,
-				    GfsVariable * v)
-{
-  FttCell * n[N_CELLS];
-  gdouble m[N_CELLS - 1][N_CELLS - 1], a[N_CELLS - 1];
-  gdouble v0, h;
-  FttVector * o;
-  guint i, j;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (GFS_IS_MIXED (cell), 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  o = &GFS_STATE (cell)->solid->cm;
-  v0 = GFS_VALUE (cell, v);
-
-  if (v->surface_bc) {
-    (* GFS_SURFACE_GENERIC_BC_CLASS (GTS_OBJECT (v->surface_bc)->klass)->bc) (cell, v->surface_bc);
-    if (((cell)->flags & GFS_FLAG_DIRICHLET) != 0) {
-      o = &GFS_STATE (cell)->solid->ca;
-      v0 = GFS_STATE (cell)->solid->fv;
-    }
-  }
-  g_assert (cell_bilinear (cell, n, o, gfs_cell_cm, -1, m));
-
-  for (i = 0; i < N_CELLS - 1; i++) {
-    a[i] = 0.;
-    for (j = 0; j < N_CELLS - 1; j++)
-      a[i] += m[i][j]*(GFS_VALUE (n[j + 1], v) - v0);
-  }
-  
-  h = ftt_cell_size (cell);
-  p.x = (p.x - o->x)/h;
-  p.y = (p.y - o->y)/h;
-#if FTT_2D
-  return a[0]*p.x + a[1]*p.y + a[2]*p.x*p.y + v0;
-#else /* 3D */
-  p.z = (p.z - o->z)/h;
-  return (a[0]*p.x + a[1]*p.y + a[2]*p.z + 
-	  a[3]*p.x*p.y + a[4]*p.x*p.z + a[5]*p.y*p.z + 
-	  a[6]*p.x*p.y*p.z + v0);
-#endif /* 3D */
-}
-
-/**
- * gfs_cell_dirichlet_gradient_flux:
- * @cell: a #FttCell.
- * @v: a #GfsVariable index.
- * @max_level: the maximum cell level to consider (-1 means no restriction).
- * @v0: the Dirichlet value on the boundary.
- *
- * Returns: the flux of the gradient of variable @v through the solid
- * boundary contained in @cell.
- */
-gdouble gfs_cell_dirichlet_gradient_flux (FttCell * cell,
-					  guint v,
-					  gint max_level,
-					  gdouble v0)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  if (!GFS_IS_MIXED (cell))
-    return 0.;
-  else {
-    GfsSolidVector * s = GFS_STATE (cell)->solid;
-    FttVector g;
-    
-    gfs_cell_dirichlet_gradient (cell, v, max_level, v0, &g);
-
-    return (g.x*(s->s[1] - s->s[0]) + g.y*(s->s[3] - s->s[2])
-#if (!FTT_2D)
-	    + g.z*(s->s[5] - s->s[4])
-#endif
-	    )*s->v;
-  }
-}
-
-/**
- * gfs_cell_dirichlet_value:
- * @cell: a #FttCell.
- * @v: a #GfsVariable.
- * @max_level: the maximum cell level to consider (-1 means no restriction).
- *
- * Returns: the value of variable @v interpolated at the center of
- * area of the solid boundary contained in @cell.
- */
-gdouble gfs_cell_dirichlet_value (FttCell * cell,
-				  GfsVariable * v,
-				  gint max_level)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  if (!GFS_IS_MIXED (cell))
-    return 0.;
-  else {
-    FttCell * n[N_CELLS];
-    FttVector p;
-    gdouble m[N_CELLS - 1][N_CELLS - 1], a[N_CELLS - 1];
-    GfsSolidVector * s = GFS_STATE (cell)->solid;
-    gdouble v0, size = ftt_cell_size (cell);
-    void (* cell_pos) (const FttCell *, FttVector *) = v->centered ? ftt_cell_pos : gfs_cell_cm;
-    guint i, j;
-
-    (*cell_pos) (cell, &p);
-    if (!cell_bilinear (cell, n, &p, cell_pos, max_level, m))
-      return 0.;
-
-    v0 = GFS_VARIABLE (cell, v->i);
-    for (i = 0; i < N_CELLS - 1; i++) {
-      a[i] = 0.;
-      for (j = 0; j < N_CELLS - 1; j++)
-	a[i] += m[i][j]*(GFS_VARIABLE (n[j + 1], v->i) - v0);
-    }
-    p.x = (s->ca.x - p.x)/size;
-    p.y = (s->ca.y - p.y)/size;
-#if FTT_2D
-    return (a[0]*p.x + a[1]*p.y + a[2]*p.x*p.y + v0);
-#else /* 3D */
-    p.z = (s->ca.z - p.z)/size;
-    return (a[0]*p.x + a[1]*p.y + a[2]*p.z + 
-	    a[3]*p.x*p.y + a[4]*p.x*p.z + a[5]*p.y*p.z + 
-	    a[6]*p.x*p.y*p.z + v0);
-#endif /* 3D */
-  }
-}
-
-/**
- * gfs_shear_strain_rate_tensor:
- * @cell: a #FttCell.
- * @u: the velocity.
- * @t: the shear strain rate tensor t[i][j] = (d_iu_j+d_ju_i)/2.
- *
- * Fills @t with the shear strain rate tensor at the center of mass of
- * @cell, normalised by the size of the cell.
- */
-void gfs_shear_strain_rate_tensor (FttCell * cell, 
-				   GfsVariable ** u,
-				   gdouble t[FTT_DIMENSION][FTT_DIMENSION])
-{
-  guint i, j;
-  FttVector g[FTT_DIMENSION];
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (u != NULL);
-
-  for (i = 0; i < FTT_DIMENSION; i++)
-    if (GFS_IS_MIXED (cell))
-      gfs_mixed_cell_gradient (cell, u[i], &g[i]);
-    else
-      for (j = 0; j < FTT_DIMENSION; j++)
-	(&g[i].x)[j] = gfs_center_gradient (cell, j, u[i]->i);			     
-
-  for (i = 0; i < FTT_DIMENSION; i++) {
-    t[i][i] = (&g[i].x)[i];
-    for (j = i + 1; j < FTT_DIMENSION; j++)
-      t[i][j] = ((&g[j].x)[i] + (&g[i].x)[j])/2.;
-  }
-  for (i = 0; i < FTT_DIMENSION; i++)
-    for (j = 0; j < i; j++)
-      t[i][j] = t[j][i];
-}
-
-/**
- * gfs_2nd_principal_invariant:
- * @cell: a #FttCell.
- * @u: the velocity.
- *
- * Returns: the second principal invariant of the shear strain rate
- * tensor of @cell: sqrt(D:D).
- */
-gdouble gfs_2nd_principal_invariant (FttCell * cell, GfsVariable ** u)
-{
-  gdouble t[FTT_DIMENSION][FTT_DIMENSION];
-  gdouble D = 0.;
-  guint i, j;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (u != NULL, 0.);
-
-  gfs_shear_strain_rate_tensor (cell, u, t);
-  for (i = 0; i < FTT_DIMENSION; i++)
-    for (j = 0; j < FTT_DIMENSION; j++)
-      D += t[i][j]*t[i][j];
-  return sqrt (D);
-}
-
-/**
- * gfs_get_from_below_intensive:
- * @cell: a #FttCell.
- * @v: a #GfsVariable to "get from below".
- *
- * Sets the value of the "intensive" variable @v of @cell by taking
- * the volume weighted average of the values of its children cells.
- *
- * This functions fails if @cell is a leaf of the cell tree.
- */
-void gfs_get_from_below_intensive (FttCell * cell, const GfsVariable * v)
-{
-  gdouble val = 0., sa = 0.;
-  guint i;
-  FttCellChildren child;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (!FTT_CELL_IS_LEAF (cell));
-  g_return_if_fail (v != NULL);
-
-  ftt_cell_children (cell, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i]) {
-      gdouble a = gfs_domain_cell_fraction (v->domain, child.c[i]);
-      val += GFS_VARIABLE (child.c[i], v->i)*a;
-      sa += a;
-    }
-  if (sa > 0.)
-    GFS_VARIABLE (cell, v->i) = val/sa;
-}
-
-/**
- * gfs_cell_coarse_fine:
- * @parent: a #FttCell.
- * @v: a #GfsVariable.
- *
- * Initializes @v on the children of @parent using interpolation.
- *
- * First-order interpolation (straight injection) is used for boundary
- * cells and second-order interpolation for the other cells.  
- */
-void gfs_cell_coarse_fine (FttCell * parent, GfsVariable * v)
-{
-  FttCellChildren child;
-  guint n;
-
-  g_return_if_fail (parent != NULL);
-  g_return_if_fail (!FTT_CELL_IS_LEAF (parent));
-  g_return_if_fail (v != NULL);
-
-  ftt_cell_children (parent, &child);
-  for (n = 0; n < FTT_CELLS; n++)
-    if (child.c[n])
-      GFS_VALUE (child.c[n], v) = GFS_VALUE (parent, v);
-
-  if (!GFS_CELL_IS_BOUNDARY (parent)) {
-    FttVector g;
-    FttComponent c;
-    
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&g.x)[c] = gfs_center_van_leer_gradient (parent, c, v->i);
-
-    if (v->domain->cell_metric) {
-      gdouble a[FTT_CELLS], sa = 0.;
-      for (n = 0; n < FTT_CELLS; n++) {
-	a[n] = (* v->domain->cell_metric) (v->domain, child.c[n]);
-	sa += a[n];
-      }
-      g_assert (sa > 0.);
-      sa *= 2.;
-#if FTT_2D
-      double gx1 = g.x*(a[0] + a[2])/sa, gx2 = - g.x*(a[1] + a[3])/sa;
-      double gy1 = g.y*(a[2] + a[3])/sa, gy2 = - g.y*(a[0] + a[1])/sa;
-      GFS_VALUE (child.c[0], v) += gx2 + gy1;
-      GFS_VALUE (child.c[1], v) += gx1 + gy1;
-      GFS_VALUE (child.c[2], v) += gx2 + gy2;
-      GFS_VALUE (child.c[3], v) += gx1 + gy2;
-#else /* 3D */
-      g_assert_not_implemented ();
-#endif /* 3D */
-    }
-    else
-      for (n = 0; n < FTT_CELLS; n++) 
-	if (child.c[n]) {
-	  FttVector p;
-	  
-	  ftt_cell_relative_pos (child.c[n], &p);
-	  for (c = 0; c < FTT_DIMENSION; c++)
-	    GFS_VALUE (child.c[n], v) += (&p.x)[c]*(&g.x)[c];
-	}
-  }
-}
-
-/**
- * gfs_cell_cleanup:
- * @cell: a #FttCell.
- * @domain: a #GfsDomain.
- *
- * Frees the memory allocated for extra data associated with @cell.
- *
- * This function must be used as "cleanup function" when using
- * ftt_cell_destroy().
- */
-void gfs_cell_cleanup (FttCell * cell, GfsDomain * domain)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (domain != NULL);
-
-  if (cell->data) {
-    GSList * i = domain->variables;
-    while (i) {
-      GfsVariable * v = i->data;
-      if (v->cleanup)
-	(* v->cleanup) (cell, v);
-      i = i->next;
-    }
-    if (GFS_STATE (cell)->solid) {
-      g_free (GFS_STATE (cell)->solid);
-      GFS_STATE (cell)->solid = NULL;
-    }    
-  }
-  g_free (cell->data);
-  cell->data = NULL;
-}
-
-/**
- * gfs_cell_reset:
- * @cell: a #FttCell.
- * @v: a #GfsVariable to reset.
- *
- * Sets the value of the variable @v of @cell to zero.
- */
-void gfs_cell_reset (FttCell * cell, GfsVariable * v)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (v != NULL);
-
-  GFS_VARIABLE (cell, v->i) = 0.;
-}
-
-static void add_stats (const FttCell * cell, gpointer * data)
-{
-  GtsRange * s = data[0];
-  gdouble v = GFS_VARIABLE (cell, GFS_VARIABLE1 (data[1])->i);
-
-  if (v < G_MAXDOUBLE)
-    gts_range_add_value (s, v);
-}
-
-/**
- * gfs_stats_variable:
- * @root: the root #FttCell of the tree to obtain statistics from.
- * @v: the variable to consider for statistics.
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- *
- * Traverses the cell tree defined by @root using ftt_cell_traverse()
- * and gathers statistics about variable @v.
- *
- * Returns: a #GtsRange containing the statistics about @v.
- */
-GtsRange gfs_stats_variable (FttCell * root,
-			     GfsVariable * v,
-			     FttTraverseFlags flags,
-			     gint max_depth)
-{
-  GtsRange s;
-  gpointer data[2];
-
-  g_return_val_if_fail (root != NULL, s);
-  g_return_val_if_fail (v != NULL, s);
-  
-  gts_range_init (&s);
-  data[0] = &s;
-  data[1] = v;
-  ftt_cell_traverse (root, FTT_PRE_ORDER, flags, max_depth, 
-		     (FttCellTraverseFunc) add_stats, data);
-  gts_range_update (&s);
-
-  return s;
-}
-
-static void add_norm (const FttCell * cell, gpointer * data)
-{
-  GfsNorm * n = data[0];
-  GfsVariable * v = data[1];
-
-  gfs_norm_add (n, GFS_VALUE (cell, v), gfs_cell_volume (cell, v->domain));
-}
-
-/**
- * gfs_norm_variable:
- * @root: the root #FttCell of the tree to obtain norm from.
- * @v: the variable to consider for norm statistics.
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- *
- * Traverses the cell tree defined by @root using ftt_cell_traverse()
- * and gathers norm statistics about variable @v.
- *
- * Returns: a #GfsNorm containing the norm statistics about @v.
- */
-GfsNorm gfs_norm_variable (FttCell * root,
-			   GfsVariable * v,
-			   FttTraverseFlags flags,
-			   gint max_depth)
-{
-  GfsNorm n;
-  gpointer data[2];
-
-  g_return_val_if_fail (root != NULL, n);
-  g_return_val_if_fail (v != NULL, n);
-  
-  gfs_norm_init (&n);
-  data[0] = &n;
-  data[1] = v;
-  ftt_cell_traverse (root, FTT_PRE_ORDER, flags, max_depth, 
-		     (FttCellTraverseFunc) add_norm, data);
-  gfs_norm_update (&n);
-
-  return n;
-}
-
-/**
- * gfs_norm_init:
- * @n: a #GfsNorm.
- *
- * Initializes a #GfsNorm.
- */
-void gfs_norm_init (GfsNorm * n)
-{
-  g_return_if_fail (n != NULL);
-
-  n->bias = n->first = n->second = 0.;
-  n->infty = - G_MAXDOUBLE;
-  n->w = 0.;
-}
-
-/**
- * gfs_norm_reset:
- * @n: a #GfsNorm.
- *
- * Sets all the fields of @n to 0.
- */
-void gfs_norm_reset (GfsNorm * n)
-{
-  g_return_if_fail (n != NULL);
-
-  n->bias = n->first = n->second = 0.;
-  n->infty = 0.;
-  n->w = 0.;
-}
-
-/**
- * gfs_norm_add:
- * @n: a #GfsNorm.
- * @val: a value to add to @n.
- * @weight: weight of @val.
- *
- * Adds @val to @n.
- */
-void gfs_norm_add (GfsNorm * n, gdouble val, gdouble weight)
-{
-  g_return_if_fail (n != NULL);
-
-  if (val < G_MAXDOUBLE) {
-    n->bias += weight*val;
-    val = fabs (val);
-    if (weight != 0. && val > n->infty)
-      n->infty = val;
-    n->first += weight*val;
-    n->second += weight*val*val;
-    n->w += weight;
-  }
-}
-
-/**
- * gfs_norm_update:
- * @n: a #GfsNorm.
- * 
- * Updates the fields of @n.
- */
-void gfs_norm_update (GfsNorm * n)
-{
-  g_return_if_fail (n != NULL);
-
-  if (n->w > 0.0) {
-    n->bias /= n->w;
-    n->first /= n->w;
-    n->second = sqrt (n->second/n->w);
-  }
-  else
-    n->infty = 0.0;
-}
-
-/**
- * gfs_face_interpolated_value:
- * @face: a #FttFace.
- * @v: a #GfsVariable index.
- *
- * Computes the value of variable @v on the @face using second-order
- * interpolation from the cell-centered values.
- *
- * Returns: the value of variable @v on the face.  
- */
-gdouble gfs_face_interpolated_value (const FttCellFace * face,
-				     guint v)
-{
-  gdouble x1 = 1., v1;
-#if 1
-  g_return_val_if_fail (face != NULL, 0.);
-
-  if (face->neighbor) {
-    v1 = neighbor_value (face, v, &x1);
-    return ((x1 - 0.5)*GFS_VARIABLE (face->cell, v) + 0.5*v1)/x1;
-  }
-  else
-    return GFS_VARIABLE (face->cell, v);
-#else
-  gdouble v0;
-  FttCellFace f2;
-
-  g_return_val_if_fail (face != NULL, 0.);
-
-  v0 = GFS_VARIABLE (face->cell, v);
-  v1 = neighbor_value (face, v, &x1);
-  f2 = gfs_cell_face (face->cell, FTT_OPPOSITE_DIRECTION (face->d));
-  if (f2.neighbor) {
-    gdouble x2 = 1.;
-    gdouble v2 = neighbor_value (&f2, v, &x2);
-
-    return v0 + (x2*(v1 - v0)*(1. + 2.*x2) - x1*(v0 - v2)*(1. - 2.*x1))
-      /(4.*x1*x2*(x1 + x2));
-  }
-  else
-    return ((x1 - 0.5)*v0 + 0.5*v1)/x1;
-#endif
-}
-
-/**
- * gfs_face_weighted_interpolated_value:
- * @face: a #FttFace.
- * @v: a #GfsVariable index.
- *
- * Computes the value of variable @v on the @face weighted by the
- * value of the @v field of the face state vector using interpolation
- * from the cell-centered values. The value returned is second order
- * accurate in space and conservative, in the sense that values at a
- * coarse/fine cell boundary are consistent.
- *
- * Returns: the weighted value of variable @v on the face.  
- */
-gdouble gfs_face_weighted_interpolated_value (const FttCellFace * face,
-					      guint v)
-{
-  g_return_val_if_fail (face != NULL, 0.);
-
-  if (face->neighbor) {
-    if (FTT_CELL_IS_LEAF (face->neighbor)) {
-      gdouble w = GFS_STATE (face->cell)->f[face->d].v, x1 = 1., v1;
-      v1 = neighbor_value (face, v, &x1);
-      return w*((x1 - 0.5)*GFS_VARIABLE (face->cell, v) + 0.5*v1)/x1;
-    }
-    else {
-      /* neighbor is at a deeper level */
-      FttCellChildren children;
-      FttCellFace f;
-      gdouble val = 0.;
-      guint i, n;
-      
-      f.d = FTT_OPPOSITE_DIRECTION (face->d);
-      n = ftt_cell_children_direction (face->neighbor, f.d, &children);
-      f.neighbor = face->cell;
-      for (i = 0; i < n; i++)
-	if ((f.cell = children.c[i])) {
-	  gdouble w = GFS_STATE (f.cell)->f[f.d].v, x1 = 1., v1;
-	  v1 = neighbor_value (&f, v, &x1);
-	  val += w*v1;
-	}
-      return val/n;
-    }
-  }
-  else
-    return GFS_STATE (face->cell)->f[face->d].v*GFS_VARIABLE (face->cell, v);
-}
-
-/**
- * gfs_normal_divergence:
- * @cell: a #FttCell.
- * @v: a #GfsVariable.
- *
- * Adds to variable @v of @cell the integral of the divergence
- * of the (MAC) velocity field in this cell.  
- */
-void gfs_normal_divergence (FttCell * cell,
-			    GfsVariable * v)
-{
-  FttCellFace face;
-  gdouble div = 0.;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (v != NULL);
-
-  face.cell = cell;
-  for (face.d = 0; face.d < FTT_NEIGHBORS; face.d++)
-    div += (FTT_FACE_DIRECT (&face) ? 1. : -1.)*
-      GFS_STATE (cell)->f[face.d].un*gfs_domain_face_fraction (v->domain, &face);
-  GFS_VALUE (cell, v) = div*ftt_cell_size (cell);
-}
-
-/**
- * gfs_normal_divergence_2D:
- * @cell: a #FttCell.
- * @v: a #GfsVariable.
- *
- * Fills variable @v of @cell with the integral of the 2D
- * divergence of the (MAC) velocity field in this cell.
- */
-void gfs_normal_divergence_2D (FttCell * cell,
-			       GfsVariable * v)
-{
-  FttComponent c;
-  gdouble div = 0.;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (v != NULL);
-
-  if (GFS_IS_MIXED (cell)) {
-    GfsSolidVector * solid = GFS_STATE (cell)->solid;
-    
-    for (c = 0; c < 2; c++) {
-      FttDirection d = 2*c;
-      
-      div += (solid->s[d]*GFS_STATE (cell)->f[d].un - 
-	      solid->s[d + 1]*GFS_STATE (cell)->f[d + 1].un);
-    }
-  }
-  else
-    for (c = 0; c < 2; c++) {
-      FttDirection d = 2*c;
-      
-      div += (GFS_STATE (cell)->f[d].un - 
-	      GFS_STATE (cell)->f[d + 1].un);
-    }
-  GFS_VARIABLE (cell, v->i) = div*ftt_cell_size (cell);
-}
-
-/**
- * gfs_divergence:
- * @cell: a #FttCell.
- * @v: the components of the vector.
- *
- * Returns: the divergence of the (centered) vector field @v in @cell.
- */
-gdouble gfs_divergence (FttCell * cell,
-			GfsVariable ** v)
-{
-  FttComponent c;
-  gdouble div = 0.;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  for (c = 0; c < FTT_DIMENSION; c++)
-    div += gfs_center_gradient (cell, c, v[c]->i);
-  return div/ftt_cell_size (cell);
-}
-
-/**
- * gfs_vorticity:
- * @cell: a #FttCell.
- * @v: the components of the vector.
- *
- * Returns: the vorticity (norm of the vorticity vector in 3D) of the
- * vector field @v in @cell.
- */
-gdouble gfs_vorticity (FttCell * cell,
-		       GfsVariable ** v)
-{
-  gdouble size;
-#if (!FTT_2D)
-  FttVector vort;
-#endif /* FTT_3D */
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  size = ftt_cell_size (cell);
-#if FTT_2D
-  return (gfs_center_gradient (cell, FTT_X, v[1]->i) -
-	  gfs_center_gradient (cell, FTT_Y, v[0]->i))/size;
-#else  /* FTT_3D */
-  vort.x = (gfs_center_gradient (cell, FTT_Y, v[2]->i) -
-	    gfs_center_gradient (cell, FTT_Z, v[1]->i))/size;
-  vort.y = (gfs_center_gradient (cell, FTT_Z, v[0]->i) -
-	    gfs_center_gradient (cell, FTT_X, v[2]->i))/size;
-  vort.z = (gfs_center_gradient (cell, FTT_X, v[1]->i) -
-	    gfs_center_gradient (cell, FTT_Y, v[0]->i))/size;
-  return sqrt (vort.x*vort.x + vort.y*vort.y + vort.z*vort.z);
-#endif /* FTT_3D */
-}
-
-/**
- * gfs_vector_norm2:
- * @cell: a #FttCell.
- * @v: the components of the vector.
- *
- * Returns: the squared norm of the vector field @v in @cell.
- */
-gdouble gfs_vector_norm2 (FttCell * cell,
-			  GfsVariable ** v)
-{
-  FttComponent c;
-  gdouble n = 0.;
-  
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  for (c = 0; c < FTT_DIMENSION; c++)
-    n += GFS_VARIABLE (cell, v[c]->i)*GFS_VARIABLE (cell, v[c]->i);
-  return n;
-}
-
-/**
- * gfs_vector_norm:
- * @cell: a #FttCell.
- * @v: the components of the vector.
- *
- * Returns: the norm of the vector field @v in @cell.
- */
-gdouble gfs_vector_norm (FttCell * cell,
-			 GfsVariable ** v)
-{
-  return sqrt (gfs_vector_norm2 (cell, v));
-}
-
-/**
- * gfs_vector_lambda2:
- * @cell: a #FttCell.
- * @v: the components of the vector.
- *
- * Returns: The value of the lambda2 eigenvalue used by Jeong and
- * Hussain as vortex criterion (JFM 285, 69-94, 1995), normalized by
- * the square of the size of the cell.
- */
-gdouble gfs_vector_lambda2 (FttCell * cell,
-			    GfsVariable ** v)
-{
-  gdouble J[FTT_DIMENSION][FTT_DIMENSION];
-  gdouble S2O2[FTT_DIMENSION][FTT_DIMENSION];
-  gdouble lambda[FTT_DIMENSION], ev[FTT_DIMENSION][FTT_DIMENSION];
-  guint i, j, k;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  for (i = 0; i < FTT_DIMENSION; i++)
-    for (j = 0; j < FTT_DIMENSION; j++)
-      J[i][j] = gfs_center_gradient (cell, j, v[i]->i);
-  for (i = 0; i < FTT_DIMENSION; i++)
-    for (j = 0; j < FTT_DIMENSION; j++) {
-      S2O2[i][j] = 0.;
-      for (k = 0; k < FTT_DIMENSION; k++)
-	S2O2[i][j] += J[i][k]*J[k][j] + J[k][i]*J[j][k];
-    }
-  gfs_eigenvalues (S2O2, lambda, ev);
-  return lambda[1]/2.;
-}
-
-/**
- * gfs_pressure_force:
- * @cell: a #FttCell.
- * @p: a #GfsVariable.
- * @f: a #FttVector.
- *
- * Fills @f with the pressure @p component of the force exerted by the
- * fluid on the fraction of embedded boundary contained in @cell.
- */
-void gfs_pressure_force (FttCell * cell,
-			 GfsVariable * p,
-			 FttVector * f)
-{
-  GfsSolidVector * s;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (f != NULL);
-
-  if ((s = GFS_STATE (cell)->solid)) {
-    gdouble size = ftt_cell_size (cell);
-    gdouble pv = gfs_cell_dirichlet_value (cell, p, -1)*size;
-    FttComponent c;
-
-#if (!FTT_2D)
-    pv *= size;
-#endif /* 3D */
-
-    gfs_solid_normal (cell, f);
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&f->x)[c] *= pv;
-  }
-  else
-    f->x = f->y = f->z = 0.;
-}
-
-static void cell_traverse_mixed (FttCell * cell,
-				 FttTraverseType order,
-				 FttTraverseFlags flags,
-				 FttCellTraverseFunc func,
-				 gpointer data)
-{
-  if (!GFS_IS_MIXED (cell))
-    return;
-  if (order == FTT_PRE_ORDER &&
-      (flags == FTT_TRAVERSE_ALL ||
-       ((flags & FTT_TRAVERSE_LEAFS) != 0 && FTT_CELL_IS_LEAF (cell)) ||
-       ((flags & FTT_TRAVERSE_NON_LEAFS) != 0 && !FTT_CELL_IS_LEAF (cell))))
-    (* func) (cell, data);
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    struct _FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_mixed (c, order, flags, func, data);
-    }
-  }
-  if (order == FTT_POST_ORDER &&
-      (flags == FTT_TRAVERSE_ALL ||
-       ((flags & FTT_TRAVERSE_LEAFS) != 0 && FTT_CELL_IS_LEAF (cell)) ||
-       ((flags & FTT_TRAVERSE_NON_LEAFS) != 0 && !FTT_CELL_IS_LEAF (cell))))
-    (* func) (cell, data);
-}
-
-/**
- * gfs_cell_traverse_mixed:
- * @root: the root #FttCell of the tree to traverse.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- * 
- * Traverses a cell tree starting at the given root #FttCell. Calls
- * the given function for each mixed cell.
- */
-void gfs_cell_traverse_mixed (FttCell * root,
-			      FttTraverseType order,
-			      FttTraverseFlags flags,
-			      FttCellTraverseFunc func,
-			      gpointer data)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (func != NULL);
-
-  cell_traverse_mixed (root, order, flags, func, data);
-}
-
-#if FTT_2D
-static FttDirection corner[4][FTT_DIMENSION] = {
-  { FTT_LEFT,  FTT_BOTTOM },
-  { FTT_RIGHT, FTT_BOTTOM },
-  { FTT_RIGHT, FTT_TOP },
-  { FTT_LEFT,  FTT_TOP }
-};
-#else  /* 3D */
-static FttDirection corner[8][FTT_DIMENSION] = {
-  { FTT_LEFT,  FTT_BOTTOM, FTT_FRONT },
-  { FTT_RIGHT, FTT_BOTTOM, FTT_FRONT },
-  { FTT_RIGHT, FTT_TOP,    FTT_FRONT },
-  { FTT_LEFT,  FTT_TOP,    FTT_FRONT },
-  { FTT_LEFT,  FTT_BOTTOM, FTT_BACK },
-  { FTT_RIGHT, FTT_BOTTOM, FTT_BACK },
-  { FTT_RIGHT, FTT_TOP,    FTT_BACK },
-  { FTT_LEFT,  FTT_TOP,    FTT_BACK }
-};
-#endif /* 3D */
-
-/**
- * gfs_interpolate:
- * @cell: a #FttCell containing location @p.
- * @p: the location at which to interpolate.
- * @v: a #GfsVariable.
- *
- * Interpolates the @v variable of @cell, at location @p. Linear
- * interpolation is used and the boundaries of the domain are treated
- * as planes of symmetry for all variables.
- *
- * Returns: the interpolated value of variable @v at location @p.
- */
-gdouble gfs_interpolate (FttCell * cell,
-			 FttVector p,
-			 GfsVariable * v)
-{
-  FttVector o;
-  gdouble size;
-  guint i;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  ftt_cell_pos (cell, &o);
-  size = ftt_cell_size (cell)/2.;
-  p.x = (p.x - o.x)/size;
-  p.y = (p.y - o.y)/size;
-#if FTT_2D
-  {
-    gdouble f[4], a, b, c, d;
-
-    for (i = 0; i < 4; i++)
-      f[i] = gfs_cell_corner_value (cell, corner[i], v, -1);
-
-    a = f[1] + f[2] - f[0] - f[3];
-    b = f[2] + f[3] - f[0] - f[1];
-    c = f[0] - f[1] + f[2] - f[3];
-    d = f[0] + f[1] + f[2] + f[3];
-
-    return (a*p.x + b*p.y + c*p.x*p.y + d)/4.;
-  }
-#else  /* 3D */
-  {
-    gdouble f[8], c[8];
-    
-    p.z = (p.z - o.z)/size;
-    for (i = 0; i < 8; i++)
-      f[i] = gfs_cell_corner_value (cell, corner[i], v, -1);
-
-    c[0] = - f[0] + f[1] + f[2] - f[3] - f[4] + f[5] + f[6] - f[7];
-    c[1] = - f[0] - f[1] + f[2] + f[3] - f[4] - f[5] + f[6] + f[7];
-    c[2] =   f[0] + f[1] + f[2] + f[3] - f[4] - f[5] - f[6] - f[7];
-    c[3] =   f[0] - f[1] + f[2] - f[3] + f[4] - f[5] + f[6] - f[7];
-    c[4] = - f[0] + f[1] + f[2] - f[3] + f[4] - f[5] - f[6] + f[7];
-    c[5] = - f[0] - f[1] + f[2] + f[3] + f[4] + f[5] - f[6] - f[7];
-    c[6] =   f[0] - f[1] + f[2] - f[3] - f[4] + f[5] - f[6] + f[7];
-    c[7] =   f[0] + f[1] + f[2] + f[3] + f[4] + f[5] + f[6] + f[7];
-
-    return (c[0]*p.x + c[1]*p.y + c[2]*p.z + 
-	    c[3]*p.x*p.y + c[4]*p.x*p.z + c[5]*p.y*p.z + 
-	    c[6]*p.x*p.y*p.z + 
-	    c[7])/8.;
-  }
-#endif /* 3D */
-}
-
-/**
- * gfs_interpolate_stencil:
- * @cell: a #FttCell.
- * @v: a #GfsVariable.
- *
- * Sets to 1. the @v variable of all the cells which would be used by
- * a call to gfs_interpolate().
- */
-void gfs_interpolate_stencil (FttCell * cell,
-			      GfsVariable * v)
-{
-  guint i;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (v != NULL);
-
-  for (i = 0; i < (FTT_DIMENSION == 2 ? 4 : 8); i++) {
-    GfsInterpolator inter;
-    guint j;
-
-    gfs_cell_corner_interpolator (cell, corner[i], -1, TRUE, &inter);
-    for (j = 0; j < inter.n; j++)
-      GFS_VARIABLE (inter.c[j], v->i) = 1.;
-  }
-}
-
-/**
- * gfs_center_curvature:
- * @cell: a #FttCell.
- * @c: a component.
- * @v: a #GfsVariable index.
- *
- * The curvature is normalized by the square of the size of the cell.
- *
- * Returns: the value of the @c component of the curvature of variable @v
- * at the center of the cell.  
- */
-gdouble gfs_center_curvature (FttCell * cell,
-			      FttComponent c,
-			      guint v)
-{
-  FttCellFace f;
-  GfsGradient g = { 0., 0. };
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (c < FTT_DIMENSION, 0.);
-
-  if (GFS_IS_MIXED (cell))
-    return 0.;
-
-  f.cell = cell;
-  for (f.d = 2*c; f.d <= 2*c + 1; f.d++)
-    if ((f.neighbor = ftt_cell_neighbor (cell, f.d))) {
-      GfsGradient e;
-
-      gfs_face_gradient (&f, &e, v, -1);
-      g.a += e.a;
-      g.b += e.b;
-    }
-
-  return g.b - g.a*GFS_VARIABLE (cell, v);
-}
-
-/**
- * gfs_streamline_curvature:
- * @cell: a #FttCell.
- * @v: the components of the vector.
- *
- * The curvature is normalized by the size of the cell.
- *
- * Returns: the value of the curvature of the streamline defined by @v passing
- * through the center of the cell.
- */
-gdouble gfs_streamline_curvature (FttCell * cell,
-				  GfsVariable ** v)
-{
-  gdouble u2;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  u2 = gfs_vector_norm2 (cell, v);
-
-  if (u2 == 0.)
-    return 0.;
-  else {
-    FttComponent i;
-    gdouble ugu = 0.;
-
-    for (i = 0; i < FTT_DIMENSION; i++) {
-      FttComponent j;
-      gdouble ugui = 0.;
-
-      for (j = 0; j < FTT_DIMENSION; j++)
-	ugui += GFS_VARIABLE (cell, v[j]->i)*gfs_center_gradient (cell, j, v[i]->i);
-      ugu += ugui*ugui;
-    }
-    return sqrt (ugu)/u2;
-  }
-}
-
-static FttCell * cell_corner_neighbor (FttCell * cell,
-				       FttDirection * d,
-				       gint max_level,
-				       gboolean * t_junction)
-{
-  FttCell * neighbor = ftt_cell_neighbor (cell, d[0]);
-  if (!neighbor)
-    return NULL;
-  else {
-    guint level = ftt_cell_level (cell);
-    if (ftt_cell_level (neighbor) < level) {
-      /* neighbor is at a shallower level */
-      if (ftt_cell_child_corner (ftt_cell_parent (cell), d) != cell)
-	*t_junction = TRUE;
-      return neighbor;
-    }
-    else {
-      if (level == max_level || FTT_CELL_IS_LEAF (neighbor))
-	/* neighbor is at the same level */
-	return neighbor;
-      else {
-	/* neighbor is at a deeper level */
-	FttCell * n;
-	guint i;
-	FttDirection d1[FTT_DIMENSION];
-	d1[0] = FTT_OPPOSITE_DIRECTION (d[0]);
-	for (i = 1; i < FTT_DIMENSION; i++)
-	  d1[i] = d[i];
-	n = ftt_cell_child_corner (neighbor, d1);
-	return n ? n : neighbor;
-      }
-    }
-  }
-}
-
-static void interpolator_merge (GfsInterpolator * a, GfsInterpolator * b)
-{
-  guint i;
-  for (i = 0; i < b->n; i++) {
-    FttCell * c = b->c[i];
-    guint j;
-
-    for (j = 0; j < a->n && c != a->c[j]; j++)
-      ;
-    if (j < a->n)
-      a->w[j] += b->w[i];
-    else {
-#if FTT_2D
-      g_assert (j < 7);
-#else
-      g_assert (j < 29);
-#endif
-      a->c[j] = c;
-      a->w[j] = b->w[i];
-      a->n++;
-    }
-  }
-}
-
-static void interpolator_scale (GfsInterpolator * a, gdouble b)
-{
-  guint i;
-  for (i = 0; i < a->n; i++)
-    a->w[i] *= b;
-}
-
-static void t_junction_interpolator (FttCell * cell,
-				     FttDirection * d,
-				     FttCell * n,
-				     gint max_level,
-				     gboolean centered,
-				     GfsInterpolator * inter)
-{
-  FttDirection d1[FTT_DIMENSION];
-  GfsInterpolator a;
-
-  d1[0] = FTT_OPPOSITE_DIRECTION (d[0]);
-#if FTT_2D
-  d1[1] = d[1];
-  gfs_cell_corner_interpolator (n, d1, max_level, centered, inter);
-  d1[1] = FTT_OPPOSITE_DIRECTION (d[1]);
-  gfs_cell_corner_interpolator (n, d1, max_level, centered, &a);
-  interpolator_merge (inter, &a);
-  interpolator_scale (inter, 0.5);
-#else /* 3D */
-  d1[1] = d[1]; d1[2] = d[2];
-  gfs_cell_corner_interpolator (n, d1, max_level, centered, inter);
-  if (ftt_cell_neighbor_is_brother (cell, d[1])) {
-    d1[1] = FTT_OPPOSITE_DIRECTION (d[1]);
-    gfs_cell_corner_interpolator (n, d1, max_level, centered, &a);
-    interpolator_merge (inter, &a);
-    if (ftt_cell_neighbor_is_brother (cell, d[2])) {
-      d1[2] = FTT_OPPOSITE_DIRECTION (d[2]);
-      gfs_cell_corner_interpolator (n, d1, max_level, centered, &a);
-      interpolator_merge (inter, &a);
-      d1[1] = d[1];
-      gfs_cell_corner_interpolator (n, d1, max_level, centered, &a);
-      interpolator_merge (inter, &a);
-      interpolator_scale (inter, 0.25);
-    }
-    else
-      interpolator_scale (inter, 0.5);
-  }
-  else {
-    d1[2] = FTT_OPPOSITE_DIRECTION (d[2]);
-    gfs_cell_corner_interpolator (n, d1, max_level, centered, &a);
-    interpolator_merge (inter, &a);
-    interpolator_scale (inter, 0.5);
-  }
-#endif /* 3D */
-}
-
-static gboolean do_path (FttCell * cell, gint i,
-			 FttCell * n[N_CELLS],
-			 FttDirection * d,
-			 gint max_level,
-			 gboolean centered,
-			 GfsInterpolator * inter)
-{
-  /* paths from each cell to neighbors. Cell indices are as in
-     doc/figures/indices.fig
-     first index: cell index
-     second index: path index
-     third index: < FTT_DIMENSION: directions.
-                  = FTT_DIMENSION: neighboring cell index */
-  static gint path[N_CELLS][FTT_DIMENSION][FTT_DIMENSION + 1] = {
-#if FTT_2D
-    {{1,2,1},   {2,1,2}},
-    {{2,-1,3},  {-1,2,0}},
-    {{1,-2,3},  {-2,1,0}},
-    {{-1,-2,2}, {-2,-1,1}}
-#else /* 3D */
-    {{1,2,3,1},    {2,1,3,2},    {3,1,2,4}},
-    {{2,3,-1,3},   {3,2,-1,5},   {-1,2,3,0}},
-    {{1,-2,3,3},   {3,-2,1,6},   {-2,3,1,0}},
-    {{3,-1,-2,7},  {-2,-1,3,1},  {-1,-2,3,2}},
-    {{2,1,-3,6},   {1,2,-3,5},   {-3,1,2,0}},
-    {{2,-1,-3,7},  {-1,2,-3,4},  {-3,2,-1,1}},
-    {{1,-2,-3,7},  {-2,1,-3,4},  {-3,1,-2,2}},
-    {{-1,-2,-3,6}, {-2,-1,-3,5}, {-3,-1,-2,3}}
-#endif /* 3D */
-  };
-  guint j;
-
-  for (j = 0; j < FTT_DIMENSION; j++) {
-    guint k = path[i][j][FTT_DIMENSION];
-
-    if (n[k] == NULL) {
-      gboolean t_junction = FALSE;
-      FttDirection d1[FTT_DIMENSION];
-      guint l;
-
-      for (l = 0; l < FTT_DIMENSION; l++)
-	d1[l] = path[i][j][l] < 0 ? FTT_OPPOSITE_DIRECTION (d[- path[i][j][l] - 1]) : 
-	  d[path[i][j][l] - 1];
-      n[k] = cell_corner_neighbor (cell, d1, max_level, &t_junction);
-      if (t_junction) {
-	t_junction_interpolator (cell, d1, n[k], max_level, centered, inter);
-	return TRUE;
-      }
-      if (n[k]) {
-	t_junction = do_path (n[k], k, n, d, max_level, centered, inter);
-	if (t_junction)
-	  return TRUE;
-      }
-    }
-  }
-  return FALSE;
-}
-
-static gdouble distance (FttVector * c, FttCell * cell, gboolean centered)
-{
-  if (centered || !GFS_IS_MIXED (cell))
-    return ftt_cell_size (cell)*
-#if FTT_2D
-      0.707106781185
-#else  /* 3D */
-      0.866025403785
-#endif /* 3D */
-      ;
-  else {
-    FttVector cm;
-    gfs_cell_cm (cell, &cm);
-    return sqrt ((cm.x - c->x)*(cm.x - c->x) + (cm.y - c->y)*(cm.y - c->y)
-#if (!FTT_2D)
-      + (cm.z - c->z)*(cm.z - c->z)
-#endif /* 3D */
-		 );
-  }
-}
-
-/**
- * gfs_cell_corner_interpolator:
- * @cell: a #FttCell.
- * @d: a set of perpendicular directions.
- * @max_level: the maximum cell level to consider (-1 means no restriction).
- * @centered: %TRUE if the interpolator is cell-centered.
- * @inter: a #GfsInterpolator.
- *
- * Fills @inter with the interpolator for the corner of @cell defined by @d.
- */
-void gfs_cell_corner_interpolator (FttCell * cell,
-				   FttDirection d[FTT_DIMENSION],
-				   gint max_level,
-				   gboolean centered,
-				   GfsInterpolator * inter)
-{
-  FttCell * n[N_CELLS];
-  guint i;
-  gboolean t_junction;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (inter != NULL);
-
-  while (!FTT_CELL_IS_LEAF (cell) && 
-	 ftt_cell_level (cell) != max_level &&
-	 (n[0] = ftt_cell_child_corner (cell, d)))
-    cell = n[0];
-  n[0] = cell;
-  for (i = 1; i < N_CELLS; i++)
-    n[i] = NULL;
-  t_junction = do_path (cell, 0, n, d, max_level, centered, inter);
-  if (t_junction)
-    return;
-
-  {
-    FttVector c;
-    gdouble w = 0.;
-
-    inter->n = 0;
-    ftt_corner_pos (cell, d, &c);
-    for (i = 0; i < N_CELLS; i++)
-      if (n[i]) {
-	gdouble a;
-	a = 1./(distance (&c, n[i], centered) + 1e-12);
-	inter->c[inter->n] = n[i];
-	inter->w[inter->n++] = a;
-	w += a;
-      }
-    g_assert (w > 0.);
-    interpolator_scale (inter, 1./w);
-  }
-}
-
-/**
- * gfs_cell_corner_value:
- * @cell: a #FttCell.
- * @d: a set of perpendicular directions.
- * @v: a #GfsVariable.
- * @max_level: the maximum cell level to consider (-1 means no restriction).
- *
- * Returns: the value of variable @v interpolated at the corner of
- * @cell defined by @d.
- */
-gdouble gfs_cell_corner_value (FttCell * cell,
-			       FttDirection d[FTT_DIMENSION],
-			       GfsVariable * v,
-			       gint max_level)
-{
-  GfsInterpolator inter;
-  gdouble val = 0.;
-  guint i;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (v != NULL, 0.);
-
-  gfs_cell_corner_interpolator (cell, d, max_level, v->centered, &inter);
-  for (i = 0; i < inter.n; i++)
-    val += inter.w[i]*GFS_VARIABLE (inter.c[i], v->i);
-  return val;
-}
diff --git a/src/fluid.h b/src/fluid.h
deleted file mode 100644
index 019e7d0..0000000
--- a/src/fluid.h
+++ /dev/null
@@ -1,261 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __FLUID_H__
-#define __FLUID_H__
-
-#include <gts.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "ftt.h"
-
-typedef struct _GfsVariable               GfsVariable;
-typedef struct _GfsDerivedVariable        GfsDerivedVariable;
-typedef struct _GfsDomain                 GfsDomain;
-
-typedef struct _GfsStateVector     GfsStateVector;
-typedef struct _GfsSolidVector     GfsSolidVector;
-typedef struct _GfsFaceStateVector GfsFaceStateVector;
-
-struct _GfsFaceStateVector {
-  gdouble un;
-  gdouble v;
-};
-
-struct _GfsStateVector {
-  /* temporary face variables */
-  GfsFaceStateVector f[FTT_NEIGHBORS];
-
-  /* solid boundaries */
-  GfsSolidVector * solid;
-
-  gdouble place_holder;
-};
-
-struct _GfsSolidVector {
-  gdouble s[FTT_NEIGHBORS];
-  gdouble a, v, fv;
-  FttCell * merged;
-  FttVector cm, ca;
-};
-
-typedef enum {
-  GFS_FLAG_USED =              1 <<  FTT_FLAG_USER,
-  GFS_FLAG_BOUNDARY          = 1 << (FTT_FLAG_USER + 1),
-  GFS_FLAG_DIRICHLET         = 1 << (FTT_FLAG_USER + 2),
-  GFS_FLAG_GRADIENT_BOUNDARY = 1 << (FTT_FLAG_USER + 3),
-  GFS_FLAG_PERMANENT         = 1 << (FTT_FLAG_USER + 4),
-  GFS_FLAG_THIN              = 1 << (FTT_FLAG_USER + 5),
-  GFS_FLAG_USER =                    FTT_FLAG_USER + 6 /* user flags start here */
-} GfsFlags;
-
-#define GFS_STATE(cell)               ((GfsStateVector *) (cell)->data)
-#define GFS_VARIABLE(cell, index)     ((&GFS_STATE (cell)->place_holder)[index])
-
-#define GFS_FACE_NORMAL_VELOCITY(fa)\
-  (GFS_STATE ((fa)->cell)->f[(fa)->d].un)
-#define GFS_FACE_NORMAL_VELOCITY_LEFT(fa)\
-  (GFS_STATE ((fa)->cell)->f[(fa)->d].un)
-#define GFS_FACE_NORMAL_VELOCITY_RIGHT(fa)\
-  (GFS_STATE ((fa)->neighbor)->f[FTT_OPPOSITE_DIRECTION ((fa)->d)].un)
-
-#define GFS_FACE_FRACTION(fa) (GFS_IS_MIXED ((fa)->cell) ?\
-                               GFS_STATE ((fa)->cell)->solid->s[(fa)->d] : 1.)
-#define GFS_FACE_FRACTION_LEFT(fa) GFS_FACE_FRACTION(fa)
-#define GFS_FACE_FRACTION_RIGHT(fa) (GFS_IS_MIXED ((fa)->neighbor) ?\
-                 GFS_STATE ((fa)->neighbor)->solid->s[FTT_OPPOSITE_DIRECTION ((fa)->d)] : 1.)
-
-#define GFS_IS_FLUID(cell)      ((cell) != NULL &&\
-                                 GFS_STATE (cell)->solid == NULL)
-#define GFS_IS_MIXED(cell)      ((cell) != NULL &&\
-                                 GFS_STATE (cell)->solid != NULL)
-#define GFS_CELL_IS_BOUNDARY(cell) (((cell)->flags & GFS_FLAG_BOUNDARY) != 0)
-#define GFS_CELL_IS_PERMANENT(cell) (((cell)->flags & GFS_FLAG_PERMANENT) != 0)
-#define GFS_CELL_IS_GRADIENT_BOUNDARY(cell) (((cell)->flags & GFS_FLAG_GRADIENT_BOUNDARY) != 0)
-
-FttCellFace           gfs_cell_face                 (FttCell * cell,
-						     FttDirection d);
-void                  gfs_cell_cleanup              (FttCell * cell,
-						     GfsDomain * domain);
-void                  gfs_cell_reset                (FttCell * cell, 
-						     GfsVariable * v);
-void                  gfs_get_from_below_intensive  (FttCell * cell, 
-						     const GfsVariable * v);
-void                  gfs_cell_coarse_fine          (FttCell * cell,
-						     GfsVariable * v);
-gdouble               gfs_face_interpolated_value   (const FttCellFace * face,
-						     guint v);
-gdouble               gfs_face_weighted_interpolated_value (const FttCellFace * face,
-							    guint v);
-typedef gdouble    (* GfsCenterGradient)            (FttCell * cell,
-						     FttComponent c,
-						     guint v);
-gdouble               gfs_center_gradient           (FttCell * cell,
-						     FttComponent c,
-						     guint v);
-void                  gfs_center_gradient_stencil   (FttCell * cell,
-						     FttComponent c,
-						     guint v);
-gdouble               gfs_center_van_leer_gradient  (FttCell * cell,
-						     FttComponent c,
-						     guint v);
-gdouble               gfs_center_minmod_gradient    (FttCell * cell,
-						     FttComponent c,
-						     guint v);
-gdouble               gfs_center_regular_gradient   (FttCell * cell,
-						     FttComponent c,
-						     GfsVariable * v);
-gdouble               gfs_center_regular_2nd_derivative (FttCell * cell, 
-							 FttComponent c, 
-							 GfsVariable * v);
-
-typedef struct _GfsGradient GfsGradient;
-
-struct _GfsGradient {
-  gdouble a, b;
-};
-
-void                  gfs_face_gradient              (const FttCellFace * face,
-						      GfsGradient * g,
-						      guint v,
-						      gint max_level);
-void                  gfs_face_weighted_gradient     (const FttCellFace * face,
-						      GfsGradient * g,
-						      guint v,
-						      gint max_level);
-void                  gfs_face_weighted_gradient_2D  (const FttCellFace * face,
-						      GfsGradient * g,
-						      guint v,
-						      gint max_level);
-void                  gfs_face_gradient_flux         (const FttCellFace * face,
-						      GfsGradient * g,
-						      guint v,
-						      gint max_level);
-void                  gfs_cell_dirichlet_gradient    (FttCell * cell,
-						      guint v,
-						      gint max_level,
-						      gdouble v0,
-						      FttVector * grad);
-void                  gfs_mixed_cell_gradient        (FttCell * cell,
-						      GfsVariable * v,
-						      FttVector * g);
-gdouble               gfs_cell_dirichlet_gradient_flux (FttCell * cell,
-							guint v,
-							gint max_level,
-							gdouble v0);
-gdouble               gfs_cell_dirichlet_value         (FttCell * cell,
-							GfsVariable * v,
-							gint max_level);
-gdouble               gfs_mixed_cell_interpolate       (FttCell * cell,
-							FttVector p,
-							GfsVariable * v);
-
-void                  gfs_normal_divergence          (FttCell * cell,
-						      GfsVariable * v);
-void                  gfs_normal_divergence_2D       (FttCell * cell,
-						      GfsVariable * v);
-gdouble               gfs_divergence                 (FttCell * cell,
-						      GfsVariable ** v);
-gdouble               gfs_vorticity                  (FttCell * cell,
-						      GfsVariable ** v);
-gdouble               gfs_vector_norm                (FttCell * cell,
-						      GfsVariable ** v);
-gdouble               gfs_vector_norm2               (FttCell * cell,
-						      GfsVariable ** v);
-gdouble               gfs_vector_lambda2             (FttCell * cell,
-						      GfsVariable ** v);
-void                  gfs_pressure_force             (FttCell * cell,
-						      GfsVariable * p,
-						      FttVector * f);
-GtsRange              gfs_stats_variable             (FttCell * root, 
-						      GfsVariable * v, 
-						      FttTraverseFlags flags,
-						      gint max_depth);
-
-typedef struct _GfsNorm GfsNorm;
-
-struct _GfsNorm {
-  gdouble bias, first, second, infty, w;
-};
-
-void                  gfs_norm_init                 (GfsNorm * n);
-void                  gfs_norm_reset                (GfsNorm * n);
-void                  gfs_norm_add                  (GfsNorm * n, 
-						     gdouble val,
-						     gdouble weight);
-void                  gfs_norm_update               (GfsNorm * n);
-
-GfsNorm               gfs_norm_variable             (FttCell * root, 
-						     GfsVariable * v, 
-						     FttTraverseFlags flags,
-						     gint max_depth);
-  
-void                  gfs_cell_traverse_mixed       (FttCell * root,
-						     FttTraverseType order,
-						     FttTraverseFlags flags,
-						     FttCellTraverseFunc func,
-						     gpointer data);
-gdouble               gfs_interpolate               (FttCell * cell,
-						     FttVector p,
-						     GfsVariable * v);
-void                  gfs_interpolate_stencil       (FttCell * cell,
-						     GfsVariable * v);
-void                  ftt_cell_refine_corners       (FttCell * cell,
-						     FttCellInitFunc init,
-						     gpointer data);
-gdouble               gfs_center_curvature          (FttCell * cell,
-						     FttComponent c,
-						     guint v);
-gdouble               gfs_streamline_curvature      (FttCell * cell,
-						     GfsVariable ** v);
-void                  gfs_shear_strain_rate_tensor  (FttCell * cell, 
-						     GfsVariable ** u,
-						     gdouble t[FTT_DIMENSION][FTT_DIMENSION]);
-gdouble               gfs_2nd_principal_invariant   (FttCell * cell, 
-						     GfsVariable ** u);
-
-typedef struct {
-#if FTT_2D
-  FttCell * c[7];
-  gdouble w[7];
-#else  /* 3D */
-  FttCell * c[29];
-  gdouble w[29];
-#endif /* 3D */
-  guint n;  
-} GfsInterpolator;
-
-void                  gfs_cell_corner_interpolator  (FttCell * cell,
-						     FttDirection d[FTT_DIMENSION],
-						     gint max_level,
-						     gboolean centered,
-						     GfsInterpolator * inter);
-gdouble               gfs_cell_corner_value         (FttCell * cell,
-						     FttDirection * d,
-						     GfsVariable * v,
-						     gint max_level);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __FLUID_H__ */
diff --git a/src/ftt.c b/src/ftt.c
deleted file mode 100644
index 0429cbd..0000000
--- a/src/ftt.c
+++ /dev/null
@@ -1,2445 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "ftt.h"
-
-#define  FTT_CELL_IS_DESTROYED(c) (((c)->flags & FTT_FLAG_DESTROYED) != 0)
-
-gchar * ftt_direction_name[FTT_NEIGHBORS] = {
-  "right", "left", "top", "bottom"
-#if (!FTT_2D)
-  , "front", "back"
-#endif /* FTT_3D || FTT_2D3 */
-};
-
-gint ftt_opposite_direction[FTT_NEIGHBORS] =
-#if      FTT_2D
-  {1, 0, 3, 2};
-#else  /* FTT_3D || FTT_2D3 */
-  {1, 0, 3, 2, 5, 4};
-#endif /* FTT_3D || FTT_2D3 */
-
-typedef struct _FttOct      FttOct;
-typedef struct _FttRootCell FttRootCell;
-
-static void oct_new (FttCell * parent,
-		     gboolean check_neighbors,
-		     FttCellInitFunc init,
-		     gpointer data)
-{
-  FttOct * oct;
-  guint n;
-
-  g_assert (parent != NULL);
-  g_assert (parent->children == NULL);
-
-  oct = g_malloc0 (sizeof (FttOct));
-  oct->level = ftt_cell_level (parent);
-  oct->parent = parent;
-#ifdef FTT_2D3
-  oct->dz = ftt_cell_dz (parent);
-#endif
-  ftt_cell_pos (parent, &(oct->pos));
-  ftt_cell_neighbors (parent, &(oct->neighbors));
-
-  for (n = 0; n < FTT_CELLS; n++) {
-    oct->cell[n].parent = oct;
-    oct->cell[n].flags = n;
-  }
-
-  if (check_neighbors)
-    for (n = 0; n < FTT_NEIGHBORS; n++) {
-      FttCell * neighbor = oct->neighbors.c[n];
-      
-      if (neighbor && ftt_cell_level (neighbor) < oct->level) {
-	oct_new (neighbor, check_neighbors, init, data);
-	oct->neighbors.c[n] = ftt_cell_neighbor (parent, n);
-      }
-    }
-
-  g_assert (parent->children == NULL);
-  parent->children = oct;
-
-  if (init)
-    (* init) (parent, data);
-}
-
-/**
- * ftt_cell_new:
- * @init: a #FttCellInitFunc or %NULL.
- * @data: user data to pass to @init.
- *
- * Returns: a new root #FttCell, initialized by calling @init (if not %NULL).
- */
-FttCell * ftt_cell_new (FttCellInitFunc init,
-			gpointer data)
-{
-  FttCell * cell;
-
-  cell = g_malloc0 (sizeof (FttRootCell));
-#ifdef FTT_2D3
-  FTT_ROOT_CELL (cell)->dz = 1.;
-#endif
-  if (init)
-    (* init) (cell, data);
-
-  return cell;
-}
-
-/**
- * ftt_cell_check:
- * @cell: a #FttCell.
- *
- * Returns: %TRUE if cell is consistent, %FALSE otherwise.
- */
-gboolean ftt_cell_check (const FttCell * cell)
-{
-  FttCellNeighbors neighbor;
-  guint i, level;
-
-  g_return_val_if_fail (cell != NULL, FALSE);
-
-  ftt_cell_neighbors (cell, &neighbor);
-  level = ftt_cell_level (cell);
-  for (i = 0; i < FTT_NEIGHBORS; i++)
-    if (neighbor.c[i] && 
-	!FTT_CELL_IS_LEAF (neighbor.c[i]) &&
-	ftt_cell_level (neighbor.c[i]) == level &&
-	neighbor.c[i]->children->neighbors.c[FTT_OPPOSITE_DIRECTION (i)] != cell) {
-      g_warning ("ftt_cell_check (%p): neighbor %d = %p: %d/%d",
-		 cell, 
-		 i,		 
-	  neighbor.c[i]->children->neighbors.c[FTT_OPPOSITE_DIRECTION (i)],
-		 ftt_cell_level (neighbor.c[i]),
-		 ftt_cell_level (neighbor.c[i]->children->neighbors.c[FTT_OPPOSITE_DIRECTION (i)]));
-      return FALSE;
-    }
-
-  return TRUE;
-}
-
-/**
- * ftt_cell_refine_single:
- * @cell: a #FttCell.
- * @init: a #FttCellInitFunc or %NULL.
- * @init_data: user data to pass to @init.
- *
- * Refines @cell and eventually its neighbors to ensure that the
- * neighborhood properties are preserved. The new refined cells
- * created are initialized using @init (if not %NULL).  
- */
-void ftt_cell_refine_single (FttCell * cell,
-			     FttCellInitFunc init,
-			     gpointer init_data)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (FTT_CELL_IS_LEAF (cell));
-
-  oct_new (cell, TRUE, init, init_data);
-}
-
-/**
- * ftt_cell_refine:
- * @root: a #FttCell.
- * @refine: a #FttCellRefineFunc.
- * @refine_data: user data to pass to @refine.
- * @init: a #FttCellInitFunc or %NULL.
- * @init_data: user data to pass to @init.
- *
- * Recursively refines the tree starting from @root. Each leaf of the
- * tree is tested for refinement using the @refine function. The new
- * refined cells created are initialized using @init (if not %NULL)
- * and are themselves recursively refined.  
- */
-void ftt_cell_refine (FttCell * root,
-		      FttCellRefineFunc refine,
-		      gpointer refine_data,
-		      FttCellInitFunc init,
-		      gpointer init_data)
-{
-  guint n;
-  FttOct * oct;
-
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (refine != NULL);
-
-  if (FTT_CELL_IS_LEAF (root) && !(* refine) (root, refine_data))
-    return;
-
-  if (FTT_CELL_IS_LEAF (root))
-    oct_new (root, TRUE, init, init_data);
-
-  g_assert (!FTT_CELL_IS_DESTROYED (root));
-  oct = root->children;
-  for (n = 0; n < FTT_CELLS; n++)
-    if (!FTT_CELL_IS_DESTROYED (&(oct->cell[n])))
-      ftt_cell_refine (&(oct->cell[n]), refine, refine_data, init, init_data);
-}
-
-/**
- * ftt_cell_draw:
- * @cell: a #FttCell.
- * @fp: a file pointer.
- *
- * Outputs in @fp an OOGL (geomview) representation of @cell.  
- */
-void ftt_cell_draw (const FttCell * cell, FILE * fp)
-{
-  gdouble size;
-  FttVector p;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (fp != NULL);
-
-  size = ftt_cell_size (cell)/2.;
-  ftt_cell_pos (cell, &p);
-  fprintf (fp, 
-	   "OFF 8 6 12\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n",
-	   p.x - size, p.y - size, p.z - size,
-	   p.x + size, p.y - size, p.z - size,
-	   p.x + size, p.y + size, p.z - size,
-	   p.x - size, p.y + size, p.z - size,
-	   p.x - size, p.y - size, p.z + size,
-	   p.x + size, p.y - size, p.z + size,
-	   p.x + size, p.y + size, p.z + size,
-	   p.x - size, p.y + size, p.z + size);
-  fputs ("4 3 2 1 0\n"
-	 "4 4 5 6 7\n"
-	 "4 2 3 7 6\n"
-	 "4 0 1 5 4\n"
-	 "4 0 4 7 3\n"
-	 "4 1 2 6 5\n",
-	 fp);
-}
-
-/**
- * ftt_face_draw:
- * @face: a #FttCellFace.
- * @fp: a file pointer.
- *
- * Outputs in @fp an OOGL (geomview) representation of @face.  
- */
-void ftt_face_draw (const FttCellFace * face, FILE * fp)
-{
-  gdouble size;
-  FttVector p;
-#if FTT_2D
-  static FttVector dp[FTT_NEIGHBORS][2] = {
-    {{1.,-1.,0.},{1.,1.,0.}},
-    {{-1.,1.,0.},{-1.,-1,0.}},
-    {{1.,1.,0.},{-1.,1.,0.}},
-    {{-1.,-1.,0.},{1.,-1.,0.}}
-  };
-#else  /* FTT_3D || FTT_2D3 */
-  static FttVector dp[FTT_NEIGHBORS][4] = {
-    {{1.,-1.,1.},{1.,-1.,-1.},{1.,1.,-1.},{1.,1.,1.}},
-    {{-1.,-1.,1.},{-1.,-1.,-1.},{-1.,1.,-1.},{-1.,1.,1.}},
-    {{1.,1.,1.},{1.,1.,-1.},{-1,1.,-1.},{-1.,1.,1.}},
-    {{1.,-1.,1.},{1.,-1.,-1.},{-1,-1.,-1.},{-1.,-1.,1.}},
-    {{1.,-1.,1.},{1.,1.,1.},{-1.,1.,1.},{-1.,-1.,1.}},
-    {{1.,-1.,-1.},{1.,1.,-1.},{-1.,1.,-1.},{-1.,-1.,-1.}},
-  };
-#endif /* FTT_3D ||  FTT_2D3 */
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (fp != NULL);
-
-  size = ftt_cell_size (face->cell)/2.;
-  ftt_cell_pos (face->cell, &p);
-#if FTT_2D
-  fprintf (fp, "VECT 1 2 0 2 0 %g %g 0 %g %g 0\n",
-	   p.x + dp[face->d][0].x*size, 
-	   p.y + dp[face->d][0].y*size,
-	   p.x + dp[face->d][1].x*size, 
-	   p.y + dp[face->d][1].y*size);
-#else /* FTT_3D ||  FTT_2D3 */
-  fprintf (fp, 
-	   "OFF 4 1 4 "
-	   "%g %g %g "
-	   "%g %g %g "
-	   "%g %g %g "
-	   "%g %g %g "
-	   "4 0 1 2 3\n",
-	   p.x + dp[face->d][0].x*size,
-	   p.y + dp[face->d][0].y*size,
-	   p.z + dp[face->d][0].z*size,
-	   p.x + dp[face->d][1].x*size,
-	   p.y + dp[face->d][1].y*size,
-	   p.z + dp[face->d][1].z*size,
-	   p.x + dp[face->d][2].x*size,
-	   p.y + dp[face->d][2].y*size,
-	   p.z + dp[face->d][2].z*size,
-	   p.x + dp[face->d][3].x*size,
-	   p.y + dp[face->d][3].y*size,
-	   p.z + dp[face->d][3].z*size);
-#endif /* FTT_3D ||  FTT_2D3 */
-}
-
-static gdouble coords[FTT_CELLS][3] =
-#if (FTT_2D || FTT_2D3)
- {{-1., 1.,0.},
-  { 1., 1.,0.},
-  {-1.,-1.,0.},
-  { 1.,-1.,0.}};
-#else  /* FTT_3D */
- {{-1., 1., 1.},
-  { 1., 1., 1.},
-  {-1.,-1., 1.},
-  { 1.,-1., 1.},
-  {-1., 1.,-1.},
-  { 1., 1.,-1.},
-  {-1.,-1.,-1.},
-  { 1.,-1.,-1.}};
-#endif /* FTT_3D */
-
-/**
- * ftt_cell_relative_pos:
- * @cell: a #FttCell (not a root cell).
- * @pos: a #FttVector.
- *
- * Fills @pos with the coordinates of the center of @cell relative to
- * the center of its parent cell. The length unit is the size of the
- * parent cell.
- */
-void ftt_cell_relative_pos (const FttCell * cell,
-			    FttVector * pos)
-{
-  guint n;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (pos != NULL);
-  g_return_if_fail (!FTT_CELL_IS_ROOT (cell));
-
-  n = FTT_CELL_ID (cell);
-  pos->x = coords[n][0]/4.;
-  pos->y = coords[n][1]/4.;
-  pos->z = coords[n][2]/4.;
-}
-
-/**
- * ftt_cell_pos:
- * @cell: a #FttCell.
- * @pos: a #FttVector.
- *
- * Fills @pos with the coordinates of the center of @cell.  
- */
-void ftt_cell_pos (const FttCell * cell, 
-		   FttVector * pos)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (pos != NULL);
-
-  if (FTT_CELL_IS_ROOT (cell))
-    *pos = FTT_ROOT_CELL (cell)->pos;
-  else {
-    gdouble size;
-    guint n;
-
-    size = ftt_cell_size (cell)/2.;
-    n = FTT_CELL_ID (cell);
-    pos->x = cell->parent->pos.x + coords[n][0]*size;
-    pos->y = cell->parent->pos.y + coords[n][1]*size;
-    pos->z = cell->parent->pos.z + coords[n][2]*size;
-  }
-}
-
-/**
- * ftt_corner_relative_pos:
- * @cell: a #FttCell.
- * @d: a set of perpendicular directions.
- * @pos: a #FttVector.
- *
- * Fills @pos with the coordinates (normalised by the size of @cell)
- * of the corner of @cell defined by @d relative to the position of
- * the center of @cell.
- */
-void ftt_corner_relative_pos (const FttCell * cell,
-			      FttDirection d[FTT_DIMENSION],
-			      FttVector * pos)
-{
-  static gdouble coords[FTT_NEIGHBORS][3] =
-#if FTT_2D
-    {{0.5,0.,0.},{-0.5,0.,0.},{0.,0.5,0.},{0.,-0.5,0.}};
-#else  /* FTT_3D || FTT_2D3 */
-    {{0.5,0.,0.},{-0.5,0.,0.},{0.,0.5,0.},{0.,-0.5,0.},{0.,0.,0.5},{0.,0.,-0.5}};
-#endif /* FTT_3D || FTT_2D3 */
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (pos != NULL);
-
-#if FTT_2D
-  pos->x = coords[d[0]][0] + coords[d[1]][0];
-  pos->y = coords[d[0]][1] + coords[d[1]][1];
-  pos->z = 0.;
-#else  /* FTT_3D || FTT_2D3 */
-  pos->x = coords[d[0]][0] + coords[d[1]][0] + coords[d[2]][0];
-  pos->y = coords[d[0]][1] + coords[d[1]][1] + coords[d[2]][1];
-  pos->z = coords[d[0]][2] + coords[d[1]][2] + coords[d[2]][2];
-#endif /* FTT_3D || FTT_2D3 */
-}
-
-/**
- * ftt_corner_pos:
- * @cell: a #FttCell.
- * @d: a set of perpendicular directions.
- * @pos: a #FttVector.
- *
- * Fills @pos with the coordinates of the corner of @cell defined by
- * @d.
- */
-void ftt_corner_pos (const FttCell * cell,
-		     FttDirection d[FTT_DIMENSION],
-		     FttVector * pos)
-{
-  gdouble size;
-  FttVector p;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (pos != NULL);
-
-  ftt_corner_relative_pos (cell, d, pos);
-  ftt_cell_pos (cell, &p);
-  size = ftt_cell_size (cell);
-  pos->x = p.x + size*pos->x;
-  pos->y = p.y + size*pos->y;
-  pos->z = p.z + size*pos->z;
-}
-
-/**
- * ftt_face_pos:
- * @face: a #FttCellFace.
- * @pos: a #FttVector.
- *
- * Fills @pos with the coordinates of the center of @face.
- */
-void ftt_face_pos (const FttCellFace * face, FttVector * pos)
-{
-  gdouble size;
-  static gdouble coords[FTT_NEIGHBORS][3] =
-#if FTT_2D
-  {{1.,0.,0.},{-1.,0.,0.},{0.,1.,0.},{0.,-1.,0.}};
-#else  /* FTT_3D || FTT_2D3 */
-  {{1.,0.,0.},{-1.,0.,0.},{0.,1.,0.},{0.,-1.,0.},{0.,0.,1.},{0.,0.,-1.}};
-#endif /* FTT_3D || FTT_2D3 */
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (pos != NULL);
-
-  ftt_cell_pos (face->cell, pos);
-  size = ftt_cell_size (face->cell)/2.;
-  pos->x += size*coords[face->d][0];
-  pos->y += size*coords[face->d][1];
-  pos->z += size*coords[face->d][2];
-}
-
-static void update_children_pos (FttCell * parent)
-{
-  if (!FTT_CELL_IS_LEAF (parent)) {
-    FttOct * oct = parent->children;
-    guint n;
-
-    ftt_cell_pos (parent, &(oct->pos));
-    for (n = 0; n < FTT_CELLS; n++)
-      if (!FTT_CELL_IS_DESTROYED (&(oct->cell[n])))
-	update_children_pos (&(oct->cell[n]));
-  }
-}
-
-/**
- * ftt_cell_set_pos:
- * @root: a #FttCell, root of a cell tree.
- * @pos: a #FttVector.
- *
- * Sets the position of the center of the @root cell of a cell tree to
- * @pos. Updates the positions of its children recursively.  
- */
-void ftt_cell_set_pos (FttCell * root,
-		       const FttVector * pos)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (FTT_CELL_IS_ROOT (root));
-  g_return_if_fail (pos != NULL);
-
-  FTT_ROOT_CELL (root)->pos = *pos;
-  update_children_pos (root);
-}
-
-static void update_children_level (FttCell * parent)
-{
-  if (!FTT_CELL_IS_LEAF (parent)) {
-    FttOct * oct = parent->children;
-    guint n;
-
-    oct->level = ftt_cell_level (parent);
-    for (n = 0; n < FTT_CELLS; n++)
-      if (!FTT_CELL_IS_DESTROYED (&(oct->cell[n])))
-	update_children_level (&(oct->cell[n]));
-  }
-}
-
-/**
- * ftt_cell_set_level:
- * @root: a #FttCell, root of a cell tree.
- * @level: the new level.
- *
- * Sets the level of the @root cell of a cell tree to @level.
- * Updates the levels of its children recursively.  
- */
-void ftt_cell_set_level (FttCell * root, guint level)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (FTT_CELL_IS_ROOT (root));
-
-  FTT_ROOT_CELL (root)->level = level;
-  update_children_level (root);
-}
-
-static void update_neighbor (FttCell * cell,
-			     FttDirection d,
-			     FttCellInitFunc init,
-			     gpointer init_data)
-{
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCell * neighbor = ftt_cell_neighbor_not_cached (cell, d);
-    
-    if (neighbor) {
-      FttOct * oct = cell->children;
-      FttCellChildren children;
-      guint i, n;
-
-      g_assert (oct->neighbors.c[d] == NULL ||
-		oct->neighbors.c[d] == neighbor);
-      oct->neighbors.c[d] = neighbor;
-      
-      if (ftt_cell_level (neighbor) < oct->level) {
-	oct_new (neighbor, TRUE, init, init_data);
-	oct->neighbors.c[d] = ftt_cell_neighbor (cell, d);
-      }
-      
-      g_assert (ftt_cell_level (oct->neighbors.c[d]) == oct->level);
-      n = ftt_cell_children_direction (cell, d, &children);
-      for (i = 0; i < n; i++)
-	if (children.c[i])
-	  update_neighbor (children.c[i], d, init, init_data);
-    }
-  }
-}
-
-/**
- * ftt_cell_set_neighbor:
- * @root: a #FttCell, root of a cell tree.
- * @neighbor: a #FttCell, root of a cell tree.
- * @d: a direction.
- * @init: a #FttCellInitFunc or %NULL.
- * @init_data: user data to pass to @init.
- * 
- * Sets the cell tree defined by @neighbor as the neighbor in
- * direction @d of the cell tree defined by @root.
- *
- * Any new cell created during the process is initialized using the
- * user-defined function @init.
- *
- * Both @root and @neighbor must be the roots of their respective cell
- * trees.  
- */
-void ftt_cell_set_neighbor (FttCell * root,
-			    FttCell * neighbor,
-			    FttDirection d,
-			    FttCellInitFunc init,
-			    gpointer init_data)
-{
-  FttDirection od;
-
-  g_return_if_fail (d < FTT_NEIGHBORS);
-
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (FTT_CELL_IS_ROOT (root));
-
-  g_return_if_fail (neighbor != NULL);
-  g_return_if_fail (FTT_CELL_IS_ROOT (neighbor));
-
-  g_return_if_fail (ftt_cell_level (root) == ftt_cell_level (neighbor));
-
-  g_return_if_fail (FTT_ROOT_CELL (root)->neighbors.c[d] == NULL);
-  FTT_ROOT_CELL (root)->neighbors.c[d] = neighbor;
-  update_neighbor (root, d, init, init_data);
-
-  od = FTT_OPPOSITE_DIRECTION (d);
-  g_return_if_fail (FTT_ROOT_CELL (neighbor)->neighbors.c[od] == NULL);
-  FTT_ROOT_CELL (neighbor)->neighbors.c[od] = root;
-  update_neighbor (neighbor, od, init, init_data);
-}
-
-static void update_neighbor_match (FttCell * cell,
-				   FttDirection d,
-				   FttCellInitFunc init,
-				   gpointer init_data)
-{
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCell * neighbor = ftt_cell_neighbor_not_cached (cell, d);
-    
-    if (neighbor) {
-      FttOct * oct = cell->children;
-      FttCellChildren children;
-      guint i, n;
-
-      oct->neighbors.c[d] = neighbor;
-      
-      if (ftt_cell_level (neighbor) < oct->level) {
-	oct_new (neighbor, TRUE, init, init_data);
-	oct->neighbors.c[d] = ftt_cell_neighbor (cell, d);
-      }
-      else if (FTT_CELL_IS_LEAF (neighbor))
-	oct_new (neighbor, TRUE, init, init_data);
-      
-      g_assert (ftt_cell_level (oct->neighbors.c[d]) == oct->level);
-      n = ftt_cell_children_direction (cell, d, &children);
-      for (i = 0; i < n; i++)
-	if (children.c[i])
-	  update_neighbor_match (children.c[i], d, init, init_data);
-    }
-  }
-  else { /* leaf cell */
-    FttCell * neighbor = ftt_cell_neighbor_not_cached (cell, d);
-    
-    if (neighbor) {
-      g_assert (ftt_cell_level (cell) == ftt_cell_level (neighbor));
-      if (!FTT_CELL_IS_LEAF (neighbor)) {
-	FttCellChildren children;
-	guint i, n;
-
-	oct_new (cell, TRUE, init, init_data);
-	n = ftt_cell_children_direction (cell, d, &children);
-	for (i = 0; i < n; i++)
-	  if (children.c[i])
-	    update_neighbor_match (children.c[i], d, init, init_data);
-      }
-    }
-  }
-}
-
-/**
- * ftt_cell_set_neighbor_match:
- * @root: a #FttCell, root of a cell tree.
- * @neighbor: a #FttCell, root of a cell tree.
- * @d: a direction.
- * @init: a #FttCellInitFunc or %NULL.
- * @init_data: user data to pass to @init.
- * 
- * Sets the cell tree defined by @neighbor as the neighbor in
- * direction @d of the cell tree defined by @root.
- *
- * The boundary between both trees is matched i.e. the type of the
- * face between any pair of cells belonging to each tree is always
- * %FTT_FINE_FINE. Any new cell created during the process is
- * initialized using the user-defined function @init.
- *
- * Both @root and @neighbor must be the roots of their respective cell
- * trees.
- */
-void ftt_cell_set_neighbor_match (FttCell * root,
-				  FttCell * neighbor,
-				  FttDirection d,
-				  FttCellInitFunc init,
-				  gpointer init_data)
-{
-  FttDirection od;
-
-  g_return_if_fail (d < FTT_NEIGHBORS);
-
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (FTT_CELL_IS_ROOT (root));
-
-  g_return_if_fail (neighbor != NULL);
-  g_return_if_fail (FTT_CELL_IS_ROOT (neighbor));
-
-  g_return_if_fail (ftt_cell_level (root) == ftt_cell_level (neighbor));
-
-  FTT_ROOT_CELL (root)->neighbors.c[d] = neighbor;
-  update_neighbor_match (root, d, init, init_data);
-
-  od = FTT_OPPOSITE_DIRECTION (d);
-  FTT_ROOT_CELL (neighbor)->neighbors.c[od] = root;
-  update_neighbor_match (neighbor, od, init, init_data);
-}
-
-static void cell_traverse_pre_order_all (FttCell * cell,
-					 gint max_depth,
-					 FttCellTraverseFunc func,
-					 gpointer data)
-{
-  FttCell * parent;
-
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  parent = ftt_cell_parent (cell);
-  (* func) (cell, data);
-  /* check that cell has not been deallocated by @func */
-  g_assert (parent == NULL || parent->children != NULL);
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_pre_order_all (c, max_depth, func, data);
-    }
-  }
-}
-
-static void cell_traverse_post_order_all (FttCell * cell,
-					  gint max_depth,
-					  FttCellTraverseFunc func,
-					  gpointer data)
-{
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_post_order_all (c, max_depth, func, data);
-    }
-  }
-
-  (* func) (cell, data);
-}
-
-static void cell_traverse_leafs (FttCell * cell,
-				 gint max_depth,
-				 FttCellTraverseFunc func,
-				 gpointer data)
-{
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  if (FTT_CELL_IS_LEAF (cell))
-    (* func) (cell, data);
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_leafs (c, max_depth, func, data);
-    }
-  }
-}
-
-static void cell_traverse_pre_order_nonleafs (FttCell * cell,
-					      gint max_depth,
-					      FttCellTraverseFunc func,
-					      gpointer data)
-{
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCell * parent = ftt_cell_parent (cell);
-
-    (* func) (cell, data);
-    /* check that cell has not been deallocated by @func */
-    g_assert (parent == NULL || parent->children != NULL);
-    if (!FTT_CELL_IS_LEAF (cell)) {
-      FttOct * children = cell->children;
-      guint n;
-
-      for (n = 0; n < FTT_CELLS; n++) {
-	FttCell * c = &(children->cell[n]);
-	
-	if (!FTT_CELL_IS_DESTROYED (c))
-	  cell_traverse_pre_order_nonleafs (c, max_depth, func, data);
-      }
-    }
-  }
-}
-
-static void cell_traverse_post_order_nonleafs (FttCell * cell,
-					       gint max_depth,
-					       FttCellTraverseFunc func,
-					       gpointer data)
-{
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_post_order_nonleafs (c, max_depth, func, data);
-    }
-
-    (* func) (cell, data);
-  }
-}
-
-static void cell_traverse_level (FttCell * cell,
-				 gint max_depth,
-				 FttCellTraverseFunc func,
-				 gpointer data)
-{
-  if (ftt_cell_level (cell) == max_depth)
-    (* func) (cell, data);
-  else if (!FTT_CELL_IS_LEAF (cell)) {
-    FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_level (c, max_depth, func, data);
-    }
-  }
-}
-
-static void cell_traverse_level_leafs (FttCell * cell,
-				       gint max_depth,
-				       FttCellTraverseFunc func,
-				       gpointer data)
-{
-  if (ftt_cell_level (cell) == max_depth || FTT_CELL_IS_LEAF (cell))
-    (* func) (cell, data);
-  else if (!FTT_CELL_IS_LEAF (cell)) {
-    FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_level_leafs (c, max_depth, func, data);
-    }
-  }
-}
-
-static void cell_traverse_level_non_leafs (FttCell * cell,
-					   gint max_depth,
-					   FttCellTraverseFunc func,
-					   gpointer data)
-{
-  if (ftt_cell_level (cell) == max_depth && !FTT_CELL_IS_LEAF (cell))
-    (* func) (cell, data);
-  else if (!FTT_CELL_IS_LEAF (cell)) {
-    FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_level_non_leafs (c, max_depth, func, data);
-    }
-  }
-}
-
-/**
- * ftt_cell_traverse:
- * @root: the root #FttCell of the tree to traverse.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Traverses a cell tree starting at the given root #FttCell. Calls
- * the given function for each cell visited.  
- */
-void ftt_cell_traverse (FttCell * root,
-			FttTraverseType order,
-			FttTraverseFlags flags,
-			gint max_depth,
-			FttCellTraverseFunc func,
-			gpointer data)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (func != NULL);
-
-  if (max_depth >= 0 && ftt_cell_level (root) > max_depth)
-    return;
-
-  if (flags == FTT_TRAVERSE_ALL) {
-    if (order == FTT_PRE_ORDER)
-      cell_traverse_pre_order_all (root, max_depth, func, data);
-    else
-      cell_traverse_post_order_all (root, max_depth, func, data);
-  }
-  else if ((flags & FTT_TRAVERSE_LEVEL) != 0) {
-    if ((flags & FTT_TRAVERSE_LEAFS) != 0)
-      cell_traverse_level_leafs (root, max_depth, func, data);
-    else if ((flags & FTT_TRAVERSE_NON_LEAFS) != 0)
-      cell_traverse_level_non_leafs (root, max_depth, func, data);
-    else
-      cell_traverse_level (root, max_depth, func, data);
-  }
-  else if ((flags & FTT_TRAVERSE_LEAFS) != 0)
-    cell_traverse_leafs (root, max_depth, func, data);
-  else {
-    g_return_if_fail ((flags & FTT_TRAVERSE_NON_LEAFS) != 0);
-
-    if (order == FTT_PRE_ORDER)
-      cell_traverse_pre_order_nonleafs (root, max_depth, func, data);
-    else
-      cell_traverse_post_order_nonleafs (root, max_depth, func, data);
-  }
-}
-
-/**
- * ftt_cell_traverse_condition:
- * @root: the root #FttCell of the tree to traverse.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- * @condition: the condition.
- * @cdata: user data to pass to @condition.
- *
- * Traverses a cell tree starting at the given root #FttCell. Calls
- * the given function for each cell visited.
- *
- * Traversal of any branch of the tree is stopped whenever @condition
- * is not verified.
- */
-void ftt_cell_traverse_condition (FttCell * root,
-				  FttTraverseType order,
-				  FttTraverseFlags flags,
-				  gint max_depth,
-				  FttCellTraverseFunc func,
-				  gpointer data,
-				  gboolean (* condition) (FttCell *, gpointer),
-				  gpointer cdata)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (func != NULL);
-  g_return_if_fail (condition != NULL);
-
-  if ((max_depth >= 0 && ftt_cell_level (root) > max_depth) ||
-      !(* condition) (root, cdata))
-    return;
-
-  if (order == FTT_PRE_ORDER &&
-      (flags == FTT_TRAVERSE_ALL ||
-       ((flags & FTT_TRAVERSE_LEAFS) != 0 && FTT_CELL_IS_LEAF (root)) ||
-       ((flags & FTT_TRAVERSE_NON_LEAFS) != 0 && !FTT_CELL_IS_LEAF (root))))
-    (* func) (root, data);
-  if (!FTT_CELL_IS_LEAF (root)) {
-    struct _FttOct * children = root->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if (!FTT_CELL_IS_DESTROYED (c))
-	ftt_cell_traverse_condition (c, order, flags, max_depth, func, data, condition, cdata);
-    }
-  }
-  if (order == FTT_POST_ORDER &&
-      (flags == FTT_TRAVERSE_ALL ||
-       ((flags & FTT_TRAVERSE_LEAFS) != 0 && FTT_CELL_IS_LEAF (root)) ||
-       ((flags & FTT_TRAVERSE_NON_LEAFS) != 0 && !FTT_CELL_IS_LEAF (root))))
-    (* func) (root, data);
-}
-
-/**
- * ftt_cell_bbox:
- * @cell: a #FttCell.
- * @bb: a #GtsBBox.
- *
- * Fills @bb with the bounding box of @cell.
- */
-void ftt_cell_bbox (const FttCell * cell, GtsBBox * bb)
-{
-  FttVector p;
-  gdouble h;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (bb != NULL);
-  
-  h = ftt_cell_size (cell)/1.99999;
-  ftt_cell_pos (cell, &p);
-  bb->x1 = p.x - h; bb->y1 = p.y - h;
-  bb->x2 = p.x + h; bb->y2 = p.y + h; 
-#if FTT_2D
-  bb->z1 = bb->z2 = 0.;
-#elif FTT_2D3
-  bb->z1 = p.z - 1./1.99999; bb->z2 = p.z + 1./1.99999;
-#else  /* 3D */
-  bb->z1 = p.z - h; bb->z2 = p.z + h;
-#endif /* 3D */
-}
-
-static gboolean cell_is_in_box (FttCell * cell, gpointer data)
-{
-  GtsBBox * box = data;
-  GtsBBox bb;
-
-  ftt_cell_bbox (cell, &bb);
-  return gts_bboxes_are_overlapping (&bb, box);
-}
-
-/**
- * ftt_cell_traverse_box:
- * @root: the root #FttCell of the tree to traverse.
- * @box: a #GtsBBox.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Traverses a cell tree starting at the given root #FttCell. Calls
- * the given function for each cell visited. Only the cells partly or
- * totally contained within @box are visited.  
- */
-void ftt_cell_traverse_box (FttCell * root,
-			    GtsBBox * box,
-			    FttTraverseType order,
-			    FttTraverseFlags flags,
-			    gint max_depth,
-			    FttCellTraverseFunc func,
-			    gpointer data)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (box != NULL);
-  g_return_if_fail (func != NULL);
-
-  ftt_cell_traverse_condition (root, order, flags, max_depth, func, data, cell_is_in_box, box);
-}
-
-static void cell_traverse_boundary_pre_order_all (FttCell * cell,
-						  FttDirection d,
-						  gint max_depth,
-						  FttCellTraverseFunc func,
-						  gpointer data)
-{
-  FttCell * parent;
-
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  parent = ftt_cell_parent (cell);
-  (* func) (cell, data);
-  /* check that cell has not been deallocated by @func */
-  g_assert (parent == NULL || parent->children != NULL);
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren children;
-    guint i, n;
-
-    n = ftt_cell_children_direction (cell, d, &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i])
-	cell_traverse_boundary_pre_order_all (children.c[i], d, 
-					      max_depth, func, data);
-  }
-}
-
-static void cell_traverse_boundary_post_order_all (FttCell * cell,
-						   FttDirection d,
-						   gint max_depth,
-						   FttCellTraverseFunc func,
-						   gpointer data)
-{
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren children;
-    guint i, n;
-
-    n = ftt_cell_children_direction (cell, d, &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i])
-	cell_traverse_boundary_post_order_all (children.c[i], d, 
-					       max_depth, func, data);
-  }
-
-  (* func) (cell, data);
-}
-
-static void cell_traverse_boundary_leafs (FttCell * cell,
-					  FttDirection d,
-					  gint max_depth,
-					  FttCellTraverseFunc func,
-					  gpointer data)
-{
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  if (FTT_CELL_IS_LEAF (cell))
-    (* func) (cell, data);
-  else {
-    FttCellChildren children;
-    guint i, n;
-
-    n = ftt_cell_children_direction (cell, d, &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i])
-	cell_traverse_boundary_leafs (children.c[i], d, 
-				      max_depth, func, data);
-  }
-}
-
-static void cell_traverse_boundary_pre_order_nonleafs (FttCell * cell,
-						       FttDirection d,
-						       gint max_depth,
-				   FttCellTraverseFunc func,
-						       gpointer data)
-{
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCell * parent = ftt_cell_parent (cell);
-
-    (* func) (cell, data);
-    /* check that cell has not been deallocated by @func */
-    g_assert (parent == NULL || parent->children != NULL);
-    if (!FTT_CELL_IS_LEAF (cell)) {
-      FttCellChildren children;
-      guint i, n;
-
-      n = ftt_cell_children_direction (cell, d, &children);
-      for (i = 0; i < n; i++)
-	if (children.c[i])
-	  cell_traverse_boundary_pre_order_nonleafs (children.c[i], d, 
-						     max_depth, func, data);
-    }
-  }
-}
-
-static void cell_traverse_boundary_post_order_nonleafs (FttCell * cell,
-							FttDirection d,
-							gint max_depth,
-				    FttCellTraverseFunc func,
-							gpointer data)
-{
-  if (max_depth >= 0 && ftt_cell_level (cell) > max_depth)
-    return;
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren children;
-    guint i, n;
-
-    n = ftt_cell_children_direction (cell, d, &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i])
-	cell_traverse_boundary_post_order_nonleafs (children.c[i], d, 
-						    max_depth, func, data);
-    (* func) (cell, data);
-  }
-}
-
-static void cell_traverse_boundary_level (FttCell * cell,
-					  FttDirection d,
-					  gint max_depth,
-					  FttCellTraverseFunc func,
-					  gpointer data)
-{
-  if (ftt_cell_level (cell) == max_depth)
-    (* func) (cell, data);
-  else if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren children;
-    guint i, n;
-
-    n = ftt_cell_children_direction (cell, d, &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i])
-	cell_traverse_boundary_level (children.c[i], d, 
-				      max_depth, func, data);
-  }
-}
-
-static void cell_traverse_boundary_level_leafs (FttCell * cell,
-						FttDirection d,
-						gint max_depth,
-						FttCellTraverseFunc func,
-						gpointer data)
-{
-  if (ftt_cell_level (cell) == max_depth || FTT_CELL_IS_LEAF (cell))
-    (* func) (cell, data);
-  else if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren children;
-    guint i, n;
-
-    n = ftt_cell_children_direction (cell, d, &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i])
-	cell_traverse_boundary_level_leafs (children.c[i], d, 
-					    max_depth, func, data);
-  }
-}
-
-static void cell_traverse_boundary_level_non_leafs (FttCell * cell,
-						    FttDirection d,
-						    gint max_depth,
-						    FttCellTraverseFunc func,
-						    gpointer data)
-{
-  if (ftt_cell_level (cell) == max_depth && !FTT_CELL_IS_LEAF (cell))
-    (* func) (cell, data);
-  else if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren children;
-    guint i, n;
-
-    n = ftt_cell_children_direction (cell, d, &children);
-    for (i = 0; i < n; i++)
-      if (children.c[i])
-	cell_traverse_boundary_level_non_leafs (children.c[i], d, 
-						max_depth, func, data);
-  }
-}
-
-/**
- * ftt_cell_traverse_boundary:
- * @root: the root #FttCell of the tree to traverse.
- * @d: the direction of the boundary to traverse.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- *
- * Traverses the boundary of a cell tree in direction @d starting at
- * the given root #FttCell. Calls the given function for each node
- * visited.  
- */
-void ftt_cell_traverse_boundary (FttCell * root,
-				 FttDirection d,
-				 FttTraverseType order,
-				 FttTraverseFlags flags,
-				 gint max_depth,
-				 FttCellTraverseFunc func,
-				 gpointer data)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (d < FTT_NEIGHBORS);
-  g_return_if_fail (func != NULL);
-
-  if (max_depth >= 0 && ftt_cell_level (root) > max_depth)
-    return;
-
-  if (flags == FTT_TRAVERSE_ALL) {
-    if (order == FTT_PRE_ORDER)
-      cell_traverse_boundary_pre_order_all (root, d, max_depth, func, data);
-    else
-      cell_traverse_boundary_post_order_all (root, d, max_depth, func, data);
-  }
-  else if ((flags & FTT_TRAVERSE_LEVEL) != 0) {
-    if ((flags & FTT_TRAVERSE_LEAFS) != 0)
-      cell_traverse_boundary_level_leafs (root, d, max_depth, func, data);
-    else if ((flags & FTT_TRAVERSE_NON_LEAFS) != 0)
-      cell_traverse_boundary_level_non_leafs (root, d, max_depth, func, data);
-    else
-      cell_traverse_boundary_level (root, d, max_depth, func, data);
-  }
-  else if ((flags & FTT_TRAVERSE_LEAFS) != 0)
-    cell_traverse_boundary_leafs (root, d, max_depth, func, data);
-  else {
-    g_return_if_fail ((flags & FTT_TRAVERSE_NON_LEAFS) != 0);
-
-    if (order == FTT_PRE_ORDER)
-      cell_traverse_boundary_pre_order_nonleafs (root, d, 
-						 max_depth, func, data);
-    else
-      cell_traverse_boundary_post_order_nonleafs (root, d, 
-						  max_depth, func, data);
-  }
-}
-
-static void oct_destroy (FttOct * oct,
-			 FttCellCleanupFunc cleanup,
-			 gpointer data)
-{
-  guint n;
-
-  g_return_if_fail (oct != NULL);
-  g_return_if_fail (oct->parent->children == oct);
-
-  oct->parent->children = NULL;
-  for (n = 0; n < FTT_CELLS; n++)
-    ftt_cell_destroy (&(oct->cell[n]), cleanup, data);
-  g_free (oct);
-}
-
-/**
- * ftt_cell_destroy:
- * @cell: a #FttCell.
- * @cleanup: a #FttCellCleanupFunc to call before destroying @cell or %NULL.
- * @data: user data to pass to @cleanup.
- *
- * Frees all memory allocated for @cell and its descendants.
- *
- * The user-defined function @cleanup is called prior to freeing memory.
- */
-void ftt_cell_destroy (FttCell * cell,
-		       FttCellCleanupFunc cleanup,
-		       gpointer data)
-{
-  FttCellNeighbors neighbor;
-  guint i, level;
-
-  g_return_if_fail (cell != NULL);
-
-  if (FTT_CELL_IS_DESTROYED (cell))
-    return;
-
-  ftt_cell_neighbors (cell, &neighbor);
-  level = ftt_cell_level (cell);
-
-  if (cleanup)
-    (* cleanup) (cell, data);
-  cell->flags |= FTT_FLAG_DESTROYED;
-
-  /* destroy children */
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    oct_destroy (cell->children, cleanup, data);
-    cell->children = NULL;
-  }
-
-  /* update relationships for neighbors */
-  for (i = 0; i < FTT_NEIGHBORS; i++)
-    if (neighbor.c[i] && ftt_cell_level (neighbor.c[i]) == level) {
-      FttDirection od = FTT_OPPOSITE_DIRECTION (i);
-
-      if (FTT_CELL_IS_ROOT (neighbor.c[i])) {
-	FttCell * opneighbor = FTT_ROOT_CELL (neighbor.c[i])->neighbors.c[od];
-
-	g_assert (opneighbor == cell);
-	FTT_ROOT_CELL (neighbor.c[i])->neighbors.c[od] = NULL;
-      }
-      if (!FTT_CELL_IS_LEAF (neighbor.c[i]))
-	neighbor.c[i]->children->neighbors.c[od] = NULL;
-    }
-  
-  if (FTT_CELL_IS_ROOT (cell))
-    g_free (cell);
-  else if (!FTT_CELL_IS_LEAF (cell->parent->parent)) {
-    /* if parent Oct is not already destroyed and empty destroy it */
-    FttOct * parent = cell->parent;
-    gboolean empty = TRUE;
-
-    for (i = 0; i < FTT_CELLS && empty; i++)
-      if (!FTT_CELL_IS_DESTROYED (&(parent->cell[i])))
-	empty = FALSE;
-    if (empty)
-      oct_destroy (parent, NULL, NULL);
-  }
-}
-
-/**
- * ftt_cell_destroy_root:
- * @root: the root cell of a cell tree.
- * @children: a #FttCellChildren.
- * @cleanup: a #FttCellCleanupFunc to call before destroying a cell.
- * @data: user data to pass to @cleanup.
- *
- * Destroys the root cell of a cell tree but not its children. Each
- * child becomes the root cell of a new cell tree. The new (orphaned)
- * children are returned in @children.
- *
- * Note that the function will fail if @root is also a leaf cell.
- */
-void ftt_cell_destroy_root (FttCell * root,
-			    FttCellChildren * children,
-			    FttCellCleanupFunc cleanup,
-			    gpointer data)
-{
-  guint i;
-  FttCellNeighbors neighbor;
-  FttCellChildren child;
-
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (FTT_CELL_IS_ROOT (root));
-  g_return_if_fail (!FTT_CELL_IS_LEAF (root));
-  g_return_if_fail (!FTT_CELL_IS_DESTROYED (root));
-  g_return_if_fail (children != NULL);
-
-  if (cleanup)
-    (* cleanup) (root, data);
-  root->flags |= FTT_FLAG_DESTROYED;
-
-  ftt_cell_neighbors (root, &neighbor);
-  for (i = 0; i < FTT_NEIGHBORS; i++)
-    if (neighbor.c[i]) {
-      FttDirection od = FTT_OPPOSITE_DIRECTION (i);
-      
-      g_assert (FTT_CELL_IS_ROOT (neighbor.c[i]));
-      g_assert (FTT_ROOT_CELL (neighbor.c[i])->neighbors.c[od] == root);
-      FTT_ROOT_CELL (neighbor.c[i])->neighbors.c[od] = NULL;
-
-      if (!FTT_CELL_IS_LEAF (neighbor.c[i]))
-	neighbor.c[i]->children->neighbors.c[od] = NULL;
-    }
-
-  ftt_cell_children (root, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i]) {
-      FttCell * newc;
-      FttDirection d;
-
-      newc = g_malloc0 (sizeof (FttRootCell));
-      newc->data = child.c[i]->data;
-      newc->children = child.c[i]->children;
-      ftt_cell_pos (child.c[i], &FTT_ROOT_CELL (newc)->pos);
-      FTT_ROOT_CELL (newc)->level = ftt_cell_level (child.c[i]);
-      ftt_cell_neighbors (child.c[i], &FTT_ROOT_CELL (newc)->neighbors);
-      g_return_if_fail (!FTT_CELL_IS_LEAF (newc));
-      newc->children->parent = newc;
-      children->c[i] = newc;
-
-      neighbor = FTT_ROOT_CELL (newc)->neighbors;
-      for (d = 0; d < FTT_NEIGHBORS; d++)
-	if (neighbor.c[d]) {
-	  FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-
-	  if (FTT_CELL_IS_ROOT (neighbor.c[d])) {
-	    g_assert (FTT_ROOT_CELL (neighbor.c[d])->neighbors.c[od] 
-		      == child.c[i]);
-	    FTT_ROOT_CELL (neighbor.c[d])->neighbors.c[od] = newc;
-	  }
-	  if (!FTT_CELL_IS_LEAF (neighbor.c[d])) {
-	    g_assert (neighbor.c[d]->children->neighbors.c[od] == child.c[i]);
-	    neighbor.c[d]->children->neighbors.c[od] = newc;
-	  }
-	}
-    }
-    else
-      children->c[i] = NULL;
-
-  g_free (root->children);
-  g_free (root);
-}
-
-/**
- * ftt_cell_flatten:
- * @root: the root of the cell tree to flatten.
- * @d: the direction in which to flatten.
- * @cleanup: a #FttCellCleanupFunc to call before destroying a cell.
- * @data: user data to pass to @cleanup.
- *
- * Recursively destroys all the cells of the tree defined by @root
- * which do not form the boundary in direction @d. The resulting cell
- * tree is in effect a domain "flattened" in direction @d.
- *
- * The resulting domain is always one-cell thick in direction @d.  
- */
-void ftt_cell_flatten (FttCell * root,
-		       FttDirection d,
-		       FttCellCleanupFunc cleanup,
-		       gpointer data)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (d < FTT_NEIGHBORS);
-
-#if FTT_2D3
-  if (d >= FTT_NEIGHBORS_2D)
-    return;
-#endif /* 2D3 */
-
-  if (!FTT_CELL_IS_LEAF (root)) {
-    struct _FttOct * oct;
-    guint i;
-#if (FTT_2D || FTT_2D3)
-    static gint index[FTT_NEIGHBORS_2D][FTT_CELLS/2] =
-    {{1, 3},
-     {0, 2},
-     {0, 1},
-     {2, 3}};
-#else  /* FTT_3D */
-    static gint index[FTT_NEIGHBORS][FTT_CELLS/2] =
-    {{1, 3, 5, 7},
-     {0, 2, 4, 6},
-     {0, 1, 4, 5},
-     {2, 3, 6, 7},
-     {0, 1, 2, 3},
-     {4, 5, 6, 7}};
-#endif /* FTT_3D */
-    FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-
-    oct = root->children;
-    for (i = 0; i < FTT_CELLS/2; i++) {
-      FttCell * c = &(oct->cell[index[od][i]]);
-      if (!FTT_CELL_IS_DESTROYED (c))
-	ftt_cell_destroy (c, cleanup, data);
-    }
-    if (!FTT_CELL_IS_LEAF (root))
-      for (i = 0; i < FTT_CELLS/2; i++)
-	if (!FTT_CELL_IS_DESTROYED (&(oct->cell[index[d][i]])))
-	  ftt_cell_flatten (&(oct->cell[index[d][i]]), d, cleanup, data);
-  }
-}
-
-/**
- * ftt_cell_locate:
- * @root: a #FttCell.
- * @target: position of the point to look for.
- * @max_depth: maximum depth to consider (-1 means no restriction, see below for -2).
- *
- * Locates the cell of the tree defined by @root containing
- * @target. This is done efficiently in log(n) operations by using the
- * topology of the tree.
- *
- * If @max_depth is set to -2, the finest cell containing @target is
- * returned. This cell is not necessarily a leaf-cell in contrast to
- * the case where @max_depth is set to -1.
- *
- * Returns: a #FttCell of the tree defined by @root and
- * containing (boundary included) the point defined by @target or
- * %NULL if @target is not contained in any cell of @root.  
- */
-FttCell * ftt_cell_locate (FttCell * root, 
-			   FttVector target,
-			   gint max_depth)
-{
-  FttVector pos;
-  gdouble size;
-
-  g_return_val_if_fail (root != NULL, NULL);
-
-  ftt_cell_pos (root, &pos);
-  size = ftt_cell_size (root)/2.;
-
-  if (target.x > pos.x + size || target.x < pos.x - size ||
-      target.y > pos.y + size || target.y < pos.y - size
-#if FTT_2D3
-      || target.z > pos.z + 0.5 || target.z < pos.z - 0.5
-#elif !FTT_2D
-      || target.z > pos.z + size || target.z < pos.z - size
-#endif
-      )
-    return NULL;
-
-  do {
-    if (FTT_CELL_IS_LEAF (root) || ftt_cell_level (root) == max_depth)
-      return root;
-#if (FTT_2D || FTT_2D3)
-    static guint index[2][2] = {{2,3},{0,1}};
-    guint n = index[target.y > pos.y][target.x > pos.x];
-#else  /* 3D */
-    static guint index[2][2][2] = {{{6,7},{4,5}},{{2,3},{0,1}}};
-    guint n = index[target.z > pos.z][target.y > pos.y][target.x > pos.x];
-#endif /* 3D */
-    root = &(root->children->cell[n]);
-    size /= 2.;
-    pos.x += coords[n][0]*size;
-    pos.y += coords[n][1]*size;
-#if !(FTT_2D || FTT_2D3)
-    pos.z += coords[n][2]*size;
-#endif /* 3D */
-  } while (!FTT_CELL_IS_DESTROYED (root));
-  return max_depth == -2 ? ftt_cell_parent (root) : NULL;
-}
-
-static void bubble_sort (FttCellChildren * child, gdouble * d)
-{
-  guint i, j;
-
-  for (i = 0; i < FTT_CELLS - 1; i++)
-    for (j = 0; j < FTT_CELLS - 1 - i; j++)
-      if (d[j+1] < d[j]) {
-	gdouble tmp = d[j];
-	FttCell * cell = child->c[j];
-	d[j] = d[j+1];
-	d[j+1] = tmp;
-	child->c[j] = child->c[j+1];
-	child->c[j+1] = cell;
-      }
-}
-
-/**
- * ftt_cell_point_distance2_min:
- * @cell: a #FttCell.
- * @p: a #GtsPoint.
- * 
- * Returns: the square of the minimum distance between @cell and @p.
- */
-gdouble ftt_cell_point_distance2_min (FttCell * cell, GtsPoint * p)
-{
-  GtsBBox bb;
-  gdouble dmin, xd1, xd2, yd1, yd2, zd1, zd2;
-    
-  g_return_val_if_fail (cell != NULL, G_MAXDOUBLE);
-  g_return_val_if_fail (p != NULL, G_MAXDOUBLE);
-
-  ftt_cell_bbox (cell, &bb);
-
-  xd1 = (bb.x1 - p->x)*(bb.x1 - p->x);
-  xd2 = (p->x - bb.x2)*(p->x - bb.x2);
-  yd1 = (bb.y1 - p->y)*(bb.y1 - p->y);
-  yd2 = (p->y - bb.y2)*(p->y - bb.y2);
-  zd1 = (bb.z1 - p->z)*(bb.z1 - p->z);
-  zd2 = (p->z - bb.z2)*(p->z - bb.z2);
-  
-  dmin = p->x < bb.x1 ? xd1 : p->x > bb.x2 ? xd2 : 0.0;
-  dmin += p->y < bb.y1 ? yd1 : p->y > bb.y2 ? yd2 : 0.0;
-  dmin += p->z < bb.z1 ? zd1 : p->z > bb.z2 ? zd2 : 0.0;
-
-  return dmin;
-}
-
-void ftt_cell_point_distance2_internal (FttCell * root,
-					GtsPoint * p,
-					gdouble d,
-					gdouble (* distance2) (FttCell *, GtsPoint *, gpointer),
-					gpointer data,
-					FttCell ** closest,
-					gdouble * dmin)
-{
-  if (FTT_CELL_IS_LEAF (root)) {
-    if (d < *dmin) {
-      *dmin = d;
-      if (closest)
-	*closest = root;
-    }
-  }
-  else {
-    FttCellChildren child;
-    gdouble dc[FTT_CELLS];
-    guint i;
-
-    ftt_cell_children (root, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      dc[i] = child.c[i] ? (* distance2) (child.c[i], p, data) : G_MAXDOUBLE;
-    bubble_sort (&child, dc);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (dc[i] < *dmin)
-	ftt_cell_point_distance2_internal (child.c[i], p, dc[i], distance2, data, closest, dmin);
-  }
-}
-
-/**
- * ftt_cell_point_distance2:
- * @root: a #FttCell.
- * @p: a #GtsPoint.
- * @distance2: the squared distance function.
- * @data: user data to pass to @distance2.
- * @closest: where to return the closest cell or %NULL.
- *
- * For non-leafs cells @distance2 must return a lower-bound for the
- * minimum distance (using for example ftt_cell_point_distance2_min()).
- *
- * Returns: the square of the minimum distance measured according to
- * @distance2 between @p and a leaf cell of @root.
- */
-gdouble ftt_cell_point_distance2 (FttCell * root,
-				  GtsPoint * p,
-				  gdouble (* distance2) (FttCell *, GtsPoint *, gpointer),
-				  gpointer data,
-				  FttCell ** closest)
-{
-  gdouble d, dmin = G_MAXDOUBLE;
-
-  g_return_val_if_fail (root != NULL, dmin);
-  g_return_val_if_fail (p != NULL, dmin);
-  g_return_val_if_fail (distance2 != NULL, dmin);
-
-  if (closest)
-    *closest = NULL;
-  d = (* distance2) (root, p, data);
-  if (d < dmin)
-    ftt_cell_point_distance2_internal (root, p, d, distance2, data, closest, &dmin);
-  return dmin;
-}
-
-/**
- * ftt_cell_depth:
- * @root: a #FttCell.
- *
- * Returns: the depth of the tree starting at @root, i.e. the maximum
- * level of any cell descendant of @root.  
- */
-guint ftt_cell_depth (const FttCell * root)
-{
-  guint depth;
-
-  g_return_val_if_fail (root != NULL, 0);
-
-  depth = ftt_cell_level (root);
-  if (root->children) {
-    FttOct * oct = root->children;
-    guint n;
-    
-    for (n = 0; n < FTT_CELLS; n++) 
-      if (!FTT_CELL_IS_DESTROYED (&(oct->cell[n]))) {
-	guint d = ftt_cell_depth (&(oct->cell[n]));
-	if (d > depth)
-	  depth = d;
-      }
-  }
-  return depth;
-}
-
-/**
- * ftt_cell_write:
- * @root: a #FttCell.
- * @max_depth: the maximum depth at which to stop writing (-1 means no limit).
- * @fp: a file pointer.
- * @write: a #FttCellWriteFunc function or %NULL.
- * @data: user data to pass to @write.
- *
- * Writes in the file pointed to by @fp a text representation of the
- * cell tree starting at @root. If not %NULL, the user-defined
- * function @write is used to write the extra user data associated
- * with each cell.  
- */
-void ftt_cell_write (const FttCell * root,
-		     gint max_depth,
-		     FILE * fp,
-		     FttCellWriteFunc write,
-		     gpointer data)
-{
-  guint flags;
-
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (fp != NULL);
-
-  flags = root->flags;
-  if (FTT_CELL_IS_LEAF (root) || ftt_cell_level (root) == max_depth)
-    flags |= FTT_FLAG_LEAF;
-
-  fprintf (fp, "%u", flags);
-  if (write && !FTT_CELL_IS_DESTROYED (root))
-    (* write) (root, fp, data);
-  fputc ('\n', fp);
-
-  if ((flags & FTT_FLAG_LEAF) == 0) {
-    FttOct * oct;
-    guint i;
-
-    oct = root->children;
-    for (i = 0; i < FTT_CELLS; i++)
-      ftt_cell_write (&(oct->cell[i]), max_depth, fp, write, data);
-  }
-}
-
-/**
- * ftt_cell_write_binary:
- * @root: a #FttCell.
- * @max_depth: the maximum depth at which to stop writing (-1 means no limit).
- * @fp: a file pointer.
- * @write: a #FttCellWriteFunc function or %NULL.
- * @data: user data to pass to @write.
- *
- * Writes in the file pointed to by @fp a binary representation of the
- * cell tree starting at @root. If not %NULL, the user-defined
- * function @write is used to write the extra user data associated
- * with each cell.  
- */
-void ftt_cell_write_binary (const FttCell * root,
-			    gint max_depth,
-			    FILE * fp,
-			    FttCellWriteFunc write,
-			    gpointer data)
-{
-  guint flags;
-
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (fp != NULL);
-
-  flags = root->flags;
-  if (FTT_CELL_IS_LEAF (root) || ftt_cell_level (root) == max_depth)
-    flags |= FTT_FLAG_LEAF;
-
-  fwrite (&flags, sizeof (guint), 1, fp);
-  if (write && !FTT_CELL_IS_DESTROYED (root))
-    (* write) (root, fp, data);
-
-  if ((flags & FTT_FLAG_LEAF) == 0) {
-    FttOct * oct;
-    guint i;
-
-    oct = root->children;
-    for (i = 0; i < FTT_CELLS; i++)
-      ftt_cell_write_binary (&(oct->cell[i]), max_depth, fp, write, data);
-  }
-}
-
-#define FTT_CELL_IS_FLAGGED_LEAF(cell) (((cell)->flags & FTT_FLAG_LEAF) != 0)
-
-static gboolean oct_read (FttCell * parent, 
-			  GtsFile * fp,
-			  FttCellReadFunc read,
-			  gpointer data);
-
-static gboolean cell_read (FttCell * cell, 
-			   GtsFile * fp,
-			   FttCellReadFunc read,
-			   gpointer data)
-{
-  guint flags;
-
-  if (fp->type != GTS_INT) {
-    gts_file_error (fp, "expecting an integer (flags)");
-    return FALSE;
-  }
-  flags = atoi (fp->token->str);
-  if (FTT_CELL_ID (cell) != (flags & FTT_FLAG_ID)) {
-    gts_file_error (fp, "FTT_CELL_ID (cell) `%d' != (flags & FTT_FLAG_ID) `%d'",
-		    FTT_CELL_ID (cell), (flags & FTT_FLAG_ID));
-    return FALSE;
-  }
-  cell->flags = flags;
-
-  gts_file_next_token (fp);
-  if (fp->type != '\n' && read && !FTT_CELL_IS_DESTROYED (cell))
-    (* read) (cell, fp, data);
-  if (fp->type == GTS_ERROR)
-    return FALSE;
-  gts_file_first_token_after (fp, '\n');
-
-  if (!FTT_CELL_IS_DESTROYED (cell) && !FTT_CELL_IS_FLAGGED_LEAF (cell))
-    return oct_read (cell, fp, read, data);
-
-  cell->flags &= ~FTT_FLAG_LEAF;
-  return TRUE;
-}
-
-static gboolean oct_read (FttCell * parent,
-			  GtsFile * fp,
-			  FttCellReadFunc read,
-			  gpointer data)
-{
-  FttOct * oct;
-  guint n;
-
-  oct = g_malloc0 (sizeof (FttOct));
-  oct->level = ftt_cell_level (parent);
-  oct->parent = parent;
-#ifdef FTT_2D3
-  oct->dz = ftt_cell_dz (parent);
-#endif
-  parent->children = oct;
-  ftt_cell_pos (parent, &(oct->pos));
-  
-  for (n = 0; n < FTT_CELLS; n++) {
-    oct->cell[n].parent = oct;
-    oct->cell[n].flags = n;
-  }
-
-  for (n = 0; n < FTT_CELLS; n++)
-    if (!cell_read (&(oct->cell[n]), fp, read, data))
-      return FALSE;
-  
-  return TRUE;
-}
-
-static void set_neighbors (FttCell * cell)
-{
-  ftt_cell_neighbors (cell, &(cell->children->neighbors));
-}
-
-/**
- * ftt_cell_read:
- * @fp: a #GtsFile.
- * @read: a #FttCellReadFunc function or %NULL.
- * @data: user data to pass to @read.
- *
- * If an error occurs (i.e. corrupted file or file format incorrect),
- * the @error field of @fp is set. A possibly incomplete tree is then
- * returned.
- *
- * Returns: the root cell of the tree contained in the file pointed to
- * by @fp. If not %NULL, the user-defined function @read is used to
- * read the extra user data associated with each cell.  
- */
-FttCell * ftt_cell_read (GtsFile * fp,
-			 FttCellReadFunc read,
-			 gpointer data)
-{
-  FttCell * root;
-  guint l, depth;
-
-  g_return_val_if_fail (fp != NULL, NULL);
-
-  root = ftt_cell_new (NULL, NULL);
-  cell_read (root, fp, read, data);
-
-  depth = ftt_cell_depth (root);
-  for (l = 0; l < depth; l++)
-    ftt_cell_traverse (root, FTT_PRE_ORDER, 
-		       FTT_TRAVERSE_LEVEL|FTT_TRAVERSE_NON_LEAFS, l, 
-		       (FttCellTraverseFunc) set_neighbors, NULL);
-
-  return root;
-}
-
-static gboolean oct_read_binary (FttCell * parent, 
-				 GtsFile * fp,
-				 FttCellReadFunc read,
-				 gpointer data);
-
-static gboolean cell_read_binary (FttCell * cell, 
-				  GtsFile * fp,
-				  FttCellReadFunc read,
-				  gpointer data)
-{
-  guint flags;
-
-  if (gts_file_read (fp, &flags, sizeof (guint), 1) != 1) {
-    gts_file_error (fp, "expecting an integer (flags)");
-    return FALSE;
-  }
-  if (FTT_CELL_ID (cell) != (flags & FTT_FLAG_ID)) {
-    gts_file_error (fp, "FTT_CELL_ID (cell) `%d' != (flags & FTT_FLAG_ID) `%d'",
-		    FTT_CELL_ID (cell), (flags & FTT_FLAG_ID));
-    return FALSE;
-  }
-  cell->flags = flags;
-
-  if (read && !FTT_CELL_IS_DESTROYED (cell))
-    (* read) (cell, fp, data);
-  if (fp->type == GTS_ERROR)
-    return FALSE;
-
-  if (!FTT_CELL_IS_DESTROYED (cell) && !FTT_CELL_IS_FLAGGED_LEAF (cell))
-    return oct_read_binary (cell, fp, read, data);
-
-  cell->flags &= ~FTT_FLAG_LEAF;
-  return TRUE;
-}
-
-static gboolean oct_read_binary (FttCell * parent,
-				 GtsFile * fp,
-				 FttCellReadFunc read,
-				 gpointer data)
-{
-  FttOct * oct;
-  guint n;
-
-  oct = g_malloc0 (sizeof (FttOct));
-  oct->level = ftt_cell_level (parent);
-  oct->parent = parent;
-#ifdef FTT_2D3
-  oct->dz = ftt_cell_dz (parent);
-#endif
-  parent->children = oct;
-  ftt_cell_pos (parent, &(oct->pos));
-  
-  for (n = 0; n < FTT_CELLS; n++) {
-    oct->cell[n].parent = oct;
-    oct->cell[n].flags = n;
-  }
-
-  for (n = 0; n < FTT_CELLS; n++)
-    if (!cell_read_binary (&(oct->cell[n]), fp, read, data))
-      return FALSE;
-  
-  return TRUE;
-}
-
-/**
- * ftt_cell_read_binary:
- * @fp: a #GtsFile.
- * @read: a #FttCellReadFunc function or %NULL.
- * @data: user data to pass to @read.
- *
- * If an error occurs (i.e. corrupted file or file format incorrect),
- * the @error field of @fp is set. A possibly incomplete tree is then
- * returned.
- *
- * Returns: the root cell of the tree contained in the file pointed to
- * by @fp. If not %NULL, the user-defined function @read is used to
- * read the extra user data associated with each cell.  
- */
-FttCell * ftt_cell_read_binary (GtsFile * fp,
-				FttCellReadFunc read,
-				gpointer data)
-{
-  FttCell * root;
-  guint l, depth;
-
-  g_return_val_if_fail (fp != NULL, NULL);
-
-  root = ftt_cell_new (NULL, NULL);
-  cell_read_binary (root, fp, read, data);
-
-  depth = ftt_cell_depth (root);
-  for (l = 0; l < depth; l++)
-    ftt_cell_traverse (root, FTT_PRE_ORDER, 
-		       FTT_TRAVERSE_LEVEL|FTT_TRAVERSE_NON_LEAFS, l, 
-		       (FttCellTraverseFunc) set_neighbors, NULL);
-
-  return root;
-}
-
-/**
- * ftt_refine_corner:
- * @cell: a #FttCell.
- *
- * Returns: %TRUE if @cell is a leaf and if any of its "corner"
- * neighbors are more than one level more refined, %FALSE otherwise
- * (see figure topology.fig). 
- */
-gboolean ftt_refine_corner (const FttCell * cell)
-{
-  FttCellNeighbors neighbor;
-  guint i;
-
-  g_return_val_if_fail (cell != NULL, FALSE);
-
-  if (!FTT_CELL_IS_LEAF (cell))
-    return FALSE;
-
-  ftt_cell_neighbors (cell, &neighbor);
-#if FTT_2D3
-  for (i = 0; i < FTT_NEIGHBORS_2D; i++) {
-#else
-  for (i = 0; i < FTT_NEIGHBORS; i++) {
-#endif
-    FttCell * n = neighbor.c[i];
-
-    if (n && !FTT_CELL_IS_LEAF (n)) {
-      FttCellChildren child;
-      guint j, k;
-
-      k = ftt_cell_children_direction (n, FTT_OPPOSITE_DIRECTION (i), &child);
-      for (j = 0; j < k; j++) {
-	FttCell * c = child.c[j];
-
-	if (c) {
-#if (FTT_2D || FTT_2D3)
-	  static guint perpendicular[FTT_NEIGHBORS_2D][FTT_CELLS/2] =
-	  {{2,3},
-	   {2,3},
-	   {1,0},
-	   {1,0}};
-	  FttCell * nc = ftt_cell_neighbor (c, perpendicular[i][j]);
-
-	  if (nc && !FTT_CELL_IS_LEAF (nc))
-	    return TRUE;
-#else  /* FTT_3D */
-	  static guint perpendicular[FTT_NEIGHBORS][FTT_CELLS/2][2] =
-	  {{{4,2},{4,3},{5,2},{5,3}},
-	   {{4,2},{4,3},{5,2},{5,3}},
-	   {{4,1},{4,0},{5,1},{5,0}},
-	   {{4,1},{4,0},{5,1},{5,0}},
-	   {{2,1},{2,0},{3,1},{3,0}},
-	   {{2,1},{2,0},{3,1},{3,0}}};
-	  FttCell * nc0, * nc1;
-
-	  nc0 = ftt_cell_neighbor (c, perpendicular[i][j][0]);
-	  if (nc0 && !FTT_CELL_IS_LEAF (nc0))
-	    return TRUE;
-	  nc1 = ftt_cell_neighbor (c, perpendicular[i][j][1]);
-	  if (nc1 && !FTT_CELL_IS_LEAF (nc1))
-	    return TRUE;
-#endif /* FTT_3D */
-	  if (!FTT_CELL_IS_LEAF (c)) {
-	    FttCellChildren child;
-	    guint j, k;
-
-	    k = ftt_cell_children_direction (c, FTT_OPPOSITE_DIRECTION (i), &child);
-	    for (j = 0; j < k; j++)
-	      if (child.c[j])
-		return TRUE;
-	  }
-	}
-      }	
-    }
-  }
-
-  return FALSE;
-}
-
-static void copy_cell (const FttCell * from,
-		       FttCell * to,
-		       FttCellCopyFunc copy,
-		       gpointer data)
-{
-  to->flags = from->flags;
-
-  if (!FTT_CELL_IS_DESTROYED (from)) {
-    if (copy)
-      (* copy) (from, to, data);
-    
-    if (!FTT_CELL_IS_LEAF (from)) {
-      FttOct * oct_from = from->children;
-      FttOct * oct_to;
-      guint n;
-      
-      oct_new (to, FALSE, NULL, NULL);
-      oct_to = to->children;
-      for (n = 0; n < FTT_CELLS; n++)
-	copy_cell (&(oct_from->cell[n]), &(oct_to->cell[n]), copy, data);
-    }
-  }
-}
-
-/**
- * ftt_cell_copy:
- * @root: the root of the cell tree to copy.
- * @copy: a #FttCellCopyFunc or %NULL.
- * @data: user data to pass to @copy.
- *
- * Returns: a new #FttCell root of the cell tree copy of @root. The
- * attributes of the cells are copied using the user-defined @copy
- * function.
- */
-FttCell * ftt_cell_copy (const FttCell * root,
-			 FttCellCopyFunc copy,
-			 gpointer data)
-{
-  FttCell * root_copy;
-
-  g_return_val_if_fail (root != NULL, NULL);
-
-  root_copy = ftt_cell_new (NULL, NULL);
-  ftt_cell_neighbors (root, &FTT_ROOT_CELL (root_copy)->neighbors);
-  ftt_cell_pos (root, &FTT_ROOT_CELL (root_copy)->pos);
-  FTT_ROOT_CELL (root_copy)->level = ftt_cell_level (root);
-							   
-  copy_cell (root, root_copy, copy, data);
-
-  return root_copy;
-}
-
-#include "ftt_internal.c"
-
-/**
- * ftt_face_traverse:
- * @root: the root #FttCell of the tree to traverse.
- * @c: only the faces orthogonal to this component will be traversed - one of
- * %FTT_X, %FTT_Y, (%FTT_Z), %FTT_XYZ.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children and faces are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCellFace.
- * @data: user data to pass to @func.
- *
- * Traverses a cell tree starting at the given root #FttCell. Calls
- * the given function for each face of the cells of the tree.
- *
- * If %FTT_TRAVERSE_BOUNDARY_FACES is not set in @flags, only
- * "double-sided" faces are traversed i.e. the @neighbor field of the
- * face is never %NULL.  
- */
-void ftt_face_traverse (FttCell * root,
-			FttComponent c,
-			FttTraverseType order,
-			FttTraverseFlags flags,
-			gint max_depth,
-			FttFaceTraverseFunc func,
-			gpointer data)
-{
-  FttDirection d;
-  gpointer datum[6];
-  gboolean check = FALSE;
-  gboolean boundary_faces;
-
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (c >= FTT_X && c <= FTT_XYZ);
-  g_return_if_fail (func != NULL);
-
-  boundary_faces = ((flags & FTT_TRAVERSE_BOUNDARY_FACES) != 0);
-  datum[1] = &max_depth;
-  datum[2] = func;
-  datum[3] = data;
-  datum[4] = &check;
-  datum[5] = &boundary_faces;
-  if (c == FTT_XYZ) {
-    if (boundary_faces) {
-      check = TRUE;
-      ftt_cell_traverse (root, order, flags, max_depth, 
-			 (FttCellTraverseFunc) traverse_all_faces, 
-			 datum);
-    }
-    else {
-      ftt_cell_traverse (root, order, flags, max_depth, 
-			 (FttCellTraverseFunc) traverse_all_direct_faces, 
-			 datum);
-      check = TRUE;
-      datum[0] = &d;
-      for (d = 1; d < FTT_NEIGHBORS; d += 2)
-	ftt_cell_traverse_boundary (root, d, order, flags, max_depth, 
-				    (FttCellTraverseFunc) traverse_face, 
-				    datum);
-    }
-  }
-  else {
-    if (boundary_faces) {
-      check = TRUE;
-      datum[0] = &c;
-      ftt_cell_traverse (root, order, flags, max_depth, 
-			 (FttCellTraverseFunc) traverse_face_component,
-			 datum);
-    }
-    else {
-      d = 2*c;
-      datum[0] = &d;
-      ftt_cell_traverse (root, order, flags, max_depth, 
-			 (FttCellTraverseFunc) traverse_face_direction, datum);
-      d = 2*c + 1;
-      check = TRUE;
-      ftt_cell_traverse_boundary (root, d, order, flags, max_depth, 
-				  (FttCellTraverseFunc) traverse_face, datum);
-    }
-  }
-  ftt_cell_traverse (root, order, flags, max_depth, 
-		     (FttCellTraverseFunc) reset_flag, NULL);
-}
-
-static void traverse_face_boundary (FttCell * cell, gpointer * datum) 
-{
-  FttDirection * d = datum[0];
-  FttFaceTraverseFunc func = (FttFaceTraverseFunc) datum[1];
-  gpointer data = datum[2];
-  FttCellFace face;
-  
-  face.d = *d;
-  face.cell = cell;
-  face.neighbor = ftt_cell_neighbor (cell, face.d);
-  (* func) (&face, data);
-}
-
-/**
- * ftt_face_traverse_boundary:
- * @root: the root #FttCell of the tree to traverse.
- * @d: the direction of the boundary to visit.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- * @func: the function to call for each visited #FttCellFace.
- * @data: user data to pass to @func.
- *
- * Traverses a cell tree starting at the given root #FttCell. Calls
- * the given function for each face of the cell tree forming the
- * boundary of the domain in direction @d.  
- */
-void ftt_face_traverse_boundary (FttCell * root,
-				 FttDirection d,
-				 FttTraverseType order,
-				 FttTraverseFlags flags,
-				 gint max_depth,
-				 FttFaceTraverseFunc func,
-				 gpointer data)
-{
-  gpointer datum[3];
-
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (d < FTT_NEIGHBORS);
-  g_return_if_fail (func != NULL);
-
-  datum[0] = &d;
-  datum[1] = func;
-  datum[2] = data;
-  ftt_cell_traverse_boundary (root, d, order, flags, max_depth, 
-			      (FttCellTraverseFunc) traverse_face_boundary, 
-			      datum);
-}
-
-/**
- * ftt_cell_coarsen:
- * @root: a #FttCell root of a cell tree to coarsen.
- * @coarsen: a #FttCellCoarsenFunc.
- * @coarsen_data: user data to pass to @coarsen.
- * @cleanup: a #FttCellCleanupFunc to call before destroying a cell or %NULL.
- * @cleanup_data: user data to pass to @cleanup.
- *
- * Coarsens the cell tree defined by @root according to @coarsen.
- *
- * Returns: %TRUE if @root has been coarsened (i.e. @root is now a
- * leaf cell), %FALSE otherwise.
- */
-gboolean ftt_cell_coarsen (FttCell * root,
-			   FttCellCoarsenFunc coarsen,
-			   gpointer coarsen_data,
-			   FttCellCleanupFunc cleanup,
-			   gpointer cleanup_data)
-{
-  guint i, n;
-  gboolean coarsenable = TRUE;
-  
-  g_return_val_if_fail (root != NULL, FALSE);
-  g_return_val_if_fail (coarsen != NULL, FALSE);
-
-  if (FTT_CELL_IS_LEAF (root))
-    return (* coarsen) (root, coarsen_data);
-
-  for (i = 0; i < FTT_CELLS; i++)
-    if (!FTT_CELL_IS_DESTROYED (&(root->children->cell[i])))
-      coarsenable &= ftt_cell_coarsen (&(root->children->cell[i]), 
-				       coarsen, coarsen_data, 
-				       cleanup, cleanup_data);
-  if (!coarsenable || !(* coarsen) (root, coarsen_data))
-    return FALSE;
-
-  {
-    FttDirection d;
-
-    for (d = 0; d < FTT_NEIGHBORS; d++) {
-      FttCellChildren child;
-
-      n = ftt_cell_children_direction (root, d, &child);
-      for (i = 0; i < n; i++) {
-	FttCell * neighbor;
-
-	if (child.c[i] && (neighbor = ftt_cell_neighbor (child.c[i], d)) &&
-	    !FTT_CELL_IS_LEAF (neighbor)) {
-	  FttCellChildren child1;
-	  guint j, k;
-	  gboolean empty = TRUE;
-
-	  k = ftt_cell_children_direction (neighbor, FTT_OPPOSITE_DIRECTION (d), &child1);
-	  for (j = 0; j < k && empty; j++)
-	    if (child1.c[j])
-	      empty = FALSE;
-	  if (!empty && !ftt_cell_coarsen (neighbor, coarsen, coarsen_data, 
-					   cleanup, cleanup_data))
-	    return FALSE;
-	}
-      }
-    }
-  }
-
-  if (cleanup)
-    for (i = 0; i < FTT_CELLS; i++)
-      if (!FTT_CELL_IS_DESTROYED (&(root->children->cell[i])))
-	(* cleanup) (&(root->children->cell[i]), cleanup_data);
-  g_free (root->children);
-  root->children = NULL;
-
-  return TRUE;
-}
-
-/**
- * ftt_direction_from_name:
- * @name: a direction name.
- *
- * Returns: the index of the direction @name or %FTT_NEIGHBORS if
- * @name is not a valid direction name.  
- */
-FttDirection ftt_direction_from_name (const gchar * name)
-{
-  FttDirection d = 0;
-
-  g_return_val_if_fail (name != NULL, FTT_NEIGHBORS);
-
-  while (d < FTT_NEIGHBORS && strcmp (name, ftt_direction_name[d]))
-    d++;
-  return d;
-}
-
-static void cell_traverse_add (FttCell * cell, GPtrArray * a)
-{
-  g_ptr_array_add (a, cell);
-}
-
-/**
- * ftt_cell_traverse_new:
- * @root: the root #FttCell of the tree to traverse.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @max_depth: the maximum depth of the traversal. Cells below this
- * depth will not be traversed. If @max_depth is -1 all cells in the
- * tree are visited.
- *
- * Returns: a new #FttCellTraverse.
- */
-FttCellTraverse * ftt_cell_traverse_new (FttCell * root,
-					 FttTraverseType order,
-					 FttTraverseFlags flags,
-					 gint max_depth)
-{
-  FttCellTraverse * t;
-  GPtrArray * a;
-
-  g_return_val_if_fail (root != NULL, NULL);
-
-  a = g_ptr_array_new ();
-  ftt_cell_traverse (root, order, flags, max_depth,
-		     (FttCellTraverseFunc) cell_traverse_add, a);
-  g_ptr_array_add (a, NULL);
-  t = g_malloc (sizeof (FttCellTraverse));
-  t->current = t->cells = (FttCell **) a->pdata;
-  g_ptr_array_free (a, FALSE);
-  return t;
-}
-
-/**
- * ftt_cell_traverse_rewind:
- * @t: a #FttCellTraverse.
- *
- * Sets @t at the begining of the traversal.
- */
-void ftt_cell_traverse_rewind (FttCellTraverse * t)
-{
-  g_return_if_fail (t != NULL);
-
-  t->current = t->cells;
-}
-
-/**
- * ftt_cell_traverse_destroy:
- * @t: a #FttCellTraverse.
- *
- * Frees all the memory associated with @t.
- */
-void ftt_cell_traverse_destroy (FttCellTraverse * t)
-{
-  g_return_if_fail (t != NULL);
-
-  g_free (t->cells);
-  g_free (t);
-}
-
diff --git a/src/ftt.h b/src/ftt.h
deleted file mode 100644
index 4d2a359..0000000
--- a/src/ftt.h
+++ /dev/null
@@ -1,876 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __FTT_H__
-#define __FTT_H__
-
-#include <stdio.h>
-#include <string.h>
-#include <math.h>
-#include <gts.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "gfsconfig.h"
-
-#define FTT_MAINTAINER "s.popinet at niwa.co.nz"
-
-#if (FTT_2D || FTT_2D3)
-# define FTT_CELLS     4
-#else  /* FTT_3D */
-# define FTT_CELLS     8
-#endif /* FTT_3D */
-
-typedef struct _FttCell          FttCell;
-typedef struct _FttCellFace      FttCellFace;
-typedef struct _FttCellNeighbors FttCellNeighbors;
-typedef struct _FttCellChildren  FttCellChildren;
-
-typedef struct _FttVector        FttVector;
-
-struct _FttVector {
-  gdouble x, y, z;
-};
-
-#if FTT_2D
-# define ftt_vector_norm(v) (sqrt((v)->x*(v)->x + (v)->y*(v)->y))
-#else  /* 3D */
-# define ftt_vector_norm(v) (sqrt((v)->x*(v)->x + (v)->y*(v)->y + (v)->z*(v)->z))
-#endif /* 3D */
-
-typedef enum
-{
-  FTT_TRAVERSE_LEAFS          = 1 << 0,
-  FTT_TRAVERSE_NON_LEAFS      = 1 << 1,
-  FTT_TRAVERSE_LEVEL          = 1 << 2,
-  FTT_TRAVERSE_BOUNDARY_FACES = 1 << 3,
-  FTT_TRAVERSE_DESTROYED      = 1 << 4,
-  FTT_TRAVERSE_ALL            = FTT_TRAVERSE_LEAFS | FTT_TRAVERSE_NON_LEAFS
-} FttTraverseFlags;
-
-typedef enum
-{
-  FTT_PRE_ORDER,
-  FTT_POST_ORDER
-} FttTraverseType;
-
-typedef enum
-{
-  FTT_RIGHT = 0,
-  FTT_LEFT,
-  FTT_TOP,
-  FTT_BOTTOM,
-#if (!FTT_2D)
-  FTT_FRONT,
-  FTT_BACK,
-#endif /* FTT_3D || FTT_2D3 */
-  FTT_NEIGHBORS
-} FttDirection;
-
-#define FTT_NEIGHBORS_2D (FTT_BOTTOM + 1)
-
-#if FTT_2D3
-# define FTT_CELLS_DIRECTION(d) ((d) < FTT_NEIGHBORS_2D ? FTT_CELLS/2 : FTT_CELLS)
-#else  /* 2D && 3D */
-# define FTT_CELLS_DIRECTION(d) (FTT_CELLS/2)
-#endif /* 2D && 3D */
-
-GTS_C_VAR gchar * ftt_direction_name[FTT_NEIGHBORS]; /* defined in ftt.c */
-
-typedef enum
-{
-  FTT_X = 0,
-  FTT_Y,
-#if (!FTT_2D)
-  FTT_Z,
-#endif /* FTT_3D || FTT_2D3 */
-  FTT_DIMENSION,
-  FTT_XY,
-#if FTT_2D
-  FTT_XYZ = FTT_XY
-#else  /* FTT_3D || FTT_2D3 */
-  FTT_XYZ
-#endif /* FTT_3D || FTT_2D3 */
-} FttComponent;
-
-typedef enum {
-  FTT_FLAG_ID        = 7,
-  FTT_FLAG_DESTROYED = 1 << 3,
-  FTT_FLAG_LEAF      = 1 << 4,        /* used only for I/O operations */
-  FTT_FLAG_TRAVERSED = FTT_FLAG_LEAF, /* used for face traversal */
-  FTT_FLAG_USER      =      5         /* user flags start here */
-} FttCellFlags;
-
-typedef void      (* FttCellTraverseFunc)            (FttCell * cell,
-						      gpointer data);
-typedef void      (* FttCellInitFunc)                (FttCell * cell,
-						      gpointer data);
-
-struct _FttCellNeighbors {
-  /* right, left, top, bottom, front, back */
-  FttCell * c[FTT_NEIGHBORS];
-};
-
-struct _FttCellChildren {
-  FttCell * c[FTT_CELLS];
-};
-
-struct _FttCell {
-  /*< public >*/
-  guint flags;
-  gpointer data;
-
-  /*< private >*/
-  struct _FttOct * parent, * children;
-};
-
-struct _FttRootCell {
-  FttCell cell;
-
-  FttCellNeighbors neighbors;
-  FttVector pos;
-  guint level;
-#if FTT_2D3
-  gdouble dz;
-#endif
-  gpointer parent;
-};
-
-struct _FttOct {
-  guint level;
-  FttCell * parent;
-  FttCellNeighbors neighbors;
-  FttVector pos;
-#if FTT_2D3
-  gdouble dz;
-#endif
-
-  FttCell cell[FTT_CELLS];
-};
-
-struct _FttCellFace {
-  FttCell * cell, * neighbor;
-  FttDirection d;
-};
-
-#define  FTT_ROOT_CELL(c)         ((struct _FttRootCell *) c)
-#define  FTT_CELL_ID(c)           ((c)->flags & FTT_FLAG_ID)
-#define  FTT_CELL_IS_LEAF(c)      ((c)->children == NULL)
-#define  FTT_CELL_IS_ROOT(c)      ((c)->parent == NULL)
-#define  FTT_CELL_IS_DESTROYED(c) (((c)->flags & FTT_FLAG_DESTROYED) != 0)
-
-typedef enum {
-  FTT_BOUNDARY,
-  FTT_FINE_FINE,
-  FTT_FINE_COARSE
-} FttFaceType;
-
-#define  FTT_FACE_DIRECT(f)       ((f)->d % 2 == 0)
-#define  FTT_FACE_REVERSE(dst, src) \
-   ((dst)->cell = (src)->neighbor,\
-    (dst)->neighbor = (src)->cell,\
-    (dst)->d = FTT_OPPOSITE_DIRECTION((src)->d))
-
-GTS_C_VAR
-gint                 ftt_opposite_direction[FTT_NEIGHBORS];
-
-#define FTT_OPPOSITE_DIRECTION(d)     (ftt_opposite_direction[d])
-#define FTT_ORTHOGONAL_COMPONENT(c)   (((c) + 1) % FTT_DIMENSION)
-
-#ifdef G_DISABLE_ASSERT
-
-#define g_assert_not_implemented()
-
-#else /* !G_DISABLE_ASSERT */
-
-#ifdef __GNUC__
-
-#define g_assert_not_implemented()      G_STMT_START{		\
-     g_log (G_LOG_DOMAIN,					\
-	    G_LOG_LEVEL_ERROR,					\
-	    "file %s: line %d (%s): not implemented (yet)",	\
-	    __FILE__,						\
-	    __LINE__,						\
-	    __PRETTY_FUNCTION__);	}G_STMT_END
-
-#else /* !__GNUC__ */
-
-#define g_assert_not_implemented()	G_STMT_START{	\
-     g_log (G_LOG_DOMAIN,				\
-	    G_LOG_LEVEL_ERROR,				\
-	    "file %s: line %d: not implemented (yet)",	\
-	    __FILE__,					\
-	    __LINE__);		}G_STMT_END
-
-#endif /* __GNUC__ */
-
-#endif /* !G_DISABLE_ASSERT */
-
-FttCell *            ftt_cell_new                    (FttCellInitFunc init,
-						      gpointer data);
-#define              ftt_cell_level(c)  ((c)->parent ?\
-                                         (c)->parent->level + 1 :\
-                                         ((struct _FttRootCell *) c)->level)
-#define              ftt_cell_parent(c) ((c)->parent ?\
-                                         (c)->parent->parent : NULL)
-#ifdef FTT_2D3
-# define             ftt_cell_dz(c)     ((c)->parent ?\
-                                         (c)->parent->dz :\
-                                         ((struct _FttRootCell *) c)->dz)
-#else  /* 2D or 3D */
-# define             ftt_cell_dz(c)     (1.)
-#endif /* 2D or 3D */
-
-/**
- * ftt_level_size:
- * @level: a guint.
- *
- * Returns: the size of a cell of level @level.
- */
-static inline
-gdouble ftt_level_size (guint level)
-{
-  gdouble size = 1.;
-
-  while (level) {
-    size /= 2.;
-    level--;
-  }
-
-  return size;
-}
-
-/**
- * ftt_cell_size:
- * @cell: a #FttCell.
- *
- * Returns: the size of @cell.
- */
-static inline
-gdouble ftt_cell_size (const FttCell * cell)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  return ftt_level_size (ftt_cell_level (cell));
-}
-
-/**
- * ftt_cell_volume:
- * @cell: a #FttCell.
- *
- * Returns: the volume (area in 2D) of @cell.
- */
-static inline
-gdouble ftt_cell_volume (const FttCell * cell)
-{
-  gdouble size;
-
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  size = ftt_level_size (ftt_cell_level (cell));
-#if (FTT_2D || FTT_2D3)
-  return size*size;
-#else  /* FTT_3D */
-  return size*size*size;
-#endif /* FTT_3D */
-}
-
-/**
- * ftt_cell_children:
- * @cell: a #FttCell.
- * @children: a #FttCellChildren.
- *
- * Fills @children with the children of @cell.
- * 
- * This function fails if @cell is a leaf.
- */
-static inline
-void ftt_cell_children (const FttCell * cell,
-			FttCellChildren * children)
-{
-  struct _FttOct * oct;
-  guint i;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (!FTT_CELL_IS_LEAF (cell));
-  g_return_if_fail (children != NULL);
-
-  oct = cell->children;
-  for (i = 0; i < FTT_CELLS; i++)
-    children->c[i] = FTT_CELL_IS_DESTROYED (&(oct->cell[i])) ? 
-      NULL : &(oct->cell[i]);
-}
-
-/**
- * ftt_cell_children_direction:
- * @cell: a #FttCell.
- * @d: a direction.
- * @children: a #FttCellChildren.
- *
- * Fills @children with the children (2 in 2D, 4 in 3D, 2 or 4 in 2D3)
- * of @cell in direction @d.
- * 
- * This function fails if @cell is a leaf.
- *
- * Returns: the number of children in direction @d.
- */
-static inline
-guint ftt_cell_children_direction (const FttCell * cell,
-				   FttDirection d,
-				   FttCellChildren * children)
-{
-  struct _FttOct * oct;
-  guint i;
-#if (FTT_2D || FTT_2D3)
-  static gint index[FTT_NEIGHBORS_2D][FTT_CELLS/2] =
-  {{1, 3},
-   {0, 2},
-   {0, 1},
-   {2, 3}};
-#else  /* FTT_3D */
-  static gint index[FTT_NEIGHBORS][FTT_CELLS/2] =
-  {{1, 3, 5, 7},
-   {0, 2, 4, 6},
-   {0, 1, 4, 5},
-   {2, 3, 6, 7},
-   {0, 1, 2, 3},
-   {4, 5, 6, 7}};
-#endif /* FTT_3D */
-
-  g_return_val_if_fail (cell != NULL, 0);
-  g_return_val_if_fail (!FTT_CELL_IS_LEAF (cell), 0);
-  g_return_val_if_fail (d < FTT_NEIGHBORS, 0);
-  g_return_val_if_fail (children != NULL, 0);
-
-  oct = cell->children;
-
-#if FTT_2D3
-  if (d >= FTT_NEIGHBORS_2D) {
-    for (i = 0; i < FTT_CELLS; i++)
-      children->c[i] = FTT_CELL_IS_DESTROYED (&(oct->cell[i])) ? NULL : &(oct->cell[i]);
-    return FTT_CELLS;
-  }
-#endif /* 2D3 */
-
-  for (i = 0; i < FTT_CELLS/2; i++)
-    children->c[i] = FTT_CELL_IS_DESTROYED (&(oct->cell[index[d][i]])) ? 
-      NULL : &(oct->cell[index[d][i]]);
-  return FTT_CELLS/2;
-}
-
-/**
- * ftt_cell_child_corner:
- * @cell: a #FttCell.
- * @d: a set of perpendicular directions.
- *
- * This function fails if @cell is a leaf.  
- *
- * Returns: the children of @cell in the corner defined by directions @d.
- */
-static inline
-FttCell * ftt_cell_child_corner (const FttCell * cell,
-				 FttDirection d[FTT_DIMENSION])
-{
-#if (FTT_2D || FTT_2D3)
-  static gint index[FTT_NEIGHBORS_2D][FTT_NEIGHBORS_2D] = {
-    {-1,-1,1,3},
-    {-1,-1,0,2},
-    {1,0,-1,-1},
-    {3,2,-1,-1}
-  };
-  gint i;
-
-  g_return_val_if_fail (cell != NULL, NULL);
-  g_return_val_if_fail (!FTT_CELL_IS_LEAF (cell), NULL);
-
-  g_return_val_if_fail (d[0] < FTT_NEIGHBORS, NULL);
-  g_return_val_if_fail (d[1] < FTT_NEIGHBORS, NULL);
-
-#  if FTT_2D3
-  if (d[0] >= FTT_NEIGHBORS_2D)
-    i = index[d[1]][d[2]];
-  else if (d[1] >= FTT_NEIGHBORS_2D)
-    i = index[d[0]][d[2]];
-  else
-#  endif
-    i = index[d[0]][d[1]];
-#else  /* FTT_3D */
-  static gint index[FTT_NEIGHBORS][FTT_NEIGHBORS][FTT_NEIGHBORS] = {
-    {{-1,-1,-1,-1,-1,-1},{-1,-1,-1,-1,-1,-1},
-     {-1,-1,-1,-1,1,5},{-1,-1,-1,-1,3,7},
-     {-1,-1,1,3,-1,-1},{-1,-1,5,7,-1,-1}},
-    {{-1,-1,-1,-1,-1,-1},{-1,-1,-1,-1,-1,-1},
-     {-1,-1,-1,-1,0,4},{-1,-1,-1,-1,2,6},
-     {-1,-1,0,2,-1,-1},{-1,-1,4,6,-1,-1}},
-    {{-1,-1,-1,-1,1,5},{-1,-1,-1,-1,0,4},
-     {-1,-1,-1,-1,-1,-1},{-1,-1,-1,-1,-1,-1},
-     {1,0,-1,-1,-1,-1},{5,4,-1,-1,-1,-1}},
-    {{-1,-1,-1,-1,3,7},{-1,-1,-1,-1,2,6},
-     {-1,-1,-1,-1,-1,-1},{-1,-1,-1,-1,-1,-1},
-     {3,2,-1,-1,-1,-1},{7,6,-1,-1,-1,-1}},
-    {{-1,-1,1,3,-1,-1},{-1,-1,0,2,-1,-1},
-     {1,0,-1,-1,-1,-1},{3,2,-1,-1,-1,-1},
-     {-1,-1,-1,-1,-1,-1},{-1,-1,-1,-1,-1,-1}},
-    {{-1,-1,5,7,-1,-1},{-1,-1,4,6,-1,-1},
-     {5,4,-1,-1,-1,-1},{7,6,-1,-1,-1,-1},
-     {-1,-1,-1,-1,-1,-1},{-1,-1,-1,-1,-1,-1}},
-  };
-  gint i;
-
-  g_return_val_if_fail (cell != NULL, NULL);
-  g_return_val_if_fail (!FTT_CELL_IS_LEAF (cell), NULL);
-  g_return_val_if_fail (d[0] < FTT_NEIGHBORS, NULL);
-  g_return_val_if_fail (d[1] < FTT_NEIGHBORS, NULL);
-  g_return_val_if_fail (d[2] < FTT_NEIGHBORS, NULL);
-
-  i = index[d[0]][d[1]][d[2]];
-#endif /* FTT_3D */
-
-  g_return_val_if_fail (i >= 0, NULL);
-
-  return FTT_CELL_IS_DESTROYED (&(cell->children->cell[i])) ? NULL:
-    &(cell->children->cell[i]);
-}
-
-/**
- * ftt_cell_neighbors_not_cached:
- * @cell: a #FttCell.
- * @neighbors: a #FttCellNeighbors.
- *
- * Fills @neighbors with the neighbors of @cell (does not use saved
- * values even if available).  
- */
-static inline
-void ftt_cell_neighbors_not_cached (const FttCell * cell,
-				    FttCellNeighbors * neighbors)
-{
-  static gint neighbor_index[FTT_NEIGHBORS][FTT_CELLS]
-#if FTT_2D
-    = {{1,-1,3,-3},
-       {-2,0,-4,2},
-       {-3,-4,0,1},
-       {2,3,-1,-2}};
-#elif FTT_2D3
-    = {{1,-1,3,-3},
-       {-2,0,-4,2},
-       {-3,-4,0,1},
-       {2,3,-1,-2},
-       {-1,-2,-3,-4},
-       {-1,-2,-3,-4}};
-#else  /* FTT_3D */
-    = {{1,-1,3,-3,5,-5,7,-7},
-       {-2,0,-4,2,-6,4,-8,6},
-       {-3,-4,0,1,-7,-8,4,5},
-       {2,3,-1,-2,6,7,-5,-6},
-       {-5,-6,-7,-8,0,1,2,3},
-       {4,5,6,7,-1,-2,-3,-4}};
-#endif /* FTT_3D */
-  guint n, d;
-  struct _FttOct * parent;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (neighbors != NULL);
-
-  if (FTT_CELL_IS_ROOT (cell)) {
-    memcpy (neighbors, &((struct _FttRootCell *) cell)->neighbors,
-	    sizeof (FttCellNeighbors));
-    return;
-  }
-
-  parent = cell->parent;
-  n = FTT_CELL_ID (cell);
-  for (d = 0; d < FTT_NEIGHBORS; d++) {
-    gint nn = neighbor_index[d][n];
-    FttCell * c;
-
-    if (nn >= 0) /* neighbor belongs to same Oct */
-      c = &(parent->cell[nn]);
-    else {       /* neighbor belongs to neighboring Cell or Oct */
-      c = parent->neighbors.c[d];
-      if (c != NULL && c->children != NULL)
-	c = &(c->children->cell[- nn - 1]);
-    }
-    if (c == NULL || FTT_CELL_IS_DESTROYED (c))
-      neighbors->c[d] = NULL;
-    else
-      neighbors->c[d] = c;
-  }
-}
-
-/**
- * ftt_cell_neighbor_not_cached:
- * @cell: a #FttCell.
- * @d: a direction.
- *
- * Returns: the neighbor of @cell in direction @d or %NULL if @cell
- * has no neighbor in this direction (does not use saved values even
- * if available).  
- */
-static inline
-FttCell * ftt_cell_neighbor_not_cached (const FttCell * cell,
-					FttDirection d)
-{
-  static gint neighbor_index[FTT_NEIGHBORS][FTT_CELLS]
-#if FTT_2D
-    = {{1,-1,3,-3},
-       {-2,0,-4,2},
-       {-3,-4,0,1},
-       {2,3,-1,-2}};
-#elif FTT_2D3
-    = {{1,-1,3,-3},
-       {-2,0,-4,2},
-       {-3,-4,0,1},
-       {2,3,-1,-2},
-       {-1,-2,-3,-4},
-       {-1,-2,-3,-4}};
-#else  /* FTT_3D */
-    = {{1,-1,3,-3,5,-5,7,-7},
-       {-2,0,-4,2,-6,4,-8,6},
-       {-3,-4,0,1,-7,-8,4,5},
-       {2,3,-1,-2,6,7,-5,-6},
-       {-5,-6,-7,-8,0,1,2,3},
-       {4,5,6,7,-1,-2,-3,-4}};
-#endif /* FTT_3D */
-  gint n;
-  FttCell * c;
-
-  g_return_val_if_fail (cell != NULL, NULL);
-  g_return_val_if_fail (d < FTT_NEIGHBORS, NULL);
-
-  if (FTT_CELL_IS_ROOT (cell))
-    return ((struct _FttRootCell *) cell)->neighbors.c[d];
-
-  n = neighbor_index[d][FTT_CELL_ID (cell)];
-  if (n >= 0) /* neighbor belongs to same Oct */
-    c = &(cell->parent->cell[n]);
-  else {      /* neighbor belongs to neighboring Cell or Oct */
-    c = cell->parent->neighbors.c[d];
-    if (c != NULL && c->children != NULL)
-      c = &(c->children->cell[- n - 1]);
-  }
-  if (c == NULL || FTT_CELL_IS_DESTROYED (c))
-    return NULL;
-  else
-    return c;
-}
-
-/**
- * ftt_cell_neighbors:
- * @cell: a #FttCell.
- * @neighbors: a #FttCellNeighbors.
- *
- * Fills @neighbors with the neighbors of @cell.
- */
-static inline
-void ftt_cell_neighbors (const FttCell * cell,
-			 FttCellNeighbors * neighbors)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (neighbors != NULL);
-
-  if (!FTT_CELL_IS_LEAF (cell) && neighbors != &cell->children->neighbors) {
-    memcpy (neighbors, &cell->children->neighbors, sizeof (FttCellNeighbors));
-    return;
-  }
-
-  ftt_cell_neighbors_not_cached (cell, neighbors);
-}
-
-/**
- * ftt_cell_neighbor:
- * @cell: a #FttCell.
- * @d: a direction.
- *
- * Returns: the neighbor of @cell in direction @d or %NULL if @cell
- * has no neighbor in this direction.  
- */
-static inline
-FttCell * ftt_cell_neighbor (const FttCell * cell,
-			     FttDirection d)
-{
-  g_return_val_if_fail (cell != NULL, NULL);
-  g_return_val_if_fail (d < FTT_NEIGHBORS, NULL);
-
-  if (!FTT_CELL_IS_LEAF (cell))
-    return cell->children->neighbors.c[d];
-
-  return ftt_cell_neighbor_not_cached (cell, d);
-}
-
-/**
- * ftt_cell_face:
- * @cell: a #FttCell.
- * @d: a direction.
- *
- * Returns: the face of @cell in direction @d.
- */
-static inline
-FttCellFace ftt_cell_face (FttCell * cell,
-			   FttDirection d)
-{
-  FttCellFace f;
-
-  g_return_val_if_fail (cell != NULL, f);
-
-  f.cell = cell;
-  f.neighbor = ftt_cell_neighbor (cell, d);
-  f.d = d;
-
-  return f;
-}
-
-/**
- * ftt_face_type:
- * @face: a #FttCellFace.
- *
- * Returns: the type of @face.
- */
-static inline
-FttFaceType ftt_face_type (const FttCellFace * face)
-{
-  g_return_val_if_fail (face != NULL, 0);
-
-  if (face->neighbor == NULL)
-    return FTT_BOUNDARY;
-  if (ftt_cell_level (face->cell) > ftt_cell_level (face->neighbor))
-    return FTT_FINE_COARSE;
-  g_assert (ftt_cell_level (face->cell) == ftt_cell_level (face->neighbor));
-  return FTT_FINE_FINE;
-}
-
-/**
- * ftt_cell_neighbor_is_brother:
- * @cell: a #FttCell.
- * @d: a #FttDirection.
- *
- * Returns: %TRUE if a (potential) neighbor of @cell in direction @d
- * and @cell would have the same parent, %FALSE otherwise.
- */
-static inline
-gboolean ftt_cell_neighbor_is_brother (FttCell * cell, 
-				       FttDirection d)
-{
-  static gboolean b[FTT_CELLS][FTT_NEIGHBORS] = {
-#if FTT_2D
-    {1,0,0,1}, {0,1,0,1}, {1,0,1,0}, {0,1,1,0}
-#elif FTT_2D3
-    {1,0,0,1,0,0}, {0,1,0,1,0,0}, {1,0,1,0,0,0}, {0,1,1,0,0,0}
-#else  /* 3D */
-    {1,0,0,1,0,1}, {0,1,0,1,0,1}, {1,0,1,0,0,1}, {0,1,1,0,0,1},
-    {1,0,0,1,1,0}, {0,1,0,1,1,0}, {1,0,1,0,1,0}, {0,1,1,0,1,0}
-#endif /* 3D */
-  };
-
-  g_return_val_if_fail (cell != NULL, FALSE);
-  
-  if (FTT_CELL_IS_ROOT (cell))
-    return FALSE;
-  return b[FTT_CELL_ID (cell)][d];
-}
-
-guint                ftt_cell_depth                  (const FttCell * root);
-void                 ftt_cell_set_neighbor           (FttCell * root,
-						      FttCell * neighbor,
-						      FttDirection d,
-						      FttCellInitFunc init,
-						      gpointer init_data);
-void                 ftt_cell_set_neighbor_match     (FttCell * root,
-						      FttCell * neighbor,
-						      FttDirection d,
-						      FttCellInitFunc init,
-						      gpointer init_data);
-void                 ftt_cell_relative_pos           (const FttCell * cell,
-						      FttVector * pos);
-void                 ftt_cell_pos                    (const FttCell * cell,
-						      FttVector * pos);
-void                 ftt_corner_relative_pos         (const FttCell * cell,
-						      FttDirection d[FTT_DIMENSION],
-						      FttVector * pos);
-void                 ftt_corner_pos                  (const FttCell * cell,
-						      FttDirection d[FTT_DIMENSION],
-						      FttVector * pos);
-void                 ftt_face_pos                    (const FttCellFace * face,
-						      FttVector * pos);
-void                 ftt_cell_set_pos                (FttCell * root,
-						      const FttVector * pos);
-void                 ftt_cell_set_level              (FttCell * root,
-						      guint level);
-void                 ftt_cell_draw                   (const FttCell * cell,
-						      FILE * fp);
-void                 ftt_face_draw                   (const FttCellFace * face,
-						      FILE * fp);
-gboolean             ftt_cell_check                  (const FttCell * cell);
-typedef gboolean  (* FttCellRefineFunc)              (FttCell * cell,
-						      gpointer data);
-void                 ftt_cell_refine                 (FttCell * root,
-						      FttCellRefineFunc refine,
-						      gpointer refine_data,
-						      FttCellInitFunc init,
-						      gpointer init_data);
-void                 ftt_cell_refine_single          (FttCell * cell,
-						      FttCellInitFunc init,
-						      gpointer init_data);
-gboolean             ftt_refine_corner               (const FttCell * cell);
-void                 ftt_cell_traverse               (FttCell * root,
-						      FttTraverseType order,
-						      FttTraverseFlags flags,
-						      gint max_depth,
-						      FttCellTraverseFunc func,
-						      gpointer data);
-void                 ftt_cell_traverse_condition     (FttCell * root,
-						      FttTraverseType order,
-						      FttTraverseFlags flags,
-						      gint max_depth,
-						      FttCellTraverseFunc func,
-						      gpointer data,
-						      gboolean (* condition) (FttCell *, 
-									      gpointer),
-						      gpointer cdata);
-void                 ftt_cell_traverse_box           (FttCell * root,
-						      GtsBBox * box,
-						      FttTraverseType order,
-						      FttTraverseFlags flags,
-						      gint max_depth,
-						      FttCellTraverseFunc func,
-						      gpointer data);
-void                 ftt_cell_traverse_boundary      (FttCell * root,
-						      FttDirection d,
-						      FttTraverseType order,
-						      FttTraverseFlags flags,
-						      gint max_depth,
-						      FttCellTraverseFunc func,
-						      gpointer data);
-typedef void      (* FttFaceTraverseFunc)            (FttCellFace * face, 
-						      gpointer data);
-void                 ftt_face_traverse               (FttCell * root,
-						      FttComponent c,
-						      FttTraverseType order,
-						      FttTraverseFlags flags,
-						      gint max_depth,
-						      FttFaceTraverseFunc func,
-						      gpointer data);
-void                 ftt_face_traverse_boundary      (FttCell * root,
-						      FttDirection d,
-						      FttTraverseType order,
-						      FttTraverseFlags flags,
-						      gint max_depth,
-						      FttFaceTraverseFunc func,
-						      gpointer data);
-FttCell *            ftt_cell_locate                 (FttCell * root,
-						      FttVector target,
-						      gint max_depth);
-gdouble              ftt_cell_point_distance2_min    (FttCell * cell, 
-						      GtsPoint * p);
-void                 ftt_cell_point_distance2_internal (FttCell * root,
-							GtsPoint * p,
-							gdouble d,
-							gdouble (* distance2) (FttCell *, 
-									       GtsPoint *, 
-									       gpointer),
-							gpointer data,
-							FttCell ** closest,
-							gdouble * dmin);
-gdouble              ftt_cell_point_distance2        (FttCell * root,
-						      GtsPoint * p,
-						      gdouble (* distance2) (FttCell *, 
-									     GtsPoint *, 
-									     gpointer),
-						      gpointer data,
-						      FttCell ** closest);
-void                 ftt_cell_bbox                   (const FttCell * cell, 
-						      GtsBBox * bb);
-typedef void      (* FttCellCopyFunc)                (const FttCell * from,
-						      FttCell * to,
-						      gpointer data);
-FttCell *            ftt_cell_copy                   (const FttCell * root,
-						      FttCellCopyFunc copy,
-						      gpointer data);
-typedef void      (* FttCellWriteFunc)               (const FttCell * cell,
-						      FILE * fp,
-						      gpointer data);
-void                 ftt_cell_write                  (const FttCell * root,
-						      gint max_depth,
-						      FILE * fp,
-						      FttCellWriteFunc write,
-						      gpointer data);
-void                 ftt_cell_write_binary           (const FttCell * root,
-						      gint max_depth,
-						      FILE * fp,
-						      FttCellWriteFunc write,
-						      gpointer data);
-typedef void      (* FttCellReadFunc)                (FttCell * cell,
-						      GtsFile * fp,
-						      gpointer data);
-FttCell *            ftt_cell_read                   (GtsFile * fp,
-						      FttCellReadFunc read,
-						      gpointer data);
-FttCell *            ftt_cell_read_binary            (GtsFile * fp,
-						      FttCellReadFunc read,
-						      gpointer data);
-typedef void      (* FttCellCleanupFunc)             (FttCell * cell,
-						      gpointer data);
-void                 ftt_cell_destroy           (FttCell * cell,
-						 FttCellCleanupFunc cleanup,
-						 gpointer data);
-void                 ftt_cell_destroy_root      (FttCell * root,
-						 FttCellChildren * children,
-						 FttCellCleanupFunc cleanup,
-						 gpointer data);
-void                 ftt_cell_flatten           (FttCell * root, 
-						 FttDirection d, 
-						 FttCellCleanupFunc cleanup,
-						 gpointer data);
-typedef gboolean  (* FttCellCoarsenFunc)        (FttCell * cell,
-						 gpointer data);
-gboolean             ftt_cell_coarsen           (FttCell * root,
-						 FttCellCoarsenFunc coarsen,
-						 gpointer coarsen_data,
-						 FttCellCleanupFunc cleanup,
-						 gpointer cleanup_data);
-FttDirection         ftt_direction_from_name    (const gchar * name);
-
-struct _FttCellTraverse {
-  FttCell ** cells;
-  FttCell ** current;
-};
-
-typedef struct _FttCellTraverse FttCellTraverse;
-
-FttCellTraverse *    ftt_cell_traverse_new      (FttCell * root,
-						 FttTraverseType order,
-						 FttTraverseFlags flags,
-						 gint max_depth);
-void                 ftt_cell_traverse_rewind   (FttCellTraverse * t);
-void                 ftt_cell_traverse_destroy  (FttCellTraverse * t);
-
-static inline
-FttCell * ftt_cell_traverse_next (FttCellTraverse * t)
-{
-  g_return_val_if_fail (t != NULL, NULL);
-
-  return *(t->current++);
-}
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __FTT_H__ */
diff --git a/src/ftt_internal.c b/src/ftt_internal.c
deleted file mode 100644
index 6cfe140..0000000
--- a/src/ftt_internal.c
+++ /dev/null
@@ -1,82 +0,0 @@
-static void traverse_face (FttCell * cell, gpointer * datum)
-{
-  FttDirection * d = datum[0];
-  gint max_depth = *((gint *) datum[1]);
-  FttFaceTraverseFunc func = (FttFaceTraverseFunc) datum[2];
-  gpointer data = datum[3];
-  gboolean check = *((gboolean *) datum[4]);
-  gboolean boundary_faces = *((gboolean *) datum[5]);  
-  FttCellFace face;
-  
-  face.d = *d;
-  face.cell = cell;
-  face.neighbor = ftt_cell_neighbor (cell, face.d);
-  if (face.neighbor) {
-    if (!check || (face.neighbor->flags & FTT_FLAG_TRAVERSED) == 0) {
-      if (FTT_CELL_IS_LEAF (cell) && 
-	  !FTT_CELL_IS_LEAF (face.neighbor) && 
-	  (max_depth < 0 || ftt_cell_level (face.neighbor) < max_depth)) {
-	/* coarse -> fine */
-	FttCellChildren children;
-	guint i, n;
-	
-	face.d = FTT_OPPOSITE_DIRECTION (face.d);
-	n = ftt_cell_children_direction (face.neighbor, face.d, &children);
-	face.neighbor = face.cell;
-	for (i = 0; i < n; i++)
-	  if ((face.cell = children.c[i]) && 
-	      (!check || (face.cell->flags & FTT_FLAG_TRAVERSED) == 0))
-	    (* func) (&face, data);
-      }
-      else
-	(* func) (&face, data);
-    }
-  }
-  else if (boundary_faces)
-    (* func) (&face, data);
-}
-
-static void traverse_all_faces (FttCell * cell, gpointer * datum)
-{
-  FttDirection d;
-
-  datum[0] = &d;
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    traverse_face (cell, datum);
-  cell->flags |= FTT_FLAG_TRAVERSED;
-}
-
-static void traverse_all_direct_faces (FttCell * cell, gpointer * datum)
-{
-  FttDirection d;
-
-  datum[0] = &d;
-  for (d = 0; d < FTT_NEIGHBORS; d += 2)
-    traverse_face (cell, datum);
-  cell->flags |= FTT_FLAG_TRAVERSED;
-}
-
-static void traverse_face_direction (FttCell * cell, gpointer * datum)
-{
-  traverse_face (cell, datum);
-  cell->flags |= FTT_FLAG_TRAVERSED;
-}
-
-static void traverse_face_component (FttCell * cell, gpointer * datum)
-{
-  FttComponent * c = datum[0];
-  FttDirection d;
-
-  datum[0] = &d;
-  d = 2*(*c);
-  traverse_face (cell, datum);
-  d++;
-  traverse_face (cell, datum);
-  cell->flags |= FTT_FLAG_TRAVERSED;
-  datum[0] = c;
-}
-
-static void reset_flag (FttCell * cell)
-{
-  cell->flags &= ~FTT_FLAG_TRAVERSED;
-}
diff --git a/src/function.h b/src/function.h
deleted file mode 100644
index e9b8466..0000000
--- a/src/function.h
+++ /dev/null
@@ -1,67 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __FUNCTION_H__
-#define __FUNCTION_H__
-
-static double Dirichlet = 1.;
-static double Neumann = 0.;
-static GfsSimulation * _sim = NULL;
-static FttCell * _cell = NULL;
-
-static double dd (const gchar * name, FttComponent c) {
-  GfsVariable * v = gfs_variable_from_name (GFS_DOMAIN (_sim)->variables, name);
-  if (v == NULL)
-    return 0.;
-  g_return_val_if_fail (_cell != NULL, 0.);
-  return gfs_dimensional_value (v, gfs_center_gradient (_cell, c, v->i)/
-				(_sim->physical_params.L*ftt_cell_size (_cell)));
-}
-
-static double dx (const gchar * name) { return dd (name, FTT_X); }
-static double dy (const gchar * name) { return dd (name, FTT_Y); }
-#if !FTT_2D
-static double dz (const gchar * name) { return dd (name, FTT_Z); }
-#endif /* 3D */
-
-static double area (const gchar * name)
-{
-  GfsVariable * v = gfs_variable_from_name (GFS_DOMAIN (_sim)->variables, name);
-  if (v == NULL || !GFS_IS_VARIABLE_TRACER_VOF (v))
-    return 0.;
-  g_return_val_if_fail (_cell != NULL, 0.);
-  GfsVariableTracerVOF * t = GFS_VARIABLE_TRACER_VOF (v);
-  FttVector m, p;
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&m.x)[c] = GFS_VALUE (_cell, t->m[c]);
-  return gfs_plane_area_center (&m, GFS_VALUE (_cell, t->alpha), &p)/
-    (_sim->physical_params.L*ftt_cell_size (_cell));
-}
-
-static double correctness (const gchar * name)
-{
-  GfsVariable * v = gfs_variable_from_name (GFS_DOMAIN (_sim)->variables, name);
-  if (v == NULL || !GFS_IS_VARIABLE_TRACER_VOF (v))
-    return 0.;
-  g_return_val_if_fail (_cell != NULL, 0.);
-  return gfs_vof_correctness (_cell, GFS_VARIABLE_TRACER_VOF (v));
-}
-
-#endif /* __FUNCTION_H__ */
diff --git a/src/gerris.c b/src/gerris.c
deleted file mode 100644
index c03c1dd..0000000
--- a/src/gerris.c
+++ /dev/null
@@ -1,362 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <math.h>
-
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-#ifdef HAVE_UNISTD_H
-#  include <unistd.h>
-#endif /* HAVE_UNISTD_H */
-
-#include "init.h"
-#include "simulation.h"
-#include "refine.h"
-#include "output.h"
-#include "adaptive.h"
-#include "solid.h"
-#include "version.h"
-
-static void set_box_pid (GfsBox * box, gint * pid)
-{
-  box->pid = *pid;
-}
-
-static void setup_binary_IO (GfsDomain * domain)
-{
-  /* make sure that all the variables are sent */
-  g_slist_free (domain->variables_io);
-  domain->variables_io = NULL;
-  GSList * i = domain->variables;
-  while (i) {
-    if (GFS_VARIABLE1 (i->data)->name)
-      domain->variables_io = g_slist_append (domain->variables_io, i->data);
-    i = i->next;
-  }
-  domain->binary = TRUE;	
-}
-
-int main (int argc, char * argv[])
-{
-  GfsSimulation * simulation;
-  GfsDomain * domain;
-  FILE * fptr;
-  GtsFile * fp;
-  int c = 0;
-  guint split = 0;
-  guint npart = 0;
-  gboolean profile = FALSE, macros = FALSE, one_box_per_pe = TRUE, bubble = FALSE, verbose = FALSE;
-  gchar * m4_options = g_strdup ("-P");
-  GPtrArray * events = g_ptr_array_new ();
-  gint maxlevel = -2;
-
-  gfs_init (&argc, &argv);
-
-  /* parse options using getopt */
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-      {"split", required_argument, NULL, 's'},
-      {"pid", no_argument, NULL, 'i'},
-      {"partition", required_argument, NULL, 'p'},
-      {"profile", no_argument, NULL, 'P'},
-      {"define", required_argument, NULL, 'D'},
-      {"macros", no_argument, NULL, 'm'},
-      {"data", no_argument, NULL, 'd'},
-      {"event", required_argument, NULL, 'e'},
-      {"bubble", required_argument, NULL, 'b'},
-      {"verbose", no_argument, NULL, 'v'},
-      {"help", no_argument, NULL, 'h'},
-      {"version", no_argument, NULL, 'V'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, "hVs:ip:PD:mde:b:v",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, "hVs:ip:PD:mde:b:v"))) {
-#endif /* not HAVE_GETOPT_LONG */
-    case 'P': /* profile */
-      profile = TRUE;
-      break;
-    case 'p': /* partition */
-      npart = atoi (optarg);
-      break;
-    case 'b': /* "bubble" partition */
-      npart = atoi (optarg);
-      bubble = TRUE;
-      break;
-    case 's': /* split */
-      split = atoi (optarg);
-      break;
-    case 'i': /* pid */
-      one_box_per_pe = FALSE;
-      break;
-    case 'D': { /* define */
-      gchar * tmp = g_strjoin (" ", m4_options, "-D", optarg, NULL);
-      g_free (m4_options);
-      m4_options = tmp;
-      /* fall through */
-    }
-    case 'm': /* macros */
-#ifndef HAVE_M4
-      gfs_error (0, "gerris: macros are not supported on this system\n");
-      return 1;
-#endif /* not HAVE_M4 */
-      macros = TRUE;
-      break;
-    case 'd': /* data */
-      maxlevel = -1;
-      break;
-    case 'e': /* event */
-      g_ptr_array_add (events, g_strdup (optarg));
-      break;
-    case 'v': /* verbose */
-      verbose = TRUE;
-      break;
-    case 'h': /* help */
-      gfs_error (0,
-             "Usage: gerris [OPTION] FILE\n"
-	     "The Gerris flow solver simulation engine.\n"
-	     "\n"
-	     "  -s N   --split=N     splits the domain N times and returns\n"
-             "                       the corresponding simulation\n"
-	     "  -i     --pid         keep box pids when splitting\n"
-             "  -p N   --partition=N partition the domain in 2^N subdomains and returns\n" 
-             "                       the corresponding simulation\n"
-             "  -b N   --bubble=N    partition the domain in N subdomains and returns\n" 
-             "                       the corresponding simulation\n"
-	     "  -d     --data        when splitting or partitioning, output all data\n"
-	     "  -P     --profile     profiles calls to boundary conditions\n"
-#ifdef HAVE_M4
-	     "  -m     --macros      Turn macros support on\n"
-	     "  -DNAME               Defines NAME as a macro expanding to VALUE\n"
-	     "  -DNAME=VALUE         (macro support is implicitly turned on)\n"
-	     "         --define=NAME\n"
-             "         --define=NAME=VALUE\n"
-#endif /* HAVE_M4 */
-	     "  -eEV   --event=EV    Evaluates GfsEvent EV and returns the simulation\n"
-	     "  -v     --verbose     Display more messages\n"
-	     "  -h     --help        display this help and exit\n"
-	     "  -V     --version     output version information and exit\n"
-	     "\n"
-	     "Reports bugs to %s\n",
-	     FTT_MAINTAINER);
-      return 0; /* success */
-      break;
-    case 'V': /* version */
-      gfs_error (0,
-	       "gerris: using %dD libgfs version %s (%s)\n"
-	       "  compiled with flags: %s\n"
-	       "  MPI:          %s\n"
-	       "  pkg-config:   %s\n"
-	       "  m4 and gawk:  %s\n"
-	       "Copyright (C) 2001-2009 NIWA.\n"
-	       "This is free software; see the source for copying conditions.  There is NO\n"
-	       "warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.\n",
-	       FTT_DIMENSION,
-	       GFS_VERSION,
-	       GFS_BUILD_VERSION,
-	       GFS_COMPILATION_FLAGS,
-#ifdef HAVE_MPI
-	       "yes",
-#else
-	       "no",
-#endif
-#ifdef HAVE_PKG_CONFIG
-	       "yes",
-#else
-	       "no",
-#endif
-#ifdef HAVE_M4
-	       "yes"
-#else
-	       "no"
-#endif
-	       );
-      return 0; /* succes */
-      break;
-    case '?': /* wrong options */
-      gfs_error (0, "Try `gerris --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-
-  if (optind >= argc) { /* missing FILE */
-    gfs_error (0, 
-	     "gerris: missing FILE\n"
-	     "Try `gerris --help' for more information.\n");
-    return 1; /* failure */
-  }
-
-  if (macros) {
-    const gchar awk[] = "gawk -f " GFS_MODULES_DIR "/m4.awk ";
-    gchar * command;
-    
-    if (!strcmp (argv[optind], "-"))
-      command = g_strjoin (NULL, awk, "| m4 ", m4_options, NULL);
-    else
-      command = g_strjoin (NULL, awk, argv[optind], " | m4 ", m4_options, NULL);
-    fptr = popen (command, "r");
-    g_free (command);
-  }
-  else { /* no macros */
-    if (!strcmp (argv[optind], "-"))
-      fptr = stdin;
-    else
-      fptr = fopen (argv[optind], "r");
-  }
-  g_free (m4_options);
-
-  if (fptr == NULL) {
-    gfs_error (-1, "gerris: unable to open file `%s'\n", argv[optind]);
-    return 1;
-  }
-
-  fp = gts_file_new (fptr);
-  if (!(simulation = gfs_simulation_read (fp))) {
-    gfs_error (-1, 
-	     "gerris: file `%s' is not a valid simulation file\n"
-	     "%s:%d:%d: %s\n",
-	     argv[optind], argv[optind],
-	     fp->line, fp->pos, fp->error);
-    return 1;
-  }
-  gts_file_destroy (fp);
-
-  if (macros)
-    pclose (fptr);
-  else
-    if (fptr != stdin)
-      fclose (fptr);
-
-  if (npart > 0) {
-    guint nmin = 1000;
-    guint mmax = 10000;
-    guint ntry = 10000;
-    guint np = bubble ? npart : pow (2., npart);
-    gfloat imbalance = 0.0;
-    GSList * partition, * i;
-    gint pid = 0;
-
-    if (verbose)
-      gts_graph_print_stats (GTS_GRAPH (simulation), stderr);
-    if (gts_container_size (GTS_CONTAINER (simulation)) < np) {
-      fprintf (stderr,
-	       "gerris: the number of boxes in the domain to partition should be >= %d\n"
-	       "Use option '-s' to split the domain first\n"
-	       "Try `gerris --help' for more information.\n",
-	       np);
-      return 1;
-    }
-    if (bubble)
-      partition = gts_graph_bubble_partition (GTS_GRAPH (simulation), npart, 100, 
-					      verbose ? 
-					      (GtsFunc) gts_graph_partition_print_stats : NULL, 
-					      stderr);
-    else
-      partition = gts_graph_recursive_bisection (GTS_WGRAPH (simulation),
-						 npart, 
-						 ntry, mmax, nmin, imbalance);
-
-    i = partition;
-    while (i) {
-      gts_container_foreach (GTS_CONTAINER (i->data), 
-			     (GtsFunc) set_box_pid, &pid);
-      pid++;
-      i = i->next;
-    }
-    if (verbose)
-      gts_graph_partition_print_stats (partition, stderr);
-    gts_graph_partition_destroy (partition);
-    gfs_simulation_write (simulation, maxlevel, stdout);
-    return 0;
-  }
-
-  domain = GFS_DOMAIN (simulation);
-  if (split) {
-    gfs_clock_start (domain->timer);
-    gfs_simulation_refine (simulation);
-    gfs_clock_stop (domain->timer);
-    while (split) {
-      gfs_domain_split (domain, one_box_per_pe);
-      split--;
-    }
-    gfs_simulation_write (simulation, maxlevel, stdout);
-    return 0;
-  }
-
-  if (events->len > 0) {
-    GSList * l = NULL;
-    guint i;
-    for (i = 0; i < events->len; i++) {
-      GtsFile * fp = gts_file_new_from_string (g_ptr_array_index (events, i));
-      if (fp->type != GTS_STRING) {
-	gfs_error (-1, 
-		   "gerris: invalid event: '%s'\n"
-		   "expecting a GfsEvent name\n",
-		   (char *) g_ptr_array_index (events, i));
-	return 1;
-      }
-      GtsObjectClass * klass = gfs_object_class_from_name (fp->token->str);
-      if (klass == NULL) {
-	gfs_error (-1, "gerris: unknown event class `%s'\n", fp->token->str);
-	return 1;
-      }
-      if (!gts_object_class_is_from_class (klass, gfs_event_class ())) {
-	gfs_error (-1, "gerris: class `%s' is not a GfsEvent\n", fp->token->str);
-	return 1;
-      }
-      GtsObject * object = gts_object_new (klass);
-      gfs_object_simulation_set (object, simulation);
-      g_assert (klass->read);
-      (* klass->read) (&object, fp);
-      if (fp->type == GTS_ERROR) {
-	gfs_error (-1,
-		   "gerris: invalid event: '%s'\n"
-		   "%d:%d: %s\n",
-		   (char *) g_ptr_array_index (events, i),
-		   fp->line, fp->pos, fp->error);
-	return 1;
-      }
-      if (GFS_IS_ADAPT (object))
-	gts_container_add (GTS_CONTAINER (simulation->adapts), GTS_CONTAINEE (object));
-      else if (GFS_IS_SOLID (object))
-	gts_container_add (GTS_CONTAINER (simulation->solids), GTS_CONTAINEE (object));
-      gts_container_add (GTS_CONTAINER (simulation->events), GTS_CONTAINEE (object));
-      l = g_slist_append (l, object);
-      gts_file_destroy (fp);
-    }
-    gfs_clock_start (domain->timer);
-    g_slist_foreach (l, (GFunc) gfs_event_do, simulation);    
-    gfs_clock_stop (domain->timer);
-    setup_binary_IO (domain);
-    gfs_simulation_write (simulation, -1, stdout);
-    return 0;
-  }
-
-  domain->profile_bc = profile;
-
-  gfs_simulation_run (simulation);
-
-  return 0;
-}
diff --git a/src/gerris2D.pc.in b/src/gerris2D.pc.in
deleted file mode 100644
index 6741d53..0000000
--- a/src/gerris2D.pc.in
+++ /dev/null
@@ -1,11 +0,0 @@
-prefix=@prefix@
-exec_prefix=@exec_prefix@
-libdir=@libdir@
-includedir=@includedir@
-
-Name: Gerris2D
-Description: Gerris Flow Solver Library (2D)
-Version: @VERSION@
-Requires: gts >= 0.7.3
-Libs: -L${libdir} -lgfs2D -lgts -lm
-Cflags: -I${includedir} -DFTT_2D=1
diff --git a/src/gerris2D3.pc.in b/src/gerris2D3.pc.in
deleted file mode 100644
index fc2f41c..0000000
--- a/src/gerris2D3.pc.in
+++ /dev/null
@@ -1,11 +0,0 @@
-prefix=@prefix@
-exec_prefix=@exec_prefix@
-libdir=@libdir@
-includedir=@includedir@
-
-Name: Gerris2D3
-Description: Gerris Flow Solver Library (2D3)
-Version: @VERSION@
-Requires: gts >= 0.7.3
-Libs: -L${libdir} -lgfs2D3 -lgts -lm
-Cflags: -I${includedir} -DFTT_2D3=1
diff --git a/src/gerris3D.pc.in b/src/gerris3D.pc.in
deleted file mode 100644
index 548f692..0000000
--- a/src/gerris3D.pc.in
+++ /dev/null
@@ -1,11 +0,0 @@
-prefix=@prefix@
-exec_prefix=@exec_prefix@
-libdir=@libdir@
-includedir=@includedir@
-
-Name: Gerris3D
-Description: Gerris Flow Solver Library (3D)
-Version: @VERSION@
-Requires: gts >= 0.7.3
-Libs: -L${libdir} -lgfs3D -lgts -lm
-Cflags: -I${includedir}
diff --git a/src/gfs-config.in b/src/gfs-config.in
deleted file mode 100755
index 9dbc382..0000000
--- a/src/gfs-config.in
+++ /dev/null
@@ -1,108 +0,0 @@
-#!/bin/sh
-
-gts_libs="@gts_libs@"
-gts_cflags="@gts_cflags@"
-
-prefix=@prefix@
-exec_prefix=@exec_prefix@
-exec_prefix_set=no
-
-usage()
-{
-	cat <<EOF
-Usage: gfs-config [OPTIONS]
-Options:
-	[--prefix[=DIR]]
-	[--exec-prefix[=DIR]]
-	[--version]
-	[--libs]
-	[--cflags]
-        [--2D]
-EOF
-	exit $1
-}
-
-uniquify()
-{
-    echo $1 | awk '{
-	for (i = 1; i <= NF; i++) {
-	    unique = 1;
-	    for (j = i + 1; j <= NF && unique; j++)
-		if ($i == $j)
-		    unique = 0;
-            if (unique)
-		printf ("%s ", $i);
-	}
-    }'
-}
-
-if test $# -eq 0; then
-	usage 1 1>&2
-fi
-
-while test $# -gt 0; do
-  case "$1" in
-  -*=*) optarg=`echo "$1" | sed 's/[-_a-zA-Z0-9]*=//'` ;;
-  *) optarg= ;;
-  esac
-
-  case $1 in
-    --prefix=*)
-      prefix=$optarg
-      if test $exec_prefix_set = no ; then
-        exec_prefix=$optarg
-      fi
-      ;;
-    --prefix)
-      echo_prefix=yes
-      ;;
-    --exec-prefix=*)
-      exec_prefix=$optarg
-      exec_prefix_set=yes
-      ;;
-    --exec-prefix)
-      echo_exec_prefix=yes
-      ;;
-    --version)
-      echo @GFS_VERSION@
-      exit 0
-      ;;
-    --cflags)
-      echo_cflags=yes
-      ;;
-    --2D)
-      twod=yes
-      ;;
-    --libs)
-      echo_libs=yes
-      ;;
-    *)
-      usage 1 1>&2
-      ;;
-  esac
-  shift
-done
-
-if test "$echo_prefix" = "yes"; then
-	echo $prefix
-fi
-if test "$echo_exec_prefix" = "yes"; then
-	echo $exec_prefix
-fi
-if test "$echo_cflags" = "yes"; then
-	if test "$twod" = "yes"; then
-	    gts_cflags="$gts_cflags -DFTT_2D=1"
-	fi
-	gts_cflags="$gts_cflags -I${prefix}/include"
-	gts_cflags=`uniquify "$gts_cflags"`
-	echo $gts_cflags
-fi
-if test "$echo_libs" = "yes"; then
-	if test "$twod" = "yes"; then
-	    gts_libs="-L${exec_prefix}/lib -lgfs2D $gts_libs -lm"
-	else
-	    gts_libs="-L${exec_prefix}/lib -lgfs3D $gts_libs -lm"
-	fi
-	gts_libs=`uniquify "$gts_libs"`
-	echo $gts_libs
-fi
diff --git a/src/gfs.h b/src/gfs.h
deleted file mode 100644
index 2b956da..0000000
--- a/src/gfs.h
+++ /dev/null
@@ -1,46 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __GFS_H__
-#define __GFS_H__
-
-#include <gerris/ftt.h>
-#include <gerris/fluid.h>
-#include <gerris/output.h>
-#include <gerris/solid.h>
-#include <gerris/poisson.h>
-#include <gerris/advection.h>
-#include <gerris/boundary.h>
-#include <gerris/timestep.h>
-#include <gerris/domain.h>
-#include <gerris/init.h>
-#include <gerris/refine.h>
-#include <gerris/event.h>
-#include <gerris/simulation.h>
-#include <gerris/graphic.h>
-#include <gerris/adaptive.h>
-#include <gerris/source.h>
-#include <gerris/vof.h>
-#include <gerris/cartesian.h>
-#include <gerris/surface.h>
-#include <gerris/unstructured.h>
-#include <gerris/map.h>
-#include <gerris/version.h>
-
-#endif /* GFS_H */
diff --git a/src/graphic.c b/src/graphic.c
deleted file mode 100644
index ed3c354..0000000
--- a/src/graphic.c
+++ /dev/null
@@ -1,2152 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <math.h>
-#include <gts.h>
-
-#include "config.h"
-#include "graphic.h"
-#include "solid.h"
-#include "variable.h"
-#include "version.h"
-
-#if !FTT_2D
-#  include "isocube.h"
-#endif /* 3D */
-
-typedef struct {
-  GPtrArray * colors;
-  gboolean reversed;
-} Colormap;
-
-static GtsColor * color_new (gdouble r, gdouble g, gdouble b)
-{
-  GtsColor * c = g_malloc (sizeof (GtsColor));
-  c->r = r; c->g = g; c->b = b;
-  return c;
-}
-
-static void color_destroy (GtsColor * color)
-{
-  g_return_if_fail (color != NULL);
-
-  g_free (color);
-}
-
-static Colormap * colormap_jet (void)
-{
-  Colormap * cmap = g_malloc (sizeof (Colormap));
-  gint i;
-
-  cmap->reversed = FALSE;
-  cmap->colors = g_ptr_array_new ();
-  for (i = 0; i < 127; i++) {
-    gdouble r = 
-      i <= 46 ? 0. : 
-      i >= 111 ? -0.03125*(i - 111) + 1. :
-      i >= 78 ? 1. : 
-      0.03125*(i - 46);
-    gdouble g = 
-      i <= 14 || i >= 111 ? 0. : 
-      i >= 79 ? -0.03125*(i - 111) : 
-      i <= 46 ? 0.03125*(i - 14) : 
-      1.;
-    gdouble b =
-      i >= 79 ? 0. :
-      i >= 47 ? -0.03125*(i - 79) :
-      i <= 14 ? 0.03125*(i - 14) + 1.:
-      1.;
-
-    g_ptr_array_add (cmap->colors, color_new (r, g, b));
-  }
-  return cmap;
-}
-
-static void colormap_destroy (Colormap * colormap)
-{
-  guint i;
-
-  g_return_if_fail (colormap != NULL);
-
-  for (i = 0; i < colormap->colors->len; i++)
-    color_destroy (colormap->colors->pdata[i]);
-  g_ptr_array_free (colormap->colors, TRUE);
-  g_free (colormap);
-}
-
-static GtsColor colormap_color (Colormap * cmap, gdouble val)
-{
-  GtsColor c = {1., 1., 1.}, * c1, * c2;
-  guint i, n;
-  gdouble coef;
-
-  g_return_val_if_fail (cmap != NULL, c);
-
-  if (val > 1.0) val = 1.0;
-  else if (val < 0.0) val = 0.0;
-  if (cmap->reversed)
-    val = 1.0 - val;
-
-  n = cmap->colors->len;
-  if (n == 0)
-    return c;
-  if (n == 1)
-    return *((GtsColor *)cmap->colors->pdata[0]);
-
-  i = floor ((gdouble)val*(gdouble)(n - 1));
-  if (i == n - 1)
-    return *((GtsColor *)cmap->colors->pdata[cmap->colors->len - 1]);
-  coef = val*(gdouble)(n - 1) - (gdouble)i;
-  c1 = cmap->colors->pdata[i];
-  c2 = cmap->colors->pdata[i+1];
-  c.r = c1->r + coef*(c2->r - c1->r);
-  c.g = c1->g + coef*(c2->g - c1->g);
-  c.b = c1->b + coef*(c2->b - c1->b);
-  return c;
-}
-
-/* VertexCellFace: Header */
-
-typedef struct _VertexCellFace         VertexCellFace;
-
-struct _VertexCellFace {
-  /*< private >*/
-  GtsVertex parent;
-
-  /*< public >*/
-  guint index;
-  FttCell * cell;
-  FttCellFace face;
-};
-
-#define VERTEX_CELL_FACE(obj)            GTS_OBJECT_CAST (obj,\
-					         VertexCellFace,\
-					         vertex_cell_face_class ())
-
-/* VertexCellFace: Object */
-
-static GtsVertexClass * vertex_cell_face_class (void)
-{
-  static GtsVertexClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo vertex_cell_face_info = {
-      "VertexCellFace",
-      sizeof (VertexCellFace),
-      sizeof (GtsVertexClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_vertex_class ()),
-				  &vertex_cell_face_info);
-  }
-
-  return klass;
-}
-
-static void triangulate (FttCell * cell, gpointer * data)
-{
-  GtsSurface * s = data[0];
-  GfsVariable * var = data[1];
-  GtsVertex * v;
-  FttVector pos;
-
-  if (var && var->centered)
-    ftt_cell_pos (cell, &pos);
-  else 
-    gfs_cell_cm (cell, &pos);
-
-  v = gts_vertex_new (s->vertex_class, pos.x, pos.y, pos.z);
-  if (var) {
-    GtsMatrix * transform = data[2];
-    gdouble * z = data[3];
-    GfsNorm * norm = data[4];
-
-    gts_point_transform (GTS_POINT (v), transform);
-    GTS_POINT (v)->z = *z + GFS_VARIABLE (cell, var->i)/(norm->infty*1000.);
-  }
-  g_assert (gts_delaunay_add_vertex (s, v, NULL) == NULL);
-  VERTEX_CELL_FACE (v)->cell = cell;
-}
-
-static void triangulate_face (FttCell * cell, gpointer * data)
-{
-  GtsSurface * s = data[0];
-  GfsVariable * var = data[1];
-  FttDirection * d = data[5];
-  GtsVertex * v;
-  FttVector pos;
-  FttCellFace face;
-
-  face.cell = cell;
-  face.d = *d;
-  face.neighbor = ftt_cell_neighbor (cell, face.d);
-  ftt_face_pos (&face, &pos);
-  v = gts_vertex_new (s->vertex_class, pos.x, pos.y, pos.z);
-  if (var) {
-    GtsMatrix * transform = data[2];
-    gdouble * z = data[3];
-    GfsNorm * norm = data[4];
-
-    gts_point_transform (GTS_POINT (v), transform);
-    if (face.neighbor)
-      GTS_POINT (v)->z = *z + 
-	gfs_face_interpolated_value  (&face, var->i)/(norm->infty*1000.);
-    else
-      GTS_POINT (v)->z = *z + GFS_VARIABLE (cell, var->i)/(norm->infty*1000.);
-  }
-  g_assert (gts_delaunay_add_vertex (s, v, NULL) == NULL);
-  VERTEX_CELL_FACE (v)->face = face;
-}
-
-static void add_long_segment (GtsSegment * s, GSList ** list)
-{
-  FttCell * c1 = VERTEX_CELL_FACE (s->v1)->cell ? VERTEX_CELL_FACE (s->v1)->cell :
-    VERTEX_CELL_FACE (s->v1)->face.cell;
-  FttCell * c2 = VERTEX_CELL_FACE (s->v2)->cell ? VERTEX_CELL_FACE (s->v2)->cell :
-    VERTEX_CELL_FACE (s->v2)->face.cell;
-  gdouble s1 = ftt_cell_size (c1);
-  gdouble s2 = ftt_cell_size (c2);
-  gdouble size = MIN (s1, s2);
-
-  if (gts_point_distance2 (GTS_POINT (s->v1), GTS_POINT (s->v2)) > 
-      16.*size*size)
-    *list = g_slist_prepend (*list, s);
-}
-
-void gfs_write_gts (GfsDomain * domain, 
-		    GfsVariable * v, 
-		    FttTraverseFlags flags,
-		    gint level,
-		    GtsBBox * box,
-		    FILE * fp)
-{
-  GtsSurface * s;
-  GtsVertex * v1, * v2, * v3;
-  GtsEdge * e1, * e2, * e3;
-  gpointer data[6];
-  GtsMatrix * transform, * inv;
-  gdouble z = 0.;
-  GfsNorm norm;
-  GSList * long_segments = NULL;
-
-  g_return_if_fail (domain != NULL);
-#if (!FTT_2D)
-  g_return_if_fail (box != NULL);
-#endif /* 3D */
-  g_return_if_fail (fp != NULL);
-
-  v1 = gts_vertex_new (gts_vertex_class (), -100., -100., 0.);
-  v2 = gts_vertex_new (gts_vertex_class (), 100., -100., 0.);
-  v3 = gts_vertex_new (gts_vertex_class (), 0., 100., 0.);
-  e1 = gts_edge_new (gts_edge_class (), v1, v2);
-  e2 = gts_edge_new (gts_edge_class (), v2, v3);
-  e3 = gts_edge_new (gts_edge_class (), v3, v1);
-  s = gts_surface_new (gts_surface_class (), 
-		       gts_face_class (), 
-		       gts_edge_class (), 
-		       vertex_cell_face_class ());
-  gts_surface_add_face (s, gts_face_new (gts_face_class (), e1, e2, e3));
-
-  norm = gfs_domain_norm_variable (domain, v, NULL, flags, level);
-  if (norm.infty == 0.)
-    norm.infty = 1.;
-#if FTT_2D
-  transform = gts_matrix_identity (NULL);
-#else /* 3D */
-  if (box->x2 - box->x1 < box->z2 - box->z1 &&
-      box->x2 - box->x1 < box->y2 - box->y1) {
-    z = box->x2 = box->x1 = (box->x2 + box->x1)/2. + 1e-30;
-    transform = gts_matrix_new (0., 1., 0., 0.,
-				0., 0., 1., 0.,
-				1., 0., 0., 0.,
-				0., 0., 0., 0.);
-  }
-  else if (box->y2 - box->y1 < box->z2 - box->z1 &&
-	   box->y2 - box->y1 < box->x2 - box->x1) {
-    z = box->y2 = box->y1 = (box->y2 + box->y1)/2. + 1e-30;
-    transform = gts_matrix_new (0., 0., 1., 0.,
-				1., 0., 0., 0.,
-				0., 1., 0., 0.,
-				0., 0., 0., 0.);
-  }
-  else {
-    z = box->z2 = box->z1 = (box->z2 + box->z1)/2. + 1e-30;
-    transform = gts_matrix_new (1., 0., 0., 0.,
-				0., 1., 0., 0.,
-				0., 0., 1., 0.,
-				0., 0., 0., 0.);
-  }
-#endif /* 3D */
-  
-  data[0] = s;
-  data[1] = v;
-  data[2] = transform;
-  data[3] = &z;
-  data[4] = &norm;
-  if (box == NULL) {
-    FttDirection d;
-
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, level, 
-			     (FttCellTraverseFunc) triangulate, data);
-    data[5] = &d;
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      gfs_domain_cell_traverse_boundary (domain, d, 
-					 FTT_PRE_ORDER, flags, level, 
-		   (FttCellTraverseFunc) triangulate_face, data);
-  }
-  else
-    gfs_domain_cell_traverse_box (domain, box, FTT_PRE_ORDER, flags, level, 
-				 (FttCellTraverseFunc) triangulate, data);
-
-  gts_allow_floating_vertices = TRUE;
-  gts_object_destroy (GTS_OBJECT (v1));
-  gts_object_destroy (GTS_OBJECT (v2));
-  gts_object_destroy (GTS_OBJECT (v3));
-  gts_allow_floating_vertices = FALSE;
-
-  gts_surface_foreach_edge (s, (GtsFunc) add_long_segment, &long_segments);
-  gts_allow_floating_edges = TRUE;
-  g_slist_foreach (long_segments, (GFunc) gts_object_destroy, NULL);
-  gts_allow_floating_edges = FALSE;
-  g_slist_free (long_segments);
-
-  inv = gts_matrix3_inverse (transform);
-  gts_matrix_destroy (transform);
-  transform = inv;
-  gts_surface_foreach_vertex (s, (GtsFunc) gts_point_transform, transform);
-  gts_surface_write (s, fp);
-
-  gts_object_destroy (GTS_OBJECT (s));
-  gts_matrix_destroy (transform);
-}
-
-static void extent (FttCell * cell, gpointer * data)
-{
-  FttVector * min = data[0];
-  FttVector * max = data[1];
-  FttVector pos;
-  
-  ftt_cell_pos (cell, &pos);
-  if (pos.x > max->x) max->x = pos.x;
-  if (pos.y > max->y) max->y = pos.y;
-  if (pos.z > max->z) max->z = pos.z;
-  if (pos.x < min->x) min->x = pos.x;
-  if (pos.y < min->y) min->y = pos.y;
-  if (pos.z < min->z) min->z = pos.z;
-}
-
-static void iso_func (gdouble ** a, GtsCartesianGrid g, guint k,
-		      gpointer * data)
-{
-  GfsDomain * domain = data[0];
-  guint * level = data[1], i, j;
-  GfsVariable * v = data[2];
-  FttVector p;
-  fprintf (stderr, "\rslice %4d/%d", k + 1, g.nz);
-  p.z = g.z;
-  for (i = 0, p.x = g.x; i < g.nx; i++, p.x += g.dx)
-    for (j = 0, p.y = g.y; j < g.ny; j++, p.y += g.dy) {
-      FttCell * cell = gfs_domain_locate (domain, p, *level, NULL);
-
-      if (cell == NULL)
-	a[i][j] = 0.;
-      else
-	a[i][j] = gfs_interpolate (cell, p, v);
-    }
-}
-
-GtsSurface * gfs_isosurface (GfsDomain * domain, 
-			     GfsVariable * v, gdouble val,
-			     gint level)
-{
-  FttVector cmax = { - G_MAXDOUBLE, - G_MAXDOUBLE, - G_MAXDOUBLE };
-  FttVector cmin = { G_MAXDOUBLE, G_MAXDOUBLE, G_MAXDOUBLE };
-  guint depth;
-  GtsCartesianGrid g;
-  gpointer data[3];
-  GtsSurface * s;
-
-  g_return_val_if_fail (domain != NULL, NULL);
-  g_return_val_if_fail (v != NULL, NULL);
-
-  if (level < 0)
-    depth = gfs_domain_depth (domain);
-  else
-    depth = level;
-
-  data[0] = &cmin;
-  data[1] = &cmax;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, 
-			    FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, depth,
-			    (FttCellTraverseFunc) extent, data);
-  if (cmin.x == G_MAXDOUBLE)
-    return NULL;
-
-  g.dx = g.dy = g.dz = ftt_level_size (depth);
-  g.x = cmin.x; g.y = cmin.y; g.z = cmin.z;
-  g.nx = (cmax.x - cmin.x)/g.dx + 1;
-  g.ny = (cmax.y - cmin.y)/g.dy + 1;
-  g.nz = (cmax.z - cmin.z)/g.dz + 1;
-  
-  s = gts_surface_new (gts_surface_class (), 
-		       gts_face_class (), 
-		       gts_edge_class (), 
-		       gts_vertex_class ());
-  data[0] = domain;
-  data[1] = &depth;
-  data[2] = v;
-  gts_isosurface_cartesian (s, g, (GtsIsoCartesianFunc) iso_func, data, val);
-
-  return s;
-}
-
-static void write_gnuplot (FttCell * cell, gpointer * data)
-{
-  FILE * fp = data[0];
-  GfsVariable * v = data[1];
-  GtsBBox * bbox = data[2];
-  FttVector pos;
-  
-  if (v->centered)
-    ftt_cell_pos (cell, &pos);
-  else
-    gfs_cell_cm (cell, &pos);
-
-  if (bbox == NULL || (pos.x >= bbox->x1 && pos.x <= bbox->x2 &&
-		       pos.y >= bbox->y1 && pos.y <= bbox->y2 &&
-		       pos.z >= bbox->z1 && pos.z <= bbox->z2)) {
-    gfs_simulation_map_inverse (GFS_SIMULATION (v->domain), &pos);
-    fprintf (fp, "%g %g %g %g\n", 
-	     pos.x, pos.y, pos.z, GFS_VARIABLE (cell, v->i));
-  }
-}
-
-void gfs_write_gnuplot (GfsDomain * domain, 
-			GfsVariable * v, 
-			FttTraverseFlags flags,
-			gint level,
-			GtsBBox * bbox,
-			FILE * fp)
-{  
-  gpointer data[3];
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  data[0] = fp;
-  data[1] = v;
-  data[2] = bbox;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, level, 
-			   (FttCellTraverseFunc) write_gnuplot, data);
-}
-
-typedef struct {
-  guchar r, g, b;
-} Color;
-
-typedef struct {
-  FttVector min;
-  guint width, height, size;
-  guchar * buf, *** data;
-} Image;
-
-static Image * image_new (FttVector min, FttVector max, guint size)
-{
-  Image * im = g_malloc0 (sizeof (Image));
-  guint i;
-
-  im->min = min;
-  im->size = size;
-  im->width = (max.x - min.x)*size;
-  im->height = (max.y - min.y)*size;
-  im->buf = g_malloc0 (sizeof (guchar)*3*im->width*im->height);
-  im->data = g_malloc (sizeof (guchar **)*im->height);
-  for (i = 0; i < im->height; i++) {
-    guint j;
-
-    im->data[i] = g_malloc (sizeof (guchar *)*im->width);
-    for (j = 0; j < im->width; j++)
-      im->data[i][j] = &im->buf[3*(i*im->width + j)];
-  }
-  return im;
-}
-
-static void image_write (Image * im, FILE * fp)
-{
-  fprintf (fp, 
-	   "P6\n"
-	   "# File generated by gerris using 2D libgfs version %s (%s)\n"
-	   "# Origin: %d %d\n"
-	   "%u %u 255\n",
-	   GFS_VERSION,
-	   GFS_BUILD_VERSION,
-	   (gint) (im->min.x*im->size), 
-	   (gint) (im->min.y*im->size),
-	   im->width, im->height);
-  fwrite (im->buf, sizeof (guchar), 3*im->width*im->height, fp);
-}
-
-static void image_destroy (Image * im)
-{
-  guint i;
-
-  for (i = 0; i < im->height; i++)
-    g_free (im->data[i]);
-  g_free (im->data);
-  g_free (im->buf);
-  g_free (im);
-}
-
-static void image_draw_square (Image * im,
-			       FttVector * p1, FttVector * p2,
-			       Color c)
-{
-  gint i1, j1, i2, j2, i, j;
-
-  i1 = (p1->x - im->min.x)*im->size;
-  i2 = (p2->x - im->min.x)*im->size;
-  j1 = (p1->y - im->min.y)*im->size;
-  j2 = (p2->y - im->min.y)*im->size;
-
-  j1 = im->height - 1 - j1;
-  j2 = im->height - 1 - j2;
-  for (i = i1; i <= i2; i++)
-    for (j = j2; j <= j1; j++) 
-      if (i >= 0 && i < im->width && j >= 0 && j < im->height) {
-	im->data[j][i][0] = c.r;
-	im->data[j][i][1] = c.g;
-	im->data[j][i][2] = c.b;
-      }
-}
-
-static void write_image_square (FttCell * cell, gpointer * data)
-{
-  Colormap * colormap = data[0];
-  gdouble * min = data[1];
-  gdouble * max = data[2];
-  GfsVariable * v = data[3];
-  Image * image = data[4];
-  FttVector * lambda = data[5];
-  FttVector p;
-  GtsColor fc = colormap_color (colormap, (GFS_VARIABLE (cell, v->i) - *min)/(*max - *min));
-  Color c;
-  gdouble size = ftt_cell_size (cell)/2.;
-  FttVector p1, p2;
-
-  ftt_cell_pos (cell, &p);
-  c.r = fc.r*255;
-  c.g = fc.g*255;
-  c.b = fc.b*255;
-  p1.x = (p.x - size)/lambda->x + 1e-9;
-  p1.y = (p.y - size)/lambda->y + 1e-9;
-  p2.x = (p.x + size)/lambda->x - 1e-9;
-  p2.y = (p.y + size)/lambda->y - 1e-9;
-  image_draw_square (image, &p1, &p2, c);
-}
-
-static void max_extent (FttCell * cell, FttVector * max)
-{
-  FttVector pos;
-  
-  ftt_cell_pos (cell, &pos);
-  if (pos.x > max->x) max->x = pos.x;
-  if (pos.y > max->y) max->y = pos.y;
-  if (pos.z > max->z) max->z = pos.z;
-}
-
-static void min_extent (FttCell * cell, FttVector * min)
-{
-  FttVector pos;
-  
-  ftt_cell_pos (cell, &pos);
-  if (pos.x < min->x) min->x = pos.x;
-  if (pos.y < min->y) min->y = pos.y;
-  if (pos.z < min->z) min->z = pos.z;
-}
-
-void gfs_write_ppm (GfsDomain * domain, 
-		    GtsBBox * box,
-		    GfsVariable * v, gdouble min, gdouble max,
-		    FttTraverseFlags flags,
-		    gint level,
-		    FILE * fp)
-{
-  Colormap * colormap;
-  guint depth, size = 1;
-  Image * image;
-  FttVector cmax = { - G_MAXDOUBLE, - G_MAXDOUBLE, - G_MAXDOUBLE };
-  FttVector cmin = { G_MAXDOUBLE, G_MAXDOUBLE, G_MAXDOUBLE };
-  gpointer data[6];
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  if (min == max)
-    max = min + 1.;
-  if (level < 0)
-    depth = gfs_domain_depth (domain);
-  else
-    depth = level;
-  while (depth-- > 0)
-    size *= 2;
-
-  if (box != NULL) {
-    cmin.x = box->x1/domain->lambda.x; 
-    cmin.y = box->y1/domain->lambda.y; 
-    cmin.z = box->z1;
-    cmax.x = box->x2/domain->lambda.x; 
-    cmax.y = box->y2/domain->lambda.y; 
-    cmax.z = box->z2;
-  }
-  else {
-    gdouble h;
-
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, 
-			      domain->rootlevel,
-			      (FttCellTraverseFunc) min_extent, &cmin);
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL,
-			      domain->rootlevel,
-			      (FttCellTraverseFunc) max_extent, &cmax);
-    if (cmin.x == G_MAXDOUBLE)
-      return;
-    h = ftt_level_size (domain->rootlevel)/2.;
-    cmin.x = (cmin.x - h)/domain->lambda.x; 
-    cmin.y = (cmin.y - h)/domain->lambda.y;
-    cmax.x = (cmax.x + h)/domain->lambda.x; 
-    cmax.y = (cmax.y + h)/domain->lambda.y;
-  }
-
-  colormap = colormap_jet ();
-  image = image_new (cmin, cmax, size);
-
-  data[0] = colormap;
-  data[1] = &min;
-  data[2] = &max;
-  data[3] = v;
-  data[4] = image;
-  data[5] = &domain->lambda;
-  if (box != NULL)
-    gfs_domain_cell_traverse_box (domain, box, FTT_PRE_ORDER, flags, level,
-				  (FttCellTraverseFunc) write_image_square, data);
-  else
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, level,
-			      (FttCellTraverseFunc) write_image_square, data);
-  image_write (image, fp);
-  image_destroy (image);
-  colormap_destroy (colormap);
-}
-
-static gint gfs_combine_close (FILE ** f, Image ** im, gint n, gint ret)
-{
-  guint i;
-
-  for (i = 0; i < n; i++) {
-    if (f[i])
-      fclose (f[i]);
-    if (im[i])
-      image_destroy (im[i]);
-  }
-  g_free (f);
-  g_free (im);
-  return ret;
-}
-
-static gint get_newline (FILE * fp)
-{
-  gint c;
-
-  c = fgetc (fp);
-  while (c != EOF && c != '\n')
-    c = fgetc (fp);
-  return c;
-}
-
-gint gfs_combine_ppm (gchar ** fname, guint nname, FILE * fp)
-{
-  FILE ** f;
-  guint i;
-  Image ** image;
-
-  g_return_val_if_fail (fname != NULL, 0);
-  g_return_val_if_fail (fp != NULL, 0);
-
-  f = g_malloc0 (nname*sizeof (FILE *));
-  image = g_malloc0 (nname*sizeof (Image *));
-  for (i = 0; i < nname; i++) {
-    f[i] = fopen (fname[i], "r");
-    if (f[i] == NULL)
-      return gfs_combine_close (f, image, nname, i);
-  }
-  
-  while (TRUE) {
-    gint x0 = G_MAXINT, y0 = G_MAXINT, x1 = - G_MAXINT, y1 = - G_MAXINT;
-    FttVector min, max;
-    Image * combo;
-
-    for (i = 0; i < nname; i++) {
-      gchar s[80];
-      gint x, y;
-      gint h, w;
-      guint status;
-
-      status = fscanf (f[i], "%79s", s);
-      if (status != 1 && feof (f[i]))
-	return gfs_combine_close (f, image, nname, -1);
-      if (status != 1 ||
-	  strcmp (s, "P6") ||
-	  get_newline (f[i]) == EOF ||
-	  get_newline (f[i]) == EOF ||
-	  fscanf (f[i], "%*s %79s %d %d", s, &x, &y) != 3 ||
-	  strcmp (s, "Origin:") ||
-	  fscanf (f[i], "%d %d", &w, &h) != 2)
-	return gfs_combine_close (f, image, nname, i);
-      if (x < x0) x0 = x;
-      if (y < y0) y0 = y;
-      if (x + w > x1) x1 = x + w;
-      if (y + h > y1) y1 = y + h;
-      min.x = x;
-      min.y = y;
-      max.x = x + w;
-      max.y = y + h;
-      if (image[i] != NULL)
-	image_destroy (image[i]);
-      image[i] = image_new (min, max, 1);
-      if (get_newline (f[i]) == EOF ||
-	  fread (image[i]->buf, sizeof (guchar), 
-		 3*image[i]->width*image[i]->height, f[i]) !=
-	  3*image[i]->width*image[i]->height)
-	return gfs_combine_close (f, image, nname, i);
-    }
-
-    min.x = x0;
-    min.y = y0;
-    max.x = x1;
-    max.y = y1;
-    combo = image_new (min, max, 1);
-    for (i = 0; i < nname; i++) {
-      guint x, y;
-
-      for (y = 0; y < image[i]->height; y++)
-	for (x = 0; x < image[i]->width; x++) {
-	  gint x1 = x + image[i]->min.x - combo->min.x;
-	  gint y1 = y + combo->min.y + combo->height - image[i]->min.y - image[i]->height;
-	  guchar r = image[i]->data[y][x][0];
-	  guchar g = image[i]->data[y][x][1];
-	  guchar b = image[i]->data[y][x][2];
-
-	  if (r || g || b) {
-	    combo->data[y1][x1][0] = r;
-	    combo->data[y1][x1][1] = g;
-	    combo->data[y1][x1][2] = b;
-	  }
-	}
-    }
-    image_write (combo, fp);
-    image_destroy (combo);
-  }
-  gfs_combine_close (f, image, nname, 0);
-}
-
-static void write_square (FttCell * cell, gpointer * data)
-{
-  Colormap * colormap = data[0];
-  gdouble * min = data[1];
-  gdouble * max = data[2];
-  GfsVariable * v = data[3];
-  FILE * fp = data[4];
-  FttVector p;
-  GtsColor c;
-  gdouble size = ftt_cell_size (cell)/2.;
-
-  ftt_cell_pos (cell, &p);
-  c = colormap_color (colormap, 
-		      (GFS_VARIABLE (cell, v->i) - *min)/(*max - *min));
-#if FTT_2D    
-  fprintf (fp, 
-	   "OFF 4 1 4\n"
-	   "%g %g 0\n%g %g 0\n%g %g 0\n%g %g 0\n"
-	   "5 0 1 2 3 0 %g %g %g\n",
-	   p.x - size, p.y - size,
-	   p.x + size, p.y - size,
-	   p.x + size, p.y + size,
-	   p.x - size, p.y + size,
-	   c.r, c.g, c.b);
-#else  /* FTT_3D */
-  fprintf (fp, 
-	   "OFF 8 6 12\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "%g %g %g\n"
-	   "4 3 2 1 0 %g %g %g\n"
-	   "4 4 5 6 7 %g %g %g\n"
-	   "4 2 3 7 6 %g %g %g\n"
-	   "4 0 1 5 4 %g %g %g\n"
-	   "4 0 4 7 3 %g %g %g\n"
-	   "4 1 2 6 5 %g %g %g\n",
-	   p.x - size, p.y - size, p.z - size,
-	   p.x + size, p.y - size, p.z - size,
-	   p.x + size, p.y + size, p.z - size,
-	   p.x - size, p.y + size, p.z - size,
-	   p.x - size, p.y - size, p.z + size,
-	   p.x + size, p.y - size, p.z + size,
-	   p.x + size, p.y + size, p.z + size,
-	   p.x - size, p.y + size, p.z + size,
-	   c.r, c.g, c.b,
-	   c.r, c.g, c.b,
-	   c.r, c.g, c.b,
-	   c.r, c.g, c.b,
-	   c.r, c.g, c.b,
-	   c.r, c.g, c.b);
-#endif /* FTT_3D */
-}
-
-void gfs_write_squares (GfsDomain * domain, 
-			GfsVariable * v, gdouble min, gdouble max,
-			FttTraverseFlags flags,
-			gint level,
-			GtsBBox * bbox,
-			FILE * fp)
-{
-  Colormap * colormap;
-  gpointer data[5];
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  if (min == max)
-    max = min + 1.;
-  fputs ("LIST{\n", fp);
-  colormap = colormap_jet ();
-  data[0] = colormap;
-  data[1] = &min;
-  data[2] = &max;
-  data[3] = v;
-  data[4] = fp;  
-  if (bbox == NULL)
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, level,
-			     (FttCellTraverseFunc) write_square, data);
-  else
-    gfs_domain_cell_traverse_box (domain, bbox, FTT_PRE_ORDER, flags, level,
-			     (FttCellTraverseFunc) write_square, data);
-  fputs ("}\n", fp);
-  colormap_destroy (colormap);
-}
-
-static void write_mac (FttCellFace * face, gpointer * data)
-{
-  gdouble * scale = data[0];
-  FILE * fp = data[1];
-  GtsBBox * bbox = data[2];
-  FttVector p;
-
-  ftt_face_pos (face, &p);
-  if (bbox == NULL || (p.x >= bbox->x1 && p.x <= bbox->x2 &&
-		       p.y >= bbox->y1 && p.y <= bbox->y2 &&
-		       p.z >= bbox->z1 && p.z <= bbox->z2)) {
-    FttVector f = {0., 0., 0.};
-    gdouble un = GFS_FACE_NORMAL_VELOCITY (face)*(*scale);
-    FttComponent c = face->d/2;
-
-    switch (c) {
-    case FTT_X: f.x = un; break;
-    case FTT_Y: f.y = un; break;
-#if (!FTT_2D)
-    case FTT_Z: f.z = un; break;
-#endif /* not FTT_2D */
-    default: g_assert_not_reached ();
-    }
-    fprintf (fp, "%g %g %g\n%g %g %g\n%g %g %g\n\n",
-	     p.x + f.x - (f.x - f.y/2.)/5.,
-	     p.y + f.y - (f.x/2. + f.y)/5.,
-	     p.z + f.z,
-	     p.x + f.x,
-	     p.y + f.y,
-	     p.z + f.z,
-	     p.x + f.x - (f.x + f.y/2.)/5.,
-	     p.y + f.y + (f.x/2. - f.y)/5.,
-	     p.z + f.z);
-    fprintf (fp, "%g %g %g\n%g %g %g\n\n",
-	     p.x, p.y, p.z,
-	     p.x + f.x,
-	     p.y + f.y,
-	     p.z + f.z);
-  }
-}
-
-void gfs_write_mac_velocity (GfsDomain * domain,
-			     gdouble scale,
-			     FttTraverseFlags flags,
-			     gint level,
-			     GtsBBox * bbox,
-			     FILE * fp)
-{
-  gpointer data[3];
-  GfsNorm norm;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  norm = gfs_domain_norm_velocity (domain, flags, level);
-  scale = norm.infty > 0. ? 
-    ftt_level_size (level < 0 ? gfs_domain_depth (domain) : level)*
-    scale/norm.infty : scale;
-  data[0] = &scale;
-  data[1] = fp;
-  data[2] = bbox;
-  gfs_domain_face_traverse (domain, FTT_XYZ, FTT_PRE_ORDER, flags, level,
-			   (FttFaceTraverseFunc) write_mac, data);
-}
-
-void gfs_draw_cells (FttCell * cell, 
-		     FttTraverseFlags flags,
-		     gint level,
-		     FILE * fp)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp, "LIST {\n");
-  ftt_cell_traverse (cell, FTT_PRE_ORDER, flags, level,
-		     (FttCellTraverseFunc) ftt_cell_draw, fp);
-  fprintf (fp, "}\n");
-}
-
-void gfs_draw_levels (FttCell * cell, FILE * fp)
-{
-  guint l, depth;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (fp != NULL);
-
-  depth = ftt_cell_depth (cell);
-  for (l = 0; l <= depth; l++) {
-    fprintf (fp, "(geometry \"level %d\" { = ", l);
-    gfs_draw_cells (cell, FTT_TRAVERSE_LEVEL, l, fp);
-    fputs ("})\n", fp);
-  }
-}
-
-static void draw_box_boundaries (GfsBox * box, FILE * fp)
-{
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++) {
-    GtsObject * o =  box->neighbor[d];
-
-    if (GFS_IS_BOUNDARY (o)) {
-      if (o->klass->color) {
-	GtsColor c = (* o->klass->color) (o);
-
-#if FTT_2D
-	fprintf (fp, "appearance { material { edgecolor %g %g %g } }\n", 
-		 c.r, c.g, c.b);
-#else /* 3D */
-	fprintf (fp, 
-	  "appearance { material { ambient %g %g %g diffuse %g %g %g } }\n",
-		 c.r, c.g, c.b, c.r, c.g, c.b);
-#endif /* 3D */	
-      }
-      fputs ("LIST {\n", fp);
-      ftt_face_traverse_boundary (box->root, d, 
-				  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1, 
-				  (FttFaceTraverseFunc) ftt_face_draw, fp);
-      fputs ("}\n", fp);
-    }
-    else if (GFS_IS_BOX (o) && box->pid != GFS_BOX (o)->pid) {
-#if FTT_2D
-      fputs ("appearance { material { edgecolor 1 0 0 } }\n", fp);
-#else /* 3D */
-      fputs ("appearance { material { ambient 1 0 0 diffuse 1 0 0 } }\n", fp);
-#endif /* 3D */
-      fputs ("LIST {\n", fp);
-      ftt_face_traverse_boundary (box->root, d, 
-				  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1, 
-				  (FttFaceTraverseFunc) ftt_face_draw, fp);
-      fputs ("}\n", fp);
-    }
-  }
-}
-
-/**
- * gfs_draw_boundary_conditions:
- * @domain: a fluid domain.
- * @fp: a file pointer.
- *
- * Outputs in @fp an OOGL (geomview) representation of the boundary
- * conditions of the domain.  
- */
-void gfs_draw_boundary_conditions (GfsDomain * domain, FILE * fp)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fputs ("(geometry \"conditions\" = \n"
-	 "LIST {\n", fp);
-#if FTT_2D
-  fputs ("appearance { linewidth 2 }\n", fp);
-#endif /* 2D */
-  gts_container_foreach (GTS_CONTAINER (domain), 
-			 (GtsFunc) draw_box_boundaries, fp);
-  fputs ("})\n", fp);
-}
-
-static void draw_boundary_face (FttCell * cell, FILE * fp)
-{
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++) {
-    FttCellFace face = ftt_cell_face (cell, d);
-
-    if (ftt_face_type (&face) == FTT_BOUNDARY)
-      ftt_face_draw (&face, fp);
-  }
-}
-
-/**
- * gfs_draw_solid_boundaries:
- * @domain: a fluid domain.
- * @fp: a file pointer.
- *
- * Outputs in @fp an OOGL (geomview) representation of the solid boundaries
- * of the domain.
- */
-void gfs_draw_solid_boundaries (GfsDomain * domain, FILE * fp)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fputs ("(geometry \"solid\" = {\n", fp);
-#if FTT_2D
-  fputs ("appearance { linewidth 2 }\n", fp);
-#endif /* 2D */
-  fputs ("LIST{\n", fp);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			   (FttCellTraverseFunc) draw_boundary_face, fp);
-  fputs ("}})\n", fp);
-}
-
-static void count_face (FttCell * cell, guint * count)
-{
-  if (FTT_CELL_IS_LEAF (cell)) {
-    FttDirection d;
-    
-    for (d = 0; d < FTT_NEIGHBORS; d++) {
-      FttCellFace face = ftt_cell_face (cell, d);
-      
-      if (ftt_face_type (&face) == FTT_FINE_COARSE && face.cell == cell)
-	(*count)++;
-    }
-  }
-}
-
-static void draw_face (FttCell * cell, FILE * fp)
-{
-  if (FTT_CELL_IS_LEAF (cell)) {
-    FttDirection d;
-    
-    for (d = 0; d < FTT_NEIGHBORS; d++) {
-      FttCellFace face = ftt_cell_face (cell, d);
-      
-      if (ftt_face_type (&face) == FTT_FINE_COARSE && face.cell == cell)
-	ftt_face_draw (&face, fp);
-    }
-  }
-}
-
-/**
- * gfs_draw_refined_boundaries:
- * @domain: a fluid domain.
- * @fp: a file pointer.
- *
- * Outputs in @fp an OOGL (geomview) representation of the boundaries
- * of the refined domains.
- */
-void gfs_draw_refined_boundaries (GfsDomain * domain, FILE * fp)
-{
-  guint depth, level;
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  depth = gfs_domain_depth (domain);
-  for (level = 1; level <= depth; level++) {
-    guint count = 0;
-
-    gfs_domain_cell_traverse (domain, 
-			     FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, level,
-			     (FttCellTraverseFunc) count_face, &count);
-    if (count > 0) {
-      fprintf (fp, "(geometry \"refine_%u_%u\" = \n", level - 1, level);
-      fputs ("LIST{\n", fp);
-      gfs_domain_cell_traverse (domain, 
-			       FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, level,
-			       (FttCellTraverseFunc) draw_face, fp);
-      fputs ("}\n)\n", fp);
-    }
-  }
-}
-
-static gpointer color_data[5];
-
-static GtsColor variable_color (GtsObject * o)
-{
-  GfsDomain * domain = color_data[0];
-  GfsVariable * v = color_data[1];
-  Colormap * colormap = color_data[2];
-  gdouble * min = color_data[3];
-  gdouble * max = color_data[4];
-  FttCell * cell;
-
-  GtsPoint * p = GTS_POINT (o);
-  FttVector pos;
-  gdouble val;
-  GtsColor c;
-
-  pos.x = p->x;
-  pos.y = p->y;
-  pos.z = p->z;
-
-  cell = gfs_domain_locate (domain, pos, -1, NULL);
-  if (cell) {
-    val = gfs_interpolate (cell, pos, v);
-    c = colormap_color (colormap, (val - *min)/(*max - *min));
-  }
-  else
-    c.r = c.g = c.b = 1.;
-  return c;
-}
-
-void gfs_draw_surface (GfsDomain * domain,
-		       GtsSurface * s,
-		       GfsVariable * v, 
-		       gdouble min, gdouble max,
-		       FILE * fp)
-{
-  GtsColor (*old_color) (GtsObject *);
-  Colormap * colormap;
-
-  g_return_if_fail (domain != NULL);  
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (fp != NULL);
-
-  gfs_domain_cell_traverse (domain, 
-			    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) v->fine_coarse, v);
-  if (min == max)
-    max = min + 1.;
-  colormap = colormap_jet ();
-  old_color = GTS_OBJECT_CLASS (s->vertex_class)->color;
-  GTS_OBJECT_CLASS (s->vertex_class)->color = variable_color;
-  color_data[0] = domain;
-  color_data[1] = v;
-  color_data[2] = colormap;
-  color_data[3] = &min;
-  color_data[4] = &max;
-  gts_surface_write_oogl (s, fp);
-  GTS_OBJECT_CLASS (s->vertex_class)->color = old_color;
-
-  colormap_destroy (colormap);
-}
-
-/* GtsColoredVertex: Header */
-
-typedef struct _GtsColoredVertex         GtsColoredVertex;
-
-struct _GtsColoredVertex {
-  /*< private >*/
-  GtsVertex parent;
-
-  /*< public >*/
-  GtsColor c;
-};
-
-#define GTS_COLORED_VERTEX(obj)            GTS_OBJECT_CAST (obj,\
-					         GtsColoredVertex,\
-					         gts_colored_vertex_class ())
-#define GTS_IS_COLORED_VERTEX(obj)         (gts_object_is_from_class (obj,\
-						 gts_colored_vertex_class ()))
-
-GtsVertexClass * gts_colored_vertex_class  (void);
-
-/* GtsColoredVertex: Object */
-
-static void gts_colored_vertex_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gts_colored_vertex_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gts_colored_vertex_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (c.r)");
-    return;
-  }
-  GTS_COLORED_VERTEX (*o)->c.r = atof (fp->token->str);
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (c.g)");
-    return;
-  }
-  GTS_COLORED_VERTEX (*o)->c.g = atof (fp->token->str);
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (c.b)");
-    return;
-  }
-  GTS_COLORED_VERTEX (*o)->c.b = atof (fp->token->str);
-  gts_file_next_token (fp);
-}
-
-static void gts_colored_vertex_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gts_colored_vertex_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gts_colored_vertex_class ())->parent_class->write) 
-      (o, fp);
-  fprintf (fp, " %g %g %g", 
-	   GTS_COLORED_VERTEX (o)->c.r, 
-	   GTS_COLORED_VERTEX (o)->c.g, 
-	   GTS_COLORED_VERTEX (o)->c.b);
-}
-
-static GtsColor gts_colored_vertex_color (GtsObject * o)
-{
-  return GTS_COLORED_VERTEX (o)->c;
-}
-
-static void gts_colored_vertex_class_init (GtsVertexClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gts_colored_vertex_read;
-  GTS_OBJECT_CLASS (klass)->write = gts_colored_vertex_write;
-  GTS_OBJECT_CLASS (klass)->color = gts_colored_vertex_color;
-}
-
-static void gts_colored_vertex_init (GtsColoredVertex * object)
-{
-  object->c.r = object->c.g = object->c.b = 1.;
-}
-
-GtsVertexClass * gts_colored_vertex_class (void)
-{
-  static GtsVertexClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gts_colored_vertex_info = {
-      "GtsColoredVertex",
-      sizeof (GtsColoredVertex),
-      sizeof (GtsVertexClass),
-      (GtsObjectClassInitFunc) gts_colored_vertex_class_init,
-      (GtsObjectInitFunc) gts_colored_vertex_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_vertex_class ()),
-				  &gts_colored_vertex_info);
-  }
-
-  return klass;
-}
-
-/* GfsVertex: Header */
-
-typedef struct _GfsVertex         GfsVertex;
-
-struct _GfsVertex {
-  /*< private >*/
-  GtsColoredVertex parent;
-
-  /*< public >*/
-  gdouble v;
-};
-
-#define GFS_VERTEX(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsVertex,\
-					         gfs_vertex_class ())
-#define GFS_IS_VERTEX(obj)         (gts_object_is_from_class (obj,\
-						 gfs_vertex_class ()))
-
-GtsPointClass * gfs_vertex_class  (void);
-
-/* GfsVertex: Object */
-
-static void gfs_vertex_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gts_colored_vertex_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gts_colored_vertex_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (v)");
-    return;
-  }
-  GFS_VERTEX (*o)->v = atof (fp->token->str);
-  gts_file_next_token (fp);
-}
-
-static void gfs_vertex_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gts_colored_vertex_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gts_colored_vertex_class ())->parent_class->write)
-      (o, fp);
-  fprintf (fp, " %g", GFS_VERTEX (o)->v);
-}
-
-static void gfs_vertex_class_init (GtsPointClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_vertex_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_vertex_write;
-}
-
-GtsPointClass * gfs_vertex_class (void)
-{
-  static GtsPointClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_vertex_info = {
-      "GfsVertex",
-      sizeof (GfsVertex),
-      sizeof (GtsVertexClass),
-      (GtsObjectClassInitFunc) gfs_vertex_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = 
-      gts_object_class_new (GTS_OBJECT_CLASS (gts_colored_vertex_class ()),
-			    &gfs_vertex_info);
-  }
-
-  return klass;
-}
-
-/* GfsTwistedVertex: Header */
-
-typedef struct _GfsTwistedVertex         GfsTwistedVertex;
-
-struct _GfsTwistedVertex {
-  /*< private >*/
-  GfsVertex parent;
-
-  /*< public >*/
-  gdouble theta;
-};
-
-#define GFS_TWISTED_VERTEX(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsTwistedVertex,\
-					         gfs_twisted_vertex_class ())
-#define GFS_IS_TWISTED_VERTEX(obj)         (gts_object_is_from_class (obj,\
-						 gfs_twisted_vertex_class ()))
-
-GtsPointClass * gfs_twisted_vertex_class  (void);
-
-/* GfsTwistedVertex: Object */
-
-static void gfs_twisted_vertex_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_twisted_vertex_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_twisted_vertex_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (theta)");
-    return;
-  }
-  GFS_TWISTED_VERTEX (*o)->theta = atof (fp->token->str);
-  gts_file_next_token (fp);
-}
-
-static void gfs_twisted_vertex_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_twisted_vertex_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_twisted_vertex_class ())->parent_class->write)
-      (o, fp);
-  fprintf (fp, " %g", GFS_TWISTED_VERTEX (o)->theta);
-}
-
-static void gfs_twisted_vertex_class_init (GtsPointClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_twisted_vertex_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_twisted_vertex_write;
-}
-
-GtsPointClass * gfs_twisted_vertex_class (void)
-{
-  static GtsPointClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_twisted_vertex_info = {
-      "GfsTwistedVertex",
-      sizeof (GfsTwistedVertex),
-      sizeof (GtsVertexClass),
-      (GtsObjectClassInitFunc) gfs_twisted_vertex_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = 
-      gts_object_class_new (GTS_OBJECT_CLASS (gfs_vertex_class ()),
-			    &gfs_twisted_vertex_info);
-  }
-
-  return klass;
-}
-
-static void matrix_transpose (GtsMatrix * m)
-{
-  guint i, j;
-
-  for (i = 1; i < 3; i++)
-    for (j = 0; j < i; j++) {
-      gdouble t = m[i][j];
-
-      m[i][j] = m[j][i];
-      m[j][i] = t;
-    }
-}
-
-static void base (GtsMatrix * b, GtsPoint * p1, GtsPoint * p2)
-{
-  GtsVector x, y;
-
-  x[0] = b[0][0];
-  x[1] = b[1][0];
-  x[2] = b[2][0];
-  gts_vector_init (b[2], p2, p1);
-  gts_vector_normalize (b[2]);
-  gts_vector_cross (y, b[2], x);
-  if (gts_vector_norm (y) > 1e-2) {
-    b[1][0] = y[0];
-    b[1][1] = y[1];
-    b[1][2] = y[2];
-    gts_vector_normalize (b[1]);
-  }
-  gts_vector_cross (b[0], b[1], b[2]);
-  gts_vector_normalize (b[0]);
-  matrix_transpose (b);
-}
-
-static void edge_list (GtsMatrix * b, GtsPoint * o,
-		       GSList * profile,
-		       GtsSurface * s,
-		       GtsEdge ** e, guint ne)
-{
-  guint i;
-  GtsVertex * vold = NULL;
-  GtsVertex * vfirst = NULL;
-  gboolean colored = FALSE;
-  GtsMatrix * c;
-
-  if (GTS_IS_COLORED_VERTEX (o) && 
-      gts_object_class_is_from_class (GTS_OBJECT_CLASS (s->vertex_class),
-				      GTS_OBJECT_CLASS (gts_colored_vertex_class ())))
-    colored = TRUE;
-  if (GFS_IS_TWISTED_VERTEX (o)) {
-    gdouble t = GFS_TWISTED_VERTEX (o)->theta;
-    gdouble sint = sin (t), cost = cos (t);
-    GtsMatrix * r = gts_matrix_new (cost, -sint, 0., 0.,
-				    sint,  cost, 0., 0.,
-				    0.,      0., 1., 0.,
-				    0.,      0., 0., 0.);
-    
-    c = gts_matrix_product (b, r);
-    gts_matrix_destroy (r);
-  }
-  else
-    c = gts_matrix_new (b[0][0], b[0][1], b[0][2], 0.,
-			b[1][0], b[1][1], b[1][2], 0.,
-			b[2][0], b[2][1], b[2][2], 0.,
-			0., 0., 0., 0.);
-
-  for (i = 0; i <= ne && profile; i++, profile = profile->next) {
-    GtsPoint * p = profile->data;
-    GtsVertex * v = gts_vertex_new (s->vertex_class, p->x, p->y, 0.);
-
-    if (colored)
-      GTS_COLORED_VERTEX (v)->c = GTS_COLORED_VERTEX (o)->c;
-    
-    gts_point_transform (GTS_POINT (v), c);
-    GTS_POINT (v)->x += o->x;
-    GTS_POINT (v)->y += o->y;
-    GTS_POINT (v)->z += o->z;
-
-    if (vold != NULL)
-      e[i-1] = gts_edge_new (s->edge_class, vold, v);
-    vold = v;
-    if (!vfirst) vfirst = v;
-  }
-  if (i <= ne && vold)
-    e[i-1] = gts_edge_new (s->edge_class, vold, vfirst);
-  gts_matrix_destroy (c);
-}
-
-static void add_face (GtsSurface * s, GtsEdge ** e1, GtsEdge ** e2,
-		      guint ne)
-{
-  guint i;
-
-  for (i = 0; i < ne; i++) {
-    GtsVertex * v1 = GTS_SEGMENT (e1[i])->v1;
-    GtsVertex * v2 = GTS_SEGMENT (e2[i])->v1;
-    GtsVertex * v3 = GTS_SEGMENT (e2[i])->v2;
-    GtsVertex * v4 = GTS_SEGMENT (e1[i])->v2;
-    GtsEdge * e3 = gts_edge_new (s->edge_class, v1, v3);
-    GtsEdge * e4 = GTS_EDGE (gts_vertices_are_connected (v1, v2));
-    GtsEdge * e5 = GTS_EDGE (gts_vertices_are_connected (v3, v4));
-
-    if (e4 == NULL)
-      e4 = gts_edge_new (s->edge_class, v1, v2);
-    if (e5 == NULL)
-      e5 = gts_edge_new (s->edge_class, v3, v4);
-
-    gts_surface_add_face (s, gts_face_new (s->face_class, e4, e2[i], e3));
-    gts_surface_add_face (s, gts_face_new (s->face_class, e3, e5, e1[i]));
-  }
-}
-
-static GList * next_far_enough (GList * p, gdouble size)
-{
-  GtsPoint * ps;
-  GList * pf = NULL;
-
-  if (p == NULL)
-    return NULL;
-  ps = p->data;
-  p = p->next;
-  size *= size;
-  while (p && !pf) {
-    if (gts_point_distance2 (ps, p->data) > size)
-      pf = p;
-    p = p->next;
-  }
-  return pf;
-}
-
-void gfs_extrude_profile (GtsSurface * s,
-			  GSList * profile,
-			  gboolean closed,
-			  GList * path)
-{
-  GtsMatrix * r;
-  GtsPoint * p0, * p1, * p2;
-  GtsEdge ** e1, ** e2, ** tmp;
-  GtsBBox * bb;
-  gdouble size;
-  guint ne;
-
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (profile != NULL);
-  g_return_if_fail (path != NULL);
-
-  bb = gts_bbox_points (gts_bbox_class (), profile);
-  size = bb->x2 - bb->x1;
-  if (bb->y2 - bb->y1 > size)
-    size = bb->y2 - bb->y1;
-  gts_object_destroy (GTS_OBJECT (bb));
-
-  size /= 4.;
-
-  p0 = path->data;
-  path = next_far_enough (path, size);
-  if (path == NULL)
-    return;
-  p1 = path->data;
-  r = gts_matrix_identity (NULL);
-  ne = closed ? g_slist_length (profile) : g_slist_length (profile) - 1;
-  e1 = g_malloc (sizeof (GtsEdge *)*ne);
-  e2 = g_malloc (sizeof (GtsEdge *)*ne);
-
-  base (r, p0, p1);
-  edge_list (r, p0, profile, s, e1, ne);
-  do {
-    path = next_far_enough (path, size);
-    p2 = path ? path->data : NULL;
-    if (p2)
-      base (r, p0, p2);
-    else
-      base (r, p0, p1);
-    edge_list (r, p1, profile, s, e2, ne);
-    add_face (s, e1, e2, ne);
-    tmp = e1;
-    e1 = e2;
-    e2 = tmp;
-    p0 = p1;
-    p1 = p2;
-  } while (p1);
-
-  g_free (e1);
-  g_free (e2);
-  gts_matrix_destroy (r);
-}
-
-static gdouble triangle_area (FttVector p1, FttVector p2, FttVector p3)
-{
-  GtsVector v1, v2, a;
-
-  v1[0] = p2.x - p1.x; v1[1] = p2.y - p1.y; v1[2] = p2.z - p1.z;
-  v2[0] = p3.x - p2.x; v2[1] = p3.y - p2.y; v2[2] = p3.z - p2.z;
-  gts_vector_cross (a, v1, v2);
-  return gts_vector_norm (a)/2.;
-}
-
-static gdouble circumcircle_radius (FttVector p1, FttVector p2, FttVector p3)
-{
-  gdouble area = triangle_area (p1, p2, p3);
-
-  if (area == 0.)
-    return G_MAXDOUBLE;
-  else {
-    GtsVector a, b, c;
-    gts_vector_init (a, &p1, &p2);
-    gts_vector_init (b, &p2, &p3);
-    gts_vector_init (c, &p3, &p1);
-    return gts_vector_norm (a)*gts_vector_norm (b)*gts_vector_norm (c)/area;
-  }
-}
-
-static GSList * circle_profile (GtsPointClass * klass, 
-				gdouble radius, guint np)
-{
-  GSList * lp = NULL;
-  guint i;
-
-  for (i = 0; i < np; i++) {
-    gdouble a = 2.*M_PI*i/(gdouble) np;
-
-    lp = g_slist_prepend (lp, gts_point_new (klass, radius*cos (a), radius*sin(a), 0.));
-  }
-  return lp;
-}
-
-static GSList * ribbon_profile (GtsPointClass * klass, 
-				gdouble half_width)
-{
-  GSList * lp = NULL;
-
-  lp = g_slist_prepend (lp, gts_point_new (klass, 0., -half_width, 0.));
-  lp = g_slist_prepend (lp, gts_point_new (klass, 0., half_width, 0.));
-  return lp;
-}
-
-#if (!FTT_2D)
-static void vorticity_vector (FttCell * cell, gpointer * data)
-{
-  gdouble size = ftt_cell_size (cell);
-  GfsVariable ** g = data[0];
-  GfsVariable ** v = data[1];
-
-  GFS_VARIABLE (cell, g[0]->i) = (gfs_center_gradient (cell, FTT_Y, v[2]->i) -
-				  gfs_center_gradient (cell, FTT_Z, v[1]->i))/size;
-  GFS_VARIABLE (cell, g[1]->i) = (gfs_center_gradient (cell, FTT_Z, v[0]->i) -
-				  gfs_center_gradient (cell, FTT_X, v[2]->i))/size;
-  GFS_VARIABLE (cell, g[2]->i) = (gfs_center_gradient (cell, FTT_X, v[1]->i) -
-				  gfs_center_gradient (cell, FTT_Y, v[0]->i))/size;
-}
-#endif /* 3D */
-
-static gdouble interpolated_velocity (FttCell * cell, FttVector p, GfsVariable ** U,
-				      gdouble direction,
-				      FttVector * u)
-{
-  FttComponent c;
-  gdouble nu = 0.;
-  gdouble (* interpolate) (FttCell *, FttVector, GfsVariable * v) = GFS_IS_MIXED (cell) ?
-    gfs_mixed_cell_interpolate : gfs_interpolate;
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    (&u->x)[c] = direction* (*interpolate) (cell, p, U[c]);
-    nu += (&u->x)[c]*(&u->x)[c];
-  }
-  return nu;
-}
-
-static GList * grow_curve (GfsDomain * domain,
-			   GfsVariable ** U,
-			   FttVector p,
-			   GfsVariable * var,
-			   gdouble min, 
-			   gdouble max,
-			   gboolean twist,
-			   GList * path,
-			   gdouble direction,
-			   gboolean (* stop) (FttCell *, GList *, gpointer),
-			   gpointer data)
-{
-  FttCell * cell;
-  gdouble delta = 0.2;
-  GtsPoint * oldp = NULL;
-  FttVector p1, p2;
-  gdouble cost = 0., theta = 0.;
-  gdouble maxcost = 4e-9;
-  guint nstep = 0, nmax = 10000;
-  GtsPointClass * path_class = gfs_vertex_class ();
-  Colormap * colormap = NULL;
-
-  if (min < max)
-    colormap = colormap_jet ();
-
-#if (!FTT_2D)
-  GfsVariable * vort[FTT_DIMENSION];
-  if (twist) {
-    FttComponent c;
-    gpointer data[2];
-
-    path_class = GTS_POINT_CLASS (gfs_twisted_vertex_class ());
-    for (c = 0; c < FTT_DIMENSION; c++)
-      vort[c] = gfs_temporary_variable (domain);
-    gfs_variable_set_vector (vort, FTT_DIMENSION);
-    data[0] = vort;
-    data[1] = U;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) vorticity_vector, data);
-    for (c = 0; c < FTT_DIMENSION; c++)
-      gfs_domain_cell_traverse (domain,
-				FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-				(FttCellTraverseFunc) vort[c]->fine_coarse, vort[c]);
-  }
-#else /* 2D */
-  twist = FALSE;
-#endif /* 2D */  
-
-  p1 = p2 = p;
-  while ((cell = gfs_domain_locate (domain, p, -1, NULL)) != NULL &&
-	 circumcircle_radius (p1, p2, p) > ftt_cell_size (cell) &&
-	 nmax--) {
-    gdouble h = delta*ftt_cell_size (cell);
-    FttVector u;
-    FttComponent c;
-    gdouble nu = 0.;
-
-    cost += triangle_area (p1, p2, p);
-    p1 = p2;
-    p2 = p;
-    if (oldp == NULL || cost > maxcost) {
-      oldp = gts_point_new (path_class, p.x, p.y, p.z);
-      if (var)
-	GFS_VERTEX (oldp)->v = gfs_interpolate (cell, p, var);
-      if (colormap)
-	GTS_COLORED_VERTEX (oldp)->c = 
-	  colormap_color (colormap, (GFS_VERTEX (oldp)->v - min)/(max - min));
-      if (twist)
-	GFS_TWISTED_VERTEX (oldp)->theta = theta;
-      path = g_list_prepend (path, oldp);
-      if (stop != NULL && (* stop) (cell, path, data))
-	break;
-      cost = 0.;
-      nstep = 0;
-    }
-
-    nu = interpolated_velocity (cell, p, U, direction, &u);
-    if (nu > 0) {
-      FttVector p1 = p;
-      FttCell * cell1;
-
-      nu = 2.*sqrt (nu);
-      for (c = 0; c < FTT_DIMENSION; c++)
-	(&p1.x)[c] += h*(&u.x)[c]/nu;
-      cell1 = gfs_domain_locate (domain, p1, -1, NULL);
-      if (!cell1)
-	break;
-      nu = interpolated_velocity (cell1, p1, U, direction, &u);
-    }
-    else
-      break;
-    if (nu > 0. && nstep++ < nmax) {
-      FttVector p1;
-
-      p1 = p;
-      nu = sqrt (nu);
-      for (c = 0; c < FTT_DIMENSION; c++)
-	((gdouble *) &p)[c] += h*((gdouble *) &u)[c]/nu;
-#if (!FTT_2D)
-      if (twist) {
-	GtsVector rot;
-	GtsVector dx;
-
-	dx[0] = p1.x - p.x; dx[1] = p1.y - p.y; dx[2] = p1.z - p.z;
-	for (c = 0; c < FTT_DIMENSION; c++)
-	  rot[c] = gfs_interpolate (cell, p1, vort[c]);
-	theta += gts_vector_scalar (rot, dx)/nu;
-      }
-#endif /* 3D */
-    }
-    else
-      break;
-  }
-  if (oldp && (p2.x != oldp->x || p2.y != oldp->y || p2.z != oldp->z)) {
-    cell = gfs_domain_locate (domain, p2, -1, NULL);
-    if (cell) {
-      oldp = gts_point_new (path_class, p2.x, p2.y, p2.z);
-      if (var)
-	GFS_VERTEX (oldp)->v = gfs_interpolate (cell, p2, var);
-      if (twist)
-	GFS_TWISTED_VERTEX (oldp)->theta = theta;
-      path = g_list_prepend (path, oldp);
-    }
-  }
-
-  if (colormap)
-    colormap_destroy (colormap);
-
-#if (!FTT_2D)
-  if (twist) {
-    FttComponent c;
-    for (c = 0; c < FTT_DIMENSION; c++)
-      gts_object_destroy (GTS_OBJECT (vort[c]));
-  }
-#endif /* 3D */
-  return direction > 0. ? g_list_reverse (path) : path;
-}
-
-GList * gfs_streamline_new (GfsDomain * domain,
-			    GfsVariable ** U,
-			    FttVector p,
-			    GfsVariable * var,
-			    gdouble min,
-			    gdouble max,
-			    gboolean twist,
-			    gboolean (* stop) (FttCell *, 
-					       GList *,
-					       gpointer),
-			    gpointer data)
-{
-  GList * i, * path;
-
-  g_return_val_if_fail (domain != NULL, NULL);
-  g_return_val_if_fail (U != NULL, NULL);
-
-  i = grow_curve (domain, U, p, var, min, max, twist, NULL, 1., stop, data);
-  path = g_list_remove_link (i, i);
-  if (i != NULL)
-    gts_object_destroy (i->data);
-  g_list_free_1 (i);
-  path = grow_curve (domain, U, p, var, min, max, twist, path, -1., stop, data);
-  return path;
-}
-
-void gfs_streamline_write (GList * stream, FILE * fp)
-{
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp, "GfsStreamline %u\n", g_list_length (stream));
-  while (stream) {
-    (* GTS_OBJECT (stream->data)->klass->write) (stream->data, fp);
-    fputc ('\n', fp);
-    stream = stream->next;
-  }
-}
-
-GList * gfs_streamline_read (GtsFile * fp)
-{
-  GList * stream = NULL;
-  guint n = 0, nv;
-
-  g_return_val_if_fail (fp != NULL, NULL);
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (GfsStreamline)");
-    return NULL;
-  }
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT) {
-    gts_file_error (fp, "expecting an integer (number of vertices)");
-    return NULL;
-  }
-  nv = atoi (fp->token->str);
-  gts_file_first_token_after (fp, '\n');
-  while (fp->type != GTS_ERROR && n < nv) {
-    GtsObject * o = 
-      gts_object_new (GTS_OBJECT_CLASS (gfs_twisted_vertex_class ()));
-
-    (*o->klass->read) (&o, fp);
-    gts_file_first_token_after (fp, '\n');
-    stream = g_list_prepend (stream, o);
-    n++;
-  }
-
-  if (fp->type == GTS_ERROR) {
-    g_list_free (stream);
-    return NULL;
-  }
-
-  return stream;
-}
-
-void gfs_streamline_draw (GList * stream, FILE * fp)
-{
-  guint n = g_list_length (stream);
-
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp, "VECT 1 %u 0 %u 0\n", n, n);
-  while (stream) {
-    fprintf (fp, "%g %g %g\n",
-	     GTS_POINT (stream->data)->x,
-	     GTS_POINT (stream->data)->y,
-	     GTS_POINT (stream->data)->z);
-    stream = stream->next;
-  }
-}
-
-void gfs_streamline_destroy (GList * stream)
-{
-  g_list_foreach (stream, (GFunc) gts_object_destroy, NULL);
-  g_list_free (stream);
-}
-
-void gfs_draw_stream_cylinder (GfsDomain * domain,
-			       FttVector p,
-			       gdouble radius,
-			       GfsVariable * var,
-			       gdouble min, gdouble max,
-			       FILE * fp)
-{
-  GSList * profile;
-  GList * path;
-  GtsSurface * s;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  s = gts_surface_new (gts_surface_class (),
-		       gts_face_class (),
-		       gts_edge_class (),
-		       min < max ? gts_colored_vertex_class () :
-		       gts_vertex_class ());
-  path = gfs_streamline_new (domain, gfs_domain_velocity (domain), p, var, min, max, FALSE, 
-			     NULL, NULL);
-  profile = circle_profile (gts_point_class (), radius, 10);
-  gfs_extrude_profile (s, profile, TRUE, path);
-  gts_surface_write_oogl (s, fp);
-  gts_object_destroy (GTS_OBJECT (s));
-  gfs_streamline_destroy (path);
-  g_slist_foreach (profile, (GFunc) gts_object_destroy, NULL);
-  g_slist_free (profile);
-}
-
-void gfs_draw_stream_ribbon (GfsDomain * domain,
-			     FttVector p,
-			     gdouble half_width,
-			     GfsVariable * var,
-			     gdouble min, gdouble max,
-			     FILE * fp)
-{
-  GList * path;
-  GSList * profile;
-  GtsSurface * s;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  s = gts_surface_new (gts_surface_class (),
-		       gts_face_class (),
-		       gts_edge_class (),
-		       min < max ? gts_colored_vertex_class () :
-		       gts_vertex_class ());
-  path = gfs_streamline_new (domain, gfs_domain_velocity (domain), p, var, min, max, TRUE, 
-			     NULL, NULL);
-  profile = ribbon_profile (gts_point_class (), half_width);
-  gfs_extrude_profile (s, profile, FALSE, path);
-  gts_surface_write_oogl (s, fp);
-  gts_object_destroy (GTS_OBJECT (s));
-  gfs_streamline_destroy (path);
-  g_slist_foreach (profile, (GFunc) gts_object_destroy, NULL);
-  g_slist_free (profile);
-}
-
-void gfs_draw_streamline (GfsDomain * domain,
-			  FttVector p,
-			  FILE * fp)
-{
-  GList * path;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  path = gfs_streamline_new (domain, gfs_domain_velocity (domain), p, NULL, 0., 0., FALSE, 
-			     NULL, NULL);
-  gfs_streamline_draw (path, fp);
-  gfs_streamline_destroy (path);
-}
-
-#if !FTT_2D
-
-static gdouble point_orientation (FttVector p[3], FttVector * c)
-{
-  gdouble adx, bdx, cdx;
-  gdouble ady, bdy, cdy;
-  gdouble adz, bdz, cdz;
-  
-  adx = p[0].x - c->x;
-  bdx = p[1].x - c->x;
-  cdx = p[2].x - c->x;
-  ady = p[0].y - c->y;
-  bdy = p[1].y - c->y;
-  cdy = p[2].y - c->y;
-  adz = p[0].z - c->z;
-  bdz = p[1].z - c->z;
-  cdz = p[2].z - c->z;
-  
-  return (adx * (bdy * cdz - bdz * cdy) +
-	  bdx * (cdy * adz - cdz * ady) +
-	  cdx * (ady * bdz - adz * bdy));
-}
-
-/**
- * gfs_plane_cuts_cell:
- * @plane: three points belonging to the plane.
- * @cell: a #FttCell.
- *
- * Returns: %TRUE if @plane cuts @cell, %FALSE otherwise.
- */
-gboolean gfs_plane_cuts_cell (FttVector plane[3], FttCell * cell)
-{
-  FttVector o;
-  gdouble h = ftt_cell_size (cell)*SLIGHTLY_LARGER;
-  guint i;
-
-  g_return_val_if_fail (cell != NULL, FALSE);
-
-  ftt_cell_pos (cell, &o);
-  o.x -= h/2.; o.y -= h/2.; o.z -= h/2.;
-  for (i = 0; i < 12; i++) {
-    FttVector e, d;
-    gdouble a, b;
-    d.x = o.x + h*edge[i][0].x; d.y = o.y + h*edge[i][0].y; d.z = o.z + h*edge[i][0].z;
-    e.x = o.x + h*edge[i][1].x; e.y = o.y + h*edge[i][1].y; e.z = o.z + h*edge[i][1].z;
-    a = point_orientation (plane, &e);
-    b = point_orientation (plane, &d);
-    if ((a <= 0. && b > 0.) || (a >= 0. && b < 0.))
-      return TRUE;
-  }
-  return FALSE;
-}
-
-static void cube_plane_intersection (FttCell * cell,
-				     FttVector * O,
-				     FttVector * n,
-				     FttVector p[12],
-				     gint orient[12],
-				     GfsVariable * var,
-				     gdouble v[12],
-				     gint max_level)
-{
-  FttVector o;
-  gdouble h = ftt_cell_size (cell)*SLIGHTLY_LARGER, vc[8];
-  guint i;
-
-  if (var)
-    for (i = 0; i < 8; i++)
-      vc[i] = G_MAXDOUBLE;
-
-  ftt_cell_pos (cell, &o);
-  o.x -= h/2.; o.y -= h/2.; o.z -= h/2.;
-  for (i = 0; i < 12; i++) {
-    FttVector e, d;
-    d.x = o.x + h*edge[i][0].x; d.y = o.y + h*edge[i][0].y; d.z = o.z + h*edge[i][0].z;
-    e.x = o.x + h*edge[i][1].x; e.y = o.y + h*edge[i][1].y; e.z = o.z + h*edge[i][1].z;
-    gdouble den = n->x*(e.x - d.x) + n->y*(e.y - d.y) + n->z*(e.z - d.z);
-    orient[i] = -1;
-    if (fabs (den) > 1e-10) {
-      gdouble t = (n->x*(O->x - d.x) + n->y*(O->y - d.y) + n->z*(O->z - d.z))/den;
-      if (t >= 0. && t < 1.) {
-	p[i].x = d.x + t*(e.x - d.x); p[i].y = d.y + t*(e.y - d.y); p[i].z = d.z + t*(e.z - d.z);
-	orient[i] = (n->x*(e.x - O->x) + n->y*(e.y - O->y) + n->z*(e.z - O->z) > 0.);
-	if (var) {
-	  guint j = edge1[i][0];
-	  if (vc[j] == G_MAXDOUBLE)
-	    vc[j] = gfs_cell_corner_value (cell, corner[j], var, max_level);
-	  d.z = vc[j];
-	  j = edge1[i][1];
-	  if (vc[j] == G_MAXDOUBLE)
-	    vc[j] = gfs_cell_corner_value (cell, corner[j], var, max_level);
-	  e.z = vc[j];
-	  v[i] = d.z + t*(e.z - d.z);
-	}
-      }
-    }
-  }
-}
-
-/**
- * gfs_cut_cube_vertices:
- * @cell: a #FttCell.
- * @maxlevel: the maximum level to consider (or -1).
- * @p: a point on the plane.
- * @n: the normal to the plane.
- * @v: where to return the vertices coordinates.
- * @d: where to return the direction.
- * @var: a #GfsVariable or %NULL.
- * @val: where to return the values of @var or %NULL.
- *
- * Fills @v, @d and @val with the coordinates/values of the vertices,
- * intersections of @cell with the plane defined by @p and @n.
- *
- * The vertices are ordered consistently to define a consistent,
- * oriented polygon.
- *
- * Returns: the number of vertices (0 if the plane does not cut the cell).
- */
-guint gfs_cut_cube_vertices (FttCell * cell, gint maxlevel,
-			     FttVector * p, FttVector * n,
-			     FttVector v[12], FttDirection d[12],
-			     GfsVariable * var,
-			     gdouble val[12])
-{
-  FttVector a[12];
-  gdouble vv[12];
-  gint orient[12];
-  guint i;
-
-  g_return_val_if_fail (cell != NULL, 0);
-  g_return_val_if_fail (p != NULL, 0);
-  g_return_val_if_fail (n != NULL, 0);
-  g_return_val_if_fail ((var == NULL && val == NULL) || (var != NULL && val != NULL), 0);
-
-  cube_plane_intersection (cell, p, n, a, orient, var, vv, maxlevel);
-  for (i = 0; i < 12; i++) {
-    guint nv = 0, e = i;
-    while (orient[e] >= 0) {
-      guint m = 0, * ne = connect[e][orient[e]];
-      d[nv] = ne[3];
-      if (var)
-	val[nv] = vv[e];
-      v[nv++] = a[e];
-      orient[e] = -1;
-      while (m < 3 && orient[e] < 0)
-	e = ne[m++];
-    }
-    if (nv > 2)
-      return nv;
-  }
-  return 0;
-}
-
-#endif /* 3D */
diff --git a/src/graphic.h b/src/graphic.h
deleted file mode 100644
index c7b7cca..0000000
--- a/src/graphic.h
+++ /dev/null
@@ -1,139 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __GRAPHIC_H__
-#define __GRAPHIC_H__
-
-#include "domain.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-void               gfs_write_gts               (GfsDomain * domain, 
-						GfsVariable * v, 
-						FttTraverseFlags flags,
-						gint level,
-						GtsBBox * box,
-						FILE * fp);
-GtsSurface *       gfs_isosurface              (GfsDomain * domain, 
-						GfsVariable * v, 
-						gdouble val,
-						gint level);
-void               gfs_write_gnuplot           (GfsDomain * domain, 
-						GfsVariable * v, 
-						FttTraverseFlags flags,
-						gint level,
-						GtsBBox * bbox,
-						FILE * fp);
-void               gfs_write_ppm               (GfsDomain * domain, 
-						GtsBBox * box,
-						GfsVariable * v, 
-						gdouble min, 
-						gdouble max,
-						FttTraverseFlags flags,
-						gint level,
-						FILE * fp);
-gint               gfs_combine_ppm             (gchar ** fname, 
-						guint nname, 
-						FILE * fp);
-void               gfs_write_squares           (GfsDomain * domain, 
-						GfsVariable * v, 
-						gdouble min, 
-						gdouble max,
-						FttTraverseFlags flags,
-						gint level,
-						GtsBBox * bbox,
-						FILE * fp);
-void               gfs_write_mac_velocity      (GfsDomain * domain,
-						gdouble scale,
-						FttTraverseFlags flags,
-						gint level,
-						GtsBBox * bbox,
-						FILE * fp);
-void               gfs_draw_cells              (FttCell * cell,
-						FttTraverseFlags flags,
-						gint level,
-					       FILE * fp);
-void               gfs_draw_boundary_conditions (GfsDomain * domain, 
-						 FILE * fp);
-void               gfs_draw_solid_boundaries   (GfsDomain * domain, 
-						FILE * fp);
-void               gfs_draw_refined_boundaries (GfsDomain * domain, 
-						FILE * fp);
-void               gfs_draw_levels             (FttCell * cell, 
-						FILE * fp);
-void               gfs_draw_surface            (GfsDomain * domain,
-						GtsSurface * s,
-						GfsVariable * v, 
-						gdouble min, 
-						gdouble max,
-						FILE * fp);
-void               gfs_extrude_profile         (GtsSurface * s,
-						GSList * profile,
-						gboolean closed,
-						GList * path);
-GList *            gfs_streamline_new          (GfsDomain * domain,
-						GfsVariable ** U,
-						FttVector p,
-						GfsVariable * var,
-						gdouble min,
-						gdouble max,
-						gboolean twist,
-						gboolean (* stop) (FttCell *, 
-								   GList *, 
-								   gpointer),
-						gpointer data);
-void               gfs_streamline_write        (GList * stream, 
-						FILE * fp);
-GList *            gfs_streamline_read         (GtsFile * fp);
-void               gfs_streamline_draw         (GList * stream, 
-						FILE * fp);
-void               gfs_streamline_destroy      (GList * stream);
-void               gfs_draw_stream_cylinder    (GfsDomain * domain,
-						FttVector p, 
-						gdouble radius,
-						GfsVariable * var, 
-						gdouble min, 
-						gdouble max,
-						FILE * fp);
-void               gfs_draw_stream_ribbon      (GfsDomain * domain,
-						FttVector p, 
-						gdouble radius,
-						GfsVariable * var, 
-						gdouble min, 
-						gdouble max,
-						FILE * fp);
-void               gfs_draw_streamline         (GfsDomain * domain,
-						FttVector p,
-						FILE * fp);
-gboolean           gfs_plane_cuts_cell         (FttVector plane[3], 
-						FttCell * cell);
-guint              gfs_cut_cube_vertices       (FttCell * cell, 
-						gint maxlevel,
-						FttVector * p, FttVector * n,
-						FttVector v[12], FttDirection d[12],
-						GfsVariable * var,
-						gdouble val[12]);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __GRAPHIC_H__ */
diff --git a/src/init.c b/src/init.c
deleted file mode 100644
index 79b6dbc..0000000
--- a/src/init.c
+++ /dev/null
@@ -1,314 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "config.h"
-
-#ifdef HAVE_FENV_H
-# define _GNU_SOURCE
-# include <fenv.h>
-#endif /* HAVE_FENV_H */
-
-#include <stdlib.h>
-#include <locale.h>
-
-#include "boundary.h"
-#include "mpi_boundary.h"
-#include "init.h"
-#include "refine.h"
-#include "output.h"
-#include "adaptive.h"
-#include "source.h"
-#include "tension.h"
-#include "ocean.h"
-#include "wave.h"
-#include "levelset.h"
-#include "vof.h"
-#include "solid.h"
-#include "moving.h"
-#include "river.h"
-#include "balance.h"
-#include "map.h"
-#include "metric.h"
-
-#include "modules.h"
-
-#ifdef HAVE_MPI
-# include <mpi.h>
-#endif /* HAVE_MPI */
-
-static void gfs_log (const gchar * log_domain,
-		     GLogLevelFlags log_level,
-		     const gchar * message)
-{
-  int type = 0;
-  gchar * pe;
-  const gchar stype[][10] = {
-    "ERROR", "CRITICAL", "WARNING", "MESSAGE", "INFO", "DEBUG"
-  };
-
-#ifdef HAVE_MPI
-  int rank = -1;
-  MPI_Comm_size (MPI_COMM_WORLD, &rank);
-  if (rank > 1)
-    MPI_Comm_rank (MPI_COMM_WORLD, &rank);
-  else
-    rank = -1;
-  if (rank >= 0) {
-    char name[MPI_MAX_PROCESSOR_NAME];
-    int length;
-    MPI_Get_processor_name (name, &length);
-    pe = g_strdup_printf ("PE %d (%s): ", rank, name);
-  }
-  else
-#endif /* HAVE_MPI */
-    pe = g_strdup ("");
-
-  switch (log_level & G_LOG_LEVEL_MASK) {
-  case G_LOG_LEVEL_ERROR:    type = 0; break;
-  case G_LOG_LEVEL_CRITICAL: type = 1; break;
-  case G_LOG_LEVEL_WARNING:  type = 2; break;
-  case G_LOG_LEVEL_MESSAGE:  type = 3; break;
-  case G_LOG_LEVEL_INFO:     type = 4; break;
-  case G_LOG_LEVEL_DEBUG:    type = 5; break;
-  default:
-    g_assert_not_reached ();
-  }
-  fprintf (stderr, "\n%s-%s **: %s%s\n\n", 
-	   log_domain, stype[type], pe, message);
-  g_free (pe);
-}
-
-/**
- * gfs_classes:
- *
- * Returns: a pointer to a NULL-terminated array of all the classes
- * usable in Gerris parameter files.
- */
-GtsObjectClass ** gfs_classes (void)
-{
-  static GtsObjectClass ** classes = NULL;
-  if (classes == NULL) { gpointer klass[] = {
-
-  gfs_global_class (),
-  gfs_simulation_class (),
-    gfs_ocean_class (),
-    gfs_advection_class (),
-    gfs_poisson_class (),
-    gfs_simulation_moving_class (),
-    gfs_axi_class (),
-    gfs_wave_class (),
-    gfs_river_class (),
-
-  gfs_surface_bc_class (),
-
-  gfs_box_class (),
-
-  gfs_gedge_class (),
-
-  gfs_bc_dirichlet_class (),
-  gfs_bc_subcritical_class (),
-  gfs_bc_neumann_class (),
-  gfs_bc_navier_class (),
-  gfs_bc_flather_class (),
-
-  gfs_boundary_class (),
-    gfs_boundary_inflow_constant_class (),
-    gfs_boundary_outflow_class (),
-    gfs_boundary_gradient_class (),
-    gfs_boundary_periodic_class (),
-      gfs_boundary_mpi_class (),
-
-  gfs_refine_class (),
-    gfs_refine_solid_class (),
-    gfs_refine_surface_class (),
-      gfs_refine_distance_class (),
-      gfs_refine_height_class (),
-
-  gfs_event_class (),
-    gfs_variable_class (),
-      gfs_variable_tracer_class (),
-        gfs_variable_tracer_vof_class (),
-      gfs_variable_residual_class (),
-      gfs_variable_filtered_class (),
-      gfs_variable_diagonal_class (),
-      gfs_variable_function_class (),
-#if FTT_2D
-        gfs_variable_stream_function_class (),
-#endif /* FTT_2D */
-      gfs_variable_curvature_class (),
-        gfs_variable_position_class (),
-      gfs_variable_distance_class (),
-
-    gfs_solid_class (),
-      gfs_solid_moving_class(),
-
-    gfs_init_class (),
-    gfs_init_flow_constant_class (),
-    gfs_init_fraction_class (),
-#if FTT_2D
-    gfs_init_vorticity_class (),
-#endif /* FTT_2D */
-    gfs_init_wave_class (),
-
-    gfs_metric_lon_lat_class (),
-    gfs_metric_cubed_class (),
-
-    gfs_adapt_class (),
-      gfs_adapt_vorticity_class (),
-      gfs_adapt_streamline_curvature_class (),
-      gfs_adapt_function_class (),
-      gfs_adapt_gradient_class (),
-        gfs_adapt_error_class (),
-
-    gfs_event_sum_class (),
-      gfs_event_sum_direction_class (),
-    gfs_event_harmonic_class (),
-    gfs_event_stop_class (),
-    gfs_event_script_class (),
-    gfs_event_balance_class (),
-    gfs_source_generic_class (),
-      gfs_source_scalar_class (),
-        gfs_source_class (),
-          gfs_source_control_class (),
-            gfs_source_control_field_class (),
-          gfs_source_flux_class (),
-        gfs_source_diffusion_class (),
-          gfs_source_diffusion_explicit_class (),
-      gfs_source_velocity_class (),
-        gfs_source_viscosity_class (),
-          gfs_source_viscosity_explicit_class (),
-        gfs_source_friction_class (),
-        gfs_source_coriolis_class (),
-          gfs_source_tension_class (),
-          gfs_source_tension_css_class (),
-#if !FTT_2D
-        gfs_source_hydrostatic_class (),
-#endif /* 2D3 or 3D */
-    gfs_remove_droplets_class (),
-    gfs_remove_ponds_class (),
-    gfs_event_filter_class (),
-    gfs_event_list_class (),
-   
-    gfs_output_class (),
-      gfs_output_time_class (),
-      gfs_output_progress_class (),
-      gfs_output_projection_stats_class (),
-      gfs_output_diffusion_stats_class (),
-      gfs_output_solid_stats_class (),
-      gfs_output_adapt_stats_class (),
-      gfs_output_timing_class (),
-      gfs_output_balance_class (),
-      gfs_output_solid_force_class (),
-      gfs_output_location_class (),
-      gfs_output_simulation_class (),
-      gfs_output_boundaries_class (),
-      gfs_output_particle_class (),
-
-      gfs_output_scalar_class (),
-        gfs_output_scalar_norm_class (),
-        gfs_output_scalar_stats_class (),
-        gfs_output_scalar_sum_class (),
-        gfs_output_scalar_maxima_class (),
-        gfs_output_scalar_histogram_class (),
-        gfs_output_droplet_sums_class (),
-        gfs_output_error_norm_class (),
-          gfs_output_correlation_class (),
-	gfs_output_squares_class (),
-	gfs_output_streamline_class (),
-        gfs_output_ppm_class (),  
-
-  gfs_map_class (),
-    gfs_map_function_class (),
-  
-  NULL};
-
-    guint n = 0;
-    gpointer * c = klass;
-    while (*(c++)) n++;
-    classes = g_malloc ((n + 1)*sizeof (gpointer));
-    memcpy (classes, klass, (n + 1)*sizeof (gpointer));
-  }
-  return classes;
-}
-
-typedef void (* AtExitFunc) (void);
-
-/**
- * gfs_init:
- * @argc: a pointer on the number of command line arguments passed to
- * the program.
- * @argv: a pointer on the command line arguments passed to the
- * program.
- *
- * Initializes the Gerris library. This function must be called before
- * any other function of the library.
- */
-void gfs_init (int * argc, char *** argv)
-{
-  static gboolean initialized = FALSE;
-
-  if (initialized)
-    return;
-
-  if (!setlocale (LC_ALL, "POSIX"))
-    g_warning ("cannot set locale to POSIX");
-
-#ifdef HAVE_MPI
-  MPI_Initialized (&initialized);
-  if (!initialized) {
-    if (!argc || !argv) {
-      int argc1 = 1;
-      char ** argv1;
-
-      argv1 = g_malloc (sizeof (char *));
-      argv1[0] = g_strdup ("gfs_init");
-      MPI_Init (&argc1, &argv1);
-      g_free (argv1[0]); g_free (argv1);
-    }
-    else
-      MPI_Init (argc, argv);
-    MPI_Errhandler_set (MPI_COMM_WORLD, MPI_ERRORS_ARE_FATAL);
-  }
-  atexit ((AtExitFunc) MPI_Finalize);
-#endif /* HAVE_MPI */
-  initialized = TRUE;
-
-#ifdef FE_NOMASK_ENV
-# ifdef FE_DIVBYZERO
-  feenableexcept (FE_DIVBYZERO);
-# endif /* FE_DIVBYZERO */
-#endif /* FE_NO_MASK_ENV */
-
-  g_log_set_handler (G_LOG_DOMAIN,
-		     G_LOG_LEVEL_ERROR |
-		     G_LOG_LEVEL_CRITICAL |
-		     G_LOG_LEVEL_WARNING |
-		     G_LOG_LEVEL_MESSAGE |
-		     G_LOG_LEVEL_INFO |
-		     G_LOG_LEVEL_DEBUG |
-		     G_LOG_FLAG_FATAL |
-		     G_LOG_FLAG_RECURSION,
-		     (GLogFunc) gfs_log, NULL);
-
-  /* Instantiates classes before reading any domain or simulation file */
-  gfs_classes ();
-
-  /* If modules are not supported, calls modules init functions */
-#include "modules.c"
-}
diff --git a/src/init.h b/src/init.h
deleted file mode 100644
index 425b2a2..0000000
--- a/src/init.h
+++ /dev/null
@@ -1,37 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __INIT_H__
-#define __INIT_H__
-
-#include <gts.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-GtsObjectClass ** gfs_classes             (void);
-void              gfs_init                (int * argc, 
-					   char *** argv);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __INIT_H__ */
diff --git a/src/isocube.h b/src/isocube.h
deleted file mode 100644
index 3abe95c..0000000
--- a/src/isocube.h
+++ /dev/null
@@ -1,98 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2004 National Institute of Water and Atmospheric
- * Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-/* isocube adapted from GTS (see gts/src/iso.c and gts/doc/isocube.fig) */
-static guint edge1[12][2] = {
-  {0, 4}, {1, 5}, {3, 7}, {2, 6},
-  {0, 2}, {1, 3}, {5, 7}, {4, 6},
-  {0, 1}, {4, 5}, {6, 7}, {2, 3}
-};
-static FttVector vertex[8] = {
-  {0.,0.,0.},{0.,0.,1.},{0.,1.,0.},{0.,1.,1.},
-  {1.,0.,0.},{1.,0.,1.},{1.,1.,0.},{1.,1.,1.}
-};
-static guint face[6][4][2] = {
-  {{7,0},{10,0},{6,1},{9,1}}, /* right */
-  {{4,0},{11,0},{5,1},{8,1}}, /* left */
-  {{3,0},{10,0},{2,1},{11,1}},/* top */
-  {{0,0},{9,0},{1,1},{8,1}},  /* bottom */
-  {{1,0},{6,0},{2,1},{5,1}},  /* front */
-  {{0,0},{7,0},{3,1},{4,1}}   /* back */
-};
-static guint face_v[6][4] = {
-  {4,6,7,5},/* right */
-  {0,2,3,1},/* left */
-  {2,6,7,3},/* top */
-  {0,4,5,1},/* bottom */
-  {1,5,7,3},/* front */
-  {0,4,6,2} /* back */
-};
-/* first index is the edge number, second index is the edge orientation 
-   (0 or 1), third index are the edges which this edge may connect to
-   in order and the corresponding face direction */
-static guint connect[12][2][4] = {
-  {{9, 1, 8, FTT_BOTTOM}, {4, 3, 7, FTT_BACK}},   /* 0 */
-  {{6, 2, 5, FTT_FRONT},  {8, 0, 9, FTT_BOTTOM}}, /* 1 */
-  {{10, 3, 11, FTT_TOP},  {5, 1, 6, FTT_FRONT}},  /* 2 */
-  {{7, 0, 4, FTT_BACK},   {11, 2, 10, FTT_TOP}},  /* 3 */
-  {{3, 7, 0, FTT_BACK},   {8, 5, 11, FTT_LEFT}},  /* 4 */
-  {{11, 4, 8, FTT_LEFT},  {1, 6, 2, FTT_FRONT}},  /* 5 */
-  {{2, 5, 1, FTT_FRONT},  {9, 7, 10, FTT_RIGHT}}, /* 6 */
-  {{10, 6, 9, FTT_RIGHT}, {0, 4, 3, FTT_BACK}},   /* 7 */
-  {{5, 11, 4, FTT_LEFT},  {0, 9, 1, FTT_BOTTOM}}, /* 8 */
-  {{1, 8, 0, FTT_BOTTOM}, {7, 10, 6, FTT_RIGHT}}, /* 9 */
-  {{6, 9, 7, FTT_RIGHT},  {3, 11, 2, FTT_TOP}},   /* 10 */
-  {{2, 10, 3, FTT_TOP},   {4, 8, 5, FTT_LEFT}}    /* 11 */
-};
-static FttVector edge[12][2] = {
-  {{0.,0.,0.},{1.,0.,0.}},{{0.,0.,1.},{1.,0.,1.}},{{0.,1.,1.},{1.,1.,1.}},{{0.,1.,0.},{1.,1.,0.}},
-  {{0.,0.,0.},{0.,1.,0.}},{{0.,0.,1.},{0.,1.,1.}},{{1.,0.,1.},{1.,1.,1.}},{{1.,0.,0.},{1.,1.,0.}},
-  {{0.,0.,0.},{0.,0.,1.}},{{1.,0.,0.},{1.,0.,1.}},{{1.,1.,0.},{1.,1.,1.}},{{0.,1.,0.},{0.,1.,1.}}
-};
-static FttDirection corner[8][3] = {
-  {FTT_LEFT, FTT_BOTTOM, FTT_BACK},
-  {FTT_LEFT, FTT_BOTTOM, FTT_FRONT},
-  {FTT_LEFT, FTT_TOP, FTT_BACK},
-  {FTT_LEFT, FTT_TOP, FTT_FRONT},
-  {FTT_RIGHT, FTT_BOTTOM, FTT_BACK},
-  {FTT_RIGHT, FTT_BOTTOM, FTT_FRONT},
-  {FTT_RIGHT, FTT_TOP, FTT_BACK},
-  {FTT_RIGHT, FTT_TOP, FTT_FRONT}
-};
-static guint connectv[12][2][4] = {
-  {{4, 5, 1, 0}, {0, 2, 6, 4}}, /* 0 */
-  {{5, 7, 3, 1}, {1, 0, 4, 5}}, /* 1 */
-  {{7, 6, 2, 3}, {3, 1, 5, 7}}, /* 2 */
-  {{6, 4, 0, 2}, {2, 3, 7, 6}}, /* 3 */
-  {{2, 6, 4, 0}, {0, 1, 3, 2}}, /* 4 */
-  {{3, 2, 0, 1}, {1, 5, 7, 3}}, /* 5 */
-  {{7, 3, 1, 5}, {5, 4, 6, 7}}, /* 6 */
-  {{6, 7, 5, 4}, {4, 0, 2, 6}}, /* 7 */
-  {{1, 3, 2, 0}, {0, 4, 5, 1}}, /* 8 */
-  {{5, 1, 0, 4}, {4, 6, 7, 5}}, /* 9 */
-  {{7, 5, 4, 6}, {6, 2, 3, 7}}, /* 10 */
-  {{3, 7, 6, 2}, {2, 0, 1, 3}}  /* 11 */
-};
-static FttVector cvertex[8] = {
-  {0., 0., 0.}, {0., 0., 1.}, {0., 1., 0.}, {0., 1., 1.},
-  {1., 0., 0.}, {1., 0., 1.}, {1., 1., 0.}, {1., 1., 1.}
-};
-
-#define SLIGHTLY_LARGER 1.001
diff --git a/src/ld.so.supp b/src/ld.so.supp
deleted file mode 100644
index f0ea10b..0000000
--- a/src/ld.so.supp
+++ /dev/null
@@ -1,24 +0,0 @@
-#
-# Valgrind suppresion for ld-*.so dl_open()
-#
-
-{
-   ld-*.so/dl_open(Addr4)
-   Memcheck:Addr4
-   obj:/lib*/ld-*.so
-   obj:/lib*/libdl-*.so
-}
-
-{
-   ld-*.so/dl_open(Addr4)
-   Memcheck:Addr4
-   obj:/lib/ld-*.so
-   obj:/lib/ld-*.so
-}
-
-{
-   ld-*.so/dl_open(Cond)
-   Memcheck:Cond
-   obj:/lib/ld-*.so
-   obj:/lib/ld-*.so
-}
diff --git a/src/levelset.c b/src/levelset.c
deleted file mode 100644
index 188b72e..0000000
--- a/src/levelset.c
+++ /dev/null
@@ -1,220 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2006 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "levelset.h"
-#include "vof.h"
-
-/* GfsVariableDistance: object */
-
-static void variable_distance_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDomain * domain;
-
-  (* GTS_OBJECT_CLASS (gfs_variable_distance_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (c)");
-    return;
-  }
-  domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  if (!(GFS_VARIABLE_DISTANCE (*o)->v = 
-	gfs_variable_from_name (domain->variables, fp->token->str))) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  if (GFS_VARIABLE1 (*o)->description)
-    g_free (GFS_VARIABLE1 (*o)->description);
-  GFS_VARIABLE1 (*o)->description = g_strjoin (" ", 
-					       "Distance to the interface defined by tracer",
-					       fp->token->str, NULL);
-  gts_file_next_token (fp);
-
-  if (fp->type == '{') {
-    GtsFileVariable var[] = {
-      {GTS_INT, "stencil", TRUE},
-      {GTS_NONE}
-    };
-    var[0].data = &GFS_VARIABLE_DISTANCE (*o)->stencil; 
-    gts_file_assign_variables (fp, var);
-  }
-}
-
-static void variable_distance_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_distance_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " %s", GFS_VARIABLE_DISTANCE (o)->v->name);
-  if (GFS_VARIABLE_DISTANCE (o)->stencil)
-    fputs (" { stencil = 1 }", fp);
-}
-
-static gdouble vof_distance2 (FttCell * cell, GtsPoint * t, gpointer v)
-{
-  gdouble f = GFS_VALUE (cell, GFS_VARIABLE1 (v));
-  
-  if (GFS_IS_FULL (f))
-    return G_MAXDOUBLE;
-  if (!FTT_CELL_IS_LEAF (cell))
-    return ftt_cell_point_distance2_min (cell, t);
-  else
-    return gfs_vof_facet_distance2 (cell, v, t);
-}
-
-static void distance_for_stencil (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-  GfsVariable * s2 = data[2];
-
-  if (GFS_VALUE (cell, s2)) {
-    GfsVariableDistance * l = GFS_VARIABLE_DISTANCE (v);
-    GtsPoint p;
-    gdouble d2;
-    
-    ftt_cell_pos (cell, (FttVector *) &p.x);
-    d2 = gfs_domain_cell_point_distance2 (v->domain, &p, vof_distance2, l->v, NULL);
-    GFS_VALUE (cell, v) = GFS_VALUE (cell, l->v) > 0.5 ? sqrt (d2) : -sqrt (d2);
-  }
-  else
-    GFS_VALUE (cell, v) = G_MAXDOUBLE;
-}
-
-static void distance (FttCell * cell, GfsVariable * v)
-{
-  GfsVariableDistance * l = GFS_VARIABLE_DISTANCE (v);
-  GtsPoint p;
-  gdouble d2;
-    
-  ftt_cell_pos (cell, (FttVector *) &p.x);
-  d2 = gfs_domain_cell_point_distance2 (v->domain, &p, vof_distance2, l->v, NULL);
-  GFS_VALUE (cell, v) = GFS_VALUE (cell, l->v) > 0.5 ? sqrt (d2) : -sqrt (d2);
-}
-
-static void stencil_interpolate (FttCell * cell, gpointer * data)
-{
-  GfsVariableDistance * v = data[0];
-  gdouble f = GFS_VALUE (cell, v->v);
-  
-  if (!GFS_IS_FULL (f))
-    gfs_interpolate_stencil (cell, data[1]);
-}
-
-static void stencil_gradient (FttCell * cell, gpointer * data)
-{
-  GfsVariable * s1 = data[1];
-  GfsVariable * s2 = data[2];
-  FttComponent c;
-
-  if (GFS_VALUE (cell, s1))
-    for (c = 0; c < FTT_DIMENSION; c++)
-      gfs_center_gradient_stencil (cell, c, s2->i);
-}
-
-static void variable_distance_event_half (GfsEvent * event, GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsVariableDistance * v = GFS_VARIABLE_DISTANCE (event);
-
-  gfs_domain_timer_start (domain, "distance");
-
-  if (v->stencil) { /* fixme: this "acceleration technique"
-		       i.e. computing distance only in a band around
-		       the interface seems to be slower than computing
-		       the distance function everywhere! */
-    gpointer data[3], tmp;
-    data[0] = v;
-    data[1] = gfs_temporary_variable (domain);
-    data[2] = gfs_temporary_variable (domain);
-    gfs_domain_cell_traverse (domain,  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_reset, data[1]);
-    gfs_domain_cell_traverse (domain,  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) stencil_interpolate, data);
-    gfs_domain_cell_traverse (domain,  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_reset, data[2]);
-    gfs_domain_cell_traverse (domain,  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) stencil_gradient, data);
-    tmp = data[1]; data[1] = data[2]; data[2] = tmp;
-    gfs_domain_cell_traverse (domain,  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) stencil_gradient, data);
-
-    gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) v->v->fine_coarse, v->v);
-    gfs_traverse_and_bc (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			 (FttCellTraverseFunc) distance_for_stencil, data,
-			 GFS_VARIABLE1 (event),GFS_VARIABLE1 (event));
-    gts_object_destroy (data[1]);
-    gts_object_destroy (data[2]);
-  }
-  else
-    gfs_traverse_and_bc (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			 (FttCellTraverseFunc) distance, v,
-			 GFS_VARIABLE1 (event),GFS_VARIABLE1 (event));
-
-  gfs_domain_timer_stop (domain, "distance");
-}
-
-static gboolean variable_distance_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_variable_distance_class ())->parent_class)->event)
-      (event, sim)) {
-    if (!GFS_VARIABLE_DISTANCE (event)->first_done) {
-      variable_distance_event_half (event, sim);
-      GFS_VARIABLE_DISTANCE (event)->first_done = TRUE;
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void variable_distance_class_init (GtsObjectClass * klass)
-{
-  klass->read = variable_distance_read;
-  klass->write = variable_distance_write;
-  GFS_EVENT_CLASS (klass)->event = variable_distance_event;
-  GFS_EVENT_CLASS (klass)->event_half = variable_distance_event_half;
-}
-
-static void variable_distance_init (GfsVariable * v)
-{
-  v->units = 1.;
-}
-
-GfsVariableClass * gfs_variable_distance_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_distance_info = {
-      "GfsVariableDistance",
-      sizeof (GfsVariableDistance),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_distance_class_init,
-      (GtsObjectInitFunc) variable_distance_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_distance_info);
-  }
-
-  return klass;
-}
-
diff --git a/src/levelset.h b/src/levelset.h
deleted file mode 100644
index bb84d16..0000000
--- a/src/levelset.h
+++ /dev/null
@@ -1,55 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2006 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __LEVELSET_H__
-#define __LEVELSET_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "variable.h"
-
-/* GfsVariableDistance: header */
-
-typedef struct _GfsVariableDistance                GfsVariableDistance;
-
-struct _GfsVariableDistance {
-  /*< private >*/
-  GfsVariable parent;
-  gboolean first_done;
-
-  /*< public >*/
-  GfsVariable * v;
-  gboolean stencil;
-};
-
-#define GFS_VARIABLE_DISTANCE(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsVariableDistance,\
-					           gfs_variable_distance_class ())
-#define GFS_IS_VARIABLE_DISTANCE(obj)         (gts_object_is_from_class (obj,\
-					     gfs_variable_distance_class ()))
-
-GfsVariableClass * gfs_variable_distance_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __LEVELSET_H__ */
diff --git a/src/m4.awk b/src/m4.awk
deleted file mode 100644
index 15e22e1..0000000
--- a/src/m4.awk
+++ /dev/null
@@ -1,26 +0,0 @@
-function replace_params(s, b,    i)
-{
-    for (i in b)
-	gsub(b[i], "($" i ")", s);
-    return s;
-}
-
-BEGIN {
-    print "m4_changecom()m4_dnl";
-}
-{
-    if ($1 == "GfsDefine" || $1 == "Define") {
-	macro = $2;
-	delete b;
-	if (match(macro, /(.+)\((.+)\)/, a)) {
-	    macro = a[1];
-	    split(a[2],b,",");
-	}
-	printf ("m4_define(`%s',`%s", macro, replace_params($3, b));
-	for (i = 4; i <= NF; i++)
-	    printf (" %s", replace_params($i, b));
-	printf ("')\n");
-    }
-    else
-	print $0;
-}
diff --git a/src/map.c b/src/map.c
deleted file mode 100644
index f3c0a2f..0000000
--- a/src/map.c
+++ /dev/null
@@ -1,244 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "map.h"
-
-/* GfsMap: Object */
-
-static void gfs_map_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsMap * map = GFS_MAP (*o);
-  GtsObjectClass * klass;
-  gboolean class_changed = FALSE;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (GfsMapClass)");
-    return;
-  }
-  klass = gfs_object_class_from_name (fp->token->str);
-  if (klass == NULL) {
-    gts_file_error (fp, "unknown class `%s'", fp->token->str);
-    return;
-  }
-  if (!gts_object_class_is_from_class (klass, gfs_map_class ())) {
-    gts_file_error (fp, "`%s' is not a GfsMap", fp->token->str);
-    return;
-  }
-  if (klass != (*o)->klass) {
-    *o = gts_object_new (klass);
-    gts_object_destroy (GTS_OBJECT (map));
-    map = GFS_MAP (*o);
-    class_changed = TRUE;
-  }
-  gts_file_next_token (fp);
-}
-
-static void gfs_map_write (GtsObject * o, FILE * fp)
-{
-  fprintf (fp, "%s", o->klass->info.name);
-}
-
-static void gfs_map_class_init (GfsMapClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_map_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_map_write;
-}
-
-static void identity (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  *dest = *src;
-}
-
-static void gfs_map_init (GfsMap * map)
-{
-  map->transform = map->inverse = identity;
-}
-
-GfsMapClass * gfs_map_class (void)
-{
-  static GfsMapClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_map_info = {
-      "GfsMap",
-      sizeof (GfsMap),
-      sizeof (GfsMapClass),
-      (GtsObjectClassInitFunc) gfs_map_class_init,
-      (GtsObjectInitFunc) gfs_map_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_slist_containee_class ()),
-				  &gfs_map_info);
-  }
-
-  return klass;
-}
-
-/* GfsMapFunction: Object */
-
-static void gfs_map_function_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_map_function_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a keyword");
-      return;
-    }
-    else {
-      static gchar name[3][3] = { "x:", "y:", "z:" };
-      FttComponent c;
-      for (c = 0; c < FTT_DIMENSION; c++)
-	if (!strcmp (fp->token->str, name[c]))
-	  break;
-      if (c == FTT_DIMENSION) {
-	gts_file_error (fp, "unknown keyword '%s'", fp->token->str);
-	return;
-      }
-      gts_file_next_token (fp);
-
-      GfsMapFunction * map = GFS_MAP_FUNCTION (*o);
-      if (!map->inverse[c])
-	map->inverse[c] = gfs_function_new (gfs_function_map_class (), 0.);
-      gfs_function_read (map->inverse[c], gfs_object_simulation (*o), fp);
-      if (fp->type == GTS_ERROR)
-	return;
-
-      if (fp->type != '\n') {
-	gts_file_error (fp, "expecting new line");
-	return;
-      }
-      while (fp->type == '\n')
-	gts_file_next_token (fp);
-	
-      if (!map->transform[c])
-	map->transform[c] = gfs_function_new (gfs_function_map_class (), 0.);
-      gfs_function_read (map->transform[c], gfs_object_simulation (*o), fp);
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-  }
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-}
-
-static void gfs_map_function_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_map_function_class ())->parent_class->write) (o, fp);
-  fputs (" {\n", fp);
-  GfsMapFunction * map = GFS_MAP_FUNCTION (o);
-  static gchar name[3][5] = { "  x:", "  y:", "  z:" };
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    if (map->transform[c]) {
-      fputs (name[c], fp);
-      gfs_function_write (map->inverse[c], fp);
-      fputs ("\n    ", fp);
-      gfs_function_write (map->transform[c], fp);
-      fputc ('\n', fp);
-    }
-  fputc ('}', fp);
-}
-
-static void gfs_map_function_destroy (GtsObject * o)
-{
-  GfsMapFunction * map = GFS_MAP_FUNCTION (o);
-  FttComponent c;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    if (map->transform[c])
-      gts_object_destroy (GTS_OBJECT (map->transform[c]));
-    if (map->inverse[c])
-      gts_object_destroy (GTS_OBJECT (map->inverse[c]));
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_map_function_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_map_function_class_init (GfsMapClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_map_function_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_map_function_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_map_function_destroy;
-}
-
-static void map_function_transform (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  GfsMapFunction * mf = GFS_MAP_FUNCTION (map);
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    if (mf->transform[c])
-      (&dest->x)[c] = gfs_function_spatial_value (mf->transform[c], src);
-    else
-      (&dest->x)[c] = (&src->x)[c];
-}
-
-static void map_function_inverse (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  GfsMapFunction * mf = GFS_MAP_FUNCTION (map);
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    if (mf->inverse[c])
-      (&dest->x)[c] = gfs_function_spatial_value (mf->inverse[c], src);
-    else
-      (&dest->x)[c] = (&src->x)[c];
-}
-
-static void gfs_map_function_init (GfsMap * map)
-{
-  map->transform = map_function_transform;
-  map->inverse =   map_function_inverse;
-}
-
-GfsMapClass * gfs_map_function_class (void)
-{
-  static GfsMapClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_map_function_info = {
-      "GfsMapFunction",
-      sizeof (GfsMapFunction),
-      sizeof (GfsMapClass),
-      (GtsObjectClassInitFunc) gfs_map_function_class_init,
-      (GtsObjectInitFunc) gfs_map_function_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_map_class ()), &gfs_map_function_info);
-  }
-
-  return klass;
-}
diff --git a/src/map.h b/src/map.h
deleted file mode 100644
index 7d23d95..0000000
--- a/src/map.h
+++ /dev/null
@@ -1,87 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __MAP_H__
-#define __MAP_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "variable.h"
-#include "utils.h"
-
-/* GfsMap: Header */
-
-typedef struct _GfsMap         GfsMap;
-
-struct _GfsMap {
-  /*< private >*/
-  GtsSListContainee parent;
-
-  void (* transform) (GfsMap * map, const FttVector * src, FttVector * dest);
-  void (* inverse)   (GfsMap * map, const FttVector * src, FttVector * dest);
-  /*< public >*/
-};
-
-typedef struct _GfsMapClass    GfsMapClass;
-
-struct _GfsMapClass {
-  /*< private >*/
-  GtsSListContaineeClass parent_class;
-
-  /*< public >*/
-};
-
-#define GFS_MAP(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsMap,\
-					         gfs_map_class ())
-#define GFS_MAP_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 GfsMapClass,\
-						 gfs_map_class())
-#define GFS_IS_MAP(obj)         (gts_object_is_from_class (obj,\
-						 gfs_map_class ()))
-
-GfsMapClass * gfs_map_class      (void);
-
-/* GfsMapFunction: Header */
-
-typedef struct _GfsMapFunction         GfsMapFunction;
-
-struct _GfsMapFunction {
-  /*< private >*/
-  GfsMap parent;
-
-  /*< public >*/
-  GfsFunction * transform[FTT_DIMENSION], * inverse[FTT_DIMENSION];
-};
-
-#define GFS_MAP_FUNCTION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsMapFunction,\
-					         gfs_map_function_class ())
-#define GFS_IS_MAP_FUNCTION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_map_function_class ()))
-
-GfsMapClass * gfs_map_function_class      (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __MAP_H__ */
diff --git a/src/metric.c b/src/metric.c
deleted file mode 100644
index 7cf2c53..0000000
--- a/src/metric.c
+++ /dev/null
@@ -1,868 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "metric.h"
-#include <complex.h>
-#include "map.h"
-#include "solid.h"
-
-/* GfsVariableMetric */
-
-GfsVariableClass * gfs_variable_metric_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_metric_info = {
-      "GfsVariableMetric",
-      sizeof (GfsVariable),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_metric_info);
-  }
-
-  return klass;
-}
-
-/* "Expanded spherical cube" metric */
-
-#define N 30
-
-#if 0
-/* Conformal mapping Taylor coefficients: from Rancic et al, 1996, Table B.1 */
-
-static double A[N] = {
-   1.47713062600964, -0.38183510510174, -0.05573058001191, -0.01895883606818, -0.00791315785221,
-  -0.00486625437708, -0.00329251751279, -0.00235481488325, -0.00175870527475, -0.00135681133278,
-  -0.00107459847699, -0.00086944475948, -0.00071607115121, -0.00059867100093, -0.00050699063239,
-  -0.00043415191279, -0.00037541003286, -0.00032741060100, -0.00028773091482, -0.00025458777519,
-  -0.00022664642371, -0.00020289261022, -0.00018254510830, -0.00016499474461, -0.00014976117168,
-  -0.00013646173946, -0.00012478875823, -0.00011449267279, -0.00010536946150, -0.00009725109376
-};
-
-static double B[N] = {
-  0.67698819751739, 0.11847293456554, 0.05317178134668, 0.02965810434052, 0.01912447304028,
-  0.01342565621117, 0.00998873323180, 0.00774868996406, 0.00620346979888, 0.00509010874883,
-  0.00425981184328, 0.00362308956077, 0.00312341468940, 0.00272360948942, 0.00239838086555,
-  0.00213001905118, 0.00190581316131, 0.00171644156404, 0.00155493768255, 0.00141600715207,
-  0.00129556597754, 0.00119042140226, 0.00109804711790, 0.00101642216628, 0.00094391366522,
-  0.00087919021224, 0.00082115710311, 0.00076890728775, 0.00072168382969, 0.00067885087750
-};
-
-#else
-/* Conformal mapping Taylor coefficients: from map_xy2xyz.m from mitgcm */
-
-static double A[N] = {
-  1.47713057321600, -0.38183513110512, -0.05573055466344, -0.01895884801823, -0.00791314396396,
-  -0.00486626515498, -0.00329250387158, -0.00235482619663, -0.00175869000970, -0.00135682443774,
-  -0.00107458043205, -0.00086946107050, -0.00071604933286, -0.00059869243613, -0.00050696402446,
-  -0.00043418115349, -0.00037537743098, -0.00032745130951, -0.00028769063795, -0.00025464473946,
-  -0.00022659577923, -0.00020297175587, -0.00018247947703, -0.00016510295548, -0.00014967258633,
-  -0.00013660647356, -0.00012466390509, -0.00011468147908, -0.00010518717478, -0.00009749136078
-};
-
-static double B[N] = {
-  0.67698822171341, 0.11847295533659, 0.05317179075349, 0.02965811274764, 0.01912447871071,
-  0.01342566129383, 0.00998873721022, 0.00774869352561, 0.00620347278164, 0.00509011141874,
-  0.00425981415542, 0.00362309163280, 0.00312341651697, 0.00272361113245, 0.00239838233411,
-  0.00213002038153, 0.00190581436893, 0.00171644267546, 0.00155493871562, 0.00141600812949,
-  0.00129556691848, 0.00119042232809, 0.00109804804853, 0.00101642312253, 0.00094391466713,
-  0.00087919127990, 0.00082115825576, 0.00076890854394, 0.00072168520663, 0.00067885239089
-};
-#endif
-
-static complex WofZ (complex Z)
-{
-  complex W = 0.;
-  int n = N;
-  while (n-- > 0)
-    W = (W + A[n])*Z;
-  return W;
-}
-
-static complex ZofW (complex W)
-{
-  complex Z = 0.;
-  int n = N;
-  while (n-- > 0)
-    Z = (Z + B[n])*W;
-  return Z;
-}
-
-/* I^(1/3) */
-#define I3 (0.86602540378444 + I/2.)
-/* sqrt (3.) - 1. */
-#define RA 0.73205080756888
-
-/* Conformal mapping of a cube face onto a sphere. Maps (x,y) on the
- * north-pole face of a cube to (X,Y,Z) coordinates in physical space.
- *
- * Based on f77 code from Jim Purser & Misha Rancic.
- *
- * Face is oriented normal to Z-axis with X and Y increasing with x
- * and y.
- */
-static void fmap_xy2XYZ (double x, double y, double * X, double * Y, double * Z)
-{
-  int kx = x < 0., ky = y < 0.;
-  x = fabs (x); y = fabs (y);
-  int kxy = y > x;
-
-  if (kxy) {
-    double tmp = x;
-    x = 1. - y;
-    y = 1. - tmp;
-  }
-  else {
-    x = 1. - x;
-    y = 1. - y;
-  }
-
-  complex z = (x + I*y)/2.;
-  complex W;
-  if (cabs (z) > 0.) {
-    z = z*z*z*z;
-    W = WofZ (z);
-    W = I3*cpow (W*I, 1./3.);
-  }
-  else
-    W = 0.;
-  complex cb = I - 1.;
-  complex cc = RA*cb/2.;
-  W = (W - RA)/(cb + cc*W);
-  *X = creal (W);
-  *Y = cimag (W);
-  double H = 2./(1. + (*X)*(*X) + (*Y)*(*Y));
-  *X *= H;
-  *Y *= H;
-  *Z = H - 1.;
-  
-  if (kxy) {
-    double tmp = *X;
-    *X = *Y;
-    *Y = tmp;
-  }
-  if (kx)
-    *X = - *X;
-  if (ky)
-    *Y = - *Y;
-}
-
-/* Conformal mapping of a cube onto a sphere. Maps (x,y) on the
- * 6 faces of the cube to (X,Y,Z) coordinates in physical space.
- *
- * Based on f77 code from Jim Purser & Misha Rancic.
- *
- * Face 1 is oriented normal to Z-axis with X and Y increasing with x
- * and y (see doc/figures/cubed.fig).
- *
- * returns: FALSE if the input coordinates are invalid, TRUE otherwise.
- */
-static void cmap_xy2XYZ (double x, double y, double * X, double * Y, double * Z)
-{
-  x *= 2.; y *= 2.;
-
-  /* symmetries: see doc/figures/cubed.fig */
-  double tmp;
-  if (y <= 1. && x <= 3.) {
-    if (x <= 1.) /* face 1 */
-      fmap_xy2XYZ (x, y, X, Y, Z);
-    else { /* face 2 */
-      fmap_xy2XYZ (x - 2., y, X, Y, Z);
-      tmp = *X;
-      *X = *Z; *Z = - tmp;
-    }
-  }
-  else if (y <= 3. && x <= 5.) {
-    if (x <= 3.) { /* face 3 */
-      fmap_xy2XYZ (x - 2., y - 2., X, Y, Z);
-      tmp = *X;
-      *X = -*Y; *Y = *Z; *Z = - tmp;
-    }
-    else { /* face 4 */
-      fmap_xy2XYZ (x - 4., y - 2., X, Y, Z);
-      tmp = *Y;
-      *Z = - *Z; *Y = - *X; *X = - tmp;
-    }
-  }
-  else {
-    if (x <= 5.) { /* face 5 */
-      fmap_xy2XYZ (x - 4., y - 4., X, Y, Z);
-      tmp = *Z;
-      *Z = *Y; *Y = - *X; *X = - tmp;
-    }
-    else { /* face 6 */
-      fmap_xy2XYZ (x - 6., y - 4., X, Y, Z);
-      tmp = *Y;
-      *Y = - *Z; *Z = tmp;
-    }
-  }
-}
-
-/* Conformal mapping of a sphere onto a cube face. Maps (X,Y,Z) coordinates
- * in physical space to (x,y) on the north-pole face of a cube.
- *
- * This is the inverse transform of fmap_xy2XYZ().
- */
-static void fmap_XYZ2xy (double X, double Y, double Z, double * x, double * y)
-{
-  int kx = X < 0., ky = Y < 0.;
-  X = fabs (X); Y = fabs (Y);
-  int kxy = Y > X;
-
-  if (kxy) {
-    double tmp = X;
-    X = Y;
-    Y = tmp;
-  }
-
-  double H = Z + 1.;
-  X /= H; Y /= H;
-  complex W = X + Y*I;
-  complex cb = I - 1.;
-  complex cc = RA*cb/2.;
-  W = (W*cb + RA)/(1. - W*cc);
-  W = W/I3;
-  W = W*W*W;
-  W /= I;
-  complex z = ZofW (W);
-  z = cpow (z, 1./4.)*2.;
-  *x = fabs (creal (z));
-  *y = fabs (cimag (z));
-
-  if (kxy) {
-    *x = 1. - *x;
-    *y = 1. - *y;
-  }
-  else {
-    double tmp = *x;
-    *x = 1. - *y;
-    *y = 1. - tmp;
-  }
-  if (kx)
-    *x = - *x;
-  if (ky)
-    *y = - *y;
-}
-
-static double angle_between_vectors (const double v1[3], const double v2[3])
-{
-  return acos (v1[0]*v2[0] + v1[1]*v2[1] + v1[2]*v2[2]);
-}
-
-static void plane_normal (const double p1[3], const double p2[3], double plane[3])
-{
-  plane[0] = p1[1]*p2[2] - p1[2]*p2[1];
-  plane[1] = p1[2]*p2[0] - p1[0]*p2[2];
-  plane[2] = p1[0]*p2[1] - p1[1]*p2[0];
-  double mag = sqrt (plane[0]*plane[0] + plane[1]*plane[1] + plane[2]*plane[2]);
-  plane[0] /= mag;
-  plane[1] /= mag;
-  plane[2] /= mag;
-}
-
-static double excess_of_quad (const double v1[3], const double v2[3],
-			      const double v3[3], const double v4[3])
-{
-  double plane1[3], plane2[3], plane3[3], plane4[3];
-
-  plane_normal (v1, v2, plane1);
-  plane_normal (v2, v3, plane2);
-  plane_normal (v3, v4, plane3);
-  plane_normal (v4, v1, plane4);
-  
-  return 2.*M_PI -
-    angle_between_vectors (plane2, plane1) -
-    angle_between_vectors (plane3, plane2) -
-    angle_between_vectors (plane4, plane3) -
-    angle_between_vectors (plane1, plane4);
-}
-
-/* GfsMapCubed: Object */
-
-static void gfs_map_cubed_read (GtsObject ** o, GtsFile * fp)
-{
-  /* this mapping cannot be used independently from GfsMetricCubed */
-}
-
-static void gfs_map_cubed_write (GtsObject * o, FILE * fp)
-{
-  /* this mapping cannot be used independently from GfsMetricCubed */
-}
-
-static void gfs_map_cubed_class_init (GfsMapClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_map_cubed_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_map_cubed_write;
-}
-
-static void map_cubed_transform (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  GfsSimulation * sim = gfs_object_simulation (map);
-  double lon = src->x*M_PI/180., lat = src->y*M_PI/180.;
-  double X = cos (lat)*sin (lon), Y = sin (lat), Z = sqrt (1. - X*X - Y*Y);
-  double x, y;
-  /* fixme: only works for face 1 */
-  fmap_XYZ2xy (X, Y, Z, &x, &y);
-  dest->x = x/2.*sim->physical_params.L;
-  dest->y = y/2.*sim->physical_params.L;
-  dest->z = src->z;
-}
-
-static void map_cubed_inverse (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  GfsSimulation * sim = gfs_object_simulation (map);
-  double X, Y, Z;
-  cmap_xy2XYZ (src->x/sim->physical_params.L, src->y/sim->physical_params.L, &X, &Y, &Z);
-  dest->x = atan2 (X, Z)*180./M_PI;
-  dest->y = asin (Y)*180./M_PI;
-  dest->z = src->z;
-}
-
-static void gfs_map_cubed_init (GfsMap * map)
-{
-  map->transform = map_cubed_transform;
-  map->inverse =   map_cubed_inverse;
-}
-
-static GfsMapClass * gfs_map_cubed_class (void)
-{
-  static GfsMapClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_map_cubed_info = {
-      "GfsMapCubed",
-      sizeof (GfsMap),
-      sizeof (GfsMapClass),
-      (GtsObjectClassInitFunc) gfs_map_cubed_class_init,
-      (GtsObjectInitFunc) gfs_map_cubed_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_map_class ()), &gfs_map_cubed_info);
-  }
-
-  return klass;
-}
-
-/* GfsMetricCubed: Object */
-
-static gdouble cubed_face_metric (const GfsDomain * domain, const FttCellFace * face)
-{
-  if (face->d/2 > 1)
-    return 1.;
-  return GFS_VALUE (face->cell, GFS_METRIC_CUBED (domain->metric_data)->h[face->d]);
-}
-
-static gdouble cubed_cell_metric (const GfsDomain * domain, const FttCell * cell)
-{
-  return GFS_VALUE (cell, GFS_VARIABLE1 (domain->metric_data));
-}
-
-static gdouble cubed_solid_metric (const GfsDomain * domain, const FttCell * cell)
-{
-  g_assert (GFS_IS_MIXED (cell));
-  g_assert_not_implemented ();
-  return 1.;
-}
-
-static gdouble cubed_scale_metric (const GfsDomain * domain, const FttCell * cell, FttComponent c)
-{
-  if (c > FTT_Y)
-    return 1.;
-  FttComponent d = FTT_ORTHOGONAL_COMPONENT (c);
-  return (GFS_VALUE (cell, GFS_METRIC_CUBED (domain->metric_data)->h[2*d]) +
-	  GFS_VALUE (cell, GFS_METRIC_CUBED (domain->metric_data)->h[2*d + 1]))/2.;
-}
-
-static void none (FttCell * parent, GfsVariable * v)
-{
-}
-
-typedef struct {
-  double x, y, x1, y1, z1;
-  double a;
-} Point;
-
-typedef struct {
-  Point * v[4];
-  double a, h[4];
-} Square;
-
-static void point_new (Point * p, double x, double y)
-{
-  p->x = x; p->y = y;
-  cmap_xy2XYZ (x, y, &p->x1, &p->y1, &p->z1);
-}
-
-static Point ** matrix_refine (Point ** m, int n)
-{
-  int n1 = 2*n - 1, i, j;
-  Point ** r = gfs_matrix_new (n1, n1, sizeof (Point));
-  for (i = 0; i < n; i++)
-    for (j = 0; j < n; j++)
-      r[2*i][2*j] = m[i][j];
-  for (i = 0; i < n - 1; i++)
-    for (j = 0; j < n - 1; j++) {
-      point_new (&r[2*i+1][2*j], (m[i][j].x + m[i+1][j].x)/2., m[i][j].y);
-      point_new (&r[2*i][2*j+1], m[i][j].x, (m[i][j].y + m[i][j+1].y)/2.);
-      point_new (&r[2*i+1][2*j+1], (m[i][j].x + m[i+1][j].x)/2., (m[i][j].y + m[i][j+1].y)/2.);
-    }
-  i = n - 1;
-  for (j = 0; j < n - 1; j++)
-    point_new (&r[2*i][2*j+1], m[i][j].x, (m[i][j].y + m[i][j+1].y)/2.);
-  j = n - 1;
-  for (i = 0; i < n - 1; i++)
-    point_new (&r[2*i+1][2*j], (m[i][j].x + m[i+1][j].x)/2., m[i][j].y);
-  gfs_matrix_free (m);
-  return r;
-}
-
-static Point ** matrix_from_cell (FttCell * cell)
-{
-  FttVector p;
-  ftt_cell_pos (cell, &p);
-  double h = ftt_cell_size (cell)/2.;
-  Point ** r = gfs_matrix_new (2, 2, sizeof (Point));
-  point_new (&r[0][0], p.x - h, p.y - h);
-  point_new (&r[1][0], p.x + h, p.y - h);
-  point_new (&r[1][1], p.x + h, p.y + h);
-  point_new (&r[0][1], p.x - h, p.y + h);
-  return r;
-}
-
-static double matrix_a (Point ** r, int m, int i0, int j0)
-{
-  int i, j;
-  double a = 0.;
-  double h = r[m][0].x - r[0][0].x;
-  for (i = 0; i < m; i++)
-    for (j = 0; j < m; j++)
-      a += excess_of_quad (&r[i0+i][j0+j].x1, &r[i0+i+1][j0+j].x1,
-			   &r[i0+i+1][j0+j+1].x1, &r[i0+i][j0+j+1].x1);
-  return 4.*a/(M_PI*M_PI*h*h);
-}
-
-static double matrix_hx (Point ** r, int m, int i0, int j0)
-{
-  int i;
-  double hx = 0.;
-  double h = r[m][0].x - r[0][0].x;
-  for (i = 0; i < m; i++)
-    hx += angle_between_vectors (&r[i0+i][j0].x1, &r[i0+i+1][j0].x1);
-  return 2.*hx/(M_PI*h);
-}
-
-static double matrix_hy (Point ** r, int m, int i0, int j0)
-{
-  int j;
-  double hy = 0.;
-  double h = r[m][0].x - r[0][0].x;
-  for (j = 0; j < m; j++)
-    hy += angle_between_vectors (&r[i0][j0+j].x1, &r[i0][j0+j+1].x1);
-  return 2.*hy/(M_PI*h);
-}
-
-static void cubed_coarse_fine (FttCell * parent, GfsVariable * a)
-{
-  if (GFS_CELL_IS_BOUNDARY (parent))
-    return;
-
-  GfsMetricCubed * cubed = GFS_METRIC_CUBED (a);
-  Point ** r = matrix_from_cell (parent);
-  r = matrix_refine (r, 2);
-  int n = 3, level = cubed->level - (ftt_cell_level (parent) + 1);
-  while (level-- > 0) {
-    r = matrix_refine (r, n);
-    n = 2*n - 1;
-  }
-
-  FttCellChildren child;
-  ftt_cell_children (parent, &child);
-  int m = n/2;
-
-  GFS_VALUE (child.c[0], a) = matrix_a (r, m, 0, m);
-  GFS_VALUE (child.c[1], a) = matrix_a (r, m, m, m);
-  GFS_VALUE (child.c[2], a) = matrix_a (r, m, 0, 0);
-  GFS_VALUE (child.c[3], a) = matrix_a (r, m, m, 0);
-
-  GFS_VALUE (child.c[0], cubed->h[0]) = GFS_VALUE (child.c[1], cubed->h[1]) = 
-    matrix_hy (r, m, m, m);
-  GFS_VALUE (child.c[0], cubed->h[3]) = GFS_VALUE (child.c[2], cubed->h[2]) = 
-    matrix_hx (r, m, 0, m);
-  GFS_VALUE (child.c[2], cubed->h[0]) = GFS_VALUE (child.c[3], cubed->h[1]) = 
-    matrix_hy (r, m, m, 0);
-  GFS_VALUE (child.c[1], cubed->h[3]) = GFS_VALUE (child.c[3], cubed->h[2]) = 
-    matrix_hx (r, m, m, m);
-
-  GFS_VALUE (child.c[0], cubed->h[2]) = matrix_hx (r, m, 0, n - 1);
-  GFS_VALUE (child.c[0], cubed->h[1]) = matrix_hy (r, m, 0, m);
-  GFS_VALUE (child.c[1], cubed->h[2]) = matrix_hx (r, m, m, n - 1);
-  GFS_VALUE (child.c[1], cubed->h[0]) = matrix_hy (r, m, n - 1, m);
-  GFS_VALUE (child.c[2], cubed->h[3]) = matrix_hx (r, m, 0, 0);
-  GFS_VALUE (child.c[2], cubed->h[1]) = matrix_hy (r, m, 0, 0);
-  GFS_VALUE (child.c[3], cubed->h[0]) = matrix_hy (r, m, n - 1, 0);
-  GFS_VALUE (child.c[3], cubed->h[3]) = matrix_hx (r, m, m, 0);
-
-  gfs_matrix_free (r);
-}
-
-static void cubed_fine_coarse (FttCell * parent, GfsVariable * a)
-{
-  GfsMetricCubed * cubed = GFS_METRIC_CUBED (a);
-  FttCellChildren child;
-  guint n;
-
-  ftt_cell_children (parent, &child);
-  gdouble va = 0.;
-  for (n = 0; n < 4; n++)
-    va += GFS_VALUE (child.c[n], a);
-  GFS_VALUE (parent, a) = va/4;
-
-  GFS_VALUE (parent, cubed->h[0]) = (GFS_VALUE (child.c[1], cubed->h[0]) +
-				     GFS_VALUE (child.c[3], cubed->h[0]))/2.;
-  GFS_VALUE (parent, cubed->h[1]) = (GFS_VALUE (child.c[0], cubed->h[1]) +
-				     GFS_VALUE (child.c[2], cubed->h[1]))/2.;
-  GFS_VALUE (parent, cubed->h[2]) = (GFS_VALUE (child.c[0], cubed->h[2]) +
-				     GFS_VALUE (child.c[1], cubed->h[2]))/2.;
-  GFS_VALUE (parent, cubed->h[3]) = (GFS_VALUE (child.c[2], cubed->h[3]) +
-				     GFS_VALUE (child.c[3], cubed->h[3]))/2.;
-}
-
-static void metric_cubed_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_metric_cubed_class ())->parent_class->write) (o, fp);
-  if (GFS_METRIC_CUBED (o)->level != 0)
-    fprintf (fp, " %d", GFS_METRIC_CUBED (o)->level);
-}
-
-static void metric_cubed_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_metric_cubed_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  if (domain->metric_data || domain->face_metric || domain->cell_metric || domain->solid_metric) {
-    gts_file_error (fp, "cannot use multiple metrics (yet)");
-    return;
-  }
-
-  GfsVariable * a = GFS_VARIABLE1 (*o);
-  GfsMetricCubed * cubed = GFS_METRIC_CUBED (a);
-  if (fp->type == GTS_INT) {
-    cubed->level = atoi (fp->token->str);
-    gts_file_next_token (fp);
-  }
-
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++) {
-    gchar * name = g_strdup_printf ("%sh%d", a->name, d);
-    cubed->h[d] = gfs_domain_get_or_add_variable (domain, name, "Cubed face metric");
-    cubed->h[d]->fine_coarse = cubed->h[d]->coarse_fine = none;
-    g_free (name);
-  }
-  g_free (a->description);
-  a->description = g_strdup ("Cubed cell metric");
-  a->coarse_fine = cubed_coarse_fine;
-  a->fine_coarse = cubed_fine_coarse;
-
-  GtsObject * map = gts_object_new (GTS_OBJECT_CLASS (gfs_map_cubed_class ()));
-  gfs_object_simulation_set (map, domain);
-  gts_container_add (GTS_CONTAINER (GFS_SIMULATION (domain)->maps), GTS_CONTAINEE (map));
-
-  domain->metric_data  = cubed;
-  domain->face_metric  = cubed_face_metric;
-  domain->cell_metric  = cubed_cell_metric;
-  domain->solid_metric = cubed_solid_metric;
-  domain->scale_metric = cubed_scale_metric;
-}
-
-static void metric_cubed_class_init (GtsObjectClass * klass)
-{
-  klass->read = metric_cubed_read;
-  klass->write = metric_cubed_write;
-}
-
-GfsVariableClass * gfs_metric_cubed_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_metric_cubed_info = {
-      "GfsMetricCubed",
-      sizeof (GfsMetricCubed),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) metric_cubed_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_metric_class ()), 
-				  &gfs_metric_cubed_info);
-  }
-
-  return klass;
-}
-
-/* GfsMapLonLat: Header */
-
-typedef struct _GfsMapLonLat         GfsMapLonLat;
-
-struct _GfsMapLonLat {
-  /*< private >*/
-  GfsMap parent;
-
-  /*< public >*/
-  gdouble r;
-};
-
-#define GFS_MAP_LONLAT(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsMapLonLat,\
-					         gfs_map_lonlat_class ())
-#define GFS_IS_MAP_LONLAT(obj)         (gts_object_is_from_class (obj,\
-						 gfs_map_lonlat_class ()))
-
-static GfsMapClass * gfs_map_lonlat_class      (void);
-
-/* GfsMapLonLat: Object */
-
-static void gfs_map_lonlat_read (GtsObject ** o, GtsFile * fp)
-{
-  /* this mapping cannot be used independently from GfsMetricLonLat */
-}
-
-static void gfs_map_lonlat_write (GtsObject * o, FILE * fp)
-{
-  /* this mapping cannot be used independently from GfsMetricLonLat */
-}
-
-static void gfs_map_lonlat_class_init (GfsMapClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_map_lonlat_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_map_lonlat_write;
-}
-
-static void map_lonlat_transform (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  dest->x = src->x*M_PI/180.*GFS_MAP_LONLAT (map)->r;
-  dest->y = src->y*M_PI/180.*GFS_MAP_LONLAT (map)->r;
-  dest->z = src->z;
-}
-
-static void map_lonlat_inverse (GfsMap * map, const FttVector * src, FttVector * dest)
-{
-  dest->x = src->x*180./(M_PI*GFS_MAP_LONLAT (map)->r);
-  dest->y = src->y*180./(M_PI*GFS_MAP_LONLAT (map)->r);
-  dest->z = src->z;
-}
-
-static void gfs_map_lonlat_init (GfsMap * map)
-{
-  map->transform = map_lonlat_transform;
-  map->inverse =   map_lonlat_inverse;
-  GFS_MAP_LONLAT (map)->r = 1.;
-}
-
-static GfsMapClass * gfs_map_lonlat_class (void)
-{
-  static GfsMapClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_map_lonlat_info = {
-      "GfsMapLonLat",
-      sizeof (GfsMapLonLat),
-      sizeof (GfsMapClass),
-      (GtsObjectClassInitFunc) gfs_map_lonlat_class_init,
-      (GtsObjectInitFunc) gfs_map_lonlat_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_map_class ()), &gfs_map_lonlat_info);
-  }
-
-  return klass;
-}
-
-/* GfsMetricLonLat: Object */
-
-static void metric_lon_lat_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_metric_lon_lat_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %g", GFS_METRIC_LON_LAT (o)->r);
-}
-
-static gdouble lon_lat_face_metric (const GfsDomain * domain, const FttCellFace * face)
-{
-  if (face->d/2 != FTT_Y)
-    return 1.;
-  return face->d == 2 ? 
-    GFS_VALUE (face->cell, GFS_METRIC_LON_LAT (domain->metric_data)->h2) :
-    GFS_VALUE (face->cell, GFS_METRIC_LON_LAT (domain->metric_data)->h3);
-}
-
-static gdouble lon_lat_cell_metric (const GfsDomain * domain, const FttCell * cell)
-{
-  return GFS_VALUE (cell, GFS_VARIABLE1 (domain->metric_data));
-}
-
-static gdouble lon_lat_solid_metric (const GfsDomain * domain, const FttCell * cell)
-{
-  g_assert (GFS_IS_MIXED (cell));
-  g_assert_not_implemented ();
-  return 1.;
-}
-
-static gdouble lon_lat_scale_metric (const GfsDomain * domain, const FttCell * cell, FttComponent c)
-{
-  if (c != FTT_X)
-    return 1.;
-  return GFS_VALUE (cell, GFS_VARIABLE1 (domain->metric_data));
-}
-
-static void lonlat_coarse_fine (FttCell * parent, GfsVariable * a)
-{
-  if (GFS_CELL_IS_BOUNDARY (parent))
-    return;
-
-  GfsMetricLonLat * lonlat = GFS_METRIC_LON_LAT (a);
-  FttCellChildren child;
-  ftt_cell_children (parent, &child);
-  FttVector p;
-  ftt_cell_pos (parent, &p);
-  double theta0 = gfs_object_simulation (lonlat)->physical_params.L/lonlat->r;
-  double theta = p.y*theta0;
-  double h = ftt_cell_size (parent);
-  double dtheta = h*theta0/2.;
-  double theta1 = theta + dtheta;
-  double theta2 = theta - dtheta;
-  double sintheta = sin (theta);
-
-  GFS_VALUE (child.c[0], a) = GFS_VALUE (child.c[1], a) = (sin (theta1) - sintheta)/dtheta;
-  GFS_VALUE (child.c[2], a) = GFS_VALUE (child.c[3], a) = (sintheta - sin (theta2))/dtheta;
-
-  GFS_VALUE (child.c[0], lonlat->h2) = GFS_VALUE (child.c[1], lonlat->h2) = cos (theta1);
-  GFS_VALUE (child.c[0], lonlat->h3) = GFS_VALUE (child.c[1], lonlat->h3) = 
-    GFS_VALUE (child.c[2], lonlat->h2) = GFS_VALUE (child.c[3], lonlat->h2) = 
-    cos (theta);
-  GFS_VALUE (child.c[2], lonlat->h3) = GFS_VALUE (child.c[3], lonlat->h3) = cos (theta2);
-}
-
-static void lonlat_fine_coarse (FttCell * parent, GfsVariable * a)
-{
-  GfsMetricLonLat * lonlat = GFS_METRIC_LON_LAT (a);
-  FttCellChildren child;
-  guint n;
-
-  ftt_cell_children (parent, &child);
-  gdouble va = 0.;
-  for (n = 0; n < 4; n++)
-    va += GFS_VALUE (child.c[n], a);
-  GFS_VALUE (parent, a) = va/4;
-
-  GFS_VALUE (parent, lonlat->h2) = (GFS_VALUE (child.c[0], lonlat->h2) +
-				    GFS_VALUE (child.c[1], lonlat->h2))/2.;
-  GFS_VALUE (parent, lonlat->h3) = (GFS_VALUE (child.c[3], lonlat->h3) +
-				    GFS_VALUE (child.c[2], lonlat->h3))/2.;
-}
-
-static void metric_lon_lat_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_metric_lon_lat_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  if (domain->metric_data || domain->face_metric || domain->cell_metric || domain->solid_metric) {
-    gts_file_error (fp, "cannot use multiple metrics (yet)");
-    return;
-  }
-
-  GFS_METRIC_LON_LAT (*o)->r = gfs_read_constant (fp, gfs_object_simulation (*o));
-  if (fp->type == GTS_ERROR)
-    return;
-  if (GFS_METRIC_LON_LAT (*o)->r <= 0.) {
-    gts_file_error (fp, "radius must be strictly positive");
-    return;
-  }
-
-  GfsVariable * a = GFS_VARIABLE1 (*o);
-  GfsMetricLonLat * lonlat = GFS_METRIC_LON_LAT (a);
-  gchar * name = g_strdup_printf ("%sh2", a->name);
-  lonlat->h2 = gfs_domain_get_or_add_variable (domain, name, "LonLat face metric");
-  lonlat->h2->coarse_fine = lonlat->h2->fine_coarse = none;
-  g_free (name);
-  name = g_strdup_printf ("%sh3", a->name);
-  lonlat->h3 = gfs_domain_get_or_add_variable (domain, name, "LonLat face metric");
-  lonlat->h3->coarse_fine = lonlat->h3->fine_coarse = none;
-  g_free (name);
-  g_free (a->description);
-  a->description = g_strdup ("LonLat cell metric");
-  a->coarse_fine = lonlat_coarse_fine;
-  a->fine_coarse = lonlat_fine_coarse;
-
-  GtsObject * map = gts_object_new (GTS_OBJECT_CLASS (gfs_map_lonlat_class ()));
-  gfs_object_simulation_set (map, domain);
-  gts_container_add (GTS_CONTAINER (GFS_SIMULATION (domain)->maps), GTS_CONTAINEE (map));
-  GFS_MAP_LONLAT (map)->r = GFS_METRIC_LON_LAT (*o)->r;
-
-  domain->metric_data = *o;
-  domain->face_metric  = lon_lat_face_metric;
-  domain->cell_metric  = lon_lat_cell_metric;
-  domain->solid_metric = lon_lat_solid_metric;
-  domain->scale_metric = lon_lat_scale_metric;
-}
-
-static void metric_lon_lat_class_init (GtsObjectClass * klass)
-{
-  klass->read = metric_lon_lat_read;
-  klass->write = metric_lon_lat_write;
-}
-
-static void metric_lon_lat_init (GfsMetricLonLat * m)
-{
-  m->r = 1.;
-}
-
-GfsVariableClass * gfs_metric_lon_lat_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_metric_lon_lat_info = {
-      "GfsMetricLonLat",
-      sizeof (GfsMetricLonLat),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) metric_lon_lat_class_init,
-      (GtsObjectInitFunc) metric_lon_lat_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_metric_class ()), 
-				  &gfs_metric_lon_lat_info);
-  }
-
-  return klass;
-}
diff --git a/src/metric.h b/src/metric.h
deleted file mode 100644
index e2d6c36..0000000
--- a/src/metric.h
+++ /dev/null
@@ -1,82 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __METRIC_H__
-#define __METRIC_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "variable.h"
-
-/* GfsVariableMetric: Header */
-
-#define GFS_IS_VARIABLE_METRIC(obj)         (gts_object_is_from_class (obj,\
-						   gfs_variable_metric_class ()))
-
-GfsVariableClass * gfs_variable_metric_class  (void);
-
-/* GfsMetricCubed: Header */
-
-typedef struct _GfsMetricCubed GfsMetricCubed;
-
-struct _GfsMetricCubed {
-  /*< private >*/
-  GfsVariable parent;
-
-  /*< public >*/
-  GfsVariable * h[FTT_NEIGHBORS];
-  gint level;
-};
-
-#define GFS_METRIC_CUBED(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsMetricCubed,\
-					           gfs_metric_cubed_class ())
-#define GFS_IS_METRIC_CUBED(obj)         (gts_object_is_from_class (obj,\
-						   gfs_metric_cubed_class ()))
-
-GfsVariableClass * gfs_metric_cubed_class  (void);
-
-/* GfsMetricLonLat: Header */
-
-typedef struct _GfsMetricLonLat GfsMetricLonLat;
-
-struct _GfsMetricLonLat {
-  /*< private >*/
-  GfsVariable parent;
-
-  /*< public >*/
-  GfsVariable * h2, * h3;
-  gdouble r;
-};
-
-#define GFS_METRIC_LON_LAT(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsMetricLonLat,\
-					           gfs_metric_lon_lat_class ())
-#define GFS_IS_METRIC_LON_LAT(obj)         (gts_object_is_from_class (obj,\
-						   gfs_metric_lon_lat_class ()))
-
-GfsVariableClass * gfs_metric_lon_lat_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __METRIC_H__ */
diff --git a/src/moving.c b/src/moving.c
deleted file mode 100644
index 4591891..0000000
--- a/src/moving.c
+++ /dev/null
@@ -1,976 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2005-2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <math.h>
-#include <gts.h>
-#include "moving.h"
-#include "simulation.h"
-#include "domain.h"
-#include "utils.h"
-#include "ftt.h"
-#include "refine.h"
-#include "adaptive.h"
-#include "solid.h"
-#include "vof.h"
-#include "surface.h"
-#include "advection.h"
-#include "source.h"
-
-#define OLD_SOLID(c) (*((GfsSolidVector **) &(GFS_VALUE (c, old_solid_v))))
-
-typedef struct {
-  GfsDomain * domain;
-  gdouble dt;
-  FttComponent c;
-  GfsVariable * div;
-  GfsVariable * v;
-} DivergenceData;
-
-#include "moving2.c"
-
-typedef struct {
-  GfsSimulation * sim;
-  GfsSolidMoving * s;
-  GfsVariable * old_solid_v, ** sold2, ** v;
-} SolidInfo;
-
-static double surface_value (FttCell * cell, GfsVariable * v, FttVector * ca)
-{
-  gdouble val = 0.;
-  if (!v->surface_bc)
-    /* default surface BC for velocity is zero */
-    return 0.;
-  else if (GFS_STATE (cell)->solid) {
-    FttVector oldca;
-    if (ca) {
-      oldca = GFS_STATE (cell)->solid->ca;
-      GFS_STATE (cell)->solid->ca = *ca;
-    }
-    (* GFS_SURFACE_GENERIC_BC_CLASS (GTS_OBJECT (v->surface_bc)->klass)->bc) (cell, v->surface_bc);
-    if (ca)
-      GFS_STATE (cell)->solid->ca = oldca;
-    val = GFS_STATE (cell)->solid->fv;
-  }
-  else {
-    GfsSolidVector solid;
-    if (ca)
-      solid.ca = *ca;
-    else
-      ftt_cell_pos (cell, &solid.ca);
-    solid.cm = solid.ca;
-    GFS_STATE (cell)->solid = &solid;
-    (* GFS_SURFACE_GENERIC_BC_CLASS (GTS_OBJECT (v->surface_bc)->klass)->bc) (cell, v->surface_bc);
-    GFS_STATE (cell)->solid = NULL;
-    val = solid.fv;
-  }
-  if (!(cell->flags & GFS_FLAG_DIRICHLET))
-    g_assert_not_implemented ();
-  return val;
-}
-
-static void init_new_cell_velocity_from_solid (FttCell * cell, SolidInfo * p)
-{
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    GFS_VALUE (cell, p->v[c]) = surface_value (cell, p->v[c], NULL);
-}
-
-static void update_neighbors (FttCell * cell)
-{
-  gint i;
-  FttCellNeighbors neighbor;
-  g_assert (cell);
-
-  ftt_cell_neighbors (cell, &neighbor);
-  for (i = 0; i < FTT_NEIGHBORS; i++)
-    if (neighbor.c[i] && neighbor.c[i]->children) {
-      ftt_cell_neighbors_not_cached (neighbor.c[i], &(neighbor.c[i]->children->neighbors));}
-}
-
-static gboolean refine_maxlevel (FttCell * cell, gint * maxlevel)
-{
-  return (ftt_cell_level (cell) < *maxlevel);
-}
-
-static void moving_cell_coarse_fine (FttCell * cell, GfsVariable * v)
-{
-  FttCell * parent = ftt_cell_parent (cell);
-
-  GFS_VALUE (cell, v) = GFS_VALUE (parent, v);
-  if (!GFS_CELL_IS_BOUNDARY (parent)) {
-    FttVector p;
-    FttComponent c;
-
-    ftt_cell_relative_pos (cell, &p);    
-    for (c = 0; c < FTT_DIMENSION; c++)
-      GFS_VALUE (cell, v) += (&p.x)[c]*gfs_center_van_leer_gradient (parent, c, v->i);
-  }
-}
-
-static void moving_cell_init (FttCell * cell, SolidInfo * solid_info)
-{
-  GSList * i;
-  gint k;
-  GfsDomain * domain = GFS_DOMAIN (solid_info->sim);
-  GfsVariable * old_solid_v = GFS_SIMULATION_MOVING (domain)->old_solid;
-
-  gfs_cell_init (cell, domain);
-
-  i = domain->variables;
-  while (i) {
-    GfsVariable * v = i->data;
-    
-    if (v->coarse_fine == (GfsVariableFineCoarseFunc) gfs_cell_coarse_fine)
-      moving_cell_coarse_fine (cell, v);
-    /* these are variables specific to moving solid boudaries */
-    else if (v->coarse_fine != sold2_fine_init && v != old_solid_v)
-      g_assert_not_implemented ();
-    i = i->next;
-  }
-
-  g_assert (OLD_SOLID (cell) == NULL);
-  OLD_SOLID (cell) = g_malloc0 (sizeof (GfsSolidVector));
-  OLD_SOLID (cell)->a = 0.;
-  GfsVariable ** sold2 = solid_info->sold2;
-  if (sold2)
-    for (k = 0; k < FTT_NEIGHBORS; k++)
-      SOLD2 (cell, k) = OLD_SOLID (cell)->s[k] = 0.;
-
-  init_new_cell_velocity_from_solid (cell, solid_info);
-}
-
-static void moving_cell_fine_init (FttCell * cell, SolidInfo * solid_info)
-{
-  GfsDomain * domain = GFS_DOMAIN(solid_info->sim);
-  GfsVariable * old_solid_v = GFS_SIMULATION_MOVING (domain)->old_solid;
-  GfsVariable ** sold2 = solid_info->sold2;
-  FttCellChildren child;
-  guint n;
- 
-  gfs_cell_fine_init (cell, domain);
-
-  /* need to update the neighbors of the "undestroyed" parent cell */
-  update_neighbors (cell);
- 
-  ftt_cell_children (cell, &child);
-  for (n = 0; n < FTT_CELLS; n++) {
-    GfsSolidVector * solid = OLD_SOLID (child.c[n]);
-    gint k;
-    g_assert (!solid);
-    solid = OLD_SOLID (child.c[n]) = g_malloc0 (sizeof (GfsSolidVector));
-    solid->a = 0.;
-    if (sold2)
-      for (k = 0; k < FTT_NEIGHBORS; k++)
-	SOLD2 (child.c[n], k) = solid->s[k] = 0.;
-  }
-}
-
-static void create_new_cells (FttCell * cell, GfsSurface * s, SolidInfo * solid_info)
-{
-  GfsSolidMoving * solid = solid_info->s;
-  gint maxlevel = gfs_function_value (solid->level, cell);
-
-  if (FTT_CELL_IS_DESTROYED (cell) && ftt_cell_level (cell) <= maxlevel) {
-    cell->flags &= ~FTT_FLAG_DESTROYED;
-    moving_cell_init (cell, solid_info);
-    if (ftt_cell_level (cell) < maxlevel)
-      ftt_cell_refine (cell,
-		       (FttCellRefineFunc) refine_maxlevel, &maxlevel,
-		       (FttCellInitFunc) moving_cell_fine_init, solid_info);
-  }
-  else if (ftt_cell_level (cell) < maxlevel)
-    ftt_cell_refine (cell,
-		     (FttCellRefineFunc) refine_maxlevel, &maxlevel,
-		     (FttCellInitFunc) gfs_cell_fine_init, solid_info->sim);
-}
-
-static void remesh_surface_moving (GfsSimulation * sim, GfsSolidMoving * s)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  SolidInfo solid_info;
-
-  solid_info.sim = sim;
-  solid_info.s = s;
-  solid_info.sold2 = GFS_SIMULATION_MOVING (sim)->sold2;
-  solid_info.v = gfs_domain_velocity (domain);
-  gfs_domain_traverse_cut (domain, GFS_SOLID (s)->s,
-			   FTT_POST_ORDER, FTT_TRAVERSE_LEAFS | FTT_TRAVERSE_DESTROYED,
-			   (FttCellTraverseCutFunc) create_new_cells, &solid_info);
-}
-
-static void solid_moving_destroy (GtsObject * object)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_SOLID_MOVING (object)->level));
-  (* GTS_OBJECT_CLASS (gfs_solid_moving_class ())->parent_class->destroy) (object);
-}
-
-static void solid_moving_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSolidMoving * solid = GFS_SOLID_MOVING (*o);
-  
-  if (GTS_OBJECT_CLASS (gfs_solid_moving_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_solid_moving_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (!GFS_IS_SURFACE (GFS_SOLID (solid)->s) || !GFS_SURFACE (GFS_SOLID (solid)->s)->s) {
-    gts_file_error (fp, "moving implicit surfaces are not implemented yet");
-    return;
-  }
-
-  if (!GFS_IS_SIMULATION_MOVING (gfs_object_simulation (*o))) {
-    gts_file_error (fp, "GfsSolidMoving only makes sense with GfsSimulationMoving");
-    return;
-  }
-
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-  
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a keyword");
-      return;
-    }
-    if (!strcmp (fp->token->str, "level")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      gfs_function_read (solid->level, gfs_object_simulation (*o), fp);
-    }
-    else {
-      gts_file_error (fp, "unknown keyword `%s'", fp->token->str);
-      return;
-    }
-  }
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-}
-
-static void solid_moving_write (GtsObject * object, FILE * fp)
-{
-  GfsSolidMoving * solid = GFS_SOLID_MOVING (object);
-  
-  if (GTS_OBJECT_CLASS (gfs_solid_moving_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_solid_moving_class ())->parent_class->write) 
-      (object, fp);
-  fputs (" { level =", fp);
-  gfs_function_write (solid->level, fp);
-  fputs (" }", fp);
-}
-
-static void set_old_solid (FttCell * cell, GfsVariable * old_solid_v)
-{
-  g_free (OLD_SOLID (cell));
-  OLD_SOLID (cell) = GFS_STATE (cell)->solid;
-  GFS_STATE (cell)->solid = NULL;
-  cell->flags &= ~GFS_FLAG_PERMANENT;
-}
-
-static void check_face (FttCellFace * f, guint * nf)
-{
-  GfsSolidVector * s = GFS_STATE (f->cell)->solid;
-
-  if (s && !f->neighbor && s->s[f->d] > 0. && s->s[f->d] < 1.)
-    (*nf)++;
-}
-
-static void check_solid_fractions (GfsBox * box, guint * nf)
-{
-  FttDirection d;
-
-  gfs_cell_check_solid_fractions (box->root);
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    ftt_face_traverse_boundary (box->root, d, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttFaceTraverseFunc) check_face, nf);
-}
-
-static void is_diffusion (GfsSource * s, gboolean * diffusion)
-{
-  *diffusion = (GFS_IS_SOURCE_DIFFUSION (s) != NULL);
-}
-
-static void set_permanent (FttCell * cell)
-{
-  cell->flags |= GFS_FLAG_PERMANENT;
-}
-
-typedef struct {
-  GfsDomain * domain;
-  GfsVariable * status;
-  GfsVariable ** v;
-} ReInitParams;
-
-static void redistribute_destroyed_cells_content (FttCell * cell, ReInitParams * p)
-{
-  if (GFS_VALUE (cell, p->status) != 1.)
-    return;
-
-  GfsDomain * domain = p->domain;
-  GfsVariable * old_solid_v = GFS_SIMULATION_MOVING (domain)->old_solid;
-  GSList * i;
-  FttCell * merged, * next;
-  gdouble s1, s2;
-  gint c;
-
-  if (!OLD_SOLID (cell) || !(merged = OLD_SOLID (cell)->merged))
-    return;
-  while (OLD_SOLID (merged) && (next = OLD_SOLID (merged)->merged))
-    merged = next;
-
-  s1 = ftt_cell_volume (cell);
-  s2 = ftt_cell_volume (merged);
-
-  /* redistribution of the velocity */
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gdouble a = OLD_SOLID (merged) ? OLD_SOLID (merged)->a : 1.;
-    GfsVariable * var = p->v[c];
-    GFS_VALUE (merged, var) = (s1*OLD_SOLID (cell)->a*GFS_VALUE (cell, var) +
-			       s2*a*GFS_VALUE (merged, var))
-      /(s1*OLD_SOLID (cell)->a + s2*a);
-  }
-  
-  /* redistribution of tracers */
-  i = domain->variables;
-  while (i) {
-    if (GFS_IS_VARIABLE_TRACER (i->data)) {
-      gdouble a = OLD_SOLID (merged) ? OLD_SOLID (merged)->a : 1.;
-      GfsVariableTracer * t = GFS_VARIABLE_TRACER(i->data);
-      GfsVariable * var = t->advection.v;
-      GFS_VALUE (merged, var) = (s1*OLD_SOLID (cell)->a*GFS_VALUE (cell, var) +
-				 s2*a*GFS_VALUE (merged, var))
-	/(s1*OLD_SOLID (cell)->a + s2*a);
-    }
-    i = i->next;
-  }
-    
-  if (!OLD_SOLID (merged)) {
-    OLD_SOLID (merged) = g_malloc0 (sizeof (GfsSolidVector));
-    OLD_SOLID (merged)->a = 1.; 
-  }
-  OLD_SOLID (merged)->a += s1/s2*OLD_SOLID (cell)->a;
-  if (GFS_SIMULATION (domain)->advection_params.moving_order == 2)
-    redistribute_old_face (cell, merged, GFS_SIMULATION_MOVING (domain)->old_solid);
-}
-
-/**
- * gfs_domain_reinit_solid_fractions:
- * @domain: a #GfsDomain.
- * @i: a list of #GfsSolids.
- *
- * Reinitializes the solid fractions of all the cells of @domain.
- *
- * If @destroy_solid is set to %TRUE, the cells entirely contained in
- * the solid are destroyed using @cleanup as cleanup function.  
- *
- * Destroy the cells that are not fluid cells anymore when the solid 
- * have moved.
- *
- * The fluid fractions of the destroyed is redistributed.
- *
- * Returns: the number of thin cells.
- */
-static guint domain_reinit_solid_fractions (GfsSimulation * sim,
-					    GSList * i)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsVariable * status;
-
-  g_return_val_if_fail (sim != NULL, 0);
-
-  status = gfs_temporary_variable (domain);
-  guint thin = gfs_init_solid_fractions_leaves (domain, i, status);
-
-  if (sim->time.t != 0.) {
-    ReInitParams rp;
-    rp.domain = domain;
-    rp.status = status;
-    rp.v = gfs_domain_velocity (domain);
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) redistribute_destroyed_cells_content, &rp);
-  }
-
-  gfs_init_solid_fractions_from_children (domain, TRUE,
-					  (FttCellCleanupFunc) gfs_cell_cleanup, domain, 
-					  status);
-  gts_object_destroy (GTS_OBJECT (status));
-  return thin;
-}
-
-/**
- * reinit_solid_fractions:
- * @sim: a #GfsSimulation.
- *
- * Calls the domain_reinit_solid_fractions(). Matches the
- * boundaries by calling gfs_domain_match().
- */
-static void reinit_solid_fractions (GfsSimulation * sim)
-{
-  guint nf = 0;
-  GfsDomain * domain = GFS_DOMAIN (sim);;
-  GSList * solids = gfs_simulation_get_solids (sim);
-  if (solids) {
-    sim->thin = domain_reinit_solid_fractions (sim, solids);
-    g_slist_free (solids);
-    gfs_domain_match (domain);
-    gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			       (FttCellTraverseFunc) set_permanent, NULL);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim), (GtsFunc) check_solid_fractions, &nf);
-  if (nf > 0) {
-    GSList * i = domain->variables;
-    gboolean diffusion = FALSE;
-    
-    while (i && !diffusion) {
-      GfsVariable * v = i->data;
-
-      if (v->sources)
-	gts_container_foreach (v->sources, (GtsFunc) is_diffusion, &diffusion);
-      i = i->next;
-    }
-    if (diffusion)
-      g_warning ("the solid surface cuts %d boundary cells,\n"
-		 "this may cause errors for diffusion terms\n", nf);
-  }
-}
-
-/* see gfs_advection_update() for a description of what this function does */
-static void moving_advection_update (GSList * merged, const GfsAdvectionParams * par)
-{
-  GfsVariable * old_solid_v = GFS_SIMULATION_MOVING (par->v->domain)->old_solid;
-
-  if (merged->next == NULL) { /* cell is not merged */
-    FttCell * cell = merged->data;
-    gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-    gdouble olda = OLD_SOLID (cell) ? OLD_SOLID (cell)->a : 1.;
-
-    if (GFS_IS_MIXED (cell))
-      g_assert (!gfs_cell_is_small (cell));
-
-    GFS_VALUE (cell, par->v) = (olda*GFS_VALUE (cell, par->v) + GFS_VALUE (cell, par->fv))/a;
-  }
-  else if (1 /* par->average */) {
-    /* average value */
-    GSList * i = merged;
-    gdouble w = 0., total_vol = 0.;
-
-    while (i) {
-      FttCell * cell = i->data;
-      gdouble vol = ftt_cell_volume (cell);
-      gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-      gdouble olda = OLD_SOLID (cell) ? OLD_SOLID (cell)->a : 1.;
-      
-      total_vol += vol*a;
-      w += vol*(olda*GFS_VALUE (cell, par->v) + GFS_VALUE (cell, par->fv));
-      i = i->next;
-    }
-    w /= total_vol;
-
-    i = merged;
-    while (i) {
-      FttCell * cell = i->data;
-      GFS_VALUE (cell, par->v) = w;
-      i = i->next;
-    }
-  }
-  else {
-    GSList * i = merged;
-    gdouble w = 0., total_vol = 0.;
-
-    while (i) {
-      FttCell * cell = i->data;
-      gdouble vol = ftt_cell_volume (cell);
-      gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-      gdouble olda = OLD_SOLID (cell) ? OLD_SOLID (cell)->a : 1.;
-
-      total_vol += vol*a;
-      if (a < GFS_SMALL) {
-	GFS_VALUE (cell, par->v) = olda*GFS_VALUE (cell, par->v)/a + 
-	  GFS_VALUE (cell, par->fv)/GFS_SMALL;
-	w += vol*GFS_VALUE (cell, par->fv)*(1. - a/GFS_SMALL);   
-      }
-      else
-	GFS_VALUE (cell, par->v) = (olda*GFS_VALUE (cell, par->v) + GFS_VALUE (cell, par->fv))/a;
-      i = i->next;
-    }
-    w /= total_vol;
-    
-    i = merged;
-    while (i) {
-      FttCell * cell = i->data;
-      /* fixme: small cells should be excluded here?? 
-	 (with corresponding modification in total_vol) */
-      GFS_VALUE (cell, par->v) += w;
-      i = i->next;
-    }
-  }
-}
-
-static void moving_init (GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN(sim);
-  GSList * i = domain->variables;
-
-  if (sim->advection_params.moving_order == 2)
-    sim->advection_params.flux = moving_face_velocity_advection_flux;
-  else
-    sim->advection_params.flux = gfs_face_velocity_advection_flux;
-  sim->advection_params.update = (GfsMergedTraverseFunc) moving_advection_update;
-
-  while (i) {
-    if (GFS_IS_VARIABLE_TRACER_VOF (i->data))
-      g_assert_not_implemented ();
-    else if (GFS_IS_VARIABLE_TRACER (i->data)) {
-      GfsAdvectionParams * par = &GFS_VARIABLE_TRACER (i->data)->advection;
-      if (sim->advection_params.moving_order == 2)
-	par->flux = moving_face_advection_flux;
-      else
-	par->flux = gfs_face_advection_flux;
-      par->update = sim->advection_params.update;
-      par->moving_order = sim->advection_params.moving_order;
-    }
-    i = i->next;
-  }
-}
-
-static gboolean solid_moving_event (GfsEvent * event, GfsSimulation * sim)
-{
-  return (GFS_SOLID_MOVING (event)->active = 
-	  (* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_solid_moving_class ())->parent_class)->event) 
-	  (event, sim));
-}
-
-static void solid_moving_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = solid_moving_destroy;
-  GTS_OBJECT_CLASS (klass)->read = solid_moving_read;
-  GTS_OBJECT_CLASS (klass)->write = solid_moving_write;
-  klass->event = solid_moving_event;
-}
-
-static void solid_moving_init (GfsSolidMoving * solid)
-{
-  gfs_event_set (GFS_EVENT (solid),
-		 0., G_MAXDOUBLE/2., -1.,
-		 0, G_MAXINT/2, 1);
-  solid->level = gfs_function_new (gfs_function_class (), 0.);
-}
-
-GfsEventClass * gfs_solid_moving_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo solid_moving_info = {
-      "GfsSolidMoving",
-      sizeof (GfsSolidMoving),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) solid_moving_class_init,
-      (GtsObjectInitFunc) solid_moving_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_solid_class ()), &solid_moving_info);
-  }
-
-  return klass;
-}
-
-/* GfsMovingRun: Object */
-
-#define MOVING_CFL 0.45
-
-static void set_dtmax (FttCell * cell, SolidInfo * p)
-{
-  gdouble size = ftt_cell_size (cell);
-  FttComponent c;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gdouble v = fabs (surface_value (cell, p->v[c], NULL));
-    if (v != 0.) {
-      gdouble dt = size*MOVING_CFL/v;
-      if (dt < p->sim->time.dtmax)
-	p->sim->time.dtmax = dt;
-    }
-  }
-}
-
-static void simulation_moving_set_timestep (GfsSimulation * sim)
-{
-  gdouble dtmax = sim->time.dtmax;
-  SolidInfo p;
-  p.sim = sim;
-  p.v = gfs_domain_velocity (GFS_DOMAIN (sim));
-  gfs_domain_traverse_mixed (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			     (FttCellTraverseFunc) set_dtmax, &p);
-  gfs_simulation_set_timestep (sim);
-  sim->time.dtmax = dtmax;
-}
-
-static void move_vertex (GtsPoint * p, SolidInfo * par)
-{ 
-  FttVector pos = *((FttVector *) &p->x);
-  FttCell * cell = gfs_domain_locate (GFS_DOMAIN (par->sim), pos, -2, NULL);
-  if (cell) {
-    gdouble dt = par->sim->advection_params.dt;
-    FttComponent c;
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&p->x)[c] += surface_value (cell, par->v[c], &pos)*dt;
-  }
-  else
-    g_warning ("point %g,%g not in domain", pos.x, pos.y);
-}
-
-static void solid_move_remesh (GfsSolidMoving * solid, GfsSimulation * sim)
-{
-  GfsSurface * surface = GFS_SURFACE (GFS_SOLID (solid)->s);
-  if (surface->s) {
-    SolidInfo p;
-    p.sim = sim;
-    p.s = solid;
-    p.v = gfs_domain_velocity (GFS_DOMAIN (sim));
-    gts_surface_foreach_vertex (surface->s, (GtsFunc) move_vertex, &p);
-  }
-  else
-    /* implicit surface */
-    g_assert_not_implemented ();
-  remesh_surface_moving (sim, solid);
-}
-
-static void move_solids (GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsVariable * old_solid = GFS_SIMULATION_MOVING (sim)->old_solid;
-  GfsVariable * sold2[FTT_NEIGHBORS];
-
-  gfs_domain_timer_start (domain, "move_solids");
-
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) set_old_solid, old_solid);
-
-  if (sim->advection_params.moving_order == 2) {
-    FttDirection d;
-    for (d = 0; d < FTT_NEIGHBORS; d++) {
-      sold2[d] = gfs_domain_add_variable (domain, NULL, NULL);
-      sold2[d]->coarse_fine = sold2_fine_init;
-    }
-    GFS_SIMULATION_MOVING (sim)->sold2 = sold2;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			      (FttCellTraverseFunc) set_sold2, sim);
-  }
-
-  GSList * solids = gfs_simulation_get_solids (sim), * s = solids;
-  while (s) {
-    if (GFS_IS_SOLID_MOVING (s->data) && GFS_SOLID_MOVING (s->data)->active)
-      solid_move_remesh (s->data, sim);
-    s = s->next;
-  }
-  g_slist_free (solids);
-  reinit_solid_fractions (sim);
-  gfs_domain_reshape (domain, gfs_domain_depth (domain));
-
-  if (sim->advection_params.moving_order == 2) {
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) second_order_face_fractions, sim);
-    FttDirection d;
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      gts_object_destroy (GTS_OBJECT (sold2[d]));    
-    GFS_SIMULATION_MOVING (sim)->sold2 = NULL;
-  }
-
-  gfs_domain_timer_stop (domain, "move_solids");
-}
-
-static void moving_divergence_approx (FttCell * cell, DivergenceData * p)
-{
-  GFS_VALUE (cell, p->div) += 
-    GFS_STATE (cell)->solid->fv*(GFS_STATE (cell)->solid->s[2*p->c + 1] -
-				 GFS_STATE (cell)->solid->s[2*p->c])*ftt_cell_size (cell);
-}
-
-static void moving_divergence_distribution (GSList * merged, DivergenceData * p)
-{
-  if (merged->next != NULL && merged->next->data != merged->data) {
-    gdouble total_volume = 0., total_div = 0.;
-    GSList * i = merged;
-
-    while (i) {
-      FttCell * cell = i->data;
-      g_assert (FTT_CELL_IS_LEAF (cell));
-      gdouble a = GFS_STATE (cell)->solid ? GFS_STATE (cell)->solid->a : 1.;
-      total_volume += a*ftt_cell_volume (cell);
-      total_div += GFS_VALUE (cell, p->div);
-      i = i->next;
-    }
-    
-    total_div /= total_volume;
-    
-    i = merged;
-    while (i) {
-      FttCell * cell = i->data;
-      gdouble a = GFS_STATE (cell)->solid ? GFS_STATE (cell)->solid->a : 1.;
-      GFS_VALUE (cell, p->div) = total_div*a*ftt_cell_volume (cell);
-      i = i->next;
-    }
-  }
-}
-
-static void divergence_approx_hook (GfsDomain * domain, 
-				    GfsAdvectionParams * apar, 
-				    GfsVariable * div)
-{
-  DivergenceData q;
-  GfsVariable ** v = gfs_domain_velocity (domain);
-  
-  q.div = div;
-  for (q.c = 0; q.c < FTT_DIMENSION; q.c++) {
-    gfs_domain_surface_bc (domain, v[q.c]);
-    gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			       (FttCellTraverseFunc) moving_divergence_approx, &q);
-  }
-  gfs_domain_traverse_merged (domain, (GfsMergedTraverseFunc) moving_divergence_distribution, &q);
-}
-
-static void moving_divergence_mac (FttCell * cell, DivergenceData * p)
-{
-  GfsVariable * old_solid_v = GFS_SIMULATION_MOVING (p->domain)->old_solid;
-  gdouble size = ftt_cell_size (cell);
-  gdouble a = GFS_STATE (cell)->solid ? GFS_STATE (cell)->solid->a : 1.;
-  gdouble olda = OLD_SOLID (cell) ? OLD_SOLID (cell)->a : 1.;
-  
-  GFS_VALUE (cell, p->div) += (olda - a)*size*size/p->dt;
-}
-
-static void divergence_mac_hook (GfsDomain * domain, GfsAdvectionParams * apar, GfsVariable * div)
-{
-  DivergenceData q;
-
-  q.dt = apar->moving_order == 2 ? 2.*apar->dt : - 2.*apar->dt;
-  q.div = div;
-  q.domain = domain;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) moving_divergence_mac, &q);
-  gfs_domain_traverse_merged (domain,
-			      (GfsMergedTraverseFunc) 
-			      (apar->moving_order == 1 ?
-			       moving_divergence_distribution :
-			       moving_divergence_distribution_second_order), 
-			      &q);
-}
-
-static void moving_mac_projection (GfsSimulation * sim,
-				   GfsMultilevelParams * par,
-				   GfsAdvectionParams * apar,
-				   GfsVariable * p,
-				   GfsFunction * alpha,
-				   GfsVariable ** g)
-{
-  if (apar->moving_order == 2)
-    swap_face_fractions (sim);
-  gfs_mac_projection (GFS_DOMAIN (sim), par, apar, p, alpha, g, divergence_mac_hook);
-  if (apar->moving_order == 2)
-    swap_face_fractions_back (sim);
-}
-
-static void simulation_moving_run (GfsSimulation * sim)
-{
-  GfsVariable * p, * pmac, * res = NULL, * g[FTT_DIMENSION], * gmac[FTT_DIMENSION];
-  GfsVariable ** gc = sim->advection_params.gc ? g : NULL;
-  GfsDomain * domain;
-  GSList * i;
-
-  domain = GFS_DOMAIN (sim);
-
-  p = gfs_variable_from_name (domain->variables, "P");
-  g_assert (p);
-  pmac = gfs_variable_from_name (domain->variables, "Pmac");
-  g_assert (pmac);
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gmac[c] = gfs_temporary_variable (domain);
-    if (sim->advection_params.gc)
-      g[c] = gfs_temporary_variable (domain);
-    else
-      g[c] = gmac[c];
-  }
-  gfs_variable_set_vector (gmac, FTT_DIMENSION);
-  gfs_variable_set_vector (g, FTT_DIMENSION);
-
-  gfs_simulation_refine (sim);
-  gfs_simulation_init (sim);
-
-  i = domain->variables;
-  while (i) {
-    if (GFS_IS_VARIABLE_RESIDUAL (i->data))
-      res = i->data;
-    i = i->next;
-  }
-
-  moving_init (sim);
-
-  simulation_moving_set_timestep (sim);
-  if (sim->time.i == 0)
-    gfs_approximate_projection (domain,
-				&sim->approx_projection_params,
-				&sim->advection_params,
-				p, sim->physical_params.alpha, res, g,
-				divergence_approx_hook);
-  else if (sim->advection_params.gc)
-    gfs_update_gradients (domain, p, sim->physical_params.alpha, g);
-
-  while (sim->time.t < sim->time.end &&
-	 sim->time.i < sim->time.iend) {
-    gdouble tstart = gfs_clock_elapsed (domain->timer);
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);
-
-    move_solids (sim);
-   
-    gfs_predicted_face_velocities (domain, FTT_DIMENSION, &sim->advection_params);
-    
-    gfs_variables_swap (p, pmac);
-
-    moving_mac_projection (sim,
-			   &sim->projection_params, 
-			   &sim->advection_params,
-			   p, sim->physical_params.alpha, gmac);
-
-    gfs_variables_swap (p, pmac);
-    
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_half_do, sim);
-   
-    gfs_centered_velocity_advection_diffusion (domain,
-					       FTT_DIMENSION,
-					       &sim->advection_params,
-					       gmac,
-					       sim->time.i > 0 || !gc ? gc : gmac,
-					       sim->physical_params.alpha);
-        
-    gfs_advance_tracers (domain, sim->advection_params.dt);
-
-    if (gc) {
-      gfs_source_coriolis_implicit (domain, sim->advection_params.dt);
-      gfs_correct_centered_velocities (domain, FTT_DIMENSION, sim->time.i > 0 ? gc : gmac, 
-				       -sim->advection_params.dt);
-    }
-    else if (gfs_has_source_coriolis (domain)) {
-      gfs_correct_centered_velocities (domain, FTT_DIMENSION, gmac, sim->advection_params.dt);
-      gfs_source_coriolis_implicit (domain, sim->advection_params.dt);
-      gfs_correct_centered_velocities (domain, FTT_DIMENSION, gmac, -sim->advection_params.dt);
-    }
-
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-    gfs_simulation_adapt (sim);
-
-    gfs_approximate_projection (domain,
-				&sim->approx_projection_params, 
-				&sim->advection_params, p, sim->physical_params.alpha, res, g,
-				divergence_approx_hook);
-
-    sim->time.t = sim->tnext;
-    sim->time.i++;
-
-    simulation_moving_set_timestep (sim);
-
-    gts_range_add_value (&domain->timestep, gfs_clock_elapsed (domain->timer) - tstart);
-    gts_range_update (&domain->timestep);
-    gts_range_add_value (&domain->size, gfs_domain_size (domain, FTT_TRAVERSE_LEAFS, -1));
-    gts_range_update (&domain->size);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);  
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gts_object_destroy, NULL);
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gts_object_destroy (GTS_OBJECT (gmac[c]));
-    if (sim->advection_params.gc)
-      gts_object_destroy (GTS_OBJECT (g[c]));
-  }
-}
-
-static void simulation_moving_class_init (GfsSimulationClass * klass)
-{
-  klass->run = simulation_moving_run;
-}
-
-static void old_solid_cleanup (FttCell * cell, GfsVariable * old_solid_v)
-{
-  g_free (OLD_SOLID (cell));
-  OLD_SOLID (cell) = NULL;
-}
-
-static void none (void) {}
-
-static void simulation_moving_init (GfsDomain * domain)
-{
-  gfs_domain_add_variable (domain, "div", "Divergence")->centered = TRUE;
-
-  /* old_solid will hold a pointer to a GfsSolidVector */
-  GfsVariable * old_solid = gfs_domain_add_variable (domain, NULL, NULL); 
-  GFS_SIMULATION_MOVING (domain)->old_solid = old_solid;
-  /* pointers need to be "interpolated" correctly (i.e. not at all) */
-  old_solid->coarse_fine = (GfsVariableFineCoarseFunc) none;
-  old_solid->fine_coarse = (GfsVariableFineCoarseFunc) none;
-  /* the memory needs to be freed when the cell is cleaned up */
-  old_solid->cleanup = (FttCellCleanupFunc) old_solid_cleanup;
-  /* switch off boundary conditions */
-  GfsBc * bc = gfs_bc_new (gfs_bc_class (), old_solid, FALSE);
-  bc->bc = bc->homogeneous_bc = bc->face_bc = (FttFaceTraverseFunc) none;
-  gfs_variable_set_default_bc (old_solid, bc);
-}
-
-GfsSimulationClass * gfs_simulation_moving_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_simulation_moving_info = {
-      "GfsSimulationMoving",
-      sizeof (GfsSimulationMoving),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) simulation_moving_class_init,
-      (GtsObjectInitFunc) simulation_moving_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_simulation_class ()), 
-				  &gfs_simulation_moving_info);
-  }
-
-  return klass;
-}
diff --git a/src/moving.h b/src/moving.h
deleted file mode 100644
index 7ec87ce..0000000
--- a/src/moving.h
+++ /dev/null
@@ -1,76 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __MOVING_H__
-#define __MOVING_H__
-
-#include <gts.h>
-#include "variable.h"
-#include "utils.h"
-#include "solid.h"
-#include "advection.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-typedef struct _GfsSolidMoving         GfsSolidMoving;
-
-struct _GfsSolidMoving {
-  /*< private >*/
-  GfsSolid parent;
-
-  /*< public >*/
-  GfsFunction * level;
-  gboolean active;
-};
-
-GfsEventClass * gfs_solid_moving_class (void);
-
-#define GFS_SOLID_MOVING(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSolidMoving,\
-					         gfs_solid_moving_class ())
-#define GFS_IS_SOLID_MOVING(obj)         (gts_object_is_from_class (obj,\
-						 gfs_solid_moving_class ()))
-
-/* GfsSimulationMoving: Header */
-
-typedef struct _GfsSimulationMoving         GfsSimulationMoving;
-
-struct _GfsSimulationMoving {
-  /*< private >*/
-  GfsSimulation parent;
-
-  /*< public >*/
-  GfsVariable * old_solid, ** sold2;
-};
-
-#define GFS_SIMULATION_MOVING(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSimulationMoving,\
-					         gfs_simulation_moving_class ())
-#define GFS_IS_SIMULATION_MOVING(obj)         (gts_object_is_from_class (obj,\
-						 gfs_simulation_moving_class ()))
-
-GfsSimulationClass * gfs_simulation_moving_class            (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __MOVING_H__ */
diff --git a/src/moving2.c b/src/moving2.c
deleted file mode 100644
index 0417fa4..0000000
--- a/src/moving2.c
+++ /dev/null
@@ -1,805 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2005-2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-/*
- * Code only used by second-order moving solid boundaries
- */
-
-#define SOLD2(c, d)  (GFS_VALUE (c, sold2[d]))
-
-static void sold2_fine_init (FttCell * parent, GfsVariable * v)
-{
-  FttCellChildren child;
-  guint n;
-
-  ftt_cell_children (parent, &child);
-  for (n = 0; n < FTT_CELLS; n++)
-    if (child.c[n])
-      GFS_VALUE (child.c[n], v) = 1.;
-}
-
-static int cell_is_corner (FttCell * cell)
-{
-  FttDirection d, d1, d2;
-  gdouble  norm;
-  FttCellNeighbors neighbors;
-  FttVector n1, n2;
-
-
-  g_assert (cell);
-
-  ftt_cell_neighbors (cell,&neighbors);
-
-  d1 = d2 = -1;
-
-  if (!GFS_IS_MIXED(cell))
-    return 0;
-
-  for (d = 0; d < FTT_NEIGHBORS; d ++)
-    if (GFS_STATE(cell)->solid->s[d] != 1. && GFS_STATE(cell)->solid->s[d] != 0. && d1 == -1 && d2 == -1)
-      d1 = d;
-    else if (GFS_STATE(cell)->solid->s[d] != 1. && GFS_STATE(cell)->solid->s[d] != 0 && d2 == -1)
-      d2 = d;
-    else if (GFS_STATE(cell)->solid->s[d] != 1. && GFS_STATE(cell)->solid->s[d] != 0.)
-      g_assert_not_reached ();
-
-  if ( d1 == -1 || d2 == -1) {
-    FttVector pos;
-    ftt_cell_pos (cell,&pos);
-    
-    g_warning ("REA: %f, %f \n", pos.x, pos.y);
-    g_warning ("d1: %i d2: %i  \n", d1,d2);
-    
-    g_assert_not_reached ();
-  }
-
- 
-
-
-  gfs_solid_normal (neighbors.c[d1], &n1);
-  norm = sqrt (n1.x*n1.x + n1.y*n1.y);
-  if (norm != 0.) {
-    n1.x /= norm;
-    n1.y /= norm;
-  }
-  gfs_solid_normal (neighbors.c[d2], &n2);
-  norm = sqrt (n2.x*n2.x + n2.y*n2.y);
-  if (norm != 0.) {
-    n2.x /= norm;
-    n2.y /= norm;
-  }
-
-  if (d1/2 == d2/2)
-    return 0;
-  else {
-    if (neighbors.c[d2])
-      if ( neighbors.c[d1])
-	if (GFS_IS_MIXED (neighbors.c[d2]) && GFS_IS_MIXED (neighbors.c[d1]))
-	  if (fabs(n1.x*n2.x+n1.y*n2.y) < 0.70) {
-	    if (GFS_STATE(neighbors.c[d1])->solid->s[d1] > 0 && GFS_STATE(neighbors.c[d1])->solid->s[d1] < 1)
-	      return 1;
-	    if (GFS_STATE(neighbors.c[d2])->solid->s[d2] > 0 && GFS_STATE(neighbors.c[d2])->solid->s[d2] < 1)
-	      return 1;
-	  }
-    return 0;
-  }
-}
-
-static int cell_was_corner (FttCell * cell, GfsVariable * old_solid_v, GfsVariable ** sold2)
-{
-  FttDirection d, d1, d2;
-  
-  g_assert (cell);
-
-  d1 = d2 = -1;
-
-  if (!OLD_SOLID (cell))
-    return 0;
-
-  for (d = 0; d < FTT_NEIGHBORS; d ++)
-    if (SOLD2 (cell, d) != 1. && SOLD2 (cell, d) != 0. && d1 == -1 && d2 == -1)
-      d1 = d;
-    else if (SOLD2 (cell, d) != 1. && SOLD2 (cell, d) != 0 && d2 == -1)
-      d2 = d;
-    else if (SOLD2 (cell, d) != 1. && SOLD2 (cell, d) != 0.)
-      g_assert_not_reached (); 
-
-  if (d1/2 == d2/2)
-    return 0;
-  else {
-    FttCellNeighbors neighbors;
-
-    ftt_cell_neighbors (cell, &neighbors);
-
-    if (neighbors.c[d1] && neighbors.c[d2]) {
-      FttVector n1, n2;
-      FttComponent c;
-      gdouble norm;
-
-      for (c = 0; c < FTT_DIMENSION; c++) {
-	(&n1.x)[c] = (SOLD2 (neighbors.c[d1], 2*c + 1) - SOLD2 (neighbors.c[d1], 2*c));
-	(&n2.x)[c] = (SOLD2 (neighbors.c[d2], 2*c + 1) - SOLD2 (neighbors.c[d2], 2*c));
-      }
-      norm = sqrt (n1.x*n1.x + n1.y*n1.y);
-      if (norm != 0.) {
-	n1.x /= norm;
-	n1.y /= norm;
-      }
-      norm = sqrt (n2.x*n2.x + n2.y*n2.y);
-      if (norm != 0.) {
-	n2.x /= norm;
-	n2.y /= norm;
-      }    
-      if (fabs(n1.x*n2.x+n1.y*n2.y) < 0.70) {
-	if (SOLD2 (neighbors.c[d1], d1) > 0 && SOLD2 (neighbors.c[d1], d1) < 1)
-	  return 1.;
-	else if (SOLD2 (neighbors.c[d2], d2) > 0 && SOLD2 (neighbors.c[d2], d2) < 1)
-	  return 1;
-      }
-    }
-    return 0;
-  }
-}
-
-static double new_fluid_old_solid (FttCell * cell, FttDirection d1, 
-				   GfsVariable * old_solid,
-				   GfsVariable ** sold2) 
-{  
-  FttDirection d;
-  FttCellNeighbors neighbors;
-  double s1, s2;
-
-  g_assert(cell);
-
-  s1 = 1.-SOLD2 (cell, d1);
-  ftt_cell_neighbors (cell,&neighbors);
-  for  (d = 0; d < 2*FTT_DIMENSION;d++)
-    if (d != 2*(d1/2) && d != 2*(d1/2)+1)
-      if (neighbors.c[d])
-	if(GFS_IS_MIXED(neighbors.c[d]))
-	  if (!cell_is_corner (neighbors.c[d]) && 
-	      !cell_was_corner (neighbors.c[d], old_solid, sold2)) {
-	    if (GFS_STATE(neighbors.c[d])->solid->s[d1] != 1.) {
-	      if (SOLD2 (neighbors.c[d], d1) == 0.)
-		{
-		  s2 = GFS_STATE(neighbors.c[d])->solid->s[d1];
-		  return s2/(s1+s2);
-		}		  
-	    }
-	  } 
-  return -1.;
-}
-
-static double new_solid_old_fluid (FttCell * cell, FttDirection d1, 
-				   GfsVariable * old_solid,
-				   GfsVariable ** sold2) 
-{  
-  FttDirection d;
-  FttCellNeighbors neighbors;
-  double s1, s2;
-
-  g_assert(cell);
-
-  s1 = 1.-GFS_STATE (cell)->solid->s[d1];
-		    
-  ftt_cell_neighbors (cell,&neighbors);
-  for  (d = 0; d < 2*FTT_DIMENSION;d++)
-    if (d != 2*(d1/2) && d != 2*(d1/2)+1)
-      if (neighbors.c[d])
-	if (!cell_is_corner(neighbors.c[d]) && 
-	    !cell_was_corner(neighbors.c[d], old_solid, sold2))
-	  if (GFS_STATE(neighbors.c[d])->solid)	 
-	    if (GFS_STATE(neighbors.c[d])->solid->s[d1] == 0. && SOLD2 (neighbors.c[d], d1) != 1.) {
-	      
-	      s2 = SOLD2 (neighbors.c[d], d1);
-	      return s1/(s1+s2);
-	    }
-  return -1.;
-}
-
-static double new_solid_old_solid (FttCell * cell, FttDirection d1,
-				   GfsVariable * old_solid,
-				   GfsVariable ** sold2)
-{
-  FttDirection d;
-  FttCellNeighbors neighbors;
-  double s1, s2;
-
-  g_assert(cell);
-
-  s1 = GFS_STATE (cell)->solid->s[d1];
-  ftt_cell_neighbors (cell,&neighbors);
-  for  (d = 0; d < 2*FTT_DIMENSION;d++)
-    if (d != 2*(d1/2) && d != 2*(d1/2)+1)
-      if (neighbors.c[d] &&
-	  !cell_is_corner(neighbors.c[d]) && 
-	  !cell_was_corner(neighbors.c[d], old_solid, sold2)) {
-	if ((GFS_IS_MIXED(neighbors.c[d]) && GFS_STATE(neighbors.c[d])->solid->s[d1] == 1.) ||
-	    !GFS_IS_MIXED(neighbors.c[d])) {
-	  if (SOLD2 (neighbors.c[d], d1) != 1.){
-	    s2 = 1.-SOLD2 (neighbors.c[d], d1);
-	    return s1/(s1+s2);
-	  }
-	}
-	else if ((GFS_STATE(cell)->solid->s[d1] == 0. && GFS_IS_MIXED(neighbors.c[d])) ) {
-	  s1 = SOLD2 (cell, d1);
-	  s2 = 1.-GFS_STATE(neighbors.c[d])->solid->s[d1];
-	  return s2/(s1+s2);
-	}
-      }
-  return -1.;
-}
-
-static void second_order_face_fractions (FttCell * cell, GfsSimulationMoving * sim)
-{
-#ifndef FTT_2D /* 3D */
-  g_assert_not_implemented ();
-#endif
-
-  GfsVariable * old_solid_v = sim->old_solid;
-  GfsVariable ** sold2 = sim->sold2;
-  gdouble dt1, dt2, dto1, dto2, s1, s2;
-  gint d1, d2, d, do1, do2;
-  FttCellNeighbors neighbors;
-
-  dt1 = dt2 = dto1 = dto2 = -2;
-  d1 = d2 = do1 = do2 = -1;
-  s1 = s2 = -1;
-
-  g_assert(cell);
-      
-  ftt_cell_neighbors (cell,&neighbors);
-
-  if (!OLD_SOLID (cell) && !GFS_IS_MIXED(cell))
-    return;
-
-  if (!OLD_SOLID (cell)) {
-    FttDirection c;
-    OLD_SOLID (cell) = g_malloc0 (sizeof (GfsSolidVector));
-
-    OLD_SOLID (cell)->a = 1.;
-    for (c = 0; c < FTT_NEIGHBORS; c++)
-      OLD_SOLID (cell)->s[c] = 1.;
-  }
-
-  /* Find directions of intersection */
-  if (GFS_IS_MIXED(cell))
-    for (d = 0; d < FTT_NEIGHBORS; d ++) {
-      if (GFS_STATE(cell)->solid->s[d] != 1. && GFS_STATE(cell)->solid->s[d] != 0. &&
-	  d1 == -1 && d2 == -1)
-	d1 = d;
-      else if (GFS_STATE(cell)->solid->s[d] != 1. && GFS_STATE(cell)->solid->s[d] != 0 && d2 == -1)
-	d2 = d;
-      else if (GFS_STATE(cell)->solid->s[d] != 1. && GFS_STATE(cell)->solid->s[d] != 0.)
-	g_assert_not_reached (); 
-    }
-  
-  for (d = 0; d < FTT_NEIGHBORS; d ++) {
-    if (SOLD2 (cell, d) != 1. && SOLD2 (cell, d) != 0. && do1 == -1 && do2 == -1)
-      do1 = d;
-    else if (SOLD2 (cell, d) != 1. && SOLD2 (cell, d) != 0 && do2 == -1)
-      do2 = d;
-    else if (SOLD2 (cell, d) != 1. && SOLD2 (cell, d) != 0.)
-      g_assert_not_reached (); 
-  }
-
-  /* Treats easy cases */
-  if (d1 != -1 && d1 == do1)
-    OLD_SOLID (cell)->s[d1] = SOLD2 (cell, d1);
-  if (d2 != -1 && d2 == do2)
-    OLD_SOLID (cell)->s[d2] = SOLD2 (cell, d2);
-
-  if (d1 == do1 && d2 == do2)
-    return;
-    
-  /* Finds timescale for d1/do1 */
-  if (d1 != -1) {
-    if (SOLD2 (cell, d1) == 1.) {
-      dt1 = new_solid_old_fluid (cell, d1, old_solid_v, sold2);
-      if (dt1 == -1)
-	if (neighbors.c[d1]){
-	  FttDirection dop = ftt_opposite_direction[d1];
-	  dt1 = new_solid_old_fluid (neighbors.c[d1], dop, old_solid_v, sold2);
-	}
-    }   
-    else if (SOLD2 (cell, d1) == 0.){
-      dt1 = new_solid_old_solid (cell, d1, old_solid_v, sold2);
-    }  
-  }
-  
-  if (do1 != -1 && do1 != d1 && do1 != d2) {
-    if (GFS_IS_MIXED(cell) && GFS_STATE(cell)->solid->s[do1] == 0.)
-      dto1 = new_solid_old_solid (cell, do1, old_solid_v, sold2);
-    else
-      dto1 = new_fluid_old_solid (cell, do1, old_solid_v, sold2);
-  }
-
-  /* Finds timescale for d2/do2 */
-
-  if (d2 != -1) {
-    if (SOLD2 (cell, d2) == 1.) {
-      dt2 = new_solid_old_fluid (cell, d2, old_solid_v, sold2);
-      if (dt2 == -1 && neighbors.c[d2]) {
-	FttDirection dop = ftt_opposite_direction[d2];
-	dt2 = new_solid_old_fluid (neighbors.c[d2], dop, old_solid_v, sold2);
-      }
-    }
-    else if (SOLD2 (cell, d2) == 0.)
-      dt2 = new_solid_old_solid (cell, d2, old_solid_v, sold2);
-  }
- 
-  if (do2 != -1 && do2 != d1 && do2 != d2) {
-    if (GFS_IS_MIXED(cell) && GFS_STATE(cell)->solid->s[do2] == 0.)
-      dto2 = new_solid_old_solid (cell, do2, old_solid_v, sold2);
-    else
-      dto2 = new_fluid_old_solid (cell, do2, old_solid_v, sold2);
-  }
- 
-  /* Uses time-scale from other faces if one is missing */
-  if (dt1 == -1) {
-    if (dto1 != -2)
-      dt1 = dto1;
-    else if (dt2 != -2)
-      dt1 = dt2;
-    else if (dto2 != -2)
-      dt1 = dto2;
-  }
-
-  if (dt2 == -1) {
-    if (dt1 != -2)
-      dt2 = dt1;
-    else if (dto2 != -2)
-      dt2 = dto2;
-    else if (dto1 != -2)
-      dt2 = dto1;
-  }
-
-  if (dto1 == -1) {
-    if (dt1 != -2)
-      dto1 = dt1;
-    else if (dt2 != -2)
-      dto1 = dt2;
-    else if (dto2 != -2)
-      dto1 = dto2;
-  }
-
-  if (dto2 == -1) {
-    if (dt1 != -2)
-      dto2 = dt1;
-    else if (dt2 != -2)
-      dto2 = dt2;
-    else if (dto1 != -2)
-      dto2 = dto1;
-  }
-
-  /* Treats cell is corner */
-  if (dt1 != -2 && dt2 != -2) {
-    if (dt1 != dt2 && d1/2 != d2/2) {
-      if (cell_is_corner (cell)) {
-	if (dt1 < dt2)
-	  dt2 = dt1;
-	else
-	  dt1 = dt2;
-      }}}
-
-  /* Treats cell was corner */
-  if (dto1 != -2 && dto2 != -2 && 
-      dto1 != dto2 && do1/2 != do2/2 &&
-      cell_was_corner (cell, old_solid_v, sold2)) {
-    if (dto1 < dto2)
-      dto2 = dto1;
-    else
-      dto1 = dto2;
-  }
-  
-  /* Compute the t^n+1/2 contribution of the face */
-  if (do1 > -1)
-    if (do1 != d1 && do1 != d2) {
-      OLD_SOLID (cell)->s[do1]=SOLD2 (cell, do1)*(1-dto1)+dto1;
-      if (neighbors.c[do1])
-	if (!OLD_SOLID (neighbors.c[do1]) || !GFS_IS_MIXED(neighbors.c[do1])) {
-	  if (!OLD_SOLID (neighbors.c[do1])) {
-	    FttDirection c;
-	    OLD_SOLID (neighbors.c[do1]) = g_malloc0 (sizeof (GfsSolidVector));
-	    OLD_SOLID (neighbors.c[do1])->a = 1.;
-	    for (c = 0; c < FTT_NEIGHBORS; c++)
-	      OLD_SOLID (neighbors.c[do1])->s[c] = 1.;
-	  }	  
-	  OLD_SOLID (neighbors.c[do1])->s[ftt_opposite_direction[do1]] = 
-	    SOLD2 (cell, do1)*(1-dto1)+dto1;
-	}
-    }
-
-  if (do2 > -1)
-    if (do2 != d1 && do2 != d2) {
-      OLD_SOLID (cell)->s[do2]=SOLD2 (cell, do2)*(1-dto2)+dto2;
-      if (neighbors.c[do2])
-	if (!OLD_SOLID (neighbors.c[do2]) || !GFS_IS_MIXED(neighbors.c[do2])) {
-	  if (!OLD_SOLID (neighbors.c[do2])) {
-	    FttDirection c;
-	    OLD_SOLID (neighbors.c[do2]) = g_malloc0 (sizeof (GfsSolidVector));
-	    OLD_SOLID (neighbors.c[do2])->a = 1.;
-	    for (c = 0; c < FTT_NEIGHBORS; c++)
-	      OLD_SOLID (neighbors.c[do2])->s[c] = 1.;
-	  }	  
-	  OLD_SOLID (neighbors.c[do2])->s[ftt_opposite_direction[do2]] = 
-	    SOLD2 (cell, do2)*(1-dto2)+dto2;
-	}
-    }
-
-
-  if (d1 > -1) {
-    if (SOLD2 (cell, d1) == 0.)
-      OLD_SOLID (cell)->s[d1] = GFS_STATE(cell)->solid->s[d1]*(dt1-1.); 
-    else if (SOLD2 (cell, d1) == 1.)
-      OLD_SOLID (cell)->s[d1] = (dt1-1.)*GFS_STATE(cell)->solid->s[d1]+2.-dt1;
-  }
-
-  if (d2 > -1) {
-    if (SOLD2 (cell, d2) == 0.)
-      OLD_SOLID (cell)->s[d2] = GFS_STATE(cell)->solid->s[d2]*(dt2-1.); 
-    else if (SOLD2 (cell, d2) == 1.)
-      OLD_SOLID (cell)->s[d2] = (dt2-1.)*GFS_STATE(cell)->solid->s[d2]+2.-dt2;
-  }
-
-  if (d1/2 == d2/2 && do1 == -1 && do2 == -1)  /* third face has to be treated for 
-						  the timescale determined on the other faces */  
-    for (d = 0; d < FTT_NEIGHBORS; d ++)
-      if (d/2 != d1/2 && SOLD2 (cell, d) == 0.)
-	OLD_SOLID (cell)->s[d] = -1.+dt1+dt2;
-    
-
-  if (do1/2 == do2/2 && d1 == -1 && d2 == -1)
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (d/2 != do1/2 && SOLD2 (cell, d) == 0.)
-	OLD_SOLID (cell)->s[d] = -1.+dto1+dto2;
-}
-
-static void set_sold2 (FttCell * cell, GfsSimulationMoving * sim)
-{
-  GfsVariable * old_solid_v = sim->old_solid;
-  GfsVariable ** sold2 = sim->sold2;
-  FttDirection d;
-
-  if (OLD_SOLID (cell))
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      SOLD2 (cell, d) = OLD_SOLID (cell)->s[d];
-  else
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      SOLD2 (cell, d) = 1.;
-}
-
-static void redistribute_old_face_in_merged (FttCell * cell, 
-					     FttCell * merged, FttDirection d, 
-					     GfsVariable * old_solid_v)
-{  
-  gint i;
-  gdouble sc, sm;
-  
-  g_assert (cell != NULL);
-  g_assert (merged != NULL);
-
-  sc = ftt_cell_volume(cell);
-  sm = ftt_cell_volume(merged);
-  
-  if (sc != sm)
-    printf("Face redistribution not implemented yet for adaptive grid \n");
-  g_assert (sc == sm);
-  
-  for (i = 0; i < FTT_DIMENSION;i++)
-    if (i != d/2) {
-      FttCellNeighbors neighbors;
-      FttVector pos;
-      
-      ftt_cell_pos(cell,&pos);
-      ftt_cell_neighbors (merged,&neighbors);
-
-      GfsSolidVector * old_solid_merged = OLD_SOLID (merged);
-      if (!old_solid_merged) {
-	FttDirection c;
-	OLD_SOLID (merged) = old_solid_merged = g_malloc0 (sizeof (GfsSolidVector));
-	old_solid_merged->a = 1.;
-	for (c = 0; c < FTT_NEIGHBORS; c++)
-	  old_solid_merged->s[c] = 1.;
-      }
-          
-      old_solid_merged->s[2*i] += OLD_SOLID (cell)->s[2*i];
-
-      if (neighbors.c[2*i]) {
-	GfsSolidVector * old_solid = OLD_SOLID (neighbors.c[2*i]);
-	if (!old_solid) {
-	  FttDirection c;
-	  OLD_SOLID (neighbors.c[2*i]) = old_solid = g_malloc0 (sizeof (GfsSolidVector));
-	  old_solid->a = 1.;
-	  for (c = 0; c < FTT_NEIGHBORS; c++)
-	    old_solid->s[c] = 1.;
-	}
-	old_solid->s[ftt_opposite_direction[2*i]] += OLD_SOLID (cell)->s[2*i];
-      }
-      
-      old_solid_merged->s[2*i+1] += OLD_SOLID (cell)->s[2*i+1];
-      
-      if (neighbors.c[2*i+1]) {
-	GfsSolidVector * old_solid = OLD_SOLID (neighbors.c[2*i+1]);
-	if (!old_solid) {
-	  FttDirection c;
-	  OLD_SOLID (neighbors.c[2*i+1]) = old_solid = g_malloc0 (sizeof (GfsSolidVector));
-	  old_solid->a = 1.;
-	  for (c = 0; c < FTT_NEIGHBORS; c++)
-	    old_solid->s[c] = 1.;
-	}
-	old_solid->s[ftt_opposite_direction[2*i+1]] += OLD_SOLID (cell)->s[2*i+1];	
-      }
-    }
-}
-
-static void redistribute_old_face (FttCell * cell, FttCell * merged, GfsVariable * old_solid) 
-{
-  FttCellNeighbors neighbors;
-  FttDirection d;
-
-  ftt_cell_neighbors (cell,&neighbors);
-  for (d = 0; d< FTT_NEIGHBORS; d++)
-    if (neighbors.c[d])
-      redistribute_old_face_in_merged (cell, neighbors.c[d], d, old_solid);
-}
-
-static double face_fraction_half (const FttCellFace * face, const GfsAdvectionParams * par)
-{
-  GfsVariable * old_solid_v = GFS_SIMULATION_MOVING (par->v->domain)->old_solid;
-  if (face->cell && OLD_SOLID (face->cell))
-    return OLD_SOLID (face->cell)->s[face->d];
-  return 1.;
-}
-
-/* see gfs_face_advection_flux() for the initial implementation with static boundaries */
-static void moving_face_advection_flux (const FttCellFace * face,
-					const GfsAdvectionParams * par)
-{
-  gdouble flux;
-  
-  /* fixme: what's up with face mapping? */
-  flux = face_fraction_half (face, par)*GFS_FACE_NORMAL_VELOCITY (face)*par->dt*
-    gfs_face_upwinded_value (face, GFS_FACE_UPWINDING, NULL)/ftt_cell_size (face->cell);
-  if (!FTT_FACE_DIRECT (face))
-    flux = - flux;
-  GFS_VARIABLE (face->cell, par->fv->i) -= flux;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_VARIABLE (face->neighbor, par->fv->i) += flux;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_VARIABLE (face->neighbor, par->fv->i) += flux/FTT_CELLS;
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-/* see gfs_face_velocity_advection_flux() for the initial implementation with static boundaries */
-static void moving_face_velocity_advection_flux (const FttCellFace * face,
-						 const GfsAdvectionParams * par)
-{
-  gdouble flux;
-  FttComponent c = par->v->component;
-
-  g_return_if_fail (c >= 0 && c < FTT_DIMENSION);
-
-  /* fixme: what's up with face mapping? */
-  flux = face_fraction_half (face, par)*GFS_FACE_NORMAL_VELOCITY (face)*
-    par->dt/ftt_cell_size (face->cell);
-#if 0
-  if (c == face->d/2) /* normal component */
-    flux *= GFS_FACE_NORMAL_VELOCITY (face);
-  else /* tangential component */
-#else
-    flux *= gfs_face_upwinded_value (face, par->upwinding, par->u)
-      /* pressure correction */
-      - gfs_face_interpolated_value (face, par->g[c]->i)*par->dt/2.;
-#endif
-  if (!FTT_FACE_DIRECT (face))
-    flux = - flux;
-  GFS_VARIABLE (face->cell, par->fv->i) -= flux;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_VARIABLE (face->neighbor, par->fv->i) += flux;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_VARIABLE (face->neighbor, par->fv->i) += flux/FTT_CELLS;
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-static void swap_fractions (FttCell * cell, GfsVariable * old_solid_v) {
-  FttDirection c;
-  
-  g_assert (cell);
-  
-  if (FTT_CELL_IS_LEAF(cell)) {
-    if (OLD_SOLID (cell)) {
-      GfsSolidVector * solid_old = OLD_SOLID (cell);
-      
-      if (GFS_STATE (cell)->solid) {
-	GfsSolidVector * solid = GFS_STATE (cell)->solid;
-	
-	OLD_SOLID (cell)->merged = GFS_STATE (cell)->solid->merged;
-	
-	for (c = 0; c < 2*FTT_DIMENSION; c++) 
-	  if (solid->s[c] == 0.)
-	    solid_old->s[c] = 0;
-	  else
-	    solid_old->s[c] = (solid_old->s[c]+solid->s[c])/2. ;	
-      }
-      else {
-	OLD_SOLID (cell)->merged = NULL;
-	
-	for (c = 0; c < 2*FTT_DIMENSION; c++)
-	  solid_old->s[c] = (solid_old->s[c]+1.)/2. ;
-	
-      }
-    }
-    else if (GFS_STATE (cell)->solid) {
-      GfsSolidVector * solid = GFS_STATE (cell)->solid;
-      GfsSolidVector * solid_old = OLD_SOLID (cell) = g_malloc0 (sizeof (GfsSolidVector));
-      OLD_SOLID (cell)->a= 1.;
-      OLD_SOLID (cell)->merged = GFS_STATE (cell)->solid->merged;
-      
-      for (c = 0; c < 2*FTT_DIMENSION; c++) 
-	solid_old->s[c] = 1.;	
-      
-      for (c = 0; c < 2*FTT_DIMENSION; c++) 
-	if (solid->s[c] == 0.)
-	  solid_old->s[c] = 0;
-	else
-	  solid_old->s[c] = (solid_old->s[c]+solid->s[c])/2. ;
-    }
-  }
-  
-  if (OLD_SOLID (cell)) {
-    if (GFS_STATE(cell)->solid) {
-      GfsSolidVector * tmp = OLD_SOLID (cell);
-      OLD_SOLID (cell)->merged = GFS_STATE (cell)->solid->merged;
-      OLD_SOLID (cell) = GFS_STATE(cell)->solid;
-      GFS_STATE(cell)->solid = tmp;
-      tmp = NULL;
-    }
-    else {
-      OLD_SOLID (cell)->merged = NULL;
-      GFS_STATE(cell)->solid = OLD_SOLID (cell);
-      OLD_SOLID (cell) = NULL;
-    }
-  }
-  else if (GFS_STATE(cell)->solid) {
-    OLD_SOLID (cell) = GFS_STATE(cell)->solid;
-    GFS_STATE(cell)->solid = NULL;
-  }
-  
-  
-  /* Check for negative fractions and fix */
-  if (GFS_STATE(cell)->solid)
-    for (c = 0; c < 2*FTT_DIMENSION; c++)
-      if (GFS_STATE(cell)->solid->s[c] < 0.) {
-	if (OLD_SOLID (cell)) 
-	  if (OLD_SOLID (cell)->s[c] >= 0.)
-	    GFS_STATE(cell)->solid->s[c] = OLD_SOLID (cell)->s[c];
-	  else
-	    GFS_STATE(cell)->solid->s[c] = 1.;
-	else
-	  GFS_STATE(cell)->solid->s[c] = 0.;
-      }
-  
-  if (OLD_SOLID (cell)) 
-    for (c = 0; c < 2*FTT_DIMENSION; c++)
-      if (OLD_SOLID (cell)->s[c] < 0.){
-	if (GFS_STATE(cell)->solid)
-	  if (GFS_STATE(cell)->solid->s[c] >= 0.)
-	    OLD_SOLID (cell)->s[c] = GFS_STATE(cell)->solid->s[c];
-	  else
-	    OLD_SOLID (cell)->s[c] = 1.;
-	else
-	  OLD_SOLID (cell)->s[c] = 0.;
-      }
-}
-
-static void old_solid_fractions_from_children (FttCell * cell)
-{
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren child;
-    guint i;
-    
-    ftt_cell_children (cell, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i])
-	old_solid_fractions_from_children (child.c[i]);
-    
-      gfs_cell_init_solid_fractions_from_children (cell);
-  }
-}
-
-static void foreach_box (GfsBox * box, gpointer data)
-{
-  old_solid_fractions_from_children (box->root);
-}
-
-static void swap_face_fractions (GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) swap_fractions, 
-			    GFS_SIMULATION_MOVING (sim)->old_solid);
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) foreach_box, NULL);
-}
-
-static void swap_fractions_back (FttCell * cell, GfsVariable * old_solid_v) 
-{
-  if (OLD_SOLID (cell))
-    if (GFS_STATE(cell)->solid) {
-      GfsSolidVector * tmp = OLD_SOLID (cell);
-      OLD_SOLID (cell) = GFS_STATE(cell)->solid;
-      GFS_STATE(cell)->solid = tmp;
-      tmp = NULL;
-    }
-    else {
-      GFS_STATE(cell)->solid = OLD_SOLID (cell);
-      OLD_SOLID (cell) = NULL;
-    }
-  else
-    if (GFS_STATE(cell)->solid) {
-      OLD_SOLID (cell) = GFS_STATE(cell)->solid;
-      GFS_STATE(cell)->solid = NULL;
-    }
-}
-
-static void swap_face_fractions_back (GfsSimulation * sim) 
-{
-  gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) swap_fractions_back,
-			    GFS_SIMULATION_MOVING (sim)->old_solid);
-}
-
-static void moving_divergence_distribution_second_order (GSList * merged, DivergenceData * p)
-{
-  if (merged->next != NULL && merged->next->data != merged->data) {
-    gdouble total_volume = 0., total_div = 0.;
-    GfsVariable * old_solid_v = GFS_SIMULATION_MOVING (p->domain)->old_solid;
-    GSList * i = merged;
-
-    while (i) {
-      FttCell * cell = i->data;
-      g_assert (FTT_CELL_IS_LEAF (cell));
-      gdouble a = OLD_SOLID (cell) ? OLD_SOLID (cell)->a : 1.;
-      total_volume += a*ftt_cell_volume (cell);
-      total_div += GFS_VALUE (cell, p->div);
-      i = i->next;
-    }
-    total_div /= total_volume;
-
-    i = merged;
-    while (i) {
-      FttCell * cell = i->data;
-      gdouble a = OLD_SOLID (cell) ? OLD_SOLID (cell)->a : 1.;
-      GFS_VALUE (cell, p->div) = total_div*a*ftt_cell_volume (cell);
-      i = i->next;
-    }
-  }
-}
diff --git a/src/mpi_boundary.c b/src/mpi_boundary.c
deleted file mode 100644
index 2deefd1..0000000
--- a/src/mpi_boundary.c
+++ /dev/null
@@ -1,303 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "domain.h"
-#include "mpi_boundary.h"
-#include "adaptive.h"
-
-static void boundary_mpi_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_boundary_mpi_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %d %d", GFS_BOUNDARY_MPI (o)->process, GFS_BOUNDARY_MPI (o)->id);
-}
-
-static void boundary_mpi_read (GtsObject ** o, GtsFile * fp)
-{
-  if (fp->type == GTS_INT) {
-    GFS_BOUNDARY_MPI (*o)->process = atoi (fp->token->str);
-    gts_file_next_token (fp);
-    if (fp->type != GTS_INT) {
-      gts_file_error (fp, "expecting an integer (id)");
-      return;
-    }
-    GFS_BOUNDARY_MPI (*o)->id = atoi (fp->token->str);
-    gts_file_next_token (fp);
-  }
-  else
-    GFS_BOUNDARY_MPI (*o)->process = GFS_BOUNDARY_MPI (*o)->id = -1;
-}
-
-#ifdef HAVE_MPI
-
-/* #define DEBUG mpi_debug */
-
-static guint tag_shift = 32767/FTT_NEIGHBORS;
-
-#define TAG(boundary)           (tag_shift*(boundary)->d + (boundary)->box->id)
-#define MATCHING_TAG(boundary)  (tag_shift*FTT_OPPOSITE_DIRECTION ((boundary)->d) +\
-                                 GFS_BOUNDARY_MPI (boundary)->id)
-
-#ifdef DEBUG
-FILE * mpi_debug = NULL;
-#endif
-
-static void send (GfsBoundary * bb)
-{
-  GfsBoundaryPeriodic * boundary = GFS_BOUNDARY_PERIODIC (bb);
-  GfsBoundaryMpi * mpi = GFS_BOUNDARY_MPI (bb);
-  GfsDomain * domain = gfs_box_domain (bb->box);
-
-  if (domain->pid < 0)
-    return;
-
-  g_assert (boundary->sndcount <= boundary->sndbuf->len);
-  if (GFS_BOUNDARY (boundary)->type == GFS_BOUNDARY_MATCH_VARIABLE) {
-#ifdef DEBUG
-fprintf (DEBUG, "%d send to %d with tag %d match variable size\n",
-	 domain->pid, 
-	 mpi->process,
-	 TAG (GFS_BOUNDARY (boundary)));
-fflush (DEBUG);
-#endif
-    MPI_Isend (&boundary->sndcount, 1, MPI_UNSIGNED,
-	       mpi->process,
-	       TAG (GFS_BOUNDARY (boundary)),
-	       mpi->comm,
-	       &(mpi->request[mpi->nrequest++]));
-    gts_range_add_value (&domain->mpi_messages, sizeof (guint));
-  }
-#ifdef DEBUG
-fprintf (DEBUG, "%d send to %d with tag %d, size %d\n",
-	 domain->pid, 
-	 mpi->process,
-	 TAG (GFS_BOUNDARY (boundary)),
-	 boundary->sndcount);
-fflush (DEBUG);
-#endif
-  MPI_Isend (boundary->sndbuf->data, boundary->sndcount, MPI_DOUBLE,
-	     mpi->process,
-	     TAG (GFS_BOUNDARY (boundary)),
-	     mpi->comm,
-	     &(mpi->request[mpi->nrequest++]));
-  gts_range_add_value (&domain->mpi_messages, 
-                       sizeof (gdouble)*boundary->sndcount);
-}
-
-static void receive (GfsBoundary * bb,
-		     FttTraverseFlags flags,
-		     gint max_depth)
-{
-  GfsBoundaryPeriodic * boundary = GFS_BOUNDARY_PERIODIC (bb);
-  GfsBoundaryMpi * mpi = GFS_BOUNDARY_MPI (bb);
-  GfsDomain * domain = gfs_box_domain (bb->box);
-  MPI_Status status;
-  gint count;
-
-  if (domain->pid < 0)
-    return;
-
-#ifdef PROFILE_MPI
-  gdouble start, end;
-
-  start = MPI_Wtime ();
-#endif /* PROFILE_MPI */
-
-  if (GFS_BOUNDARY (boundary)->type == GFS_BOUNDARY_MATCH_VARIABLE) {
-#ifdef DEBUG
-fprintf (DEBUG, "%d wait on %d with tag %d for match variable size\n",
-	 gfs_box_domain (bb->box)->pid,
-	 mpi->process,
-	 MATCHING_TAG (GFS_BOUNDARY (boundary)));
-fflush (DEBUG);
-#endif
-    MPI_Recv (&boundary->rcvcount, 1, MPI_UNSIGNED,
-	      mpi->process,
-	      MATCHING_TAG (GFS_BOUNDARY (boundary)),
-	      mpi->comm,
-	      &status);
-#ifdef PROFILE_MPI
-    end = MPI_Wtime ();
-    gts_range_add_value (&domain->mpi_wait, end - start);
-    start = MPI_Wtime ();
-#endif /* PROFILE_MPI */
-    if (boundary->rcvcount > boundary->rcvbuf->len)
-      g_array_set_size (boundary->rcvbuf, boundary->rcvcount);
-  }
-  else
-    boundary->rcvcount = boundary->sndcount;
-#ifdef DEBUG
-  fprintf (DEBUG, "%d wait on %d with tag %d\n",
-	   gfs_box_domain (bb->box)->pid,
-	   mpi->process,
-	   MATCHING_TAG (GFS_BOUNDARY (boundary)));
-fflush (DEBUG);
-#endif
-  g_assert (boundary->rcvcount <= boundary->rcvbuf->len);
-  MPI_Recv (boundary->rcvbuf->data,
-	    boundary->rcvcount,
-	    MPI_DOUBLE,
-	    mpi->process,
-	    MATCHING_TAG (GFS_BOUNDARY (boundary)),
-	    mpi->comm,
-	    &status);
-  MPI_Get_count (&status, MPI_DOUBLE, &count);
-#ifdef DEBUG
-  fprintf (DEBUG, "src: %d tag: %d error: %d\n", 
-	   status.MPI_SOURCE, status.MPI_TAG, status.MPI_ERROR);
-  if (count == MPI_UNDEFINED) {
-    fprintf (DEBUG, "%d on tag %d: count is undefined!\n",
-	     gfs_box_domain (bb->box)->pid,
-	     MATCHING_TAG (GFS_BOUNDARY (boundary)));
-    g_assert_not_reached ();
-  }
-  else if (count != boundary->rcvcount) {
-    fprintf (DEBUG, "%d on tag %d: count = %d boundary->rcvcount = %d\n",
-	     gfs_box_domain (bb->box)->pid,
-	     MATCHING_TAG (GFS_BOUNDARY (boundary)),
-	     count, boundary->rcvcount);
-    g_assert_not_reached ();
-  }
-#else
-  g_assert (count == boundary->rcvcount);
-#endif
-
-#ifdef PROFILE_MPI
-  end = MPI_Wtime ();
-  gts_range_add_value (&domain->mpi_wait, end - start);
-#endif /* PROFILE_MPI */
-
-  (* gfs_boundary_periodic_class ()->receive) (bb, flags, max_depth);
-}
-
-static void synchronize (GfsBoundary * bb)
-{
-  GfsBoundaryMpi * boundary = GFS_BOUNDARY_MPI (bb);
-  MPI_Status status;
-  guint i;
-#ifdef PROFILE_MPI
-  GfsDomain * domain = gfs_box_domain (bb->box);
-  gdouble start, end;
-
-  start = MPI_Wtime ();
-#endif /* PROFILE_MPI */
-
-  /* wait for completion of non-blocking send(s) */
-  for (i = 0; i < boundary->nrequest; i++)
-    MPI_Wait (&(boundary->request[i]), &status);
-#ifdef PROFILE_MPI
-  end = MPI_Wtime ();
-  gts_range_add_value (&domain->mpi_wait, end - start);
-#endif /* PROFILE_MPI */
-  boundary->nrequest = 0;
-#ifdef DEBUG
-  /*  rewind (DEBUG); */
-  fprintf (DEBUG, "==== %d synchronised ====\n",
-	   gfs_box_domain (bb->box)->pid);
-  fflush (DEBUG);
-#endif
-  (* gfs_boundary_periodic_class ()->synchronize) (bb);
-}
-
-#endif /* HAVE_MPI */
-
-static void gfs_boundary_mpi_class_init (GfsBoundaryClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = boundary_mpi_read;
-  GTS_OBJECT_CLASS (klass)->write = boundary_mpi_write;
-#ifdef HAVE_MPI
-  klass->send        = send;
-  klass->receive     = receive;
-  klass->synchronize = synchronize;
-#endif /* HAVE_MPI */
-}
-
-static void gfs_boundary_mpi_init (GfsBoundaryMpi * boundary)
-{
-  boundary->process = -1; 
-  boundary->id = -1;
-#ifdef HAVE_MPI
-  boundary->nrequest = 0;
-  boundary->comm = MPI_COMM_WORLD;
-#ifdef DEBUG
-  if (mpi_debug == NULL) {
-    int rank;
-    MPI_Comm_rank (MPI_COMM_WORLD, &rank);
-    gchar * fname = g_strdup_printf ("mpi-%d", rank);
-    mpi_debug = fopen (fname, "w");
-    g_free (fname);
-  }
-#endif
-  static gboolean initialized = FALSE;
-  if (!initialized) {
-    int * tagub, flag, maxtag;
-    MPI_Attr_get (MPI_COMM_WORLD, MPI_TAG_UB, &tagub, &flag);
-    if (flag)
-      maxtag = *tagub;
-    else
-      maxtag = 32767; /* minimum value from MPI standard specification */
-    tag_shift = maxtag/FTT_NEIGHBORS;
-    initialized = TRUE;
-  }
-#endif /* HAVE_MPI */
-}
-
-GfsBoundaryClass * gfs_boundary_mpi_class (void)
-{
-  static GfsBoundaryClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_boundary_mpi_info = {
-      "GfsBoundaryMpi",
-      sizeof (GfsBoundaryMpi),
-      sizeof (GfsBoundaryClass),
-      (GtsObjectClassInitFunc) gfs_boundary_mpi_class_init,
-      (GtsObjectInitFunc) gfs_boundary_mpi_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_boundary_periodic_class ()),
-				  &gfs_boundary_mpi_info);
-  }
-
-  return klass;
-}
-
-GfsBoundaryMpi * gfs_boundary_mpi_new (GfsBoundaryClass * klass,
-				       GfsBox * box,
-				       FttDirection d,
-				       gint process,
-				       gint id)
-{
-  GfsBoundaryMpi * boundary;
-  boundary = GFS_BOUNDARY_MPI (gfs_boundary_periodic_new (klass, box, d, NULL));
-  boundary->process = process;
-#ifdef HAVE_MPI
-  int comm_size;
-  MPI_Comm_size (MPI_COMM_WORLD, &comm_size);
-  g_return_val_if_fail (process >= 0 && process < comm_size, NULL);
-
-  if (id >= tag_shift)
-    g_warning ("GfsBoundaryMpi id (%d) is larger than the maximum MPI tag value\n"
-	       "allowed on this system (%d)", id, tag_shift);
-#endif /* HAVE_MPI */
-  boundary->id = id;
-
-  return boundary;
-}
diff --git a/src/mpi_boundary.h b/src/mpi_boundary.h
deleted file mode 100644
index 837f89d..0000000
--- a/src/mpi_boundary.h
+++ /dev/null
@@ -1,68 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __MPI_BOUNDARY_H__
-#define __MPI_BOUNDARY_H__
-
-#include "boundary.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-typedef struct _GfsBoundaryMpi         GfsBoundaryMpi;
-
-#ifdef HAVE_CONFIG_H
-#  include "config.h"
-#  ifdef HAVE_MPI
-#    include <mpi.h>
-#  endif
-
-struct _GfsBoundaryMpi {
-  /*< private >*/
-  GfsBoundaryPeriodic parent;
-  gint process, id;
-
-#ifdef HAVE_MPI
-  MPI_Comm comm;
-  MPI_Request request[2];
-  guint nrequest;
-#endif /* HAVE_MPI */
-};
-
-#endif /* HAVE_CONFIG_H */
-
-#define GFS_BOUNDARY_MPI(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsBoundaryMpi,\
-					           gfs_boundary_mpi_class ())
-#define GFS_IS_BOUNDARY_MPI(obj)         (gts_object_is_from_class (obj,\
-						   gfs_boundary_mpi_class ()))
-     
-GfsBoundaryClass *    gfs_boundary_mpi_class    (void);
-GfsBoundaryMpi *      gfs_boundary_mpi_new      (GfsBoundaryClass * klass,
-						 GfsBox * box,
-						 FttDirection d,
-						 gint process,
-						 gint id);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __MPI_BOUNDARY_H__ */
diff --git a/src/myc.h b/src/myc.h
deleted file mode 100644
index ea4b317..0000000
--- a/src/myc.h
+++ /dev/null
@@ -1,149 +0,0 @@
-#define NOT_ZERO 1.e-30
-
-/*-----------------------------------------------------* 
- *MYC - Mixed Youngs and Central Scheme                *
- *-----------------------------------------------------*/
-/* 
-
-Known problems: the index [1][1][1], i.e. the central cell
-in the block, never occurs: neither in the central scheme
-nor in Youngs' method. Therefore an isolated droplet will have
-a normal with all components to zero. I took care of the
-division-by-zero issue, but not of this one.
-
-Ruben
-
-*/
-static void mycs(double c[3][3][3],double mxyz[3])
-{ 
-  double m1,m2,m[4][3],t0,t1,t2;
-  int cn;
-
-  /* write the plane as: sgn(mx) X =  my Y +  mz Z + alpha 
-                             m00 X = m01 Y + m02 Z + alpha */
-  m1 = c[0][1][0] + c[0][1][2] + c[0][0][1] + c[0][2][1] + 
-       c[0][1][1];
-  m2 = c[2][1][0] + c[2][1][2] + c[2][0][1] + c[2][2][1] + 
-       c[2][1][1];
-  m[0][0] = m1 > m2 ? 1. : -1.;
-
-  m1 = c[0][0][1]+ c[2][0][1]+ c[1][0][1];
-  m2 = c[0][2][1]+ c[2][2][1]+ c[1][2][1];
-  m[0][1] = 0.5*(m1-m2);
-
-  m1 = c[0][1][0]+ c[2][1][0]+ c[1][1][0];
-  m2 = c[0][1][2]+ c[2][1][2]+ c[1][1][2];
-  m[0][2] = 0.5*(m1-m2);
-
-  /* write the plane as: sgn(my) Y =  mx X +  mz Z + alpha 
-                             m11 Y = m10 X + m12 Z + alpha */
-  m1 = c[0][0][1] + c[0][2][1] + c[0][1][1];
-  m2 = c[2][0][1] + c[2][2][1] + c[2][1][1];
-  m[1][0] = 0.5*(m1-m2);
-
-  m1 = c[1][0][0] + c[1][0][2] + c[2][0][1] + c[0][0][1] +
-       c[1][0][1];
-  m2 = c[1][2][0] + c[1][2][2] + c[2][2][1] + c[0][2][1] +
-       c[1][2][1];
-  m[1][1] = m1 > m2 ? 1. : -1.;
-
-  m1 = c[1][0][0]+ c[1][1][0]+ c[1][2][0];
-  m2 = c[1][0][2]+ c[1][1][2]+ c[1][2][2];
-  m[1][2] = 0.5*(m1-m2);
-
-  /* write the plane as: sgn(mz) Z =  mx X +  my Y + alpha 
-                             m22 Z = m20 X + m21 Y + alpha */
-
-  m1 = c[0][1][0]+ c[0][1][2]+ c[0][1][1];
-  m2 = c[2][1][0]+ c[2][1][2]+ c[2][1][1];
-  m[2][0] = 0.5*(m1-m2);
-
-  m1 = c[1][0][0]+ c[1][0][2]+ c[1][0][1];
-  m2 = c[1][2][0]+ c[1][2][2]+ c[1][2][1];
-  m[2][1] = 0.5*(m1-m2);
-
-  m1 = c[0][1][0] + c[2][1][0] + c[1][0][0] + c[1][2][0] +
-       c[1][1][0];
-  m2 = c[0][1][2] + c[2][1][2] + c[1][0][2] + c[1][2][2] +
-       c[1][1][2];
-  m[2][2] = m1 > m2 ? 1. : -1.;
-
-  /* normalize each set (mx,my,mz): |mx|+|my|+|mz| = 1 */
-  t0 = fabs(m[0][0]) + fabs(m[0][1]) + fabs(m[0][2]);
-  m[0][0] /= t0;
-  m[0][1] /= t0;
-  m[0][2] /= t0;
-
-  t0 = fabs(m[1][0]) + fabs(m[1][1]) + fabs(m[1][2]);
-  m[1][0] /= t0;
-  m[1][1] /= t0;
-  m[1][2] /= t0;
-
-  t0 = fabs(m[2][0]) + fabs(m[2][1]) + fabs(m[2][2]);
-  m[2][0] /= t0;
-  m[2][1] /= t0;
-  m[2][2] /= t0;
-
-  /* choose among the three central scheme */ 
-  t0 = fabs(m[0][0]);
-  t1 = fabs(m[1][1]);
-  t2 = fabs(m[2][2]);
-
-  cn = 0;
-  if (t1 > t0) {
-    t0 = t1;
-    cn = 1;
-  }
-  if (t2 > t0)
-    cn = 2;
-
-  /* Youngs-CIAM scheme */  
-  m1 = c[0][0][0] + c[0][2][0] + c[0][0][2] + c[0][2][2] +
-       2.*(c[0][0][1] + c[0][2][1] + c[0][1][0] + c[0][1][2]) +
-       4.*c[0][1][1];
-  m2 = c[2][0][0] + c[2][2][0] + c[2][0][2] + c[2][2][2] +
-       2.*(c[2][0][1] + c[2][2][1] + c[2][1][0] + c[2][1][2]) +
-       4.*c[2][1][1];
-  m[3][0] = m1-m2;
-
-  m1 = c[0][0][0] + c[0][0][2] + c[2][0][0] + c[2][0][2] +
-       2.*( c[0][0][1] + c[2][0][1] + c[1][0][0] + c[1][0][2]) +
-       4.*c[1][0][1];
-  m2 = c[0][2][0] + c[0][2][2] + c[2][2][0] + c[2][2][2] +
-       2.*(c[0][2][1] + c[2][2][1] + c[1][2][0] + c[1][2][2]) +
-       4.*c[1][2][1];
-  m[3][1] = m1-m2;
-
-  m1 = c[0][0][0] + c[0][2][0] + c[2][0][0] + c[2][2][0] +
-       2.*(c[0][1][0] + c[2][1][0] + c[1][0][0] + c[1][2][0]) +
-       4.*c[1][1][0];
-  m2 = c[0][0][2] + c[0][2][2] + c[2][0][2] + c[2][2][2] +
-       2.*(c[0][1][2] + c[2][1][2] + c[1][0][2] + c[1][2][2]) +
-       4.*c[1][1][2];
-  m[3][2] = m1-m2;
-
-  /* normalize the set (mx,my,mz): |mx|+|my|+|mz| = 1 */
-  t0 = fabs(m[3][0]) + fabs(m[3][1]) + fabs(m[3][2]) + NOT_ZERO;
-  m[3][0] /= t0;
-  m[3][1] /= t0;
-  m[3][2] /= t0;
-
-  /* choose between the previous choice and Youngs-CIAM */
-  t0 = fabs (m[3][0]);
-  t1 = fabs (m[3][1]);
-  t2 = fabs (m[3][2]);
-  if (t1 > t0)
-    t0 = t1;
-  if (t2 > t0)
-    t0 = t2;
-
-  if (fabs(m[cn][cn]) > t0)
-    cn = 3;
-
-  /* components of the normal vector */
-  mxyz[0] = m[cn][0];
-  mxyz[1] = m[cn][1];
-  mxyz[2] = m[cn][2];
-
-  return; 
-}
diff --git a/src/myc2d.h b/src/myc2d.h
deleted file mode 100644
index 7caf540..0000000
--- a/src/myc2d.h
+++ /dev/null
@@ -1,66 +0,0 @@
-#define NOT_ZERO 1.e-30
-
-/*-----------------------------------------------------*
- *MYC - Mixed Youngs and Central Scheme (2D)           *
- *-----------------------------------------------------*/
-static void mycs(double c[3][3],double mxy[2])
-{
-  int ix;
-  double c_t,c_b,c_r,c_l;
-  double mx0,my0,mx1,my1,mm1,mm2;
-  
-  /* top, bottom, right and left sums of c values */
-  c_t = c[0][2] + c[1][2] + c[2][2];
-  c_b = c[0][0] + c[1][0] + c[2][0];
-  c_r = c[2][0] + c[2][1] + c[2][2];
-  c_l = c[0][0] + c[0][1] + c[0][2];
-
-  /* consider two lines: sgn(my) Y =  mx0 X + alpha,
-     and: sgn(mx) X =  my0 Y + alpha */ 
-  mx0 = 0.5*(c_l-c_r);
-  my0 = 0.5*(c_b-c_t);
-
-  /* minimum coefficient between mx0 and my0 wins */
-  if (fabs(mx0) <= fabs(my0)) {
-    my0 = my0 > 0. ? 1. : -1.;
-    ix = 1;
-  }
-  else {
-    mx0 = mx0 > 0. ? 1. : -1.;
-    ix = 0;
-  }
-
-  /* Youngs' normal to the interface */
-  mm1 = c[0][0] + 2.0*c[0][1] + c[0][2];
-  mm2 = c[2][0] + 2.0*c[2][1] + c[2][2];
-  mx1 = mm1 - mm2;
-  mm1 = c[0][0] + 2.0*c[1][0] + c[2][0];
-  mm2 = c[0][2] + 2.0*c[1][2] + c[2][2];
-  my1 = mm1 - mm2;
-
-  /* choose between the best central and Youngs' scheme */ 
-  if (ix) {
-    mm1 = fabs(my1) + NOT_ZERO; 
-    mm1 = fabs(mx1)/mm1;
-    if (mm1 > fabs(mx0)) {
-      mx0 = mx1;
-      my0 = my1;
-    }
-  }
-  else {
-    mm1 = fabs(mx1) + NOT_ZERO; 
-    mm1 = fabs(my1)/mm1;
-    if (mm1 > fabs(my0)) {
-      mx0 = mx1;
-      my0 = my1;
-    }
-  }
-	
-  /* normalize the set (mx0,my0): |mx0|+|my0|=1 and
-     write the two components of the normal vector  */
-  mm1 = fabs(mx0) + fabs(my0) + NOT_ZERO; 
-  mxy[0] = mx0/mm1;
-  mxy[1] = my0/mm1;
-  
-  return;
-}
diff --git a/src/ocean.c b/src/ocean.c
deleted file mode 100644
index 8f27014..0000000
--- a/src/ocean.c
+++ /dev/null
@@ -1,1313 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2004 Stéphane Popinet
- * National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-
-#include "ocean.h"
-#include "timestep.h"
-#include "adaptive.h"
-#include "source.h"
-#include "vof.h"
-#include "graphic.h"
-
-#include "solid.h"
-
-static void reset_gradients (FttCell * cell, gpointer * data)
-{
-  GfsVariable ** g = data[0];
-  guint * dimension = data[1];    
-  FttComponent c;
-
-  for (c = 0; c < *dimension; c++)
-    GFS_VARIABLE (cell, g[c]->i) = 0.;
-}
-
-static void correct_normal_velocity (FttCellFace * face,
-				     gpointer * data)
-{
-  GfsGradient g;
-  gdouble dp;
-  FttFaceType type;
-  GfsVariable * p = data[0];
-  GfsVariable ** gv = data[1];
-  gdouble * dt = data[2];
-  FttComponent c;
-
-  if (GFS_FACE_FRACTION_RIGHT (face) == 0.)
-    return;
-
-  type = ftt_face_type (face);
-  c = face->d/2;
-
-  gfs_face_gradient (face, &g, p->i, -1);
-  dp = (g.b - g.a*GFS_VARIABLE (face->cell, p->i))/ftt_cell_size (face->cell);
-  if (!FTT_FACE_DIRECT (face))
-    dp = - dp;
-
-  GFS_FACE_NORMAL_VELOCITY_LEFT (face) -= dp*(*dt);
-  GFS_VARIABLE (face->cell, gv[c]->i) += dp;
-
-  if (ftt_face_type (face) == FTT_FINE_COARSE)
-    dp *= GFS_FACE_FRACTION_LEFT (face)/(GFS_FACE_FRACTION_RIGHT (face)*FTT_CELLS/2);
-  GFS_FACE_NORMAL_VELOCITY_RIGHT (face) -= dp*(*dt);
-  GFS_VARIABLE (face->neighbor, gv[c]->i) += dp;
-}
-
-static void scale_gradients (FttCell * cell, gpointer * data)
-{
-  GfsVariable ** g = data[0];
-  guint * dimension = data[1];
-  FttCellNeighbors n;
-  FttComponent c;
-
-  ftt_cell_neighbors (cell, &n);
-  for (c = 0; c < *dimension; c++) {
-    FttCell * c1 = n.c[2*c], * c2 = n.c[2*c + 1];
-    
-    if (c1 && c2 && !GFS_CELL_IS_GRADIENT_BOUNDARY (c1) && !GFS_CELL_IS_GRADIENT_BOUNDARY (c2))
-      GFS_VARIABLE (cell, g[c]->i) /= 2.;
-  }
-}
-
-/**
- * gfs_correct_normal_velocities_weighted:
- * @domain: a #GfsDomain.
- * @dimension: the number of dimensions (2 or 3).
- * @p: the pressure field.
- * @g: where to store the pressure gradient.
- * @dt: the timestep.
- * @weighted: whether to use fraction-weighting or not.
- *
- * Corrects the normal velocity field of @domain using @p and and @dt.
- *
- * Also allocates the @g variables and fills them with the centered gradient of @p.
- */
-static void gfs_correct_normal_velocities_weighted (GfsDomain * domain,
-						    guint dimension,
-						    GfsVariable * p,
-						    GfsVariable ** g,
-						    gdouble dt,
-						    gboolean weighted)
-{
-  gpointer data[3];
-  FttComponent c;
-    
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (g != NULL);
-    
-  for (c = 0; c < dimension; c++)
-    g[c] = gfs_temporary_variable (domain);
-  gfs_variable_set_vector (g, dimension);
-  data[0] = g;
-  data[1] = &dimension;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) reset_gradients, data);
-  if (weighted) {
-    gfs_correct_normal_velocities (domain, dimension, p, g, dt);
-    gfs_scale_gradients (domain, dimension, g);
-  }
-  else {
-    data[0] = p;
-    data[1] = g;
-    data[2] = &dt;
-    gfs_domain_face_traverse (domain, dimension == 2 ? FTT_XY : FTT_XYZ,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttFaceTraverseFunc) correct_normal_velocity, data);
-    data[0] = g;
-    data[1] = &dimension;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) scale_gradients, data);
-    for (c = 0; c < dimension; c++)
-      gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, g[c]);
-  }
-}
-
-#define THETA 0.5
-
-typedef struct {
-  GfsVariable * pn, * div, * divn, * dia;
-  gdouble dt, G;
-} FreeSurfaceParams;
-
-static void normal_divergence (FttCell * cell, FreeSurfaceParams * p)
-{
-  GFS_VARIABLE (cell, p->div->i) += (1. - THETA)*GFS_VARIABLE (cell, p->divn->i)/THETA;
-}
-
-static void scale_divergence_helmoltz (FttCell * cell, FreeSurfaceParams * p)
-{
-  gdouble h = ftt_cell_size (cell);
-  gdouble c = 2.*h*h/(THETA*p->G*p->dt*p->dt);
-
-  if (GFS_IS_MIXED (cell))
-#if FTT_2D
-    c *= GFS_STATE (cell)->solid->a;
-#else /* 3D */
-    c *= GFS_STATE (cell)->solid->s[FTT_FRONT];
-#endif /* 3D */
-
-  GFS_VARIABLE (cell, p->dia->i) = c;
-  GFS_VARIABLE (cell, p->div->i) = 2.*GFS_VARIABLE (cell, p->div->i)/p->dt -
-    c*GFS_VARIABLE (cell, p->pn->i);
-}
-
-/**
- * gfs_free_surface_pressure:
- * @toplayer: a #GfsDomain.
- * @par: the multigrid paramaters.
- * @apar: the advection parameters.
- *
- */
-static void gfs_free_surface_pressure (GfsDomain * toplayer,
-				       GfsMultilevelParams * par,
-				       GfsAdvectionParams * apar,
-				       GfsVariable * p,
-				       GfsVariable * div,
-				       GfsVariable * divn,
-				       GfsVariable * res,
-				       gdouble G)
-{
-  FreeSurfaceParams fp;
-  GfsVariable * res1;
-
-  g_return_if_fail (toplayer != NULL);
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (apar != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (div != NULL);
-  g_return_if_fail (divn != NULL);
-  g_return_if_fail (G > 0.);
-
-  fp.pn = p;
-  fp.div = div;
-  fp.dia = gfs_temporary_variable (toplayer);
-  res1 = res ? res : gfs_temporary_variable (toplayer);
-  fp.divn = divn;
-  fp.dt = apar->dt;
-  fp.G = G;
-
-  /* compute MAC divergence */
-  gfs_domain_cell_traverse (toplayer, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) normal_divergence, &fp);
-  gfs_domain_cell_traverse (toplayer, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-  			    (FttCellTraverseFunc) scale_divergence_helmoltz, &fp);
-  
-  /* solve for pressure */
-  par->depth = gfs_domain_depth (toplayer);
-  gfs_residual (toplayer, 2, FTT_TRAVERSE_LEAFS, -1, p, fp.div, fp.dia, res1);
-  par->residual_before = par->residual = 
-    gfs_domain_norm_residual (toplayer, FTT_TRAVERSE_LEAFS, -1, apar->dt, res1);
-  par->niter = 0;
-  par->dimension = 2;
-  while (par->niter < par->nitermin ||
-	 (par->residual.infty > par->tolerance && par->niter < par->nitermax)) {
-#if 0
-    fprintf (stderr, "%d bias: %g first: %g second: %g infty: %g\n",
-	     par->niter, 
-	     par->residual.bias, 
-	     par->residual.first, 
-	     par->residual.second, 
-	     par->residual.infty);
-#endif
-    gfs_poisson_cycle (toplayer, par, p, fp.div, fp.dia, res1);
-    par->residual = gfs_domain_norm_residual (toplayer, FTT_TRAVERSE_LEAFS, -1, apar->dt, res1);
-    par->niter++;
-  }
-
-  if (!res)
-    gts_object_destroy (GTS_OBJECT (res1));
-  gts_object_destroy (GTS_OBJECT (fp.dia));
-}
-
-#if FTT_2D
-
-/* GfsOcean: Object */
-
-static void normal_velocities (GfsDomain * domain, GfsVariable ** u)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (div != NULL);
-
-  gfs_domain_face_traverse (domain, FTT_XY,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) gfs_face_reset_normal_velocity, NULL);
-  gfs_domain_face_traverse (domain, FTT_XY,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) gfs_face_interpolated_normal_velocity, u);
-}
-
-static void ocean_run (GfsSimulation * sim)
-{
-  GfsVariable * p, * div, * H, * res = NULL;
-  GfsFunction * fH;
-  GfsDomain * domain;
-  GSList * i;
-
-  domain = GFS_DOMAIN (sim);
-
-  gfs_simulation_refine (sim);
-  gfs_simulation_init (sim);
-
-  i = domain->variables;
-  while (i) {
-    if (GFS_IS_VARIABLE_RESIDUAL (i->data))
-      res = i->data;
-    i = i->next;
-  }
-
-  p = gfs_variable_from_name (domain->variables, "P");
-  g_assert (p);
-  H = gfs_variable_from_name (domain->variables, "H");
-  g_assert (H);
-  fH = gfs_function_new_from_variable (gfs_function_class (), H);
-
-  div = gfs_temporary_variable (domain);
-
-  while (sim->time.t < sim->time.end &&
-	 sim->time.i < sim->time.iend) {
-    GfsVariable * g[2];
-    gdouble tstart = gfs_clock_elapsed (domain->timer);
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);
-
-    gfs_simulation_set_timestep (sim);
-
-    normal_velocities (domain, gfs_domain_velocity (domain));
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_normal_divergence_2D, div);
-
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, p);
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_half_do, sim);
-
-    gfs_poisson_coefficients (domain, fH);
-    gfs_correct_normal_velocities_weighted (domain, 2, p, g, 0., 
-					    sim->approx_projection_params.weighted);
-    gfs_centered_velocity_advection_diffusion (domain, 2,
-					       &sim->advection_params,
-					       g, g,
-					       sim->physical_params.alpha);
-    gfs_source_coriolis_implicit (domain, sim->advection_params.dt);
-    gfs_correct_centered_velocities (domain, 2, g, -sim->advection_params.dt/2.);
-    gts_object_destroy (GTS_OBJECT (g[0]));
-    gts_object_destroy (GTS_OBJECT (g[1]));
-
-    sim->time.t = sim->tnext;
-    sim->time.i++;
-
-    gfs_domain_timer_start (domain, "free_surface_pressure");
-    GfsVariable * divn = gfs_temporary_variable (domain);
-    normal_velocities (domain, gfs_domain_velocity (domain));
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_normal_divergence_2D, divn);
-    gfs_free_surface_pressure (domain, &sim->approx_projection_params, &sim->advection_params,
-			       p, divn, div, res, sim->physical_params.g);
-    gts_object_destroy (GTS_OBJECT (divn));
-    gfs_correct_normal_velocities_weighted (domain, 2, p, g, sim->advection_params.dt/2., 
-					    sim->approx_projection_params.weighted);
-    gfs_correct_centered_velocities (domain, 2, g, sim->advection_params.dt/2.);
-    gts_object_destroy (GTS_OBJECT (g[0]));
-    gts_object_destroy (GTS_OBJECT (g[1]));
-    gfs_domain_timer_stop (domain, "free_surface_pressure");
-
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-    gfs_simulation_adapt (sim);
-
-    gts_range_add_value (&domain->timestep, gfs_clock_elapsed (domain->timer) - tstart);
-    gts_range_update (&domain->timestep);
-    gts_range_add_value (&domain->size, gfs_domain_size (domain, FTT_TRAVERSE_LEAFS, -1));
-    gts_range_update (&domain->size);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);  
-  gts_container_foreach (GTS_CONTAINER (sim->events),
-			 (GtsFunc) gts_object_destroy, NULL);
-
-  gts_object_destroy (GTS_OBJECT (div));
-  gts_object_destroy (GTS_OBJECT (fH));
-}
-
-static void gfs_ocean_class_init (GfsSimulationClass * klass)
-{
-  klass->run = ocean_run;
-}
-
-static void gfs_ocean_init (GfsOcean * object)
-{
-  GFS_SIMULATION (object)->approx_projection_params.weighted = 1;
-}
-
-GfsSimulationClass * gfs_ocean_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_ocean_info = {
-      "GfsOcean",
-      sizeof (GfsSimulation),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) gfs_ocean_class_init,
-      (GtsObjectInitFunc) gfs_ocean_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_simulation_class ()), &gfs_ocean_info);
-  }
-
-  return klass;
-}
-
-#else /* 2D3 or 3D */
-
-/* GfsOcean: Object */
-
-#define MAC 0
-
-static void ocean_destroy (GtsObject * object)
-{
-  guint i;
-  GPtrArray * layer = GFS_OCEAN (object)->layer;
-
-  for (i = 0; i < layer->len; i++) {
-    GfsDomain * d = g_ptr_array_index (layer, i);
-    d->allocated = g_array_new (FALSE, TRUE, sizeof (gboolean));
-    gts_object_destroy (GTS_OBJECT (d));
-  }
-  g_ptr_array_free (layer, TRUE);
-
-  (* GTS_OBJECT_CLASS (gfs_ocean_class ())->parent_class->destroy) (object);  
-}
-
-#define MAXLEVEL 16
-
-static void ocean_read (GtsObject ** object, GtsFile * fp)
-{
-#if !FTT_2D3
-  /* fixme: lambda.z cannot be changed */
-  GfsSimulation * sim = GFS_SIMULATION (*object);
-  GFS_DOMAIN (sim)->lambda.z = 1./(1 << MAXLEVEL);
-#endif
-
-  (* GTS_OBJECT_CLASS (gfs_ocean_class ())->parent_class->read) (object, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GFS_DOMAIN (*object)->refpos.z = -0.5;
-#if !FTT_2D3
-  g_assert (GFS_DOMAIN (sim)->lambda.z == 1./(1 << MAXLEVEL));
-  sim->physical_params.g /= sim->physical_params.L/* *GFS_DOMAIN (sim)->lambda.z*/;
-  GfsVariable * H = gfs_variable_from_name (GFS_DOMAIN (sim)->variables, "H");
-  g_assert (H);
-  H->units = 1. - log(/*GFS_DOMAIN (sim)->lambda.z*/1.)/log(sim->physical_params.L);
-  GFS_DOMAIN (sim)->lambda.z = 1./(1 << MAXLEVEL);
-#endif
-}
-
-#if !FTT_2D3
-static void ocean_write (GtsObject * object, FILE * fp)
-{
-  FttVector * lambda = &GFS_DOMAIN (object)->lambda;
-  GfsPhysicalParams * p = &GFS_SIMULATION (object)->physical_params;
-  gdouble g = p->g;
-
-  lambda->z *= 1 << MAXLEVEL;
-  p->g *= p->L*lambda->z;
-  (* GTS_OBJECT_CLASS (gfs_ocean_class ())->parent_class->write) (object, fp);
-  lambda->z /= 1 << MAXLEVEL;
-  p->g = g;
-}
-#endif /* 3D */
-
-static void new_layer (GfsOcean * ocean)
-{
-  GfsDomain * domain = GFS_DOMAIN (ocean);
-  GfsDomain * d = GFS_DOMAIN (gts_object_new (GTS_OBJECT_CLASS (gfs_domain_class ())));
-  
-  d->rootlevel = domain->rootlevel;
-  d->refpos = domain->refpos;
-  d->lambda = domain->lambda;
-  g_array_free (d->allocated, TRUE);
-  d->allocated = domain->allocated;
-  g_ptr_array_add (ocean->layer, d);
-}
-
-static void add_layer (GfsBox * box, GfsDomain * domain)
-{
-  if (box->neighbor[FTT_FRONT] == NULL || GFS_IS_BOUNDARY (box->neighbor[FTT_FRONT])) {
-    GPtrArray * layer = GFS_OCEAN (domain)->layer;
-    GtsObject * n;
-    guint l = 0;
-
-    gts_container_add (GTS_CONTAINER (g_ptr_array_index (layer, l++)), GTS_CONTAINEE (box));
-    n = box->neighbor[FTT_BACK];
-    while (GFS_IS_BOX (n)) {
-      if (l == layer->len)
-	new_layer (GFS_OCEAN (domain));
-      gts_container_add (GTS_CONTAINER (g_ptr_array_index (layer, l++)), GTS_CONTAINEE (n));
-      n = GFS_BOX (n)->neighbor[FTT_BACK];
-    }
-  }
-}
-
-static void ocean_post_read (GfsDomain * domain, GtsFile * fp)
-{
-  (* GFS_DOMAIN_CLASS (GTS_OBJECT_CLASS (gfs_ocean_class ())->parent_class)->post_read) 
-    (domain, fp);
-
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) add_layer, domain);
-  g_assert (GFS_OCEAN (domain)->layer->len > 0);
-  GFS_OCEAN (domain)->toplayer = g_ptr_array_index (GFS_OCEAN (domain)->layer, 0);
-}
-
-static void compute_w (FttCell * c, GfsVariable * W)
-{
-  FttCell * n;
-  guint level = ftt_cell_level (c);
-  gdouble wf = 0., w = 0.;
-
-  while ((n = ftt_cell_neighbor (c, FTT_BACK)))
-    c = n;
-  while (c) {
-    GfsStateVector * s = GFS_STATE (c);
-
-    g_assert (FTT_CELL_IS_LEAF (c) && ftt_cell_level (c) == level);
-    s->f[FTT_BACK].un = w;
-    wf += (s->f[FTT_LEFT].v*s->f[FTT_LEFT].un - s->f[FTT_RIGHT].v*s->f[FTT_RIGHT].un +
-    	   s->f[FTT_BOTTOM].v*s->f[FTT_BOTTOM].un - s->f[FTT_TOP].v*s->f[FTT_TOP].un);
-    if (GFS_IS_MIXED (c))
-      s->f[FTT_FRONT].un = w = GFS_STATE (c)->solid->s[FTT_FRONT] > 0. ? 
-	wf/GFS_STATE (c)->solid->s[FTT_FRONT] : 0.;
-    else
-      s->f[FTT_FRONT].un = w = wf;
-    GFS_VARIABLE (c, W->i) = (s->f[FTT_BACK].un + s->f[FTT_FRONT].un)/2.;
-    c = ftt_cell_neighbor (c, FTT_FRONT);
-  }
-}
-
-static void compute_div (FttCell * c, GfsVariable * W)
-{
-  guint level = ftt_cell_level (c);
-  gdouble wf = 0., size = ftt_cell_size (c);
-#if !FTT_2D3
-  g_assert (level <= MAXLEVEL);
-  size *= 1 << (MAXLEVEL - level);
-#endif
-
-  while (c) {
-    GfsStateVector * s = GFS_STATE (c);
-    GfsSolidVector * solid = s->solid;
-
-    g_assert (FTT_CELL_IS_LEAF (c) && ftt_cell_level (c) == level);
-    if (solid)
-      wf += (solid->s[FTT_RIGHT]*s->f[FTT_RIGHT].un - solid->s[FTT_LEFT]*s->f[FTT_LEFT].un +
-	     solid->s[FTT_TOP]*s->f[FTT_TOP].un - solid->s[FTT_BOTTOM]*s->f[FTT_BOTTOM].un);
-    else
-      wf += (s->f[FTT_RIGHT].un - s->f[FTT_LEFT].un +
-	     s->f[FTT_TOP].un - s->f[FTT_BOTTOM].un);
-    GFS_VARIABLE (c, W->i) = wf*size;
-    c = ftt_cell_neighbor (c, FTT_BACK);
-  }
-}
-
-/* fixme: this is ok for one layer but what about several? */
-static gdouble height (FttCell * cell)
-{
-  if (!GFS_IS_MIXED (cell))
-    return 1.;
-  gdouble f = GFS_STATE (cell)->solid->s[FTT_FRONT];
-  g_assert (f);
-#if FTT_2D3
-  return GFS_STATE (cell)->solid->a/f;
-#else /* 3D */
-  guint level = ftt_cell_level (cell);
-  g_assert (level <= MAXLEVEL);
-  return GFS_STATE (cell)->solid->a/f*(1 << (MAXLEVEL - level));
-#endif /* 3D */
-}
-
-static void compute_H (FttCell * cell, GfsVariable * H)
-{
-  GFS_VARIABLE (cell, H->i) = height (cell);
-}
-
-static void face_interpolated_normal_velocity (const FttCellFace * face, GfsVariable ** v)
-{
-  gdouble u;
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (v != NULL);
-
-  if (GFS_FACE_FRACTION_RIGHT (face) == 0.)
-    return;
-
-  guint i = v[face->d/2]->i;
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    u = (GFS_VARIABLE (face->cell, i) + GFS_VARIABLE (face->neighbor, i))/2.; 
-    break;
-  case FTT_FINE_COARSE: {
-    gdouble w1 = height (face->cell), w2 = height (face->neighbor);
-    w1 = 2.*w1/(w1 + w2);
-    u = w1*gfs_face_interpolated_value (face, i) + (1. - w1)*GFS_VARIABLE (face->neighbor, i);
-    break;
-  }
-  default:
-     g_assert_not_reached ();
-  }
-
-  GFS_FACE_NORMAL_VELOCITY_LEFT (face) = u;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_FACE_NORMAL_VELOCITY_RIGHT (face) = u;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_FACE_NORMAL_VELOCITY_RIGHT (face) += 
-      u*GFS_FACE_FRACTION_LEFT (face)/(GFS_FACE_FRACTION_RIGHT (face)*
-				       FTT_CELLS_DIRECTION (face->d));
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-static void depth_integrated_divergence (GfsDomain * domain, GfsVariable * div)
-{
-  /* compute MAC velocities from centered velocities */
-#if !MAC
-  gfs_domain_face_traverse (domain, FTT_XY,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) gfs_face_reset_normal_velocity, NULL);
-  gfs_domain_face_traverse (domain, FTT_XY,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) face_interpolated_normal_velocity,
-			    gfs_domain_velocity (domain));
-#endif
-  /* barotropic divergence */
-  gfs_domain_cell_traverse_boundary (domain, FTT_FRONT,
-				     FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				     (FttCellTraverseFunc) compute_div, div);
-}
-
-static void compute_coeff (FttCell * c)
-{
-  guint level = ftt_cell_level (c);
-  gdouble wf[FTT_NEIGHBORS_2D] = {0.,0.,0.,0.}, size = 1.;
-#if !FTT_2D3
-  g_assert (level <= MAXLEVEL);
-  size = 1 << (MAXLEVEL - level);
-#endif
-
-  while (c) {
-    GfsStateVector * s = GFS_STATE (c);
-    FttDirection d;
-
-    g_assert (FTT_CELL_IS_LEAF (c) && ftt_cell_level (c) == level);
-    for (d = 0; d < FTT_NEIGHBORS_2D; d++) {
-      wf[d] += s->f[d].v*size;
-      s->f[d].v = wf[d];
-    }
-    c = ftt_cell_neighbor (c, FTT_BACK);
-  }
-}
-
-static void face_coeff_from_below (FttCell * cell)
-{
-  FttDirection d;
-  GfsFaceStateVector * f = GFS_STATE (cell)->f;
-  guint neighbors = 0;
-
-  for (d = 0; d < FTT_NEIGHBORS_2D; d++) {
-    FttCellChildren child;
-    guint i, n;
-
-    f[d].v = 0.;
-    n = ftt_cell_children_direction (cell, d, &child);
-    for (i = 0; i < n; i++)
-      if (child.c[i])
-	f[d].v += GFS_STATE (child.c[i])->f[d].v;
-    f[d].v /= 2;
-
-    FttCell * neighbor;
-    if (f[d].v > 0. && (neighbor = ftt_cell_neighbor (cell, d)) && !GFS_CELL_IS_BOUNDARY (neighbor))
-      neighbors++;
-  }
-
-  if (neighbors == 1)
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      f[d].v = 0.;
-}
-
-static void depth_integrated_coefficients (GfsDomain * domain)
-{
-  gfs_poisson_coefficients (domain, NULL);
-  gfs_domain_cell_traverse_boundary (domain, FTT_FRONT,
-				     FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				     (FttCellTraverseFunc) compute_coeff, NULL);
-  gfs_domain_cell_traverse_boundary (domain, FTT_FRONT,
-				     FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-				     (FttCellTraverseFunc) face_coeff_from_below, NULL);
-}
-
-static void ocean_run (GfsSimulation * sim)
-{
-  GfsVariable * p, * div, * H, * res = NULL;
-  GfsDomain * domain, * toplayer;
-  GSList * i;
-
-  domain = GFS_DOMAIN (sim);
-  toplayer = GFS_OCEAN (sim)->toplayer;
-
-  gfs_simulation_refine (sim);
-
-  H = gfs_variable_from_name (domain->variables, "H");
-  g_assert (H);
-
-  gfs_domain_cell_traverse (toplayer, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) compute_H, H);
-
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_init, sim);
-
-  gfs_set_merged (domain);
-  i = domain->variables;
-  while (i) {
-    gfs_event_init (i->data, sim);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, i->data);
-    if (GFS_IS_VARIABLE_RESIDUAL (i->data))
-      res = i->data;
-    i = i->next;
-  }
-
-  p = gfs_variable_from_name (domain->variables, "P");
-  g_assert (p);
-
-  div = gfs_temporary_variable (domain);
-
-  while (sim->time.t < sim->time.end &&
-	 sim->time.i < sim->time.iend) {
-    GfsVariable * g[2];
-    gdouble tstart = gfs_clock_elapsed (domain->timer);
-
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);
-
-    gfs_simulation_set_timestep (sim);
-
-    depth_integrated_divergence (domain, div);
-
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, p);
-
-    /* baroclinic terms */
-#if !MAC
-    gfs_predicted_face_velocities (domain, 2, &sim->advection_params);
-
-    gfs_domain_timer_start (domain, "correct_normal_velocities");
-    gfs_poisson_coefficients (domain, NULL);
-    gfs_correct_normal_velocities_weighted (domain, 2, p, g, sim->advection_params.dt/2.,
-					    sim->approx_projection_params.weighted);
-    gfs_domain_cell_traverse_boundary (domain, FTT_FRONT,
-				       FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				       (FttCellTraverseFunc) compute_w, 
-				       gfs_variable_from_name (domain->variables, "W"));
-    gfs_domain_timer_stop (domain, "correct_normal_velocities");
-
-    i = domain->variables;
-    while (i) {
-      if (GFS_IS_VARIABLE_TRACER_VOF (i->data)) {
-	GfsVariableTracer * t = i->data;
-
-	t->advection.dt = sim->advection_params.dt;
-	gfs_tracer_vof_advection (domain, &t->advection);
-	gfs_domain_variable_centered_sources (domain, i->data, i->data, t->advection.dt);
-      }
-      else if (GFS_IS_VARIABLE_TRACER (i->data)) {
-	GfsVariableTracer * t = i->data;
-	
-	t->advection.dt = sim->advection_params.dt;
-	gfs_tracer_advection_diffusion (domain, &t->advection);
-      }
-      i = i->next;
-    }
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_half_do, sim);
-
-    gfs_centered_velocity_advection_diffusion (domain, 2,
-					       &sim->advection_params,
-					       g, g,
-					       sim->physical_params.alpha);
-    gfs_source_coriolis_implicit (domain, sim->advection_params.dt);
-    gfs_correct_centered_velocities (domain, 2, g, -sim->advection_params.dt/2.);
-#else
-    gfs_poisson_coefficients (domain, NULL);
-    gfs_correct_normal_velocities_weighted (domain, 2, p, g, sim->advection_params.dt/2.,
-					    sim->approx_projection_params.weighted);
-    gfs_correct_centered_velocities (domain, 2, g, sim->advection_params.dt/2.);
-#endif
-    gts_object_destroy (GTS_OBJECT (g[0]));
-    gts_object_destroy (GTS_OBJECT (g[1]));
-
-    sim->time.t = sim->tnext;
-    sim->time.i++;
-
-    gfs_domain_timer_start (domain, "free_surface_pressure");
-    GfsVariable * divn = gfs_temporary_variable (domain);
-    depth_integrated_divergence (domain, divn);
-    depth_integrated_coefficients (domain);
-    gfs_free_surface_pressure (toplayer, &sim->approx_projection_params, &sim->advection_params,
-			       p, divn, div, res, 
-			       sim->physical_params.g/GFS_OCEAN (domain)->layer->len);
-    gts_object_destroy (GTS_OBJECT (divn));
-
-    gfs_poisson_coefficients (domain, NULL);
-    gfs_correct_normal_velocities_weighted (domain, 2, p, g, sim->advection_params.dt/2.,
-					    sim->approx_projection_params.weighted);
-    gfs_correct_centered_velocities (domain, 2, g, sim->advection_params.dt/2.);
-    gts_object_destroy (GTS_OBJECT (g[0]));
-    gts_object_destroy (GTS_OBJECT (g[1]));
-    
-    gfs_domain_timer_stop (domain, "free_surface_pressure");
-
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-    gfs_simulation_adapt (sim);
-
-    gts_range_add_value (&domain->timestep, gfs_clock_elapsed (domain->timer) - tstart);
-    gts_range_update (&domain->timestep);
-    gts_range_add_value (&domain->size, gfs_domain_size (domain, FTT_TRAVERSE_LEAFS, -1));
-    gts_range_update (&domain->size);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);  
-  gts_container_foreach (GTS_CONTAINER (sim->events),
-			 (GtsFunc) gts_object_destroy, NULL);
-
-  gts_object_destroy (GTS_OBJECT (div));
-}
-
-static void gfs_ocean_class_init (GfsSimulationClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = ocean_destroy;
-  GTS_OBJECT_CLASS (klass)->read = ocean_read;
-#if !FTT_2D3
-  GTS_OBJECT_CLASS (klass)->write = ocean_write;
-#endif
-  GFS_DOMAIN_CLASS (klass)->post_read = ocean_post_read;
-  klass->run = ocean_run;
-}
-
-static void gfs_ocean_init (GfsOcean * object)
-{
-  gfs_domain_add_variable (GFS_DOMAIN (object), "H", "Depth");
-  GFS_SIMULATION (object)->approx_projection_params.weighted = 1;
-  object->layer = g_ptr_array_new ();
-  new_layer (object);
-}
-
-GfsSimulationClass * gfs_ocean_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_ocean_info = {
-      "GfsOcean",
-      sizeof (GfsOcean),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) gfs_ocean_class_init,
-      (GtsObjectInitFunc) gfs_ocean_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_simulation_class ()), &gfs_ocean_info);
-  }
-
-  return klass;
-}
-
-static void hydrostatic_pressure (FttCell * cell, gpointer * data)
-{
-  GfsVariable * vp = data[0];
-  GfsVariable * rho = data[1];
-  gdouble * g = data[2];
-  gdouble r = GFS_VARIABLE (cell, rho->i), p = (*g)*r/2., r1;
-  FttCellFace f;
-  
-  GFS_VARIABLE (cell, vp->i) = p;
-  f.cell = cell;
-  f.d = FTT_BACK;
-  f.neighbor = ftt_cell_neighbor (f.cell, f.d);
-  while (f.neighbor) {
-    g_assert (ftt_face_type (&f) == FTT_FINE_FINE);
-    r1 = gfs_face_interpolated_value (&f, rho->i);
-    /* g_assert (r1 >= r); */
-    r = r1;
-    GFS_VARIABLE (f.neighbor, vp->i) = p = p + (*g)*r;
-    f.cell = f.neighbor;
-    f.neighbor = ftt_cell_neighbor (f.cell, f.d);
-  }
-}
-
-/**
- * gfs_hydrostatic_pressure:
- * @domain: a #GfsDomain.
- * @p: the hydrostatic pressure.
- * @rho: the density.
- * @g: the acceleration.
- *
- * Computes the hydrostatic pressure @p in @domain using the density
- * @rho.
- */
-void gfs_hydrostatic_pressure (GfsDomain * domain,
-			       GfsVariable * p,
-			       GfsVariable * rho,
-			       gdouble g)
-{
-  gpointer data[3];
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (rho != NULL);
-  g_return_if_fail (g >= 0.);
-
-  g /= GFS_OCEAN (domain)->layer->len;
-  data[0] = p;
-  data[1] = rho;
-  data[2] = &g;
-  gfs_domain_cell_traverse_boundary (domain, FTT_FRONT,
-				     FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				     (FttCellTraverseFunc) hydrostatic_pressure, data);
-}
-
-/* GfsSourceHydrostatic: Object */
-
-static void gfs_source_hydrostatic_destroy (GtsObject * o)
-{
-  if (GFS_SOURCE_HYDROSTATIC (o)->ph1)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE_HYDROSTATIC (o)->ph1));
-
-  (* GTS_OBJECT_CLASS (gfs_source_hydrostatic_class ())->parent_class->destroy) (o);
-}
-
-
-static void gfs_source_hydrostatic_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  GfsSourceHydrostatic * sh;
-
-  if (GTS_OBJECT_CLASS (gfs_source_hydrostatic_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_source_hydrostatic_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  sh = GFS_SOURCE_HYDROSTATIC (*o);
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (rho)");
-    return;
-  }
-  sh->rho = gfs_variable_from_name (domain->variables, fp->token->str);
-  if (sh->rho == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (ph)");
-    return;
-  }
-  if (!(sh->ph = gfs_domain_get_or_add_variable (domain, fp->token->str, "Hydrostatic pressure"))) {
-    gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  sh->ph1 = gfs_temporary_variable (domain);
-}
-
-static void gfs_source_hydrostatic_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_hydrostatic_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %s %s",
-	   GFS_SOURCE_HYDROSTATIC (o)->rho->name, 
-	   GFS_SOURCE_HYDROSTATIC (o)->ph->name);
-}
-
-static gdouble gfs_source_hydrostatic_mac_value (GfsSourceGeneric * s,
-						 FttCell * cell,
-						 GfsVariable * v)
-{
-  return - gfs_center_gradient (cell, v->component,
-				GFS_SOURCE_HYDROSTATIC (s)->ph1->i)/ftt_cell_size (cell);
-}
-
-static gdouble gfs_source_hydrostatic_centered_value (GfsSourceGeneric * s,
-						      FttCell * cell,
-						      GfsVariable * v)
-{
-  GfsSourceHydrostatic * b = GFS_SOURCE_HYDROSTATIC (s);
-
-  return - (gfs_center_gradient (cell, v->component, b->ph->i) + 
-	    gfs_center_gradient (cell, v->component, b->ph1->i))/(2.*ftt_cell_size (cell));
-}
-
-static void copy_ph (FttCell * cell, GfsSourceHydrostatic * s)
-{
-  GFS_VARIABLE (cell, s->ph1->i) = GFS_VARIABLE (cell, s->ph->i);
-}
-
-static gboolean gfs_source_hydrostatic_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_sum_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsSourceHydrostatic * s = GFS_SOURCE_HYDROSTATIC (event);
-
-    if (s->not_first) {
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) copy_ph, s);
-      gfs_domain_bc (GFS_DOMAIN (sim), FTT_TRAVERSE_LEAFS, -1, s->ph1);
-    }
-    else {
-      gfs_hydrostatic_pressure (GFS_DOMAIN (sim), s->ph1, s->rho, sim->physical_params.g);
-      gfs_domain_bc (GFS_DOMAIN (sim), FTT_TRAVERSE_LEAFS, -1, s->ph1);
-      s->not_first = TRUE;
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_source_hydrostatic_event_half (GfsEvent * event, GfsSimulation * sim)
-{
-  GfsSourceHydrostatic * s = GFS_SOURCE_HYDROSTATIC (event);
-
-  gfs_hydrostatic_pressure (GFS_DOMAIN (sim), s->ph, s->rho, sim->physical_params.g);
-  gfs_domain_bc (GFS_DOMAIN (sim), FTT_TRAVERSE_LEAFS, -1, s->ph);
-}
-
-static void gfs_source_hydrostatic_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_source_hydrostatic_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_source_hydrostatic_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_source_hydrostatic_write;
-
-  GFS_EVENT_CLASS (klass)->event = gfs_source_hydrostatic_event;
-  GFS_EVENT_CLASS (klass)->event_half = gfs_source_hydrostatic_event_half;
-}
-
-static void gfs_source_hydrostatic_init (GfsSourceGeneric * s)
-{
-  s->mac_value = gfs_source_hydrostatic_mac_value;
-  s->centered_value = gfs_source_hydrostatic_centered_value;
-}
-
-GfsSourceGenericClass * gfs_source_hydrostatic_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_hydrostatic_info = {
-      "GfsSourceHydrostatic",
-      sizeof (GfsSourceHydrostatic),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) gfs_source_hydrostatic_class_init,
-      (GtsObjectInitFunc) gfs_source_hydrostatic_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_velocity_class ()),
-				  &gfs_source_hydrostatic_info);
-  }
-
-  return klass;
-}
-
-#endif /* 2D3 or 3D */
-
-/* GfsSourceFriction: Object */
-
-static void gfs_source_friction_destroy (GtsObject * o)
-{
-  FttComponent c;
-
-  for (c = 0; c <  FTT_DIMENSION; c++)
-    if (GFS_SOURCE_FRICTION (o)->u[c])
-      gts_object_destroy (GTS_OBJECT (GFS_SOURCE_FRICTION (o)->u[c]));
-
-  (* GTS_OBJECT_CLASS (gfs_source_friction_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_source_friction_read (GtsObject ** o, GtsFile * fp)
-{
-  FttComponent c;
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-
-  (* GTS_OBJECT_CLASS (gfs_source_friction_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (GfsVariable h)");
-    return;
-  }
-  GFS_SOURCE_FRICTION (*o)->h = gfs_variable_from_name (domain->variables, fp->token->str);
-  if (GFS_SOURCE_FRICTION (*o)->h == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  /* fixme: units? */
-  GFS_SOURCE_FRICTION (*o)->f = gfs_read_constant (fp, domain);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  for (c = 0; c <  FTT_DIMENSION; c++)
-    GFS_SOURCE_FRICTION (*o)->u[c] = gfs_temporary_variable (domain);
-}
-
-static void gfs_source_friction_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_friction_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %s %g", GFS_SOURCE_FRICTION (o)->h->name, GFS_SOURCE_FRICTION (o)->f);
-}
-
-static gdouble gfs_source_friction_saved_value (GfsSourceGeneric * s, 
-						FttCell * cell, 
-						GfsVariable * v)
-{
-  gdouble H = GFS_VARIABLE (cell, GFS_SOURCE_FRICTION (s)->h->i);
-
-  g_assert (H > 0.);
-  return - GFS_SOURCE_FRICTION (s)->f*
-    GFS_VARIABLE (cell, GFS_SOURCE_FRICTION (s)->u[v->component]->i)/H;
-}
-
-static void save_velocity (FttCell * cell, GfsSourceFriction * s)
-{
-  FttComponent c;
-
-  for (c = 0; c < FTT_DIMENSION; c++)
-    GFS_VARIABLE (cell, s->u[c]->i) = GFS_VARIABLE (cell, GFS_SOURCE_VELOCITY (s)->v[c]->i);
-}
-
-static gboolean gfs_source_friction_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_sum_class ())->parent_class)->event)
-      (event, sim)) {
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) save_velocity, event);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_source_friction_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_source_friction_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_source_friction_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_source_friction_write;
-  GFS_EVENT_CLASS (klass)->event = gfs_source_friction_event;
-}
-
-static void gfs_source_friction_init (GfsSourceGeneric * s)
-{
-  s->mac_value = s->centered_value = gfs_source_friction_saved_value;
-}
-
-GfsSourceGenericClass * gfs_source_friction_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_friction_info = {
-      "GfsSourceFriction",
-      sizeof (GfsSourceFriction),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) gfs_source_friction_class_init,
-      (GtsObjectInitFunc) gfs_source_friction_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_velocity_class ()),
-				  &gfs_source_friction_info);
-  }
-
-  return klass;
-}
-
-/* GfsBcFlather: Object */
-
-/* Also check whether modules/tide.mod needs upgrading when modyifing this class */
-
-static void bc_flather_write (GtsObject * o, FILE * fp)
-{
-  GfsBcFlather * bc = GFS_BC_FLATHER (o);
-
-  (* GTS_OBJECT_CLASS (gfs_bc_flather_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " %s %s", bc->h->name, bc->p->name);
-  if (bc->val)
-    gfs_function_write (bc->val, fp);
-}
-
-static void set_gradient_boundary (FttCell * cell)
-{
-  cell->flags |= GFS_FLAG_GRADIENT_BOUNDARY;
-}
-
-static void bc_flather_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBcFlather * bc = GFS_BC_FLATHER (*o);
-  GfsDomain * domain = gfs_box_domain (GFS_BC (bc)->b->box);
-
-  (* GTS_OBJECT_CLASS (gfs_bc_flather_class ())->parent_class->read) (o, fp);
-
-  gfs_function_set_units (GFS_BC_VALUE (bc)->val, 1.);
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (h)");
-    return;
-  }
-  bc->h = gfs_variable_from_name (domain->variables, fp->token->str);
-  if (bc->h == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (p)");
-    return;
-  }
-  bc->p = gfs_variable_from_name (domain->variables, fp->token->str);
-  if (bc->p == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-  if (bc->val == NULL)
-    bc->val = gfs_function_new (gfs_function_class (), 0.);
-  gfs_function_read (bc->val, gfs_box_domain (GFS_BC (bc)->b->box), fp);
-  gfs_function_set_units (bc->val, 1.);
-
-  ftt_cell_traverse (GFS_BC (bc)->b->root, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-		     (FttCellTraverseFunc) set_gradient_boundary, NULL);
-}
-
-static void bc_flather_destroy (GtsObject * o)
-{
-  if (GFS_BC_FLATHER (o)->val)
-    gts_object_destroy (GTS_OBJECT (GFS_BC_FLATHER (o)->val));
-
-  (* GTS_OBJECT_CLASS (gfs_bc_flather_class ())->parent_class->destroy) (o);
-}
-
-static gdouble flather_value (FttCellFace * f, GfsBc * b)
-{
-  /* fixme: this will not work for multilayer domains */
-  guint d, nb = 0;
-  FttCellNeighbors n;
-  gdouble H;
-
-  ftt_cell_neighbors (f->neighbor, &n);
-  for (d = 0; d < FTT_NEIGHBORS_2D; d++)
-    if (n.c[d] != NULL && GFS_CELL_IS_BOUNDARY(n.c[d]) && nb++ > 0)
-      /* if the boundary cell is bounded by more than one boundary -> no flux */
-      return 0.;
-
-  GfsSimulation * sim = GFS_SIMULATION (gfs_box_domain (b->b->box));
-  H = gfs_face_interpolated_value (f, GFS_BC_FLATHER (b)->h->i);
-  if (H > 10./sim->physical_params.L) { /* fixme: this a bit crappy */
-    gdouble cg = sqrt (sim->physical_params.g*H);
-    /* non-dimensional pressure at the boundary */
-    gdouble lz = GFS_DOMAIN (sim)->lambda.z;
-#if !FTT_2D && !FTT_2D3
-    lz *= 1 << MAXLEVEL;
-#endif
-    gdouble pb = gfs_function_face_value (GFS_BC_FLATHER (b)->val, f)*sim->physical_params.g*lz;
-    
-    return gfs_function_face_value (GFS_BC_VALUE (b)->val, f) +
-      (FTT_FACE_DIRECT (f) ? -1. : 1.)*
-      (GFS_VALUE (f->neighbor, GFS_BC_FLATHER (b)->p) - pb)*
-      cg/sim->physical_params.g
-#if !FTT_2D
-      /H
-#endif
-      ;
-  }
-  else
-    return 0.;
-}
-
-static void flather (FttCellFace * f, GfsBc * b)
-{
-  g_assert (GFS_CELL_IS_GRADIENT_BOUNDARY (f->cell));
-  GFS_VARIABLE (f->cell, b->v->i) = 2.*flather_value (f, b) - GFS_VARIABLE (f->neighbor, b->v->i);
-}
-
-static void homogeneous_flather (FttCellFace * f, GfsBc * b)
-{
-  g_assert (GFS_CELL_IS_GRADIENT_BOUNDARY (f->cell));
-  GFS_VARIABLE (f->cell, b->v->i) = - GFS_VARIABLE (f->neighbor, b->v->i);
-}
-
-static void face_flather (FttCellFace * f, GfsBc * b)
-{
-  g_assert (GFS_CELL_IS_GRADIENT_BOUNDARY (f->cell));
-  GFS_STATE (f->cell)->f[f->d].v = flather_value (f, b);
-}
-
-static void gfs_bc_flather_class_init (GtsObjectClass * klass)
-{
-  klass->write   = bc_flather_write;
-  klass->read    = bc_flather_read;
-  klass->destroy = bc_flather_destroy;
-}
-
-static void gfs_bc_flather_init (GfsBc * object)
-{
-  object->bc =             (FttFaceTraverseFunc) flather;
-  object->homogeneous_bc = (FttFaceTraverseFunc) homogeneous_flather;
-  object->face_bc =        (FttFaceTraverseFunc) face_flather;
-}
-
-GfsBcClass * gfs_bc_flather_class (void)
-{
-  static GfsBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_bc_flather_info = {
-      "GfsBcFlather",
-      sizeof (GfsBcFlather),
-      sizeof (GfsBcClass),
-      (GtsObjectClassInitFunc) gfs_bc_flather_class_init,
-      (GtsObjectInitFunc) gfs_bc_flather_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_bc_value_class ()),
-				  &gfs_bc_flather_info);
-  }
-
-  return klass;
-}
diff --git a/src/ocean.h b/src/ocean.h
deleted file mode 100644
index 5c5b561..0000000
--- a/src/ocean.h
+++ /dev/null
@@ -1,129 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2004 Stéphane Popinet
- * National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __OCEAN_H__
-#define __OCEAN_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "simulation.h"
-#include "source.h"
-
-/* GfsOcean: Header */
-
-typedef struct _GfsOcean         GfsOcean;
-
-struct _GfsOcean {
-  GfsSimulation parent;
-#if !FTT_2D
-  GPtrArray * layer;
-  GfsDomain * toplayer;
-#endif /* 2D3 or 3D */
-};
-
-#define GFS_OCEAN(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOcean,\
-					         gfs_ocean_class ())
-#define GFS_IS_OCEAN(obj)         (gts_object_is_from_class (obj,\
-						 gfs_ocean_class ()))
-
-GfsSimulationClass * gfs_ocean_class          (void);
-
-#if !FTT_2D
-
-void                 gfs_hydrostatic_pressure (GfsDomain * domain,
-					       GfsVariable * p,
-					       GfsVariable * rho,
-					       gdouble g);
-
-/* GfsSourceHydrostatic: Header */
-
-typedef struct _GfsSourceHydrostatic         GfsSourceHydrostatic;
-
-struct _GfsSourceHydrostatic {
-  /*< private >*/
-  GfsSourceVelocity parent;
-  GfsVariable * ph1;
-  gboolean not_first;
-
-  /*< public >*/
-  GfsVariable * ph, * rho;
-};
-
-#define GFS_SOURCE_HYDROSTATIC(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceHydrostatic,\
-					         gfs_source_hydrostatic_class ())
-#define GFS_IS_SOURCE_HYDROSTATIC(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_hydrostatic_class ()))
-
-GfsSourceGenericClass * gfs_source_hydrostatic_class    (void);
-
-#endif /* 2D3 or 3D */
-
-/* GfsSourceFriction: Header */
-
-typedef struct _GfsSourceFriction         GfsSourceFriction;
-
-struct _GfsSourceFriction {
-  /*< private >*/
-  GfsSourceVelocity parent;
-  GfsVariable * u[FTT_DIMENSION];
-
-  /*< public >*/
-  GfsVariable * h;
-  gdouble f;
-};
-
-#define GFS_SOURCE_FRICTION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceFriction,\
-					         gfs_source_friction_class ())
-#define GFS_IS_SOURCE_FRICTION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_friction_class ()))
-
-GfsSourceGenericClass * gfs_source_friction_class  (void);
-
-/* GfsBcFlather: Header */
-
-typedef struct _GfsBcFlather         GfsBcFlather;
-
-struct _GfsBcFlather {
-  /*< private >*/
-  GfsBcValue parent;
-
-  /*< public >*/
-  GfsVariable * h, * p;
-  GfsFunction * val;
-};
-
-#define GFS_BC_FLATHER(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsBcFlather,\
-					         gfs_bc_flather_class ())
-#define GFS_IS_BC_FLATHER(obj)         (gts_object_is_from_class (obj,\
-						 gfs_bc_flather_class ()))
-
-GfsBcClass * gfs_bc_flather_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __OCEAN_H__ */
diff --git a/src/output.c b/src/output.c
deleted file mode 100644
index 630a1cc..0000000
--- a/src/output.c
+++ /dev/null
@@ -1,3157 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <unistd.h>
-#include <sys/types.h>
-#include <sys/stat.h>
-#include <sys/wait.h>
-#include <errno.h>
-#include <string.h>
-#include <math.h>
-#include "output.h"
-#include "graphic.h"
-#include "adaptive.h"
-#include "solid.h"
-#include "ocean.h"
-#include "unstructured.h"
-
-/* GfsOutput: object */
-
-typedef struct _Format Format;
-
-typedef enum {
-  ITER,
-  TIME,
-  PID,
-  NONE
-} FormatType;
-
-struct _Format {
-  gchar * s;
-  FormatType t;
-};
-
-static Format * format_new (gchar * s, guint len, 
-			    FormatType t)
-{
-  Format * f = g_malloc (sizeof (Format));
-  
-  f->s = g_strndup (s, len);
-  f->t = t;
-
-  return f;
-}
-
-static void format_destroy (Format * f)
-{
-  g_free (f->s);
-  g_free (f);
-}
-
-static gchar * format_string (GSList * list, 
-			      gint pid, 
-			      guint niter,
-			      gdouble time)
-{
-  gchar * s = g_strdup ("");
-
-  while (list) {
-    Format * f = list->data;
-    gchar * s1, * s2 = NULL;
-
-    switch (f->t) {
-    case NONE:
-      s2 = g_strconcat (s, f->s, NULL);
-      break;
-    case PID:
-      s1 = g_strdup_printf (f->s, pid);
-      s2 = g_strconcat (s, s1, NULL);
-      g_free (s1);
-      break;
-    case ITER:
-      s1 = g_strdup_printf (f->s, niter);
-      s2 = g_strconcat (s, s1, NULL);
-      g_free (s1);
-      break;
-    case TIME:
-      s1 = g_strdup_printf (f->s, time);
-      s2 = g_strconcat (s, s1, NULL);
-      g_free (s1);
-      break;
-    default:
-      g_assert_not_reached ();
-    }
-    g_free (s);
-    s = s2;
-    list = list->next;
-  }
-
-  return s;
-}
-
-static void output_free (GfsOutput * output)
-{
-  if (output->format)
-    g_free (output->format);
-  output->format = NULL;
-  g_slist_foreach (output->formats, (GFunc) format_destroy, NULL);
-  g_slist_free (output->formats);
-  output->formats = NULL;
-}
-
-static void gfs_output_destroy (GtsObject * object)
-{
-  GfsOutput * output = GFS_OUTPUT (object);
-
-  if (output->file)
-    gfs_output_file_close (output->file);
-  output_free (output);
-
-  (* GTS_OBJECT_CLASS (gfs_output_class ())->parent_class->destroy) 
-    (object);
-}
-
-static gboolean gfs_output_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* gfs_event_class ()->event) (event, sim)) {
-    GfsOutput * output = GFS_OUTPUT (event);
-    gchar * fname;
-
-    if (!output->parallel && GFS_DOMAIN (sim)->pid > 0) {
-      if (output->file)
-	output->first_call = FALSE;
-      else
-	gfs_output_mute (output);
-      return (output->file != NULL);
-    }
-
-    if (!output->dynamic) {
-      if (output->file) {
-	fflush (output->file->fp);
-	output->first_call = FALSE;
-      }
-      else {
-	if (output->format[0] == '{') { /* script */
-	  guint len = strlen (output->format);
-	  g_assert (output->format[len - 1] == '}');
-	  output->format[len - 1] = '\0';
-	  FILE * fp = gfs_popen (sim, &output->format[1], "w");
-	  if (fp == NULL) {
-	    g_warning ("GfsOutput cannot start script");
-	    return TRUE;
-	  }
-	  output->file = gfs_output_file_new (fp);
-	  output->file->is_pipe = TRUE;
-	  output->format[len - 1] = '}';
-	}
-	else { /* standard file */
-	  fname = format_string (output->formats,
-				 GFS_DOMAIN (sim)->pid,
-				 sim->time.i,
-				 sim->time.t);
-	  output->file = gfs_output_file_open (fname, 
-					       sim->time.i > 0 && gfs_event_is_repetitive (event) ? 
-					       "a" : "w");
-	  if (output->file == NULL)
-	    g_warning ("could not open file `%s'", fname);
-	  g_free (fname);
-	}
-      }
-      return (output->file != NULL);
-    }
-
-    if (output->file)
-      gfs_output_file_close (output->file);
-    fname = format_string (output->formats, 
-			   GFS_DOMAIN (sim)->pid,
-			   sim->time.i,
-			   sim->time.t);
-    output->file = gfs_output_file_open (fname, "w");
-    if (output->file == NULL)
-      g_warning ("could not open file `%s'", fname);
-    g_free (fname);
-    return (output->file != NULL);
-  }
-  return FALSE;
-}
-
-static void gfs_output_write (GtsObject * o, FILE * fp)
-{
-  GfsOutput * output = GFS_OUTPUT (o);
-
-  (* GTS_OBJECT_CLASS (gfs_output_class ())->parent_class->write) (o, fp);
-
-  if (output->format)
-    fprintf (fp, " %s", output->format);
-}
-
-static void gfs_output_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsOutput * output;
-
-  (* GTS_OBJECT_CLASS (gfs_output_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  output = GFS_OUTPUT (*o);
-  if (output->file)
-    gfs_output_file_close (output->file);
-  output->file = NULL;
-  if (output->format)
-    g_free (output->format);
-  output->format = NULL;
-  output->dynamic = FALSE;
-  output->first_call = TRUE;
-
-  if (fp->type == '{') {
-    gchar * script = gfs_file_statement (fp);
-    if (script == NULL)
-      return;
-    output->format = g_strconcat ("{", script, "}", NULL);
-    g_free (script);
-    gts_file_next_token (fp);
-  }
-  else if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (format)");
-    return;
-  }
-  else {
-    GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (output));
-    gchar * c, * start;
-    guint len;
-
-    output->format = g_strdup (fp->token->str);
-    gts_file_next_token (fp);
-    
-    if (!strcmp (output->format, "stderr") || !strcmp (output->format, "stdout")) {
-      if (domain->pid > 0)
-	gfs_output_mute (output);
-      else {
-	g_assert (!output->file);
-	output->file = gfs_output_file_open (output->format, "w");
-      }
-      return;
-    }
-    
-    start = c = output->format;
-    while (*c != '\0') {
-      if (*c == '%') {
-	gchar * startf = c, * prev = c;
-	
-	len = GPOINTER_TO_UINT (startf) -  GPOINTER_TO_UINT (start);
-	if (len > 0)
-	  output->formats = g_slist_prepend (output->formats,
-					     format_new (start, len, NONE));
-	
-	len = 1;
-	c++;
-	while (*c != '\0' && !gfs_char_in_string (*c, "diouxXeEfFgGaAcsCSpn%")) {
-	  prev = c;
-	  c++;
-	  len++;
-	}
-	len++;
-	if (*c == '%')
-	  output->formats = g_slist_prepend (output->formats,
-					     format_new ("%", 1, NONE));
-	else if (gfs_char_in_string (*c, "diouxXc")) {
-	  if (*prev == 'l') {
-	    output->formats = g_slist_prepend (output->formats,
-					       format_new (startf, len, ITER));
-	    output->dynamic = TRUE;
-	  }
-	  else {
-	    output->formats = g_slist_prepend (output->formats,
-					       format_new (startf, len, PID));
-	    output->parallel = TRUE;
-	  }
-	}
-	else if (gfs_char_in_string (*c, "eEfFgGaA")) {
-	  output->formats = g_slist_prepend (output->formats,
-					     format_new (startf, len, TIME));
-	  output->dynamic = TRUE;
-	}
-	else {
-	  gts_file_error (fp, 
-			  "unknown conversion specifier `%c' of format `%s'",
-			  *c, output->format);
-	  output_free (output);
-	  return;
-	}
-	start = c;
-	start++;
-      }
-      c++;
-    }
-    len = GPOINTER_TO_UINT (c) - GPOINTER_TO_UINT (start);
-    if (len > 0)
-      output->formats = g_slist_prepend (output->formats,
-					 format_new (start, len, NONE));
-    output->formats = g_slist_reverse (output->formats);
-
-    if (output->parallel || domain->pid <= 0) {
-      gchar * fname = format_string (output->formats, domain->pid, 0, 0.);
-      gchar * fnamebak = g_strconcat (fname, "~", NULL);
-      g_free (fname);
-      FILE * fptr = fopen (fnamebak, "w");
-      if (fptr == NULL) {
-	gts_file_error (fp, "cannot open file specified by format `%s'\n  %s",
-			output->format, strerror (errno));
-	g_free (fnamebak);
-	output_free (output);
-	return;
-      }
-      fclose (fptr);
-      remove (fnamebak);
-      g_free (fnamebak);
-    }
-  }
-}
-
-static void gfs_output_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_event;
-
-  GTS_OBJECT_CLASS (klass)->write = gfs_output_write;
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_read;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_output_destroy;
-}
-
-static void gfs_output_init (GfsOutput * object)
-{
-  object->file = NULL;
-  object->format = NULL;
-  object->formats = NULL;
-  object->dynamic = FALSE;
-  object->parallel = FALSE;
-  object->first_call = TRUE;
-}
-
-GfsOutputClass * gfs_output_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_info = {
-      "GfsOutput",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_class_init,
-      (GtsObjectInitFunc) gfs_output_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_output_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_output_mute:
- * @output: a #GfsOutput.
- *
- * "Mutes" the output defined by @output, the event associated with
- * @output still takes place but the output itself is redirected to
- * /dev/null.
- */
-void gfs_output_mute (GfsOutput * output)
-{
-  g_return_if_fail (output != NULL);
-
-  output->dynamic = FALSE;
-  if (output->file)
-    gfs_output_file_close (output->file);
-  output->file = gfs_output_file_open ("/dev/null", "w");
-}
-
-static GHashTable * gfs_output_files = NULL;
-
-/**
- * gfs_output_file_new:
- * @fp: a file pointer.
- *
- * Returns: a new #GfsOutputFile for @fp.
- */
-GfsOutputFile * gfs_output_file_new (FILE * fp)
-{
-  GfsOutputFile * file = g_malloc (sizeof (GfsOutputFile));
-  file->refcount = 1;
-  file->name = NULL;
-  file->fp = fp;
-  file->is_pipe = FALSE;
-  return file;
-}
-
-/**
- * gfs_output_file_open:
- * @name: the name of the file to open.
- * @mode: the fopen mode.
- *
- * Checks whether @name has already been opened. If it has, its
- * reference count is incremented and the corresponding #GfsOutputFile
- * is returned. If it has not, it is created and opened for writing.
- *
- * Returns: the #GfsOutputFile of file @name.  
- */
-GfsOutputFile * gfs_output_file_open (const gchar * name, const gchar * mode)
-{
-  GfsOutputFile * file;
-  FILE * fp;
-
-  g_return_val_if_fail (name != NULL, NULL);
-
-  if (gfs_output_files == NULL) {
-    gfs_output_files = g_hash_table_new (g_str_hash, g_str_equal);
-    file = g_malloc (sizeof (GfsOutputFile));
-    file->refcount = 2;
-    file->name = g_strdup ("stderr");
-    file->fp = stderr;
-    g_hash_table_insert (gfs_output_files, file->name, file);
-    file = g_malloc (sizeof (GfsOutputFile));
-    file->refcount = 2;
-    file->name = g_strdup ("stdout");
-    file->fp = stdout;
-    g_hash_table_insert (gfs_output_files, file->name, file);
-  }
-
-  if ((file = g_hash_table_lookup (gfs_output_files, name))) {
-    file->refcount++;
-    return file;
-  }
-
-  fp = fopen (name, mode);
-  if (fp == NULL)
-    return NULL;
-
-  file = gfs_output_file_new (fp);
-  file->name = g_strdup (name);
-  g_hash_table_insert (gfs_output_files, file->name, file);
-
-  return file;  
-}
-
-/**
- * gfs_output_file_close:
- * @file: a #GfsOutputFile.
- * 
- * Decreases the reference count of @file. If it reaches zero the file
- * corresponding to @file is closed and @file is freed.
- */
-void gfs_output_file_close (GfsOutputFile * file)
-{
-  g_return_if_fail (file);
-
-  file->refcount--;
-  if (file->refcount == 0) {
-    if (file->name)
-      g_hash_table_remove (gfs_output_files, file->name);
-    if (file->is_pipe)
-      pclose (file->fp);
-    else
-      fclose (file->fp);
-    g_free (file->name);
-    g_free (file);
-  }
-}
-
-/* GfsOutputTime: Object */
-
-static void time_destroy (GtsObject * o)
-{
-  gfs_clock_destroy (GFS_OUTPUT_TIME (o)->clock);
-  g_timer_destroy (GFS_OUTPUT_TIME (o)->timer);
-
-  (* GTS_OBJECT_CLASS (gfs_output_time_class ())->parent_class->destroy) (o);  
-}
-
-static gboolean time_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_output_class())->event) (event, sim)) {
-    GfsOutputTime * t = GFS_OUTPUT_TIME (event);
-    if (!t->clock->started) {
-      gfs_clock_start (t->clock);
-      g_timer_start (t->timer);
-    }
-    gdouble cpu = gfs_clock_elapsed (t->clock);
-#ifdef HAVE_MPI
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    if (domain->pid >= 0) {
-      gfs_all_reduce (domain, cpu, MPI_DOUBLE, MPI_SUM);
-      int size;
-      MPI_Comm_size (MPI_COMM_WORLD, &size);
-      cpu /= size;
-    }
-#endif
-    fprintf (GFS_OUTPUT (event)->file->fp,
-	     "step: %7u t: %15.8f dt: %13.6e cpu: %15.8f real: %15.8f\n",
-	     sim->time.i, sim->time.t, 
-	     sim->advection_params.dt,
-	     cpu,
-	     g_timer_elapsed (t->timer, NULL));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_time_class_init (GfsEventClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = time_destroy;
-  klass->event = time_event;
-}
-
-static void gfs_output_time_init (GfsOutputTime * time)
-{
-  time->clock = gfs_clock_new ();
-  time->timer = g_timer_new ();
-}
-
-GfsOutputClass * gfs_output_time_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_time_info = {
-      "GfsOutputTime",
-      sizeof (GfsOutputTime),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_time_class_init,
-      (GtsObjectInitFunc) gfs_output_time_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_time_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputProgress: Object */
-
-static gboolean progress_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_output_class())->event) (event, sim)) {
-    gdouble idone = sim->time.i/(gdouble) sim->time.iend;
-    gdouble tdone = sim->time.t/sim->time.end;
-
-    if (idone > tdone) tdone = idone;
-    fprintf (GFS_OUTPUT (event)->file->fp,
-	     "\r%3.0f%% done",
-	     100.*tdone);
-    if (tdone > 0.) {
-      gdouble remaining = GFS_DOMAIN (sim)->timestep.sum*(1. - tdone)/tdone;
-      gdouble hours = floor (remaining/3600.);
-      gdouble mins = floor ((remaining - 3600.*hours)/60.);
-      gdouble secs = floor (remaining - 3600.*hours - 60.*mins);
-      fprintf (GFS_OUTPUT (event)->file->fp,
-	       ", %02.0f:%02.0f:%02.0f remaining ",
-	       hours, mins, secs);
-    }
-    if (tdone == 1.)
-      fputc ('\n', GFS_OUTPUT (event)->file->fp);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_progress_class_init (GfsEventClass * klass)
-{
-  klass->event = progress_event;
-}
-
-GfsOutputClass * gfs_output_progress_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_progress_info = {
-      "GfsOutputProgress",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_progress_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_progress_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputProjectionStats: Object */
-
-static gboolean projection_stats_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_output_class())->event) (event, sim)) {
-    FILE * fp = GFS_OUTPUT (event)->file->fp;
-
-    if (sim->projection_params.niter > 0) {
-      fprintf (fp, "MAC projection        before     after       rate\n");
-      gfs_multilevel_params_stats_write (&sim->projection_params, fp);
-    }
-    fprintf (fp, "Approximate projection\n");
-    gfs_multilevel_params_stats_write (&sim->approx_projection_params, fp);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_projection_stats_class_init (GfsEventClass * klass)
-{
-  klass->event = projection_stats_event;
-}
-
-GfsOutputClass * gfs_output_projection_stats_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_projection_stats_info = {
-      "GfsOutputProjectionStats",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_projection_stats_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_projection_stats_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputDiffusionStats: Object */
-
-static gboolean diffusion_stats_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_output_class())->event) (event, sim)) {
-    FILE * fp = GFS_OUTPUT (event)->file->fp;
-    GSList * l = NULL, * i;
-    
-    i = GFS_DOMAIN (sim)->variables;
-    while (i) {
-      GfsVariable * v = i->data;
-
-      if (v->sources) {
-	GSList * j = GTS_SLIST_CONTAINER (v->sources)->items;
-    
-	while (j) {
-	  GtsObject * o = j->data;
-      
-	  if (GFS_IS_SOURCE_DIFFUSION (o) && !g_slist_find (l, o)) {
-	    l = g_slist_prepend (l, o);
-	    fprintf (fp, "%s diffusion\n", v->name);
-	    gfs_multilevel_params_stats_write (&GFS_SOURCE_DIFFUSION (o)->D->par, fp);
-	  }
-	  j = j->next;
-	}
-      }
-      i = i->next;
-    }
-    g_slist_free (l);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_diffusion_stats_class_init (GfsEventClass * klass)
-{
-  klass->event = diffusion_stats_event;
-}
-
-GfsOutputClass * gfs_output_diffusion_stats_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_diffusion_stats_info = {
-      "GfsOutputDiffusionStats",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_diffusion_stats_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_diffusion_stats_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputSolidStats: Object */
-
-static gboolean gfs_output_solid_stats_event (GfsEvent * event, 
-					     GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_solid_stats_class ())->parent_class)->event)
-      (event, sim)) {
-    GtsRange stats = gfs_domain_stats_solid (GFS_DOMAIN (sim));
-    GtsRange ma, mn;
-
-    gfs_domain_stats_merged (GFS_DOMAIN (sim), &ma, &mn);
-    fprintf (GFS_OUTPUT (event)->file->fp,
-	     "Solid volume fraction\n"
-	     "    min: %10.3e avg: %10.3e | %10.3e max: %10.3e n: %10d\n"
-	     "Total merged solid volume fraction\n"
-	     "    min: %10.3e avg: %10.3e | %10.3e max: %10.3e n: %10d\n"
-	     "Number of cells merged per merged cell\n"
-	     "    min: %10.0f avg: %10.3f | %10.3f max: %10.0f n: %10d\n"
-	     "Number of \"thin\" cells removed: %10d\n",
-	     stats.min, stats.mean, stats.stddev, stats.max, stats.n,
-	     ma.min, ma.mean, ma.stddev, ma.max, ma.n,
-	     mn.min, mn.mean, mn.stddev, mn.max, mn.n,
-	     sim->thin);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_solid_stats_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_solid_stats_event;
-}
-
-GfsOutputClass * gfs_output_solid_stats_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_solid_stats_info = {
-      "GfsOutputSolidStats",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_solid_stats_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_solid_stats_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputAdaptStats: Object */
-
-static gboolean gfs_output_adapt_stats_event (GfsEvent * event, 
-					      GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_adapt_stats_class ())->parent_class)->event)
-      (event, sim)) {
-    gfs_adapt_stats_update (&sim->adapts_stats);
-    fprintf (GFS_OUTPUT (event)->file->fp,
-	     "Adaptive mesh refinement statistics\n"
-	     "  Cells removed: %10d\n"
-	     "  Cells created: %10d\n"
-	     "  Number of cells\n"
-	     "    min: %10.0f avg: %10.3f | %10.3f max: %10.0f n: %10d\n",
-	     sim->adapts_stats.removed,
-	     sim->adapts_stats.created,
-	     sim->adapts_stats.ncells.min,
-	     sim->adapts_stats.ncells.mean,
-	     sim->adapts_stats.ncells.stddev,
-	     sim->adapts_stats.ncells.max,
-	     sim->adapts_stats.ncells.n);
-    if (sim->adapts_stats.cmax.n > 0)
-      fprintf (GFS_OUTPUT (event)->file->fp,
-	       "  Maximum cost\n"
-	       "    min: %10.3e avg: %10.3e | %10.3e max: %10.3e n: %10d\n",
-	       sim->adapts_stats.cmax.min,
-	       sim->adapts_stats.cmax.mean,
-	       sim->adapts_stats.cmax.stddev,
-	       sim->adapts_stats.cmax.max,
-	       sim->adapts_stats.cmax.n);
-    gfs_adapt_stats_init (&sim->adapts_stats);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_adapt_stats_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_adapt_stats_event;
-}
-
-GfsOutputClass * gfs_output_adapt_stats_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_adapt_stats_info = {
-      "GfsOutputAdaptStats",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_adapt_stats_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_adapt_stats_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputTiming: Object */
-
-typedef struct {
-  GfsTimer * t;
-  gchar * name;
-} Timer;
-
-static int compare_timer (const void * a, const void * b)
-{
-  Timer * t1 = (Timer *) a;
-  Timer * t2 = (Timer *) b;
-  return (t1->t->r.sum < t2->t->r.sum) ? -1 : 1 ;
-}
-
-static void get_timer (gchar * name, GfsTimer * t, gpointer * data)
-{
-  Timer * timing = data[0];
-  gint * count = data[1];
-  timing[*count].t = t;
-  timing[*count].name = name;
-  (*count)++;
-}
-
-static void print_timing (GHashTable * timers, GfsDomain * domain, FILE * fp)
-{
-  Timer * timing = g_malloc (sizeof (Timer)*g_hash_table_size (timers));
-  gint count = 0;
-  gpointer data[2];
-
-  data[0] = timing;
-  data[1] = &count;  
-  g_hash_table_foreach (domain->timers, (GHFunc) get_timer, data);
-  qsort (timing, count, sizeof (Timer), compare_timer);
-  while (--count >= 0)
-    if (timing[count].t->r.sum > 0.)
-      fprintf (fp, 
-	       "  %s:\n"
-	       "      min: %9.3f avg: %9.3f (%4.1f%%) | %7.3f max: %9.3f\n",
-	       timing[count].name,
-	       timing[count].t->r.min,
-	       timing[count].t->r.mean, 
-	       domain->timestep.sum > 0. ? 100.*timing[count].t->r.sum/domain->timestep.sum : 0.,
-	       timing[count].t->r.stddev, 
-	       timing[count].t->r.max);
-  g_free (timing);
-}
-
-static gboolean timing_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_output_class())->event) (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    FILE * fp = GFS_OUTPUT (event)->file->fp;
-    
-    if (domain->timestep.mean > 0.) {
-      fprintf (fp,
-	       "Timing summary: %u timesteps %.0f node.timestep/s\n"
-	       "  timestep:\n"
-	       "      min: %9.3f avg: %9.3f         | %7.3f max: %9.3f\n"
-               "  domain size:\n"
-	       "      min: %9.0f avg: %9.0f         | %7.0f max: %9.0f\n"
-	       "  maximum number of variables: %d\n",
-	       domain->timestep.n,
-	       domain->size.mean/domain->timestep.mean,
-	       domain->timestep.min,
-	       domain->timestep.mean,
-	       domain->timestep.stddev, 
-	       domain->timestep.max,
-	       domain->size.min,
-	       domain->size.mean,
-	       domain->size.stddev, 
-	       domain->size.max,
-	       gfs_domain_variables_number (domain));
-      print_timing (domain->timers, domain, fp);
-      if (domain->mpi_messages.n > 0)
-	fprintf (fp,
-		 "Message passing summary\n"
-		 "  n: %10d size: %10.0f bytes\n",
-		 domain->mpi_messages.n,
-		 domain->mpi_messages.sum);
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_timing_class_init (GfsEventClass * klass)
-{
-  klass->event = timing_event;
-}
-
-GfsOutputClass * gfs_output_timing_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_timing_info = {
-      "GfsOutputTiming",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_timing_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_timing_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputBalance: Object */
-
-static gboolean gfs_output_balance_event (GfsEvent * event, 
-					  GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_balance_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    FILE * fp = GFS_OUTPUT (event)->file->fp;
-    GtsRange size, boundary, mpiwait;
-    
-    gfs_domain_stats_balance (domain, &size, &boundary, &mpiwait);
-    fprintf (fp, 
-	     "Balance summary: %u PE\n"
-	     "  domain   min: %9.0f avg: %9.0f         | %7.0f max: %9.0f\n",
-	     size.n,
-	     size.min, size.mean, size.stddev, size.max);
-    if (boundary.max > 0.)
-      fprintf (fp, 
-	       "  boundary min: %9.0f avg: %9.0f         | %7.0f max: %9.0f\n",
-	       boundary.min, boundary.mean, boundary.stddev, boundary.max);
-    if (mpiwait.max > 0.)
-      fprintf (fp,
-	       "  average timestep MPI wait time:\n"
-	       "      min: %9.3f avg: %9.3f         | %7.3f max: %9.3f\n",
-	       mpiwait.min, mpiwait.mean, mpiwait.stddev, mpiwait.max);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_balance_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_balance_event;
-}
-
-GfsOutputClass * gfs_output_balance_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_balance_info = {
-      "GfsOutputBalance",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_balance_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_balance_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputSolidForce: Object */
-
-static void gfs_output_solid_force_destroy (GtsObject * object)
-{
-  if (GFS_OUTPUT_SOLID_FORCE (object)->weight)
-    gts_object_destroy (GTS_OBJECT (GFS_OUTPUT_SOLID_FORCE (object)->weight));
-
-  (* GTS_OBJECT_CLASS (gfs_output_solid_force_class ())->parent_class->destroy) (object);
-}
-
-static void gfs_output_solid_force_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsOutputSolidForce * l = GFS_OUTPUT_SOLID_FORCE (*o);
-
-  (* GTS_OBJECT_CLASS (gfs_output_solid_force_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != '\n') {
-    if (!l->weight)
-      l->weight = gfs_function_new (gfs_function_class (), 0.);
-    gfs_function_read (l->weight, gfs_object_simulation (l), fp);
-  }
-}
-
-static void gfs_output_solid_force_write (GtsObject * o, FILE * fp)
-{
-  GfsOutputSolidForce * l = GFS_OUTPUT_SOLID_FORCE (o);
-  (* GTS_OBJECT_CLASS (gfs_output_solid_force_class ())->parent_class->write) (o, fp);
-  if (l->weight)
-    gfs_function_write (l->weight, fp);
-}
-
-static gboolean gfs_output_solid_force_event (GfsEvent * event, 
-					      GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_solid_force_class ())->parent_class)->event)
-      (event, sim) &&
-      sim->advection_params.dt > 0.) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    FILE * fp = GFS_OUTPUT (event)->file->fp;
-    FttVector pf, vf, pm, vm;
-    gdouble L = sim->physical_params.L, Ln = pow (L, 3. + FTT_DIMENSION - 2.);
-
-    if (GFS_OUTPUT (event)->first_call)
-      fputs ("# 1: T (2,3,4): Pressure force (5,6,7): Viscous force "
-	     "(8,9,10): Pressure moment (11,12,13): Viscous moment\n", fp);
-    
-    gfs_domain_solid_force (domain, &pf, &vf, &pm, &vm, GFS_OUTPUT_SOLID_FORCE (event)->weight);
-    fprintf (fp, "%g %g %g %g %g %g %g %g %g %g %g %g %g\n",
-	     sim->time.t,
-	     pf.x*Ln, pf.y*Ln, pf.z*Ln,
-	     vf.x*Ln, vf.y*Ln, vf.z*Ln,
-	     pm.x*Ln*L, pm.y*Ln*L, pm.z*Ln*L,
-	     vm.x*Ln*L, vm.y*Ln*L, vm.z*Ln*L);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_solid_force_class_init (GfsOutputClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_solid_force_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_output_solid_force_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_output_solid_force_destroy;
-  GFS_EVENT_CLASS (klass)->event = gfs_output_solid_force_event;
-}
-
-GfsOutputClass * gfs_output_solid_force_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_solid_force_info = {
-      "GfsOutputSolidForce",
-      sizeof (GfsOutputSolidForce),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_solid_force_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_solid_force_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputLocation: Object */
-
-static void gfs_output_location_destroy (GtsObject * object)
-{
-  g_array_free (GFS_OUTPUT_LOCATION (object)->p, TRUE);
-
-  (* GTS_OBJECT_CLASS (gfs_output_location_class ())->parent_class->destroy) (object);
-}
-
-static gboolean vector_read (GtsFile * fp, FttVector * p)
-{
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (p.x)");
-    return FALSE;
-  }
-  p->x = atof (fp->token->str);
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (p.y)");
-    return FALSE;
-  }
-  p->y = atof (fp->token->str);
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (p.z)");
-    return FALSE;
-  }
-  p->z = atof (fp->token->str);
-  gts_file_next_token (fp);
-  return TRUE;
-}
-
-static void gfs_output_location_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsOutputLocation * l = GFS_OUTPUT_LOCATION (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_output_location_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_output_location_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type == GTS_STRING) {
-    FILE * fptr = fopen (fp->token->str, "r");
-    GtsFile * fp1;
-
-    if (fptr == NULL) {
-      gts_file_error (fp, "cannot open file `%s'", fp->token->str);
-      return;
-    }
-    fp1 = gts_file_new (fptr);
-    while (fp1->type != GTS_NONE) {
-      FttVector p;
-      if (!vector_read (fp1, &p)) {
-	gts_file_error (fp, "%s:%d:%d: %s", fp->token->str, fp1->line, fp1->pos, fp1->error);
-	return;
-      }
-      g_array_append_val (l->p, p);
-      while (fp1->type == '\n')
-	gts_file_next_token (fp1);
-    }
-    gts_file_destroy (fp1);
-    fclose (fptr);
-    gts_file_next_token (fp);
-  }
-  else if (fp->type == '{') {
-    fp->scope_max++;
-    do
-      gts_file_next_token (fp);
-    while (fp->type == '\n');
-    while (fp->type != GTS_NONE && fp->type != '}') {
-      FttVector p;
-      if (!vector_read (fp, &p))
-	return;
-      g_array_append_val (l->p, p);
-      while (fp->type == '\n')
-	gts_file_next_token (fp);
-    }
-    if (fp->type != '}') {
-      gts_file_error (fp, "expecting a closing brace");
-      return;
-    }
-    fp->scope_max--;
-    gts_file_next_token (fp);
-  }
-  else {
-    FttVector p;
-    if (!vector_read (fp, &p))
-      return;
-    g_array_append_val (l->p, p);
-  }
-}
-
-static void gfs_output_location_write (GtsObject * o, FILE * fp)
-{
-  GfsOutputLocation * l = GFS_OUTPUT_LOCATION (o);
-  guint i;
-
-  (* GTS_OBJECT_CLASS (gfs_output_location_class ())->parent_class->write) (o, fp);
-
-  fputs (" {\n", fp);
-  for (i = 0; i < l->p->len; i++) {
-    FttVector p = g_array_index (l->p, FttVector, i);
-    fprintf (fp, "%g %g %g\n", p.x, p.y, p.z);
-  }
-  fputc ('}', fp);
-}
-
-static gboolean gfs_output_location_event (GfsEvent * event, 
-					   GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_location_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    GfsOutputLocation * location = GFS_OUTPUT_LOCATION (event);
-    FILE * fp = GFS_OUTPUT (event)->file->fp;
-    guint i;
-
-    if (GFS_OUTPUT (event)->first_call) {
-      GSList * i = domain->variables;
-      guint nv = 5;
-
-      fputs ("# 1:T 2:X 3:Y 4:Z", fp);
-      while (i) {
-	if (GFS_VARIABLE1 (i->data)->name)
-	  fprintf (fp, " %d:%s", nv++, GFS_VARIABLE1 (i->data)->name);
-	i = i->next;
-      }
-      fputc ('\n', fp);
-    }
-    for (i = 0; i < location->p->len; i++) {
-      FttVector p = g_array_index (location->p, FttVector, i), pm = p;
-      gfs_simulation_map (sim, &pm);
-      FttCell * cell = gfs_domain_locate (domain, pm, -1, NULL);
-      
-      if (cell != NULL) {
-	GSList * i = domain->variables;
-	
-	fprintf (fp, "%g %g %g %g", sim->time.t, p.x, p.y, p.z);
-	while (i) {
-	  GfsVariable * v = i->data;
-	  if (v->name)
-	    fprintf (fp, " %g", gfs_dimensional_value (v, gfs_interpolate (cell, pm, v)));
-	  i = i->next;
-	}
-	fputc ('\n', fp);
-      }
-    }
-    fflush (fp);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_location_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_location_event;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_output_location_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_location_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_output_location_write;
-}
-
-static void gfs_output_location_init (GfsOutputLocation * object)
-{
-  object->p = g_array_new (FALSE, FALSE, sizeof (FttVector));
-}
-
-GfsOutputClass * gfs_output_location_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_location_info = {
-      "GfsOutputLocation",
-      sizeof (GfsOutputLocation),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_location_class_init,
-      (GtsObjectInitFunc) gfs_output_location_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_location_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputSimulation: Object */
-
-static gchar default_precision[] = "%g";
-
-static void output_simulation_destroy (GtsObject * object)
-{
-  GfsOutputSimulation * output = GFS_OUTPUT_SIMULATION (object);
-
-  g_slist_free (output->var);
-  if (output->precision != default_precision)
-    g_free (output->precision);
-
-  (* GTS_OBJECT_CLASS (gfs_output_simulation_class ())->parent_class->destroy) (object);
-}
-
-static void write_text (FttCell * cell, gpointer * data)
-{
-  GfsOutputSimulation * output = data[0];  
-  FILE * fp = data[1];
-  GSList * i = GFS_DOMAIN (gfs_object_simulation (output))->variables_io;
-  FttVector p;
-
-  gfs_cell_cm (cell, &p);
-  gfs_simulation_map_inverse (gfs_object_simulation (output), &p);
-  gchar * format = g_strdup_printf ("%s %s %s", 
-				    output->precision, output->precision, output->precision);
-  fprintf (fp, format, p.x, p.y, p.z);
-  g_free (format);
-  format = g_strdup_printf (" %s", output->precision);
-  while (i) {
-    if (GFS_VARIABLE1 (i->data)->name)
-      fprintf (fp, format, gfs_dimensional_value (i->data, 
-						  GFS_VALUE (cell, GFS_VARIABLE1 (i->data))));
-    i = i->next;
-  }
-  g_free (format);
-  fputc ('\n', fp);
-}
-
-static gboolean output_simulation_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_output_class())->event) (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    GfsOutputSimulation * output = GFS_OUTPUT_SIMULATION (event);
-
-    g_slist_free (domain->variables_io);
-    if (output->var)
-      domain->variables_io = output->var;
-    else {
-      GSList * i = domain->variables;
-      domain->variables_io = NULL;
-      while (i) {
-	if (GFS_VARIABLE1 (i->data)->name)
-	  domain->variables_io = g_slist_append (domain->variables_io, i->data);
-	i = i->next;
-      }
-    }
-
-    domain->binary =       output->binary;
-    sim->output_solid   =  output->solid;
-    switch (output->format) {
-
-    case GFS:
-      if (GFS_OUTPUT (output)->parallel)
-	gfs_simulation_write (sim,
-			      output->max_depth,
-			      GFS_OUTPUT (event)->file->fp);
-      else
-	gfs_simulation_union_write (sim,
-				    output->max_depth,
-				    GFS_OUTPUT (event)->file->fp);
-      break;
-
-    case GFS_TEXT: {
-      if (GFS_OUTPUT (output)->parallel || domain->pid <= 0) {
-	FILE * fp = GFS_OUTPUT (event)->file->fp;
-	GSList * i = domain->variables_io;
-	guint nv = 4;
-
-	fputs ("# 1:X 2:Y 3:Z", fp);
-	while (i) {
-	  g_assert (GFS_VARIABLE1 (i->data)->name);
-	  fprintf (fp, " %d:%s", nv++, GFS_VARIABLE1 (i->data)->name);
-	  i = i->next;
-	}
-	fputc ('\n', fp);
-      }
-      gpointer data[2];
-      data[0] = output;
-      if (GFS_OUTPUT (output)->parallel) {
-	data[1] = GFS_OUTPUT (event)->file->fp;
-	gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				  (FttCellTraverseFunc) write_text, data);
-      }
-      else {
-	FILE * fpp = gfs_union_open (GFS_OUTPUT (event)->file->fp, domain->pid);
-	data[1] = fpp;
-	gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				  (FttCellTraverseFunc) write_text, data);
-	gfs_union_close (GFS_OUTPUT (event)->file->fp, domain->pid, fpp);
-      }
-      break;
-    }
-
-    case GFS_VTK: {
-      gfs_domain_write_vtk (domain, output->max_depth, domain->variables_io, output->precision,
-			    GFS_OUTPUT (event)->file->fp);
-      break;
-    }
-
-    case GFS_TECPLOT: {
-      gfs_domain_write_tecplot (domain, output->max_depth, domain->variables_io, output->precision,
-				GFS_OUTPUT (event)->file->fp);
-      break;
-    }
-
-    default:
-      g_assert_not_reached ();
-    }
-    if (!output->var)
-      g_slist_free (domain->variables_io);
-    domain->variables_io = NULL;
-    domain->binary =       TRUE;
-    sim->output_solid   =  TRUE;
-    fflush (GFS_OUTPUT (event)->file->fp);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void output_simulation_write (GtsObject * o, FILE * fp)
-{
-  GfsOutputSimulation * output = GFS_OUTPUT_SIMULATION (o);
-  GSList * i = output->var;
-
-  (* GTS_OBJECT_CLASS (gfs_output_simulation_class ())->parent_class->write) (o, fp);
-
-  fputs (" {", fp);
-  if (output->max_depth != -1)
-    fprintf (fp, " depth = %d", output->max_depth);
-  if (i != NULL) {
-    fprintf (fp, " variables = %s", GFS_VARIABLE1 (i->data)->name);
-    i = i->next;
-    while (i) {
-      fprintf (fp, ",%s", GFS_VARIABLE1 (i->data)->name);
-      i = i->next;
-    }
-  }
-  if (!output->binary)
-    fputs (" binary = 0", fp);
-  if (!output->solid)
-    fputs (" solid = 0", fp);
-  switch (output->format) {
-  case GFS_TEXT:    fputs (" format = text", fp);    break;
-  case GFS_VTK:     fputs (" format = VTK", fp);     break;
-  case GFS_TECPLOT: fputs (" format = Tecplot", fp); break;
-  default: break;
-  }
-  if (output->precision != default_precision)
-    fprintf (fp, " precision = %s", output->precision);
-  fputs (" }", fp);
-}
-
-static void output_simulation_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_output_simulation_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsOutputSimulation * output = GFS_OUTPUT_SIMULATION (*o);
-
-  if (fp->type == '{') {
-    GtsFileVariable var[] = {
-      {GTS_INT,    "depth",     TRUE},
-      {GTS_STRING, "variables", TRUE},
-      {GTS_INT,    "binary",    TRUE},
-      {GTS_INT,    "solid",     TRUE},
-      {GTS_STRING, "format",    TRUE},
-      {GTS_STRING, "precision", TRUE},
-      {GTS_NONE}
-    };
-    gchar * variables = NULL, * format = NULL, * precision = NULL;
-
-    var[0].data = &output->max_depth;
-    var[1].data = &variables;
-    var[2].data = &output->binary;
-    var[3].data = &output->solid;
-    var[4].data = &format;
-    var[5].data = &precision;
-    gts_file_assign_variables (fp, var);
-    if (fp->type == GTS_ERROR) {
-      g_free (variables);
-      return;
-    }
-
-    if (variables != NULL) {
-      gchar * error = NULL;
-      GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (output));
-      GSList * vars = gfs_variables_from_list (domain->variables, variables, &error);
-
-      if (vars == NULL) {
-	gts_file_variable_error (fp, var, "variables",
-				 "unknown variable `%s'", error);
-	g_free (variables);
-	return;
-      }
-      g_slist_free (output->var);
-      output->var = vars;
-      g_free (variables);
-    }
-
-    if (format != NULL) {
-      if (!strcmp (format, "gfs"))
-	output->format = GFS;
-      else if (!strcmp (format, "text"))
-	output->format = GFS_TEXT;
-      else if (!strcmp (format, "VTK"))
-	output->format = GFS_VTK;
-      else if (!strcmp (format, "Tecplot"))
-	output->format = GFS_TECPLOT;
-      else {
-	gts_file_variable_error (fp, var, "format",
-				 "unknown format `%s'", format);
-	g_free (format);
-	return;
-      }
-      g_free (format);
-    }
-
-    if (precision != NULL) {
-      if (output->precision != default_precision)
-	g_free (output->precision);
-      output->precision = precision;
-    }
-  }
-}
-
-static void gfs_output_simulation_class_init (GfsEventClass * klass)
-{
-  klass->event = output_simulation_event;
-  GTS_OBJECT_CLASS (klass)->destroy = output_simulation_destroy;
-  GTS_OBJECT_CLASS (klass)->read = output_simulation_read;
-  GTS_OBJECT_CLASS (klass)->write = output_simulation_write;
-}
-
-static void gfs_output_simulation_init (GfsOutputSimulation * object)
-{
-  object->max_depth = -1;
-  object->var = NULL;
-  object->binary = 1;
-  object->solid = 1;
-  object->format = GFS;
-  object->precision = default_precision;
-}
-
-GfsOutputClass * gfs_output_simulation_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_simulation_info = {
-      "GfsOutputSimulation",
-      sizeof (GfsOutputSimulation),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_simulation_class_init,
-      (GtsObjectInitFunc) gfs_output_simulation_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_simulation_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputBoundaries: Object */
-
-static gboolean output_boundaries_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_output_class())->event) (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    FILE * fp = GFS_OUTPUT (event)->file->fp;
-    
-    gfs_draw_refined_boundaries (domain, fp);
-    gfs_draw_solid_boundaries (domain, fp);
-    gfs_draw_boundary_conditions (domain, fp);
-    fflush (fp);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_boundaries_class_init (GfsEventClass * klass)
-{
-  klass->event = output_boundaries_event;
-}
-
-GfsOutputClass * gfs_output_boundaries_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_boundaries_info = {
-      "GfsOutputBoundaries",
-      sizeof (GfsOutput),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_boundaries_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_boundaries_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputScalar: Object */
-
-static void gfs_output_scalar_destroy (GtsObject * o)
-{
-  GfsOutputScalar * output = GFS_OUTPUT_SCALAR (o);
-
-  if (output->box)
-    gts_object_destroy (GTS_OBJECT (output->box));
-  gts_object_destroy (GTS_OBJECT (output->f));
-  g_free (output->name);
-
-  (* GTS_OBJECT_CLASS (gfs_output_scalar_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_output_scalar_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsOutputScalar * output;
-
-  if (GTS_OBJECT_CLASS (gfs_output_scalar_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_output_scalar_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  output = GFS_OUTPUT_SCALAR (*o);
-  output->autoscale = TRUE;
-
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a keyword");
-      return;
-    }
-    else if (!strcmp (fp->token->str, "v")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      gfs_function_read (output->f, gfs_object_simulation (*o), fp);
-      output->name = gfs_function_description (output->f, TRUE);
-    }
-    else if (!strcmp (fp->token->str, "min")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      output->min = gfs_read_constant (fp, gfs_object_simulation (*o));
-      if (fp->type == GTS_ERROR)
-	return;
-      if (output->min > output->max) {
-	gts_file_error (fp, "min `%g' must be smaller than or equal to max `%g'", 
-			output->min, output->max);
-	return;
-      }
-      output->autoscale = FALSE;
-    }
-    else if (!strcmp (fp->token->str, "max")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      output->max = gfs_read_constant (fp, gfs_object_simulation (*o));
-      if (fp->type == GTS_ERROR)
-	return;
-      if (output->max < output->min) {
-	gts_file_error (fp, "max `%g' must be larger than or equal to min `%g'", 
-			output->max, output->min);
-	return;
-      }
-      output->autoscale = FALSE;
-    }
-    else if (!strcmp (fp->token->str, "maxlevel")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_INT) {
-	gts_file_error (fp, "expecting an integer (maxlevel)");
-	return;
-      }
-      output->maxlevel = atoi (fp->token->str);
-      gts_file_next_token (fp);
-    }
-    else if (!strcmp (fp->token->str, "box")) {
-      gchar * box, * s;
-
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_STRING) {
-	gts_file_error (fp, "expecting a string (box)");
-	return;
-      }
-      box = g_strdup (fp->token->str);
-      s = strtok (box, ",");
-      output->box = GTS_BBOX (gts_object_new (GTS_OBJECT_CLASS (gts_bbox_class ())));
-      if (s == NULL) {
-	gts_file_error (fp, "expecting a number (x1)");
-	g_free (box);
-	return;
-      }
-      output->box->x1 = atof (s);
-      s = strtok (NULL, ",");
-      if (s == NULL) {
-	gts_file_error (fp, "expecting a number (y1)");
-	g_free (box);
-	return;
-      }
-      output->box->y1 = atof (s);
-      s = strtok (NULL, ",");
-#if (!FTT_2D)
-      if (s == NULL) {
-	gts_file_error (fp, "expecting a number (z1)");
-	g_free (box);
-	return;
-      }
-      output->box->z1 = atof (s);
-      s = strtok (NULL, ",");
-#endif /* 3D */
-      if (s == NULL) {
-	gts_file_error (fp, "expecting a number (x2)");
-	g_free (box);
-	return;
-      }
-      output->box->x2 = atof (s);
-      if (output->box->x2 < output->box->x1) {
-	gts_file_error (fp, "x2 must be larger than x1");
-	g_free (box);
-	return;
-      }
-      s = strtok (NULL, ",");
-      if (s == NULL) {
-	gts_file_error (fp, "expecting a number (y2)");
-	g_free (box);
-	return;
-      }
-      output->box->y2 = atof (s);
-      if (output->box->y2 < output->box->y1) {
-	gts_file_error (fp, "y2 must be larger than y1");
-	g_free (box);
-	return;
-      }
-#if (!FTT_2D)
-      s = strtok (NULL, ",");
-      if (s == NULL) {
-	gts_file_error (fp, "expecting a number (z2)");
-	g_free (box);
-	return;
-      }
-      output->box->z2 = atof (s);
-      if (output->box->z2 < output->box->z1) {
-	gts_file_error (fp, "z2 must be larger than z1");
-	g_free (box);
-	return;
-      }
-#endif /* 3D */
-      g_free (box);
-      gts_file_next_token (fp);
-    }
-    else {
-      gts_file_error (fp, "unknown keyword `%s'", fp->token->str);
-      return;
-    }
-  }
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-}
-
-static void gfs_output_scalar_write (GtsObject * o, FILE * fp)
-{
-  GfsOutputScalar * output = GFS_OUTPUT_SCALAR (o);
-
-  if (GTS_OBJECT_CLASS (gfs_output_scalar_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_output_scalar_class ())->parent_class->write) 
-      (o, fp);
-
-  fputs (" { v = ", fp);
-  gfs_function_write (output->f, fp);
-  if (output->maxlevel >= 0)
-    fprintf (fp, " maxlevel = %d", output->maxlevel);
-  if (output->box != NULL)
-#if FTT_2D
-    fprintf (fp, " box = %g,%g,%g,%g", 
-	     output->box->x1, output->box->y1, output->box->x2, output->box->y2);
-#else  /* 3D */
-    fprintf (fp, " box = %g,%g,%g,%g,%g,%g",
-	     output->box->x1, output->box->y1, output->box->z1,
-	     output->box->x2, output->box->y2, output->box->z2);
-#endif /* 3D */
-  if (!output->autoscale)
-    fprintf (fp, " min = %g max = %g }", output->min, output->max);
-  else
-    fputs (" }", fp);
-}
-
-static void update_v (FttCell * cell, GfsOutputScalar * output)
-{
-  GFS_VALUE (cell, output->v) = gfs_function_value (output->f, cell);
-}
-
-static gboolean gfs_output_scalar_event (GfsEvent * event,
-					 GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_scalar_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-    GfsDomain * domain = GFS_DOMAIN (sim);
-
-    if (!(output->v = gfs_function_get_variable (output->f)) ||
-	gfs_variable_is_dimensional (output->v)) {
-      output->v = gfs_temporary_variable (domain);
-      gfs_domain_cell_traverse (domain,
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) update_v, output);
-    }
-    if (output->maxlevel >= 0)
-        gfs_domain_cell_traverse (domain,
-				  FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-				  (FttCellTraverseFunc) output->v->fine_coarse,
-				  output->v);
-    if (output->autoscale) {
-      GtsRange stats = gfs_domain_stats_variable (domain, output->v, 
-	     FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, output->maxlevel);
-
-      output->min = stats.min;
-      output->max = stats.max;
-    }
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_scalar_post_event (GfsEvent * event,
-					  GfsSimulation * sim)
-{
-  GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-
-  if (output->v != gfs_function_get_variable (output->f)) {
-    gts_object_destroy (GTS_OBJECT (output->v));
-    output->v = NULL;
-  }
-}
-
-static void gfs_output_scalar_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_scalar_event;
-  GFS_EVENT_CLASS (klass)->post_event = gfs_output_scalar_post_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_scalar_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_output_scalar_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_output_scalar_destroy;
-}
-
-static void gfs_output_scalar_init (GfsOutputScalar * object)
-{
-  object->f = gfs_function_new (gfs_function_class (), 0.);
-  object->min = -G_MAXDOUBLE;
-  object->max =  G_MAXDOUBLE;
-  object->autoscale = TRUE;
-  object->maxlevel = -1;
-  object->box = NULL;
-}
-
-GfsOutputClass * gfs_output_scalar_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_scalar_info = {
-      "GfsOutputScalar",
-      sizeof (GfsOutputScalar),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_scalar_class_init,
-      (GtsObjectInitFunc) gfs_output_scalar_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_class ()),
-				  &gfs_output_scalar_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputScalarNorm: Object */
-
-static gboolean gfs_output_scalar_norm_event (GfsEvent * event, 
-					      GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_scalar_norm_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-    GfsNorm norm = gfs_domain_norm_variable (GFS_DOMAIN (sim), 
-					     output->v, NULL,
-					     FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, 
-					     output->maxlevel);
-
-    fprintf (GFS_OUTPUT (event)->file->fp, 
-	     "%s time: %g first: % 10.3e second: % 10.3e infty: % 10.3e\n",
-	     output->name,
-	     sim->time.t,
-	     norm.first, norm.second, norm.infty);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_scalar_norm_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_scalar_norm_event;
-}
-
-GfsOutputClass * gfs_output_scalar_norm_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_scalar_norm_info = {
-      "GfsOutputScalarNorm",
-      sizeof (GfsOutputScalar),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_scalar_norm_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_scalar_norm_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputScalarStats: Object */
-
-static gboolean gfs_output_scalar_stats_event (GfsEvent * event, 
-					     GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_scalar_stats_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-    GtsRange stats = gfs_domain_stats_variable (GFS_DOMAIN (sim), 
-						output->v,
-						FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, 
-						output->maxlevel);
-
-    fprintf (GFS_OUTPUT (event)->file->fp, 
-	     "%s time: %g min: %10.3e avg: %10.3e | %10.3e max: %10.3e\n",
-	     output->name, sim->time.t,
-	     stats.min, stats.mean, stats.stddev, stats.max);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_scalar_stats_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_scalar_stats_event;
-}
-
-GfsOutputClass * gfs_output_scalar_stats_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_scalar_stats_info = {
-      "GfsOutputScalarStats",
-      sizeof (GfsOutputScalar),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_scalar_stats_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_scalar_stats_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputScalarSum: Object */
-
-static void add (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-  gdouble vol = gfs_cell_volume (cell, v->domain);
-  gdouble * sum = data[1];
-
-  *sum += vol*GFS_VALUE (cell, v);
-}
-
-static gboolean gfs_output_scalar_sum_event (GfsEvent * event, 
-					     GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_scalar_sum_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-    gpointer data[2];
-    gdouble sum = 0.;
-
-    data[0] = output->v;
-    data[1] = &sum;
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-			      FTT_PRE_ORDER, 
-			      FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,
-			      output->maxlevel,
-			      (FttCellTraverseFunc) add, data);
-    gfs_all_reduce (GFS_DOMAIN (sim), sum, MPI_DOUBLE, MPI_SUM);
-    fprintf (GFS_OUTPUT (event)->file->fp, 
-	     "%s time: %g sum: % 15.6e\n", output->name, sim->time.t, 
-	     sum*pow (sim->physical_params.L, FTT_DIMENSION));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_scalar_sum_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_scalar_sum_event;
-}
-
-GfsOutputClass * gfs_output_scalar_sum_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_scalar_sum_info = {
-      "GfsOutputScalarSum",
-      sizeof (GfsOutputScalar),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_scalar_sum_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_scalar_sum_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputScalarMaxima: Object */
-
-static void gfs_output_scalar_maxima_destroy (GtsObject * o)
-{
-  guint i;
-
-  for (i = 0; i < 4; i++)
-    g_free (GFS_OUTPUT_SCALAR_MAXIMA (o)->m[i]);
-
-  (* GTS_OBJECT_CLASS (gfs_output_scalar_maxima_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_output_scalar_maxima_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsOutputScalarMaxima * m;
-  guint i;
-
-  (* GTS_OBJECT_CLASS (gfs_output_scalar_maxima_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_INT) {
-    gts_file_error (fp, "expecting an integer (N)");
-    return;
-  }
-  m = GFS_OUTPUT_SCALAR_MAXIMA (*o);
-  m->N = atoi (fp->token->str);
-  gts_file_next_token (fp);
-
-  for (i = 0; i < 4; i++)
-    m->m[i] = g_malloc (sizeof (gdouble)*m->N);
-}
-
-static void gfs_output_scalar_maxima_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_output_scalar_maxima_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %d", GFS_OUTPUT_SCALAR_MAXIMA (o)->N);
-}
-
-static void maxima (FttCell * cell, GfsOutputScalarMaxima * m)
-{
-  guint i;
-
-  for (i = 0; i < m->N; i++) {
-    gdouble v = GFS_VARIABLE (cell, GFS_OUTPUT_SCALAR (m)->v->i);
-
-    if (v > m->m[3][i]) {
-      FttVector p;
-
-      gfs_cell_cm (cell, &p);
-      gfs_simulation_map_inverse (gfs_object_simulation (m), &p);
-      m->m[0][i] = p.x; m->m[1][i] = p.y; m->m[2][i] = p.z;
-      m->m[3][i] = v;
-      return;
-    }
-  }
-}
-
-static gboolean gfs_output_scalar_maxima_event (GfsEvent * event, 
-						GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_scalar_maxima_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-    GfsOutputScalarMaxima * m = GFS_OUTPUT_SCALAR_MAXIMA (event);
-    guint i;
-
-    for (i = 0; i < m->N; i++)
-      m->m[3][i] = -G_MAXDOUBLE;
-
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-			      FTT_PRE_ORDER, 
-			      FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,
-			      output->maxlevel,
-			      (FttCellTraverseFunc) maxima, m);
-    for (i = 0; i < m->N; i++)
-      fprintf (GFS_OUTPUT (event)->file->fp, 
-	       "%s time: %g #: %d x: %g y: %g z: %g value: %g\n", 
-	       output->name, sim->time.t, i,
-	       m->m[0][i], m->m[1][i], m->m[2][i],
-	       m->m[3][i]);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_scalar_maxima_class_init (GfsOutputClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_output_scalar_maxima_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_scalar_maxima_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_output_scalar_maxima_write;
-  GFS_EVENT_CLASS (klass)->event = gfs_output_scalar_maxima_event;
-}
-
-GfsOutputClass * gfs_output_scalar_maxima_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_scalar_maxima_info = {
-      "GfsOutputScalarMaxima",
-      sizeof (GfsOutputScalarMaxima),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_scalar_maxima_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_scalar_maxima_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputScalarHistogram: Object */
-
-static void gfs_output_scalar_histogram_destroy (GtsObject * o)
-{
-  GfsOutputScalarHistogram * output = GFS_OUTPUT_SCALAR_HISTOGRAM (o);
-
-  g_free (output->x);
-  g_free (output->w);
-  if (output->wf)
-    gts_object_destroy (GTS_OBJECT (output->wf));
-  if (output->yf) {
-    gts_object_destroy (GTS_OBJECT (output->yf));
-    g_free (output->y);
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_output_scalar_histogram_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_output_scalar_histogram_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsOutputScalarHistogram * output;
-
-  (* GTS_OBJECT_CLASS (gfs_output_scalar_histogram_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  output = GFS_OUTPUT_SCALAR_HISTOGRAM (*o);
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a keyword");
-      return;
-    }
-    else if (!strcmp (fp->token->str, "n")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_INT) {
-	gts_file_error (fp, "expecting a number (n)");
-	return;
-      }
-      output->n = atoi (fp->token->str);
-      if (output->n <= 0) {
-	gts_file_error (fp, "n `%d' must be strictly positive", output->n);
-	return;
-      }
-      gts_file_next_token (fp);
-    }
-    else if (!strcmp (fp->token->str, "w")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      output->wf = gfs_function_new (gfs_function_class (), 0.);
-      gfs_function_read (output->wf, gfs_object_simulation (*o), fp);
-    }
-    else if (!strcmp (fp->token->str, "y")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting '='");
-	return;
-      }
-      gts_file_next_token (fp);
-      output->yf = gfs_function_new (gfs_function_class (), 0.);
-      gfs_function_read (output->yf, gfs_object_simulation (*o), fp);
-    }
-    else {
-      gts_file_error (fp, "unknown keyword `%s'", fp->token->str);
-      return;
-    }
-  }
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-
-  output->x = g_malloc0 (output->n*sizeof (gdouble));
-  output->w = g_malloc0 (output->n*sizeof (gdouble));
-  if (output->yf)
-    output->y = g_malloc0 (output->n*sizeof (gdouble));
-}
-
-static void gfs_output_scalar_histogram_write (GtsObject * o, FILE * fp)
-{
-  GfsOutputScalarHistogram * output = GFS_OUTPUT_SCALAR_HISTOGRAM (o);
-
-  (* GTS_OBJECT_CLASS (gfs_output_scalar_histogram_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " { n = %d", output->n);
-  if (output->wf) {
-    fputs (" w = ", fp);
-    gfs_function_write (output->wf, fp);
-  }
-  if (output->yf) {
-    fputs (" y = ", fp);
-    gfs_function_write (output->yf, fp);
-  }
-  fputs (" }", fp);
-}
-
-static void update_histogram (FttCell * cell, GfsOutputScalar * h)
-{
-  GfsOutputScalarHistogram * hi = GFS_OUTPUT_SCALAR_HISTOGRAM (h);
-  gdouble v = GFS_VALUE (cell, h->v);
-  gint i = (v - h->min)/(h->max - h->min)*hi->n;
-
-  if (i >= 0 && i < hi->n) {
-    gdouble w = hi->dt;
-
-    if (hi->wf)
-      w *= gfs_function_value (hi->wf, cell);
-    else
-      w *= gfs_cell_volume (cell, h->v->domain);
-
-    hi->W += w;
-    hi->w[i] += w;
-    hi->x[i] += v*w;
-    if (hi->yf)
-      hi->y[i] += w*gfs_function_value (hi->yf, cell);
-  }
-}
-
-static gboolean gfs_output_scalar_histogram_event (GfsEvent * event,
-						   GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_scalar_histogram_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputScalarHistogram * h = GFS_OUTPUT_SCALAR_HISTOGRAM (event);
-
-    if (gfs_event_is_repetitive (event))
-      h->dt = h->last >= 0. ? sim->time.t - h->last : 0.;
-    else
-      h->dt = 1.;
-
-    if (h->dt > 0.) {
-      GfsOutput * output = GFS_OUTPUT (event);
-      guint i;
-
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, 
-				FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, 
-				GFS_OUTPUT_SCALAR (output)->maxlevel,
-				(FttCellTraverseFunc) update_histogram, output);
-
-      if (output->file && !output->dynamic)
-	output->file->fp = freopen (output->format, "w", output->file->fp);
-      for (i = 0; i < h->n; i++)
-	if (h->w[i] > 0.) {
-	  fprintf (output->file->fp, "%g %g", h->x[i]/h->w[i], h->w[i]/h->W);
-	  if (h->yf)
-	    fprintf (output->file->fp, " %g", h->y[i]/h->w[i]);
-	  fputc ('\n', output->file->fp);
-	}
-      if (output->file && !output->dynamic)
-	fflush (output->file->fp);
-    }
-    h->last = sim->time.t;
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_scalar_histogram_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_scalar_histogram_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_scalar_histogram_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_output_scalar_histogram_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_output_scalar_histogram_destroy;
-}
-
-static void gfs_output_scalar_histogram_init (GfsOutputScalarHistogram * object)
-{
-  GFS_OUTPUT_SCALAR (object)->min = -1.;
-  GFS_OUTPUT_SCALAR (object)->max =  1.;
-  GFS_OUTPUT_SCALAR (object)->autoscale = FALSE;
-  object->n = 100;
-  object->W = 0.;
-  object->last = -1.;
-}
-
-GfsOutputClass * gfs_output_scalar_histogram_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_scalar_histogram_info = {
-      "GfsOutputScalarHistogram",
-      sizeof (GfsOutputScalarHistogram),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_scalar_histogram_class_init,
-      (GtsObjectInitFunc) gfs_output_scalar_histogram_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_scalar_histogram_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputDropletSums: Object */
-
-static void gfs_output_droplet_sums_destroy (GtsObject * object)
-{
-  GfsOutputDropletSums * d = GFS_OUTPUT_DROPLET_SUMS (object);
-  gts_object_destroy (GTS_OBJECT (d->c));
-  if (d->tag)
-    gts_object_destroy (GTS_OBJECT (d->tag));
-
-  (* GTS_OBJECT_CLASS (gfs_output_droplet_sums_class ())->parent_class->destroy) (object);
-}
-
-static void gfs_output_droplet_sums_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_output_droplet_sums_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsOutputDropletSums * d = GFS_OUTPUT_DROPLET_SUMS (*o);
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  gfs_function_read (d->c, domain, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type == GTS_STRING) {
-    if (!(d->tag = gfs_domain_get_or_add_variable (domain, fp->token->str, "Droplet index"))) {
-      gts_file_error (fp, "`%s' is a reserved variable name", fp->token->str);
-      return;
-    }
-    gts_file_next_token (fp);
-  }
-}
-
-static void gfs_output_droplet_sums_write (GtsObject * o, FILE * fp)
-{
-  GfsOutputDropletSums * d = GFS_OUTPUT_DROPLET_SUMS (o);
-
-  (* GTS_OBJECT_CLASS (gfs_output_droplet_sums_class ())->parent_class->write) (o, fp);
-
-  gfs_function_write (d->c, fp);
-  if (d->tag)
-    fprintf (fp, " %s", d->tag->name);
-}
-
-typedef struct {
-  double v, f;
-} VolumePair;
-
-typedef struct {
-  GfsVariable * s, * c, * tag;
-  VolumePair * v;
-  guint n;
-  GfsFunction * fc;
-} DropSumsPar;
-
-static void droplet_sums (FttCell * cell, DropSumsPar * p)
-{
-  guint i = GFS_VALUE (cell, p->tag);
-  if (i > 0) {
-    p->v[i - 1].v += GFS_VALUE (cell, p->c)*ftt_cell_volume (cell);
-    p->v[i - 1].f += GFS_VALUE (cell, p->s);
-  }
-}
-
-static void compute_c (FttCell * cell, DropSumsPar * p)
-{
-  GFS_VALUE (cell, p->c) = gfs_function_value (p->fc, cell);
-}
-
-static int volume_sort (const void * p1, const void * p2)
-{
-  VolumePair * a = (VolumePair *) p1;
-  VolumePair * b = (VolumePair *) p2;
-  return a->v < b->v ? 1 : -1;
-}
-
-static gboolean gfs_output_droplet_sums_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_droplet_sums_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputDropletSums * d = GFS_OUTPUT_DROPLET_SUMS (event);
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    DropSumsPar p;
-    p.s = GFS_OUTPUT_SCALAR (event)->v;
-    p.c = gfs_function_get_variable (d->c);
-    if (!p.c) {
-      p.c = gfs_temporary_variable (domain);
-      p.fc = d->c;
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-				(FttCellTraverseFunc) compute_c, &p);
-    }
-    p.tag = d->tag ? d->tag : gfs_temporary_variable (domain);
-    p.n = gfs_domain_tag_droplets (domain, p.c, p.tag);
-    if (p.n > 0) {
-      p.v = g_malloc0 (p.n*sizeof (VolumePair));
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) droplet_sums, &p);
-#ifdef HAVE_MPI
-      if (domain->pid >= 0) {
-	VolumePair * gv = g_malloc0 (p.n*sizeof (VolumePair));
-	MPI_Allreduce (p.v, gv, p.n*2, MPI_DOUBLE, MPI_SUM, MPI_COMM_WORLD);
-	g_free (p.v);
-	p.v = gv;
-      }
-#endif /* HAVE_MPI */      
-      qsort (p.v, p.n, sizeof (VolumePair), volume_sort);
-      guint i;
-      for (i = 0; i < p.n; i++)
-	fprintf (GFS_OUTPUT (event)->file->fp, "%g %d %.12g\n", sim->time.t, i + 1, p.v[i].f);
-      g_free (p.v);
-    }
-    if (p.tag != d->tag)
-      gts_object_destroy (GTS_OBJECT (p.tag));
-    if (!gfs_function_get_variable (d->c))
-      gts_object_destroy (GTS_OBJECT (p.c));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_droplet_sums_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_droplet_sums_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_droplet_sums_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_output_droplet_sums_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_output_droplet_sums_destroy;
-}
-
-static void gfs_output_droplet_sums_init (GfsOutputDropletSums * d)
-{
-  d->c = gfs_function_new (gfs_function_class (), 0.);
-}
-
-GfsOutputClass * gfs_output_droplet_sums_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_droplet_sums_info = {
-      "GfsOutputDropletSums",
-      sizeof (GfsOutputDropletSums),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_droplet_sums_class_init,
-      (GtsObjectInitFunc) gfs_output_droplet_sums_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_droplet_sums_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputErrorNorm: Object */
-
-static void output_error_norm_destroy (GtsObject * o)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_OUTPUT_ERROR_NORM (o)->s));
-  gts_object_destroy (GTS_OBJECT (GFS_OUTPUT_ERROR_NORM (o)->w));
-
-  (* GTS_OBJECT_CLASS (gfs_output_error_norm_class ())->parent_class->destroy) (o);
-}
-
-static void output_error_norm_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsOutputErrorNorm * n;
-
-  if (GTS_OBJECT_CLASS (gfs_output_error_norm_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_output_error_norm_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  n = GFS_OUTPUT_ERROR_NORM (*o);
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a parameter");
-      return;
-    }
-    else if (!strcmp (fp->token->str, "unbiased")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting `='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_INT) {
-	gts_file_error (fp, "expecting an integer");
-	return;
-      }
-      n->unbiased = atoi (fp->token->str);
-      gts_file_next_token (fp);
-    }
-    else if (!strcmp (fp->token->str, "relative")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting `='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_INT) {
-	gts_file_error (fp, "expecting an integer");
-	return;
-      }
-      n->relative = atoi (fp->token->str);
-      gts_file_next_token (fp);
-    }
-    else if (!strcmp (fp->token->str, "s")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting `='");
-	return;
-      }
-      gts_file_next_token (fp);
-      gfs_function_read (n->s, gfs_object_simulation (*o), fp);
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-    else if (!strcmp (fp->token->str, "w")) {
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting `='");
-	return;
-      }
-      gts_file_next_token (fp);
-      gfs_function_read (n->w, gfs_object_simulation (*o), fp);
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-    else if (!strcmp (fp->token->str, "v")) {
-      GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting `='");
-	return;
-      }
-      gts_file_next_token (fp);
-      if (fp->type != GTS_STRING) {
-	gts_file_error (fp, "expecting a variable name");
-	return;
-      }
-      if (!(n->v = gfs_domain_get_or_add_variable (domain, fp->token->str, "Error field"))) {
-	gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-	return;
-      }
-      gts_file_next_token (fp);
-    }
-    else {
-      gts_file_error (fp, "unknown identifier `%s'", fp->token->str);
-      return;
-    }
-  }
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-}
-
-static void output_error_norm_write (GtsObject * o, FILE * fp)
-{
-  GfsOutputErrorNorm * n = GFS_OUTPUT_ERROR_NORM (o);
-
-  if (GTS_OBJECT_CLASS (gfs_output_error_norm_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_output_error_norm_class ())->parent_class->write) 
-      (o, fp);
-  fputs (" { s = ", fp);
-  gfs_function_write (n->s, fp);
-  fputs (" w = ", fp);
-  gfs_function_write (n->w, fp);
-  fprintf (fp, " unbiased = %d relative = %d", n->unbiased, n->relative);
-  if (n->v)
-    fprintf (fp, " v = %s }", n->v->name);
-  else
-    fputs (" }", fp);
-}
-
-static void reference_solution (FttCell * cell, GfsOutputScalar * o)
-{
-  GFS_VALUE (cell, GFS_OUTPUT_ERROR_NORM (o)->v) = 
-    gfs_function_value (GFS_OUTPUT_ERROR_NORM (o)->s, cell);
-}
-
-static void substract (FttCell * cell, GfsOutputScalar * o)
-{
-  GFS_VALUE (cell, GFS_OUTPUT_ERROR_NORM (o)->v) = GFS_VALUE (cell, o->v) -
-    GFS_VALUE (cell, GFS_OUTPUT_ERROR_NORM (o)->v);
-}
-
-static void compute_error (FttCell * cell, GfsOutputScalar * o)
-{
-  GFS_VALUE (cell, GFS_OUTPUT_ERROR_NORM (o)->v) = GFS_VALUE (cell, o->v) -
-    gfs_function_value (GFS_OUTPUT_ERROR_NORM (o)->s, cell);
-}
-
-static void remove_bias (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-  GfsNorm * norm = data[1];
-  GFS_VALUE (cell, v) -= norm->bias;
-}
-
-static gboolean gfs_output_error_norm_event (GfsEvent * event, 
-					     GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_error_norm_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-    GfsOutputErrorNorm * enorm = GFS_OUTPUT_ERROR_NORM (event);
-    GfsVariable * v = enorm->v;
-    GfsNorm norm, snorm;
-
-    if (v == NULL)
-      enorm->v = gfs_temporary_variable (domain);
-    if (enorm->relative) {
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, 
-				FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,  
-				output->maxlevel,
-				(FttCellTraverseFunc) reference_solution, output);
-      snorm = gfs_domain_norm_variable (domain, enorm->v, enorm->w,
-					FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, 
-					output->maxlevel);
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, 
-				FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,  
-				output->maxlevel,
-				(FttCellTraverseFunc) substract, output);
-    }
-    else
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, 
-				FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,  
-				output->maxlevel,
-				(FttCellTraverseFunc) compute_error, output);
-    norm = gfs_domain_norm_variable (domain, enorm->v, enorm->w,
-				     FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, 
-				     output->maxlevel);
-    if (GFS_OUTPUT_ERROR_NORM (event)->unbiased) {
-      gpointer data[2];
-
-      data[0] = enorm->v;
-      data[1] = &norm;
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, 
-				FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,  
-				output->maxlevel,
-				(FttCellTraverseFunc) remove_bias, data);
-      norm = gfs_domain_norm_variable (domain, enorm->v, enorm->w,
-				       FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, 
-				       output->maxlevel);
-    }
-    if (v == NULL) {
-      gts_object_destroy (GTS_OBJECT (enorm->v));
-      enorm->v = NULL;
-    }
-    if (enorm->relative) {
-      if (snorm.first > 0.)  norm.first  /= snorm.first;
-      if (snorm.second > 0.) norm.second /= snorm.second;
-      if (snorm.infty > 0.)  norm.infty  /= snorm.infty;
-    }
-    fprintf (GFS_OUTPUT (event)->file->fp,
-	     "%s time: %g first: % 10.3e second: % 10.3e infty: % 10.3e bias: %10.3e\n",
-	     output->name, sim->time.t,
-	     norm.first, norm.second, norm.infty, norm.bias);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_error_norm_class_init (GfsOutputClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = output_error_norm_destroy;
-  GTS_OBJECT_CLASS (klass)->read = output_error_norm_read;
-  GTS_OBJECT_CLASS (klass)->write = output_error_norm_write;
-  GFS_EVENT_CLASS (klass)->event = gfs_output_error_norm_event;
-}
-
-static void output_error_norm_init (GfsOutputErrorNorm * e)
-{
-  e->s = gfs_function_new (gfs_function_class (), 0.);
-  e->w = gfs_function_new (gfs_function_class (), 1.);
-}
-
-GfsOutputClass * gfs_output_error_norm_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_error_norm_info = {
-      "GfsOutputErrorNorm",
-      sizeof (GfsOutputErrorNorm),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_error_norm_class_init,
-      (GtsObjectInitFunc) output_error_norm_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_error_norm_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputCorrelation: Object */
-
-static void compute_correlation (FttCell * cell, gpointer * data)
-{
-  GfsOutputScalar * o = data[0];
-  gdouble * bias = data[1];
-  gdouble * sum = data[2];
-  gdouble * sumref = data[3];
-  gdouble v, ref, w;
-
-  ref = gfs_function_value (GFS_OUTPUT_ERROR_NORM (o)->s, cell);
-  v = GFS_VALUE (cell, o->v) - *bias;
-  w = gfs_cell_volume (cell, o->v->domain);
-  *sumref += ref*ref*w;
-  *sum += v*ref*w;
-}
-
-static gboolean gfs_output_correlation_event (GfsEvent * event, 
-					      GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_error_norm_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-    GfsOutputErrorNorm * enorm = GFS_OUTPUT_ERROR_NORM (event);
-    GfsVariable * v = enorm->v;
-    gdouble bias = 0., sum = 0., sumref = 0.;
-    gpointer data[4];
-
-    if (GFS_DOMAIN (sim)->pid != -1)
-      g_assert_not_implemented ();
-
-    if (v == NULL)
-      enorm->v = gfs_temporary_variable (GFS_DOMAIN (sim));
-    if (enorm->unbiased) {
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER,
-				FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,
-				output->maxlevel,
-				(FttCellTraverseFunc) compute_error, output);
-      bias = gfs_domain_norm_variable (GFS_DOMAIN (sim), enorm->v, NULL,
-				       FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, 
-				       output->maxlevel).bias;
-    }
-    data[0] = output;
-    data[1] = &bias;
-    data[2] = &sum;
-    data[3] = &sumref;
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER,
-			      FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,
-			      output->maxlevel,
-			      (FttCellTraverseFunc) compute_correlation, data);
-    if (v == NULL) {
-      gts_object_destroy (GTS_OBJECT (enorm->v));
-      enorm->v = NULL;
-    }
-    fprintf (GFS_OUTPUT (event)->file->fp,
-	     "%s time: %g %10.3e\n",
-	     output->name, sim->time.t, sumref > 0. ? sum/sumref : 0.);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_correlation_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_correlation_event;
-}
-
-GfsOutputClass * gfs_output_correlation_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_correlation_info = {
-      "GfsOutputCorrelation",
-      sizeof (GfsOutputErrorNorm),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_correlation_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_error_norm_class ()),
-				  &gfs_output_correlation_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputSquares: Object */
-
-static gboolean gfs_output_squares_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_squares_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-    
-    gfs_write_squares (GFS_DOMAIN (sim), 
-		       output->v, output->min, output->max,
-		       FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL,
-		       output->maxlevel, NULL, 
-		       GFS_OUTPUT (event)->file->fp);
-    fflush (GFS_OUTPUT (event)->file->fp);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_squares_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_squares_event;
-}
-
-GfsOutputClass * gfs_output_squares_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_squares_info = {
-      "GfsOutputSquares",
-      sizeof (GfsOutputScalar),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_squares_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_squares_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputStreamline: Object */
-
-static void gfs_output_streamline_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsOutputStreamline * l = GFS_OUTPUT_STREAMLINE (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_output_streamline_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_output_streamline_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (p.x)");
-    return;
-  }
-  l->p.x = atof (fp->token->str);
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (p.y)");
-    return;
-  }
-  l->p.y = atof (fp->token->str);
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT) {
-    gts_file_error (fp, "expecting a number (p.z)");
-    return;
-  }
-  l->p.z = atof (fp->token->str);
-  gts_file_next_token (fp);
-}
-
-static void gfs_output_streamline_write (GtsObject * o, FILE * fp)
-{
-  GfsOutputStreamline * l = GFS_OUTPUT_STREAMLINE (o);
-
-  if (GTS_OBJECT_CLASS (gfs_output_streamline_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_output_streamline_class ())->parent_class->write) 
-      (o, fp);
-  fprintf (fp, " %g %g %g", l->p.x, l->p.y, l->p.z);
-}
-
-static gboolean gfs_output_streamline_event (GfsEvent * event, 
-					    GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_streamline_class ())->parent_class)->event)
-      (event,sim)) {
-    FttVector p = GFS_OUTPUT_STREAMLINE (event)->p;
-    gfs_simulation_map (sim, &p);
-    GList * stream = gfs_streamline_new (GFS_DOMAIN (sim),
-					 gfs_domain_velocity (GFS_DOMAIN (sim)),
-					 p,
-					 GFS_OUTPUT_SCALAR (event)->v,
-					 0., 0.,
-					 TRUE,
-					 NULL, NULL);
-    /* fixme: mapping is not taken into account */
-    gfs_streamline_write (stream, GFS_OUTPUT (event)->file->fp);
-    fflush (GFS_OUTPUT (event)->file->fp);
-    gfs_streamline_destroy (stream);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_streamline_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_streamline_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_streamline_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_output_streamline_write;
-}
-
-GfsOutputClass * gfs_output_streamline_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_streamline_info = {
-      "GfsOutputStreamline",
-      sizeof (GfsOutputStreamline),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_streamline_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_streamline_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputParticle: Object */
-
-static gboolean gfs_output_particle_event (GfsEvent * event, 
-					   GfsSimulation * sim)
-{
-  GfsOutputLocation * location = GFS_OUTPUT_LOCATION (event);
-  gboolean ret = FALSE;
-  guint i;
-
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_location_class ())->parent_class)->event)
-      (event,sim)) {
-    FILE * fp = GFS_OUTPUT (event)->file->fp;
-
-    for (i = 0; i < location->p->len; i++) {
-      FttVector p = g_array_index (location->p, FttVector, i);
-      fprintf (fp, "%d %g %g %g %g\n", i, sim->time.t, p.x, p.y, p.z);
-    }
-    fflush (fp);
-    ret = TRUE;
-  }
-  
-  for (i = 0; i < location->p->len; i++) {
-    FttVector p = g_array_index (location->p, FttVector, i);
-    gfs_simulation_map (sim, &p);
-    gfs_domain_advect_point (GFS_DOMAIN (sim), &p, sim->advection_params.dt);
-    gfs_simulation_map_inverse (sim, &p);
-    g_array_index (location->p, FttVector, i) = p;
-  }
-
-  return ret;
-}
-
-static void gfs_output_particle_class_init (GfsOutputClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_output_particle_event;
-}
-
-GfsOutputClass * gfs_output_particle_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_particle_info = {
-      "GfsOutputParticle",
-      sizeof (GfsOutputLocation),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_particle_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_location_class ()),
-				  &gfs_output_particle_info);
-  }
-
-  return klass;
-}
-
-/* GfsOutputPPM: Object */
-
-static void gfs_output_ppm_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_output_ppm_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_output_ppm_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-#if (!FTT_2D)
-  if (!GFS_IS_OCEAN (gfs_object_simulation (*o))) {
-    gts_file_error (fp, 
-		    "In more than two dimensions PPM output is possible\n"
-		    "only for GfsOcean simulations");
-    return;
-  }
-#endif /* 2D3 or 3D */
-}
-
-static gboolean gfs_output_ppm_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_output_ppm_class ())->parent_class)->event) 
-      (event, sim)) {
-    GfsOutputScalar * output = GFS_OUTPUT_SCALAR (event);
-#if FTT_2D
-    GfsDomain * domain = GFS_DOMAIN (sim);
-#else /* 2D3 or 3D */
-    GfsDomain * domain = GFS_IS_OCEAN (sim) ? GFS_OCEAN (sim)->toplayer : GFS_DOMAIN (sim);
-#endif /* 2D3 or 3D */
-
-    gfs_write_ppm (domain,
-		   output->box,
-		   output->v, output->min, output->max,
-		   FTT_TRAVERSE_LEAFS|FTT_TRAVERSE_LEVEL, output->maxlevel,
-		   GFS_OUTPUT (event)->file->fp);
-    fflush (GFS_OUTPUT (event)->file->fp);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_output_ppm_class_init (GfsOutputClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_output_ppm_read;
-  GFS_EVENT_CLASS (klass)->event = gfs_output_ppm_event;
-}
-
-GfsOutputClass * gfs_output_ppm_class (void)
-{
-  static GfsOutputClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_output_ppm_info = {
-      "GfsOutputPPM",
-      sizeof (GfsOutputScalar),
-      sizeof (GfsOutputClass),
-      (GtsObjectClassInitFunc) gfs_output_ppm_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_output_scalar_class ()),
-				  &gfs_output_ppm_info);
-  }
-
-  return klass;
-}
diff --git a/src/output.h b/src/output.h
deleted file mode 100644
index c35c7a9..0000000
--- a/src/output.h
+++ /dev/null
@@ -1,367 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __OUTPUT_H__
-#define __OUTPUT_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "event.h"
-
-/* GfsOutput: Header */
-
-typedef struct _GfsOutput         GfsOutput;
-typedef struct _GfsOutputClass    GfsOutputClass;
-typedef struct _GfsOutputFile     GfsOutputFile;
-
-struct _GfsOutput {
-  GfsEvent parent;
-
-  GfsOutputFile * file;
-  gchar * format;
-  GSList * formats;
-  gboolean dynamic, parallel, first_call;
-};
-
-struct _GfsOutputClass {
-  GfsEventClass parent_class;
-};
-
-#define GFS_OUTPUT(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsOutput,\
-					           gfs_output_class ())
-#define GFS_OUTPUT_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						   GfsOutputClass,\
-						   gfs_output_class())
-#define GFS_IS_OUTPUT(obj)         (gts_object_is_from_class (obj,\
-						   gfs_output_class ()))
-     
-GfsOutputClass * gfs_output_class  (void);
-void             gfs_output_mute   (GfsOutput * output);
-
-struct _GfsOutputFile {
-  guint refcount;
-  gchar * name;
-  FILE * fp;
-  gboolean is_pipe;
-};
-
-GfsOutputFile * gfs_output_file_new     (FILE * fp);
-GfsOutputFile * gfs_output_file_open    (const gchar * name,
-					 const gchar * mode);
-void            gfs_output_file_close   (GfsOutputFile * file);
-
-/* GfsOutputTime: Header */
-
-typedef struct _GfsOutputTime         GfsOutputTime;
-
-struct _GfsOutputTime {
-  /*< private >*/
-  GfsOutput parent;
-
-  /*< public >*/
-  GfsClock * clock;
-  GTimer * timer;
-};
-
-#define GFS_OUTPUT_TIME(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOutputTime,\
-					         gfs_output_time_class ())
-#define GFS_IS_OUTPUT_TIME(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_time_class ()))
-
-GfsOutputClass * gfs_output_time_class  (void);
-
-/* GfsOutputProgress: Header */
-
-GfsOutputClass * gfs_output_progress_class  (void);
-
-/* GfsOutputProjectionStats: Header */
-
-GfsOutputClass * gfs_output_projection_stats_class  (void);
-
-/* GfsOutputDiffusionStats: Header */
-
-GfsOutputClass * gfs_output_diffusion_stats_class  (void);
-
-/* GfsOutputSolidStats: Header */
-
-GfsOutputClass * gfs_output_solid_stats_class  (void);
-
-/* GfsOutputAdaptStats: Header */
-
-GfsOutputClass * gfs_output_adapt_stats_class  (void);
-
-/* GfsOutputTiming: Header */
-
-GfsOutputClass * gfs_output_timing_class (void);
-
-/* GfsOutputBalance: Header */
-
-GfsOutputClass * gfs_output_balance_class  (void);
-
-/* GfsOutputSolidForce: Header */
-
-typedef struct _GfsOutputSolidForce         GfsOutputSolidForce;
-
-struct _GfsOutputSolidForce {
-  /*< private >*/
-  GfsOutput parent;
-
-  /*< public >*/
-  GfsFunction * weight;
-};
-
-#define GFS_OUTPUT_SOLID_FORCE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOutputSolidForce,\
-					         gfs_output_solid_force_class ())
-
-GfsOutputClass * gfs_output_solid_force_class (void);
-
-/* GfsOutputLocation: Header */
-
-typedef struct _GfsOutputLocation         GfsOutputLocation;
-
-struct _GfsOutputLocation {
-  /*< private >*/
-  GfsOutput parent;
-
-  /*< public >*/
-  GArray * p;
-};
-
-#define GFS_OUTPUT_LOCATION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOutputLocation,\
-					         gfs_output_location_class ())
-#define GFS_IS_OUTPUT_LOCATION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_location_class ()))
-
-GfsOutputClass * gfs_output_location_class  (void);
-
-/* GfsOutputSimulation: Header */
-
-typedef struct _GfsOutputSimulation         GfsOutputSimulation;
-typedef enum   { GFS, 
-		 GFS_TEXT, 
-		 GFS_VTK, 
-		 GFS_TECPLOT }              GfsOutputSimulationFormat;
-
-struct _GfsOutputSimulation {
-  GfsOutput parent;
-
-  gint max_depth;
-  GSList * var;
-  gboolean binary, solid;
-  gchar * precision;
-  GfsOutputSimulationFormat format;
-};
-
-#define GFS_OUTPUT_SIMULATION(obj)            GTS_OBJECT_CAST (obj,\
-					     GfsOutputSimulation,\
-					     gfs_output_simulation_class ())
-#define GFS_OUTPUT_SIMULATION_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-					     GfsOutputClass,\
-					     gfs_output_simulation_class())
-#define GFS_IS_OUTPUT_SIMULATION(obj)         (gts_object_is_from_class (obj,\
-					     gfs_output_simulation_class ()))
-     
-GfsOutputClass * gfs_output_simulation_class  (void);
-
-/* GfsOutputBoundaries: Header */
-
-GfsOutputClass * gfs_output_boundaries_class  (void);
-
-/* GfsOutputScalar: Header */
-
-typedef struct _GfsOutputScalar         GfsOutputScalar;
-
-struct _GfsOutputScalar {
-  /*< private >*/
-  GfsOutput parent;
-  gboolean autoscale;
-  GfsFunction * f;
-  
-  /*< public >*/
-  GfsVariable * v;
-  gchar * name;
-  gdouble min, max;
-  gint maxlevel;
-  GtsBBox * box;
-};
-
-#define GFS_OUTPUT_SCALAR(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOutputScalar,\
-					         gfs_output_scalar_class ())
-#define GFS_IS_OUTPUT_SCALAR(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_scalar_class ()))
-
-GfsOutputClass * gfs_output_scalar_class  (void);
-
-/* GfsOutputScalarNorm: Header */
-
-GfsOutputClass * gfs_output_scalar_norm_class  (void);
-
-/* GfsOutputScalarStats: Header */
-
-GfsOutputClass * gfs_output_scalar_stats_class  (void);
-
-/* GfsOutputScalarSum: Header */
-
-GfsOutputClass * gfs_output_scalar_sum_class  (void);
-
-/* GfsOutputScalarMaxima: Header */
-
-typedef struct _GfsOutputScalarMaxima         GfsOutputScalarMaxima;
-
-struct _GfsOutputScalarMaxima {
-  /*< private >*/
-  GfsOutputScalar parent;
-  
-  /*< public >*/
-  guint N;
-  gdouble * m[4];
-};
-
-#define GFS_OUTPUT_SCALAR_MAXIMA(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOutputScalarMaxima,\
-					         gfs_output_scalar_maxima_class ())
-#define GFS_IS_OUTPUT_SCALAR_MAXIMA(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_scalar_maxima_class ()))
-
-GfsOutputClass * gfs_output_scalar_maxima_class  (void);
-
-/* GfsOutputScalarHistogram: Header */
-
-typedef struct _GfsOutputScalarHistogram         GfsOutputScalarHistogram;
-
-struct _GfsOutputScalarHistogram {
-  /*< private >*/
-  GfsOutputScalar parent;
-  
-  /*< public >*/
-  gdouble * x, * y, * w, W;
-  GfsFunction * wf, * yf;
-  gdouble last, dt;
-  guint n;
-};
-
-#define GFS_OUTPUT_SCALAR_HISTOGRAM(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOutputScalarHistogram,\
-					         gfs_output_scalar_histogram_class ())
-#define GFS_IS_OUTPUT_SCALAR_HISTOGRAM(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_scalar_histogram_class ()))
-
-GfsOutputClass * gfs_output_scalar_histogram_class  (void);
-
-/* GfsOutputDropletSums: Header */
-
-typedef struct _GfsOutputDropletSums         GfsOutputDropletSums;
-
-struct _GfsOutputDropletSums {
-  /*< private >*/
-  GfsOutputScalar parent;
-
-  /*< public >*/
-  GfsFunction * c;
-  GfsVariable * tag;
-};
-
-#define GFS_OUTPUT_DROPLET_SUMS(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOutputDropletSums,\
-					         gfs_output_droplet_sums_class ())
-#define GFS_IS_OUTPUT_DROPLET_SUMS(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_droplet_sums_class ()))
-
-GfsOutputClass * gfs_output_droplet_sums_class  (void);
-
-/* GfsOutputErrorNorm: Header */
-
-typedef struct _GfsOutputErrorNorm        GfsOutputErrorNorm;
-
-struct _GfsOutputErrorNorm {
-  /*< private >*/
-  GfsOutputScalar parent;
-  GfsVariable * v;
-  
-  /*< public >*/
-  GfsFunction * s;
-  gboolean unbiased, relative;
-  GfsFunction * w;
-};
-
-#define GFS_OUTPUT_ERROR_NORM(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsOutputErrorNorm,\
-					         gfs_output_error_norm_class ())
-#define GFS_IS_OUTPUT_ERROR_NORM(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_error_norm_class ()))
-
-GfsOutputClass * gfs_output_error_norm_class  (void);
-
-/* GfsOutputCorrelation: Header */
-
-GfsOutputClass * gfs_output_correlation_class  (void);
-
-/* GfsOutputSquares: Header */
-
-#define GFS_IS_OUTPUT_SQUARES(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_squares_class ()))
-
-GfsOutputClass * gfs_output_squares_class  (void);
-
-/* GfsOutputStreamline: Header */
-
-typedef struct _GfsOutputStreamline         GfsOutputStreamline;
-
-struct _GfsOutputStreamline {
-  /*< private >*/
-  GfsOutputScalar parent;
-
-  /*< public >*/
-  FttVector p;
-};
-
-#define GFS_OUTPUT_STREAMLINE(obj)         GTS_OBJECT_CAST (obj,\
-					       GfsOutputStreamline,\
-					       gfs_output_streamline_class ())
-#define GFS_IS_OUTPUT_STREAMLINE(obj)     (gts_object_is_from_class (obj,\
-					       gfs_output_streamline_class ()))
-
-GfsOutputClass * gfs_output_streamline_class  (void);
-
-/* GfsOutputParticle: Header */
-
-#define GFS_IS_OUTPUT_PARTICLE(obj)     (gts_object_is_from_class (obj,\
-								   gfs_output_particle_class ()))
-
-GfsOutputClass * gfs_output_particle_class  (void);
-
-/* GfsOutputPPM: Header */
-
-#define GFS_IS_OUTPUT_PPM(obj)         (gts_object_is_from_class (obj,\
-						 gfs_output_ppm_class ()))
-
-GfsOutputClass * gfs_output_ppm_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __OUTPUT_H__ */
diff --git a/src/parabola.awk b/src/parabola.awk
deleted file mode 100644
index 90cdc41..0000000
--- a/src/parabola.awk
+++ /dev/null
@@ -1,22 +0,0 @@
-BEGIN {
-  x1 = -3./4.;
-  x2 = 1.;
-  x = 1./4.;
-
-  a1 = 1./(x1*x1 - x1*x2);
-  a2 = - 1./(x1*x2 - x2*x2);
-  a0 = - a1 - a2;
-
-  b1 = - x2/(x1*x1 - x1*x2);
-  b2 = x1/(x1*x2 - x2*x2);
-  b0 = - b1 - b2;
-
-  printf ("f(x)  = %g*p0 + %g*p1 + %g*p2\n",
-	  x*x*a0 + x*b0 + 1,
-	  x*x*a1 + x*b1,
-	  x*x*a2 + x*b2);
-  printf ("f'(x) = %g*p0 + %g*p1 + %g*p2\n",
-	  2.*a0*x + b0,
-	  2.*a1*x + b1,
-	  2.*a2*x + b2);
-}
diff --git a/src/poisson.c b/src/poisson.c
deleted file mode 100644
index 8dc8d21..0000000
--- a/src/poisson.c
+++ /dev/null
@@ -1,1157 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include "poisson.h"
-#include "solid.h"
-#include "source.h"
-#include "tension.h"
-
-/**
- * gfs_multilevel_params_write:
- * @par: the multilevel parameters.
- * @fp: a file pointer.
- *
- * Writes in @fp a text representation of the multilevel parameters
- * @par.  
- */
-void gfs_multilevel_params_write (GfsMultilevelParams * par, FILE * fp)
-{
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp,
-           "{\n"
-	   "  tolerance = %g\n"
-	   "  nrelax    = %u\n"
-           "  erelax    = %u\n"
-	   "  minlevel  = %u\n"
-	   "  nitermax  = %u\n"
-	   "  nitermin  = %u\n"
-	   "  weighted  = %d\n"
-	   "  beta      = %g\n",
-	   par->tolerance,
-	   par->nrelax,
-	   par->erelax,
-	   par->minlevel,
-	   par->nitermax,
-	   par->nitermin,
-	   par->weighted,
-	   par->beta);
-  if (par->omega != 1.)
-    fprintf (fp, "  omega     = %g\n", par->omega);
-  fputc ('}', fp);
-}
-
-void gfs_multilevel_params_init (GfsMultilevelParams * par)
-{
-  g_return_if_fail (par != NULL);
-
-  par->tolerance = 1e-3;
-  par->nrelax    = 4;
-  par->erelax    = 1;
-  par->minlevel  = 0;
-  par->nitermax  = 100;
-  par->nitermin  = 1;
-
-  par->dimension = FTT_DIMENSION;
-  par->weighted = FALSE;
-  par->beta = 0.5;
-  par->omega = 1.;
-}
-
-void gfs_multilevel_params_read (GfsMultilevelParams * par, GtsFile * fp)
-{
-  GtsFileVariable var[] = {
-    {GTS_DOUBLE, "tolerance", TRUE},
-    {GTS_UINT,   "nrelax",    TRUE},
-    {GTS_UINT,   "erelax",    TRUE},
-    {GTS_UINT,   "minlevel",  TRUE},
-    {GTS_UINT,   "nitermax",  TRUE},
-    {GTS_UINT,   "nitermin",  TRUE},
-    {GTS_INT,    "weighted",  TRUE},
-    {GTS_DOUBLE, "beta",      TRUE},
-    {GTS_DOUBLE, "omega",     TRUE},
-    {GTS_NONE}
-  };
-
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (fp != NULL);
-
-  var[0].data = &par->tolerance;
-  var[1].data = &par->nrelax;
-  var[2].data = &par->erelax;
-  var[3].data = &par->minlevel;
-  var[4].data = &par->nitermax;
-  var[5].data = &par->nitermin;
-  var[6].data = &par->weighted;
-  var[7].data = &par->beta;
-  var[8].data = &par->omega;
-
-  gts_file_assign_variables (fp, var);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (par->tolerance <= 0.) {
-    gts_file_variable_error (fp, var, "tolerance",
-			     "tolerance `%g' must be strictly positive",
-			     par->tolerance);
-    return;
-  }
-  if (par->nrelax == 0)
-    gts_file_variable_error (fp, var, "nrelax", "nrelax must be non zero");
-  if (par->erelax == 0)
-    gts_file_variable_error (fp, var, "erelax", "erelax must be non zero");
-  if (par->beta < 0.5 || par->beta > 1.)
-    gts_file_variable_error (fp, var, "beta", "beta must be in [0.5,1]");
-}
-
-static gdouble rate (gdouble a, gdouble b, guint n)
-{
-  if (a > 0. && b > 0. && n > 0)
-    return exp (log (b/a)/n);
-  return 0.;
-}
-
-/**
- * gfs_multilevel_params_stats_write:
- * @par: the multilevel parameters.
- * @fp: a file pointer.
- *
- * Writes in @fp the statistics contained in @p.
- */
-void gfs_multilevel_params_stats_write (GfsMultilevelParams * par,
-					FILE * fp)
-{
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp,
-	   "    niter: %4d\n"
-	   "    residual.bias:   % 10.3e % 10.3e\n"
-	   "    residual.first:  % 10.3e % 10.3e %6.2g\n"
-	   "    residual.second: % 10.3e % 10.3e %6.2g\n"
-	   "    residual.infty:  % 10.3e % 10.3e %6.2g\n",
-	   par->niter,
-	   par->residual_before.bias,
-	   par->residual.bias,
-	   par->residual_before.first,
-	   par->residual.first,
-	   rate (par->residual.first,
-		 par->residual_before.first,
-		 par->niter),
-	   par->residual_before.second,
-	   par->residual.second,
-	   rate (par->residual.second,
-		 par->residual_before.second,
-		 par->niter),
-	   par->residual_before.infty,
-	   par->residual.infty,
-	   rate (par->residual.infty,
-		 par->residual_before.infty,
-		 par->niter));
-}
-
-typedef struct {
-  guint u, rhs, dia, res;
-  gint maxlevel;
-  gdouble beta, omega;
-  FttComponent component;
-  guint axi;
-} RelaxParams;
-
-static void relax (FttCell * cell, RelaxParams * p)
-{
-  GfsGradient g;
-  FttCellNeighbors neighbor;
-  FttCellFace f;
-  GfsGradient ng;
-
-  g.a = GFS_VARIABLE (cell, p->dia);
-  g.b = 0.;
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &neighbor);
-  for (f.d = 0; f.d < FTT_NEIGHBORS; f.d++) {
-    f.neighbor = neighbor.c[f.d];
-    if (f.neighbor) {
-      gfs_face_weighted_gradient (&f, &ng, p->u, p->maxlevel);
-      g.a += ng.a;
-      g.b += ng.b;
-    }
-  }
-  if (g.a > 0.)
-    GFS_VARIABLE (cell, p->u) = (g.b - GFS_VARIABLE (cell, p->rhs))/g.a;
-  else
-    GFS_VARIABLE (cell, p->u) = 0.;
-}
-
-static void relax2D (FttCell * cell, RelaxParams * p)
-{
-  GfsGradient g;
-  FttCellNeighbors neighbor;
-  FttCellFace f;
-  GfsGradient ng;
-
-  g.a = GFS_VARIABLE (cell, p->dia);
-  g.b = 0.;
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &neighbor);
-  for (f.d = 0; f.d < FTT_NEIGHBORS_2D; f.d++) {
-    f.neighbor = neighbor.c[f.d];
-    if (f.neighbor) {
-      gfs_face_weighted_gradient_2D (&f, &ng, p->u, p->maxlevel);
-      g.a += ng.a;
-      g.b += ng.b;
-    }
-  }
-  if (g.a > 0.)
-    GFS_VARIABLE (cell, p->u) = 
-      (1. - p->omega)*GFS_VARIABLE (cell, p->u) 
-      + p->omega*(g.b - GFS_VARIABLE (cell, p->rhs))/g.a;
-  else
-    GFS_VARIABLE (cell, p->u) = 0.;
-}
-
-/**
- * gfs_relax:
- * @domain: the domain to relax.
- * @d: number of dimensions (2 or 3).
- * @max_depth: the maximum depth of the domain to relax.
- * @u: the variable to use as left-hand side.
- * @rhs: the variable to use as right-hand side.
- * @dia: the diagonal weight.
- *
- * Apply one pass of a Jacobi relaxation to all the leaf cells of
- * @domain with a level inferior or equal to @max_depth and to all the
- * cells at level @max_depth. The relaxation should converge (if the
- * right-hand-side @rhs verifies the solvability conditions) toward
- * the solution of a Poisson equation for @u at the maximum depth.
- */
-void gfs_relax (GfsDomain * domain,
-		guint d,
-		gint max_depth,
-		gdouble omega,
-		GfsVariable * u,
-		GfsVariable * rhs,
-		GfsVariable * dia)
-{
-  RelaxParams p;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (d > 1 && d <= 3);
-  g_return_if_fail (u != NULL);
-  g_return_if_fail (rhs != NULL);
-  g_return_if_fail (dia != NULL);
-
-  p.u = u->i;
-  p.rhs = rhs->i;
-  p.dia = dia->i;
-  p.maxlevel = max_depth;
-  p.omega = omega;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, 
-			    FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS,
-			    max_depth,
-			    (FttCellTraverseFunc) (d == 2 ? relax2D : relax), &p);
-}
-
-static void residual_set (FttCell * cell, RelaxParams * p)
-{
-  GfsGradient g;
-  FttCellNeighbors neighbor;
-  FttCellFace f;
-  GfsGradient ng;
-
-  g.a = GFS_VARIABLE (cell, p->dia);
-  g.b = 0.;
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &neighbor);
-  for (f.d = 0; f.d < FTT_NEIGHBORS; f.d++) {
-    f.neighbor = neighbor.c[f.d];
-    if (f.neighbor) {
-      gfs_face_weighted_gradient (&f, &ng, p->u, p->maxlevel);
-      g.a += ng.a;
-      g.b += ng.b;
-    }
-  }
-  GFS_VARIABLE (cell, p->res) = GFS_VARIABLE (cell, p->rhs) - 
-    (g.b - GFS_VARIABLE (cell, p->u)*g.a);
-}
-
-static void residual_set2D (FttCell * cell, RelaxParams * p)
-{
-  GfsGradient g;
-  FttCellNeighbors neighbor;
-  FttCellFace f;
-  GfsGradient ng;
-
-  g.a = GFS_VARIABLE (cell, p->dia);
-  g.b = 0.;
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &neighbor);
-  for (f.d = 0; f.d < FTT_NEIGHBORS_2D; f.d++) {
-    f.neighbor = neighbor.c[f.d];
-    if (f.neighbor) {
-      gfs_face_weighted_gradient_2D (&f, &ng, p->u, p->maxlevel);
-      g.a += ng.a;
-      g.b += ng.b;
-    }
-  }
-  GFS_VARIABLE (cell, p->res) = GFS_VARIABLE (cell, p->rhs) - 
-    (g.b - GFS_VARIABLE (cell, p->u)*g.a);
-}
-
-/**
- * gfs_residual:
- * @domain: a domain.
- * @d: number of dimensions (2 or 3).
- * @flags: which types of cells are to be visited.
- * @max_depth: maximum depth of the traversal.
- * @u: the variable to use as left-hand side.
- * @rhs: the variable to use as right-hand side.
- * @dia: the diagonal weight.
- * @res: the variable to use to store the residual.
- *
- * For each cell of @domain, computes the sum of the residual over
- * the volume of the cell for a Poisson equation with @u as
- * left-hand-side and @rhs as right-hand-side. Stores the result in
- * @res.  
- */
-void gfs_residual (GfsDomain * domain,
-		   guint d,
-		   FttTraverseFlags flags,
-		   gint max_depth,
-		   GfsVariable * u, GfsVariable * rhs, GfsVariable * dia,
-		   GfsVariable * res)
-{
-  RelaxParams p;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (d > 1 && d <= 3);
-  g_return_if_fail (u != NULL);
-  g_return_if_fail (rhs != NULL);
-  g_return_if_fail (dia != NULL);
-  g_return_if_fail (res != NULL);
-
-  p.u = u->i;
-  p.rhs = rhs->i;
-  p.dia = dia->i;
-  p.res = res->i;
-  p.maxlevel = max_depth;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, flags, max_depth,
-			    (FttCellTraverseFunc) (d == 2 ? residual_set2D : residual_set), &p);
-}
-
-static void reset_coeff (FttCell * cell)
-{
-  FttDirection d;
-  GfsFaceStateVector * f = GFS_STATE (cell)->f;
-  
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    f[d].v = 0.;
-}
-
-typedef struct {
-  gdouble lambda2[FTT_DIMENSION];
-  GfsFunction * alpha;
-  GfsDomain * domain;
-} PoissonCoeff;
-
-static void poisson_coeff (FttCellFace * face,
-			   PoissonCoeff * p)
-{
-  gdouble alpha = p->alpha ? gfs_function_face_value (p->alpha, face) : 1.;
-  gdouble v = p->lambda2[face->d/2]*alpha*gfs_domain_face_fraction (p->domain, face);
-
-  if (alpha <= 0.) {
-    FttVector p;
-    ftt_face_pos (face, &p);
-    g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR,
-	   "alpha is negative (%g) at face (%g,%g,%g).\n"
-	   "Please check your definition.",
-	   alpha, p.x, p.y, p.z);
-  }
-  GFS_STATE (face->cell)->f[face->d].v = v;
-  
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v = v;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v +=
-      v/FTT_CELLS_DIRECTION (face->d);
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-static void face_coeff_from_below (FttCell * cell)
-{
-  FttDirection d;
-  GfsFaceStateVector * f = GFS_STATE (cell)->f;
-  guint neighbors = 0;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++) {
-    FttCellChildren child;
-    guint i, n;
-
-    f[d].v = 0.;
-    n = ftt_cell_children_direction (cell, d, &child);
-    for (i = 0; i < n; i++)
-      if (child.c[i])
-	f[d].v += GFS_STATE (child.c[i])->f[d].v;
-    f[d].v /= n;
-
-    FttCell * neighbor;
-    if (f[d].v > 0. && (neighbor = ftt_cell_neighbor (cell, d)) && !GFS_CELL_IS_BOUNDARY (neighbor))
-      neighbors++;
-  }
-
-  if (neighbors == 1)
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      f[d].v = 0.;
-}
-
-/**
- * gfs_poisson_coefficients:
- * @domain: a #GfsDomain.
- * @alpha: the inverse of density or %NULL.
- *
- * Initializes the face coefficients for the Poisson equation
- * $\nabla\cdot\alpha\nabla p=\dots$.
- *
- * If @alpha is %NULL, it is taken to be unity.
- */
-void gfs_poisson_coefficients (GfsDomain * domain,
-			       GfsFunction * alpha)
-{
-  PoissonCoeff p;
-  FttComponent i;
-
-  g_return_if_fail (domain != NULL);
-
-  for (i = 0; i < FTT_DIMENSION; i++) {
-    gdouble lambda = (&domain->lambda.x)[i];
-
-    p.lambda2[i] = lambda*lambda;
-  }
-  gfs_domain_cell_traverse (domain,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) reset_coeff, NULL);
-  p.alpha = alpha;
-  p.domain = domain;
-  gfs_domain_face_traverse (domain, FTT_XYZ, 
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) poisson_coeff, &p);
-  gfs_domain_cell_traverse (domain,
-			    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) face_coeff_from_below, NULL);
-}
-
-static void tension_coeff (FttCellFace * face, gpointer * data)
-{
-  gdouble * lambda2 = data[0];
-  GfsSourceTensionGeneric * t = data[1];
-  GfsVariable * kappa = GFS_SOURCE_TENSION (data[1])->k;
-  gdouble alpha = data[2] ? gfs_function_face_value (data[2], face) : 1.;
-  gdouble v = lambda2[face->d/2]*alpha*gfs_domain_face_fraction (kappa->domain, face)*
-    gfs_function_face_value (t->sigma, face);
-  gdouble k1 = GFS_VARIABLE (face->cell, kappa->i);
-  gdouble k2 = GFS_VARIABLE (face->neighbor, kappa->i);
-#if 0
-  gdouble c1 = GFS_VARIABLE (face->cell, t->c->i);
-  gdouble c2 = GFS_VARIABLE (face->neighbor, t->c->i);
-  gdouble w1 = c1*(1. - c1);
-  gdouble w2 = c2*(1. - c2);
-
-  if (w1 + w2 > 0.)
-    v *= (w1*k1 + w2*k2)/(w1 + w2);
-  else
-#endif
-  {
-    if (k1 < G_MAXDOUBLE) {
-      if (k2 < G_MAXDOUBLE)
-	v *= (k1 + k2)/2.;
-      else
-	v *= k1;
-    }
-    else if (k2 < G_MAXDOUBLE)
-      v *= k2;
-    else
-      v = 1e6;
-  }
-  g_assert (v <= 1e6);
-
-  if (alpha <= 0.) {
-    FttVector p;
-    ftt_face_pos (face, &p);
-    g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR,
-	   "alpha is negative (%g) at face (%g,%g,%g).\n"
-	   "Please check your definition.",
-	   alpha, p.x, p.y, p.z);
-  }
-  GFS_STATE (face->cell)->f[face->d].v = v;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v = v;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v = G_MAXDOUBLE;
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-/**
- * gfs_source_tension_coefficients:
- * @s: a #GfsSourceTension.
- * @domain: a #GfsDomain.
- * @alpha: the inverse of density or %NULL.
- *
- * Initializes the face coefficients with the surface tension term
- * (interface curvature times surface tension coefficient).
- *
- * If @alpha is %NULL, it is taken to be unity.
- */
-void gfs_source_tension_coefficients (GfsSourceTension * s,
-				      GfsDomain * domain,
-				      GfsFunction * alpha)
-{
-  gdouble lambda2[FTT_DIMENSION];
-  gpointer data[3];
-  FttComponent i;
-
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (domain != NULL);
-
-  for (i = 0; i < FTT_DIMENSION; i++) {
-    gdouble lambda = (&domain->lambda.x)[i];
-
-    lambda2[i] = lambda*lambda;
-  }
-  gfs_domain_cell_traverse (domain,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) reset_coeff, NULL);
-  data[0] = lambda2;
-  data[1] = s;
-  data[2] = alpha;
-  gfs_domain_face_traverse (domain, FTT_XYZ, 
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) tension_coeff, data);
-}
-
-static void correct (FttCell * cell, gpointer * data)
-{
-  GfsVariable * u = data[0];
-  GfsVariable * dp = data[1];
-  GFS_VALUE (cell, u) += GFS_VALUE (cell, dp);
-}
-
-static void get_from_above (FttCell * parent, GfsVariable * v)
-{
-  guint level = ftt_cell_level (parent);
-  FttCellNeighbors n;
-  FttCellChildren child;
-  FttComponent c;
-  FttVector h;
-  guint i;
-
-  ftt_cell_neighbors (parent, &n);
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    FttCellFace f;
-    GfsGradient g;
-    gdouble g1, g2;
-    
-    f.cell = parent;
-    f.d = 2*c;
-    f.neighbor = n.c[f.d];
-    gfs_face_gradient (&f, &g, v->i, level);
-    g1 = g.b - g.a*GFS_VARIABLE (parent, v->i);
-    f.d = 2*c + 1;
-    f.neighbor = n.c[f.d];
-    gfs_face_gradient (&f, &g, v->i, level);
-    g2 = g.b - g.a*GFS_VARIABLE (parent, v->i);
-    (&h.x)[c] = (g1 - g2)/2.;
-  }
-
-  ftt_cell_children (parent, &child);
-  for (i = 0; i < FTT_CELLS; i++) 
-    if (child.c[i]) {
-      FttVector p;
-      
-      GFS_VARIABLE (child.c[i], v->i) = GFS_VARIABLE (parent, v->i);
-      ftt_cell_relative_pos (child.c[i], &p);
-      for (c = 0; c < FTT_DIMENSION; c++)
-	GFS_VARIABLE (child.c[i], v->i) += (&p.x)[c]*(&h.x)[c];
-    }
-}
-
-static void get_from_below_3D (FttCell * cell, const GfsVariable * v)
-{
-  gdouble val = 0.;
-  guint i;
-  FttCellChildren child;
-
-  ftt_cell_children (cell, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i])
-      val += GFS_VARIABLE (child.c[i], v->i);
-  GFS_VARIABLE (cell, v->i) = val/2.;
-}
-
-static void get_from_below_2D (FttCell * cell, const GfsVariable * v)
-{
-  gdouble val = 0.;
-  guint i;
-  FttCellChildren child;
-
-  ftt_cell_children (cell, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i])
-      val += GFS_VARIABLE (child.c[i], v->i);
-  GFS_VARIABLE (cell, v->i) = val;
-}
-
-typedef struct {
-  GfsVariable * s, * r, * u, * v;
-  gdouble srs, rs2, beta;
-} MRSData;
-
-static void compute_beta (FttCell * cell, MRSData * data)
-{
-  gdouble rs = GFS_VALUE (cell, data->r) - GFS_VALUE (cell, data->s);
-  data->rs2 += rs*rs;
-  data->srs -= GFS_VALUE (cell, data->s)*rs;
-}
-
-static void update_sv (FttCell * cell, MRSData * data)
-{
-  GFS_VALUE (cell, data->s) += data->beta*(GFS_VALUE (cell, data->r) - GFS_VALUE (cell, data->s));
-  GFS_VALUE (cell, data->v) += data->beta*(GFS_VALUE (cell, data->u) - GFS_VALUE (cell, data->v));
-  GFS_VALUE (cell, data->r) = GFS_VALUE (cell, data->s);
-  GFS_VALUE (cell, data->u) = GFS_VALUE (cell, data->v);
-}
-
-static void relax_loop (GfsDomain * domain, 
-			GfsVariable * dp, GfsVariable * u, 
-			RelaxParams * q, guint nrelax,
-			guint dimension)
-{
-  guint n;
-  gfs_domain_homogeneous_bc (domain,
-			     FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS, q->maxlevel, 
-			     dp, u);
-  for (n = 0; n < nrelax - 1; n++)
-    gfs_traverse_and_homogeneous_bc (domain, FTT_PRE_ORDER, 
-				     FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS, q->maxlevel,
-				     (FttCellTraverseFunc) (dimension == 2 ? relax2D : relax), q,
-				     dp, u);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, 
-			    FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS, q->maxlevel,
-			    (FttCellTraverseFunc) (dimension == 2 ? relax2D : relax), q);
-}
-
-/**
- * gfs_poisson_cycle:
- * @domain: the domain on which to solve the Poisson equation.
- * @p: the #GfsMultilevelParams.
- * @u: the variable to use as left-hand side.
- * @rhs: the variable to use as right-hand side.
- * @dia: the diagonal weight.
- * @res: the residual.
- *
- * Apply one multigrid iteration to the Poisson equation defined by @u
- * and @rhs.
- *
- * The initial value of @res on the leaves of @root must be set to
- * the residual of the Poisson equation (using gfs_residual()).
- *
- * The face coefficients must be set using gfs_poisson_coefficients().
- *
- * The values of @u on the leaf cells are updated as well as the values
- * of @res (i.e. the cell tree is ready for another iteration).
- */
-void gfs_poisson_cycle (GfsDomain * domain,
-			GfsMultilevelParams * p,
-			GfsVariable * u,
-			GfsVariable * rhs,
-			GfsVariable * dia,
-			GfsVariable * res)
-{
-  guint l, nrelax, minlevel;
-  GfsVariable * dp;
-  gpointer data[2];
-  
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (p->dimension > 1 && p->dimension <= 3);
-  g_return_if_fail (u != NULL);
-  g_return_if_fail (rhs != NULL);
-  g_return_if_fail (dia != NULL);
-  g_return_if_fail (res != NULL);
-
-  dp = gfs_temporary_variable (domain);
-  minlevel = MAX (domain->rootlevel, p->minlevel);
-
-  /* compute residual on non-leafs cells */
-  gfs_domain_cell_traverse (domain, 
-			    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    p->dimension == 2 ? (FttCellTraverseFunc) get_from_below_2D : 
-			    (FttCellTraverseFunc) get_from_below_3D,
-			    res);
-
-  /* relax top level */
-  nrelax = p->nrelax;
-  for (l = minlevel; l < p->depth; l++)
-    nrelax *= p->erelax;
-
-  RelaxParams q;
-  q.u = dp->i;
-  q.rhs = res->i;
-  q.dia = dia->i;
-  q.maxlevel = minlevel;
-  q.omega = p->omega;
-  
-  gfs_domain_cell_traverse (domain,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS, q.maxlevel,
-			    (FttCellTraverseFunc) gfs_cell_reset, dp);
-  relax_loop (domain, dp, u, &q, nrelax, p->dimension);
-  nrelax /= p->erelax;
-
-  /* relax from top to bottom */
-  for (q.maxlevel = minlevel + 1; q.maxlevel <= p->depth; q.maxlevel++, nrelax /= p->erelax) {
-    /* get initial guess from coarser grid */ 
-    gfs_domain_cell_traverse (domain,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_NON_LEAFS, 
-			      q.maxlevel - 1,
-			      (FttCellTraverseFunc) get_from_above, dp);
-    relax_loop (domain, dp, u, &q, nrelax, p->dimension);
-  }
-  /* correct on leaf cells */
-  data[0] = u;
-  data[1] = dp;
-  gfs_traverse_and_bc (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		       (FttCellTraverseFunc) correct, data,
-		       u, u);
-  /* compute new residual on leaf cells */
-  gfs_residual (domain, p->dimension, FTT_TRAVERSE_LEAFS, -1, u, rhs, dia, res);
-
-  gts_object_destroy (GTS_OBJECT (dp));
-}
-
-typedef struct {
-  GfsSourceDiffusion * d;
-  gdouble lambda2[FTT_DIMENSION];
-  gdouble dt;
-  GfsVariable * rhoc, * axi;
-  GfsFunction * alpha;
-  GfsDomain * domain;
-} DiffusionCoeff;
-
-static void diffusion_coef (FttCellFace * face, DiffusionCoeff * c)
-{
-  gdouble v = 
-    c->lambda2[face->d/2]*c->dt*
-    gfs_source_diffusion_face (c->d, face)*
-    gfs_domain_face_fraction (c->domain, face);
-
-  GFS_STATE (face->cell)->f[face->d].v = v;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE:
-    GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v = v;
-    break;
-  case FTT_FINE_COARSE:
-    GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v +=
-      v/FTT_CELLS_DIRECTION (face->d);
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-static void diffusion_mixed_coef (FttCell * cell, DiffusionCoeff * c)
-{
-  reset_coeff (cell);
-  if (GFS_IS_MIXED (cell))
-    GFS_STATE (cell)->solid->v = 
-      c->dt*gfs_domain_solid_metric (c->domain, cell)*gfs_source_diffusion_cell (c->d, cell);
-  if (c->rhoc) {
-    gdouble rho = c->alpha ? 1./gfs_function_value (c->alpha, cell) : 1.;
-    if (rho <= 0.) {
-      FttVector p;
-      ftt_cell_pos (cell, &p);
-      g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR,
-	     "density is negative (%g) at cell (%g,%g,%g).\n"
-	     "Please check your definition of alpha.",
-	     rho, p.x, p.y, p.z);
-    }
-    gdouble f = gfs_domain_cell_fraction (c->domain, cell);
-    GFS_VALUE (cell, c->rhoc) = rho*f;
-
-    if (c->axi) {
-      FttVector p;
-      gfs_cell_cm (cell, &p);
-      GFS_VALUE (cell, c->axi) = 2.*c->dt*gfs_source_diffusion_cell (c->d, cell)/(rho*p.y*p.y);
-    }
-  }
-}
-
-/**
- * gfs_diffusion_coefficients:
- * @domain: a #GfsDomain.
- * @d: a #GfsSourceDiffusion.
- * @dt: the time-step.
- * @rhoc: where to store the mass.
- * @axi: where to store the axisymmetric term (or %NULL).
- * @alpha: the inverse of density or %NULL.
- * @beta: the implicitness parameter (0.5 Crank-Nicholson, 1. backward Euler).
- *
- * Initializes the face coefficients for the diffusion equation.
- */
-void gfs_diffusion_coefficients (GfsDomain * domain,
-				 GfsSourceDiffusion * d,
-				 gdouble dt,
-				 GfsVariable * rhoc,
-				 GfsVariable * axi,
-				 GfsFunction * alpha,
-				 gdouble beta)
-{
-  DiffusionCoeff coef;
-  FttComponent i;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (d != NULL);
-  g_return_if_fail (beta >= 0.5 && beta <= 1.);
-
-  for (i = 0; i < FTT_DIMENSION; i++) {
-    gdouble lambda = (&domain->lambda.x)[i];
-
-    coef.lambda2[i] = lambda*lambda;
-  }
-  coef.d = d;
-  coef.dt = beta*dt;
-  coef.rhoc = rhoc;
-  coef.alpha = alpha;
-  coef.domain = domain;
-  coef.axi = axi;
-  gfs_domain_cell_traverse (domain,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) diffusion_mixed_coef, &coef);
-  gfs_domain_face_traverse (domain, FTT_XYZ, 
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) diffusion_coef, &coef);
-  gfs_domain_cell_traverse (domain,
-			    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) face_coeff_from_below, 
-			    NULL);
-}
-
-static void diffusion_rhs (FttCell * cell, RelaxParams * p)
-{
-  gdouble f, h, val;
-  FttCellNeighbors neighbor;
-  FttCellFace face;
-  
-  if (GFS_IS_MIXED (cell)) {
-    if (((cell)->flags & GFS_FLAG_DIRICHLET) != 0)
-      f = gfs_cell_dirichlet_gradient_flux (cell, p->u, -1, GFS_STATE (cell)->solid->fv);
-    else
-      f = GFS_STATE (cell)->solid->fv;
-  }
-  else
-    f = 0.; /* Neumann condition by default */
-  h = ftt_cell_size (cell);
-  val = GFS_VARIABLE (cell, p->u);
-  face.cell = cell;
-  ftt_cell_neighbors (cell, &neighbor);
-  for (face.d = 0; face.d < FTT_NEIGHBORS; face.d++) {
-    GfsGradient g;
-
-    face.neighbor = neighbor.c[face.d];
-    gfs_face_gradient_flux (&face, &g, p->u, -1);
-    if (face.d/2 == p->component) {
-      g.a *= 2.;
-      g.b *= 2.;
-    }
-    f += g.b - g.a*val;
-  }
-  GFS_VARIABLE (cell, p->rhs) += p->beta*f/(h*h*GFS_VARIABLE (cell, p->dia));
-  if (p->axi)
-    GFS_VARIABLE (cell, p->rhs) -= val*p->beta*GFS_VARIABLE (cell, p->axi);
-}
-
-/**
- * gfs_diffusion_rhs:
- * @domain: a #GfsDomain.
- * @v: a #GfsVariable.
- * @rhs: a #GfsVariable.
- * @rhoc: the mass.
- * @axi: the axisymmetric term.
- * @beta: the implicitness parameter (0.5 Crank-Nicholson, 1. backward Euler).
- *
- * Adds to the @rhs variable of @cell the right-hand side of the
- * diffusion equation for variable @v.
- *
- * The diffusion coefficients must have been already set using
- * gfs_diffusion_coefficients().
- */
-void gfs_diffusion_rhs (GfsDomain * domain, 
-			GfsVariable * v, GfsVariable * rhs, 
-			GfsVariable * rhoc, GfsVariable * axi,
-			gdouble beta)
-{
-  RelaxParams p;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (v != NULL);
-  g_return_if_fail (rhs != NULL);
-  g_return_if_fail (rhoc != NULL);
-  g_return_if_fail (beta >= 0.5 && beta <= 1.);
-
-  p.u = v->i;
-  p.rhs = rhs->i;
-  p.dia = rhoc->i;
-  p.beta = (1. - beta)/beta;
-  p.component = GFS_IS_AXI (domain) ? v->component : FTT_DIMENSION;
-  p.axi = axi ? axi->i : FALSE;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) diffusion_rhs, &p);
-}
-
-static void diffusion_relax (FttCell * cell, RelaxParams * p)
-{
-  gdouble a;
-  GfsGradient g = { 0., 0. };
-  gdouble h = ftt_cell_size (cell);
-  FttCellNeighbors neighbor;
-  FttCellFace face;
-
-  a = GFS_VARIABLE (cell, p->dia);
-  if (GFS_IS_MIXED (cell) && ((cell)->flags & GFS_FLAG_DIRICHLET) != 0)
-    g.b = gfs_cell_dirichlet_gradient_flux (cell, p->u, p->maxlevel, 0.);
-
-  face.cell = cell;
-  ftt_cell_neighbors (cell, &neighbor);
-  for (face.d = 0; face.d < FTT_NEIGHBORS; face.d++) {
-    GfsGradient ng;
-
-    face.neighbor = neighbor.c[face.d];
-    gfs_face_gradient_flux (&face, &ng, p->u, p->maxlevel);
-    if (face.d/2 == p->component) {
-      ng.a *= 2.;
-      ng.b *= 2.;
-    }
-    g.a += ng.a;
-    g.b += ng.b;
-  }
-  a *= h*h;
-  g_assert (a > 0.);
-  g.a = 1. + g.a/a;
-  if (p->axi)
-    g.a += GFS_VARIABLE (cell, p->axi);
-  g.b = GFS_VARIABLE (cell, p->res) + g.b/a;
-  g_assert (g.a > 0.);
-  GFS_VARIABLE (cell, p->u) = g.b/g.a;
-}
-
-static void diffusion_residual (FttCell * cell, RelaxParams * p)
-{
-  gdouble a;
-  GfsGradient g = { 0., 0. };
-  gdouble h;
-  FttCellNeighbors neighbor;
-  FttCellFace face;
-
-  h = ftt_cell_size (cell);
-  a = GFS_VARIABLE (cell, p->dia);
-  if (GFS_IS_MIXED (cell)) {
-    if (((cell)->flags & GFS_FLAG_DIRICHLET) != 0)
-      g.b = gfs_cell_dirichlet_gradient_flux (cell, p->u, -1, GFS_STATE (cell)->solid->fv);
-    else
-      g.b = GFS_STATE (cell)->solid->fv;
-  }
-
-  face.cell = cell;
-  ftt_cell_neighbors (cell, &neighbor);
-  for (face.d = 0; face.d < FTT_NEIGHBORS; face.d++) {
-    GfsGradient ng;
-
-    face.neighbor = neighbor.c[face.d];
-    gfs_face_gradient_flux (&face, &ng, p->u, -1);
-    if (face.d/2 == p->component) {
-      ng.a *= 2.;
-      ng.b *= 2.;
-    }
-    g.a += ng.a;
-    g.b += ng.b;
-  }
-  a *= h*h;
-  g_assert (a > 0.);
-  g.a = 1. + g.a/a;
-  if (p->axi)
-    g.a += GFS_VARIABLE (cell, p->axi);
-  g.b = GFS_VARIABLE (cell, p->rhs) + g.b/a;
-  GFS_VARIABLE (cell, p->res) = g.b - g.a*GFS_VARIABLE (cell, p->u);
-}
-
-/**
- * gfs_diffusion_residual:
- * @domain: a #GfsDomain.
- * @u: the variable to use as left-hand side.
- * @rhs: the right-hand side.
- * @rhoc: the mass.
- * @axi: the axisymmetric term.
- * @res: the residual.
- *
- * Sets the @res variable of each leaf cell of @domain to the residual
- * of the diffusion equation for @v.
- *
- * The diffusion coefficients must have been set using
- * gfs_diffusion_coefficients() and the right-hand side using
- * gfs_diffusion_rhs().
- */
-void gfs_diffusion_residual (GfsDomain * domain,
-			     GfsVariable * u,
-			     GfsVariable * rhs,
-			     GfsVariable * rhoc,
-			     GfsVariable * axi,
-			     GfsVariable * res)
-{
-  RelaxParams p;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (u != NULL);
-  g_return_if_fail (rhs != NULL);
-  g_return_if_fail (rhoc != NULL);
-  g_return_if_fail (res != NULL);
-
-  p.u = u->i;
-  p.rhs = rhs->i;
-  p.dia = rhoc->i;
-  p.res = res->i;
-  p.component = GFS_IS_AXI (domain) ? u->component : FTT_DIMENSION;
-  p.axi = axi ? axi->i : FALSE;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) diffusion_residual, &p);
-}
-
-static void diffusion_relax_loop (GfsDomain * domain, 
-				  GfsVariable * dp, GfsVariable * u,
-				  RelaxParams * p, guint nrelax)
-{
-  guint n;
-  gfs_domain_homogeneous_bc (domain, 
-			     FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS, p->maxlevel,
-			     dp, u);
-  for (n = 0; n < nrelax - 1; n++)
-    gfs_traverse_and_homogeneous_bc (domain, FTT_PRE_ORDER, 
-				     FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS, p->maxlevel,
-				     (FttCellTraverseFunc) diffusion_relax, p,
-				     dp, u);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, 
-			    FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS, p->maxlevel,
-			    (FttCellTraverseFunc) diffusion_relax, p);
-}
-
-/**
- * gfs_diffusion_cycle:
- * @domain: the domain on which to solve the diffusion equation.
- * @levelmin: the top level of the multigrid hierarchy.
- * @depth: the total depth of the domain.
- * @nrelax: the number of relaxations to apply at each level.
- * @u: the variable to use as left-hand side.
- * @rhs: the right-hand side.
- * @rhoc: the mass.
- * @axi: the axisymmetric term.
- * @res: the residual.
- *
- * Apply one multigrid iteration to the diffusion equation for @u.
- *
- * The initial value of @res on the leaves of @root must be set to
- * the residual of the diffusion equation using gfs_diffusion_residual().
- *
- * The diffusion coefficients must be set using gfs_diffusion_coefficients().
- *
- * The values of @u on the leaf cells are updated as well as the values
- * of @res (i.e. the cell tree is ready for another iteration).
- */
-void gfs_diffusion_cycle (GfsDomain * domain,
-			  guint levelmin,
-			  guint depth,
-			  guint nrelax,
-			  GfsVariable * u,
-			  GfsVariable * rhs,
-			  GfsVariable * rhoc,
-			  GfsVariable * axi,
-			  GfsVariable * res)
-{
-  GfsVariable * dp;
-  RelaxParams p;
-  gpointer data[2];
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (u != NULL);
-  g_return_if_fail (rhs != NULL);
-  g_return_if_fail (rhoc != NULL);
-  g_return_if_fail (res != NULL);
-
-  dp = gfs_temporary_variable (domain);
-  dp->component = u->component;
-
-  /* compute residual on non-leafs cells */
-  gfs_domain_cell_traverse (domain, 
-			    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) gfs_get_from_below_intensive, res);
-
-  /* relax top level */
-  p.maxlevel = levelmin;
-  p.u = dp->i;
-  p.res = res->i;
-  p.dia = rhoc->i;
-  p.component = GFS_IS_AXI (domain) ? u->component : FTT_DIMENSION;
-  p.axi = axi ? axi->i : FALSE;
-
-  gfs_domain_cell_traverse (domain, 
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, levelmin,
-			    (FttCellTraverseFunc) gfs_cell_reset, dp);
-  diffusion_relax_loop (domain, dp, u, &p, 10*nrelax);
-  /* relax from top to bottom */
-  for (p.maxlevel = levelmin + 1; p.maxlevel <= depth; p.maxlevel++) {
-    /* get initial guess from coarser grid */ 
-    gfs_domain_cell_traverse (domain,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_NON_LEAFS,
-			      p.maxlevel - 1,
-			      (FttCellTraverseFunc) get_from_above, dp);
-    diffusion_relax_loop (domain, dp, u, &p, nrelax);
-  }
-  /* correct on leaf cells */
-  data[0] = u;
-  data[1] = dp;
-  gfs_traverse_and_bc (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		       (FttCellTraverseFunc) correct, data,
-		       u, u);
-  /* compute new residual on leaf cells */
-  gfs_diffusion_residual (domain, u, rhs, rhoc, axi, res);
-
-  gts_object_destroy (GTS_OBJECT (dp));
-}
-
diff --git a/src/poisson.h b/src/poisson.h
deleted file mode 100644
index 900782b..0000000
--- a/src/poisson.h
+++ /dev/null
@@ -1,110 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __POISSON_H__
-#define __POISSON_H__
-
-#include <gts.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "domain.h"
-
-typedef struct _GfsMultilevelParams GfsMultilevelParams;
-
-struct _GfsMultilevelParams {
-  gdouble tolerance;
-  guint nrelax, erelax;
-  guint minlevel;
-  guint nitermax, nitermin;
-
-  guint dimension;
-  guint niter;
-  guint depth;
-  gboolean weighted;
-  gdouble beta, omega;
-  GfsNorm residual_before, residual;
-};
-
-void                  gfs_multilevel_params_init     (GfsMultilevelParams * par);
-void                  gfs_multilevel_params_write    (GfsMultilevelParams * par, 
-						      FILE * fp);
-void                  gfs_multilevel_params_read     (GfsMultilevelParams * par, 
-						      GtsFile * fp);
-void                  gfs_multilevel_params_stats_write (GfsMultilevelParams * par,
-							 FILE * fp);
-void                  gfs_relax                      (GfsDomain * domain,
-						      guint d,
-						      gint max_depth,
-						      gdouble omega,
-						      GfsVariable * u,
-						      GfsVariable * rhs,
-						      GfsVariable * dia);
-void                  gfs_residual                   (GfsDomain * domain,
-						      guint d,
-						      FttTraverseFlags flags,
-						      gint max_depth,
-						      GfsVariable * u,
-						      GfsVariable * rhs,
-						      GfsVariable * dia,
-						      GfsVariable * res);
-void                  gfs_poisson_coefficients       (GfsDomain * domain,
-						      GfsFunction * alpha);
-void                  gfs_poisson_cycle              (GfsDomain * domain,
-						      GfsMultilevelParams * p,
-						      GfsVariable * u,
-						      GfsVariable * rhs,
-						      GfsVariable * dia,
-						      GfsVariable * res);
-void                  gfs_diffusion_coefficients     (GfsDomain * domain,
-						      GfsSourceDiffusion * d,
-						      gdouble dt,
-						      GfsVariable * rhoc,
-						      GfsVariable * axi,
-						      GfsFunction * alpha,
-						      gdouble beta);
-void                  gfs_diffusion_rhs              (GfsDomain * domain,
-						      GfsVariable * v,
-						      GfsVariable * rhs,
-						      GfsVariable * rhoc,
-						      GfsVariable * axi,
-						      gdouble beta);
-void                  gfs_diffusion_residual         (GfsDomain * domain,
-						      GfsVariable * u,
-						      GfsVariable * rhs,
-						      GfsVariable * rhoc,
-						      GfsVariable * axi,
-						      GfsVariable * res);
-void                  gfs_diffusion_cycle            (GfsDomain * domain,
-						      guint levelmin,
-						      guint depth,
-						      guint nrelax,
-						      GfsVariable * u,
-						      GfsVariable * rhs,
-						      GfsVariable * rhoc,
-						      GfsVariable * axi,
-						      GfsVariable * res);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __POISSON_H__ */
diff --git a/src/refine.c b/src/refine.c
deleted file mode 100644
index 22ed858..0000000
--- a/src/refine.c
+++ /dev/null
@@ -1,523 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "refine.h"
-#include "solid.h"
-#include "adaptive.h"
-
-/* GfsRefine: Object */
-
-static gboolean refine_maxlevel (FttCell * cell, GfsFunction * maxlevel)
-{
-  return (ftt_cell_level (cell) < gfs_function_value (maxlevel, cell));
-}
-
-static void refine_box (GfsBox * box, GfsFunction * maxlevel)
-{
-  ftt_cell_refine (box->root, 
-		   (FttCellRefineFunc) refine_maxlevel, maxlevel,
-		   (FttCellInitFunc) gfs_cell_fine_init, gfs_box_domain (box));
-}
-
-static void gfs_refine_refine (GfsRefine * refine, GfsSimulation * sim)
-{
-  gts_container_foreach (GTS_CONTAINER (sim),
-			 (GtsFunc) refine_box, refine->maxlevel);
-}
-
-static void gfs_refine_destroy (GtsObject * o)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_REFINE (o)->maxlevel));
-  (* GTS_OBJECT_CLASS (gfs_refine_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_refine_write (GtsObject * object, FILE * fp)
-{
-  fprintf (fp, "%s", object->klass->info.name);
-  gfs_function_write (GFS_REFINE (object)->maxlevel, fp);
-}
-
-static void gfs_refine_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsRefine * refine = GFS_REFINE (*o);
-  GtsObjectClass * klass;
-  gboolean class_changed = FALSE;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (GfsRefineClass)");
-    return;
-  }
-  klass = gfs_object_class_from_name (fp->token->str);
-  if (klass == NULL) {
-    gts_file_error (fp, "unknown class `%s'", fp->token->str);
-    return;
-  }
-  if (!gts_object_class_is_from_class (klass, gfs_refine_class ())) {
-    gts_file_error (fp, "`%s' is not a GfsRefine", fp->token->str);
-    return;
-  }
-  if (klass != (*o)->klass) {
-    *o = gts_object_new (klass);
-    gts_object_destroy (GTS_OBJECT (refine));
-    refine = GFS_REFINE (*o);
-    class_changed = TRUE;
-  }
-  gts_file_next_token (fp);
-
-  gfs_function_read (refine->maxlevel, gfs_object_simulation (refine), fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (class_changed && fp->type != '\n' && klass->read)
-    (* klass->read) (o, fp);
-}
-
-static void gfs_refine_class_init (GfsRefineClass * klass)
-{
-  klass->refine = gfs_refine_refine;
-
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_refine_destroy;
-  GTS_OBJECT_CLASS (klass)->write = gfs_refine_write;
-  GTS_OBJECT_CLASS (klass)->read =  gfs_refine_read;
-}
-
-static void gfs_refine_init (GfsRefine * object)
-{
-  object->maxlevel = gfs_function_new (gfs_function_class (), 1.);
-}
-
-GfsRefineClass * gfs_refine_class (void)
-{
-  static GfsRefineClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_refine_info = {
-      "GfsRefine",
-      sizeof (GfsRefine),
-      sizeof (GfsRefineClass),
-      (GtsObjectClassInitFunc) gfs_refine_class_init,
-      (GtsObjectInitFunc) gfs_refine_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = 
-      gts_object_class_new (GTS_OBJECT_CLASS (gts_slist_containee_class ()),
-			    &gfs_refine_info);
-  }
-
-  return klass;
-}
-
-GfsRefine * gfs_refine_new (GfsRefineClass * klass)
-{
-  GfsRefine * object;
-
-  object = GFS_REFINE (gts_object_new (GTS_OBJECT_CLASS (klass)));
-
-  return object;
-}
-
-/* GfsRefineSolid: Object */
-
-typedef struct _GfsRefineSolid           GfsRefineSolid;
-
-struct _GfsRefineSolid {
-  GfsRefine parent;
-
-  GfsDerivedVariable * v;
-};
-  
-#define GFS_REFINE_SOLID(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsRefineSolid,\
-					           gfs_refine_solid_class ())
-
-static void refine_solid_destroy (GtsObject * object)
-{
-  gfs_domain_remove_derived_variable (GFS_DOMAIN (gfs_object_simulation (object)), 
-				      "SolidCurvature");
-
-  (* GTS_OBJECT_CLASS (gfs_refine_solid_class ())->parent_class->destroy) (object);
-}
-
-typedef struct {
-  GtsSurface * s;
-  gdouble kappa;
-} KappaData;
-
-static void max_kappa (GtsVertex * v, KappaData * d)
-{
-  GtsVector Kh;
-
-  if (gts_vertex_mean_curvature_normal (v, d->s, Kh)) {
-    gdouble kappa = gts_vector_norm (Kh)/(FTT_DIMENSION - 1);
-    if (kappa > d->kappa)
-      d->kappa = kappa;
-  }
-}
-
-static gdouble solid_curvature (FttCell * cell, FttCellFace * face, 
-				GfsDomain * domain, GfsGenericSurface * s)
-{
-  KappaData d;
-  d.kappa = gfs_solid_is_thin (cell, s) ? 1./ftt_cell_size (cell) : 0.;
-  d.s = GFS_SURFACE (s)->s;
-  gts_surface_foreach_vertex (d.s, (GtsFunc) max_kappa, &d);
-  return d.kappa;
-}
-
-static void refine_solid_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsRefineSolid * refine = GFS_REFINE_SOLID (*o);
-  GfsDerivedVariableInfo v = { "SolidCurvature", "curvature of the solid boundary",
-			       solid_curvature };
-  refine->v = gfs_domain_add_derived_variable (GFS_DOMAIN (gfs_object_simulation (*o)), v);
-  if (!refine->v) {
-    gts_file_error (fp, "derived variable `SolidCurvature' already defined");
-    return;
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_refine_solid_class ())->parent_class->read) (o, fp);
-}
-
-typedef struct {
-  GfsRefine * refine;
-  GfsDomain * domain;
-  GfsGenericSurface * surface;
-} RefineCut;
-
-static void refine_cut_cell (FttCell * cell, GfsGenericSurface * s, RefineCut * p)
-{
-  GTS_OBJECT (s)->reserved = p->surface;
-  GFS_REFINE_SOLID (p->refine)->v->data = s;
-  if (ftt_cell_level (cell) < gfs_function_value (p->refine->maxlevel, cell))
-    ftt_cell_refine_single (cell, p->domain->cell_init, p->domain->cell_init_data);
-  GFS_REFINE_SOLID (p->refine)->v->data = NULL;
-}
-
-static void refine_implicit_cell (FttCell * cell, RefineCut * p)
-{
-  guint maxlevel = gfs_function_value (p->refine->maxlevel, cell);
-  if (ftt_cell_level (cell) < maxlevel && gfs_cell_is_cut (cell, p->surface, FALSE, maxlevel))
-    ftt_cell_refine_single (cell, p->domain->cell_init, p->domain->cell_init_data);
-}
-
-static void gfs_refine_solid_refine (GfsRefine * refine, GfsSimulation * sim)
-{
-  if (sim->solids) {
-    RefineCut p;
-    p.refine = refine;
-    p.domain = GFS_DOMAIN (sim);
-    GSList * i = sim->solids->items;
-    while (i) {
-      p.surface = GFS_SOLID (i->data)->s;
-      if (GFS_SURFACE (p.surface)->s)
-	gfs_domain_traverse_cut (GFS_DOMAIN (sim), p.surface,
-				 FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				 (FttCellTraverseCutFunc) refine_cut_cell, &p);
-      else
-	gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-				  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				  (FttCellTraverseFunc) refine_implicit_cell, &p);
-      i = i->next;
-    }
-  }
-}
-
-static void gfs_refine_solid_class_init (GfsRefineClass * klass)
-{
-  klass->refine = gfs_refine_solid_refine;
-  GTS_OBJECT_CLASS (klass)->destroy = refine_solid_destroy;
-  GTS_OBJECT_CLASS (klass)->read = refine_solid_read;
-}
-
-GfsRefineClass * gfs_refine_solid_class (void)
-{
-  static GfsRefineClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_refine_solid_info = {
-      "GfsRefineSolid",
-      sizeof (GfsRefineSolid),
-      sizeof (GfsRefineClass),
-      (GtsObjectClassInitFunc) gfs_refine_solid_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_refine_class ()),
-				  &gfs_refine_solid_info);
-  }
-
-  return klass;
-}
-
-/* GfsRefineSurface: Object */
-
-static void refine_surface_destroy (GtsObject * object)
-{
-  GfsRefineSurface * d = GFS_REFINE_SURFACE (object);
-
-  gts_object_destroy (GTS_OBJECT (d->surface));
-
-  (* GTS_OBJECT_CLASS (gfs_refine_surface_class ())->parent_class->destroy) (object);
-}
-
-static void refine_surface_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_refine_surface_class ())->parent_class->write) (o, fp);
-  gfs_generic_surface_write (GFS_REFINE_SURFACE (o)->surface, gfs_object_simulation (o), fp);
-}
-
-static void refine_surface_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_refine_surface_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  gfs_generic_surface_read (GFS_REFINE_SURFACE (*o)->surface, gfs_object_simulation (*o), fp);
-}
-
-static void gfs_refine_surface_refine (GfsRefine * refine, GfsSimulation * sim)
-{
-  RefineCut p;
-
-  p.refine = refine;
-  p.domain = GFS_DOMAIN (sim);
-  p.surface = GFS_REFINE_SURFACE (refine)->surface;
-  if (GFS_SURFACE (p.surface)->twod) {
-    if (GFS_SURFACE (p.surface)->s)
-      gfs_domain_traverse_cut_2D (GFS_DOMAIN (sim), GFS_REFINE_SURFACE (refine)->surface,
-				  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				  (FttCellTraverseCutFunc) refine_cut_cell, &p);
-    else
-      g_assert_not_implemented ();
-  }
-  else {
-    if (GFS_SURFACE (p.surface)->s)
-      gfs_domain_traverse_cut (GFS_DOMAIN (sim), GFS_REFINE_SURFACE (refine)->surface,
-			       FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			       (FttCellTraverseCutFunc) refine_cut_cell, &p);
-    else
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) refine_implicit_cell, &p);
-  }
-}
-
-static void gfs_refine_surface_class_init (GfsRefineClass * klass)
-{
-  klass->refine = gfs_refine_surface_refine;
-
-  GTS_OBJECT_CLASS (klass)->destroy = refine_surface_destroy;
-  GTS_OBJECT_CLASS (klass)->write = refine_surface_write;
-  GTS_OBJECT_CLASS (klass)->read = refine_surface_read;
-}
-
-static void refine_surface_init (GfsRefineSurface * r)
-{
-  r->surface = GFS_GENERIC_SURFACE (gts_object_new (GTS_OBJECT_CLASS (gfs_surface_class ())));
-}
-
-GfsRefineClass * gfs_refine_surface_class (void)
-{
-  static GfsRefineClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_refine_surface_info = {
-      "GfsRefineSurface",
-      sizeof (GfsRefineSurface),
-      sizeof (GfsRefineClass),
-      (GtsObjectClassInitFunc) gfs_refine_surface_class_init,
-      (GtsObjectInitFunc) refine_surface_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_refine_class ()),
-				  &gfs_refine_surface_info);
-  }
-
-  return klass;
-}
-
-/* GfsRefineDistance: Object */
-
-static void refine_distance_destroy (GtsObject * object)
-{
-  GfsRefineDistance * d = GFS_REFINE_DISTANCE (object);
-
-  if (d->stree)
-    gts_bb_tree_destroy (d->stree, TRUE);
-  gfs_domain_remove_derived_variable (GFS_DOMAIN (gfs_object_simulation (object)), "Distance");
-
-  (* GTS_OBJECT_CLASS (gfs_refine_distance_class ())->parent_class->destroy) (object);
-}
-
-static gdouble cell_distance (FttCell * cell, 
-			      FttCellFace * face, 
-			      GfsSimulation * sim,
-			      GfsRefineDistance * refine)
-{
-  FttVector pos;
-  gdouble h = GFS_DIAGONAL*ftt_cell_size (cell), d;
-  GtsPoint p;
-
-  ftt_cell_pos (cell, &pos);
-  p.x = pos.x; p.y = pos.y; p.z = pos.z;
-  d = gts_bb_tree_point_distance (refine->stree, &p,
-				  (GtsBBoxDistFunc) gts_point_triangle_distance, NULL);
-  return d > h ? d - h : 0.;
-}
-
-static void refine_distance_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDerivedVariableInfo v = { "Distance", "distance to the surface", 
-			       cell_distance };
-
-  v.data = *o;
-  if (!gfs_domain_add_derived_variable (GFS_DOMAIN (gfs_object_simulation (*o)), v)) {
-    gts_file_error (fp, "derived variable `Distance' already defined");
-    return;
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_refine_distance_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GtsSurface * s = GFS_SURFACE (GFS_REFINE_SURFACE (*o)->surface)->s;
-  if (!s) {
-    gts_file_error (fp, "RefineDistance only works with GTS surfaces");
-    return;
-  }
-
-  GFS_REFINE_DISTANCE (*o)->stree = gts_bb_tree_surface (s);
-}
-
-static void gfs_refine_distance_class_init (GfsRefineClass * klass)
-{
-  klass->refine = gfs_refine_refine;
-
-  GTS_OBJECT_CLASS (klass)->destroy = refine_distance_destroy;
-  GTS_OBJECT_CLASS (klass)->read = refine_distance_read;
-}
-
-GfsRefineClass * gfs_refine_distance_class (void)
-{
-  static GfsRefineClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_refine_distance_info = {
-      "GfsRefineDistance",
-      sizeof (GfsRefineDistance),
-      sizeof (GfsRefineClass),
-      (GtsObjectClassInitFunc) gfs_refine_distance_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_refine_surface_class ()),
-				  &gfs_refine_distance_info);
-  }
-
-  return klass;
-}
-
-/* GfsRefineHeight: Object */
-
-static void refine_height_destroy (GtsObject * object)
-{
-  gfs_domain_remove_derived_variable (GFS_DOMAIN (gfs_object_simulation (object)), "Height");
-
-  (* GTS_OBJECT_CLASS (gfs_refine_height_class ())->parent_class->destroy) (object);
-}
-
-static gdouble interpolated_value (GtsSurface * s, FttVector * p)
-{
-  GtsPoint q;
-  GtsFace * t;
-
-  q.x = p->x; q.y = p->y;
-  t = gts_point_locate (&q, s, NULL);
-  if (t == NULL) {
-    g_warning ("cannot locate point (%g,%g)", p->x, p->y);
-    return 0.;
-  }
-  gts_triangle_interpolate_height (GTS_TRIANGLE (t), &q);
-  return q.z;
-}
-
-static gdouble cell_height (FttCell * cell, 
-			    FttCellFace * face, 
-			    GfsSimulation * sim,
-			    GfsRefineSurface * refine)
-{
-  FttVector pos;
-  ftt_cell_pos (cell, &pos);
-  return interpolated_value (GFS_SURFACE (refine->surface)->s, &pos);
-}
-
-static void refine_height_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDerivedVariableInfo v = { "Height", "vertical distance to the surface", 
-			       cell_height };
-
-  v.data = *o;
-  if (!gfs_domain_add_derived_variable (GFS_DOMAIN (gfs_object_simulation (*o)), v)) {
-    gts_file_error (fp, "derived variable `Height' already defined");
-    return;
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_refine_height_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (!GFS_SURFACE (GFS_REFINE_SURFACE (*o)->surface)->s) {
-    gts_file_error (fp, "RefineHeight only works with GTS surfaces");
-    return;
-  }
-}
-
-static void gfs_refine_height_class_init (GfsRefineClass * klass)
-{
-  klass->refine = gfs_refine_refine;
-
-  GTS_OBJECT_CLASS (klass)->destroy = refine_height_destroy;
-  GTS_OBJECT_CLASS (klass)->read = refine_height_read;
-}
-
-GfsRefineClass * gfs_refine_height_class (void)
-{
-  static GfsRefineClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_refine_height_info = {
-      "GfsRefineHeight",
-      sizeof (GfsRefineSurface),
-      sizeof (GfsRefineClass),
-      (GtsObjectClassInitFunc) gfs_refine_height_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_refine_surface_class ()),
-				  &gfs_refine_height_info);
-  }
-
-  return klass;
-}
diff --git a/src/refine.h b/src/refine.h
deleted file mode 100644
index a5f9cfe..0000000
--- a/src/refine.h
+++ /dev/null
@@ -1,118 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __REFINE_H__
-#define __REFINE_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "simulation.h"
-
-#if FTT_2D
-# define GFS_DIAGONAL 0.707106781187
-#else /* 3D */
-# define GFS_DIAGONAL 0.866025403785
-#endif /* 3D */
-
-/* GfsRefine: Header */
-
-typedef struct _GfsRefine             GfsRefine;
-typedef struct _GfsRefineClass        GfsRefineClass;
-
-struct _GfsRefine {
-  GtsSListContainee parent;
-
-  GfsFunction * maxlevel;
-};
-
-struct _GfsRefineClass {
-  GtsSListContaineeClass parent_class;
-
-  void (* refine) (GfsRefine * refine, GfsSimulation * simulation);
-};
-
-#define GFS_REFINE(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsRefine,\
-					           gfs_refine_class ())
-#define GFS_REFINE_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						   GfsRefineClass,\
-						   gfs_refine_class())
-#define GFS_IS_REFINE(obj)         (gts_object_is_from_class (obj,\
-						   gfs_refine_class ()))
-     
-GfsRefineClass * gfs_refine_class  (void);
-GfsRefine *      gfs_refine_new    (GfsRefineClass * klass);
-
-/* GfsRefineSolid: Header */
-
-#define GFS_IS_REFINE_SOLID(obj)         (gts_object_is_from_class (obj,\
-						   gfs_refine_solid_class ()))
-     
-GfsRefineClass * gfs_refine_solid_class  (void);
-
-/* GfsRefineSurface: Header */
-
-typedef struct _GfsRefineSurface         GfsRefineSurface;
-
-struct _GfsRefineSurface {
-  GfsRefine parent;
-
-  GfsGenericSurface * surface;
-};
-
-#define GFS_REFINE_SURFACE(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsRefineSurface,\
-					           gfs_refine_surface_class ())
-#define GFS_IS_REFINE_SURFACE(obj)         (gts_object_is_from_class (obj,\
-						   gfs_refine_surface_class ()))
-     
-GfsRefineClass * gfs_refine_surface_class  (void);
-
-/* GfsRefineDistance: Header */
-
-typedef struct _GfsRefineDistance         GfsRefineDistance;
-
-struct _GfsRefineDistance {
-  GfsRefineSurface parent;
-
-  GNode * stree;
-};
-
-#define GFS_REFINE_DISTANCE(obj)            GTS_OBJECT_CAST (obj,\
-					          GfsRefineDistance,\
-					          gfs_refine_distance_class ())
-#define GFS_IS_REFINE_DISTANCE(obj)         (gts_object_is_from_class (obj,\
-						  gfs_refine_distance_class ()))
-     
-GfsRefineClass * gfs_refine_distance_class  (void);
-
-/* GfsRefineHeight: Header */
-
-#define GFS_IS_REFINE_HEIGHT(obj)         (gts_object_is_from_class (obj,\
-						  gfs_refine_height_class ()))
-     
-GfsRefineClass * gfs_refine_height_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __REFINE_H__ */
diff --git a/src/river.c b/src/river.c
deleted file mode 100644
index c4ca052..0000000
--- a/src/river.c
+++ /dev/null
@@ -1,627 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "river.h"
-#include "adaptive.h"
-#include "source.h"
-
-/* GfsRiver: Object */
-
-static void flux (const gdouble * u, gdouble g, gdouble * f)
-{
-  f[0] = u[0]*u[1];                                     /* h*u */
-  f[1] = u[0]*u[1]*u[1] + g*(u[0]*u[0] - u[3]*u[3])/2.; /* h*u*u + g*(h*h - zb*zb)/2 */
-  f[2] = u[0]*u[1]*u[2];                                /* h*u*v */
-}
-
-static gdouble min (gdouble a, gdouble b)
-{
-  return a < b ? a : b;
-}
-
-static gdouble max (gdouble a, gdouble b)
-{
-  return a > b ? a : b;
-}
-
-/*
- * uL: left state vector [h,u,v,zb].
- * uR: right state vector.
- * g: acceleration of gravity.
- * f: flux vector.
- *
- * Fills @f by solving an approximate Riemann problem using the HLLC
- * scheme. See e.g. Liang, Borthwick, Stelling, IJNMF, 2004.
- */
-static void riemann_hllc (const gdouble * uL, const gdouble * uR,
-			  gdouble g,
-			  gdouble * f)
-{
-  gdouble cL = sqrt (g*uL[0]), cR = sqrt (g*uR[0]);
-  gdouble ustar = (uL[1] + uR[1])/2. + cL - cR;
-  gdouble cstar = (cL + cR)/2. + (uL[1] - uR[1])/4.;
-  gdouble SL = uL[0] == 0. ? uR[1] - 2.*cR : min (uL[1] - cL, ustar - cstar);
-  gdouble SR = uR[0] == 0. ? uL[1] + 2.*cL : max (uR[1] + cR, ustar + cstar);
-
-  if (0. <= SL)
-    flux (uL, g, f);
-  else if (0. >= SR)
-    flux (uR, g, f);
-  else {
-    gdouble fL[3], fR[3];
-    flux (uL, g, fL);
-    flux (uR, g, fR);
-    f[0] = (SR*fL[0] - SL*fR[0] + SL*SR*(uR[0] - uL[0]))/(SR - SL);
-    f[1] = (SR*fL[1] - SL*fR[1] + SL*SR*(uR[0]*uR[1] - uL[0]*uL[1]))/(SR - SL);
-    gdouble SM = ((SL*uR[0]*(uR[1] - SR) - SR*uL[0]*(uL[1] - SL))/
-		  (uR[0]*(uR[1] - SR) - uL[0]*(uL[1] - SL)));
-    if (SL <= 0. && 0. <= SM)
-      f[2] = uL[2]*f[0];
-    else if (SM <= 0. && 0. <= SR)
-      f[2] = uR[2]*f[0];
-    else {
-      fprintf (stderr, "L: %g %g %g R: %g %g %g\n",
-	       uL[0], uL[1], uL[2],
-	       uR[0], uR[1], uR[2]);
-      fprintf (stderr, "SL: %g SR: %g SM: %g\n", SL, SR, SM);
-      g_assert_not_reached ();
-    }
-  }
-}
-
-#define U 1
-#define V 2
-
-typedef struct {
-  FttComponent u;
-  gdouble du;
-  FttComponent v;
-  gdouble dv;
-} Sym;
-
-static void face_fluxes (FttCellFace * face, GfsRiver * r)
-{
-  if (GFS_VALUE (face->cell, r->v1[0]) <= GFS_RIVER_DRY &&
-      GFS_VALUE (face->neighbor, r->v1[0]) <= GFS_RIVER_DRY)
-    return;
-
-  static Sym sym[4] = {
-    {U,  1., V,  1.},
-    {U, -1., V, -1.},
-    {V,  1., U, -1.},
-    {V, -1., U,  1.}
-  };
-  Sym * s = &sym[face->d];
-  gdouble etaL = (GFS_VALUE (face->cell, r->v1[0]) + 
-		  s->du*GFS_VALUE (face->cell, r->dv[face->d/2][0]));
-  gdouble zbL = (GFS_VALUE (face->cell, r->v[3]) + 
-		 s->du*GFS_VALUE (face->cell, r->dv[face->d/2][3]));
-  gdouble zbR = (GFS_VALUE (face->neighbor, r->v[3]) -
-		 s->du*GFS_VALUE (face->neighbor, r->dv[face->d/2][3]));
-  gdouble zbLR = MAX (zbL, zbR);
-  gdouble uL[4], uR[4], f[3];
-
-  if (etaL > GFS_RIVER_DRY) {
-    uL[1] = s->du*(GFS_VALUE (face->cell, r->v1[s->u]) +
-		   s->du*GFS_VALUE (face->cell, r->dv[face->d/2][s->u]))/etaL; /* u = uh/h */
-    uL[2] = s->dv*(GFS_VALUE (face->cell, r->v1[s->v]) +
-		   s->du*GFS_VALUE (face->cell, r->dv[face->d/2][s->v]))/etaL; /* v = vh/h */
-  }
-  else
-    uL[1] = uL[2] = 0.;
-  uL[0] = MAX (0., etaL + zbL - zbLR);
-  uL[3] = 0.;
-
-  gdouble etaR = (GFS_VALUE (face->neighbor, r->v1[0]) -
-		  s->du*GFS_VALUE (face->neighbor, r->dv[face->d/2][0]));
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE: case FTT_FINE_COARSE:
-    /* fixme: this is only first-order accurate for fine/coarse */
-    if (etaR > GFS_RIVER_DRY) {
-      uR[1] = s->du*(GFS_VALUE (face->neighbor, r->v1[s->u]) -
-		     s->du*GFS_VALUE (face->neighbor, r->dv[face->d/2][s->u]))/etaR; /* u = uh/h */
-      uR[2] = s->dv*(GFS_VALUE (face->neighbor, r->v1[s->v]) -
-		     s->du*GFS_VALUE (face->neighbor, r->dv[face->d/2][s->v]))/etaR; /* v = vh/h */
-    }
-    else
-      uR[1] = uR[2] = 0.;
-    uR[0] = MAX (0., etaR + zbR - zbLR);
-    uR[3] = 0.;
-    break;
-
-  default:
-    g_assert_not_reached ();
-  }
-
-  riemann_hllc (uL, uR, r->g, f);
-
-  gdouble dt = gfs_domain_face_fraction (r->v[0]->domain, face)*r->dt/ftt_cell_size (face->cell);
-  f[0] *= dt;
-  f[2] = s->dv*dt*f[2];
-  GFS_VALUE (face->cell, r->flux[0])    -= f[0];
-  /* see equation 2.16 of Audusse et al, 2004 */
-  GFS_VALUE (face->cell, r->flux[s->u]) -= s->du*dt*(f[1] - r->g/2.*(uL[0]*uL[0] - etaL*etaL));
-  GFS_VALUE (face->cell, r->flux[s->v]) -= f[2];
-
-  f[1] = s->du*dt*(f[1] - r->g/2.*(uR[0]*uR[0] - etaR*etaR));
-  if (ftt_face_type (face) == FTT_FINE_COARSE) {
-    f[0] /= FTT_CELLS;
-    f[1] /= FTT_CELLS;
-    f[2] /= FTT_CELLS;
-  }
-  GFS_VALUE (face->neighbor, r->flux[0])    += f[0];
-  GFS_VALUE (face->neighbor, r->flux[s->u]) += f[1];
-  GFS_VALUE (face->neighbor, r->flux[s->v]) += f[2];
-}
-
-static void reset_fluxes (FttCell * cell, const GfsRiver * r)
-{
-  guint v;
-  for (v = 0; v < GFS_RIVER_NVAR; v++)
-    GFS_VALUE (cell, r->flux[v]) = 0.;
-}
-
-static void sources (FttCell * cell, GfsRiver * r)
-{
-  /* metric coefficients */
-  gdouble fm[FTT_NEIGHBORS], cm;
-
-  /* Geometric source terms (see doc/figures/lonlat.tm) */
-  if (GFS_DOMAIN (r)->cell_metric) {
-    GfsDomain * domain = GFS_DOMAIN (r);
-    FttCellFace face = { cell };
-    for (face.d = 0; face.d < FTT_NEIGHBORS; face.d++)
-      fm[face.d] = (* domain->face_metric) (domain, &face);
-    gdouble dh_dl = fm[FTT_RIGHT] - fm[FTT_LEFT];
-    gdouble dh_dt = fm[FTT_TOP]   - fm[FTT_BOTTOM];
-    cm = (* domain->cell_metric) (domain, cell)*ftt_cell_size (cell);
-    gdouble dldh = cm*GFS_SIMULATION (r)->physical_params.L;
-    gdouble 
-      phiu = GFS_VALUE (cell, r->v1[1]), 
-      phiv = GFS_VALUE (cell, r->v1[2]);
-    gdouble fG = phiv*dh_dl - phiu*dh_dt;
-    gdouble g = GFS_SIMULATION (r)->physical_params.g;
-
-    gdouble etaL = GFS_VALUE (cell, r->v1[0]) - GFS_VALUE (cell, r->dv[0][0]);
-    gdouble etaR = GFS_VALUE (cell, r->v1[0]) + GFS_VALUE (cell, r->dv[0][0]);
-    GFS_VALUE (cell, r->v[1]) += r->dt*(g*(etaL*etaL + etaR*etaR)/4.*dh_dl + fG*phiv)/dldh;
-
-    etaL = GFS_VALUE (cell, r->v1[0]) - GFS_VALUE (cell, r->dv[1][0]);
-    etaR = GFS_VALUE (cell, r->v1[0]) + GFS_VALUE (cell, r->dv[1][0]);
-    GFS_VALUE (cell, r->v[2]) += r->dt*(g*(etaL*etaL + etaR*etaR)/4.*dh_dt - fG*phiu)/dldh;
-  }
-  else { /* metric unity */
-    FttDirection d;
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      fm[d] = 1.;
-    cm = ftt_cell_size (cell);
-  }
-
-  /* Second-order correction for slope source term ("Sci" of Audusse
-     et al, 2004, SIAM, 25(6):2050-2065, equation 3.8) */
-  gdouble etaL = GFS_VALUE (cell, r->v1[0]) - GFS_VALUE (cell, r->dv[0][0]);
-  gdouble zbL = GFS_VALUE (cell, r->v[3]) - GFS_VALUE (cell, r->dv[0][3]);
-  gdouble etaR = GFS_VALUE (cell, r->v1[0]) + GFS_VALUE (cell, r->dv[0][0]);
-  gdouble zbR = GFS_VALUE (cell, r->v[3]) + GFS_VALUE (cell, r->dv[0][3]);
-
-  GFS_VALUE (cell, r->v[1]) += 
-    r->dt*r->g/4.*(fm[FTT_RIGHT] + fm[FTT_LEFT])*(etaL + etaR)*(zbL - zbR)/cm;
-
-  etaL = GFS_VALUE (cell, r->v1[0]) - GFS_VALUE (cell, r->dv[1][0]);
-  zbL = GFS_VALUE (cell, r->v[3]) - GFS_VALUE (cell, r->dv[1][3]);
-  etaR = GFS_VALUE (cell, r->v1[0]) + GFS_VALUE (cell, r->dv[1][0]);
-  zbR = GFS_VALUE (cell, r->v[3]) + GFS_VALUE (cell, r->dv[1][3]);
-
-  GFS_VALUE (cell, r->v[2]) += 
-    r->dt*r->g/4.*(fm[FTT_TOP] + fm[FTT_BOTTOM])*(etaL + etaR)*(zbL - zbR)/cm;
-}
-
-static void advance (GfsRiver * r, gdouble dt)
-{
-  GfsDomain * domain = GFS_DOMAIN (r);
-  guint i;
-
-  gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) reset_fluxes, r);
-  r->dt = dt;
-  gfs_domain_face_traverse (domain, FTT_XYZ,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) face_fluxes, r);
-  gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) sources, r);
-  for (i = 0; i < GFS_RIVER_NVAR; i++) {
-    GfsAdvectionParams par;
-    par.v = r->v[i];
-    par.fv = r->flux[i];
-    par.average = FALSE;
-    gfs_domain_traverse_merged (domain, (GfsMergedTraverseFunc) gfs_advection_update, &par);
-    gfs_domain_variable_centered_sources (domain, par.v, par.v, dt);
-  }
-  gfs_source_coriolis_implicit (domain, dt);
-  for (i = 0; i < GFS_RIVER_NVAR; i++)
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, r->v[i]);
-}
-
-static void copy (FttCell * cell, const GfsRiver * r)
-{
-  guint v;
-  for (v = 0; v < GFS_RIVER_NVAR; v++)
-    GFS_VALUE (cell, r->v1[v]) = GFS_VALUE (cell, r->v[v]);
-}
-
-static void cell_H (FttCell * cell,
-		    const GfsRiver * r)
-{
-  GFS_VALUE (cell, r->H) = GFS_VALUE (cell, r->zb) + GFS_VALUE (cell, r->v[0]);
-}
-
-static void cell_gradients (FttCell * cell,
-			    const GfsRiver * r)
-{
-  FttComponent c;
-  guint v;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    for (v = 0; v < GFS_RIVER_NVAR; v++)
-      GFS_VALUE (cell, r->dv[c][v]) = (* r->gradient) (cell, c, r->v[v]->i)/2.;
-    /* recontruct Zb + eta rather than Zb: see Theorem 3.1 of Audusse et al, 2004 */
-    GFS_VALUE (cell, r->dv[c][3]) = 
-      (* r->gradient) (cell, c, r->H->i)/2. - GFS_VALUE (cell, r->dv[c][0]);
-  }
-}
-
-typedef struct { 
-  FttCellTraverseFunc func;
-  FttDirection d;
-  gpointer data;
-} FaceTraverseData;
-
-static void face_traverse (FttCell * cell, FaceTraverseData * p)
-{
-  FttCell * neighbor = ftt_cell_neighbor (cell, p->d);
-  if (neighbor)
-    (* p->func) (neighbor, p->data);
-}
-
-static void domain_traverse_all_leaves (GfsDomain * domain,
-					FttCellTraverseFunc func,
-					gpointer data)
-{
-  FaceTraverseData p;
-
-  gfs_domain_traverse_leaves (domain, func, data);
-  /* now traverses boundary cells */
-  p.func = func;
-  p.data = data;
-  for (p.d = 0; p.d < FTT_NEIGHBORS; p.d++)
-    gfs_domain_cell_traverse_boundary (domain, p.d, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				       (FttCellTraverseFunc) face_traverse, &p);
-}
-
-static void river_run (GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsRiver * r = GFS_RIVER (sim);
-
-  r->v[3] = r->zb = gfs_variable_from_name (domain->variables, "Zb");
-
-  r->g = sim->physical_params.g/sim->physical_params.L;
-  r->gradient = sim->advection_params.gradient;
-
-  gfs_simulation_refine (sim);
-  gfs_simulation_init (sim);
-
-  gfs_simulation_set_timestep (sim);
-
-  while (sim->time.t < sim->time.end &&
-	 sim->time.i < sim->time.iend) {
-    gdouble tstart = gfs_clock_elapsed (domain->timer);
-
-    /* update H */
-    domain_traverse_all_leaves (domain, (FttCellTraverseFunc) cell_H, r);
-    
-    /* events */
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);
-
-    /* gradients */
-    gfs_domain_timer_start (domain, "gradients");
-    gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) cell_gradients, r);
-    FttComponent c;
-    guint v;
-    for (c = 0; c < FTT_DIMENSION; c++)
-      for (v = 0; v < GFS_RIVER_NVAR + 1; v++)
-	gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, r->dv[c][v]);
-    gfs_domain_timer_stop (domain, "gradients");
-
-    /* predictor */
-    domain_traverse_all_leaves (domain, (FttCellTraverseFunc) copy, r);
-    if (r->time_order == 2) {
-      gfs_domain_timer_start (domain, "predictor");
-      for (v = 0; v < GFS_RIVER_NVAR; v++)
-	gfs_variables_swap (r->v[v], r->v1[v]);
-      advance (r, sim->advection_params.dt/2.);
-      for (v = 0; v < GFS_RIVER_NVAR; v++)
-	gfs_variables_swap (r->v[v], r->v1[v]);
-      gfs_domain_timer_stop (domain, "predictor");
-    }
-    /* corrector */
-    gfs_domain_timer_start (domain, "corrector");
-    advance (r, sim->advection_params.dt);
-    gfs_domain_timer_stop (domain, "corrector");
-
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-    gfs_simulation_adapt (sim);
-
-    sim->time.t = sim->tnext;
-    sim->time.i++;
-
-    gfs_simulation_set_timestep (sim);
-
-    gts_range_add_value (&domain->timestep, gfs_clock_elapsed (domain->timer) - tstart);
-    gts_range_update (&domain->timestep);
-    gts_range_add_value (&domain->size, gfs_domain_size (domain, FTT_TRAVERSE_LEAFS, -1));
-    gts_range_update (&domain->size);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);  
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gts_object_destroy, NULL);
-}
-
-static gdouble maximum_face_metric (FttCell * cell, GfsDomain * domain, FttComponent c)
-{
-  if (domain->face_metric) {
-    FttCellFace f;
-    f.cell = cell; f.d = 2*c;
-    gdouble fm1 = (* domain->face_metric) (domain, &f);
-    f.d = 2*c + 1;
-    gdouble fm2 = (* domain->face_metric) (domain, &f);
-    return MAX (fm1, fm2);
-  }
-  else
-    return 1.;
-}
-
-static void minimum_cfl (FttCell * cell, GfsRiver * r)
-{
-  gdouble h = GFS_VALUE (cell, r->v[0]);
-  if (h > GFS_RIVER_DRY) {
-    GfsDomain * domain = GFS_DOMAIN (r);
-    gdouble vol = ftt_cell_size (cell);
-    if (domain->cell_metric)
-      vol *= (* domain->cell_metric) (domain, cell);
-    gdouble cg = sqrt (r->g*h);
-    FttComponent c;
-    for (c = FTT_X; c <= FTT_Y; c++) {
-      gdouble uh = fabs (GFS_VALUE (cell, r->v[c + 1]));
-      gdouble fm = maximum_face_metric (cell, domain, c);
-      gdouble cfl = vol/(fm*(uh/h + cg));
-      if (cfl < r->cfl)
-	r->cfl = cfl;
-    }
-  }
-}
-
-static gdouble river_cfl (GfsSimulation * sim)
-{
-  GfsRiver * r = GFS_RIVER (sim);
-  r->cfl = G_MAXDOUBLE;
-  gfs_domain_traverse_leaves (GFS_DOMAIN (sim), (FttCellTraverseFunc) minimum_cfl, r);
-  gfs_all_reduce (GFS_DOMAIN (sim), r->cfl, MPI_DOUBLE, MPI_MIN);
-  return r->cfl;
-}
-
-static void river_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_river_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsRiver * river = GFS_RIVER (*o);
-  if (fp->type == '{') {
-    GtsFileVariable var[] = {
-      {GTS_UINT, "time_order", TRUE},
-      {GTS_NONE}
-    };
-    var[0].data = &river->time_order;
-    gts_file_assign_variables (fp, var);
-    if (fp->type == GTS_ERROR)
-      return;
-  }
-}
-
-static void river_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_river_class ())->parent_class->write) (o, fp);
-
-  GfsRiver * river = GFS_RIVER (o);
-  fprintf (fp, " {\n"
-	   "  time_order = %d\n"
-	   "}",
-	   river->time_order);
-}
-
-static void river_class_init (GfsSimulationClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = river_read;
-  GTS_OBJECT_CLASS (klass)->write = river_write;
-  klass->run = river_run;
-  klass->cfl = river_cfl;
-}
-
-static gdouble cell_velocity (FttCell * cell, FttCellFace * face, GfsRiver * r)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  gdouble D = GFS_VALUE (cell, r->v[0]);
-  gdouble L = GFS_SIMULATION (r)->physical_params.L;
-  return D > GFS_RIVER_DRY ? L*gfs_vector_norm (cell, gfs_domain_velocity (GFS_DOMAIN (r)))/D : 0.;
-}
-
-static gdouble cell_velocity2 (FttCell * cell, FttCellFace * face, GfsRiver * r)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  gdouble D = GFS_VALUE (cell, r->v[0]);
-  gdouble L = GFS_SIMULATION (r)->physical_params.L;
-  return D > GFS_RIVER_DRY ? 
-    L*L*gfs_vector_norm2 (cell, gfs_domain_velocity (GFS_DOMAIN (r)))/(D*D) : 0.;
-}
-
-static void river_init (GfsRiver * r)
-{
-  GfsDomain * domain = GFS_DOMAIN (r);
-
-  gts_object_destroy (GTS_OBJECT (gfs_variable_from_name (domain->variables, "Pmac")));
-
-  r->v[0] = gfs_variable_from_name (domain->variables, "P");
-  r->v[0]->units = 1.;
-  g_free (r->v[0]->description);
-  r->v[0]->description = g_strdup ("Fluid depth");
-
-  r->v[1] = gfs_variable_from_name (domain->variables, "U");
-  r->v[1]->units = 2.;
-  g_free (r->v[1]->description);
-  r->v[1]->description = g_strdup ("x-component of the fluid flux");
-
-  r->v[2] = gfs_variable_from_name (domain->variables, "V");
-  r->v[2]->units = 2.;
-  g_free (r->v[2]->description);
-  r->v[2]->description = g_strdup ("y-component of the fluid flux");
-
-  GfsVariable * zb = gfs_domain_add_variable (domain, "Zb", "Bed elevation above datum");
-  zb->units = 1.;
-
-  r->H = gfs_domain_add_variable (domain, "H", "Elevation above datum (Zb + P)");
-  r->H->units = 1.;
-
-  r->flux[0] = gfs_domain_add_variable (domain, NULL, NULL);
-  r->flux[1] = gfs_domain_add_variable (domain, NULL, NULL);
-  r->flux[2] = gfs_domain_add_variable (domain, NULL, NULL);
-
-  r->v1[0] = gfs_domain_add_variable (domain, NULL, NULL);
-  r->v1[1] = gfs_domain_add_variable (domain, NULL, NULL);
-  r->v1[2] = gfs_domain_add_variable (domain, NULL, NULL);
-  gfs_variable_set_vector (&r->v1[1], 2);
-
-  r->dv[0][0] = gfs_domain_add_variable (domain, "Px", "x-component of the depth gradient");
-  r->dv[1][0] = gfs_domain_add_variable (domain, "Py", "y-component of the depth gradient");
-  r->dv[0][1] = gfs_domain_add_variable (domain, "Ux", "x-component of the flux gradient");
-  r->dv[1][1] = gfs_domain_add_variable (domain, "Uy", "y-component of the flux gradient");
-  r->dv[0][2] = gfs_domain_add_variable (domain, "Vx", "x-component of the flux gradient");
-  r->dv[1][2] = gfs_domain_add_variable (domain, "Vy", "y-component of the flux gradient");
-  r->dv[0][3] = gfs_domain_add_variable (domain, "Zbx", "x-component of the bed slope");
-  r->dv[1][3] = gfs_domain_add_variable (domain, "Zby", "y-component of the bed slope");
-
-  GFS_SIMULATION (r)->advection_params.gradient = gfs_center_minmod_gradient;
-  GFS_SIMULATION (r)->advection_params.cfl = 0.5;
-
-  GfsDerivedVariable * v = gfs_derived_variable_from_name (domain->derived_variables, "Velocity");
-  v->func = cell_velocity;
-  v = gfs_derived_variable_from_name (domain->derived_variables, "Velocity2");
-  v->func = cell_velocity2;
-
-  gfs_domain_remove_derived_variable (domain, "Vorticity");
-  gfs_domain_remove_derived_variable (domain, "Divergence");
-  gfs_domain_remove_derived_variable (domain, "Lambda2");
-  gfs_domain_remove_derived_variable (domain, "Curvature");
-  gfs_domain_remove_derived_variable (domain, "D2");
-
-  r->time_order = 2;
-}
-
-GfsSimulationClass * gfs_river_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_river_info = {
-      "GfsRiver",
-      sizeof (GfsRiver),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) river_class_init,
-      (GtsObjectInitFunc) river_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_simulation_class ()), 
-				  &gfs_river_info);
-  }
-
-  return klass;
-}
-
-/* GfsBcSubcritical: Object */
-
-static void subcritical (FttCellFace * f, GfsBc * b)
-{
-  gdouble hb = gfs_function_face_value (GFS_BC_VALUE (b)->val, f);
-  GfsRiver * river = GFS_RIVER (b->v->domain);
-  gdouble hi = GFS_VALUE (f->neighbor, river->v[0]);
-
-  g_assert (hi >= 0.);
-  GFS_VALUE (f->cell, b->v) = GFS_VALUE (f->neighbor, b->v) + 
-    (FTT_FACE_DIRECT (f) ? -1. : 1.)*2.*hi*(sqrt (river->g*hi) - sqrt (river->g*MAX (hb, 0.)));
-}
-
-static void bc_subcritical_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsBc * bc = GFS_BC (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_bc_subcritical_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_bc_subcritical_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (!GFS_IS_RIVER (bc->v->domain)) {
-    gts_file_error (fp, "GfsBcSubcritical only makes sense for GfsRiver simulations");
-    return;
-  }
-
-  gfs_function_set_units (GFS_BC_VALUE (bc)->val, 1.);
-}
-
-static void gfs_bc_subcritical_init (GfsBc * object)
-{
-  object->bc =  (FttFaceTraverseFunc) subcritical;
-}
-
-static void gfs_bc_subcritical_class_init (GtsObjectClass * klass)
-{
-  klass->read = bc_subcritical_read;
-}
-
-GfsBcClass * gfs_bc_subcritical_class (void)
-{
-  static GfsBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_bc_subcritical_info = {
-      "GfsBcSubcritical",
-      sizeof (GfsBcValue),
-      sizeof (GfsBcClass),
-      (GtsObjectClassInitFunc) gfs_bc_subcritical_class_init,
-      (GtsObjectInitFunc) gfs_bc_subcritical_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_bc_value_class ()),
-				  &gfs_bc_subcritical_info);
-  }
-
-  return klass;
-}
diff --git a/src/river.h b/src/river.h
deleted file mode 100644
index 3fc7d3d..0000000
--- a/src/river.h
+++ /dev/null
@@ -1,68 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __RIVER_H__
-#define __RIVER_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "variable.h"
-
-/* GfsRiver: Header */
-
-#define GFS_RIVER_NVAR 3
-#define GFS_RIVER_DRY 1e-6
-
-typedef struct _GfsRiver GfsRiver;
-
-struct _GfsRiver {
-  /*< private >*/
-  GfsSimulation parent;
-  gdouble cfl;
-
-  /*< public >*/
-  GfsVariable * v[GFS_RIVER_NVAR + 1], * v1[GFS_RIVER_NVAR], * zb, * H;
-  GfsVariable * dv[FTT_DIMENSION][GFS_RIVER_NVAR + 1];
-  GfsVariable * flux[GFS_RIVER_NVAR];
-  gdouble g, dt;
-  GfsCenterGradient gradient;
-  guint time_order;
-};
-
-#define GFS_RIVER(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsRiver,\
-					           gfs_river_class ())
-#define GFS_IS_RIVER(obj)         (gts_object_is_from_class (obj,\
-						   gfs_river_class ()))
-
-GfsSimulationClass * gfs_river_class        (void);
-
-/* GfsBcSubcritical: Header */
-
-#define GFS_IS_BC_SUBCRITICAL(obj)         (gts_object_is_from_class (obj,\
-						 gfs_bc_subcritical_class ()))
-GfsBcClass * gfs_bc_subcritical_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __RIVER_H__ */
diff --git a/src/simulation.c b/src/simulation.c
deleted file mode 100644
index 26e3c93..0000000
--- a/src/simulation.c
+++ /dev/null
@@ -1,2021 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <math.h>
-#include <gmodule.h>
-#include "config.h"
-#include "gfsconfig.h"
-#include "simulation.h"
-#include "output.h"
-#include "refine.h"
-#include "solid.h"
-#include "adaptive.h"
-#include "source.h"
-#include "vof.h"
-#include "tension.h"
-#include "map.h"
-#include "version.h"
-
-/* GfsSimulation: object */
-
-static void simulation_destroy (GtsObject * object)
-{
-  GfsSimulation * sim = GFS_SIMULATION (object);
-
-  gts_container_foreach (GTS_CONTAINER (sim->refines), (GtsFunc) gts_object_destroy, NULL);
-  gts_object_destroy (GTS_OBJECT (sim->refines));
-
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gts_object_destroy, NULL);
-  gts_object_destroy (GTS_OBJECT (sim->events));
-
-  gts_container_foreach (GTS_CONTAINER (sim->maps), (GtsFunc) gts_object_destroy, NULL);
-  gts_object_destroy (GTS_OBJECT (sim->maps));
-
-  gts_object_destroy (GTS_OBJECT (sim->adapts));
-  gts_object_destroy (GTS_OBJECT (sim->solids));
-
-  g_slist_foreach (sim->modules, (GFunc) g_module_close, NULL);
-  g_slist_free (sim->modules);
-  g_slist_foreach (sim->globals, (GFunc) gts_object_destroy, NULL);
-  g_slist_free (sim->globals);
-  g_slist_foreach (sim->preloaded_modules, (GFunc) g_module_close, NULL);
-  g_slist_free (sim->preloaded_modules);
-
-  (* GTS_OBJECT_CLASS (gfs_simulation_class ())->parent_class->destroy) (object);
-}
-
-static void simulation_write (GtsObject * object, FILE * fp)
-{
-  GfsSimulation * sim = GFS_SIMULATION (object);
-  GSList * i;
-  GfsVariable * v;
-
-  (* GTS_OBJECT_CLASS (gfs_simulation_class ())->parent_class->write)
-    (object, fp);
-
-  fputs (" {\n"
-	 "  # when editing this file it is recommended to comment out the following line\n"
-	 "  GfsDeferredCompilation\n",
-	 fp);
-
-  i = sim->modules;
-  while (i) {
-    void (* module_write) (FILE *);
-    const gchar * name = NULL;
-    fprintf (fp, "  GModule %s", 
-	     g_module_symbol (i->data, "gfs_module_name", (gpointer) &name) ? name : 
-	     g_module_name (i->data));
-    if (g_module_symbol (i->data, "gfs_module_write", (gpointer) &module_write))
-      (* module_write) (fp);
-    fputc ('\n', fp);
-    i = i->next;
-  }
-
-  i = sim->globals;
-  while (i) {
-    fputs ("  ", fp);
-    (* GTS_OBJECT (i->data)->klass->write) (i->data, fp);
-    i = i->next;
-  }
-
-  fputs ("  GfsTime ", fp);
-  gfs_time_write (&sim->time, fp);
-  fputc ('\n', fp);
-
-  if (GFS_DOMAIN (sim)->max_depth_write < -1) {
-    i = sim->refines->items;
-    while (i) {
-      GtsObject * object = i->data;
-      
-      fputs ("  ", fp);
-      g_assert (object->klass->write);
-      (* object->klass->write) (object, fp);
-      fputc ('\n', fp);
-      i = i->next;
-    }
-  }
-
-  i = sim->events->items;
-  while (i) {
-    GtsObject * object = i->data;
-    GfsEvent * event = i->data;
-    
-    if (event->t < event->end && event->i < event->iend) {
-      fputs ("  ", fp);
-      g_assert (object->klass->write);
-      (* object->klass->write) (object, fp);
-      fputc ('\n', fp);
-    }
-    i = i->next;
-  }
-
-  i = GFS_DOMAIN (sim)->variables;
-  while (i) {
-    v = i->data;
-    if (v->surface_bc) {
-      fputs ("  ", fp);
-      (* GTS_OBJECT (v->surface_bc)->klass->write) (GTS_OBJECT (v->surface_bc), fp);
-      fputc ('\n', fp);
-    }
-    i = i->next;
-  }
-
-  fputs ("  GfsPhysicalParams ", fp);
-  gfs_physical_params_write (&sim->physical_params, fp);
-  fputs ("\n  GfsAdvectionParams ", fp);
-  gfs_advection_params_write (&sim->advection_params, fp);
-  fputs ("\n  GfsApproxProjectionParams ", fp);
-  gfs_multilevel_params_write (&sim->approx_projection_params, fp);
-  fputs ("\n  GfsProjectionParams ", fp);
-  gfs_multilevel_params_write (&sim->projection_params, fp);
-  fputc ('\n', fp);
-
-  i = sim->maps->items;
-  while (i) {
-    GtsObject * object = i->data;
-    g_assert (object->klass->write);
-    (* object->klass->write) (object, fp);
-    fputc ('\n', fp);
-    i = i->next;
-  }
-
-  fputc ('}', fp);
-}
-
-static gboolean strmatch (const gchar * s, const gchar * s1)
-{
-  gboolean m = !strcmp (s, s1);
-
-  if (!m) {
-    gchar * s2 = g_strconcat ("Gfs", s, NULL);
-    m = !strcmp (s2, s1);
-    g_free (s2);
-  }
-  return m;
-}
-
-static GModule * load_module (GtsFile * fp, GfsSimulation * sim)
-{
-  gts_file_next_token (fp);
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (module name)");
-    return NULL;
-  }
-  if (!g_module_supported ()) {
-    g_warning ("modules are not supported on this system");
-    gts_file_next_token (fp);
-    return NULL;
-  }
-  else {
-    GModule * module;
-
-    module = g_module_open (fp->token->str, 0);
-    if (module == NULL) {
-      gchar * name = g_strconcat (fp->token->str, 
-#if FTT_2D
-				  "2D"
-#elif FTT_2D3
-				  "2D3"
-#else
-				  "3D"
-#endif
-				  , NULL);
-      gchar * path = g_module_build_path (GFS_MODULES_DIR, name);
-      g_free (name);
-      module = g_module_open (path, 0);
-      g_free (path);
-    }
-    if (module == NULL) {
-      gts_file_error (fp, "cannot load module: %s", g_module_error ());
-      return NULL;
-    }
-    g_module_make_resident (module);
-    gts_file_next_token (fp);
-
-    void (* module_read) (GtsFile *, GfsSimulation * sim);
-    if (g_module_symbol (module, "gfs_module_read", (gpointer) &module_read)) {
-      (* module_read) (fp, sim);
-      if (fp->type == GTS_ERROR)
-	return NULL;
-    }
-    return module;
-  }
-}
-
-static void simulation_read (GtsObject ** object, GtsFile * fp)
-{
-  GfsSimulation * sim = GFS_SIMULATION (*object);
-
-  (* GTS_OBJECT_CLASS (gfs_simulation_class ())->parent_class->read) (object, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a keyword");
-      return;
-    }
-
-    /* ------ Deferred compilation ------*/
-    if (!strcmp (fp->token->str, "GfsDeferredCompilation")) {
-      sim->deferred_compilation = TRUE;
-      gts_file_next_token (fp);
-    }
-
-    /* ------------ GModule ------------ */
-    else if (!strcmp (fp->token->str, "GModule")) {
-      GModule * module = load_module (fp, sim);
-      if (module == NULL)
-	return;
-      sim->modules = g_slist_prepend (sim->modules, module);
-    }
-
-    /* ------------ GfsTime ------------ */
-    else if (strmatch (fp->token->str, "GfsTime")) {
-      gts_file_next_token (fp);
-      gfs_time_read (&sim->time, fp);
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-
-    /* ------------ GfsPhysicalParams ------------ */
-    else if (strmatch (fp->token->str, "GfsPhysicalParams")) {
-      gts_file_next_token (fp);
-      gfs_physical_params_read (&sim->physical_params, GFS_DOMAIN (sim), fp);
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-
-    /* ------------ GfsProjectionParams ------------ */
-    else if (strmatch (fp->token->str, "GfsProjectionParams")) {
-      gts_file_next_token (fp);
-      gfs_multilevel_params_read (&sim->projection_params, fp);
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-
-    /* ------------ GfsApproxProjectionParams ------------ */
-    else if (strmatch (fp->token->str, "GfsApproxProjectionParams")) {
-      gts_file_next_token (fp);
-      gfs_multilevel_params_read (&sim->approx_projection_params, fp);
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-
-    /* ------------ GfsAdvectionParams ------------ */
-    else if (strmatch (fp->token->str, "GfsAdvectionParams")) {
-      gts_file_next_token (fp);
-      gfs_advection_params_read (&sim->advection_params, fp);
-      if (fp->type == GTS_ERROR)
-	return;
-    }
-
-    /* ------------ GtsObject ------------ */
-    else {
-      GtsObjectClass * klass = gfs_object_class_from_name (fp->token->str);
-      GtsObject * object;
-
-      if (klass == NULL) {
-	gts_file_error (fp, "unknown keyword `%s'", fp->token->str);
-	return;
-      }
-      if (gts_object_class_is_from_class (klass, gfs_box_class ())) {
-	gts_file_error (fp, "parse error (unclosed statement?)");
-	return;
-      }
-
-      object = gts_object_new (klass);
-      gfs_object_simulation_set (object, sim);
-
-      g_assert (klass->read);
-      (* klass->read) (&object, fp);
-      if (fp->type == GTS_ERROR) {
-	gts_object_destroy (object);
-	return;
-      }
-
-      if (GFS_IS_GLOBAL (object))
-	sim->globals = g_slist_append (sim->globals, object);
-      else if (GFS_IS_REFINE (object))
-	gts_container_add (GTS_CONTAINER (sim->refines), GTS_CONTAINEE (object));
-      else if (GFS_IS_ADAPT (object)) {
-	gts_container_add (GTS_CONTAINER (sim->adapts), GTS_CONTAINEE (object));
-	gts_container_add (GTS_CONTAINER (sim->events), GTS_CONTAINEE (object));
-      }
-      else if (GFS_IS_SOLID (object)) {
-	gts_container_add (GTS_CONTAINER (sim->solids), GTS_CONTAINEE (object));
-	gts_container_add (GTS_CONTAINER (sim->events), GTS_CONTAINEE (object));
-      }
-      else if (GFS_IS_EVENT (object))
-	gts_container_add (GTS_CONTAINER (sim->events), GTS_CONTAINEE (object));
-      else if (GFS_IS_MAP (object))
-	gts_container_add (GTS_CONTAINER (sim->maps), GTS_CONTAINEE (object));
-      else if (GFS_IS_SURFACE_GENERIC_BC (object))
-	;
-      else
-	g_assert_not_reached ();
-    }
-  }
-  
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-
-  sim->refines->items = g_slist_reverse (sim->refines->items);
-  sim->adapts->items = g_slist_reverse (sim->adapts->items);
-  sim->events->items = g_slist_reverse (sim->events->items);
-  sim->solids->items = g_slist_reverse (sim->solids->items);
-  sim->modules = g_slist_reverse (sim->modules);
-}
-
-/**
- * gfs_advance_tracers:
- * @domain: a #GfsDomain.
- *
- * Performs advection/difussion of tracers associated with @domain.
- */
-void gfs_advance_tracers (GfsDomain * domain, gdouble dt)
-{
-  g_return_if_fail (domain != NULL);
-
-  GSList * i = domain->variables;
-  while (i) {
-    if (GFS_IS_VARIABLE_TRACER_VOF (i->data)) {
-      GfsVariableTracer * t = i->data;
-      
-      t->advection.dt = dt;
-      gfs_tracer_vof_advection (domain, &t->advection);
-      gfs_domain_variable_centered_sources (domain, i->data, i->data, t->advection.dt);
-    }
-    else if (GFS_IS_VARIABLE_TRACER (i->data)) {
-      GfsVariableTracer * t = i->data;
-      
-      t->advection.dt = dt;
-      gfs_tracer_advection_diffusion (domain, &t->advection);
-      gfs_domain_cell_traverse (domain,
-				FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-				(FttCellTraverseFunc) GFS_VARIABLE1 (t)->fine_coarse, t);
-    }
-    i = i->next;
-  }  
-}
-
-static void simulation_run (GfsSimulation * sim)
-{
-  GfsVariable * p, * pmac, * res = NULL, * g[FTT_DIMENSION], * gmac[FTT_DIMENSION];
-  GfsVariable ** gc = sim->advection_params.gc ? g : NULL;
-  GfsDomain * domain;
-  GSList * i;
-
-  domain = GFS_DOMAIN (sim);
-
-  p = gfs_variable_from_name (domain->variables, "P");
-  g_assert (p);
-  pmac = gfs_variable_from_name (domain->variables, "Pmac");
-  g_assert (pmac);
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gmac[c] = gfs_temporary_variable (domain);
-    if (sim->advection_params.gc)
-      g[c] = gfs_temporary_variable (domain);
-    else
-      g[c] = gmac[c];
-  }
-  gfs_variable_set_vector (gmac, FTT_DIMENSION);
-  gfs_variable_set_vector (g, FTT_DIMENSION);
-
-  gfs_simulation_refine (sim);
-  gfs_simulation_init (sim);
-
-  i = domain->variables;
-  while (i) {
-    if (GFS_IS_VARIABLE_RESIDUAL (i->data))
-      res = i->data;
-    i = i->next;
-  }
-
-  gfs_simulation_set_timestep (sim);
-  if (sim->time.i == 0) {
-    gfs_approximate_projection (domain,
-				&sim->approx_projection_params,
-				&sim->advection_params,
-				p, sim->physical_params.alpha, res, g, NULL);
-    gfs_simulation_set_timestep (sim);
-    gfs_advance_tracers (domain, sim->advection_params.dt/2.);
-  }
-  else if (sim->advection_params.gc)
-    gfs_update_gradients (domain, p, sim->physical_params.alpha, g);
-
-  while (sim->time.t < sim->time.end &&
-	 sim->time.i < sim->time.iend) {
-    gdouble tstart = gfs_clock_elapsed (domain->timer);
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);
-
-    gfs_predicted_face_velocities (domain, FTT_DIMENSION, &sim->advection_params);
-    
-    gfs_variables_swap (p, pmac);
-    gfs_mac_projection (domain,
-    			&sim->projection_params, 
-    			&sim->advection_params,
-			p, sim->physical_params.alpha, gmac, NULL);
-    gfs_variables_swap (p, pmac);
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_half_do, sim);
-
-    gfs_centered_velocity_advection_diffusion (domain,
-					       FTT_DIMENSION,
-					       &sim->advection_params,
-					       gmac,
-					       sim->time.i > 0 || !gc ? gc : gmac,
-					       sim->physical_params.alpha);
-    if (gc) {
-      gfs_source_coriolis_implicit (domain, sim->advection_params.dt);
-      gfs_correct_centered_velocities (domain, FTT_DIMENSION, sim->time.i > 0 ? gc : gmac, 
-				       -sim->advection_params.dt);
-    }
-    else if (gfs_has_source_coriolis (domain)) {
-      gfs_correct_centered_velocities (domain, FTT_DIMENSION, gmac, sim->advection_params.dt);
-      gfs_source_coriolis_implicit (domain, sim->advection_params.dt);
-      gfs_correct_centered_velocities (domain, FTT_DIMENSION, gmac, -sim->advection_params.dt);
-    }
-
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-    gfs_simulation_adapt (sim);
-
-    gfs_approximate_projection (domain,
-   				&sim->approx_projection_params, 
-    				&sim->advection_params, 
-				p, sim->physical_params.alpha, res, g, NULL);
-
-    sim->time.t = sim->tnext;
-    sim->time.i++;
-
-    gfs_simulation_set_timestep (sim);
-    gfs_advance_tracers (domain, sim->advection_params.dt);
-
-    gts_range_add_value (&domain->timestep, gfs_clock_elapsed (domain->timer) - tstart);
-    gts_range_update (&domain->timestep);
-    gts_range_add_value (&domain->size, gfs_domain_size (domain, FTT_TRAVERSE_LEAFS, -1));
-    gts_range_update (&domain->size);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);  
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gts_object_destroy, NULL);
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gts_object_destroy (GTS_OBJECT (gmac[c]));
-    if (sim->advection_params.gc)
-      gts_object_destroy (GTS_OBJECT (g[c]));
-  }
-}
-
-static gdouble simulation_cfl (GfsSimulation * sim)
-{
-  return gfs_domain_cfl (GFS_DOMAIN (sim), FTT_TRAVERSE_LEAFS, -1);
-}
-
-static void gfs_simulation_class_init (GfsSimulationClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->write =   simulation_write;
-  GTS_OBJECT_CLASS (klass)->read =    simulation_read;
-  GTS_OBJECT_CLASS (klass)->destroy = simulation_destroy;
-
-  klass->run = simulation_run;
-  klass->cfl = simulation_cfl;
-}
-
-/* Derived variables */
-
-static gdouble cell_x (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    gfs_face_ca (face, &p);
-  else
-    gfs_cell_cm (cell, &p);
-  gfs_simulation_map_inverse (sim, &p);
-  return p.x;
-}
-
-static gdouble cell_y (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    gfs_face_ca (face, &p);
-  else
-    gfs_cell_cm (cell, &p);
-  gfs_simulation_map_inverse (sim, &p);
-  return p.y;
-}
-
-static gdouble cell_z (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    gfs_face_ca (face, &p);
-  else
-    gfs_cell_cm (cell, &p);
-  gfs_simulation_map_inverse (sim, &p);
-  return p.z;
-}
-
-static gdouble cell_ax (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  if (!GFS_IS_MIXED (cell))
-    return 0.;
-  else {
-    FttVector p = GFS_STATE (cell)->solid->ca;
-    gfs_simulation_map_inverse (sim, &p);
-    return p.x;
-  }
-}
-
-static gdouble cell_ay (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  if (!GFS_IS_MIXED (cell))
-    return 0.;
-  else {
-    FttVector p = GFS_STATE (cell)->solid->ca;
-    gfs_simulation_map_inverse (sim, &p);
-    return p.y;
-  }
-}
-
-static gdouble cell_az (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  if (!GFS_IS_MIXED (cell))
-    return 0.;
-  else {
-    FttVector p = GFS_STATE (cell)->solid->ca;
-    gfs_simulation_map_inverse (sim, &p);
-    return p.z;
-  }
-}
-
-static gdouble cell_cx (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    ftt_face_pos (face, &p);
-  else
-    ftt_cell_pos (cell, &p);
-  gfs_simulation_map_inverse (sim, &p);
-  return p.x;
-}
-
-static gdouble cell_cy (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    ftt_face_pos (face, &p);
-  else
-    ftt_cell_pos (cell, &p);
-  gfs_simulation_map_inverse (sim, &p);
-  return p.y;
-}
-
-static gdouble cell_cz (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    ftt_face_pos (face, &p);
-  else
-    ftt_cell_pos (cell, &p);
-  gfs_simulation_map_inverse (sim, &p);
-  return p.z;
-}
-
-static gdouble cell_rx (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    ftt_face_pos (face, &p);
-  else
-    ftt_cell_pos (cell, &p);
-  return p.x;
-}
-
-static gdouble cell_ry (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    ftt_face_pos (face, &p);
-  else
-    ftt_cell_pos (cell, &p);
-  return p.y;
-}
-
-static gdouble cell_rz (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  FttVector p;
-
-  g_return_val_if_fail (cell != NULL || face != NULL, 0.);
-
-  if (face)
-    ftt_face_pos (face, &p);
-  else
-    ftt_cell_pos (cell, &p);
-  return p.z;
-}
-
-static gdouble cell_dV (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  gdouble dV = ftt_cell_volume (cell);
-  gdouble L = sim->physical_params.L;
-#if FTT_2D
-  dV *= L*L;
-#else
-  dV *= L*L*L;
-#endif
-  return GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a*dV : dV;
-}
-
-static gdouble cell_dL (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  gdouble dL = ftt_cell_size (cell);
-  gdouble L = sim->physical_params.L;
-  return L*dL;
-}
-
-static gdouble cell_t (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  return sim->time.t;
-}
-
-static gdouble cell_dt (FttCell * cell, FttCellFace * face, GfsSimulation * sim)
-{
-  return sim->advection_params.dt;
-}
-
-static gdouble cell_vorticity (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  return gfs_vorticity (cell, gfs_domain_velocity (domain));
-}
-
-static gdouble cell_divergence (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  return gfs_divergence (cell, gfs_domain_velocity (domain));
-}
-
-static gdouble cell_velocity_norm (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  gdouble L = GFS_SIMULATION (domain)->physical_params.L;
-  return L*gfs_vector_norm (cell, gfs_domain_velocity (domain));
-}
-
-static gdouble cell_velocity_norm2 (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  gdouble L = GFS_SIMULATION (domain)->physical_params.L;
-  return L*L*gfs_vector_norm2 (cell, gfs_domain_velocity (domain));
-}
-
-static gdouble cell_level (FttCell * cell)
-{
-  return ftt_cell_level (cell);
-}
-
-static gdouble cell_fraction (FttCell * cell)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  return GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-}
-
-static gdouble cell_solid_area (FttCell * cell)
-{
-  FttVector n;
-  gfs_solid_normal (cell, &n);
-  return ftt_vector_norm (&n);
-}
-
-static gdouble cell_solid_sr (FttCell * cell)
-{
-  return GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->s[FTT_RIGHT] : 1.;
-}
-
-static gdouble cell_solid_sl (FttCell * cell)
-{
-  return GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->s[FTT_LEFT] : 1.;
-}
-
-static gdouble cell_solid_st (FttCell * cell)
-{
-  return GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->s[FTT_TOP] : 1.;
-}
-
-static gdouble cell_solid_sb (FttCell * cell)
-{
-  return GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->s[FTT_BOTTOM] : 1.;
-}
-
-#if !FTT_2D
-static gdouble cell_solid_sf (FttCell * cell)
-{
-  return GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->s[FTT_FRONT] : 1.;
-}
-
-static gdouble cell_solid_sk (FttCell * cell)
-{
-  return GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->s[FTT_BACK] : 1.;
-}
-#endif /* 3D */
-
-static gdouble cell_velocity_lambda2 (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  return gfs_vector_lambda2 (cell, gfs_domain_velocity (domain));
-}
-
-static gdouble cell_streamline_curvature (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  gdouble L = GFS_SIMULATION (domain)->physical_params.L;
-  return gfs_streamline_curvature (cell, gfs_domain_velocity (domain))/L;
-}
-
-static gdouble cell_2nd_principal_invariant (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  return gfs_2nd_principal_invariant (cell, gfs_domain_velocity (domain))/ftt_cell_size (cell);
-}
-
-static gdouble cell_pid (FttCell * cell)
-{
-  while (!FTT_CELL_IS_ROOT (cell))
-    cell = ftt_cell_parent (cell);
-  return GFS_BOX (FTT_ROOT_CELL (cell)->parent)->pid;
-}
-
-static gdouble cell_id (FttCell * cell)
-{
-  while (!FTT_CELL_IS_ROOT (cell))
-    cell = ftt_cell_parent (cell);
-  return GFS_BOX (FTT_ROOT_CELL (cell)->parent)->id;
-}
-
-static void simulation_init (GfsSimulation * object)
-{
-  GfsDomain * domain = GFS_DOMAIN (object);
-  /* Please update http://gfs.sourceforge.net/wiki/index.php/Domain_variables 
-     when changing this list */
-  static GfsDerivedVariableInfo derived_variable[] = {
-    { "x", "x-coordinate of the center of mass of the cell", cell_x },
-    { "y", "y-coordinate of the center of mass of the cell", cell_y },
-    { "z", "z-coordinate of the center of mass of the cell", cell_z },
-    { "ax", "x-coordinate of the center of area of the solid surface", cell_ax },
-    { "ay", "y-coordinate of the center of area of the solid surface", cell_ay },
-    { "az", "z-coordinate of the center of area of the solid surface", cell_az },
-    { "cx", "x-coordinate of the center of the cell", cell_cx },
-    { "cy", "y-coordinate of the center of the cell", cell_cy },
-    { "cz", "z-coordinate of the center of the cell", cell_cz },
-    { "rx", "x-coordinate of the center of the cell (internal)", cell_rx },
-    { "ry", "y-coordinate of the center of the cell (internal)", cell_ry },
-    { "rz", "z-coordinate of the center of the cell (internal)", cell_rz },
-    { "dV", "volume of the cell", cell_dV},
-    { "dL", "length of the cell", cell_dL},
-    { "t",  "Physical time", cell_t },
-    { "dt", "Timestep", cell_dt },
-    { "Vorticity", "Norm of the vorticity vector of the velocity field", cell_vorticity },
-    { "Divergence", "Divergence of the velocity field", cell_divergence },
-    { "Velocity", "Norm of the velocity vector", cell_velocity_norm },
-    { "Velocity2", "Squared norm of the velocity vector", cell_velocity_norm2 },
-    { "Level", "Quad/octree level of the cell", cell_level },
-    { "A", "Fluid fraction of the cell", cell_fraction },
-    { "S", "Area of the solid contained in the cell", cell_solid_area },
-    { "Sr", "Fluid fraction of the right cell face", cell_solid_sr },
-    { "Sl", "Fluid fraction of the left cell face", cell_solid_sl },
-    { "St", "Fluid fraction of the top cell face", cell_solid_st },
-    { "Sb", "Fluid fraction of the bottom cell face", cell_solid_sb },
-#if !FTT_2D
-    { "Sf", "Fluid fraction of the front cell face", cell_solid_sf },
-    { "Sk", "Fluid fraction of the back cell face", cell_solid_sk },    
-#endif /* 3D */
-    { "Lambda2", "Vortex-detection criterion of Jeong & Hussein", cell_velocity_lambda2 },
-    { "Curvature",  "Curvature of the local streamline", cell_streamline_curvature },
-    { "D2", "Second principal invariant of the deformation tensor", cell_2nd_principal_invariant },
-    { "Pid", "Parent box process ID", cell_pid },
-    { "Id", "Parent box ID", cell_id },
-    { NULL, NULL, NULL}
-  };
-
-  GfsVariable * v;
-  v = gfs_domain_add_variable (domain, "P",    "Approximate projection pressure");
-  v->centered = TRUE;
-  v->units = 2.;
-  v = gfs_domain_add_variable (domain, "Pmac", "MAC projection pressure");
-  v->centered = TRUE;  
-  v->units = 2.;
-  GfsVariable * u[FTT_DIMENSION];
-  u[0] = gfs_domain_add_variable (domain, "U",    "x-component of the velocity");
-  u[0]->units = 1.;
-  u[1] = gfs_domain_add_variable (domain, "V",    "y-component of the velocity");
-  u[1]->units = 1.;
-#if (!FTT_2D)
-  u[2] = gfs_domain_add_variable (domain, "W",    "z-component of the velocity");
-  u[2]->units = 1.;
-#endif /* FTT_3D */
-  gfs_variable_set_vector (u, FTT_DIMENSION);
-
-  GfsDerivedVariableInfo * dv = derived_variable;
-  while (dv->name) {
-    g_assert (gfs_domain_add_derived_variable (domain, *dv));
-    dv++;
-  }
-  domain->derived_variables = g_slist_reverse (domain->derived_variables);
-
-  gfs_time_init (&object->time);
-  gfs_physical_params_init (&object->physical_params);
-
-  gfs_advection_params_init (&object->advection_params);
-  object->advection_params.flux = gfs_face_velocity_advection_flux;
-  object->advection_params.average = TRUE;
-
-  gfs_multilevel_params_init (&object->projection_params);
-  gfs_multilevel_params_init (&object->approx_projection_params);
-
-  object->solids = GTS_SLIST_CONTAINER (gts_container_new
-					(GTS_CONTAINER_CLASS
-					 (gts_slist_container_class ())));
-  object->output_solid = TRUE;
-
-  object->refines = GTS_SLIST_CONTAINER (gts_container_new
-					 (GTS_CONTAINER_CLASS
-					  (gts_slist_container_class ())));
-  object->maps = GTS_SLIST_CONTAINER (gts_container_new
-				      (GTS_CONTAINER_CLASS
-				       (gts_slist_container_class ())));
-  object->adapts = GTS_SLIST_CONTAINER (gts_container_new
-					(GTS_CONTAINER_CLASS
-					 (gts_slist_container_class ())));
-  gfs_adapt_stats_init (&object->adapts_stats);
-  object->events = GTS_SLIST_CONTAINER (gts_container_new
-					(GTS_CONTAINER_CLASS
-					 (gts_slist_container_class ())));
-  object->modules = object->preloaded_modules = NULL;
-
-  object->deferred_compilation = FALSE;
-  
-  object->tnext = 0.;
-}
-
-GfsSimulationClass * gfs_simulation_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_simulation_info = {
-      "GfsSimulation",
-      sizeof (GfsSimulation),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) gfs_simulation_class_init,
-      (GtsObjectInitFunc) simulation_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_domain_class ()),
-				  &gfs_simulation_info);
-  }
-
-  return klass;
-}
-
-GfsSimulation * gfs_simulation_new (GfsSimulationClass * klass)
-{
-  GfsSimulation * object;
-
-  object = GFS_SIMULATION (gts_graph_new (GTS_GRAPH_CLASS (klass),
-					  GTS_GNODE_CLASS (gfs_box_class ()),
-					  GTS_GEDGE_CLASS (gfs_gedge_class ())));
-
-  return object;
-}
-
-static void init_non_variable (GfsEvent * event, GfsSimulation * sim)
-{
-  if (!GFS_IS_VARIABLE (event))
-    gfs_event_init (event, sim);
-}
-
-/**
- * gfs_simulation_init:
- * @sim: a #GfsSimulation.
- *
- * Initialises @sim: matches boundary conditions, applies boundary
- * conditions and initialises all variables, etc...
- */
-void gfs_simulation_init (GfsSimulation * sim)
-{
-  g_return_if_fail (sim != NULL);
-
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) init_non_variable, sim);
-
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  gfs_domain_match (domain);
-  gfs_set_merged (domain);
-  GSList * i = domain->variables;
-  while (i) {
-    gfs_event_init (GFS_EVENT (i->data), sim);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, i->data);
-    i = i->next;
-  }
-  gfs_domain_cell_traverse (domain,
-			    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-}
-
-static void refine_cell_corner (FttCell * cell, GfsDomain * domain)
-{
-  if (ftt_refine_corner (cell))
-    ftt_cell_refine_single (cell, domain->cell_init, domain->cell_init_data);
-}
-
-static void check_face (FttCellFace * f, guint * nf)
-{
-  GfsSolidVector * s = GFS_STATE (f->cell)->solid;
-
-  if (s && !f->neighbor && s->s[f->d] > 0. && s->s[f->d] < 1.)
-    (*nf)++;
-}
-
-static void check_solid_fractions (GfsBox * box, guint * nf)
-{
-  FttDirection d;
-
-  gfs_cell_check_solid_fractions (box->root);
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    ftt_face_traverse_boundary (box->root, d, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttFaceTraverseFunc) check_face, nf);
-}
-
-static void is_diffusion (GfsSource * s, gboolean * diffusion)
-{
-  *diffusion = (GFS_IS_SOURCE_DIFFUSION (s) != NULL);
-}
-
-static void set_permanent (FttCell * cell)
-{
-  cell->flags |= GFS_FLAG_PERMANENT;
-}
-
-/**
- * gfs_simulation_get_solids:
- * @sim: a #GfsSimulation.
- *
- * Returns: a new list of #GfsSolid defining the solid boundaries
- * contained in @sim.
- */
-GSList * gfs_simulation_get_solids (GfsSimulation * sim)
-{
-  g_return_val_if_fail (sim != NULL, NULL);
-
-  GSList * solids = NULL, * i = sim->solids->items;
-  while (i) {
-    solids = g_slist_prepend (solids, i->data);
-    i = i->next;
-  }
-  return solids;
-}
-
-/**
- * gfs_simulation_refine:
- * @sim: a #GfsSimulation.
- *
- * Calls the @refine() methods of the #GfsRefine of @sim. Initialize the
- * solid fractions by calling gfs_init_solid_fractions(). Matches the
- * boundaries by calling gfs_domain_match().
- */
-void gfs_simulation_refine (GfsSimulation * sim)
-{
-  GSList * i;
-  guint depth, nf = 0;
-  gint l;
-  GfsDomain * domain;
-
-  g_return_if_fail (sim != NULL);
-
-  domain = GFS_DOMAIN (sim);
-
-  gfs_domain_timer_start (domain, "simulation_refine");
-  i = sim->refines->items;
-  while (i) {
-    GfsRefine * refine = i->data;
-    GSList * next = i->next;
-    
-    g_assert (GFS_REFINE_CLASS (GTS_OBJECT (refine)->klass)->refine);
-    (* GFS_REFINE_CLASS (GTS_OBJECT (refine)->klass)->refine) (refine, sim);
-    i = next;
-  }
-
-  depth = gfs_domain_depth (domain);
-  for (l = depth - 2; l >= 0; l--)
-    gfs_domain_cell_traverse (domain,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, l,
-			      (FttCellTraverseFunc) refine_cell_corner, 
-			      domain);
-
-  gfs_domain_match (domain);
-  gfs_domain_timer_stop (domain, "simulation_refine");
-
-  GSList * solids = gfs_simulation_get_solids (sim);
-  if (solids) {
-    gfs_domain_timer_start (domain, "solid_fractions");
-    sim->thin = gfs_domain_init_solid_fractions (domain, solids, TRUE,
-						 (FttCellCleanupFunc) gfs_cell_cleanup, domain,  
-						 NULL);
-    g_slist_free (solids);
-    gfs_domain_match (domain);
-    gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			       (FttCellTraverseFunc) set_permanent, NULL);
-    gfs_domain_timer_stop (domain, "solid_fractions");
-  }
-  gts_container_foreach (GTS_CONTAINER (sim), (GtsFunc) check_solid_fractions, &nf);
-  if (nf > 0) {
-    GSList * i = domain->variables;
-    gboolean diffusion = FALSE;
-    
-    while (i && !diffusion) {
-      GfsVariable * v = i->data;
-
-      if (v->sources)
-	gts_container_foreach (v->sources, (GtsFunc) is_diffusion, &diffusion);
-      i = i->next;
-    }
-    if (diffusion)
-      g_warning ("the solid surface cuts %d boundary cells,\n"
-		 "this may cause errors for diffusion terms\n", nf);
-  }
-}
-
-/**
- * gfs_simulation_read:
- * @fp: a #GtsFile.
- *
- * Reads a simulation file from @fp.
- *
- * Returns: the #GfsSimulation or %NULL if an error occured, in which
- * case the @pos and @error fields of @fp are set.
- */
-GfsSimulation * gfs_simulation_read (GtsFile * fp)
-{
-  GfsDomain * d;
-  GSList * ml = NULL; /* list of preloaded modules */
-
-  g_return_val_if_fail (fp != NULL, NULL);
-
-  while (fp->type == '\n')
-     gts_file_next_token (fp);
-
-  while (fp->type == GTS_STRING)
-    if (!strcmp (fp->token->str, "GModule")) { /* preloaded module */
-      GModule * module = load_module (fp, NULL);
-      if (module == NULL)
-	return NULL;
-      ml = g_slist_prepend (ml, module);
-    }
-    else {
-      gts_file_error (fp, "unknown keyword `%s'", fp->token->str);
-      return NULL;
-    }
-
-  while (fp->type == '\n')
-     gts_file_next_token (fp);
-      
-  d = gfs_domain_read (fp);
-  if (d != NULL && !GFS_IS_SIMULATION (d)) {
-    gts_file_error (fp, "parent graph is not a GfsSimulation");
-    gts_object_destroy (GTS_OBJECT (d));
-    g_slist_free (ml);
-    return NULL;
-  }
-  if (d)
-    GFS_SIMULATION (d)->preloaded_modules = g_slist_reverse (ml);
-  else
-    g_slist_free (ml);
-  return GFS_SIMULATION (d);
-}
-
-/**
- * gfs_simulation_write:
- * @sim: a #GfsSimulation.
- * @max_depth: the maximum depth at which to stop writing cell tree
- * data (-1 means no limit).
- * @fp: a file pointer.
- *
- * Writes in @fp a text representation of @sim. If @max_depth is
- * smaller or equal to -2, no cell tree data is written.  
- */
-void gfs_simulation_write (GfsSimulation * sim,
-			   gint max_depth,		  
-			   FILE * fp)
-{
-  gint depth;
-  GfsDomain * domain;
-
-  g_return_if_fail (sim != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp, "# Gerris Flow Solver %dD version %s (%s)\n",
-	   FTT_DIMENSION, GFS_VERSION, GFS_BUILD_VERSION);
-  GSList * i = sim->preloaded_modules;
-  while (i) {
-    void (* module_write) (FILE *);
-    const gchar * name = NULL;
-    fprintf (fp, "GModule %s", 
-	     g_module_symbol (i->data, "gfs_module_name", (gpointer) &name) ? name : 
-	     g_module_name (i->data));
-    if (g_module_symbol (i->data, "gfs_module_write", (gpointer) &module_write))
-      (* module_write) (fp);
-    fputc ('\n', fp);
-    i = i->next;
-  }
-  domain = GFS_DOMAIN (sim);
-  depth = domain->max_depth_write;
-  domain->max_depth_write = max_depth;
-  gts_graph_write (GTS_GRAPH (sim), fp);
-  domain->max_depth_write = depth;
-}
-
-#ifdef HAVE_MPI
-static void count_edges (GtsGEdge * e, guint * nedge)
-{
-  (*nedge)++;
-}
-
-static void write_node (GtsObject * node, gpointer * data)
-{
-  FILE * fp = data[0];
-  guint * nnode = data[1];
-
-  node->reserved = GUINT_TO_POINTER ((*nnode)++);
-  if (node->klass->write)
-    (* node->klass->write) (node, fp);
-  fputc ('\n', fp);
-}
-
-static void write_edge (GtsGEdge * edge, FILE * fp)
-{
-  fprintf (fp, "%u %u", 
-	   GPOINTER_TO_UINT (GTS_OBJECT (edge->n1)->reserved),
-	   GPOINTER_TO_UINT (GTS_OBJECT (edge->n2)->reserved));
-  if (GTS_OBJECT (edge)->klass->write)
-    (* GTS_OBJECT (edge)->klass->write) (GTS_OBJECT (edge), fp);
-  fputc ('\n', fp);
-}
-#endif /* HAVE_MPI */
-
-/**
- * gfs_simulation_union_write:
- * @sim: a #GfsSimulation.
- * @max_depth: the maximum depth at which to stop writing cell tree
- * data (-1 means no limit).
- * @fp: a file pointer.
- *
- * Identical to gfs_simulation_write() for serial simulations. For
- * parallel simulations writes the union of the simulations on all
- * processes to @fp.
- */
-void gfs_simulation_union_write (GfsSimulation * sim,
-				 gint max_depth,		  
-				 FILE * fp)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-
-  g_return_if_fail (sim != NULL);
-  g_return_if_fail (fp != NULL);
-
-  if (domain->pid < 0)
-    gfs_simulation_write (sim, max_depth, fp);
-  else {
-#ifdef HAVE_MPI
-    int gsize;
-    guint * nbox;
-
-    MPI_Comm_size (MPI_COMM_WORLD, &gsize);
-    nbox = g_malloc (sizeof (guint)*gsize);
-    nbox[domain->pid] = gts_container_size (GTS_CONTAINER (sim));
-    MPI_Allgather (&nbox[domain->pid], 1, MPI_UNSIGNED, nbox, 1, MPI_UNSIGNED, MPI_COMM_WORLD);
-    /* nbox[] now contains the number of boxes on each PE */
-
-    /* see gts/src/graph.c:gts_graph_write() for the original (serial) implementation */
-    GtsGraph * g = GTS_GRAPH (sim);
-    guint nedge = 0;
-    gts_graph_foreach_edge (g, (GtsFunc) count_edges, &nedge);
-    gfs_all_reduce (domain, nedge, MPI_UNSIGNED, MPI_SUM);
-
-    if (domain->pid == 0) {
-      fprintf (fp, "# Gerris Flow Solver %dD version %s (%s)\n",
-	       FTT_DIMENSION, GFS_VERSION, GFS_BUILD_VERSION);
-      guint i, nboxes = 0;
-      for (i = 0; i < gsize; i++)
-	nboxes += nbox[i];
-      fprintf (fp, "%u %u", nboxes, nedge);
-      if (GTS_OBJECT (g)->klass->write)
-	(* GTS_OBJECT (g)->klass->write) (GTS_OBJECT (g), fp);
-      fputc ('\n', fp);
-    }
-
-    gint depth = domain->max_depth_write;
-    guint i, nnode = 1;
-    gpointer data[2];
-
-    for (i = 0; i < domain->pid; i++)
-      nnode += nbox[i];
-    g_free (nbox);
-
-    FILE * fpp = gfs_union_open (fp, domain->pid);
-    data[0] = fpp;
-    data[1] = &nnode;
-    domain->max_depth_write = max_depth;
-    gts_container_foreach (GTS_CONTAINER (g), (GtsFunc) write_node, data);
-    domain->max_depth_write = depth;
-    gfs_union_close (fp, domain->pid, fpp);
-
-    fpp = gfs_union_open (fp, domain->pid);
-    gts_graph_foreach_edge (g, (GtsFunc) write_edge, fpp);
-    gfs_union_close (fp, domain->pid, fpp);
-
-    gts_container_foreach (GTS_CONTAINER (g), (GtsFunc) gts_object_reset_reserved, NULL);
-#endif /* HAVE_MPI */
-  }
-}
-
-static gdouble min_cfl (GfsSimulation * sim)
-{
-  gdouble cfl = (sim->advection_params.scheme == GFS_NONE ?
-		 G_MAXDOUBLE :
-		 sim->advection_params.cfl);
-  GSList * i = GFS_DOMAIN (sim)->variables;
-  
-  while (i) {
-    GfsVariable * v = i->data;
-
-    if (GFS_IS_VARIABLE_TRACER (v) && 
-	GFS_VARIABLE_TRACER (v)->advection.scheme != GFS_NONE &&
-	GFS_VARIABLE_TRACER (v)->advection.cfl < cfl)
-      cfl = GFS_VARIABLE_TRACER (v)->advection.cfl;
-    i = i->next;
-  }
-
-  return cfl;
-}
-
-/**
- * gfs_simulation_set_timestep:
- * @sim: a #GfsSimulation.
- *
- * Sets the time step for the next iteration of @sim using the CFL
- * (computed using gfs_domain_cfl()), the stability conditions for
- * source terms and taking into account the timings of the various
- * #GfsEvent associated to @sim.
- *
- * More precisely, the time step is adjusted (if necessary) so that
- * the time of the closest event is exactly reached after the
- * iteration.  
- */
-void gfs_simulation_set_timestep (GfsSimulation * sim)
-{
-  gdouble t, cfl;
-
-  g_return_if_fail (sim != NULL);
-
-  t = sim->time.t;
-  if ((cfl = min_cfl (sim)) < G_MAXDOUBLE)
-    sim->advection_params.dt = cfl*(* GFS_SIMULATION_CLASS (GTS_OBJECT (sim)->klass)->cfl) (sim);
-  else
-    sim->advection_params.dt = G_MAXINT;
-  if (sim->advection_params.dt > sim->time.dtmax)
-    sim->advection_params.dt = sim->time.dtmax;
-
-  GSList *  i = GFS_DOMAIN (sim)->variables;
-  while (i) {
-    GfsVariable * v = i->data;
-    if (v->sources) {
-      GSList * j = GTS_SLIST_CONTAINER (v->sources)->items;
-      while (j) {
-	GfsSourceGeneric * s = j->data;
-	if (GFS_SOURCE_GENERIC_CLASS (GTS_OBJECT (s)->klass)->stability) {
-	  gdouble dt = (* GFS_SOURCE_GENERIC_CLASS (GTS_OBJECT (s)->klass)->stability) (s, sim);
-	  if (dt < sim->advection_params.dt)
-	    sim->advection_params.dt = dt;
-	}
-	j = j->next;
-      }
-    }
-    i = i->next;
-  }
-
-  gfs_all_reduce (GFS_DOMAIN (sim), sim->advection_params.dt, MPI_DOUBLE, MPI_MIN);
-
-  gdouble tnext = G_MAXINT;
-  i = sim->events->items;
-  while (i) {
-    gdouble next = gfs_event_next (i->data, sim);
-    if (t < next && next < tnext)
-      tnext = next + 1e-9;
-    i = i->next;
-  }
-  if (sim->time.end < tnext)
-    tnext = sim->time.end;
-
-  gdouble n = ceil ((tnext - t)/sim->advection_params.dt);
-  if (n > 0. && n < G_MAXINT) {
-    sim->advection_params.dt = (tnext - t)/n;
-    if (n == 1.)
-      sim->tnext = tnext;
-    else
-      sim->tnext = t + sim->advection_params.dt;
-  }
-  else
-    sim->tnext = t + sim->advection_params.dt;
-
-  if (sim->advection_params.dt < 1e-9)
-    sim->advection_params.dt = 1e-9;
-}
-
-/**
- * gfs_time_write:
- * @t: the time structure.
- * @fp: a file pointer.
- *
- * Writes in @fp a text representation of the time structure @t.
- */
-void gfs_time_write (GfsTime * t, FILE * fp)
-{
-  g_return_if_fail (t != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp, "{ i = %u t = %g ", t->i, t->t);
-  if (t->start != 0.)
-    fprintf (fp, "start = %g ", t->start);
-  if (t->istart != 0)
-    fprintf (fp, "start = %u ", t->istart);
-  if (t->end < G_MAXDOUBLE)
-    fprintf (fp, "end = %g ", t->end);
-  if (t->iend < G_MAXINT)
-    fprintf (fp, "iend = %u ", t->iend);
-  if (t->dtmax < G_MAXDOUBLE)
-    fprintf (fp, "dtmax = %g ", t->dtmax);
-  fputc ('}', fp);
-}
-
-/**
- * gfs_time_init:
- * @t: the #GfsTime.
- *
- * Initializes the time structure @t with default values.
- */
-void gfs_time_init (GfsTime * t)
-{
-  g_return_if_fail (t != NULL);
-  
-  t->t = t->start = 0.;
-  t->end = G_MAXDOUBLE;
-
-  t->i = t->istart = 0;
-  t->iend = G_MAXINT;
-
-  t->dtmax = G_MAXDOUBLE;
-}
-
-/**
- * gfs_time_read:
- * @t: the #GfsTime.
- * @fp: the #GtsFile.
- *
- * Reads a time structure from @fp and puts it in @t.
- */
-void gfs_time_read (GfsTime * t, GtsFile * fp)
-{
-  GtsFileVariable var[] = {
-    {GTS_DOUBLE, "t",      TRUE},
-    {GTS_DOUBLE, "start",  TRUE},
-    {GTS_DOUBLE, "end",    TRUE},
-    {GTS_UINT,   "i",      TRUE},
-    {GTS_UINT,   "istart", TRUE},
-    {GTS_UINT,   "iend",   TRUE},
-    {GTS_DOUBLE, "dtmax",  TRUE},
-    {GTS_NONE}
-  };
-
-  g_return_if_fail (t != NULL);
-  g_return_if_fail (fp != NULL);
-
-  var[0].data = &t->t;
-  var[1].data = &t->start;
-  var[2].data = &t->end;
-  var[3].data = &t->i;
-  var[4].data = &t->istart;
-  var[5].data = &t->iend;
-  var[6].data = &t->dtmax;
-
-  gts_file_assign_variables (fp, var);
-
-  if (t->t < t->start)
-    t->t = t->start;
-  if (t->i < t->istart)
-    t->i = t->istart;
-}
-
-/**
- * gfs_physical_params_write:
- * @p: the physical parameters structure.
- * @fp: a file pointer.
- *
- * Writes in @fp a text representation of the physical parameters
- * structure @p.  
- */
-void gfs_physical_params_write (GfsPhysicalParams * p, FILE * fp)
-{
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (fp != NULL);
-
-  fprintf (fp, "{ g = %g L = %g", p->g, p->L);
-  if (p->alpha) {
-    fputs (" alpha =", fp);
-    gfs_function_write (p->alpha, fp);
-  }
-  fputs (" }", fp);
-}
-
-/**
- * gfs_physical_params_init:
- * @p: the #GfsPhysicalParams.
- *
- * Initializes the physical parameters structure @p with default values.
- */
-void gfs_physical_params_init (GfsPhysicalParams * p)
-{
-  g_return_if_fail (p != NULL);
-  
-  p->g = p->L = 1.;
-  p->alpha = NULL;
-}
-
-/**
- * gfs_physical_params_read:
- * @p: the #GfsPhysicalParams.
- * @domain: a #GfsDomain.
- * @fp: the #GtsFile.
- *
- * Reads a physical parameters structure from @fp and puts it in @p.
- */
-void gfs_physical_params_read (GfsPhysicalParams * p, GfsDomain * domain, GtsFile * fp)
-{
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return;
-  }
-  fp->scope_max++;
-  gts_file_next_token (fp);
-  while (fp->type != GTS_ERROR && fp->type != '}') {
-    if (fp->type == '\n') {
-      gts_file_next_token (fp);
-      continue;
-    }
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a keyword");
-      return;
-    }
-    else {
-      gchar * id = g_strdup (fp->token->str);
-
-      gts_file_next_token (fp);
-      if (fp->type != '=') {
-	gts_file_error (fp, "expecting `='");
-	return;
-      }
-      gts_file_next_token (fp);
-
-      if (!strcmp (id, "g")) {
-	/* fixme: units? */
-	p->g = gfs_read_constant (fp, domain);
-	if (fp->type == GTS_ERROR) {
-	  g_free (id);
-	  return;
-	}
-      }
-      else if (!strcmp (id, "L")) {
-	p->L = gfs_read_constant (fp, domain);
-	if (fp->type == GTS_ERROR) {
-	  g_free (id);
-	  return;
-	}
-	if (p->L == 0.) {
-	  g_free (id);
-	  gts_file_error (fp, "L must be different from zero");
-	  return;
-	}
-      }
-      else if (!strcmp (id, "alpha")) {
-	p->alpha = gfs_function_new (gfs_function_class (), 0.);
-	gfs_function_read (p->alpha, domain, fp);
-	if (fp->type == GTS_ERROR) {
-	  g_free (id);
-	  gts_object_destroy (GTS_OBJECT (p->alpha));
-	  return;
-	}
-      }
-      else {
-	g_free (id);
-	gts_file_error (fp, "unknown keyword `%s'", id);
-	return;
-      }
-      g_free (id);
-    }
-  }
-  if (fp->type != '}') {
-    gts_file_error (fp, "expecting a closing brace");
-    return;
-  }
-  fp->scope_max--;
-  gts_file_next_token (fp);
-}
-
-static void error_handler (const gchar *log_domain,
-			   GLogLevelFlags log_level,
-			   const gchar *message,
-			   gpointer user_data)
-{
-  GfsDomain * domain = user_data;
-  g_slist_free (domain->variables_io);
-  domain->variables_io = NULL;
-  GSList * i = domain->variables;
-  while (i) {
-    if (GFS_VARIABLE1 (i->data)->name)
-      domain->variables_io = g_slist_append (domain->variables_io, i->data);
-    i = i->next;
-  }
-  gchar fname[20] = "error.gfs";
-  if (domain->pid >= 0)
-    snprintf (fname, 20, "error-%d.gfs", domain->pid);
-  FILE * fp = fopen (fname, "w");
-  if (fp) {
-    gfs_simulation_write (GFS_SIMULATION (domain), -1, fp);
-    fclose (fp);
-  }
-
-  g_log_default_handler (log_domain, log_level, message, NULL);
-}
-
-/**
- * gfs_simulation_run:
- * @sim: a #GfsSimulation.
- *
- * Runs @sim.
- */
-void gfs_simulation_run (GfsSimulation * sim)
-{
-  g_return_if_fail (sim != NULL);
-
-  guint id = g_log_set_handler ("Gfs", G_LOG_LEVEL_ERROR | G_LOG_FLAG_FATAL | G_LOG_FLAG_RECURSION,
-				error_handler, sim);
-  gfs_clock_start (GFS_DOMAIN (sim)->timer);
-  gts_range_init (&GFS_DOMAIN (sim)->mpi_wait);
-  (* GFS_SIMULATION_CLASS (GTS_OBJECT (sim)->klass)->run) (sim);
-  gfs_clock_stop (GFS_DOMAIN (sim)->timer);
-  g_log_remove_handler ("Gfs", id);
-}
-
-/**
- * gfs_simulation_map:
- * @sim: a #GfsSimulation.
- * @p: a #FttVector.
- *
- * Applies the mapping transformations associated with @sim to
- * coordinates @p.
- */
-void gfs_simulation_map (GfsSimulation * sim, FttVector * p)
-{
-  g_return_if_fail (sim != NULL);
-  g_return_if_fail (p != NULL);
-  
-  GSList * i = sim->maps->items;
-  while (i) {
-    (* GFS_MAP (i->data)->transform) (i->data, p, p);
-    i = i->next;
-  }
-  FttComponent c;
-  for (c = 0; c < 3; c++)
-    (&p->x)[c] *= (&GFS_DOMAIN (sim)->lambda.x)[c]/sim->physical_params.L;
-}
-
-/**
- * gfs_simulation_map_inverse:
- * @sim: a #GfsSimulation.
- * @p: a #FttVector.
- *
- * Applies the inverse mapping transformations associated with @sim to
- * coordinates @p.
- */
-void gfs_simulation_map_inverse (GfsSimulation * sim, FttVector * p)
-{
-  g_return_if_fail (sim != NULL);
-  g_return_if_fail (p != NULL);
-  
-  FttComponent c;
-  for (c = 0; c < 3; c++)
-    (&p->x)[c] *= sim->physical_params.L/(&GFS_DOMAIN (sim)->lambda.x)[c];
-  GSList * i = sim->maps->items;
-  while (i) {
-    (* GFS_MAP (i->data)->inverse) (i->data, p, p);
-    i = i->next;
-  }
-}
-
-/**
- * gfs_dimensional_value:
- * @v: a #GfsVariable.
- * @val: a non-dimensional value of @v.
- *
- * Returns: the dimensional value of @val according to the units of @v.
- */
-gdouble gfs_dimensional_value (GfsVariable * v, gdouble val)
-{
-  g_return_val_if_fail (v != NULL, 0.);
-
-  gdouble L;
-  if (val == G_MAXDOUBLE || v->units == 0. || 
-      (L = GFS_SIMULATION (v->domain)->physical_params.L) == 1.)
-    return val;
-  return val*pow (L, v->units);
-}
-
-/**
- * gfs_variable_is_dimensional:
- * @v: a #GfsVariable.
- *
- * Returns: %TRUE if @v has dimensions, %FALSE otherwise.
- */
-gboolean gfs_variable_is_dimensional (GfsVariable * v)
-{
-  g_return_val_if_fail (v != NULL, FALSE);
-
-  if (v->units == 0. || GFS_SIMULATION (v->domain)->physical_params.L == 1.)
-    return FALSE;
-  return TRUE;
-}
-
-/* GfsAdvection: Object */
-
-static void advection_run (GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  gboolean streamfunction = FALSE;
-
-#if FTT_2D
-  GSList * i = domain->variables;
-  while (i && !streamfunction) {
-    streamfunction = (GFS_IS_VARIABLE_STREAM_FUNCTION (i->data) != NULL);
-    i = i->next;
-  }  
-#endif /* 2D */
-
-  gfs_simulation_refine (sim);
-  gfs_simulation_init (sim);
-
-  /* ignore default advection scheme (use per tracer parameters only) */
-  sim->advection_params.scheme = GFS_NONE;
-  while (sim->time.t < sim->time.end &&
-	 sim->time.i < sim->time.iend) {
-    gdouble tstart = gfs_clock_elapsed (domain->timer);
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);
-    if (!streamfunction) {
-      gfs_domain_face_traverse (domain, FTT_XYZ,
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttFaceTraverseFunc) gfs_face_reset_normal_velocity, NULL);
-      gfs_domain_face_traverse (domain, FTT_XYZ,
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttFaceTraverseFunc) gfs_face_interpolated_normal_velocity,
-				gfs_domain_velocity (domain));
-    }
-    gfs_simulation_set_timestep (sim);
-
-    gfs_advance_tracers (domain, sim->advection_params.dt);
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_half_do, sim);
-
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-    gfs_simulation_adapt (sim);
-
-    sim->time.t = sim->tnext;
-    sim->time.i++;
-
-    gts_range_add_value (&domain->timestep, gfs_clock_elapsed (domain->timer) - tstart);
-    gts_range_update (&domain->timestep);
-    gts_range_add_value (&domain->size, gfs_domain_size (domain, FTT_TRAVERSE_LEAFS, -1));
-    gts_range_update (&domain->size);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);  
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gts_object_destroy, NULL);
-}
-
-static void gfs_advection_class_init (GfsSimulationClass * klass)
-{
-  klass->run = advection_run;
-}
-
-GfsSimulationClass * gfs_advection_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_advection_info = {
-      "GfsAdvection",
-      sizeof (GfsSimulation),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) gfs_advection_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_simulation_class ()), &gfs_advection_info);
-  }
-
-  return klass;
-}
-
-/* GfsPoisson: Object */
-
-static void rescale_div (FttCell * cell, gpointer * data)
-{
-  GfsVariable * divu = data[0];
-  GfsVariable * div = data[1];
-  GtsRange * vol = data[2];
-  gdouble size = ftt_cell_size (cell);
-
-  GFS_VARIABLE (cell, div->i) = GFS_VARIABLE (cell, divu->i)*size*size*(GFS_IS_MIXED (cell) ?
-									GFS_STATE (cell)->solid->a : 1.);
-  if (GFS_IS_MIXED (cell))
-    gts_range_add_value (vol, size*size*GFS_STATE (cell)->solid->a);
-  else
-    gts_range_add_value (vol, size*size);
-}
-
-static void add_ddiv (FttCell * cell, gpointer * data)
-{
-  GfsVariable * div = data[1];
-  gdouble * ddiv = data[2];
-  gdouble size = ftt_cell_size (cell);
-
-  if (GFS_IS_MIXED (cell))
-    GFS_VARIABLE (cell, div->i) += size*size*GFS_STATE (cell)->solid->a*(*ddiv);
-  else
-    GFS_VARIABLE (cell, div->i) += size*size*(*ddiv);
-}
-
-static void correct_div (GfsDomain * domain, GfsVariable * divu, GfsVariable * div)
-{
-  gpointer data[3];
-  GtsRange vol;
-  gdouble ddiv;
-
-  gts_range_init (&vol);
-  data[0] = divu;
-  data[1] = div;
-  data[2] = &vol;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) rescale_div, data);
-  gts_range_update (&vol);
-
-  ddiv = - gfs_domain_stats_variable (domain, div, FTT_TRAVERSE_LEAFS, -1).mean/vol.mean;
-  data[2] = &ddiv;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) add_ddiv, data);
-}
-
-static void copy_res (FttCell * cell, gpointer * data)
-{
-  GfsVariable * res = data[0], * res1 = data[1];
-  GFS_VARIABLE (cell, res->i) = GFS_VARIABLE (cell, res1->i);
-}
-
-static void poisson_run (GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsVariable * dia, * div, * res = NULL, * res1, * p;
-  GfsMultilevelParams * par = &sim->approx_projection_params;
-  GSList * i;
-
-  gfs_simulation_refine (sim);
-  gfs_simulation_init (sim);
-
-  i = domain->variables;
-  while (i) {
-    if (GFS_IS_VARIABLE_RESIDUAL (i->data))
-      res = i->data;
-    i = i->next;
-  }
-
-  p = gfs_variable_from_name (domain->variables, "P");
-  div = gfs_temporary_variable (domain);
-  correct_div (domain, gfs_variable_from_name (domain->variables, "Div"), div);
-  gfs_poisson_coefficients (domain, NULL);
-  res1 = gfs_temporary_variable (domain);
-  dia = gfs_temporary_variable (domain);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) gfs_cell_reset, dia);
-  /* compute residual */
-  par->depth = gfs_domain_depth (domain);  
-  gfs_residual (domain, par->dimension, FTT_TRAVERSE_LEAFS, -1, p, div, dia, res1);
-  /* solve for pressure */
-  par->residual_before = par->residual = 
-    gfs_domain_norm_residual (domain, FTT_TRAVERSE_LEAFS, -1, 1., res1);
-  par->niter = 0;
-  while (sim->time.t < sim->time.end &&
-	 sim->time.i < sim->time.iend &&
-	 sim->time.i < par->nitermax &&
-	 par->residual.infty > par->tolerance) {
-    gdouble tstart = gfs_clock_elapsed (domain->timer);
-
-    if (res) {
-      gpointer data[2];
-      data[0] = res;
-      data[1] = res1;
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) copy_res, data);
-    }
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);
-
-    gfs_domain_timer_start (domain, "poisson_cycle");
-    gfs_poisson_cycle (domain, par, p, div, dia, res1);
-    par->residual = gfs_domain_norm_residual (domain, FTT_TRAVERSE_LEAFS, -1, 1., res1);
-    gfs_domain_timer_stop (domain, "poisson_cycle");
-
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-    gfs_simulation_adapt (sim);
-
-    par->niter++;
-    sim->time.t = sim->tnext;
-    sim->time.i++;
-
-    gts_range_add_value (&domain->timestep, gfs_clock_elapsed (domain->timer) - tstart);
-    gts_range_update (&domain->timestep);
-    gts_range_add_value (&domain->size, gfs_domain_size (domain, FTT_TRAVERSE_LEAFS, -1));
-    gts_range_update (&domain->size);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);  
-  gts_container_foreach (GTS_CONTAINER (sim->events),
-			 (GtsFunc) gts_object_destroy, NULL);
-  gts_object_destroy (GTS_OBJECT (dia));
-  gts_object_destroy (GTS_OBJECT (div));
-  gts_object_destroy (GTS_OBJECT (res1));
-}
-
-static void poisson_class_init (GfsSimulationClass * klass)
-{
-  klass->run = poisson_run;
-}
-
-static void poisson_init (GfsDomain * domain)
-{
-  gfs_domain_add_variable (domain, "Div", "Right-hand-side of the Poisson equation");
-}
-
-GfsSimulationClass * gfs_poisson_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_poisson_info = {
-      "GfsPoisson",
-      sizeof (GfsSimulation),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) poisson_class_init,
-      (GtsObjectInitFunc) poisson_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_simulation_class ()), &gfs_poisson_info);
-  }
-
-  return klass;
-}
-
-/* GfsAxi: Object */
-
-static void axi_read (GtsObject ** object, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_axi_class ())->parent_class->read) (object, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GFS_DOMAIN (*object)->refpos.y = 0.5;
-}
-
-static gdouble axi_face_metric (const GfsDomain * domain, const FttCellFace * face)
-{
-  FttVector p;
-  ftt_face_pos (face, &p);
-  return p.y;
-}
-
-static gdouble axi_cell_metric (const GfsDomain * domain, const FttCell * cell)
-{
-  FttVector p;
-  gfs_cell_cm (cell, &p);
-  return p.y;
-}
-
-static gdouble axi_solid_metric (const GfsDomain * domain, const FttCell * cell)
-{
-  g_assert (GFS_IS_MIXED (cell));
-  return GFS_STATE (cell)->solid->ca.y;
-}
-
-static void axi_class_init (GfsSimulationClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = axi_read;
-}
-
-static void axi_init (GfsDomain * domain)
-{
-  domain->face_metric  = axi_face_metric;
-  domain->cell_metric  = axi_cell_metric;
-  domain->solid_metric = axi_solid_metric;
-}
-
-GfsSimulationClass * gfs_axi_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_axi_info = {
-      "GfsAxi",
-      sizeof (GfsSimulation),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) axi_class_init,
-      (GtsObjectInitFunc) axi_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_simulation_class ()), &gfs_axi_info);
-  }
-
-  return klass;
-}
diff --git a/src/simulation.h b/src/simulation.h
deleted file mode 100644
index f01c08d..0000000
--- a/src/simulation.h
+++ /dev/null
@@ -1,154 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __SIMULATION_H__
-#define __SIMULATION_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "domain.h"
-#include "timestep.h"
-
-#ifndef __EVENT_H__
-  typedef struct _GfsSimulation         GfsSimulation;
-#endif
-typedef struct _GfsSimulationClass    GfsSimulationClass;
-typedef struct _GfsTime               GfsTime;
-typedef struct _GfsPhysicalParams     GfsPhysicalParams;
-typedef struct _GfsAdaptStats         GfsAdaptStats;
-
-struct _GfsTime {
-  gdouble t, start, end;
-  guint i, istart, iend;
-  gdouble dtmax;
-};
-
-struct _GfsPhysicalParams {
-  gdouble L, g;
-  GfsFunction * alpha;
-};
-
-struct _GfsAdaptStats {
-  guint removed, created;
-  GtsRange cmax;
-  GtsRange ncells;
-};
-
-struct _GfsSimulation {
-  GfsDomain parent;
-
-  GfsTime time;
-  GfsPhysicalParams physical_params;
-
-  GfsMultilevelParams projection_params;
-  GfsMultilevelParams approx_projection_params;
-
-  GfsAdvectionParams advection_params;
-
-  GtsSListContainer * refines;
-
-  GtsSListContainer * adapts;
-  GfsAdaptStats adapts_stats;
-
-  GtsSListContainer * events, * maps;
-  GSList * modules, * globals, * preloaded_modules;
-
-  GtsSListContainer * solids;
-  guint thin;
-  gboolean output_solid;
-
-  gboolean deferred_compilation;
-
-  gdouble tnext;
-};
-
-struct _GfsSimulationClass {
-  GfsDomainClass parent_class;
-
-  void    (* run) (GfsSimulation *);
-  gdouble (* cfl) (GfsSimulation *);
-};
-
-#define GFS_SIMULATION(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsSimulation,\
-					           gfs_simulation_class ())
-#define GFS_SIMULATION_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						   GfsSimulationClass,\
-						   gfs_simulation_class())
-#define GFS_IS_SIMULATION(obj)         (gts_object_is_from_class (obj,\
-						   gfs_simulation_class ()))
-
-void                 gfs_advance_tracers         (GfsDomain * domain, 
-						  gdouble dt);
-GfsSimulationClass * gfs_simulation_class        (void);
-GfsSimulation *      gfs_simulation_new          (GfsSimulationClass * klass);
-void                 gfs_simulation_init         (GfsSimulation * sim);
-void                 gfs_simulation_write        (GfsSimulation * sim,
-						  gint max_depth,  
-						  FILE * fp);
-void                 gfs_simulation_union_write  (GfsSimulation * sim,
-						  gint max_depth,  
-						  FILE * fp);
-GfsSimulation *      gfs_simulation_read         (GtsFile * fp);
-GSList *             gfs_simulation_get_solids   (GfsSimulation * sim);
-void                 gfs_simulation_refine       (GfsSimulation * sim);
-void                 gfs_simulation_set_timestep (GfsSimulation * sim);
-void                 gfs_simulation_map          (GfsSimulation * sim, 
-						  FttVector * p);
-void                 gfs_simulation_map_inverse  (GfsSimulation * sim, 
-						  FttVector * p);
-gdouble              gfs_dimensional_value       (GfsVariable * v, 
-						  gdouble val);
-gboolean             gfs_variable_is_dimensional (GfsVariable * v);
-void                 gfs_time_init               (GfsTime * t);
-void                 gfs_time_write              (GfsTime * t, 
-						  FILE * fp);
-void                 gfs_time_read               (GfsTime * t, 
-						  GtsFile * fp);
-void                 gfs_physical_params_init    (GfsPhysicalParams * p);
-void                 gfs_physical_params_write   (GfsPhysicalParams * p, 
-						  FILE * fp);
-void                 gfs_physical_params_read    (GfsPhysicalParams * p,
-						  GfsDomain * domain,
-						  GtsFile * fp);
-void                 gfs_simulation_run          (GfsSimulation * sim);
-#define              gfs_object_simulation(o)     GFS_SIMULATION(GTS_OBJECT (o)->reserved)
-#define              gfs_object_simulation_set(o,s) (GTS_OBJECT (o)->reserved = (s))
-
-/* GfsAdvection: Header */
-
-GfsSimulationClass * gfs_advection_class          (void);
-
-/* GfsPoisson: Header */
-
-GfsSimulationClass * gfs_poisson_class            (void);
-
-/* GfsAxi: Header */
-
-#define GFS_IS_AXI(obj)          (gts_object_is_from_class (obj, gfs_axi_class ()))
-
-GfsSimulationClass * gfs_axi_class                (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __SIMULATION_H__ */
diff --git a/src/solid.c b/src/solid.c
deleted file mode 100644
index 624c3bd..0000000
--- a/src/solid.c
+++ /dev/null
@@ -1,1577 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include <stdlib.h>
-#include <string.h>
-#include "solid.h"
-#include "vof.h"
-#include "variable.h"
-
-/**
- * gfs_cell_fluid:
- * @cell: a #FttCell.
- * 
- * Sets @cell and all its descendants as full fluid cells.
- */
-void gfs_cell_fluid (FttCell * cell)
-{
-  g_return_if_fail (cell != NULL);
-
-  if (GFS_STATE (cell)->solid) {
-    g_free (GFS_STATE (cell)->solid);
-    GFS_STATE (cell)->solid = NULL;
-  }
-
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren child;
-    guint i;
- 
-    ftt_cell_children (cell, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i])
-	gfs_cell_fluid (child.c[i]);
-  }
-}
-
-typedef struct {
-  GtsPoint p[4];
-  GfsSegment s[4];
-} CellFace;
-
-static void face_fractions (CellFace * f, GfsSolidVector * solid, FttVector * h)
-{
-  static guint etod[] = { 3, 0, 2, 1 };
-  guint k, m;
-  gboolean ins;
-  guint o = 0;
-  GtsPoint r[2];
-  gdouble a, x0 = f->p[0].x, y0 = f->p[0].y;
-  
-  solid->a = 0.;
-  solid->cm.x = solid->cm.y = solid->cm.z = 0.;
-  solid->ca.z = 0.;
-      
-  for (m = 0; m < 4 && f->s[m].n == 0; m++);
-  ins = f->s[m].inside < 0;
-  for (k = m; k < m + 4; k++) {
-    guint i = k % 4, i1 = (i + 1) % 4;
-    gdouble x1 = f->p[i].x - x0, y1 = f->p[i].y - y0, x2 = f->p[i1].x - x0, y2 = f->p[i1].y - y0;
-    if (f->s[i].n > 0) {
-      g_assert (ins == (f->s[i].inside < 0));
-      solid->s[etod[i]] = ins ? f->s[i].x : 1. - f->s[i].x;
-      r[o].x = x1 + f->s[i].x*(x2 - x1);
-      r[o].y = y1 + f->s[i].x*(y2 - y1);
-      if (ins) {
-	x2 = r[o].x; y2 = r[o].y;
-      }
-      else {
-	x1 = r[o].x; y1 = r[o].y;
-      }
-      solid->a += (x1 + x2)*(y2 - y1);
-      solid->cm.x += (x1 - x2)*(2.*(x1*y1 + x2*y2) + x1*y2 + x2*y1);
-      solid->cm.y += (y2 - y1)*(2.*(x1*y1 + x2*y2) + x1*y2 + x2*y1);
-      o++;
-      if (o == 2) {
-	o = 0;
-	if (ins) {
-	  x1 = r[1].x; y1 = r[1].y;
-	  x2 = r[0].x; y2 = r[0].y;	    
-	}
-	else {
-	  x1 = r[0].x; y1 = r[0].y;
-	  x2 = r[1].x; y2 = r[1].y;	    
-	}
-	solid->a += (x1 + x2)*(y2 - y1);
-	solid->cm.x += (x1 - x2)*(2.*(x1*y1 + x2*y2) + x1*y2 + x2*y1);
-	solid->cm.y += (y2 - y1)*(2.*(x1*y1 + x2*y2) + x1*y2 + x2*y1);
-	solid->ca.x = (x1 + x2)/2.;
-	solid->ca.y = (y1 + y2)/2.;
-      }
-      ins = !ins;
-    }
-    else if (ins) {
-      solid->s[etod[i]] = 1.;
-      solid->a += (x1 + x2)*(y2 - y1);
-      solid->cm.x += (x1 - x2)*(2.*(x1*y1 + x2*y2) + x1*y2 + x2*y1);
-      solid->cm.y += (y2 - y1)*(2.*(x1*y1 + x2*y2) + x1*y2 + x2*y1);
-    }
-    else
-      solid->s[etod[i]] = 0.;
-  }
-  
-  a = solid->a < 0. ? 0. : solid->a/(2.*h->x*h->y);
-  solid->ca.x += x0;
-  solid->ca.y += y0;
-  if (a > 1e-4) {
-    solid->cm.x = x0 + solid->cm.x/(3.*solid->a);
-    solid->cm.y = y0 + solid->cm.y/(3.*solid->a);
-  }
-  else {
-    guint n = 0;
-
-    solid->cm.x = solid->cm.y = 0.;
-    for (m = 0; m < 4 && f->s[m].n == 0; m++);
-    ins = f->s[m].inside < 0;
-    for (k = m; k < m + 4; k++) {
-      guint i = k % 4, i1 = (i + 1) % 4;
-      gdouble x1 = f->p[i].x - x0, y1 = f->p[i].y - y0, x2 = f->p[i1].x - x0, y2 = f->p[i1].y - y0;
-      if (f->s[i].n > 0) {
-	gdouble x = x1 + f->s[i].x*(x2 - x1);
-	gdouble y = y1 + f->s[i].x*(y2 - y1);
-
-	g_assert (ins == (f->s[i].inside < 0));
-	solid->cm.x += x;
-	solid->cm.y += y;
-	n++;
-	if (ins) {
-	  solid->cm.x += x1;
-	  solid->cm.y += y1;
-	  n++;
-	}
-	ins = !ins;
-      }
-      else if (ins) {
-	solid->cm.x += x1;
-	solid->cm.y += y1;
-	n++;
-      }
-    }
-    g_assert (n > 0);
-    solid->cm.x = x0 + solid->cm.x/n;
-    solid->cm.y = y0 + solid->cm.y/n;
-  }
-  solid->a = a;
-}
-
-static void face_new (CellFace * f, FttCell * cell, GfsGenericSurface * s, FttVector * h)
-{
-  FttVector p;
-  guint i;
-
-  ftt_cell_pos (cell, &p);
-  f->p[0].x = p.x - h->x/2.; f->p[0].y = p.y - h->y/2.; f->p[0].z = 0.;
-  f->p[1].x = p.x + h->x/2.; f->p[1].y = p.y - h->y/2.; f->p[1].z = 0.;
-  f->p[2].x = p.x + h->x/2.; f->p[2].y = p.y + h->y/2.; f->p[2].z = 0.;
-  f->p[3].x = p.x - h->x/2.; f->p[3].y = p.y + h->y/2.; f->p[3].z = 0.;
-
-  for (i = 0; i < 4; i++) {
-    f->s[i].E = &f->p[i];
-    f->s[i].D = &f->p[(i + 1) % 4];
-    gfs_surface_segment_intersection (s, cell, &f->s[i]);
-  }
-}
-
-static gboolean solid_face_is_thin (CellFace * f)
-{
-  guint odd = 0, even = 0, i;
-
-  for (i = 0; i < 4; i++)
-    if (f->s[i].n) {
-      if (f->s[i].n % 2 != 0)
-	odd++;
-      else
-	even++;
-    }
-  if (odd == 2 && even == 1) {
-    for (i = 0; i < 4; i++)
-      if (f->s[i].n % 2 != 0 && f->s[(i + 2) % 4].n % 2 != 0)
-	return FALSE;
-    return TRUE;
-  }
-  return (odd > 2 || even > 1);
-}
-
-/**
- * gfs_set_2D_solid_fractions_from_surface:
- * @cell: a #FttCell.
- * @s: a #GfsGenericSurface.
- *
- * Sets the 2D volume fractions of @cell cut by @s.
- *
- * Returns: %TRUE if the cell is thin, %FALSE otherwise;
- */
-gboolean gfs_set_2D_solid_fractions_from_surface (FttCell * cell,
-						  GfsGenericSurface * s)
-{
-  GfsSolidVector * solid;
-  FttVector h;
-  CellFace f;
-  guint i, n1 = 0;
-  gboolean thin = FALSE;
-
-  g_return_val_if_fail (cell != NULL, FALSE);
-  g_return_val_if_fail (s != NULL, FALSE);
-
-  h.x = h.y = ftt_cell_size (cell);
-  face_new (&f, cell, s, &h);
-  
-  for (i = 0; i < 4; i++)
-    if (f.s[i].n % 2 != 0) {
-      f.s[i].x /= f.s[i].n;
-      n1++;
-    }
-    else
-      f.s[i].n = 0;
-
-  solid = GFS_STATE (cell)->solid;
-  switch (n1) {
-  case 0:
-    break;
-  case 4:
-    thin = TRUE;
-    /* fall through */
-  case 2: {
-    if (!solid)
-      GFS_STATE (cell)->solid = solid = g_malloc0 (sizeof (GfsSolidVector));
-    face_fractions (&f, solid, &h);
-    if (solid->a == 1.) {
-      g_free (solid);
-      GFS_STATE (cell)->solid = NULL;
-    }
-    break;
-  }
-  default: {
-    FttVector p;
-    ftt_cell_pos (cell, &p);
-    g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR,
-	   "the surface may not be closed (n1 = %d)\n"
-	   "at (%g,%g,%g)", n1, p.x, p.y, p.z);
-  }
-  }
-  return thin;
-}
-
-typedef struct {
-  gboolean destroy_solid;
-  FttCellCleanupFunc cleanup;
-  gpointer data;
-  GfsVariable * status;
-  guint thin;
-  GSList * solid_boxes;
-} InitSolidParams;
-
-static gboolean thin_cell_is_solid (FttCell * cell)
-{
-  gdouble sum = 0.;
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    sum += GFS_STATE (cell)->solid->s[d];
-  return (sum < FTT_NEIGHBORS/2);
-}
-
-static void deal_with_thin_cell (FttCell * cell, InitSolidParams * p)
-{
-  cell->flags |= GFS_FLAG_THIN;
-  if (thin_cell_is_solid (cell))
-    GFS_VALUE (cell, p->status) = GFS_STATUS_SOLID;
-  else {
-    GfsSolidVector * solid = GFS_STATE (cell)->solid;
-    FttDirection d;
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      solid->s[d] = (solid->s[d] > 0.5);
-    solid->a = 1.;
-    ftt_cell_pos (cell, &solid->cm);
-    solid->ca = solid->cm;
-  }
-}
-
-#if FTT_2D /* 2D */
-
-static void set_solid_fractions_from_surface (FttCell * cell,
-					      GfsGenericSurface * s,
-					      InitSolidParams * p)
-{
-  if (gfs_set_2D_solid_fractions_from_surface (cell, s)) {
-    p->thin++;
-    deal_with_thin_cell (cell, p);
-  }
-  else if (GFS_STATE (cell)->solid && GFS_STATE (cell)->solid->a == 0.)
-    GFS_VALUE (cell, p->status) = GFS_STATUS_SOLID;
-}
-
-/**
- * gfs_solid_is_thin:
- * @cell: a #FttCell.
- * @s: a #GfsGenericSurface.
- *
- * @s is "thin" relative to @cell if the miminum distance between
- * non-connected faces of @s cutting @cell is smaller than the size of
- * @cell (see doc/figures/thin.fig).
- *
- * Returns: %TRUE if @s is a thin surface, %FALSE otherwise.
- */
-gboolean gfs_solid_is_thin (FttCell * cell, GfsGenericSurface * s)
-{
-  CellFace f;
-  FttVector h;
-
-  g_return_val_if_fail (cell != NULL, FALSE);
-  g_return_val_if_fail (s != NULL, FALSE);
-
-  h.x = h.y = ftt_cell_size (cell);
-  face_new (&f, cell, s, &h);
-  return solid_face_is_thin (&f);
-}
-
-#else /* 2D3 or 3D */
-#include "isocube.h"
-
-typedef struct {
-  GtsPoint p[8];
-  GfsSegment s[12];
-} CellCube;
-
-static void rotate (CellFace * f, FttVector * h, FttComponent c)
-{
-  guint i;
-
-  switch (c) {
-  case FTT_X: 
-    for (i = 0; i < 4; i++) {
-      f->p[i].x = f->p[i].y; f->p[i].y = f->p[i].z;
-    }
-    h->x = h->y; h->y = h->z;
-    break;
-  case FTT_Y:
-    for (i = 0; i < 4; i++)
-      f->p[i].y = f->p[i].z;
-    h->y = h->z;
-    break;
-  case FTT_Z:
-    break;
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-static void cell_size (FttCell * cell, FttVector * h)
-{
-  h->x = h->y = ftt_cell_size (cell);
-#if FTT_2D3
-  h->z = 1.;
-#else  /* 3D */
-  h->z = h->x;
-#endif /* 3D */
-}
-
-/* Returns: the number of closed loops for the given isocube
- * 
- * Fixme: this algorithm is not correct in general. This has no
- * consequence for this particular application because we also check
- * that the isosurface is "planar" together with use of topology() in
- * set_solid_fractions_from_surface3D(), however this is important in
- * general.
- *
- * The bug is triggered for certain configurations of "non-planar"
- * isosurfaces.
- */
-static guint topology (CellCube * cube)
-{
-  guint l, nl = 0;
-  gboolean used[12] = {0,0,0,0,0,0,0,0,0,0,0,0};
-  
-  for (l = 0; l < 12; l++) {
-    guint nv = 0, e = l, cut = cube->s[e].n % 2;
-    
-    while (cut && !used[e]) {
-      guint m = 0, * ne = connect[e][cube->s[e].inside > 0];
-
-      nv++;
-      used[e] = TRUE;
-      cut = 0;
-      while (m < 3 && !cut) {
-	e = ne[m++];
-	cut = cube->s[e].n % 2;
-      }
-    }
-    if (nv > 2)
-      nl++;
-  }
-  return nl;
-}
-
-static void cube_new (CellCube * cube, FttCell * cell, GfsGenericSurface * s, FttVector * o, FttVector * h)
-{
-  guint i;
-
-  for (i = 0; i < FTT_DIMENSION; i++)
-    (&o->x)[i] -= (&h->x)[i]/2.;
-  for (i = 0; i < 8; i++) { /* for each vertex of the cube */
-    cube->p[i].x = o->x + h->x*vertex[i].x;
-    cube->p[i].y = o->y + h->y*vertex[i].y;
-    cube->p[i].z = o->z + h->z*vertex[i].z;
-  }
-
-  for (i = 0; i < 12; i++) {
-    cube->s[i].E = &cube->p[edge1[i][0]];
-    cube->s[i].D = &cube->p[edge1[i][1]];
-    gfs_surface_segment_intersection (s, cell, &cube->s[i]);
-  }
-}
-
-static void set_solid_fractions_from_surface (FttCell * cell, 
-					      GfsGenericSurface * surface, 
-					      InitSolidParams * p)
-{
-  GfsSolidVector * solid = GFS_STATE (cell)->solid;
-  CellCube cube;
-  FttVector o, ca = {0., 0., 0.}, h;
-  guint i, n1 = 0;
-  gint inside[8] = {0,0,0,0,0,0,0,0};
-  gboolean planar = TRUE;
-
-  ftt_cell_pos (cell, &o);
-  cell_size (cell, &h);
-  cube_new (&cube, cell, surface, &o, &h);
-
-  for (i = 0; i < 12; i++) { /* for each edge of the cube */
-    GfsSegment * s = &cube.s[i];
-    if (cube.s[i].n % 2 != 0) { /* only for odd number of intersections */
-      guint j = edge1[i][0], k = edge1[i][1];
-
-      /* intersection vertex position is the average of all the n[i] intersections */
-      s->x /= s->n;
-
-      /* average of all intersections */
-      ca.x += (1. - s->x)*cube.p[j].x + s->x*cube.p[k].x;
-      ca.y += (1. - s->x)*cube.p[j].y + s->x*cube.p[k].y;
-      ca.z += (1. - s->x)*cube.p[j].z + s->x*cube.p[k].z;
-
-      g_assert (inside[j] == 0 || inside[j] == s->inside);
-      g_assert (inside[k] == 0 || inside[k] == - s->inside);
-      inside[j] = s->inside;
-      inside[k] = - s->inside;
-      n1++;
-    }
-    else
-      s->n = 0;
-  }
-
-  if (n1 == 0) { /* no intersections */
-    if (solid) {
-      g_free (solid);
-      GFS_STATE (cell)->solid = NULL;      
-    }
-    return;
-  }
-
-  if (!solid)
-    GFS_STATE (cell)->solid = solid = g_malloc0 (sizeof (GfsSolidVector));
-
-  /* compute face fractions */
-  for (i = 0; i < FTT_NEIGHBORS; i++) {
-    CellFace f;
-    guint j, n2;
-
-    n2 = 0;
-    for (j = 0; j < 4; j++) { /* initialise face i */
-      GfsSegment * s = &cube.s[face[i][j][0]];
-
-      f.p[j] = cube.p[face_v[i][j]];
-      f.s[j].n = s->n;
-      if (f.s[j].n) n2++;
-      if (face[i][j][1]) {
-	f.s[j].x = 1. - s->x;
-	f.s[j].inside = - s->inside;
-      }
-      else {
-	f.s[j].x = s->x;
-	f.s[j].inside = s->inside;
-      }
-    }
-
-    switch (n2) {
-    case 0: { /* the face is not cut */
-      gint ins = 0;
-
-      /* checks whether the face vertices are inside or outside */
-      for (j = 0; j < 4; j++) {
-	gint k = inside[face_v[i][j]];
-	if (k) {
-	  g_assert (ins == 0 || ins == k);
-	  ins = k;
-	}
-      }
-      g_assert (ins != 0);
-      solid->s[i] = ins > 0 ? 0. : 1.;
-      break;
-    }
-    case 4:
-      planar = FALSE;
-      /* fall through */
-    case 2: { /* the face is cut 2 or 4 times */
-      GfsSolidVector sol;
-      FttVector h1;
-
-      h1 = h;
-      rotate (&f, &h1, i/2);
-      face_fractions (&f, &sol, &h1);
-      solid->s[i] = sol.a;
-      break;
-    }
-    default: {
-      FttVector p;
-      ftt_cell_pos (cell, &p);
-      g_log (G_LOG_DOMAIN, G_LOG_LEVEL_ERROR,
-	     "the surface may not be closed (n2 = %d)\n"
-	     "at (%g,%g,%g)", n2, p.x, p.y, p.z);
-    }
-    }
-  }
-
-  /* now compute cell fraction, center of area, center of mass */
-  ca.x /= n1; ca.y /= n1; ca.z /= n1; 
-  solid->ca = ca;
-  if (planar && topology (&cube) == 1) {
-    FttVector m;
-    gdouble alpha, n = 0.;
-    gboolean sym[FTT_DIMENSION];
-    FttComponent c;
-
-    for (c = 0; c < FTT_DIMENSION; c++) {
-      (&ca.x)[c] = ((&ca.x)[c] - (&o.x)[c])/(&h.x)[c];
-      (&m.x)[c] = solid->s[2*c + 1] - solid->s[2*c];
-      if ((&m.x)[c] < 0.) {
-	(&m.x)[c] = - (&m.x)[c];
-	(&ca.x)[c] = 1. - (&ca.x)[c];
-	sym[c] = TRUE;
-      }
-      else
-	sym[c] = FALSE;
-      n += (&m.x)[c];
-    }
-    if (n == 0.) { /* this is a fluid or solid cell */
-      for (c = 1; c < FTT_NEIGHBORS; c++)
-	g_assert (solid->s[c] == solid->s[0]);
-      if (solid->s[0] == 1.) { /* fluid */
-	g_free (solid);
-	GFS_STATE (cell)->solid = NULL;
-	return;
-      }
-      else { /* solid */
-	solid->a = 0.;
-	solid->cm.x = solid->cm.y = solid->cm.z = 0.;
-      }
-    }
-    else {
-      m.x /= n; m.y /= n; m.z /= n;
-      alpha = m.x*ca.x + m.y*ca.y + m.z*ca.z;
-      solid->a = gfs_plane_volume (&m, alpha);
-      gfs_plane_center (&m, alpha, solid->a, &solid->cm);
-    }
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&solid->cm.x)[c] = (&o.x)[c] + 
-	(sym[c] ? 1. - (&solid->cm.x)[c] : (&solid->cm.x)[c])*(&h.x)[c];
-  }
-  else { /* this is a "thin" cell */
-    p->thin++;
-    deal_with_thin_cell (cell, p);
-  }
-  if (solid->a == 0.)
-    GFS_VALUE (cell, p->status) = GFS_STATUS_SOLID;
-}
-
-/**
- * gfs_solid_is_thin:
- * @cell: a #FttCell.
- * @s: a #GfsGenericSurface.
- *
- * @s is "thin" relative to @cell if the miminum distance between
- * non-connected faces of @s cutting @cell is smaller than the size of
- * @cell (see doc/figures/thin.fig).
- *
- * Returns: %TRUE if @s is a thin surface, %FALSE otherwise.
- */
-gboolean gfs_solid_is_thin (FttCell * cell, GfsGenericSurface * s)
-{
-  CellCube cube;
-  FttVector o, h;
-  guint i;
-
-  g_return_val_if_fail (cell != NULL, FALSE);
-  g_return_val_if_fail (s != NULL, FALSE);
-
-  ftt_cell_pos (cell, &o);
-  cell_size (cell, &h);
-  cube_new (&cube, cell, s, &o, &h);
-  for (i = 0; i < FTT_NEIGHBORS; i++) {
-    CellFace f;
-    guint j;
-
-    for (j = 0; j < 4; j++)
-      f.s[j].n = cube.s[face[i][j][0]].n;
-    if (solid_face_is_thin (&f))
-      return TRUE;
-  }
-  return (topology (&cube) > 1);
-}
-
-#endif /* 2D3 or 3D */
-
-static gdouble solid_sa (GfsSolidVector * s)
-{
-  gdouble sa2 = 0.;
-  FttComponent c;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    gdouble n = s->s[2*c] - s->s[2*c + 1];
-
-    sa2 += n*n;
-  }
-  return sqrt (sa2);
-}
-
-/**
- * gfs_cell_init_solid_fractions_from_children:
- * @cell: a #FttCell.
- *
- * Uses the values of the solid fractions of the children of @cell to
- * compute the values of its solid fractions.
- *
- * This function fails if @cell is a leaf of the cell tree.  
- */
-void gfs_cell_init_solid_fractions_from_children (FttCell * cell)
-{
-  FttCellChildren child;
-  guint i, j;
-  gdouble w = 0., wa = 0.;
-  gboolean cell_is_solid = TRUE;
-  gboolean cell_is_mixed = FALSE;
-  FttVector cm = { 0., 0., 0.};
-  FttVector ca = { 0., 0., 0.};
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (!FTT_CELL_IS_LEAF (cell));
-
-  ftt_cell_children (cell, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i]) {
-      if (GFS_IS_FLUID (child.c[i])) {
-	FttVector p;
-
-	w += 1.;
-	ftt_cell_pos (child.c[i], &p);
-	cm.x += p.x; cm.y += p.y; cm.z += p.z;
-	cell_is_solid = FALSE;
-      }
-      else {
-	GfsSolidVector * solid = GFS_STATE (child.c[i])->solid;
-	gdouble sa = solid_sa (solid) + 1e-9;
-
-	w += solid->a; wa += sa;
-	cm.x += solid->cm.x*solid->a;
-	cm.y += solid->cm.y*solid->a;
-	cm.z += solid->cm.z*solid->a;
-	ca.x += solid->ca.x*sa;
-	ca.y += solid->ca.y*sa;
-	ca.z += solid->ca.z*sa;
-	cell_is_mixed = TRUE;
-      }
-    }
-
-  if (cell_is_mixed) {
-    GfsSolidVector * solid = GFS_STATE (cell)->solid;
-
-    if (solid == NULL)
-      GFS_STATE (cell)->solid = solid = g_malloc0 (sizeof (GfsSolidVector));
-
-    solid->a = w/FTT_CELLS;
-    g_assert (wa > 0.);
-    solid->ca.x = ca.x/wa;
-    solid->ca.y = ca.y/wa;
-    solid->ca.z = ca.z/wa;
-    if (w > 0.) {
-      solid->cm.x = cm.x/w;
-      solid->cm.y = cm.y/w;
-      solid->cm.z = cm.z/w;
-    }
-    else
-      ftt_cell_pos (cell, &solid->cm);
-
-    for (i = 0; i < FTT_NEIGHBORS; i++) {
-      guint n = ftt_cell_children_direction (cell, i, &child);
-
-      w = 0.;
-      for (j = 0; j < n; j++)
-	if (child.c[j])
-	  w += GFS_IS_FLUID (child.c[j]) ? 1. : GFS_STATE (child.c[j])->solid->s[i];
-      solid->s[i] = w/n;
-    }
-  }
-  else { /* !cell_is_mixed */
-    if (GFS_STATE (cell)->solid) {
-      g_free (GFS_STATE (cell)->solid);
-      GFS_STATE (cell)->solid = NULL;
-    }
-    g_assert (!cell_is_solid);
-  }
-}
-
-static void push_leaf (GtsFifo * fifo, FttCell * cell, FttDirection d, gdouble a,
-		       GfsVariable * status)
-{
-  if (FTT_CELL_IS_LEAF (cell)) {
-    if (!GFS_IS_MIXED (cell) && GFS_VALUE (cell, status) == GFS_STATUS_UNDEFINED) {
-      GFS_VALUE (cell, status) = a;
-      gts_fifo_push (fifo, cell);
-    }
-  }
-  else {
-    FttCellChildren child;
-    guint i, n;
-    
-    n = ftt_cell_children_direction (cell, FTT_OPPOSITE_DIRECTION (d), &child);
-    for (i = 0; i < n; i++)
-      if (child.c[i] && !GFS_IS_MIXED (child.c[i]) && 
-	  GFS_VALUE (child.c[i], status) == GFS_STATUS_UNDEFINED) {
-	g_assert (FTT_CELL_IS_LEAF (child.c[i]));
-	GFS_VALUE (child.c[i], status) = a;
-	gts_fifo_push (fifo, child.c[i]);
-      }
-  }
-}
-
-static void paint_leaf (GtsFifo * fifo, gdouble a, GfsVariable * status)
-{
-  FttCell * cell;
-
-  while ((cell = gts_fifo_pop (fifo))) {
-    FttDirection i;
-    FttCellNeighbors n;
-    
-    ftt_cell_neighbors (cell, &n);
-    for (i = 0; i < FTT_NEIGHBORS; i++)
-      if (n.c[i] && !GFS_CELL_IS_BOUNDARY (n.c[i]))
-	push_leaf (fifo, n.c[i], i, a, status);
-  }
-}
-
-static void paint_mixed_leaf (FttCell * cell, GfsVariable * status)
-{
-  if (GFS_IS_MIXED (cell)) {
-    GfsSolidVector * solid = GFS_STATE (cell)->solid;
-    GtsFifo * fifo;
-    FttCell * n;
-    FttDirection i;
-
-    fifo = gts_fifo_new ();
-    for (i = 0; i < FTT_NEIGHBORS; i++)
-      if ((n = ftt_cell_neighbor (cell, i)) && !GFS_CELL_IS_BOUNDARY (n)) {
-	if (solid->s[i] == 0. || solid->s[i] == 1.) {
-	  push_leaf (fifo, n, i, solid->s[i] + 1., status);
-	  paint_leaf (fifo, solid->s[i] + 1., status);
-	}
-	else if (!FTT_CELL_IS_LEAF (n)) {
-	  FttCellChildren child;
-	  guint j, k;
-	  gdouble w = 0.;
-
-	  k = ftt_cell_children_direction (n, FTT_OPPOSITE_DIRECTION (i), &child);
-	  for (j = 0; j < k; j++)
-	    if (child.c[j])
-	      w += GFS_IS_FLUID (child.c[j]) ? 1. : 
-		GFS_STATE (child.c[j])->solid->s[FTT_OPPOSITE_DIRECTION (i)];
-	  if (w/k <= 0. || w/k >= 1.)
-	    g_warning ("file %s: line %d (%s): w/k=%g solid->s[%d]=%g",
-		       __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		       w/k, i, solid->s[i]);
-	  solid->s[i] = w/k;
-	}
-      }
-    gts_fifo_destroy (fifo);
-  }
-}
-
-static void solid_fractions_from_children (FttCell * cell, InitSolidParams * p)
-{
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren child;
-    guint i;
-    
-    ftt_cell_children (cell, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i])
-	solid_fractions_from_children (child.c[i], p);
-    if (FTT_CELL_IS_LEAF (cell))
-      /* all the children have been destroyed i.e. the cell is solid */
-      GFS_VALUE (cell, p->status) = GFS_STATUS_SOLID;
-    else {
-      gfs_cell_init_solid_fractions_from_children (cell);
-      GFS_VALUE (cell, p->status) = GFS_STATUS_UNDEFINED;
-      if (!p->destroy_solid && !GFS_IS_MIXED (cell)) {
-	ftt_cell_children (cell, &child);
-	for (i = 0; i < FTT_CELLS; i++)
-	  if (child.c[i]) {
-	    if (GFS_VALUE (cell, p->status) == GFS_STATUS_UNDEFINED)
-	      GFS_VALUE (cell, p->status) = GFS_VALUE (child.c[i], p->status);
-	    else
-	      g_assert (GFS_VALUE (cell, p->status) == GFS_VALUE (child.c[i], p->status));
-	  }
-      }
-    }
-  }
-  if (p->destroy_solid && 
-      GFS_VALUE (cell, p->status) == GFS_STATUS_SOLID && 
-      !FTT_CELL_IS_ROOT (cell))
-    ftt_cell_destroy (cell, p->cleanup, p->data);
-}
-
-static void foreach_box (GfsBox * box, InitSolidParams * p)
-{
-  solid_fractions_from_children (box->root, p);
-  if (p->destroy_solid && GFS_VALUE (box->root, p->status) == GFS_STATUS_SOLID)
-    p->solid_boxes = g_slist_prepend (p->solid_boxes, box);
-}
-
-static void match_fractions (FttCell * cell, GfsVariable * status)
-{
-  if (GFS_IS_MIXED (cell)) {
-    FttCellNeighbors neighbor;
-    GfsSolidVector * solid = GFS_STATE (cell)->solid;
-    FttDirection d;
-
-    ftt_cell_neighbors (cell, &neighbor);
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (neighbor.c[d] && !GFS_CELL_IS_BOUNDARY (neighbor.c[d])) {
-	if (!FTT_CELL_IS_LEAF (neighbor.c[d])) {
-	  FttCellChildren child;
-	  FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-	  guint i, n = ftt_cell_children_direction (neighbor.c[d], od, &child);
-	  gdouble s = 0.;
-
-	  g_assert (GFS_VARIABLE (neighbor.c[d], status->i) != 1.);
-	  for (i = 0; i < n; i++)
-	    if (child.c[i] && GFS_VARIABLE (child.c[i], status->i) != 1.)
-	      s += GFS_IS_MIXED (child.c[i]) ? GFS_STATE (child.c[i])->solid->s[od] : 1.;
-	  solid->s[d] = s/n;
-	}
-	else if (GFS_VARIABLE (neighbor.c[d], status->i) != 1.) {
-	  if (!GFS_IS_MIXED (neighbor.c[d]) && solid->s[d] < 1.)
-	    solid->s[d] = 1.;
-	  else if (neighbor.c[d]->flags & GFS_FLAG_THIN)
-	    solid->s[d] = GFS_STATE (neighbor.c[d])->solid->s[FTT_OPPOSITE_DIRECTION (d)];
-	}
-	else /* neighbor.c[d] is a solid cell */
-	  solid->s[d] = 0.;
-      }
-  }
-}
-
-/**
- * gfs_init_solid_fractions_leaves:
- * @domain: a #GfsDomain.
- * @i: a list of #GfsSolids.
- * @status: a temporary variable or %NULL.
- *
- * Initializes the solid fractions of the leaf cells of @domain.
- *
- * Returns: the number of thin cells.
- */
-guint gfs_init_solid_fractions_leaves (GfsDomain * domain,
-				       GSList * i,
-				       GfsVariable * status)
-{
-  InitSolidParams p;
-
-  g_return_val_if_fail (domain != NULL, 0);
-
-  p.status = status ? status : gfs_temporary_variable (domain);
-  p.thin = 0;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) gfs_cell_reset, p.status);
-  while (i) {
-    gfs_domain_traverse_cut (domain, GFS_SOLID (i->data)->s, 
-			     FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-			     (FttCellTraverseCutFunc) set_solid_fractions_from_surface, &p);
-    i = i->next;
-  }
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) paint_mixed_leaf, p.status);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) match_fractions, p.status);
-  if (status == NULL)
-    gts_object_destroy (GTS_OBJECT (p.status));
-
-  return p.thin;
-}
-
-/**
- * gfs_init_solid_fractions_from_children:
- * @domain: a #GfsDomain.
- * @destroy_solid: controls what to do with solid cells.
- * @cleanup: a #FttCellCleanupFunc or %NULL.
- * @data: user data to pass to @cleanup.
- * @status: the status variable.
- *
- * Initializes the solid fractions of the non-leaf cells of @domain
- * using the values of the leaf cells.
- *
- * If @destroy_solid is set to %TRUE, the cells entirely contained in
- * the solid are destroyed using @cleanup as cleanup function.  
- */
-void gfs_init_solid_fractions_from_children (GfsDomain * domain,
-					     gboolean destroy_solid,
-					     FttCellCleanupFunc cleanup,
-					     gpointer data,
-					     GfsVariable * status)
-{
-  InitSolidParams p;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (status != NULL);
-
-  p.destroy_solid = destroy_solid;
-  p.cleanup = cleanup;
-  p.data = data;
-  p.status = status;
-  p.solid_boxes = NULL;
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) foreach_box, &p);
-  g_slist_foreach (p.solid_boxes, (GFunc) gts_object_destroy, NULL);
-  g_slist_free (p.solid_boxes);
-}
-
-/**
- * gfs_domain_init_solid_fractions:
- * @domain: a #GfsDomain.
- * @i: a list of #GfsSolids.
- * @destroy_solid: controls what to do with solid cells.
- * @cleanup: a #FttCellCleanupFunc or %NULL.
- * @data: user data to pass to @cleanup.
- * @status: a temporary variable or %NULL.
- *
- * Initializes the solid fractions of all the cells of @domain.
- *
- * If @destroy_solid is set to %TRUE, the cells entirely contained in
- * the solid are destroyed using @cleanup as cleanup function.  
- *
- * Returns: the number of thin cells.
- */
-guint gfs_domain_init_solid_fractions (GfsDomain * domain,
-				       GSList * i,
-				       gboolean destroy_solid,
-				       FttCellCleanupFunc cleanup,
-				       gpointer data,
-				       GfsVariable * status)
-{
-  GfsVariable * status1;
-
-  g_return_val_if_fail (domain != NULL, 0);
-
-  status1 = status ? status : gfs_temporary_variable (domain);
-  guint thin = gfs_init_solid_fractions_leaves (domain, i, status1);
-  gfs_init_solid_fractions_from_children (domain, destroy_solid, cleanup, data, status1);
-  if (status == NULL)
-    gts_object_destroy (GTS_OBJECT (status1));
-
-  return thin;
-}
-
-static gboolean check_area_fractions (const FttCell * root)
-{
-  guint i, level;
-  FttCellNeighbors neighbor;
-  gboolean ret = TRUE;
-  GfsSolidVector * solid;
-
-  level = ftt_cell_level (root);
-  ftt_cell_neighbors (root, &neighbor);
-  solid = GFS_STATE (root)->solid;
-
-  if (solid) {
-    GtsBBox bb;
-
-    ftt_cell_bbox (root, &bb);
-    if (!gts_bbox_point_is_inside (&bb, &solid->cm)) {
-      g_warning ("file %s: line %d (%s): cm (%g,%g,%g)/%d is not inside cell [(%g,%g,%g),(%g,%g,%g)]",
-		 __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		 solid->cm.x, solid->cm.y, solid->cm.z, ftt_cell_level (root),
-		 bb.x1, bb.y1, bb.z1, 
-		 bb.x2, bb.y2, bb.z2);
-      ret = FALSE;
-      g_assert_not_reached ();
-    }
-    if (!gts_bbox_point_is_inside (&bb, &solid->ca)) {
-      g_warning ("file %s: line %d (%s): ca (%g,%g,%g)/%d is not inside cell [(%g,%g,%g),(%g,%g,%g)]",
-		 __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		 solid->ca.x, solid->ca.y, solid->ca.z, ftt_cell_level (root),
-		 bb.x1, bb.y1, bb.z1, 
-		 bb.x2, bb.y2, bb.z2);
-      ret = FALSE;
-      g_assert_not_reached ();
-    }
-  }
-
-  for (i = 0; i < FTT_NEIGHBORS; i++)
-    if (neighbor.c[i]) {
-      GfsSolidVector * nsolid = GFS_STATE (neighbor.c[i])->solid;
-      FttDirection oi = FTT_OPPOSITE_DIRECTION (i);
-
-      if (ftt_cell_level (neighbor.c[i]) == level) {
-	if (GFS_IS_FLUID (root)) {
-	  if (!GFS_IS_FLUID (neighbor.c[i])) {
-	    if (1. - nsolid->s[oi] >= 1e-10) {
-	      FttVector p;
-	      ftt_cell_pos (root, &p);
-	      g_warning ("file %s: line %d (%s): (%g,%g,%g)/%d: s[%d]: %g",
-			 __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-			 p.x, p.y, p.z, ftt_cell_level (root),
-			 oi, nsolid->s[oi]);
-	      ret = FALSE;
-	    }
-	    nsolid->s[oi] = 1.;
-	  }
-	}
-	else if (GFS_IS_MIXED (neighbor.c[i])) {
-	  if (fabs (solid->s[i] - nsolid->s[oi]) >= 1e-10) {
-	    FttVector p;
-	    ftt_cell_pos (root, &p);
-	    g_warning ("file %s: line %d (%s): (%g,%g,%g)/%d: s[%d]: %g neighbor->s[%d]: %g",
-		       __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		       p.x, p.y, p.z, ftt_cell_level (root),
-		       i, solid->s[i],
-		       oi, nsolid->s[oi]);
-	    ret = FALSE;
-	  }
-	  nsolid->s[oi] = solid->s[i];
-	}
-	else {
-	  if (1. - solid->s[i] >= 1e-10) {
-	    FttVector p;
-	    ftt_cell_pos (root, &p);
-	    g_warning ("file %s: line %d (%s): (%g,%g,%g)/%d: s[%d]: %g",
-		       __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		       p.x, p.y, p.z, ftt_cell_level (root),
-		       i, solid->s[i]);
-	    ret = FALSE;
-	  }
-	  solid->s[i] = 1.;
-	}
-      }
-      else { /* fine/coarse boundary */
-	g_assert (ftt_cell_level (neighbor.c[i]) == level - 1);
-	if (GFS_IS_FLUID (neighbor.c[i])) {
-	  if (GFS_IS_MIXED (root)) {
-	    if (1. - solid->s[i] >= 1e-10) {
-	      FttVector p;
-	      ftt_cell_pos (root, &p);
-	      g_warning ("file %s: line %d (%s): (%g,%g,%g)/%d: s[%d]: %g",
-			 __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-			 p.x, p.y, p.z, ftt_cell_level (root),
-			 i, solid->s[i]);
-	      ret = FALSE;
-	    }
-	    solid->s[i] = 1.;
-	  }
-	}
-	else if (nsolid->s[oi] == 0.) {
-	  g_assert (GFS_IS_MIXED (root));
-	  if (solid->s[i] >= 1e-10) {
-	    FttVector p;
-	    ftt_cell_pos (root, &p);
-	    g_warning ("file %s: line %d (%s): (%g,%g,%g)/%d: s[%d]: %g",
-		       __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		       p.x, p.y, p.z, ftt_cell_level (root),
-		       i, solid->s[i]);
-	    ret = FALSE;
-	  }
-	  solid->s[i] = 0.;
-	}
-      }
-    }
-  
-  if (!FTT_CELL_IS_LEAF (root)) {
-    FttCellChildren child;
-
-    ftt_cell_children (root, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i] && !check_area_fractions (child.c[i]))
-	ret = FALSE;
-  }
-
-  return ret;
-}
-
-static void check_solid_fractions (FttCell * cell, gboolean * ret)
-{
-  FttCellChildren children;
-  guint n;
-
-  ftt_cell_children (cell, &children);
-  if (!GFS_IS_MIXED (cell)) {
-    for (n = 0; n < FTT_CELLS; n++)
-      if (children.c[n] && GFS_IS_MIXED (children.c[n])) {
-	g_warning ("file %s: line %d (%s): children[%d] is mixed (%g)"
-		   " parent is not",
-                   __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		   n, GFS_STATE (children.c[n])->solid->a);
-	*ret = FALSE;
-      }
-  }
-  else {
-    gdouble a = 0.;
-
-    for (n = 0; n < FTT_CELLS; n++)
-      if (children.c[n]) {
-	if (GFS_IS_MIXED (children.c[n]))
-	  a += GFS_STATE (children.c[n])->solid->a;
-	else
-	  a += 1.;
-      }
-    a /= FTT_CELLS;
-    if (fabs (GFS_STATE (cell)->solid->a - a) >= 1e-10) {
-      g_warning ("file %s: line %d (%s): children->a: %g parent->a: %g",
-		 __FILE__, __LINE__, G_GNUC_PRETTY_FUNCTION,
-		 a, GFS_STATE (cell)->solid->a);
-	*ret = FALSE;
-    }
-  }
-}
-
-/**
- * gfs_cell_check_solid_fractions:
- * @root: the root #FttCell of the cell tree to check.
- * 
- * Checks the consistency of the solid fractions of each cell of the
- * cell tree relative to the neighboring solid fractions.
- *
- * Returns: %TRUE if the solid fractions are consistent, %FALSE otherwise.
- */
-gboolean gfs_cell_check_solid_fractions (FttCell * root)
-{
-  gboolean ret = TRUE;
-
-  g_return_val_if_fail (root != NULL, FALSE);
-
-  ftt_cell_traverse (root, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-		     (FttCellTraverseFunc) check_solid_fractions, &ret);
-  return ret & check_area_fractions (root);
-}
-
-static void save_solid (FttCell * cell, GfsVariable * c)
-{
-  GFS_DOUBLE_TO_POINTER (GFS_VARIABLE (cell, c->i)) = GFS_STATE (cell)->solid;
-  GFS_STATE (cell)->solid = NULL;
-}
-
-static void restore_solid (FttCell * cell, gpointer * data)
-{
-  GfsVariable * status = data[0];
-  GfsVariable * c = data[1];
-  GfsSolidVector * solid = GFS_STATE (cell)->solid;
-
-  GFS_STATE (cell)->solid = GFS_DOUBLE_TO_POINTER (GFS_VALUE (cell, c));
-  if (solid) {
-    GFS_VALUE (cell, c) = solid->a;
-    g_free (solid);
-  }
-  else {
-    g_assert (GFS_VALUE (cell, status) == GFS_STATUS_SOLID || 
-	      GFS_VALUE (cell, status) == GFS_STATUS_FLUID);
-    GFS_VALUE (cell, c) = GFS_VALUE (cell, status) - 1.;
-  }
-}
-
-static void set_status (FttCell * cell, gpointer * data)
-{
-  GfsVariable * status = data[0];
-  gdouble * val = data[2];
-  GFS_VALUE (cell, status) = *val;
-}
-
-static void check_status (GfsBox * box, gpointer * data)
-{
-  GfsVariable * status = data[0];
-  if (!GFS_IS_MIXED (box->root) && GFS_VALUE (box->root, status) == GFS_STATUS_UNDEFINED) {
-    GfsGenericSurface * s = data[1];
-    FttVector pos;
-    ftt_cell_pos (box->root, &pos);
-    gdouble val = gfs_surface_point_is_inside (s, &pos) > 0 ?
-      GFS_STATUS_FLUID : GFS_STATUS_SOLID;
-    data[2] = &val;
-    ftt_cell_traverse (box->root, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-		       (FttCellTraverseFunc) set_status, data);
-  }
-}
-
-/**
- * gfs_domain_init_fraction:
- * @domain: a #GfsDomain.
- * @s: a surface defining the interface boundary.
- * @c: a #GfsVariable.
- *
- * Initializes the fraction @c of the interface @s contained in all
- * the cells of @domain.
- */
-void gfs_domain_init_fraction (GfsDomain * domain,
-			       GfsGenericSurface * s,
-			       GfsVariable * c)
-{
-  gpointer data[3];
-  GfsVariable * status;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (c != NULL);
-
-  status = gfs_temporary_variable (domain);
-
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) save_solid, c);
-  GfsSolid tmp;
-  tmp.s = s;
-  GSList * l = g_slist_prepend (NULL, &tmp);
-  gfs_domain_init_solid_fractions (domain, l, FALSE, NULL, NULL, status);
-  g_slist_free (l);
-  data[0] = status;
-  data[1] = s;
-  gts_container_foreach (GTS_CONTAINER (domain), (GtsFunc) check_status, data);
-  data[1] = c;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) restore_solid, data);
-  gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, c);
-
-  gts_object_destroy (GTS_OBJECT (status));
-}
-
-/**
- * gfs_cell_cm:
- * @cell: a #FttCell.
- * @cm: a #FttVector.
- *
- * Fills @cm with the coordinates of the center of mass of @cell.
- */
-void gfs_cell_cm (const FttCell * cell, FttVector * cm)
-{
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (cm != NULL);
-
-  if (GFS_IS_MIXED (cell))
-    *cm = GFS_STATE (cell)->solid->cm;
-  else
-    ftt_cell_pos (cell, cm);
-}
-
-/**
- * gfs_solid_normal:
- * @cell: a #FttCell.
- * @n: a #FttVector.
- *
- * Fills @n with the components of the average unit normal to the
- * fraction of solid boundary contained in @cell, multiplied by the
- * area of the fraction of solid boundary contained in @cell.
- */
-void gfs_solid_normal (const FttCell * cell, FttVector * n)
-{
-  GfsSolidVector * s;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (n != NULL);
-
-  if ((s = GFS_STATE (cell)->solid)) {
-    FttComponent c;
-
-#if (FTT_2D)
-    n->z = 0.;
-#endif /* 2D */
-
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&n->x)[c] = (s->s[2*c + 1] - s->s[2*c]);
-  }
-  else
-    n->x = n->y = n->z = 0.;
-}
-
-/**
- * gfs_face_ca:
- * @face: a #FttCellFace.
- * @ca: a #FttVector.
- *
- * Fills @ca with the coordinates of the center of area of @face.
- */
-void gfs_face_ca (const FttCellFace * face, FttVector * ca)
-{
-  gdouble f;
-
-  g_return_if_fail (face != NULL);
-  g_return_if_fail (ca != NULL);
-
-  ftt_face_pos (face, ca);
-  if ((f = GFS_FACE_FRACTION (face)) < 1.) {
-    GfsSolidVector * s = GFS_STATE (face->cell)->solid;
-    gdouble h = ftt_cell_size (face->cell);
-#if FTT_2D
-    FttComponent cp = FTT_ORTHOGONAL_COMPONENT (face->d/2);
-
-    (&ca->x)[cp] += (s->s[2*cp] > s->s[2*cp + 1]) ? (1. - f)/2.*h : (f - 1.)/2.*h;
-#else /* 3D */
-    static guint perpendicular[FTT_DIMENSION][2] = {
-      {FTT_Y, FTT_Z}, {FTT_Z, FTT_X}, {FTT_X, FTT_Y}
-    };
-    FttComponent c0 = face->d/2;
-    FttComponent c1 = perpendicular[c0][0];
-    FttComponent c2 = perpendicular[c0][1];
-    gboolean s1, s2;
-    FttVector m, p;
-    gdouble n, alpha;
-
-    m.x = s->s[2*c1 + 1] - s->s[2*c1];
-    m.y = s->s[2*c2 + 1] - s->s[2*c2];
-    s1 = (m.x < 0.);
-    s2 = (m.y < 0.);
-    m.x = fabs (m.x);
-    m.y = fabs (m.y);
-    n = m.x + m.y;
-    if (n > 0.) {
-      m.x /= n;
-      m.y /= n;
-      alpha = gfs_line_alpha (&m, f);
-      gfs_line_center (&m, alpha, f, &p);
-      if (s1) p.x = 1. - p.x;
-      if (s2) p.y = 1. - p.y;
-      (&ca->x)[c1] += (p.x - 0.5)*h;
-      (&ca->x)[c2] += (p.y - 0.5)*h;
-    }
-#endif /* 3D */
-  }
-}
-
-#if !FTT_2D
-static void outer_fractions_coarse_fine (FttCell * parent, FttDirection d)
-{
-  GfsSolidVector * solid = GFS_STATE (parent)->solid;
-  FttComponent c1 = d < 4 ? 2 : 0, c2 = d < 2 || d > 3 ? 1 : 0;
-  gdouble nm;
-  FttVector m;
-    
-  m.x = solid->s[2*c1 + 1] - solid->s[2*c1]; nm = fabs (m.x);
-  m.y = solid->s[2*c2 + 1] - solid->s[2*c2]; nm += fabs (m.y);
-  if (nm > 0.) {
-    m.x /= nm;
-    m.y /= nm;
-  }
-  else
-    m.x = 1.;
-  gdouble alpha = gfs_line_alpha (&m, solid->s[d]);
-  gdouble ss = 0.;
-    
-  FttCellChildren child;
-  guint i, n = ftt_cell_children_direction (parent, d, &child);
-  for (i = 0; i < n; i++)
-    if (child.c[i]) {
-      if (GFS_IS_MIXED (child.c[i])) {
-	GfsSolidVector * s = GFS_STATE (child.c[i])->solid;
-	gdouble alpha1 = alpha;
-	FttVector p;
-	
-	ftt_cell_relative_pos (child.c[i], &p);
-	alpha1 -= m.x*(0.25 + (&p.x)[c1]);
-	alpha1 -= m.y*(0.25 + (&p.x)[c2]);
-	
-	s->s[d] = gfs_line_area (&m, 2.*alpha1);
-	ss += s->s[d];
-      }
-      else
-	ss += 1.;
-    }
-  /* fixme: this should not happen 
-   * It happens in configurations where children cells are not cut by
-   * the VOF approximation but should have non-zero surface
-   * fractions */
-  if (fabs (solid->s[d] - ss/n) > 1e-5)
-    g_warning ("inconsistent surface fractions %d %f %f %f\n", d, solid->s[d], ss/n,
-	       fabs (solid->s[d] - ss/n));
-}
-#endif /* 3D */
-
-/**
- * gfs_solid_coarse_fine:
- * @parent: a mixed #FttCell with children.
- * @domain: a #GfsDomain.
- *
- * Fills the solid properties of the children of @parent.
- * Destroys all children entirely contained in the solid.
- */
-void gfs_solid_coarse_fine (FttCell * parent, GfsDomain * domain)
-{
-#if FTT_2D3
-  g_assert_not_implemented ();
-#endif
-  g_return_if_fail (parent);
-  g_return_if_fail (domain);
-  g_return_if_fail (GFS_IS_MIXED (parent));
-  g_return_if_fail (!FTT_CELL_IS_LEAF (parent));
-
-  GfsSolidVector * solid = GFS_STATE (parent)->solid;
-  FttVector m;
-  FttComponent c;
-  gdouble n = 0;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    (&m.x)[c] = solid->s[2*c + 1] - solid->s[2*c];
-    n += fabs ((&m.x)[c]);
-  }
-  if (n > 0.)
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&m.x)[c] /= n;
-  else
-    m.x = 1.;
-  gdouble alpha = gfs_plane_alpha (&m, solid->a);
-
-  gdouble h = ftt_cell_size (parent)/2.;
-  guint level = ftt_cell_level (parent) + 1;
-  FttCellChildren child;
-  guint i;
-  ftt_cell_children (parent, &child);
-  for (i = 0; i < FTT_CELLS; i++) {
-    gdouble alpha1 = alpha;
-    FttVector p;
-
-    ftt_cell_relative_pos (child.c[i], &p);
-    for (c = 0; c < FTT_DIMENSION; c++)
-      alpha1 -= (&m.x)[c]*(0.25 + (&p.x)[c]);
-
-    if (GFS_STATE (child.c[i])->solid) {
-      g_free (GFS_STATE (child.c[i])->solid);
-      GFS_STATE (child.c[i])->solid = NULL;
-    }
-
-    gdouble a = gfs_plane_volume (&m, 2.*alpha1);
-    if (a > 0. && a < 1.) {
-      GfsSolidVector * s = GFS_STATE (child.c[i])->solid = g_malloc (sizeof (GfsSolidVector));
-      s->a = a;
-
-      ftt_cell_pos (child.c[i], &p);
-      gfs_plane_center (&m, 2.*alpha1, a, &s->cm);
-      gfs_plane_area_center (&m, 2.*alpha1, &s->ca);
-      for (c = 0; c < FTT_DIMENSION; c++) {
-	(&s->cm.x)[c] = (&p.x)[c] + h*((&s->cm.x)[c] - 0.5);
-	(&s->ca.x)[c] = (&p.x)[c] + h*((&s->ca.x)[c] - 0.5);
-      }
-
-      FttDirection d;
-      FttCellNeighbors n;
-      ftt_cell_neighbors (child.c[i], &n);
-      for (d = 0; d < FTT_NEIGHBORS; d++)
-	if (!n.c[d])
-	  s->s[d] = 0.;
-	else if (GFS_IS_MIXED (n.c[d]) && ftt_cell_level (n.c[d]) == level)
-	  s->s[d] = GFS_STATE (n.c[d])->solid->s[FTT_OPPOSITE_DIRECTION (d)];
-	else if (!ftt_cell_neighbor_is_brother (child.c[i], d) && GFS_IS_FLUID (n.c[d]))
-	  s->s[d] = 1.;
-	else {
-#if FTT_2D
-	  gdouble f;
-	  FttComponent c1 = d > 1, c2 = !c1;
-
-	  if ((&m.x)[c2] == 0.) f = 0.;
-	  else {
-	    f = (2.*alpha1 - (&m.x)[c1]*!(d % 2))/(&m.x)[c2];
-	    if (f < 0.) f = 0.; else if (f > 1.) f = 1.;
-	    if ((&m.x)[c2] < 0.)
-	      f = 1. - f;
-	  }
-	  s->s[d] = f;
-#else /* 3D */
-	  /* only initialises "inner" fractions */
-	  if (ftt_cell_neighbor_is_brother (child.c[i], d)) {
-	    FttComponent c1 = (d/2 + 1) % 3, c2 = (d/2 + 2) % 3;
-	    FttVector mp;
-	    mp.x = (&m.x)[c1]; 
-	    mp.y = (&m.x)[c2];
-	    s->s[d] = gfs_line_area (&mp, d % 2 ? 2.*alpha1 : 2.*alpha1 - (&m.x)[d/2]);
-	  }
-#endif /* 3D */
-	}
-    }
-    else if (a == 0.)
-      ftt_cell_destroy (child.c[i], (FttCellCleanupFunc) gfs_cell_cleanup, domain);
-  }
-
-#if !FTT_2D
-  FttCellNeighbors neighbor;
-  FttDirection d;
-  ftt_cell_neighbors (parent, &neighbor);
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (neighbor.c[d] && FTT_CELL_IS_LEAF (neighbor.c[d]) && !GFS_IS_FLUID (neighbor.c[d]))
-      outer_fractions_coarse_fine (parent, d);
-#endif /* 3D */
-}
-
-/* GfsSolid: Object */
-
-static void gfs_solid_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_solid_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  gfs_generic_surface_read (GFS_SOLID (*o)->s, gfs_object_simulation (*o), fp);
-}
-
-static void gfs_solid_write (GtsObject * o, FILE * fp)
-{
-  GfsSimulation * sim = gfs_object_simulation (o);
-  if (sim->output_solid) {
-    (* GTS_OBJECT_CLASS (gfs_solid_class ())->parent_class->write) (o, fp);
-    gfs_generic_surface_write (GFS_SOLID (o)->s, sim, fp);
-  }
-}
-
-static void gfs_solid_destroy (GtsObject * object)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_SOLID (object)->s));
-
-  (* GTS_OBJECT_CLASS (gfs_solid_class ())->parent_class->destroy) (object);
-}
-
-static void gfs_solid_class_init (GtsObjectClass * klass)
-{
-  klass->read = gfs_solid_read;
-  klass->write = gfs_solid_write;
-  klass->destroy = gfs_solid_destroy;
-}
-
-static void gfs_solid_init (GfsSolid * object)
-{
-  object->s = GFS_GENERIC_SURFACE (gts_object_new (GTS_OBJECT_CLASS (gfs_surface_class ())));
-  GFS_EVENT (object)->istep = G_MAXINT/2;
-}
-
-GfsEventClass * gfs_solid_class (void)
-{
-  static GfsEventClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_solid_info = {
-      "GfsSolid",
-      sizeof (GfsSolid),
-      sizeof (GfsEventClass),
-      (GtsObjectClassInitFunc) gfs_solid_class_init,
-      (GtsObjectInitFunc) gfs_solid_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_solid_info);
-  }
-
-  return klass;
-}
diff --git a/src/solid.h b/src/solid.h
deleted file mode 100644
index 6d47875..0000000
--- a/src/solid.h
+++ /dev/null
@@ -1,95 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __SOLID_H__
-#define __SOLID_H__
-
-#include <gts.h>
-
-#include "domain.h"
-#include "event.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-enum {
-  GFS_STATUS_UNDEFINED = 0,
-  GFS_STATUS_SOLID     = 1,
-  GFS_STATUS_FLUID     = 2
-};
-
-void         gfs_cell_fluid                              (FttCell * cell);
-gboolean     gfs_solid_is_thin                           (FttCell * cell, 
-							  GfsGenericSurface * s);
-gboolean     gfs_set_2D_solid_fractions_from_surface     (FttCell * cell,
-							  GfsGenericSurface * s);
-guint        gfs_init_solid_fractions_leaves             (GfsDomain * domain,
-							  GSList * i,
-							  GfsVariable * status);
-void         gfs_init_solid_fractions_from_children      (GfsDomain * domain,
-							  gboolean destroy_solid,
-							  FttCellCleanupFunc cleanup,
-							  gpointer data,
-							  GfsVariable * status);
-guint        gfs_domain_init_solid_fractions             (GfsDomain * domain,
-							  GSList * i,
-							  gboolean destroy_solid,
-							  FttCellCleanupFunc cleanup,
-							  gpointer data,
-							  GfsVariable * status);
-void         gfs_cell_init_solid_fractions_from_children (FttCell * cell);
-gboolean     gfs_cell_check_solid_fractions              (FttCell * root);
-void         gfs_domain_init_fraction                    (GfsDomain * domain,
-							  GfsGenericSurface * s,
-							  GfsVariable * c);
-void         gfs_cell_cm                                 (const FttCell * cell, 
-							  FttVector * cm);
-void         gfs_solid_normal                            (const FttCell * cell,
-							  FttVector * n);
-void         gfs_face_ca                                 (const FttCellFace * face, 
-							  FttVector * ca);
-void         gfs_solid_coarse_fine                       (FttCell * parent,
-							  GfsDomain * domain);
-
-/* GfsSolid: Header */
-
-typedef struct _GfsSolid         GfsSolid;
-
-struct _GfsSolid {
-  /*< private >*/
-  GfsEvent parent;
-
-  /*< public >*/
-  GfsGenericSurface * s;
-};
-
-#define GFS_SOLID(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSolid,\
-					         gfs_solid_class ())
-#define GFS_IS_SOLID(obj)         (gts_object_is_from_class (obj,\
-						 gfs_solid_class ()))
-
-GfsEventClass * gfs_solid_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __SOLID_H__ */
diff --git a/src/source.c b/src/source.c
deleted file mode 100644
index 358bbf3..0000000
--- a/src/source.c
+++ /dev/null
@@ -1,1634 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <math.h>
-#include "source.h"
-#include "simulation.h"
-#include "solid.h"
-
-/**
- * gfs_variable_mac_source:
- * @v: a #GfsVariable.
- * @cell: a #FttCell.
- *
- * Returns: the sum of all the sources for variable @v in @cell.
- */
-gdouble gfs_variable_mac_source (GfsVariable * v, FttCell * cell)
-{
-  gdouble sum;
-  GSList * i;
-
-  g_return_val_if_fail (v != NULL, 0.);
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  if (v->sources == NULL)
-    return 0.;
-
-  sum = 0.;
-  i = GTS_SLIST_CONTAINER (v->sources)->items;
-  while (i) {
-    GfsSourceGeneric * s = i->data;
-
-    if (s->mac_value)
-      sum += (* s->mac_value) (s, cell, v);
-    i = i->next;
-  }
-  return sum;
-}
-
-typedef struct {
-  GfsVariable * v, * sv;
-  gdouble dt;
-} SourcePar;
-
-static void add_sources (FttCell * cell, SourcePar * p)
-{
-  GSList * i = GTS_SLIST_CONTAINER (p->v->sources)->items;
-  gdouble sum = 0;
-  
-  while (i) {
-    GfsSourceGeneric * s = i->data;
-
-    if (s->centered_value)
-      sum += (* s->centered_value) (s, cell, p->v);
-    i = i->next;
-  }
-  GFS_VALUE (cell, p->sv) += p->dt*sum;
-}
-
-/**
- * gfs_domain_variable_centered_sources:
- * @domain: a #GfsDomain.
- * @v: a #GfsVariable.
- * @sv: a #GfsVariable.
- * @dt: the timestep.
- *
- * Adds the source terms for @v to @sv.
- */
-void gfs_domain_variable_centered_sources (GfsDomain * domain, 
-					   GfsVariable * v,
-					   GfsVariable * sv,
-					   gdouble dt)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (v != NULL);
-  g_return_if_fail (sv != NULL);
-
-  if (v->sources) {
-    SourcePar p;
-    p.v = v;
-    p.sv = sv;
-    p.dt = dt;
-    gfs_domain_cell_traverse (domain, 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) add_sources, &p);
-  }
-}
-
-/**
- * gfs_domain_variable_fluxes:
- * @domain: a #GfsDomain.
- * @v: a #GfsVariable.
- * @dt: the timestep.
- *
- * Returns: a new temporary variable containing the fluxes or %NULL.
- */
-GfsVariable * gfs_domain_variable_fluxes (GfsDomain * domain,
-					  GfsVariable * v,
-					  gdouble dt)
-{
-  GfsVariable * sv = NULL;
-
-  g_return_val_if_fail (domain != NULL, NULL);
-  g_return_val_if_fail (v != NULL, NULL);
-
-  if (!v->sources)
-    return NULL;
-
-  GSList * i = GTS_SLIST_CONTAINER (v->sources)->items;
-  while (i) {
-    if (GFS_SOURCE_GENERIC (i->data)->flux) {
-      if (sv == NULL) {
-	sv = gfs_temporary_variable (domain);
-	gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) gfs_cell_reset, sv);
-      }
-      (* GFS_SOURCE_GENERIC (i->data)->flux) (i->data, domain, v, sv, dt);
-    }
-    i = i->next;
-  }
-  return sv;
-}
-
-/* GfsSourceGeneric: Object */
-
-static void source_generic_init (GfsSourceGeneric * s)
-{
-  GFS_EVENT (s)->istep = 1;
-}
-
-GfsSourceGenericClass * gfs_source_generic_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_generic_info = {
-      "GfsSourceGeneric",
-      sizeof (GfsSourceGeneric),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) source_generic_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &gfs_source_generic_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_source_find:
- * @v: a #GfsVariable.
- * @klass: a #GfsSourceGenericClass.
- *
- * Returns: the first source of @v descendant of @klass, or %NULL if
- * none was found.
- */
-GfsSourceGeneric * gfs_source_find (GfsVariable * v, GfsSourceGenericClass * klass)
-{
-  g_return_val_if_fail (v != NULL, NULL);
-  g_return_val_if_fail (klass != NULL, NULL);
-
-  if (v->sources) {
-    GSList * i = GTS_SLIST_CONTAINER (v->sources)->items;
-    
-    while (i) {
-      GtsObject * o = i->data;
-      
-      if (gts_object_is_from_class (o, klass))
-        return GFS_SOURCE_GENERIC (o);
-      i = i->next;
-    }
-  }
-  return NULL;
-}
-
-/* GfsSourceScalar: Object */
-
-static void source_scalar_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_source_scalar_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_source_scalar_class ())->parent_class->write) 
-      (o, fp);
-
-  g_assert (GFS_SOURCE_SCALAR (o)->v);
-  fprintf (fp, " %s", GFS_SOURCE_SCALAR (o)->v->name);
-}
-
-static void source_scalar_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSourceScalar * source;
-  GfsDomain * domain;
-
-  if (GTS_OBJECT_CLASS (gfs_source_scalar_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_source_scalar_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  source = GFS_SOURCE_SCALAR (*o);
-  domain =  GFS_DOMAIN (gfs_object_simulation (source));
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (GfsVariable)");
-    return;
-  }
-  source->v = gfs_variable_from_name (domain->variables, 
-				      fp->token->str);
-  if (source->v == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  if (source->v->sources == NULL)
-    source->v->sources = 
-      gts_container_new (GTS_CONTAINER_CLASS (gts_slist_container_class ()));
-  gts_container_add (source->v->sources, GTS_CONTAINEE (source));
-  
-  gts_file_next_token (fp);
-}
-
-static void source_scalar_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read =  source_scalar_read;
-  GTS_OBJECT_CLASS (klass)->write = source_scalar_write;
-}
-
-GfsSourceGenericClass * gfs_source_scalar_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_scalar_info = {
-      "GfsSourceScalar",
-      sizeof (GfsSourceScalar),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_scalar_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_generic_class ()),
-				  &gfs_source_scalar_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceVelocity: Object */
-
-static void source_velocity_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSourceVelocity * source;
-  GfsDomain * domain;
-  FttComponent c;
-
-  if (GTS_OBJECT_CLASS (gfs_source_velocity_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_source_velocity_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  source = GFS_SOURCE_VELOCITY (*o);
-  domain =  GFS_DOMAIN (gfs_object_simulation (source));
-  if (!(source->v = gfs_domain_velocity (domain))) {
-    gts_file_error (fp, "cannot find velocity components");
-    return;
-  }
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    if (source->v[c]->sources == NULL)
-      source->v[c]->sources = 
-	gts_container_new (GTS_CONTAINER_CLASS (gts_slist_container_class ()));
-    gts_container_add (source->v[c]->sources, GTS_CONTAINEE (source));
-  }
-}
-
-static void source_velocity_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read =  source_velocity_read;
-}
-
-GfsSourceGenericClass * gfs_source_velocity_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo source_info = {
-      "GfsSourceGeneric",
-      sizeof (GfsSourceVelocity),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_velocity_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_generic_class ()),
-				  &source_info);
-  }
-
-  return klass;
-}
-
-/* GfsSource: Object */
-
-static void source_destroy (GtsObject * o)
-{
-  if (GFS_SOURCE (o)->intensity)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE (o)->intensity));
-
-  (* GTS_OBJECT_CLASS (gfs_source_class ())->parent_class->destroy) (o);
-}
-
-static gdouble source_face_value (GfsSourceGeneric * s, 
-				  FttCellFace * face, 
-				  GfsVariable * v)
-{
-  return gfs_function_face_value (GFS_SOURCE (s)->intensity, face);
-}
-
-static void source_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_source_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_source_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GFS_SOURCE (*o)->intensity = gfs_function_new (gfs_function_class (), 0.);
-  gfs_function_set_units (GFS_SOURCE (*o)->intensity, GFS_SOURCE_SCALAR (*o)->v->units);
-  gfs_function_read (GFS_SOURCE (*o)->intensity, gfs_object_simulation (*o), fp);
-  if (fp->type != GTS_ERROR) {
-    GfsSourceGeneric * s = GFS_SOURCE_GENERIC (*o);
-    gchar * name = GFS_SOURCE_SCALAR (s)->v->name;
-    if (!strcmp (name, "U") || !strcmp (name, "V") || !strcmp (name, "W")) {
-      s->mac_value = s->centered_value = NULL;
-      s->face_value = source_face_value;
-    }
-  }
-}
-
-static void source_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_source_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_source_class ())->parent_class->write) 
-      (o, fp);
-  gfs_function_write (GFS_SOURCE (o)->intensity, fp);
-}
-
-static void source_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = source_destroy;
-  GTS_OBJECT_CLASS (klass)->read = source_read;
-  GTS_OBJECT_CLASS (klass)->write = source_write;
-}
-
-static gdouble source_value (GfsSourceGeneric * s, 
-			     FttCell * cell, 
-			     GfsVariable * v)
-{
-  return gfs_function_value (GFS_SOURCE (s)->intensity, cell);
-}
-
-static void source_init (GfsSourceGeneric * s)
-{
-  s->mac_value = s->centered_value = source_value;
-}
-
-GfsSourceGenericClass * gfs_source_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo source_info = {
-      "GfsSource",
-      sizeof (GfsSource),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_class_init,
-      (GtsObjectInitFunc) source_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_scalar_class ()),
-				  &source_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceControl: Object */
-
-static void source_control_destroy (GtsObject * o)
-{
-  if (GFS_SOURCE_CONTROL (o)->intensity)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE_CONTROL (o)->intensity));
-
-  (* GTS_OBJECT_CLASS (gfs_source_control_class ())->parent_class->destroy) (o);
-}
-
-static void source_control_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_control_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GFS_SOURCE_CONTROL (*o)->intensity = gfs_function_new (gfs_function_class (), 0.);
-  gfs_function_set_units (GFS_SOURCE_CONTROL (*o)->intensity, GFS_SOURCE_SCALAR (*o)->v->units);
-  gfs_function_read (GFS_SOURCE_CONTROL (*o)->intensity, gfs_object_simulation (*o), fp);
-}
-
-static void source_control_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_control_class ())->parent_class->write) (o, fp);
-  gfs_function_write (GFS_SOURCE_CONTROL (o)->intensity, fp);
-}
-
-typedef struct {
-  GfsVariable * v;
-  gdouble s, sv;
-} Sum;
-
-static void sum (FttCell * cell, Sum * s)
-{
-  gdouble vol = gfs_cell_volume (cell, s->v->domain);
-  s->s += vol*GFS_VALUE (cell, s->v);
-  s->sv += vol;
-}
-
-static gboolean source_control_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* gfs_event_class ()->event) (event, sim)) {
-    GfsSourceControl * s = GFS_SOURCE_CONTROL (event);
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    Sum su = { GFS_SOURCE_SCALAR (event)->v, 0., 0. };
-    gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) sum, &su);
-    gfs_all_reduce (domain, su.s, MPI_DOUBLE, MPI_SUM);
-    gfs_all_reduce (domain, su.sv, MPI_DOUBLE, MPI_SUM);
-    s->s = sim->advection_params.dt > 0. && su.sv > 0. ? 
-      (gfs_function_value (s->intensity, NULL) - su.s/su.sv)/sim->advection_params.dt: 0.;
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void source_control_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = source_control_read;
-  GTS_OBJECT_CLASS (klass)->write = source_control_write;
-  GTS_OBJECT_CLASS (klass)->destroy = source_control_destroy;
-  GFS_EVENT_CLASS (klass)->event = source_control_event;
-}
-
-static gdouble source_control_value (GfsSourceGeneric * s, 
-				     FttCell * cell, 
-				     GfsVariable * v)
-{
-  return GFS_SOURCE_CONTROL (s)->s;
-}
-
-static void source_control_init (GfsSourceGeneric * s)
-{
-  s->mac_value = s->centered_value = source_control_value;
-}
-
-GfsSourceGenericClass * gfs_source_control_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo source_control_info = {
-      "GfsSourceControl",
-      sizeof (GfsSourceControl),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_control_class_init,
-      (GtsObjectInitFunc) source_control_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_scalar_class ()),
-				  &source_control_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceControlField: Object */
-
-static void source_control_field_destroy (GtsObject * o)
-{
-  if (GFS_SOURCE_CONTROL_FIELD (o)->s)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE_CONTROL_FIELD (o)->s));
-
-  (* GTS_OBJECT_CLASS (gfs_source_control_field_class ())->parent_class->destroy) (o);
-}
-
-static void source_control_field_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_control_field_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_INT) {
-    gts_file_error (fp, "expecting an integer (level)");
-    return;
-  }
-  GFS_SOURCE_CONTROL_FIELD (*o)->level = atoi (fp->token->str);
-  gts_file_next_token (fp);
-
-  GFS_SOURCE_CONTROL_FIELD (*o)->s = 
-    gfs_temporary_variable (GFS_DOMAIN (gfs_object_simulation (*o)));
-}
-
-static void source_control_field_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_control_field_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %d", GFS_SOURCE_CONTROL_FIELD (o)->level);
-}
-
-static void set_s (FttCell * cell, GfsSourceControlField * f)
-{
-  GFS_VALUE (cell, f->s) = GFS_SOURCE_CONTROL (f)->s;
-}
-
-static void source_control_field_root (FttCell * root, GfsSourceControlField * f)
-{
-  Sum su = { GFS_SOURCE_SCALAR (f)->v, 0., 0. };
-  ftt_cell_traverse (root, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		     (FttCellTraverseFunc) sum, &su);
-  gdouble dt = gfs_object_simulation (f)->advection_params.dt;
-  GFS_SOURCE_CONTROL (f)->s = dt > 0. && su.sv > 0. ? 
-    (gfs_function_value (GFS_SOURCE_CONTROL (f)->intensity, root) - su.s/su.sv)/dt: 0.;
-  ftt_cell_traverse (root, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		     (FttCellTraverseFunc) set_s, f);
-}
-
-static gboolean source_control_field_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* gfs_event_class ()->event) (event, sim)) {
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, 
-			      FTT_TRAVERSE_LEVEL | FTT_TRAVERSE_LEAFS, 
-			      GFS_SOURCE_CONTROL_FIELD (event)->level,
-			      (FttCellTraverseFunc) source_control_field_root, event);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void source_control_field_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = source_control_field_destroy;
-  GTS_OBJECT_CLASS (klass)->read = source_control_field_read;
-  GTS_OBJECT_CLASS (klass)->write = source_control_field_write;
-  GFS_EVENT_CLASS (klass)->event = source_control_field_event;
-}
-
-static gdouble source_control_field_value (GfsSourceGeneric * s, 
-					   FttCell * cell, 
-					   GfsVariable * v)
-{
-  return GFS_VALUE (cell, GFS_SOURCE_CONTROL_FIELD (s)->s);
-}
-
-static void source_control_field_init (GfsSourceGeneric * s)
-{
-  s->mac_value = s->centered_value = source_control_field_value;
-}
-
-GfsSourceGenericClass * gfs_source_control_field_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo source_control_field_info = {
-      "GfsSourceControlField",
-      sizeof (GfsSourceControlField),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_control_field_class_init,
-      (GtsObjectInitFunc) source_control_field_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_control_class ()),
-				  &source_control_field_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceFlux: Object */
-
-static void source_flux_destroy (GtsObject * o)
-{
-  if (GFS_SOURCE_FLUX (o)->intensity)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE_FLUX (o)->intensity));
-  if (GFS_SOURCE_FLUX (o)->fraction)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE_FLUX (o)->fraction));
-
-  (* GTS_OBJECT_CLASS (gfs_source_flux_class ())->parent_class->destroy) (o);
-}
-
-static void source_flux_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_flux_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsSourceFlux * f = GFS_SOURCE_FLUX (*o);
-  f->intensity = gfs_function_new (gfs_function_class (), 0.);
-  gfs_function_set_units (f->intensity, GFS_SOURCE_SCALAR (f)->v->units + FTT_DIMENSION);
-  gfs_function_read (f->intensity, gfs_object_simulation (f), fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  f->fraction = gfs_function_new (gfs_function_class (), 0.);
-  gfs_function_read (f->fraction, gfs_object_simulation (f), fp);
-}
-
-static void source_flux_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_flux_class ())->parent_class->write) (o, fp);
-  gfs_function_write (GFS_SOURCE_FLUX (o)->intensity, fp);
-  gfs_function_write (GFS_SOURCE_FLUX (o)->fraction, fp);
-}
-
-static void add (FttCell * cell, GfsSourceFlux * s)
-{
-  s->s += gfs_cell_volume (cell, GFS_DOMAIN (gfs_object_simulation (s)))*
-    gfs_function_value (s->fraction, cell);
-}
-
-static gboolean source_flux_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* gfs_event_class ()->event) (event, sim)) {
-    GfsSourceFlux * s = GFS_SOURCE_FLUX (event);
-    s->s = 0.;
-    gfs_domain_traverse_leaves (GFS_DOMAIN (sim), (FttCellTraverseFunc) add, s);
-    s->s = s->s > 0. ? gfs_function_value (s->intensity, NULL)/s->s : 0.;
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void source_flux_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = source_flux_read;
-  GTS_OBJECT_CLASS (klass)->write = source_flux_write;
-  GTS_OBJECT_CLASS (klass)->destroy = source_flux_destroy;
-  GFS_EVENT_CLASS (klass)->event = source_flux_event;
-}
-
-static gdouble source_flux_value (GfsSourceGeneric * s, 
-				  FttCell * cell, 
-				  GfsVariable * v)
-{
-  return GFS_SOURCE_FLUX (s)->s*gfs_function_value (GFS_SOURCE_FLUX (s)->fraction, cell);
-}
-
-static void source_flux_init (GfsSourceGeneric * s)
-{
-  s->mac_value = s->centered_value = source_flux_value;
-}
-
-GfsSourceGenericClass * gfs_source_flux_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo source_flux_info = {
-      "GfsSourceFlux",
-      sizeof (GfsSourceFlux),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_flux_class_init,
-      (GtsObjectInitFunc) source_flux_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_scalar_class ()),
-				  &source_flux_info);
-  }
-
-  return klass;
-}
-
-/* GfsDiffusion: Object */
-
-static void diffusion_destroy (GtsObject * o)
-{
-  GfsDiffusion * d = GFS_DIFFUSION (o);
-
-  if (d->mu && d->mu != gfs_function_get_variable (d->val))
-    gts_object_destroy (GTS_OBJECT (d->mu));
-  gts_object_destroy (GTS_OBJECT (d->val));
-
-  (* GTS_OBJECT_CLASS (gfs_diffusion_class ())->parent_class->destroy) (o);
-}
-
-static void diffusion_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDiffusion * d = GFS_DIFFUSION (*o);
-
-  gfs_function_read (d->val, gfs_object_simulation (*o), fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  gfs_function_set_units (d->val, 2.);
-
-  if (fp->type == '{') {
-    gfs_multilevel_params_read (&d->par, fp);
-    if (fp->type == GTS_ERROR)
-    return;
-  }
-}
-
-static void diffusion_write (GtsObject * o, FILE * fp)
-{
-  gfs_function_write (GFS_DIFFUSION (o)->val, fp);
-  fputc (' ', fp);
-  gfs_multilevel_params_write (&GFS_DIFFUSION (o)->par, fp);
-}
-
-static void update_mu (FttCell * cell, GfsDiffusion * d)
-{
-  GFS_VARIABLE (cell, d->mu->i) = gfs_function_value (d->val, cell);
-}
-
-static gboolean diffusion_event (GfsEvent * event, GfsSimulation * sim)
-{
-  GfsDiffusion * d = GFS_DIFFUSION (event);
-
-  if (gfs_function_get_constant_value (d->val) == G_MAXDOUBLE) {
-    if (d->mu == NULL && (d->mu = gfs_function_get_variable (d->val)) == NULL)
-      d->mu = gfs_temporary_variable (GFS_DOMAIN (sim));
-    if (d->mu != gfs_function_get_variable (d->val))
-      gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) update_mu, event);
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_get_from_below_intensive, d->mu);
-    gfs_domain_bc (GFS_DOMAIN (sim), FTT_TRAVERSE_ALL, -1, d->mu);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static gdouble diffusion_face (GfsDiffusion * d, FttCellFace * f)
-{
-  if (d->mu) return gfs_face_interpolated_value (f, d->mu->i);
-  gdouble val = gfs_function_get_constant_value (d->val);
-  return val < G_MAXDOUBLE ? val : 0.;
-}
-
-static gdouble diffusion_cell (GfsDiffusion * d, FttCell * cell)
-{
-  if (d->mu) return GFS_VARIABLE (cell, d->mu->i);
-  gdouble val = gfs_function_get_constant_value (d->val);
-  return val < G_MAXDOUBLE ? val : 0.;
-}
-
-static void diffusion_class_init (GfsDiffusionClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = diffusion_destroy;
-  GTS_OBJECT_CLASS (klass)->read = diffusion_read;
-  GTS_OBJECT_CLASS (klass)->write = diffusion_write;
-  GFS_EVENT_CLASS (klass)->event = diffusion_event;
-  klass->face = diffusion_face;
-  klass->cell = diffusion_cell;
-}
-
-static void diffusion_init (GfsDiffusion * d)
-{
-  gfs_multilevel_params_init (&d->par);
-  d->par.tolerance = 1e-6;
-  d->val = gfs_function_new (gfs_function_class (), 0.);
-  d->mu = NULL;
-}
-
-GfsDiffusionClass * gfs_diffusion_class (void)
-{
-  static GfsDiffusionClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo diffusion_info = {
-      "GfsDiffusion",
-      sizeof (GfsDiffusion),
-      sizeof (GfsDiffusionClass),
-      (GtsObjectClassInitFunc) diffusion_class_init,
-      (GtsObjectInitFunc) diffusion_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()),
-				  &diffusion_info);
-  }
-
-  return klass;
-}
-
-gdouble gfs_diffusion_face (GfsDiffusion * d, FttCellFace * f)
-{
-  return (* GFS_DIFFUSION_CLASS (GTS_OBJECT (d)->klass)->face) (d, f);
-}
-
-gdouble gfs_diffusion_cell (GfsDiffusion * d, FttCell * cell)
-{
-  return (* GFS_DIFFUSION_CLASS (GTS_OBJECT (d)->klass)->cell) (d, cell);
-}
-
-/* GfsSourceDiffusion: Object */
-
-static void source_diffusion_destroy (GtsObject * o)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_SOURCE_DIFFUSION (o)->D));
-
-  (* GTS_OBJECT_CLASS (gfs_source_diffusion_class ())->parent_class->destroy) (o);
-}
-
-static GfsSourceDiffusion * previous_diffusion_source (GfsVariable * v,
-						       GfsSourceDiffusion * d)
-{
-  GSList * i;
-
-  i = GTS_SLIST_CONTAINER (v->sources)->items;
-  while (i) {
-    if (i->data != d && GFS_IS_SOURCE_DIFFUSION (i->data))
-      return i->data;
-    i = i->next;
-  }
-  return NULL;
-}
-
-static void source_diffusion_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSourceDiffusion * d;
-
-  if (GTS_OBJECT_CLASS (gfs_source_diffusion_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_source_diffusion_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  d = GFS_SOURCE_DIFFUSION (*o);
-  if (previous_diffusion_source (GFS_SOURCE_SCALAR (d)->v, d)) {
-    gts_file_error (fp, "only one diffusion source can be specified");
-    return;
-  }
-
-  gfs_object_simulation_set (d->D, gfs_object_simulation (d));
-  (* GTS_OBJECT (d->D)->klass->read) ((GtsObject **) &d->D, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (GFS_SOURCE_SCALAR (d)->v->component < FTT_DIMENSION &&
-      gfs_function_get_constant_value (d->D->val) == G_MAXDOUBLE)
-      g_warning ("%d:%d: Terms may be missing when using variable diffusion\n"
-		 "on vector quantities",
-		 fp->line, fp->pos);
-}
-
-static void source_diffusion_write (GtsObject * o, FILE * fp)
-{
-  GfsSourceDiffusion * d = GFS_SOURCE_DIFFUSION (o);
-
-  (* GTS_OBJECT_CLASS (gfs_source_diffusion_class ())->parent_class->write) (o, fp);
-  (* GTS_OBJECT (d->D)->klass->write) (GTS_OBJECT (d->D), fp);
-}
-
-static gboolean source_diffusion_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* gfs_event_class ()->event) (event, sim)) {
-    GfsSourceDiffusion * d = GFS_SOURCE_DIFFUSION (event);
-
-    if ((* GFS_EVENT_CLASS (GTS_OBJECT (d->D)->klass)->event))
-      (* GFS_EVENT_CLASS (GTS_OBJECT (d->D)->klass)->event) (GFS_EVENT (d->D), sim);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static gdouble source_diffusion_value (GfsSourceGeneric * s, 
-				       FttCell * cell,
-				       GfsVariable * v)
-{
-  FttCellFace f;
-  FttCellNeighbors n;
-  GfsGradient g = { 0., 0. };
-  gdouble v0, h;
-
-  if (GFS_IS_MIXED (cell)) /* this improves results for channel test */
-    return 0.;
-
-  v0 = GFS_VARIABLE (cell, v->i);
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &n);
-  for (f.d = 0; f.d < FTT_NEIGHBORS; f.d++) {
-    gdouble D;
-
-    f.neighbor = n.c[f.d];
-    D = gfs_source_diffusion_face (GFS_SOURCE_DIFFUSION (s), &f);
-    if (f.neighbor) {
-      GfsGradient e;
-
-      gfs_face_gradient (&f, &e, v->i, -1);
-      g.a += D*e.a;
-      g.b += D*e.b;
-    }
-    else if (f.d/2 == v->component) {
-      g.a += D;
-      g.b -= D*v0;
-    }
-  }
-  h = ftt_cell_size (cell);
-
-  GfsFunction * alpha = v->component < FTT_DIMENSION ? 
-    gfs_object_simulation (s)->physical_params.alpha : NULL;
-  return (alpha ? gfs_function_value (alpha, cell) : 1.)*(g.b - g.a*v0)/(h*h);
-}
-
-static void source_diffusion_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = source_diffusion_destroy;
-  GTS_OBJECT_CLASS (klass)->read = source_diffusion_read;
-  GTS_OBJECT_CLASS (klass)->write = source_diffusion_write;
-
-  GFS_EVENT_CLASS (klass)->event = source_diffusion_event;
-}
-
-static void source_diffusion_init (GfsSourceDiffusion * d)
-{
-  d->D = GFS_DIFFUSION (gts_object_new (GTS_OBJECT_CLASS (gfs_diffusion_class ())));
-  GFS_SOURCE_GENERIC (d)->mac_value = source_diffusion_value;
-}
-
-GfsSourceGenericClass * gfs_source_diffusion_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo source_diffusion_info = {
-      "GfsSourceDiffusion",
-      sizeof (GfsSourceDiffusion),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_diffusion_class_init,
-      (GtsObjectInitFunc) source_diffusion_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_scalar_class ()),
-				  &source_diffusion_info);
-  }
-
-  return klass;
-}
-
-gdouble gfs_source_diffusion_face (GfsSourceDiffusion * d, FttCellFace * f)
-{
-  g_return_val_if_fail (d != NULL, 0.);
-  g_return_val_if_fail (f != NULL, 0.);
-
-  return gfs_diffusion_face (d->D, f);
-}
-
-gdouble gfs_source_diffusion_cell (GfsSourceDiffusion * d, FttCell * cell)
-{
-  g_return_val_if_fail (d != NULL, 0.);
-  g_return_val_if_fail (cell != NULL, 0.);
-
-  return gfs_diffusion_cell (d->D, cell);
-}
-
-/* GfsSourceDiffusionExplicit: Object */
-
-static void explicit_diffusion (FttCell * cell, GfsSourceGeneric * s)
-{
-  GFS_VARIABLE (cell, GFS_SOURCE_DIFFUSION_EXPLICIT (s)->s->i) = 
-    source_diffusion_value (s, cell, GFS_SOURCE_SCALAR (s)->v);
-}
-
-static gboolean gfs_source_diffusion_explicit_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_source_diffusion_explicit_class ())->parent_class)->event) (event, sim)) {
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) explicit_diffusion, event);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_source_diffusion_explicit_read (GtsObject ** o, GtsFile * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_source_diffusion_explicit_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_source_diffusion_explicit_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GFS_SOURCE_DIFFUSION_EXPLICIT (*o)->s = 
-    gfs_temporary_variable (GFS_DOMAIN (gfs_object_simulation (*o)));
-}
-
-static void gfs_source_diffusion_explicit_destroy (GtsObject * o)
-{
-  if (GFS_SOURCE_DIFFUSION_EXPLICIT (o)->s)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE_DIFFUSION_EXPLICIT (o)->s));
-
-  (* GTS_OBJECT_CLASS (gfs_source_diffusion_explicit_class ())->parent_class->destroy) (o);
-}
-
-static gdouble source_diffusion_explicit_value (GfsSourceGeneric * s, 
-					     FttCell * cell,
-					     GfsVariable * v)
-{
-  return GFS_VARIABLE (cell, GFS_SOURCE_DIFFUSION_EXPLICIT (s)->s->i);
-}
-
-typedef struct {
-  GfsFunction * alpha;
-  GfsSourceGeneric * s;
-  gdouble dtmax;
-} StabilityParams;
-
-static void cell_diffusion_stability (FttCell * cell,
-				      StabilityParams * par)
-{
-  if (GFS_IS_MIXED (cell))
-    return;
-
-  FttCellFace f;
-  FttCellNeighbors n;
-  gdouble Dmax = 0.;
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &n);
-  for (f.d = 0; f.d < FTT_NEIGHBORS; f.d++) {
-    gdouble D;
-
-    f.neighbor = n.c[f.d];
-    D = gfs_source_diffusion_face (GFS_SOURCE_DIFFUSION (par->s), &f);
-    if (D > Dmax)
-      Dmax = D;
-  }
-
-  gdouble h = ftt_cell_size (cell);
-  if (Dmax > 0.) {
-    gdouble dtmax = h*h/(Dmax*(par->alpha ? gfs_function_value (par->alpha, cell) : 1.));
-    if (dtmax < par->dtmax)
-      par->dtmax = dtmax;
-  }
-}
-
-static gdouble source_diffusion_stability (GfsSourceGeneric * s,
-					   GfsSimulation * sim)
-{
-  StabilityParams par;
-
-  par.s = s;
-  par.dtmax = G_MAXDOUBLE;
-  par.alpha = NULL;
-  gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) cell_diffusion_stability, &par);
-  return par.dtmax;
-}
-
-static void gfs_source_diffusion_explicit_class_init (GfsSourceGenericClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_source_diffusion_explicit_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_source_diffusion_explicit_read;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_source_diffusion_explicit_destroy;
-  klass->stability = source_diffusion_stability;
-}
-
-static void gfs_source_diffusion_explicit_init (GfsSourceGeneric * s)
-{
-  s->mac_value = s->centered_value = source_diffusion_explicit_value;
-}
-
-GfsSourceGenericClass * gfs_source_diffusion_explicit_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_diffusion_explicit_info = {
-      "GfsSourceDiffusionExplicit",
-      sizeof (GfsSourceDiffusionExplicit),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) gfs_source_diffusion_explicit_class_init,
-      (GtsObjectInitFunc) gfs_source_diffusion_explicit_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_diffusion_class ()),
-				  &gfs_source_diffusion_explicit_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceViscosity: Object */
-
-typedef struct {
-  GfsSourceGeneric * s;
-  GfsVariable * v, * sv, * tv;
-  gdouble dt;
-} FluxPar;
-
-static void add_viscosity_transverse_flux (FttCell * cell, FluxPar * p)
-{
-  FttCellFace f;
-  FttCellNeighbors n;
-  gdouble transverse = 0.;
-
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &n);
-#if FTT_2D
-  FttComponent ortho = (p->v->component + 1) % FTT_DIMENSION;
-
-  for (f.d = 2*ortho; f.d <= 2*ortho + 1; f.d++) {
-    f.neighbor = n.c[f.d];
-    transverse += (FTT_FACE_DIRECT (&f) ? 1. : -1.)*
-      gfs_face_weighted_interpolated_value (&f, p->tv->i);
-  }
-#else
-  g_assert_not_implemented ();
-#endif  
-
-  GfsFunction * alpha = gfs_object_simulation (p->s)->physical_params.alpha;
-  gdouble h = ftt_cell_size (cell);
-  GFS_VALUE (cell, p->sv) += (alpha ? gfs_function_value (alpha, cell) : 1.)*transverse/h;
-}
-
-static void compute_transverse (FttCell * cell, FluxPar * p)
-{
-  GfsVariable ** v = GFS_SOURCE_VISCOSITY (p->s)->v;
-  gdouble h = ftt_cell_size (cell);
-  GFS_VALUE (cell, p->tv) = gfs_center_gradient (cell, 
-						 p->v->component, 
-						 v[(p->v->component + 1) % FTT_DIMENSION]->i)/h;
-}
-
-static void source_viscosity_transverse_flux (GfsSourceGeneric * s, 
-					      GfsDomain * domain, 
-					      GfsVariable * v, GfsVariable * sv, 
-					      gdouble dt)
-{
-  FluxPar p;
-
-  gfs_diffusion_coefficients (domain, GFS_SOURCE_DIFFUSION (s), dt, NULL, NULL, NULL, 1.);
-  p.s = s;
-  p.v = v;
-  p.sv = sv;
-  p.dt = dt;
-  p.tv = gfs_temporary_variable (domain);
-  gfs_traverse_and_bc (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		       (FttCellTraverseFunc) compute_transverse, &p,
-		       p.tv, p.tv);
-  gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) add_viscosity_transverse_flux, &p);
-  gts_object_destroy (GTS_OBJECT (p.tv));
-}
-
-static void source_viscosity_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSourceViscosity * source;
-  GfsSourceDiffusion * d;
-  GfsDomain * domain;
-  FttComponent c;
-
-  (* GTS_OBJECT_CLASS (gfs_source_velocity_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  source = GFS_SOURCE_VISCOSITY (*o);
-  domain =  GFS_DOMAIN (gfs_object_simulation (source));
-  if (GFS_IS_AXI (domain) && !GFS_IS_SOURCE_VISCOSITY_EXPLICIT (source)) {
-    GfsSourceGeneric * s = GFS_SOURCE_GENERIC (source);
-    s->mac_value = NULL;
-    s->centered_value = NULL;
-    s->flux = source_viscosity_transverse_flux;
-  }
-  if (!(source->v = gfs_domain_velocity (domain))) {
-    gts_file_error (fp, "cannot find velocity components");
-    return;
-  }
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    if (source->v[c]->sources == NULL)
-      source->v[c]->sources = 
-	gts_container_new (GTS_CONTAINER_CLASS (gts_slist_container_class ()));
-    gts_container_add (source->v[c]->sources, GTS_CONTAINEE (source));
-  }
-
-  d = GFS_SOURCE_DIFFUSION (*o);
-  gfs_object_simulation_set (d->D, gfs_object_simulation (d));
-  (* GTS_OBJECT (d->D)->klass->read) ((GtsObject **) &d->D, fp);
-}
-
-static void source_viscosity_write (GtsObject * o, FILE * fp)
-{
-  GfsSourceDiffusion * d = GFS_SOURCE_DIFFUSION (o);
-
-  (* GTS_OBJECT_CLASS (gfs_source_velocity_class ())->parent_class->write) (o, fp);
-  (* GTS_OBJECT (d->D)->klass->write) (GTS_OBJECT (d->D), fp);
-}
-
-static gdouble source_viscosity_non_diffusion_value (GfsSourceGeneric * s,
-						     FttCell * cell,
-						     GfsVariable * v)
-{
-  GfsVariable * mu = GFS_SOURCE_DIFFUSION (s)->D->mu;
-
-  if (mu == NULL)
-    return 0.;
-  else {
-    GfsVariable ** u = GFS_SOURCE_VISCOSITY (s)->v;
-    FttComponent c = v->component, j;
-    GfsFunction * alpha = gfs_object_simulation (s)->physical_params.alpha;
-    gdouble h = ftt_cell_size (cell);
-    gdouble a = 0.;
-
-    for (j = 0; j < FTT_DIMENSION; j++)
-      a += (gfs_center_gradient (cell, c, u[j]->i)*
-	    gfs_center_gradient (cell, j, mu->i));
-    return a*(alpha ? gfs_function_value (alpha, cell) : 1.)/(h*h);
-  }
-}
-
-static gdouble source_viscosity_value (GfsSourceGeneric * s,
-				       FttCell * cell,
-				       GfsVariable * v)
-{
-  return (source_diffusion_value (s, cell, v) +
-	  source_viscosity_non_diffusion_value (s, cell, v));
-}
-
-static void source_viscosity_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = source_viscosity_read;
-  GTS_OBJECT_CLASS (klass)->write = source_viscosity_write;
-}
-
-static void source_viscosity_init (GfsSourceGeneric * s)
-{
-  s->mac_value = source_viscosity_value;
-  s->centered_value = source_viscosity_non_diffusion_value;
-  s->flux = NULL;
-}
-
-GfsSourceGenericClass * gfs_source_viscosity_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo source_viscosity_info = {
-      "GfsSourceViscosity",
-      sizeof (GfsSourceViscosity),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_viscosity_class_init,
-      (GtsObjectInitFunc) source_viscosity_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_diffusion_class ()),
-				  &source_viscosity_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceViscosityExplicit: Object */
-
-static gdouble source_viscosity_stability (GfsSourceGeneric * s,
-					   GfsSimulation * sim)
-{
-  StabilityParams par;
-
-  par.s = s;
-  par.dtmax = G_MAXDOUBLE;
-  par.alpha = sim->physical_params.alpha;
-  gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) cell_diffusion_stability, &par);
-  return 0.1*par.dtmax;
-}
-
-static void source_viscosity_explicit_class_init (GfsSourceGenericClass * klass)
-{
-  klass->stability = source_viscosity_stability;
-}
-
-/* Defining this will use the divergence-free condition to decouple
-   the diffusion equations for each component. This only works of
-   course for constant viscosity and does not work for axisymmetric flows. */
-/* #define NOTRANSVERSE */
-
-static void add_viscosity_explicit_flux (FttCell * cell, FluxPar * p)
-{
-  FttCellFace f;
-  FttCellNeighbors n;
-  GfsGradient g = { 0., 0. };
-  gdouble v0;
-
-  if (GFS_IS_MIXED (cell)) {
-    if (((cell)->flags & GFS_FLAG_DIRICHLET) != 0)
-      g.b = gfs_cell_dirichlet_gradient_flux (cell, p->v->i, -1., 0.);
-  }
-
-  v0 = GFS_VARIABLE (cell, p->v->i);
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &n);
-  for (f.d = 0; f.d < FTT_NEIGHBORS; f.d++) {
-    GfsGradient e;
-
-    f.neighbor = n.c[f.d];
-    gfs_face_gradient_flux (&f, &e, p->v->i, -1);
-#ifndef NOTRANSVERSE
-    if (f.d/2 == p->v->component) {
-      e.a *= 2.;
-      e.b *= 2.;
-    }
-#endif
-    g.a += e.a;
-    g.b += e.b;
-  }
-
-  gdouble transverse = 0.;
-#ifndef NOTRANSVERSE
-#if FTT_2D
-  FttComponent ortho = (p->v->component + 1) % FTT_DIMENSION;
-
-  for (f.d = 2*ortho; f.d <= 2*ortho + 1; f.d++) {
-    f.neighbor = n.c[f.d];
-    transverse += (FTT_FACE_DIRECT (&f) ? 1. : -1.)*
-      gfs_face_weighted_interpolated_value (&f, p->tv->i);
-  }
-#else
-  g_assert_not_implemented ();
-#endif  
-#endif
-
-  GfsFunction * alpha = gfs_object_simulation (p->s)->physical_params.alpha;
-  gdouble h = ftt_cell_size (cell);
-  GFS_VALUE (cell, p->sv) += (alpha ? gfs_function_value (alpha, cell) : 1.)*
-    ((g.b - g.a*v0)/h + transverse)/h;
-}
-
-static void add_axisymmetric_term (FttCell * cell, FluxPar * p)
-{
-  GfsFunction * alpha = gfs_object_simulation (p->s)->physical_params.alpha;
-  gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-  GFS_VALUE (cell, p->sv) -= 
-    (alpha ? gfs_function_value (alpha, cell) : 1.)*
-    2.*gfs_source_diffusion_cell (GFS_SOURCE_DIFFUSION (p->s), cell)*
-    GFS_VALUE (cell, p->v)*
-    a*a/gfs_domain_cell_fraction (p->v->domain, cell)*
-    p->dt;
-}
-
-static void source_viscosity_explicit_flux (GfsSourceGeneric * s, 
-					    GfsDomain * domain, 
-					    GfsVariable * v, GfsVariable * sv, 
-					    gdouble dt)
-{
-  FluxPar p;
-
-  gfs_diffusion_coefficients (domain, GFS_SOURCE_DIFFUSION (s), dt, NULL, NULL, NULL, 1.);
-  gfs_domain_surface_bc (domain, v);
-  p.s = s;
-  p.v = v;
-  p.sv = sv;
-  p.dt = dt;
-  p.tv = gfs_temporary_variable (domain);
-  gfs_traverse_and_bc (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-		       (FttCellTraverseFunc) compute_transverse, &p,
-		       p.tv, p.tv);
-  gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) add_viscosity_explicit_flux, &p);
-  if (GFS_IS_AXI (domain) && v->component == FTT_Y)
-    gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) add_axisymmetric_term, &p);
-  gts_object_destroy (GTS_OBJECT (p.tv));
-}
-
-static void source_viscosity_explicit_init (GfsSourceGeneric * s)
-{
-  s->mac_value = NULL;
-  s->centered_value = NULL;
-  s->flux = source_viscosity_explicit_flux;
-}
-
-GfsSourceGenericClass * gfs_source_viscosity_explicit_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo source_viscosity_explicit_info = {
-      "GfsSourceViscosityExplicit",
-      sizeof (GfsSourceViscosity),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) source_viscosity_explicit_class_init,
-      (GtsObjectInitFunc) source_viscosity_explicit_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_viscosity_class ()),
-				  &source_viscosity_explicit_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceCoriolis: Object */
-
-static void source_coriolis_destroy (GtsObject * o)
-{
-  FttComponent c;
-
-  if (GFS_SOURCE_CORIOLIS (o)->omegaz)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE_CORIOLIS (o)->omegaz));
-  if (GFS_SOURCE_CORIOLIS (o)->drag)
-    gts_object_destroy (GTS_OBJECT (GFS_SOURCE_CORIOLIS (o)->drag));
-
-  for (c = 0; c <  2; c++)
-    if (GFS_SOURCE_CORIOLIS (o)->u[c])
-      gts_object_destroy (GTS_OBJECT (GFS_SOURCE_CORIOLIS (o)->u[c]));
-
-  (* GTS_OBJECT_CLASS (gfs_source_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_source_coriolis_read (GtsObject ** o, GtsFile * fp)
-{
-  FttComponent c;
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-
-  (* GTS_OBJECT_CLASS (gfs_source_coriolis_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    GfsVariable * v = GFS_SOURCE_VELOCITY (*o)->v[c];
-
-    if (v->sources) {
-      GSList * i = GTS_SLIST_CONTAINER (v->sources)->items;
-      
-      while (i) {
-	if (i->data != *o && GFS_IS_SOURCE_CORIOLIS (i->data)) {
-	  gts_file_error (fp, "variable '%s' cannot have multiple Coriolis source terms", v->name);
-	  return;
-	}
-	i = i->next;
-      }
-    }
-  }
-
-  GFS_SOURCE_CORIOLIS (*o)->omegaz = gfs_function_new (gfs_function_class (), 0.);
-  gfs_function_read (GFS_SOURCE_CORIOLIS (*o)->omegaz, gfs_object_simulation (*o), fp);
-
-  if (fp->type != '\n') {
-    GFS_SOURCE_CORIOLIS (*o)->drag = gfs_function_new (gfs_function_class (), 0.);
-    gfs_function_read (GFS_SOURCE_CORIOLIS (*o)->drag, gfs_object_simulation (*o), fp);
-  }
-
-#if (!FTT_2D)
-  gts_container_remove (GFS_SOURCE_VELOCITY (*o)->v[FTT_Z]->sources, GTS_CONTAINEE (*o));
-#endif /* 3D */ 
- 
-  for (c = 0; c <  2; c++)
-    GFS_SOURCE_CORIOLIS (*o)->u[c] = gfs_temporary_variable (domain);
-}
-
-static void gfs_source_coriolis_write (GtsObject * o, FILE * fp)
-{
-  GfsSourceCoriolis * s = GFS_SOURCE_CORIOLIS (o);
-
-  (* GTS_OBJECT_CLASS (gfs_source_coriolis_class ())->parent_class->write) (o, fp);
-  gfs_function_write (s->omegaz, fp);
-  if (s->drag)
-    gfs_function_write (s->drag, fp);
-}
-
-static gdouble gfs_source_coriolis_mac_value (GfsSourceGeneric * s,
-					      FttCell * cell,
-					      GfsVariable * v)
-{
-  GfsSourceVelocity * sv = GFS_SOURCE_VELOCITY (s);
-  GfsSourceCoriolis * sc = GFS_SOURCE_CORIOLIS (s);
-  gdouble f = gfs_function_value (sc->omegaz, cell);
-  gdouble e = sc->drag ? gfs_function_value (sc->drag, cell) : 0.;
-
-  switch (v->component) {
-  case FTT_X: return - e*GFS_VALUE (cell, sv->v[0]) + f*GFS_VALUE (cell, sv->v[1]);
-  case FTT_Y: return - f*GFS_VALUE (cell, sv->v[0]) - e*GFS_VALUE (cell, sv->v[1]);
-  default: g_assert_not_reached ();
-  }
-  return 0.;
-}
-
-static void save_coriolis (FttCell * cell, GfsSourceCoriolis * s)
-{
-  GfsSourceVelocity * sv = GFS_SOURCE_VELOCITY (s);
-  gdouble f = gfs_function_value (s->omegaz, cell)/2.;
-  gdouble e = s->drag ? gfs_function_value (s->drag, cell)/2. : 0.;
-
-  GFS_VALUE (cell, s->u[0]) = - e*GFS_VALUE (cell, sv->v[0]) + f*GFS_VALUE (cell, sv->v[1]);
-  GFS_VALUE (cell, s->u[1]) = - f*GFS_VALUE (cell, sv->v[0]) - e*GFS_VALUE (cell, sv->v[1]);
-}
-
-static gboolean gfs_source_coriolis_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_event_sum_class ())->parent_class)->event) (event, sim)) {
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) save_coriolis, event);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static gdouble gfs_source_coriolis_centered_value (GfsSourceGeneric * s,
-						   FttCell * cell,
-						   GfsVariable * v)
-{
-  return GFS_VALUE (cell, GFS_SOURCE_CORIOLIS (s)->u[v->component]);
-}
-
-static void gfs_source_coriolis_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = source_coriolis_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_source_coriolis_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_source_coriolis_write;
-
-  GFS_EVENT_CLASS (klass)->event = gfs_source_coriolis_event;
-}
-
-static void gfs_source_coriolis_init (GfsSourceGeneric * s)
-{
-  s->mac_value = gfs_source_coriolis_mac_value;
-  s->centered_value = gfs_source_coriolis_centered_value;
-}
-
-GfsSourceGenericClass * gfs_source_coriolis_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_coriolis_info = {
-      "GfsSourceCoriolis",
-      sizeof (GfsSourceCoriolis),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) gfs_source_coriolis_class_init,
-      (GtsObjectInitFunc) gfs_source_coriolis_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_velocity_class ()),
-				  &gfs_source_coriolis_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_has_source_coriolis:
- * @domain: a #GfsDomain.
- *
- * Returns: the #GfsSourceCoriolis associated with @domain or %NULL.
- */
-GfsSourceCoriolis * gfs_has_source_coriolis (GfsDomain * domain)
-{
-  GfsVariable * v;
-
-  g_return_val_if_fail (domain != NULL, NULL);
-
-  v = gfs_variable_from_name (domain->variables, "U");
-  g_return_val_if_fail (v != NULL, NULL);
-
-  if (v->sources) {
-    GSList * i = GTS_SLIST_CONTAINER (v->sources)->items;
-
-    while (i) {
-      if (GFS_IS_SOURCE_CORIOLIS (i->data))
-	return i->data;
-      i = i->next;
-    }
-  }
-  return NULL;
-}
-
-static void implicit_coriolis (FttCell * cell, GfsSourceCoriolis * s)
-{
-  GfsSourceVelocity * sv = GFS_SOURCE_VELOCITY (s);
-  gdouble c, u, v;
-  GfsSimulation * sim = gfs_object_simulation (s);
-
-  c = sim->advection_params.dt*gfs_function_value (s->omegaz, cell)/2.;
-  u = GFS_VALUE (cell, sv->v[0]);
-  v = GFS_VALUE (cell, sv->v[1]);
-  if (s->drag) {
-    gdouble e = sim->advection_params.dt*gfs_function_value (s->drag, cell)/2.;
-    GFS_VALUE (cell, sv->v[0]) = (u + c*v/(1. + e))/((1. + e) + c*c/(1. + e));
-    GFS_VALUE (cell, sv->v[1]) = (v - c*u/(1. + e))/((1. + e) + c*c/(1. + e));
-  }
-  else {
-    GFS_VALUE (cell, sv->v[0]) = (u + c*v)/(1. + c*c);
-    GFS_VALUE (cell, sv->v[1]) = (v - c*u)/(1. + c*c);
-  }
-}
-
-/**
- * gfs_source_coriolis_implicit:
- * @domain: a #GfsDomain.
- * @dt: the timestep.
- *
- * Applies the implicit part of the Coriolis source term of @domain.
- */
-void gfs_source_coriolis_implicit (GfsDomain * domain,
-				   gdouble dt)
-{
-  GfsSourceCoriolis * s;
-
-  g_return_if_fail (domain != NULL);
-
-  if ((s = gfs_has_source_coriolis (domain))) {
-    GfsSimulation * sim = GFS_SIMULATION (domain);
-    gdouble olddt = sim->advection_params.dt;
-    sim->advection_params.dt = dt;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) implicit_coriolis, s);
-    sim->advection_params.dt = olddt;
-  }
-}
diff --git a/src/source.h b/src/source.h
deleted file mode 100644
index 536626e..0000000
--- a/src/source.h
+++ /dev/null
@@ -1,340 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __SOURCE_H__
-#define __SOURCE_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "event.h"
-
-gdouble    gfs_variable_mac_source     (GfsVariable * v, 
-					FttCell * cell);
-void       gfs_domain_variable_centered_sources (GfsDomain * domain, 
-						 GfsVariable * v,
-						 GfsVariable * sv,
-						 gdouble dt);
-GfsVariable * gfs_domain_variable_fluxes        (GfsDomain * domain,
-						 GfsVariable * v,
-						 gdouble dt);
-
-/* GfsSourceGeneric: Header */
-
-typedef struct _GfsSourceGeneric         GfsSourceGeneric;
-
-struct _GfsSourceGeneric {
-  /*< private >*/
-  GfsEvent parent;
-
-  /*< public >*/
-  GfsVariable * v;
-  gdouble (* mac_value)      (GfsSourceGeneric *, FttCell *, GfsVariable *);
-  gdouble (* centered_value) (GfsSourceGeneric *, FttCell *, GfsVariable *);
-  gdouble (* face_value)     (GfsSourceGeneric *, FttCellFace *, GfsVariable *);
-  void    (* flux)           (GfsSourceGeneric *, GfsDomain *, 
-			      GfsVariable *, GfsVariable *, 
-			      gdouble);
-};
-
-typedef struct _GfsSourceGenericClass    GfsSourceGenericClass;
-
-struct _GfsSourceGenericClass {
-  /*< private >*/
-  GfsEventClass parent_class;
-
-  /*< public >*/
-  gdouble (* stability)      (GfsSourceGeneric *, GfsSimulation *);
-};
-
-#define GFS_SOURCE_GENERIC(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceGeneric,\
-					         gfs_source_generic_class ())
-#define GFS_SOURCE_GENERIC_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 GfsSourceGenericClass,\
-						 gfs_source_generic_class())
-#define GFS_IS_SOURCE_GENERIC(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_generic_class ()))
-
-GfsSourceGenericClass * gfs_source_generic_class  (void);
-GfsSourceGeneric *      gfs_source_find           (GfsVariable * v,
-						   GfsSourceGenericClass * klass);
-
-/* GfsSourceScalar: Header */
-
-typedef struct _GfsSourceScalar         GfsSourceScalar;
-
-struct _GfsSourceScalar {
-  /*< private >*/
-  GfsSourceGeneric parent;
-
-  /*< public >*/
-  GfsVariable * v;
-};
-
-#define GFS_SOURCE_SCALAR(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceScalar,\
-					         gfs_source_scalar_class ())
-#define GFS_IS_SOURCE_SCALAR(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_scalar_class ()))
-
-GfsSourceGenericClass * gfs_source_scalar_class  (void);
-
-/* GfsSourceVelocity: Header */
-
-typedef struct _GfsSourceVelocity         GfsSourceVelocity;
-
-struct _GfsSourceVelocity {
-  /*< private >*/
-  GfsSourceGeneric parent;
-
-  /*< public >*/
-  GfsVariable ** v;
-};
-
-#define GFS_SOURCE_VELOCITY(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceVelocity,\
-					         gfs_source_velocity_class ())
-#define GFS_IS_SOURCE_VELOCITY(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_velocity_class ()))
-
-GfsSourceGenericClass * gfs_source_velocity_class  (void);
-
-/* GfsSource: Header */
-
-typedef struct _GfsSource         GfsSource;
-
-struct _GfsSource {
-  /*< private >*/
-  GfsSourceScalar parent;
-
-  /*< public >*/
-  GfsFunction * intensity;
-};
-
-#define GFS_SOURCE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSource,\
-					         gfs_source_class ())
-#define GFS_IS_SOURCE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_class ()))
-
-GfsSourceGenericClass * gfs_source_class  (void);
-
-/* GfsSourceControl: Header */
-
-typedef struct _GfsSourceControl         GfsSourceControl;
-
-struct _GfsSourceControl {
-  /*< private >*/
-  GfsSourceScalar parent;
-  gdouble s;
-
-  /*< public >*/
-  GfsFunction * intensity;
-};
-
-#define GFS_SOURCE_CONTROL(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceControl,\
-					         gfs_source_control_class ())
-#define GFS_IS_SOURCE_CONTROL(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_control_class ()))
-
-GfsSourceGenericClass * gfs_source_control_class  (void);
-
-/* GfsSourceControlField: Header */
-
-typedef struct _GfsSourceControlField         GfsSourceControlField;
-
-struct _GfsSourceControlField {
-  /*< private >*/
-  GfsSourceControl parent;
-  GfsVariable * s;
-
-  /*< public >*/
-  gint level;
-};
-
-#define GFS_SOURCE_CONTROL_FIELD(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceControlField,\
-					         gfs_source_control_field_class ())
-#define GFS_IS_SOURCE_CONTROL_FIELD(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_control_field_class ()))
-
-GfsSourceGenericClass * gfs_source_control_field_class  (void);
-
-/* GfsSourceFlux: Header */
-
-typedef struct _GfsSourceFlux         GfsSourceFlux;
-
-struct _GfsSourceFlux {
-  /*< private >*/
-  GfsSourceScalar parent;
-  gdouble s;
-
-  /*< public >*/
-  GfsFunction * intensity, * fraction;
-};
-
-#define GFS_SOURCE_FLUX(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceFlux,\
-					         gfs_source_flux_class ())
-#define GFS_IS_SOURCE_FLUX(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_flux_class ()))
-
-GfsSourceGenericClass * gfs_source_flux_class  (void);
-
-/* GfsDiffusion: Header */
-
-typedef struct _GfsDiffusion         GfsDiffusion;
-
-struct _GfsDiffusion {
-  /*< private >*/
-  GfsEvent parent;
-
-  /*< public >*/
-  GfsFunction * val;
-  GfsVariable * mu;
-  GfsMultilevelParams par;
-};
-
-typedef struct _GfsDiffusionClass    GfsDiffusionClass;
-
-struct _GfsDiffusionClass {
-  /*< private >*/
-  GfsEventClass parent_class;
-
-  /*< public >*/
-  gdouble (* face)  (GfsDiffusion *, FttCellFace *);
-  gdouble (* cell)  (GfsDiffusion *, FttCell *);
-};
-
-#define GFS_DIFFUSION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsDiffusion,\
-					         gfs_diffusion_class ())
-#define GFS_DIFFUSION_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 GfsDiffusionClass,\
-						 gfs_diffusion_class())
-#define GFS_IS_DIFFUSION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_diffusion_class ()))
-
-GfsDiffusionClass * gfs_diffusion_class  (void);
-gdouble             gfs_diffusion_face   (GfsDiffusion * d, 
-					  FttCellFace * f);
-gdouble             gfs_diffusion_cell   (GfsDiffusion * d, 
-					  FttCell * cell);
-
-/* GfsSourceDiffusion: Header */
-
-struct _GfsSourceDiffusion {
-  /*< private >*/
-  GfsSourceScalar parent;
-
-  /*< public >*/
-  GfsDiffusion * D;
-};
-
-#define GFS_SOURCE_DIFFUSION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceDiffusion,\
-					         gfs_source_diffusion_class ())
-#define GFS_IS_SOURCE_DIFFUSION(obj)         (gts_object_is_from_class (obj,\
-						gfs_source_diffusion_class ()))
-
-GfsSourceGenericClass *   gfs_source_diffusion_class  (void);
-gdouble                   gfs_source_diffusion_face   (GfsSourceDiffusion * d, 
-						       FttCellFace * f);
-gdouble                   gfs_source_diffusion_cell   (GfsSourceDiffusion * d, 
-						       FttCell * cell);
-
-/* GfsSourceDiffusionExplicit: Header */
-
-typedef struct _GfsSourceDiffusionExplicit         GfsSourceDiffusionExplicit;
-
-struct _GfsSourceDiffusionExplicit {
-  /*< private >*/
-  GfsSourceDiffusion parent;
-
-  /*< public >*/
-  GfsVariable * s;
-};
-
-#define GFS_SOURCE_DIFFUSION_EXPLICIT(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceDiffusionExplicit,\
-					         gfs_source_diffusion_explicit_class ())
-#define GFS_IS_SOURCE_DIFFUSION_EXPLICIT(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_diffusion_explicit_class ()))
-
-GfsSourceGenericClass * gfs_source_diffusion_explicit_class  (void);
-
-/* GfsSourceViscosity: Header */
-
-typedef struct _GfsSourceViscosity         GfsSourceViscosity;
-
-struct _GfsSourceViscosity {
-  /*< private >*/
-  GfsSourceDiffusion parent;
-
-  /*< public >*/
-  GfsVariable ** v;
-};
-
-#define GFS_SOURCE_VISCOSITY(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceViscosity,\
-					         gfs_source_viscosity_class ())
-#define GFS_IS_SOURCE_VISCOSITY(obj) (gts_object_is_from_class (obj,\
-				       gfs_source_viscosity_class ()))
-
-GfsSourceGenericClass * gfs_source_viscosity_class  (void);
-
-/* GfsSourceViscosityExplicit: Header */
-
-#define GFS_IS_SOURCE_VISCOSITY_EXPLICIT(obj) (gts_object_is_from_class (obj,\
-					       gfs_source_viscosity_explicit_class ()))
-
-GfsSourceGenericClass * gfs_source_viscosity_explicit_class  (void);
-
-/* GfsSourceCoriolis: Header */
-
-typedef struct _GfsSourceCoriolis         GfsSourceCoriolis;
-
-struct _GfsSourceCoriolis {
-  /*< private >*/
-  GfsSourceVelocity parent;
-  GfsVariable * u[2];
-
-  /*< public >*/
-  GfsFunction * omegaz, * drag;
-};
-
-#define GFS_SOURCE_CORIOLIS(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceCoriolis,\
-					         gfs_source_coriolis_class ())
-#define GFS_IS_SOURCE_CORIOLIS(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_coriolis_class ()))
-
-GfsSourceGenericClass * gfs_source_coriolis_class    (void);
-void                    gfs_source_coriolis_implicit (GfsDomain * domain,
-						      gdouble dt);
-GfsSourceCoriolis *     gfs_has_source_coriolis      (GfsDomain * domain);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __SOURCE_H__ */
diff --git a/src/spatial.h b/src/spatial.h
deleted file mode 100644
index 553cd26..0000000
--- a/src/spatial.h
+++ /dev/null
@@ -1,54 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __SPATIAL_H__
-#define __SPATIAL_H__
-
-/* When modifying this file, please also update the documentation at:
- * http://gfs.sourceforge.net/wiki/index.php/GfsSurface
- */
-
-#define intersection(a,b) MAX(a, b)
-#define union(a,b)        MIN(a, b)
-#define difference(a,b)   MAX(a, -(b))
-
-static double _x = 0., _y = 0., _z = 0.;
-
-static double ellipse (double xc, double yc, double a, double b)
-{
-  g_return_val_if_fail (a != 0. && b != 0., 0.);
-  return (_x - xc)*(_x - xc)/(a*a) + (_y - yc)*(_y - yc)/(b*b) - 1.;
-}
-
-static double sphere (double xc, double yc, double zc, double r)
-{
-  return (_x - xc)*(_x - xc) + (_y - yc)*(_y - yc) + (_z - zc)*(_z - zc) - r*r;
-}
-
-static double cube (double xc, double yc, double zc, double h)
-{
-  double vmax = (_x - xc)*(_x - xc) - h*h/4.;
-  double v = (_y - yc)*(_y - yc) - h*h/4.;
-  if (v > vmax) vmax = v;
-  v = (_z - zc)*(_z - zc) - h*h/4.;
-  if (v > vmax) vmax = v;
-  return vmax;
-}
-
-#endif /* __SPATIAL_H__ */
diff --git a/src/surface.c b/src/surface.c
deleted file mode 100644
index 5c9dbfa..0000000
--- a/src/surface.c
+++ /dev/null
@@ -1,851 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-
-#include "simulation.h"
-#include "surface.h"
-
-/* GfsGenericSurface: Object */
-
-GfsGenericSurfaceClass * gfs_generic_surface_class (void)
-{
-  static GfsGenericSurfaceClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_generic_surface_info = {
-      "GfsGenericSurface",
-      sizeof (GtsObject),
-      sizeof (GfsGenericSurfaceClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_object_class ()),
-				  &gfs_generic_surface_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_cell_is_cut:
- * @cell: a #FttCell.
- * @s: a #GfsGenericSurface.
- * @flatten: if set to %TRUE, @cell is flattened in the z direction.
- * @maxlevel: the maximum (virtual) cell level to consider.
- *
- * Returns: a (possibly new) #GfsGenericSurface containing a subset of @s which may
- * intersect @cell or %NULL if @s does not intersect @cell.
- */
-GfsGenericSurface * gfs_cell_is_cut (FttCell * cell, GfsGenericSurface * s, 
-				     gboolean flatten, gint maxlevel)
-{
-  g_return_val_if_fail (cell != NULL, NULL);
-  g_return_val_if_fail (s != NULL, NULL);
-  
-  g_assert (GFS_GENERIC_SURFACE_CLASS (GTS_OBJECT (s)->klass)->cell_is_cut);
-  return (* GFS_GENERIC_SURFACE_CLASS (GTS_OBJECT (s)->klass)->cell_is_cut) 
-    (cell, s, flatten, maxlevel);
-}
-
-static void cell_traverse_cut (FttCell * cell,
-			       GfsGenericSurface * s,
-			       FttTraverseType order,
-			       FttTraverseFlags flags,
-			       FttCellTraverseCutFunc func,
-			       gpointer data,
-			       gboolean flatten)
-{
-  GfsGenericSurface * s1 = gfs_cell_is_cut (cell, s, flatten && FTT_CELL_IS_LEAF (cell), -1);
-
-  if (s1 == NULL)
-    return;
-  if (order == FTT_PRE_ORDER &&
-      (flags == FTT_TRAVERSE_ALL ||
-       ((flags & FTT_TRAVERSE_LEAFS) != 0 && FTT_CELL_IS_LEAF (cell)) ||
-       ((flags & FTT_TRAVERSE_NON_LEAFS) != 0 && !FTT_CELL_IS_LEAF (cell))))
-    (* func) (cell, s1, data);
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    struct _FttOct * children = cell->children;
-    guint n;
-
-    for (n = 0; n < FTT_CELLS; n++) {
-      FttCell * c = &(children->cell[n]);
-
-      if ((flags & FTT_TRAVERSE_DESTROYED) != 0 || !FTT_CELL_IS_DESTROYED (c))
-	cell_traverse_cut (c, s1, order, flags, func, data, flatten);
-    }
-  }
-  if (order == FTT_POST_ORDER &&
-      (flags == FTT_TRAVERSE_ALL ||
-       ((flags & FTT_TRAVERSE_LEAFS) != 0 && FTT_CELL_IS_LEAF (cell)) ||
-       ((flags & FTT_TRAVERSE_NON_LEAFS) != 0 && !FTT_CELL_IS_LEAF (cell))))
-    (* func) (cell, s1, data);
-  if (s1 != s)
-    gts_object_destroy (GTS_OBJECT (s1));
-}
-
-/**
- * gfs_cell_traverse_cut:
- * @root: the root #FttCell of the tree to traverse.
- * @s: a #GfsGenericSurface.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- * 
- * Traverses a cell tree starting at the given root #FttCell. Calls
- * the given function for each cell cut by @s.
- */
-void gfs_cell_traverse_cut (FttCell * root,
-			    GfsGenericSurface * s,
-			    FttTraverseType order,
-			    FttTraverseFlags flags,
-			    FttCellTraverseCutFunc func,
-			    gpointer data)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (func != NULL);
-
-  cell_traverse_cut (root, s, order, flags, func, data, FALSE);
-}
-
-/**
- * gfs_cell_traverse_cut_2D:
- * @root: the root #FttCell of the tree to traverse.
- * @s: a #GfsGenericSurface.
- * @order: the order in which the cells are visited - %FTT_PRE_ORDER,
- * %FTT_POST_ORDER. 
- * @flags: which types of children are to be visited.
- * @func: the function to call for each visited #FttCell.
- * @data: user data to pass to @func.
- * 
- * Traverses a cell tree starting at the given root #FttCell. Calls
- * the given function for each cell cut by @s.
- *
- * The cells are "flattened" in the z-direction.
- */
-void gfs_cell_traverse_cut_2D (FttCell * root,
-			       GfsGenericSurface * s,
-			       FttTraverseType order,
-			       FttTraverseFlags flags,
-			       FttCellTraverseCutFunc func,
-			       gpointer data)
-{
-  g_return_if_fail (root != NULL);
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (func != NULL);
-
-  cell_traverse_cut (root, s, order, flags, func, data, TRUE);
-}
-
-/**
- * gfs_generic_surface_read:
- * @s: a #GfsGenericSurface.
- * @sim: a #GfsSimulation.
- * @fp: a #GtsFile.
- * 
- * Calls the read() method of @s.
- */
-void gfs_generic_surface_read (GfsGenericSurface * s, gpointer sim, GtsFile * fp)
-{
-  GtsObject * o = (GtsObject *) s;
-
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (fp != NULL);
-
-  o->reserved = sim;
-  (* GTS_OBJECT (s)->klass->read) (&o, fp);
-}
-
-/**
- * gfs_generic_surface_write:
- * @s: a #GfsGenericSurface.
- * @sim: a #GfsSimulation.
- * @fp: a file pointer.
- * 
- * Calls the write() method of @s.
- */
-void gfs_generic_surface_write (GfsGenericSurface * s, gpointer sim, FILE * fp)
-{
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (fp != NULL);
-
-  GTS_OBJECT (s)->reserved = sim;
-  (* GTS_OBJECT (s)->klass->write) (GTS_OBJECT (s), fp);
-}
-
-/**
- * gfs_surface_segment_intersection:
- * @s: a #GfsGenericSurface.
- * @cell: a #FttCell containing @I.
- * @I: a GfsSegment.
- *
- * Fills @I with the intersection of @s and @I.
- *
- * Returns: the number of times @s intersects @I.
- */
-guint gfs_surface_segment_intersection (GfsGenericSurface * s,
-					FttCell * cell,
-					GfsSegment * I)
-{
-  g_return_val_if_fail (s != NULL, 0);
-  g_return_val_if_fail (cell != NULL, 0);
-  g_return_val_if_fail (I != NULL, 0);
-
-  g_assert (GFS_GENERIC_SURFACE_CLASS (GTS_OBJECT (s)->klass)->segment_intersection);
-  return (* GFS_GENERIC_SURFACE_CLASS (GTS_OBJECT (s)->klass)->segment_intersection) (s, cell, I);
-}
-
-/**
- * gfs_surface_segment_normal:
- * @s: a #GfsGenericSurface.
- * @cell: a #FttCell containing @I.
- * @I: a GfsSegment.
- * @n: a #GtsVector.
- *
- * Fills @n with the normal to @s at the intersection of @s and @I.
- */
-void gfs_surface_segment_normal (GfsGenericSurface * s,
-				 FttCell * cell,
-				 GfsSegment * I,
-				 GtsVector n)
-{
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (I != NULL);
-  g_return_if_fail (I->n > 0);
-  g_return_if_fail (n != NULL);
-
-  g_assert (GFS_GENERIC_SURFACE_CLASS (GTS_OBJECT (s)->klass)->segment_normal);
-  (* GFS_GENERIC_SURFACE_CLASS (GTS_OBJECT (s)->klass)->segment_normal) (s, cell, I, n);
-}
-
-/**
- * gfs_surface_point_is_inside:
- * @s: a #GfsGenericSurface.
- * @p: a #FttVector.
- *
- * Returns: 1 if @p is inside @s, 0 if @p lies on the boundary of @s,
- * -1 otherwise.
- */
-gint gfs_surface_point_is_inside (GfsGenericSurface * s,
-				  FttVector * p)
-{
-  g_return_val_if_fail (s != NULL, 0);
-  g_return_val_if_fail (p != NULL, 0);
-
-  g_assert (GFS_GENERIC_SURFACE_CLASS (GTS_OBJECT (s)->klass)->point_is_inside);
-  return (* GFS_GENERIC_SURFACE_CLASS (GTS_OBJECT (s)->klass)->point_is_inside) (s, p);
-}
-
-/* GfsSurface: Object */
-
-static void check_solid_surface (GtsSurface * s, 
-				 const gchar * fname,
-				 GtsFile * fp)
-{
-  GString * name = g_string_new ("surface");
-
-  if (fname) {
-    g_string_append (name, " `");
-    g_string_append (name, fname);
-    g_string_append_c (name, '\'');
-  }
-
-  if (!gts_surface_is_orientable (s))
-    gts_file_error (fp, "%s is not orientable", name->str);
-  g_string_free (name, TRUE);
-}
-
-/**
- * gfs_surface_transformation:
- * @surface: a #GtsSurface
- * @rotate: a #GtsVector
- * @translate: a #GtsVector 
- * @scale: a #GtsVector
- * @s: a #gdouble
- * @flip: a #gboolean
- * @matrix: a pointer on a #GtsMatrix
- * 
- * Translates, rotates, scales and flips @surface.
- */
-void gfs_surface_transformation (GtsSurface * surface, 
-				 GtsVector rotate,
-				 GtsVector translate, 
-				 GtsVector scale,
-				 gboolean flip,
-				 GtsMatrix ** matrix)
-{
-  GtsMatrix * m;
-  gint c;
-
-  g_return_if_fail (matrix != NULL);
-  
-  m = gts_matrix_translate (NULL, translate);    
-  for (c = 2; c >= 0; c--)
-    if (rotate[c] != 0.) {
-      GtsVector r = {0.,0.,0.};
-      r[c] = 1.;
-      GtsMatrix * mr = gts_matrix_rotate (NULL, r, rotate[c]*M_PI/180.);
-      GtsMatrix * m1 = gts_matrix_product (m, mr);
-      gts_matrix_destroy (m);
-      gts_matrix_destroy (mr);
-      m = m1;
-    }
-
-  GtsMatrix * ms = gts_matrix_scale (NULL, scale);
-  if (*matrix)
-    gts_matrix_destroy (*matrix);
-  *matrix = gts_matrix_product (m, ms);
-  gts_matrix_destroy (m);
-  gts_matrix_destroy (ms);
-  
-  if (surface) {
-    gts_surface_foreach_vertex (surface, (GtsFunc) gts_point_transform, *matrix);
-    gts_matrix_destroy (*matrix);
-    *matrix = NULL;
-    if (flip)
-      gts_surface_foreach_face (surface, (GtsFunc) gts_triangle_revert, NULL);
-  }
-  else {
-    GtsMatrix * i = gts_matrix_inverse (*matrix);
-    gts_matrix_destroy (*matrix);
-    *matrix = i;
-  }
-}
-
-static void point_map (GtsPoint * p, GfsSimulation * sim)
-{
-  gfs_simulation_map (sim, (FttVector *) &p->x);
-}
-
-static void surface_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSurface * surface = GFS_SURFACE (*o);
-  gboolean dimensional = FALSE;
-
-  if (fp->type == '(') { /* implicit surface */
-    gts_file_next_token (fp);
-    if (surface->f)
-      gts_object_destroy (GTS_OBJECT (surface->f));
-    surface->f = gfs_function_new (gfs_function_spatial_class (), 0.);
-    gfs_function_read (surface->f, gfs_object_simulation (*o), fp);
-    if (fp->type == GTS_ERROR)
-      return;
-    if (fp->type != ')') {
-      gts_file_error (fp, "expecting a closing bracket");
-      return;
-    }
-  }
-  else if (fp->type == '{') { /* embedded surface */
-    fp->scope_max++;
-    gts_file_next_token (fp);
-    if (surface->s)
-      gts_object_destroy (GTS_OBJECT (surface->s));
-    surface->s = gts_surface_new (gts_surface_class (), 
-				  gts_face_class (), 
-				  gts_edge_class (), 
-				  gts_vertex_class ());
-    if (gts_surface_read (surface->s, fp))
-      return;
-    if (fp->type != '}') {
-      gts_file_error (fp, "expecting a closing brace");
-      return;
-    }
-    check_solid_surface (surface->s, NULL, fp);
-    if (fp->type == GTS_ERROR)
-      return;
-    fp->scope_max--;
-  }
-  else { /* surface file name */
-    if (fp->type != GTS_STRING) {
-      gts_file_error (fp, "expecting a string (filename)");
-      return;
-    }
-    FILE * fptr = fopen (fp->token->str, "rt");
-    if (fptr == NULL) {
-      gts_file_error (fp, "cannot open file `%s'", fp->token->str);
-      return;
-    }
-    GtsFile * fp1 = gts_file_new (fptr);
-    surface->s = gts_surface_new (gts_surface_class (), 
-				  gts_face_class (), 
-				  gts_edge_class (), 
-				  gts_vertex_class ());
-    if (gts_surface_read (surface->s, fp1)) {
-      gts_file_error (fp, 
-		      "file `%s' is not a valid GTS file\n"
-		      "%s:%d:%d: %s",
-		      fp->token->str, fp->token->str,
-		      fp1->line, fp1->pos, fp1->error);
-      gts_file_destroy (fp1);
-      fclose (fptr);
-      return;
-    }
-    gts_file_destroy (fp1);
-    fclose (fptr);
-    check_solid_surface (surface->s, fp->token->str, fp);
-    if (fp->type == GTS_ERROR)
-      return;
-    dimensional = TRUE;
-  }
-  gts_file_next_token (fp);
-
-  if (fp->type == '{') {
-    gdouble scale = 1.;
-    GtsFileVariable var[] = {
-      {GTS_DOUBLE, "rx", TRUE},
-      {GTS_DOUBLE, "ry", TRUE},
-      {GTS_DOUBLE, "rz", TRUE},
-      {GTS_DOUBLE, "sx", TRUE},
-      {GTS_DOUBLE, "sy", TRUE},
-      {GTS_DOUBLE, "sz", TRUE},
-      {GTS_DOUBLE, "tx", TRUE},
-      {GTS_DOUBLE, "ty", TRUE},
-      {GTS_DOUBLE, "tz", TRUE},
-      {GTS_DOUBLE, "scale", TRUE},
-      {GTS_INT,    "flip", TRUE},
-      {GTS_INT,    "twod", TRUE},
-      {GTS_NONE}
-    };
-    GtsFileVariable * v = var;
-
-    (v++)->data = &surface->rotate[0];
-    (v++)->data = &surface->rotate[1];
-    (v++)->data = &surface->rotate[2];
-
-    (v++)->data = &surface->scale[0];
-    (v++)->data = &surface->scale[1];
-    (v++)->data = &surface->scale[2];
-
-    (v++)->data = &surface->translate[0];
-    (v++)->data = &surface->translate[1];
-    (v++)->data = &surface->translate[2];
-
-    (v++)->data = &scale;
-
-    (v++)->data = &surface->flip;
-    (v++)->data = &surface->twod;
-
-    gts_file_assign_variables (fp, var);
-    if (fp->type == GTS_ERROR)
-      return;
-
-    gboolean set = FALSE;
-    guint i;
-    for (i = 0; i < 11 && !set; i++)
-      if (var[i].set)
-	set = TRUE;
-
-    if (set) {
-      if (var[9].set) {
-	surface->scale[0] *= scale;
-	surface->scale[1] *= scale;
-	surface->scale[2] *= scale;
-      }
-      gfs_surface_transformation (surface->s, 
-				  surface->rotate, surface->translate, surface->scale,
-				  surface->flip, 
-				  &surface->m);
-    }
-  }
-
-  if (dimensional) {
-    g_assert (surface->s);
-    gts_surface_foreach_vertex (surface->s, (GtsFunc) point_map, gfs_object_simulation (*o));
-  }
-}
-
-static void surface_write (GtsObject * o, FILE * fp)
-{
-  GfsSurface * surface = GFS_SURFACE (o);
-  if (surface->s) {
-    fputs (" { ", fp);
-    GtsSurface * s = surface->s;
-    if (GFS_DOMAIN (gfs_object_simulation (o))->binary) {
-      gboolean binary = GTS_POINT_CLASS (s->vertex_class)->binary;
-      GTS_POINT_CLASS (s->vertex_class)->binary = TRUE;
-      gts_surface_write (s, fp);
-      GTS_POINT_CLASS (s->vertex_class)->binary = binary;
-    }
-    else
-      gts_surface_write (s, fp);
-    fputc ('}', fp);
-  }
-  else if (surface->f) {
-    fputs (" (", fp);
-    gfs_function_write (surface->f, fp);
-    fputs (" )", fp);
-  }
-  if (surface->m) {
-    fputs (" {\n", fp);
-    if (gts_vector_norm (surface->translate) > 0.)
-      fprintf (fp, "  tx = %g ty = %g tz = %g\n",
-	       surface->translate[0], surface->translate[1], surface->translate[2]);
-    if (surface->scale[0] != 1. || surface->scale[1] != 1. || surface->scale[2] != 1.)
-      fprintf (fp, "  sx = %g sy = %g sz = %g\n",
-	       surface->scale[0], surface->scale[1], surface->scale[2]);
-    if (surface->rotate[0] != 0.)
-      fprintf (fp, "  rx = %g\n", surface->rotate[0]);
-    if (surface->rotate[1] != 0.)
-      fprintf (fp, "  ry = %g\n", surface->rotate[1]);
-    if (surface->rotate[2] != 0.)
-      fprintf (fp, "  rz = %g\n", surface->rotate[2]);
-    if (surface->flip)
-      fputs ("  flip = 1\n", fp);
-    if (surface->twod)
-      fputs ("  twod = 1\n", fp);
-    fputc ('}', fp);
-  }
-  else
-    fputs (" {}", fp);
-}
-
-static void surface_destroy (GtsObject * object)
-{
-  GfsSurface * s = GFS_SURFACE (object);
-  if (s->s)
-    gts_object_destroy (GTS_OBJECT (s->s));
-  if (s->f)
-    gts_object_destroy (GTS_OBJECT (s->f));
-  if (s->m)
-    gts_matrix_destroy (s->m);
-
-  (* GTS_OBJECT_CLASS (gfs_surface_class ())->parent_class->destroy) (object);
-}
-
-
-static void face_overlaps_box (GtsTriangle * t, gpointer * data)
-{
-  GtsBBox * bb = data[0];
-  GtsSurface ** s1 = data[1];
-
-  if (gts_bbox_overlaps_triangle (bb, t)) {
-    if (*s1 == NULL)
-      *s1 = gts_surface_new (gts_surface_class (),
-			     gts_face_class (),
-			     gts_edge_class (),
-			     gts_vertex_class ());
-    gts_surface_add_face (*s1, GTS_FACE (t));
-  }
-}
-
-#define SIGN(v) ((v) > 0. ? 1 : (v) < 0. ? -1 : 0)
-
-static GfsGenericSurface * cell_is_cut (FttCell * cell, GfsGenericSurface * s1, 
-					gboolean flatten, gint maxlevel)
-{
-  GfsSurface * s = GFS_SURFACE (s1);
-  if (s->s) {
-    GtsSurface * s1 = NULL;
-    gpointer data[2];
-    GtsBBox bb;
-    ftt_cell_bbox (cell, &bb);
-    if (flatten)
-      bb.z1 = bb.z2 = 0.;
-    data[0] = &bb;
-    data[1] = &s1;
-    gts_surface_foreach_face (s->s, (GtsFunc) face_overlaps_box, data);
-    if (s1 == NULL)
-      return NULL;
-    GfsSurface * s2 = GFS_SURFACE (gts_object_new (GTS_OBJECT_CLASS (gfs_surface_class ())));
-    s2->s = s1;
-    return GFS_GENERIC_SURFACE (s2);
-  }
-  else if (s->f) {
-    if (!FTT_CELL_IS_LEAF (cell))
-      return GFS_GENERIC_SURFACE (s);
-    FttVector p;
-    gdouble h = ftt_cell_size (cell)/2.;
-    ftt_cell_pos (cell, &p);
-    gint i, j, k = 0, sign = 0, n = 1;
-    i = maxlevel - ftt_cell_level (cell);
-    while (i-- > 0)
-      n *= 2;
-#if !FTT_2D
-    for (k = - n; k <= n; k += 2)
-#endif
-      for (i = - n; i <= n; i += 2)
-	for (j = - n; j <= n; j += 2) {
-	  GtsPoint o;
-	  o.x = p.x + i*h/n; o.y = p.y + j*h/n; o.z = p.z + k*h/n;
-	  gdouble v = gfs_surface_implicit_value (s, o);
-	  if (sign && sign*SIGN(v) <= 0)
-	    return GFS_GENERIC_SURFACE (s);
-	  sign = SIGN(v);
-	}
-    return NULL;
-  }
-  g_assert_not_reached ();
-  return NULL;
-}
-
-static gdouble segment_triangle_intersection (GtsPoint * E, GtsPoint * D,
-					      GtsTriangle * t,
-					      gboolean * inside)
-{
-  GtsVertex * vA, * vB, * vC;
-  GtsPoint * A, * B, * C;
-  gint ABCE, ABCD, ADCE, ABDE, BCDE;
-  GtsEdge * AB, * BC, * CA;
-  gdouble a, b;
-  gboolean reversed = FALSE;
-
-  gts_triangle_vertices_edges (t, NULL, &vA, &vB, &vC, &AB, &BC, &CA);
-  A = GTS_POINT (vA);
-  B = GTS_POINT (vB);
-  C = GTS_POINT (vC);
-  ABCE = gts_point_orientation_3d_sos (A, B, C, E);
-  ABCD = gts_point_orientation_3d_sos (A, B, C, D);
-  if (ABCE < 0 || ABCD > 0) {
-    GtsPoint * tmpp;
-    gint tmp;
-
-    tmpp = E; E = D; D = tmpp;
-    tmp = ABCE; ABCE = ABCD; ABCD = tmp;
-    reversed = TRUE;
-  }
-  if (ABCE < 0 || ABCD > 0)
-    return -1.;
-  ADCE = gts_point_orientation_3d_sos (A, D, C, E);
-  if (ADCE < 0)
-    return -1.;
-  ABDE = gts_point_orientation_3d_sos (A, B, D, E);
-  if (ABDE < 0)
-    return -1.;
-  BCDE = gts_point_orientation_3d_sos (B, C, D, E);
-  if (BCDE < 0)
-    return -1.;
-  *inside = reversed ? (ABCD < 0) : (ABCE < 0);
-  a = gts_point_orientation_3d (A, B, C, E);
-  b = gts_point_orientation_3d (A, B, C, D);
-  if (a != b)
-    return reversed ? 1. - a/(a - b) : a/(a - b);
-  /* D and E are contained within ABC */
-  g_assert (a == 0.);
-  return 0.5;
-}
-
-static void triangle_face_intersection (GtsTriangle * t, GfsSegment * I)
-{
-  gboolean ins;
-  gdouble x = segment_triangle_intersection (I->E, I->D, t, &ins);
-  
-  if (x != -1.) {
-    I->x += x; I->n++;
-    I->inside += ins ? 1 : -1;
-  }
-}
-
-static GtsPoint segment_intersection (GfsSegment * I)
-{
-  GtsPoint p;
-  p.x = I->E->x + I->x*(I->D->x - I->E->x);
-  p.y = I->E->y + I->x*(I->D->y - I->E->y);
-  p.z = I->E->z + I->x*(I->D->z - I->E->z);
-  /* lines below just to prevent compiler warnings about uninitialised fields */
-  p.object.flags = 0;
-  p.object.reserved = NULL;
-  p.object.klass = NULL;
-  return p;
-}
-
-static guint surface_segment_intersection (GfsGenericSurface * s1,
-					   FttCell * cell,
-					   GfsSegment * I)
-{
-  GfsSurface * s = GFS_SURFACE (s1);
-
-  I->n = 0;
-  I->x = 0.;
-  I->inside = 0;
-
-  if (s->s)
-    gts_surface_foreach_face (s->s, (GtsFunc) triangle_face_intersection, I);
-  else {
-    gdouble vE = gfs_surface_implicit_value (s, *I->E);
-    gdouble vD = gfs_surface_implicit_value (s, *I->D);
-    
-    if ((vE > 0. && vD <= 0.) || (vE <= 0. && vD > 0.)) {
-      I->n = 1;
-      I->inside = vE > 0. ? -1 : 1;
-
-      /* secant-bisection root-finding */
-      gdouble t, t1, t2, v1, v2;
-      if (vE > vD) {
-	v1 = vD; t1 = 1.;
-	v2 = vE; t2 = 0.;
-      }
-      else {
-	v1 = vE; t1 = 0.;
-	v2 = vD; t2 = 1.;
-      }
-      I->x = (v1*t2 - v2*t1)/(v1 - v2);
-      guint n = 0;
-      gint side = 0;
-      do {
-	t = I->x;
-	gdouble v = gfs_surface_implicit_value (s, segment_intersection (I));
-	if (v < 0.) {
-	  v1 = v; t1 = I->x;
-	  if (side == -1) v2 /= 2.;
-	  side = -1;
-	}
-	else {
-	  v2 = v; t2 = I->x;
-	  if (side == +1) v1 /= 2.;
-	  side = +1;
-	}
-	if (v2 > v1)
-	  I->x = (v1*t2 - v2*t1)/(v1 - v2);
-	n++;
-      }
-      while (fabs (t - I->x) > 1e-5 && n < 100);
-      if (fabs (t - I->x) > 1e-5)
-	g_warning ("gfs_surface_segment_intersection(): convergence could not be reached\n"
-		   "after %d iterations, error is %g", n, fabs (t - I->x));
-    }
-  }
-  return I->n;
-}
-
-static void surface_normal (GtsTriangle * t, GtsVector n)
-{
-  GtsVector m;
-  gts_triangle_normal (t, &m[0], &m[1], &m[2]);
-  n[0] -= m[0];
-  n[1] -= m[1];
-  n[2] -= m[2];
-}
-
-static void surface_segment_normal (GfsGenericSurface * s1,
-				    FttCell * cell,
-				    GfsSegment * I,
-				    GtsVector n)
-{
-  GfsSurface * s = GFS_SURFACE (s1);
-  if (s->s) {
-    n[0] = n[1] = n[2] = 0.;
-    gts_surface_foreach_face (s->s, (GtsFunc) surface_normal, n);
-  }
-  else {
-    FttComponent c;
-    GtsPoint p = segment_intersection (I);
-    for (c = 0; c < FTT_DIMENSION; c++) {
-      GtsPoint p1 = p;
-      (&p1.x)[c] -= 1e-4;
-      gdouble v1 = gfs_surface_implicit_value (s, p1);
-      (&p1.x)[c] += 2e-4;
-      gdouble v2 = gfs_surface_implicit_value (s, p1);
-      n[c] = v2 - v1;
-    }
-  }
-}
-
-static void add_tetrahedron_volume (GtsTriangle * t, gpointer * data)
-{
-  GtsPoint * p = data[0];
-  GtsVertex * v1, * v2, * v3;
-  gdouble * vol = data[1];
-  gts_triangle_vertices (t, &v1, &v2, &v3);
-  *vol += gts_point_orientation_3d (GTS_POINT (v1), GTS_POINT (v2), GTS_POINT (v3), p);
-}
-
-static gint point_is_inside_surface (GfsGenericSurface * s1, FttVector * p)
-{
-  GfsSurface * s = GFS_SURFACE (s1);
-  GtsPoint q;
-  q.x = p->x; q.y = p->y; q.z = p->z;
-
-  if (s->s) {
-    gdouble vol = 0.;
-    gpointer data[2];
-    data[0] = &q;
-    data[1] = &vol;
-    gts_surface_foreach_face (s->s, (GtsFunc) add_tetrahedron_volume, data);
-    fprintf (stderr, "vol: %g\n", vol);
-    return vol > 0. ? -1 : 1;
-  }
-  else {
-    gdouble v = gfs_surface_implicit_value (s, q);
-    return v == 0. ? 0 : v < 0. ? -1 : 1;
-  }
-  return 0;
-}
-
-static void gfs_surface_class_init (GtsObjectClass * klass)
-{
-  klass->read = surface_read;
-  klass->write = surface_write;
-  klass->destroy = surface_destroy;
-
-  GFS_GENERIC_SURFACE_CLASS (klass)->cell_is_cut = cell_is_cut;
-  GFS_GENERIC_SURFACE_CLASS (klass)->segment_intersection = surface_segment_intersection;
-  GFS_GENERIC_SURFACE_CLASS (klass)->segment_normal = surface_segment_normal;
-  GFS_GENERIC_SURFACE_CLASS (klass)->point_is_inside = point_is_inside_surface;
-}
-
-static void gfs_surface_init (GfsSurface * s)
-{
-  s->scale[0] = 1.; s->scale[1] = 1.; s->scale[2] = 1.;
-  s->flip = FALSE;
-}
-
-GfsGenericSurfaceClass * gfs_surface_class (void)
-{
-  static GfsGenericSurfaceClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_surface_info = {
-      "GfsSurface",
-      sizeof (GfsSurface),
-      sizeof (GfsGenericSurfaceClass),
-      (GtsObjectClassInitFunc) gfs_surface_class_init,
-      (GtsObjectInitFunc) gfs_surface_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_generic_surface_class ()), 
-				  &gfs_surface_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_surface_implicit_value:
- * @s: an (implicit) #GfsSurface.
- * @p: a #GtsPoint.
- *
- * Returns: the value of the implicit surface a location @p.
- */
-gdouble gfs_surface_implicit_value (GfsSurface * s, GtsPoint p)
-{
-  g_return_val_if_fail (s != NULL, 0.);
-  g_return_val_if_fail (s->f != NULL, 0.);
-
-  if (s->m)
-    gts_point_transform (&p, s->m);
-  return (s->flip ? -1. : 1.)*(gfs_function_spatial_value (s->f, (FttVector *)&p.x)
-			       /* fixme?? */ + 1e-6);
-}
diff --git a/src/surface.h b/src/surface.h
deleted file mode 100644
index d6fdae1..0000000
--- a/src/surface.h
+++ /dev/null
@@ -1,145 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __SURFACE_H__
-#define __SURFACE_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include <gts.h>
-#include "ftt.h"
-
-/* GfsGenericSurface: Header */
-
-typedef GtsObject GfsGenericSurface;
-
-typedef struct {
-  GtsPoint * E, * D;
-  gdouble x;
-  guint n;
-  gint inside;
-} GfsSegment;
-
-typedef struct _GfsGenericSurfaceClass    GfsGenericSurfaceClass;
-
-struct _GfsGenericSurfaceClass {
-  /*< private >*/
-  GtsObjectClass parent_class;
-
-  /*< public >*/
-  GfsGenericSurface * (* cell_is_cut)          (FttCell * cell,
-						GfsGenericSurface * s,
-						gboolean flatten,
-						gint maxlevel);
-  guint               (* segment_intersection) (GfsGenericSurface * s,
-						FttCell * cell,
-						GfsSegment * I);
-  void                (* segment_normal)       (GfsGenericSurface * s,
-						FttCell * cell,
-						GfsSegment * I,
-						GtsVector n);
-  gint                (* point_is_inside)      (GfsGenericSurface * s,
-						FttVector * p);
-};
-
-#define GFS_GENERIC_SURFACE(obj)            GTS_OBJECT_CAST (obj,\
-					         GtsObject,\
-					         gfs_generic_surface_class ())
-#define GFS_GENERIC_SURFACE_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 GfsGenericSurfaceClass,\
-						 gfs_generic_surface_class())
-#define GFS_IS_GENERIC_SURFACE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_generic_surface_class ()))
-
-GfsGenericSurfaceClass * gfs_generic_surface_class  (void);
-guint              gfs_surface_segment_intersection (GfsGenericSurface * s,
-						     FttCell * cell,
-						     GfsSegment * I);
-void               gfs_surface_segment_normal       (GfsGenericSurface * s,
-						     FttCell * cell,
-						     GfsSegment * I,
-						     GtsVector n);
-gint               gfs_surface_point_is_inside      (GfsGenericSurface * s,
-						     FttVector * p);
-GfsGenericSurface *      gfs_cell_is_cut (FttCell * cell,
-					  GfsGenericSurface * s,
-					  gboolean flatten,
-					  gint maxlevel);
-typedef void       (* FttCellTraverseCutFunc) (FttCell * cell,
-					       GfsGenericSurface * s,
-					       gpointer data);
-void               gfs_cell_traverse_cut       (FttCell * root,
-						GfsGenericSurface * s,
-						FttTraverseType order,
-						FttTraverseFlags flags,
-						FttCellTraverseCutFunc func,
-						gpointer data);
-void               gfs_cell_traverse_cut_2D    (FttCell * root,
-						GfsGenericSurface * s,
-						FttTraverseType order,
-						FttTraverseFlags flags,
-						FttCellTraverseCutFunc func,
-						gpointer data);
-void               gfs_generic_surface_read    (GfsGenericSurface * s, 
-						gpointer sim,
-						GtsFile * fp);
-void               gfs_generic_surface_write   (GfsGenericSurface * s,
-						gpointer sim,
-						FILE * fp);
-
-/* GfsSurface: Header */
-
-typedef struct _GfsSurface         GfsSurface;
-
-struct _GfsSurface {
-  /*< private >*/
-  GtsObject parent;
-  GtsVector rotate, scale, translate;
-  gboolean flip;
-  GfsFunction * f;
-  GtsMatrix * m;
-
-  /*< public >*/
-  GtsSurface * s;
-  gboolean twod;
-};
-
-#define GFS_SURFACE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSurface,\
-					         gfs_surface_class ())
-#define GFS_IS_SURFACE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_surface_class ()))
-
-GfsGenericSurfaceClass *   gfs_surface_class          (void);
-gdouble            gfs_surface_implicit_value (GfsSurface * s, 
-					       GtsPoint p);
-void               gfs_surface_transformation (GtsSurface * surface, 
-					       GtsVector rotate,
-					       GtsVector translate, 
-					       GtsVector scale,
-					       gboolean flip,
-					       GtsMatrix ** matrix);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __SURFACE_H__ */
diff --git a/src/tension.c b/src/tension.c
deleted file mode 100644
index 44e38ac..0000000
--- a/src/tension.c
+++ /dev/null
@@ -1,859 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include <stdlib.h>
-
-#include "tension.h"
-#include "vof.h"
-#include "levelset.h"
-
-/* GfsSourceTensionGeneric: Object */
-
-static void gfs_source_tension_generic_destroy (GtsObject * o)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_SOURCE_TENSION_GENERIC (o)->sigma));
-  (* GTS_OBJECT_CLASS (gfs_source_tension_generic_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_source_tension_generic_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSourceTensionGeneric * s = GFS_SOURCE_TENSION_GENERIC (*o);
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-
-  (* GTS_OBJECT_CLASS (gfs_source_tension_generic_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a variable (C)");
-    return;
-  }
-  if ((s->c = gfs_variable_from_name (domain->variables, fp->token->str)) == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  gfs_function_read (s->sigma, domain, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  gfs_function_set_units (s->sigma, 3.);
-}
-
-static void gfs_source_tension_generic_write (GtsObject * o, FILE * fp)
-{
-  GfsSourceTensionGeneric * t = GFS_SOURCE_TENSION_GENERIC (o);
-  (* GTS_OBJECT_CLASS (gfs_source_tension_generic_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %s", t->c->name);
-  gfs_function_write (t->sigma, fp);
-}
-
-typedef struct {
-  gdouble amin, amax;
-  guint depth;
-  gdouble sigma;
-  GfsSourceTensionGeneric * t;
-  GfsFunction * alpha;
-  GfsVariable * c;
-} StabilityParams;
-
-static void interface_level (FttCell * cell, StabilityParams * p)
-{
-  guint level = ftt_cell_level (cell);
-  if (level > p->depth &&
-      GFS_VALUE (cell, p->c) > 1e-3 && 
-      GFS_VALUE (cell, p->c) < 1. - 1.e-3) {
-    p->depth = level;
-    /* fixme: this may not work for a variable surface tension coefficient */
-    p->sigma = gfs_function_value (p->t->sigma, cell);
-  }
-}
-
-static void min_max_alpha (FttCell * cell, StabilityParams * p)
-{
-  interface_level (cell, p);
-  if (p->alpha) {
-    gdouble a = gfs_function_value (p->alpha, cell);
-    if (a < p->amin) p->amin = a;
-    if (a > p->amax) p->amax = a;
-  }
-}
-
-static gdouble gfs_source_tension_generic_stability (GfsSourceGeneric * s,
-						     GfsSimulation * sim)
-{
-  GfsSourceTensionGeneric * t = GFS_SOURCE_TENSION_GENERIC (s);
-  gdouble h;
-  StabilityParams p = { G_MAXDOUBLE, -G_MAXDOUBLE, 0 };
-
-  p.alpha = sim->physical_params.alpha;
-  p.c = t->c;
-  p.t = t;
-  p.sigma = 0.;
-  gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) min_max_alpha, &p);
-  if (p.sigma == 0.) /* no interface */
-    return G_MAXDOUBLE;
-  h = ftt_level_size (p.depth);
-  if (p.alpha) {
-    gdouble rhom = (1./p.amin + 1./p.amax)/2.;
-    return sqrt (rhom*h*h*h/(M_PI*p.sigma));
-  }
-  else
-    return sqrt (h*h*h/(M_PI*p.sigma));
-}
-
-static void gfs_source_tension_generic_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_source_tension_generic_destroy;
-  GTS_OBJECT_CLASS (klass)->read =    gfs_source_tension_generic_read;
-  GTS_OBJECT_CLASS (klass)->write =   gfs_source_tension_generic_write;
-  klass->stability =                  gfs_source_tension_generic_stability;
-}
-
-static void gfs_source_tension_generic_init (GfsSourceTensionGeneric * t)
-{
-  t->sigma = gfs_function_new (gfs_function_class (), 0.);
-}
-
-GfsSourceGenericClass * gfs_source_tension_generic_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_tension_generic_info = {
-      "GfsSourceTensionGeneric",
-      sizeof (GfsSourceTensionGeneric),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) gfs_source_tension_generic_class_init,
-      (GtsObjectInitFunc) gfs_source_tension_generic_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = 
-      gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_velocity_class ()),
-			    &gfs_source_tension_generic_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceTensionCSS: Object */
-
-static void gfs_source_tension_css_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSourceTensionCSS * s = GFS_SOURCE_TENSION_CSS (*o);
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  FttComponent c;
-
-  (* GTS_OBJECT_CLASS (gfs_source_tension_css_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    static gchar * name[3] = {"_Tx", "_Ty", "_Tz"};
-    if ((s->t[c] = gfs_variable_from_name (domain->variables, name[c])) == NULL)
-      s->t[c] = gfs_domain_add_variable (domain, name[c], NULL);
-  }
-}
-
-static void foreach_cell_normal (FttCell * cell, GfsSourceTensionCSS * s)
-{
-  FttVector n;
-  gdouble nn = 0.;
-  gdouble sigh = gfs_function_value (GFS_SOURCE_TENSION_GENERIC (s)->sigma, cell)
-    /ftt_cell_size (cell);
-  FttComponent c;
-
-  gfs_youngs_gradient (cell, GFS_SOURCE_TENSION_GENERIC (s)->c, &n);
-  for (c = 0; c < FTT_DIMENSION; c++)
-    nn += (&n.x)[c]*(&n.x)[c];
-  nn = sqrt (nn + 1e-50);
-  GFS_VARIABLE (cell, s->g[0]->i) = sigh*n.x*n.x/nn;
-  GFS_VARIABLE (cell, s->g[1]->i) = sigh*n.y*n.y/nn;
-  GFS_VARIABLE (cell, s->g[2]->i) = sigh*n.x*n.y/nn;
-}
-
-static void foreach_cell_tension_css (FttCell * cell, GfsSourceTensionCSS * s)
-{
-  gdouble h = ftt_cell_size (cell);
-  FttVector nx, ny, nxy;
-  GfsSimulation * sim = gfs_object_simulation (s);
-  gdouble alpha = sim->physical_params.alpha ? 
-    gfs_function_value (sim->physical_params.alpha, cell) : 1.;
-
-  gfs_youngs_gradient (cell, s->g[0], &nx);
-  gfs_youngs_gradient (cell, s->g[1], &ny);
-  gfs_youngs_gradient (cell, s->g[2], &nxy);
-
-  GFS_VARIABLE (cell, s->t[0]->i) = alpha*(ny.x - nxy.y)/h;
-  GFS_VARIABLE (cell, s->t[1]->i) = alpha*(nx.y - nxy.x)/h;
-}
-
-static gboolean gfs_source_tension_css_event (GfsEvent * event, 
-					      GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_source_tension_css_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsSourceTensionCSS * s = GFS_SOURCE_TENSION_CSS (event);
-    guint i;
-
-#if (!FTT_2D)
-    g_assert_not_implemented ();
-#endif
-
-    for (i = 0; i < 3; i++)
-      s->g[i] = gfs_temporary_variable (GFS_DOMAIN (sim));
-
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim),
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) foreach_cell_normal, event);
-    /* fixme: boundary conditions for normal */
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) foreach_cell_tension_css, event);
-    for (i = 0; i < 3; i++)
-      gts_object_destroy (GTS_OBJECT (s->g[i]));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static gdouble gfs_source_tension_css_value (GfsSourceGeneric * s, 
-					     FttCell * cell,
-					     GfsVariable * v)
-{
-  return GFS_VARIABLE (cell, GFS_SOURCE_TENSION_CSS (s)->t[v->component]->i);
-}
-
-static void gfs_source_tension_css_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_source_tension_css_read;
-  GFS_EVENT_CLASS (klass)->event = gfs_source_tension_css_event;
-}
-
-static void gfs_source_tension_css_init (GfsSourceGeneric * s)
-{
-  s->centered_value = gfs_source_tension_css_value;
-}
-
-GfsSourceGenericClass * gfs_source_tension_css_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_tension_css_info = {
-      "GfsSourceTensionCSS",
-      sizeof (GfsSourceTensionCSS),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) gfs_source_tension_css_class_init,
-      (GtsObjectInitFunc) gfs_source_tension_css_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = 
-      gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_tension_generic_class ()),
-			    &gfs_source_tension_css_info);
-  }
-
-  return klass;
-}
-
-/* GfsSourceTension: Object */
-
-static void gfs_source_tension_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSourceTension * s = GFS_SOURCE_TENSION (*o);
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-
-  (* GTS_OBJECT_CLASS (gfs_source_tension_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a variable (Kappa)");
-    return;
-  }
-  if ((s->k = gfs_variable_from_name (domain->variables, fp->token->str)) == NULL) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  if (GFS_IS_VARIABLE_POSITION (s->k))
-    gfs_function_set_units (GFS_SOURCE_TENSION_GENERIC (s)->sigma, 1.);
-}
-
-static void gfs_source_tension_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_source_tension_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %s", GFS_SOURCE_TENSION (o)->k->name);
-}
-
-static gdouble gfs_source_tension_stability (GfsSourceGeneric * s,
-					     GfsSimulation * sim)
-{
-  if (GFS_IS_VARIABLE_POSITION (GFS_SOURCE_TENSION (s)->k)) {
-    /* reduced gravity */
-    StabilityParams p = { G_MAXDOUBLE, -G_MAXDOUBLE, 0 };
-    p.c = GFS_SOURCE_TENSION_GENERIC (s)->c;
-    p.t = GFS_SOURCE_TENSION_GENERIC (s);
-    p.sigma = 0.;
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) interface_level, &p);
-    return p.sigma > 0. ? sqrt (ftt_level_size (p.depth)/fabs (p.sigma)) : G_MAXDOUBLE;
-  }
-  else 
-    /* surface tension */
-    return gfs_source_tension_generic_stability (s, sim);
-}
-
-static void gfs_source_tension_class_init (GfsSourceGenericClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read =       gfs_source_tension_read;
-  GTS_OBJECT_CLASS (klass)->write =      gfs_source_tension_write;
-  klass->stability =                     gfs_source_tension_stability;
-}
-
-GfsSourceGenericClass * gfs_source_tension_class (void)
-{
-  static GfsSourceGenericClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_source_tension_info = {
-      "GfsSourceTension",
-      sizeof (GfsSourceTension),
-      sizeof (GfsSourceGenericClass),
-      (GtsObjectClassInitFunc) gfs_source_tension_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = 
-      gts_object_class_new (GTS_OBJECT_CLASS (gfs_source_tension_generic_class ()),
-			    &gfs_source_tension_info);
-  }
-
-  return klass;
-}
-
-/* GfsVariableCurvature: object */
-
-static void variable_curvature_destroy (GtsObject * o)
-{
-  if (GFS_VARIABLE_CURVATURE (o)->kmax)
-    gts_object_destroy (GTS_OBJECT (GFS_VARIABLE_CURVATURE (o)->kmax));
-
-  (* GTS_OBJECT_CLASS (gfs_variable_curvature_class ())->parent_class->destroy) (o);
-}
-
-static void curvature_coarse_fine (FttCell * parent, GfsVariable * v)
-{
-  FttCellChildren child;
-  guint n;
-
-  ftt_cell_children (parent, &child);
-  for (n = 0; n < FTT_CELLS; n++)
-    if (child.c[n])
-      GFS_VARIABLE (child.c[n], v->i) = GFS_VARIABLE (parent, v->i);
-}
-
-static void curvature_fine_coarse (FttCell * parent, GfsVariable * v)
-{
-  FttCellChildren child;
-  gdouble val = 0., sa = 0.;
-  guint i;
-
-  ftt_cell_children (parent, &child);
-  for (i = 0; i < FTT_CELLS; i++)
-    if (child.c[i] && GFS_VARIABLE (child.c[i], v->i) < G_MAXDOUBLE) {
-      val += GFS_VARIABLE (child.c[i], v->i);
-      sa += 1.;
-    }
-  if (sa > 0.)
-    GFS_VARIABLE (parent, v->i) = val/sa;
-  else
-    GFS_VARIABLE (parent, v->i) = G_MAXDOUBLE;
-}
-
-static void variable_curvature_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsVariableCurvature * v = GFS_VARIABLE_CURVATURE (*o);
-  GfsDomain * domain;
-
-  (* GTS_OBJECT_CLASS (gfs_variable_curvature_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (fraction or distance)");
-    return;
-  }
-  domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  if (!(v->f = gfs_variable_from_name (domain->variables, fp->token->str))) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  g_free (GFS_VARIABLE1 (v)->description);
-  GFS_VARIABLE1 (v)->description = NULL;
-  if (GFS_IS_VARIABLE_TRACER (v->f)) {
-    if (!GFS_IS_VARIABLE_TRACER_VOF (v->f)) {
-       gts_file_error (fp, "variable `%s' is not a VOF tracer", fp->token->str);
-       return;
-    }
-    GFS_VARIABLE1 (v)->description = g_strjoin (" ", 
-						"Curvature of the interface defined by tracer",
-						v->f->name, NULL);
-    gts_file_next_token (fp);
-    if (fp->type == GTS_STRING) {
-      v->kmax = gfs_domain_get_or_add_variable (domain, fp->token->str, "Maximum curvature");
-      if (v->kmax) {
-	v->kmax->coarse_fine = curvature_coarse_fine;
-	v->kmax->fine_coarse = curvature_fine_coarse;
-	gts_file_next_token (fp);
-      }
-      else if (!GFS_IS_VARIABLE_POSITION (v)) {
-	gts_file_error (fp, "`%s' is a reserved variable name", fp->token->str);
-	return;
-      }
-    }
-  }
-  else if (GFS_IS_VARIABLE_DISTANCE (v->f)) {
-    GFS_VARIABLE1 (v)->description = g_strjoin (" ", 
-						"Curvature of the interface defined by distance",
-						v->f->name, NULL); 
-    gts_file_next_token (fp);
-  }
-  else {
-    gts_file_error (fp, "variable `%s' is neither a tracer nor a distance", fp->token->str);
-    return;
-  }
-  GFS_VARIABLE1 (v)->units = -1.;
-  if (v->kmax)
-    v->kmax->units = -1.;
-}
-
-static void variable_curvature_write (GtsObject * o, FILE * fp)
-{
-  GfsVariableCurvature * v = GFS_VARIABLE_CURVATURE (o);
-
-  (* GTS_OBJECT_CLASS (gfs_variable_curvature_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " %s", v->f->name);
-  if (v->kmax)
-    fprintf (fp, " %s", v->kmax->name);
-}
-
-static void height_curvature (FttCell * cell, GfsVariable * v)
-{
-  GfsVariable * t = GFS_VARIABLE_CURVATURE (v)->f;
-  GfsVariable * kmax = GFS_VARIABLE_CURVATURE (v)->kmax;
-  gdouble f = GFS_VALUE (cell, t);
-
-  if (GFS_IS_FULL (f)) {
-    GFS_VALUE (cell, v) = G_MAXDOUBLE;
-    if (kmax)
-      GFS_VALUE (cell, kmax) = G_MAXDOUBLE;
-  }
-  else {
-    if (kmax) {
-      gdouble k;
-      GFS_VALUE (cell, v) = gfs_height_curvature (cell, GFS_VARIABLE_TRACER_VOF (t), &k);
-      GFS_VALUE (cell, kmax) = k;
-    }
-    else
-      GFS_VALUE (cell, v) = gfs_height_curvature (cell, GFS_VARIABLE_TRACER_VOF (t), NULL);
-  }
-}
-
-static void fit_curvature (FttCell * cell, GfsVariable * v)
-{
-  GfsVariable * t = GFS_VARIABLE_CURVATURE (v)->f;
-  gdouble f = GFS_VALUE (cell, t);
-
-  if (!GFS_IS_FULL (f) && GFS_VALUE (cell, v) == G_MAXDOUBLE) {
-    GfsVariable * kmax = GFS_VARIABLE_CURVATURE (v)->kmax;
-    if (kmax) {
-      gdouble k;
-      GFS_VALUE (cell, v) = gfs_fit_curvature (cell, GFS_VARIABLE_TRACER_VOF (t), &k);
-      GFS_VALUE (cell, kmax) = k;
-    }
-    else
-      GFS_VALUE (cell, v) = gfs_fit_curvature (cell, GFS_VARIABLE_TRACER_VOF (t), NULL);    
-  }
-}
-
-typedef struct {
-  GfsVariable * v, * f, * tmp;
-} DiffuseParms;
-
-#define FMIN 0.01
-
-static void diffuse_kmax (FttCell * cell, DiffuseParms * p)
-{
-  gdouble f = GFS_VARIABLE (cell, p->f->i);
-  if (GFS_VARIABLE (cell, p->v->i) < G_MAXDOUBLE && f*(1. - f) > FMIN*(1. - FMIN))
-    GFS_VARIABLE (cell, p->tmp->i) = GFS_VARIABLE (cell, p->v->i);
-  else {
-    FttCellNeighbors neighbor;
-    gdouble sa = 0., s = 0.;
-    FttDirection d;
-
-    ftt_cell_neighbors (cell, &neighbor);
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (neighbor.c[d] && GFS_VARIABLE (neighbor.c[d], p->v->i) < G_MAXDOUBLE) {
-	gdouble f = GFS_VARIABLE (neighbor.c[d], p->f->i);
-	if (f*(1. - f) > FMIN*(1. - FMIN)) {
-	  f *= 1. - f;
-	  s += f*GFS_VARIABLE (neighbor.c[d], p->v->i);
-	  sa += f;
-	}
-      }
-    if (sa > 0.)
-      GFS_VARIABLE (cell, p->tmp->i) = s/sa;
-    else
-      GFS_VARIABLE (cell, p->tmp->i) = GFS_VARIABLE (cell, p->v->i);
-  }
-}
-
-static void diffuse (FttCell * cell, DiffuseParms * p)
-{
-  if (GFS_VARIABLE (cell, p->v->i) < G_MAXDOUBLE)
-    GFS_VARIABLE (cell, p->tmp->i) = GFS_VARIABLE (cell, p->v->i);
-  else {
-    FttCellNeighbors neighbor;
-    gdouble sa = 0., s = 0.;
-    FttDirection d;
-
-    ftt_cell_neighbors (cell, &neighbor);
-    for (d = 0; d < FTT_NEIGHBORS; d++)
-      if (neighbor.c[d] && GFS_VARIABLE (neighbor.c[d], p->v->i) < G_MAXDOUBLE) {
-	s += GFS_VARIABLE (neighbor.c[d], p->v->i);
-	sa += 1.;
-      }
-    if (sa > 0.)
-      GFS_VARIABLE (cell, p->tmp->i) = s/sa;
-    else
-      GFS_VARIABLE (cell, p->tmp->i) = G_MAXDOUBLE;
-  }
-}
-
-static void variable_curvature_diffuse (GfsVariable * v, GfsVariable * f, 
-					GfsSimulation * sim, guint n)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  FttCellTraverseFunc diff = f ? (FttCellTraverseFunc) diffuse_kmax : (FttCellTraverseFunc) diffuse;
-  DiffuseParms p;
-  p.v = v;
-  p.f = f;
-  p.tmp = gfs_temporary_variable (domain);
-
-  while (n--) {
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1, diff, &p);
-    gfs_variables_swap (p.v, p.tmp);
-    gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) p.v->fine_coarse, p.v);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, p.v);
-  }
-
-  gts_object_destroy (GTS_OBJECT (p.tmp));  
-}
-
-static void variable_curvature_from_fraction (GfsEvent * event, GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsVariable * kmax = GFS_VARIABLE_CURVATURE (event)->kmax;
-
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) height_curvature, event);
-  gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) GFS_VARIABLE1 (event)->fine_coarse, event);
-  gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, GFS_VARIABLE1 (event));
-  if (kmax) {
-    gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) kmax->fine_coarse, kmax);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, kmax);
-    variable_curvature_diffuse (kmax, GFS_VARIABLE_CURVATURE (event)->f, sim, 1);
-  }
-  variable_curvature_diffuse (GFS_VARIABLE1 (event), NULL, sim, 1);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) fit_curvature, event);
-  gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) GFS_VARIABLE1 (event)->fine_coarse, event);
-  gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, GFS_VARIABLE1 (event));
-  if (kmax) {
-    gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) kmax->fine_coarse, kmax);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, kmax);
-    variable_curvature_diffuse (kmax, GFS_VARIABLE_CURVATURE (event)->f, sim, 1);
-  }
-  variable_curvature_diffuse (GFS_VARIABLE1 (event), NULL, sim, 1);
-}
-
-static void normal (FttCell * cell, gpointer * data)
-{
-  GfsVariable ** nv = data[0];
-  GfsVariable * d = GFS_VARIABLE_CURVATURE (data[1])->f;
-  GtsVector n = { 0., 0., 0. };
-  FttComponent c;
-
-  for (c = 0; c < FTT_DIMENSION; c++)
-    n[c] = gfs_center_gradient (cell, c, d->i);
-  gts_vector_normalize (n);
-  for (c = 0; c < FTT_DIMENSION; c++)
-    GFS_VARIABLE (cell, nv[c]->i) = n[c];
-}
-
-static void distance_curvature (FttCell * cell, gpointer * data)
-{
-  GfsVariable ** nv = data[0];
-  gdouble kappa = 0.;
-  FttComponent c;
-
-  for (c = 0; c < FTT_DIMENSION; c++)
-    kappa += gfs_center_gradient (cell, c, nv[c]->i);
-  GFS_VALUE (cell, nv[FTT_DIMENSION]) = kappa/ftt_cell_size (cell);
-}
-
-static void interface_curvature (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[1];
-  GfsVariableCurvature * k = GFS_VARIABLE_CURVATURE (v);
-  gdouble f = GFS_VARIABLE (cell, GFS_VARIABLE_DISTANCE (k->f)->v->i);
-
-  if (GFS_IS_FULL (f))
-    GFS_VARIABLE (cell, v->i) = G_MAXDOUBLE;
-  else {
-    GfsVariable ** nv = data[0];
-    gdouble h = ftt_cell_size (cell)/2.;
-    FttCell * target = cell;
-    FttComponent c;
-    FttVector p;
-
-    ftt_cell_pos (cell, &p);
-    for (c = 0; c < FTT_DIMENSION; c++) {
-      gdouble delta = GFS_VARIABLE (cell, k->f->i)*GFS_VARIABLE (cell, nv[c]->i);
-      (&p.x)[c] -= delta;
-      if (fabs (delta) > h)
-	target = NULL;
-    }
-    if (!target)
-      target = gfs_domain_locate (v->domain, p, -1, NULL);
-    GFS_VARIABLE (cell, v->i) = gfs_interpolate (target, p, nv[FTT_DIMENSION]);
-  }
-}
-
-static void variable_curvature_from_distance (GfsEvent * event, GfsSimulation * sim)
-{
-  GfsVariable * n[FTT_DIMENSION + 1];
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  gpointer data[2];
-  FttComponent c;
-
-  if (GFS_IS_AXI (sim))
-    g_assert_not_implemented ();
-
-  for (c = 0; c < FTT_DIMENSION + 1; c++)
-    n[c] = gfs_temporary_variable (domain);
-  gfs_variable_set_vector (n, FTT_DIMENSION);
-  data[0] = n;
-  data[1] = event;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) normal, data);
-  for (c = 0; c < FTT_DIMENSION; c++)
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, n[c]);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) distance_curvature, data);
-  gfs_domain_copy_bc (domain, FTT_TRAVERSE_LEAFS, -1, 
-		      GFS_VARIABLE1 (event), n[FTT_DIMENSION]);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) interface_curvature, data);
-  gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) GFS_VARIABLE1 (event)->fine_coarse, event);
-  gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, GFS_VARIABLE1 (event));
-  for (c = 0; c < FTT_DIMENSION + 1; c++)
-    gts_object_destroy (GTS_OBJECT (n[c]));
-
-  variable_curvature_diffuse (GFS_VARIABLE1 (event), NULL, sim, 2);
-}
-
-static gboolean variable_curvature_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_variable_curvature_class ())->parent_class)->event)
-      (event, sim)) {
-    if (GFS_IS_VARIABLE_TRACER (GFS_VARIABLE_CURVATURE (event)->f))
-      variable_curvature_from_fraction (event, sim);
-    else /* distance */
-      variable_curvature_from_distance (event, sim);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void variable_curvature_class_init (GtsObjectClass * klass)
-{
-  klass->destroy = variable_curvature_destroy;
-  klass->read = variable_curvature_read;
-  klass->write = variable_curvature_write;
-  GFS_EVENT_CLASS (klass)->event = variable_curvature_event;
-}
-
-static void variable_curvature_init (GfsVariable * v)
-{
-  v->coarse_fine = curvature_coarse_fine;
-  v->fine_coarse = curvature_fine_coarse;
-  v->units = -1.;
-}
-
-GfsVariableClass * gfs_variable_curvature_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_curvature_info = {
-      "GfsVariableCurvature",
-      sizeof (GfsVariableCurvature),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_curvature_class_init,
-      (GtsObjectInitFunc) variable_curvature_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_curvature_info);
-  }
-
-  return klass;
-}
-
-/* GfsVariablePosition: object */
-
-static void variable_position_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsVariablePosition * v = GFS_VARIABLE_POSITION (*o);
-
-  (* GTS_OBJECT_CLASS (gfs_variable_position_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (component)");
-    return;
-  }
-  if (!strcmp (fp->token->str, "x"))
-    v->c = FTT_X;
-  else if (!strcmp (fp->token->str, "y"))
-    v->c = FTT_Y;
-#if !FTT_2D
-  else if (!strcmp (fp->token->str, "z"))
-    v->c = FTT_Z;
-#endif /* 3D */
-  else {
-    gts_file_error (fp, "`%s' is not a valid component", fp->token->str);
-    return;
-  }
-  if (GFS_VARIABLE1 (v)->description)
-    g_free (GFS_VARIABLE1 (v)->description);
-  GFS_VARIABLE1 (v)->description = g_strjoin (" ", fp->token->str,
-					      "coordinate of the interface defined by tracer",
-					      GFS_VARIABLE_CURVATURE (v)->f->name, NULL);
-  GFS_VARIABLE1 (v)->units = 1.;
-  gts_file_next_token (fp);
-  if (fp->type != '\n')
-    /* fixme: mapping? */
-    v->ref = gfs_read_constant (fp, gfs_object_simulation (*o));
-}
-
-static void variable_position_write (GtsObject * o, FILE * fp)
-{
-  GfsVariablePosition * v = GFS_VARIABLE_POSITION (o);
-
-  (* GTS_OBJECT_CLASS (gfs_variable_position_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " %s", v->c == FTT_X ? "x" : v->c == FTT_Y ? "y" : "z");
-  if (v->ref != 0.)
-    fprintf (fp, " %g", v->ref);
-}
-
-static void position (FttCell * cell, GfsVariable * v)
-{
-  FttVector p;
-
-  if (gfs_vof_center (cell, GFS_VARIABLE_TRACER_VOF (GFS_VARIABLE_CURVATURE (v)->f), &p))
-    GFS_VARIABLE (cell, v->i) = (&p.x)[GFS_VARIABLE_POSITION (v)->c] - 
-      GFS_VARIABLE_POSITION (v)->ref;
-  else
-    GFS_VARIABLE (cell, v->i) = G_MAXDOUBLE;
-}
-
-static gboolean variable_position_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_variable_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    
-    gfs_domain_timer_start (domain, "variable_position");
-    
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) position, event);
-    gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) GFS_VARIABLE1 (event)->fine_coarse, event);
-    gfs_domain_bc (domain, FTT_TRAVERSE_ALL, -1, GFS_VARIABLE1 (event));
-    
-    variable_curvature_diffuse (GFS_VARIABLE1 (event), NULL, sim, 2);
-    
-    gfs_domain_timer_stop (domain, "variable_position");
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void variable_position_class_init (GtsObjectClass * klass)
-{
-  klass->read = variable_position_read;
-  klass->write = variable_position_write;
-  GFS_EVENT_CLASS (klass)->event = variable_position_event;
-}
-
-static void variable_position_init (GfsVariable * v)
-{
-  v->units = 1.;
-}
-
-GfsVariableClass * gfs_variable_position_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_position_info = {
-      "GfsVariablePosition",
-      sizeof (GfsVariablePosition),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_position_class_init,
-      (GtsObjectInitFunc) variable_position_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_curvature_class ()), 
-				  &gfs_variable_position_info);
-  }
-
-  return klass;
-}
diff --git a/src/tension.h b/src/tension.h
deleted file mode 100644
index 73b199e..0000000
--- a/src/tension.h
+++ /dev/null
@@ -1,139 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __TENSION_H__
-#define __TENSION_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "source.h"
-
-/* GfsSourceTensionGeneric: Header */
-
-typedef struct _GfsSourceTensionGeneric         GfsSourceTensionGeneric;
-
-struct _GfsSourceTensionGeneric {
-  /*< private >*/
-  GfsSourceVelocity parent;
-  
-  /*< public >*/
-  GfsVariable * c;
-  GfsFunction * sigma;
-};
-
-#define GFS_SOURCE_TENSION_GENERIC(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceTensionGeneric,\
-					         gfs_source_tension_generic_class ())
-#define GFS_IS_SOURCE_TENSION_GENERIC(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_tension_generic_class ()))
-
-GfsSourceGenericClass * gfs_source_tension_generic_class (void);
-
-/* GfsSourceTensionCSS: Header */
-
-typedef struct _GfsSourceTensionCSS         GfsSourceTensionCSS;
-
-struct _GfsSourceTensionCSS {
-  /*< private >*/
-  GfsSourceTensionGeneric parent;
-  GfsVariable * g[3];
-  
-  /*< public >*/
-  GfsVariable * t[FTT_DIMENSION];
-};
-
-#define GFS_SOURCE_TENSION_CSS(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceTensionCSS,\
-					         gfs_source_tension_css_class ())
-#define GFS_IS_SOURCE_TENSION_CSS(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_tension_css_class ()))
-
-GfsSourceGenericClass * gfs_source_tension_css_class (void);
-
-/* GfsSourceTension: Header */
-
-typedef struct _GfsSourceTension         GfsSourceTension;
-
-struct _GfsSourceTension {
-  /*< private >*/
-  GfsSourceTensionGeneric parent;
-  
-  /*< public >*/
-  GfsVariable * k;
-};
-
-#define GFS_SOURCE_TENSION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSourceTension,\
-					         gfs_source_tension_class ())
-#define GFS_IS_SOURCE_TENSION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_source_tension_class ()))
-
-GfsSourceGenericClass * gfs_source_tension_class        (void);
-void                    gfs_source_tension_coefficients (GfsSourceTension * s,
-							 GfsDomain * domain,
-							 GfsFunction * alpha);
-
-/* GfsVariableCurvature: header */
-
-typedef struct _GfsVariableCurvature                GfsVariableCurvature;
-
-struct _GfsVariableCurvature {
-  /*< private >*/
-  GfsVariable parent;
-
-  /*< public >*/
-  GfsVariable * f, * kmax;
-};
-
-#define GFS_VARIABLE_CURVATURE(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsVariableCurvature,\
-					           gfs_variable_curvature_class ())
-#define GFS_IS_VARIABLE_CURVATURE(obj)         (gts_object_is_from_class (obj,\
-					     gfs_variable_curvature_class ()))
-
-GfsVariableClass * gfs_variable_curvature_class  (void);
-
-/* GfsVariablePosition: header */
-
-typedef struct _GfsVariablePosition                GfsVariablePosition;
-
-struct _GfsVariablePosition {
-  /*< private >*/
-  GfsVariableCurvature parent;
-
-  /*< public >*/
-  FttComponent c;
-  gdouble ref;
-};
-
-#define GFS_VARIABLE_POSITION(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsVariablePosition,\
-					           gfs_variable_position_class ())
-#define GFS_IS_VARIABLE_POSITION(obj)         (gts_object_is_from_class (obj,\
-					     gfs_variable_position_class ()))
-
-GfsVariableClass * gfs_variable_position_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __TENSION_H__ */
diff --git a/src/timestep.c b/src/timestep.c
deleted file mode 100644
index df568c8..0000000
--- a/src/timestep.c
+++ /dev/null
@@ -1,1053 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include <stdlib.h>
-
-#include "timestep.h"
-#include "source.h"
-#include "solid.h"
-#include "tension.h"
-
-static void reset_cell_gradients (FttCell * cell, gpointer * data)
-{
-  GfsVariable ** g = data[0];
-  guint * dimension = data[1];    
-  FttComponent c;
-
-  for (c = 0; c < *dimension; c++)
-    GFS_VARIABLE (cell, g[c]->i) = 0.;
-}
-
-static void reset_gradients (GfsDomain * domain, guint dimension, GfsVariable ** g)
-{
-  gpointer data[2];
-  data[0] = g;
-  data[1] = &dimension;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) reset_cell_gradients, data);
-}
-
-static void scale_cell_gradients (FttCell * cell, gpointer * data)
-{
-  GfsVariable ** g = data[0];
-  guint * dimension = data[1];
-  FttComponent c;
-
-  /* fixme: mapping??? */
-  if (GFS_IS_MIXED (cell)) {
-    GfsSolidVector * s = GFS_STATE (cell)->solid;
-
-    for (c = 0; c < *dimension; c++)
-      if (s->s[2*c] + s->s[2*c + 1] > 0.)
-	GFS_VARIABLE (cell, g[c]->i) /= s->s[2*c] + s->s[2*c + 1];
-      else
-	g_assert (GFS_VARIABLE (cell, g[c]->i) == 0.);
-  }
-  else {
-    FttCellNeighbors n;
-    
-    ftt_cell_neighbors (cell, &n);
-    for (c = 0; c < *dimension; c++) {
-      FttCell * c1 = n.c[2*c], * c2 = n.c[2*c + 1];
-      
-      if (c1 && c2 && !GFS_CELL_IS_GRADIENT_BOUNDARY (c1) && !GFS_CELL_IS_GRADIENT_BOUNDARY (c2))
-	GFS_VARIABLE (cell, g[c]->i) /= 2.;
-    }
-  }
-}
-
-/**
- * gfs_scale_gradients:
- * @domain: a #GfsDomain.
- * @dimension: the number of dimensions.
- * @g: the components of the gradient.
- *
- * Scales the gradient accumulated in @g (typically using
- * gfs_correct_normal_velocities()).
- */
-void gfs_scale_gradients (GfsDomain * domain, guint dimension, GfsVariable ** g)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (g != NULL);
-
-  gpointer data[2];
-  data[0] = g;
-  data[1] = &dimension;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) scale_cell_gradients, data);
-  FttComponent c;
-  for (c = 0; c < dimension; c++)
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, g[c]);
-}
-
-typedef struct {
-  GfsVariable * p, ** gv;
-  gdouble dt;
-} CorrectPar;
-
-static void correct_normal_velocity (FttCellFace * face,
-				     CorrectPar * par)
-{
-  GfsGradient g;
-  gdouble dp, f;
-
-  if (GFS_FACE_FRACTION_RIGHT (face) == 0.)
-    return;
-
-  gfs_face_weighted_gradient (face, &g, par->p->i, -1);
-  dp = (g.b - g.a*GFS_VALUE (face->cell, par->p))/ftt_cell_size (face->cell);
-  if (!FTT_FACE_DIRECT (face))
-    dp = - dp;
-  f = gfs_domain_face_fraction (par->p->domain, face);
-  if (f > 0.)
-    dp /= f;
-
-  GFS_FACE_NORMAL_VELOCITY_LEFT (face) -= dp*par->dt;
-  if (par->gv)
-    GFS_VALUE (face->cell, par->gv[face->d/2]) += dp*GFS_FACE_FRACTION_LEFT (face);
-
-  if (ftt_face_type (face) == FTT_FINE_COARSE)
-    dp *= GFS_FACE_FRACTION_LEFT (face)/(GFS_FACE_FRACTION_RIGHT (face)*FTT_CELLS/2);
-  GFS_FACE_NORMAL_VELOCITY_RIGHT (face) -= dp*par->dt;
-  if (par->gv)
-    GFS_VALUE (face->neighbor, par->gv[face->d/2]) += dp*GFS_FACE_FRACTION_RIGHT (face);
-}
-
-/**
- * gfs_correct_normal_velocities:
- * @domain: a #GfsDomain.
- * @dimension: the number of dimensions (2 or 3).
- * @p: the pressure field.
- * @g: where to store the pressure gradient or %NULL.
- * @dt: the timestep.
- *
- * Corrects the normal velocity field of @domain using @p and and @dt.
- *
- * Assumes that the Poisson weighting coefficients have already been
- * computed using gfs_poisson_coefficients().
- *
- * Also fills the @g variables (if not %NULL) with the centered
- * gradient of @p.
- */
-void gfs_correct_normal_velocities (GfsDomain * domain,
-				    guint dimension,
-				    GfsVariable * p,
-				    GfsVariable ** g,
-				    gdouble dt)
-{
-  CorrectPar par;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (p != NULL);
-
-  par.p = p;
-  par.gv = g;
-  par.dt = dt;
-  gfs_domain_face_traverse (domain, dimension == 2 ? FTT_XY : FTT_XYZ,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) correct_normal_velocity, &par);
-}
-
-static void scale_divergence (FttCell * cell, gpointer * data)
-{
-  GfsVariable * div = data[0];
-  gdouble * dt = data[1];
-
-  GFS_VARIABLE (cell, div->i) /= *dt;
-}
-
-typedef struct {
-  GfsSourceGeneric * s;
-  GfsVariable * v, ** g;
-  gdouble dt;
-} FaceSource;
-
-static void add_face_source (FttCellFace * face,
-			     FaceSource * f)
-{
-  gdouble dp;
-  FttComponent c;
-
-  if (GFS_FACE_FRACTION_RIGHT (face) == 0.)
-    return;
-
-  c = face->d/2;
-  dp = (* f->s->face_value) (f->s, face, f->v);
-  GFS_FACE_NORMAL_VELOCITY_LEFT (face) += dp*f->dt;
-  if (f->g)
-    GFS_VARIABLE (face->cell, f->g[c]->i) -= dp*GFS_FACE_FRACTION_LEFT (face);
-
-  if (ftt_face_type (face) == FTT_FINE_COARSE)
-    dp *= GFS_FACE_FRACTION_LEFT (face)/(GFS_FACE_FRACTION_RIGHT (face)*FTT_CELLS/2);
-  GFS_FACE_NORMAL_VELOCITY_RIGHT (face) += dp*f->dt;
-  if (f->g)
-    GFS_VARIABLE (face->neighbor, f->g[c]->i) -= dp*GFS_FACE_FRACTION_RIGHT (face);
-}
-
-static void velocity_face_sources (GfsDomain * domain,
-				   GfsVariable ** u,
-				   gdouble dt,
-				   GfsFunction * alpha,
-				   GfsVariable ** g)
-{
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    if (u[c]->sources) {
-      GSList * i = GTS_SLIST_CONTAINER (u[c]->sources)->items;
-      
-      while (i) {
-	GfsSourceGeneric * s = i->data;
-	if (s->face_value) {
-	  FaceSource f;
-	  f.s = s;
-	  f.v = u[c];
-	  f.g = g;
-	  f.dt = dt;
-	  gfs_domain_face_traverse (domain, c,
-				    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				    (FttFaceTraverseFunc) add_face_source, &f);
-	}	  
-	i = i->next;
-      }
-    }
-  if (u[0]->sources) {
-    GSList * i = GTS_SLIST_CONTAINER (u[0]->sources)->items;
-    
-    while (i) {
-      if (GFS_IS_SOURCE_TENSION (i->data)) {
-	GfsSourceTension * s = i->data;
-	gfs_source_tension_coefficients (s, domain, alpha);
-	gfs_correct_normal_velocities (domain, FTT_DIMENSION,
-				       GFS_SOURCE_TENSION_GENERIC (s)->c,
-				       g, dt);
-      }
-      i = i->next;
-    }
-  }
-}
-
-/**
- * gfs_update_gradients:
- * @domain: a #GfsDomain.
- * @p: the pressure.
- * @alpha: the Poisson equation gradient weight.
- * @g: where to store the pressure gradient.
- *
- * Updates the gradients in @g using @p and @alpha.
- */
-void gfs_update_gradients (GfsDomain * domain, 
-			   GfsVariable * p,  
-			   GfsFunction * alpha, 
-			   GfsVariable ** g)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (g != NULL);
-
-  /* Add face sources */
-  reset_gradients (domain, FTT_DIMENSION, g);
-  velocity_face_sources (domain, gfs_domain_velocity (domain), 0., alpha, g);
-  /* Initialize face coefficients */
-  gfs_poisson_coefficients (domain, alpha);
-  /* Add pressure gradient */
-  gfs_correct_normal_velocities (domain, FTT_DIMENSION, p, g, 0.);
-  gfs_scale_gradients (domain, FTT_DIMENSION, g);
-}
-
-static void mac_projection (GfsDomain * domain,
-			    GfsMultilevelParams * par,
-			    GfsAdvectionParams * apar,
-			    GfsVariable * p,
-			    GfsFunction * alpha,
-			    GfsVariable * res,
-			    GfsVariable ** g,
-			    void (* divergence_hook) (GfsDomain * domain, 
-						      GfsAdvectionParams * apar, 
-						      GfsVariable * div)
-			    )
-{
-  /* Add face sources */
-  reset_gradients (domain, FTT_DIMENSION, g);
-  velocity_face_sources (domain, gfs_domain_velocity (domain), apar->dt, alpha, g);
-
-  GfsVariable * dia = gfs_temporary_variable (domain);
-  GfsVariable * div = gfs_temporary_variable (domain);
-  GfsVariable * res1 = res ? res : gfs_temporary_variable (domain);
-
-  /* Initialize face coefficients */
-  gfs_poisson_coefficients (domain, alpha);
-
-  /* Initialize diagonal coefficient */
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			    (FttCellTraverseFunc) gfs_cell_reset, dia);
-
-  /* compute MAC divergence */
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) gfs_normal_divergence, div);
-
-  /* Divergence hook */
-  if (divergence_hook)
-    (* divergence_hook) (domain, apar, div);
-
-  /* Scale divergence */
-  gpointer data[2];
-  data[0] = div;
-  data[1] = &apar->dt;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-  			    (FttCellTraverseFunc) scale_divergence, data);
-
-#if 0
-  {
-    FILE * fp = fopen ("/tmp/mac", "wt");
-    GfsNorm norm;
-
-    gfs_write_mac_velocity (domain, 0.9, FTT_TRAVERSE_LEAFS, -1, NULL, fp);
-    fclose (fp);
-    norm = gfs_domain_norm_variable (domain, div, FTT_TRAVERSE_LEAFS, -1);
-    fprintf (stderr, "mac div before: %g %g %g\n",
-	     norm.first, norm.second, norm.infty);
-  }
-#endif
-  
-  /* compute residual */
-  par->depth = gfs_domain_depth (domain);
-  gfs_residual (domain, par->dimension, FTT_TRAVERSE_LEAFS, -1, p, div, dia, res1);
-  /* solve for pressure */
-  par->residual_before = par->residual = 
-    gfs_domain_norm_residual (domain, FTT_TRAVERSE_LEAFS, -1, apar->dt, res1);
-  gdouble res_max_before = par->residual.infty;
-  guint minlevel = par->minlevel;
-  par->niter = 0;
-  while (par->niter < par->nitermin ||
-	 (par->residual.infty > par->tolerance && par->niter < par->nitermax)) {
-#if 0
-    if (domain->pid <= 0)
-      fprintf (stderr, "%d bias: %g first: %g second: %g infty: %g\n",
-	       par->niter, 
-	       par->residual.bias, 
-	       par->residual.first, 
-	       par->residual.second, 
-	       par->residual.infty);
-#endif
-    gfs_poisson_cycle (domain, par, p, div, dia, res1);
-    par->residual = gfs_domain_norm_residual (domain, FTT_TRAVERSE_LEAFS, -1, apar->dt, res1);
-    if (par->residual.infty == res_max_before) /* convergence has stopped!! */
-      break;
-    if (par->residual.infty > res_max_before/1.1 && par->minlevel < par->depth)
-      par->minlevel++;
-    res_max_before = par->residual.infty;
-    par->niter++;
-  }
-  par->minlevel = minlevel;
-
-  gts_object_destroy (GTS_OBJECT (dia));
-  gts_object_destroy (GTS_OBJECT (div));
-  if (!res)
-    gts_object_destroy (GTS_OBJECT (res1));
-
-  gfs_correct_normal_velocities (domain, FTT_DIMENSION, p, g, apar->dt);
-  gfs_scale_gradients (domain, FTT_DIMENSION, g);
-}
-
-/**
- * gfs_mac_projection:
- * @domain: a #GfsDomain.
- * @par: the projection control parameters.
- * @apar: the advection parameters.
- * @p: the pressure.
- * @alpha: the Poisson equation gradient weight.
- * @g: where to store the pressure gradient.
- * @divergence_hook: a hook function or %NULL.
- *
- * Corrects the face-centered velocity field (MAC field) on the leaf
- * level of @domain using an exact (MAC) projection. The resulting
- * face-centered velocity field is (almost) exactly divergence
- * free. The (potential) pressure field is also obtained as a
- * by-product as well as its gradient at the center of the leaf cells
- * of the domain. The gradient is stored in newly-allocated @g[]
- * variables and is obtained by simple averaging from the face values
- * to the center. The newly-allocated @g[] variables should be freed
- * when not needed anymore.
- *
- * The @residual field of the @par projection parameters is set to the
- * norm of the residual after the projection. The @niter field of the
- * @par projection parameters is set to the number of iterations
- * performed to solve the Poisson equation. The other projection
- * parameters are not modified.
- */
-void gfs_mac_projection (GfsDomain * domain,
-			 GfsMultilevelParams * par,
-			 GfsAdvectionParams * apar,
-			 GfsVariable * p,
-			 GfsFunction * alpha,
-			 GfsVariable ** g,
-			 void (* divergence_hook) (GfsDomain * domain, 
-						   GfsAdvectionParams * apar, 
-						   GfsVariable * div)
-			 )
-{
-  gdouble dt;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (apar != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (g != NULL);
-
-  gfs_domain_timer_start (domain, "mac_projection");
-
-  dt = apar->dt;
-  apar->dt /= 2.;
-
-  mac_projection (domain, par, apar, p, alpha, NULL, g, divergence_hook);
-
-#if 0
-  {
-    FILE * fp = fopen ("/tmp/macafter", "wt");
-
-    gfs_write_mac_velocity (domain, 0.9, FTT_TRAVERSE_LEAFS, -1, NULL, fp);
-    fclose (fp);
-  }
-#endif
-  
-  apar->dt = dt;
-
-  gfs_domain_timer_stop (domain, "mac_projection");
-
-  if (par->residual.infty > par->tolerance)
-    g_warning ("MAC projection: max residual %g > %g", par->residual.infty, par->tolerance);
-}
-
-static void correct (FttCell * cell, gpointer * data)
-{
-  FttComponent c;
-  GfsVariable ** v = data[0];
-  GfsVariable ** g = data[1];
-  gdouble * dt = data[2];
-  guint * dimension = data[3];
-
-  for (c = 0; c < *dimension; c++)
-    GFS_VARIABLE (cell, v[c]->i) -= GFS_VARIABLE (cell, g[c]->i)*(*dt);
-}
-
-/**
- * gfs_correct_centered_velocities:
- * @domain: a #GfsDomain.
- * @dimension: the number of dimensions (2 or 3).
- * @g: the pressure gradient.
- * @dt: the timestep.
- *
- * Corrects the velocity field of @domain using the pressure gradient
- * stored in g[].
- *
- * The @g[] variables are freed by this function.
- */
-void gfs_correct_centered_velocities (GfsDomain * domain,
-				      guint dimension,
-				      GfsVariable ** g,
-				      gdouble dt)
-{
-  GfsVariable ** v;
-  FttComponent c;
-  gpointer data[4];
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (g != NULL);
-
-  data[0] = v = gfs_domain_velocity (domain);
-  data[1] = g;
-  data[2] = &dt;
-  data[3] = &dimension;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) correct, data);
-  for (c = 0; c < dimension; c++)
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, v[c]);
-}
-
-/**
- * gfs_approximate_projection:
- * @domain: a #GfsDomain.
- * @par: the projection control parameters.
- * @apar: the advection parameters.
- * @p: the pressure.
- * @alpha: the Poisson equation gradient weight.
- * @res: the residual or %NULL.
- * @g: where to store the pressure gradient.
- * @divergence_hook: a hook function or %NULL.
- *
- * Corrects the centered velocity field on the leaf level of @domain
- * using an approximate projection. The resulting centered velocity
- * field is approximately divergence free. The (potential) pressure
- * field is also obtained as a by-product.
- *
- * The @residual field of the @par projection parameters is set to the
- * norm of the residual (on the MAC grid) after the projection. The
- * @niter field of the @par projection parameters is set to the number
- * of iterations performed to solve the Poisson equation. The other
- * projection parameters are not modified.
- *
- * The Poisson equation for the pressure is first solved on a MAC grid
- * where the MAC velocities are obtained from the centered velocities
- * by simple averaging. The resulting pressure gradients (defined on
- * the faces) are then averaged down on the center of the cells to
- * correct the centered velocity.  
- */
-void gfs_approximate_projection (GfsDomain * domain,
-				 GfsMultilevelParams * par,
-				 GfsAdvectionParams * apar,
-				 GfsVariable * p,
-				 GfsFunction * alpha,
-				 GfsVariable * res,
-				 GfsVariable ** g,
-				 void (* divergence_hook) (GfsDomain * domain, 
-							   GfsAdvectionParams * apar, 
-							   GfsVariable * div)
-				 )
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (apar != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (g != NULL);
-
-  gfs_domain_timer_start (domain, "approximate_projection");
-  
-  /* compute MAC velocities from centered velocities */
-  gfs_domain_face_traverse (domain, FTT_XYZ,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) gfs_face_reset_normal_velocity, NULL);
-  gfs_domain_face_traverse (domain, FTT_XYZ,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) gfs_face_interpolated_normal_velocity, 
-			    gfs_domain_velocity (domain));
-  
-  mac_projection (domain, par, apar, p, alpha, res, g, divergence_hook);
-
-  gfs_correct_centered_velocities (domain, FTT_DIMENSION, g, apar->dt);
-
-  gfs_domain_timer_stop (domain, "approximate_projection");
-
-  if (par->residual.infty > par->tolerance)
-    g_warning ("approx projection: max residual %g > %g", par->residual.infty, par->tolerance);
-}
-
-/**
- * gfs_predicted_face_velocities:
- * @domain: a #GfsDomain.
- * @d: the number of dimensions (2 or 3).
- * @par: the advection parameters.
- *
- * Fills the face (MAC) normal velocities of each leaf cell of @domain
- * with the predicted values at time t + dt/2 using a godunov type
- * advection scheme.  
- */
-void gfs_predicted_face_velocities (GfsDomain * domain,
-				    guint d,
-				    GfsAdvectionParams * par)
-{
-  FttComponent c;
-  FttCellTraverseFunc face_values;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (par != NULL);
-
-  gfs_domain_timer_start (domain, "predicted_face_velocities");
-
-  gfs_domain_face_traverse (domain, d == 2 ? FTT_XY : FTT_XYZ,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) gfs_face_reset_normal_velocity, NULL);
-  par->u = gfs_domain_velocity (domain);
-  par->use_centered_velocity = TRUE;
-  if (par->scheme == GFS_NONE) {
-    face_values = (FttCellTraverseFunc) gfs_cell_non_advected_face_values;
-    par->upwinding = GFS_NO_UPWINDING;
-  }
-  else {
-    face_values = (FttCellTraverseFunc) gfs_cell_advected_face_values;
-    par->upwinding = GFS_CENTERED_UPWINDING;
-  }
-  for (c = 0; c < d; c++) {
-    par->v = par->u[c];
-    gfs_domain_cell_traverse (domain, 
-    			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-    			      face_values, par);
-    gfs_domain_face_bc (domain, c, par->v);
-    gfs_domain_face_traverse (domain, c,
-    			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttFaceTraverseFunc) gfs_face_advected_normal_velocity, par);
-  }
-
-  gfs_domain_timer_stop (domain, "predicted_face_velocities");
-}
-
-/**
- * gfs_diffusion:
- * @domain: a #GfsDomain.
- * @par: the multilevel parameters.
- * @v: a #GfsVariable.
- * @rhs: the right-hand side.
- * @rhoc: the mass.
- * @axi: the axisymmetric term.
- *
- * Solves a diffusion equation for variable @v using a Crank-Nicholson
- * scheme with multilevel relaxations.
- *
- * Diffusion coefficients must have been set using
- * gfs_diffusion_coefficients() and a right-hand side defined using
- * gfs_diffusion_rhs().
- */
-void gfs_diffusion (GfsDomain * domain,
-		    GfsMultilevelParams * par,
-		    GfsVariable * v,
-		    GfsVariable * rhs, 
-		    GfsVariable * rhoc,
-		    GfsVariable * axi)
-{
-  guint minlevel, maxlevel;
-  GfsVariable * res;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (v != NULL);
-  g_return_if_fail (rhs != NULL);
-  g_return_if_fail (rhoc != NULL);
-
-  res = gfs_temporary_variable (domain);
-
-  minlevel = domain->rootlevel;
-  if (par->minlevel > minlevel)
-    minlevel = par->minlevel;
-  maxlevel = gfs_domain_depth (domain);
-  gfs_diffusion_residual (domain, v, rhs, rhoc, axi, res);
-  par->residual_before = par->residual = 
-    gfs_domain_norm_variable (domain, res, NULL, FTT_TRAVERSE_LEAFS, -1);
-  gdouble res_max_before = par->residual.infty;
-  par->niter = 0;
-  while (par->niter < par->nitermin ||
-	 (par->residual.infty > par->tolerance && par->niter < par->nitermax)) {
-    gfs_diffusion_cycle (domain, minlevel, maxlevel, par->nrelax, v, rhs, rhoc, axi, res);
-    par->residual = gfs_domain_norm_variable (domain, res, NULL, FTT_TRAVERSE_LEAFS, -1);
-    if (par->residual.infty == res_max_before) /* convergence has stopped!! */
-      break;
-    if (par->residual.infty > res_max_before/1.1 && minlevel < maxlevel)
-      minlevel++;
-    res_max_before = par->residual.infty;
-#if 0
-    fprintf (stderr, "%d bias: %g first: %g second: %g infty: %g minlevel: %d\n",
-	     par->niter, 
-	     par->residual.bias, 
-	     par->residual.first, 
-	     par->residual.second, 
-	     par->residual.infty,
-	     minlevel);
-#endif
-    par->niter++;
-  }
-
-  gts_object_destroy (GTS_OBJECT (res));
-  g_assert (par->residual.infty <= par->tolerance);
-}
-
-static GfsSourceDiffusion * source_diffusion (GfsVariable * v)
-{
-  if (v->sources) {
-    GSList * i = GTS_SLIST_CONTAINER (v->sources)->items;
-    
-    while (i) {
-      GtsObject * o = i->data;
-      
-      if (GFS_IS_SOURCE_DIFFUSION (o) && 
-	  !GFS_IS_SOURCE_DIFFUSION_EXPLICIT (o) &&
-	  !GFS_IS_SOURCE_VISCOSITY_EXPLICIT (o))
-        return GFS_SOURCE_DIFFUSION (o);
-      i = i->next;
-    }
-  }
-  return NULL;
-}
-
-static void add_pressure_gradient (FttCell * cell, GfsAdvectionParams * par)
-{
-  GFS_VALUE (cell, par->fv) -= GFS_VALUE (cell, par->g[par->v->component])*par->dt;
-}
-
-static void variable_sources (GfsDomain * domain,
-			      GfsAdvectionParams * par,
-			      GfsVariable * sv,
-			      GfsVariable ** gmac,
-			      GfsVariable ** g)
-{
-  if (par->scheme == GFS_GODUNOV) {
-    GfsVariable * v = par->v;
-
-    par->u = gfs_domain_velocity (domain);
-    par->g = gmac;
-    par->fv = gfs_temporary_variable (domain);
-    par->upwinding = GFS_FACE_UPWINDING;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_reset, par->fv);
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_advected_face_values, par);
-    gfs_domain_face_bc (domain, FTT_XYZ, par->v);
-    gfs_domain_face_traverse (domain, FTT_XYZ,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttFaceTraverseFunc) par->flux, par);
-    par->v = sv;
-    gfs_domain_traverse_merged (domain, par->update, par);
-    par->v = v;
-    par->u = par->g = NULL;
-    gts_object_destroy (GTS_OBJECT (par->fv));
-    par->fv = NULL;
-  }
-  if (g) {
-    par->fv = sv;
-    par->g = g;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) add_pressure_gradient, par);
-    par->g = NULL;
-    par->fv = NULL;
-  }
-  /* fixme: time should be set to t + dt/2 here for evaluation of
-     source terms in the call below */
-  par->fv = gfs_domain_variable_fluxes (domain, par->v, par->dt);
-  if (par->fv) {
-    GfsVariable * v = par->v;
-    par->v = sv;
-    /* fixme: for axi and moving should this be par->update? */
-    gfs_domain_traverse_merged (domain, (GfsMergedTraverseFunc) gfs_advection_update, par);
-    par->v = v;
-    gts_object_destroy (GTS_OBJECT (par->fv));
-    par->fv = NULL;
-  }
-  gfs_domain_variable_centered_sources (domain, par->v, sv, par->dt);
-}
-
-static void variable_diffusion (GfsDomain * domain,
-				GfsSourceDiffusion * d,
-				GfsAdvectionParams * par,
-				GfsVariable * rhs,
-				GfsFunction * alpha)
-{
-  GfsVariable * rhoc, * axi;
-
-  rhoc = gfs_temporary_variable (domain);
-  axi = GFS_IS_AXI (domain) && par->v->component == FTT_Y ? gfs_temporary_variable (domain) : NULL;
-
-  gfs_diffusion_coefficients (domain, d, par->dt, rhoc, axi, alpha, d->D->par.beta);
-  gfs_domain_surface_bc (domain, par->v);
-  gfs_diffusion_rhs (domain, par->v, rhs, rhoc, axi, d->D->par.beta);
-  /* fixme: time shoud be set to t + dt here in case boundary values are
-     time-dependent in the call below */
-  gfs_domain_surface_bc (domain, par->v);
-  gfs_diffusion (domain, &d->D->par, par->v, rhs, rhoc, axi);
-
-  if (axi)
-    gts_object_destroy (GTS_OBJECT (axi));
-  gts_object_destroy (GTS_OBJECT (rhoc));
-}
-
-static void copy_v_rhs (FttCell * cell, GfsAdvectionParams * apar)
-{
-  GFS_VALUE (cell, apar->fv) = GFS_VALUE (cell, apar->v);
-}
-
-/**
- * gfs_centered_velocity_advection_diffusion:
- * @domain: a #GfsDomain.
- * @dimension: the number of dimensions (2 or 3).
- * @par: the advection parameters.
- * @gmac: the MAC pressure gradient.
- * @g: the pressure gradient.
- * @alpha: the inverse of density or %NULL.
- *
- * Advects the (centered) velocity field using the current
- * face-centered (MAC) velocity field and @par->flux to compute the
- * velocity flux through the faces of each cell.
- *
- * For each component of the velocity, before calling the @par->flux
- * function the face values are first defined (at time t + dt/2) and
- * can then be used within the @par->flux function.
- *
- * "Small" cut cells are treated using a cell-merging approach to
- * avoid any restrictive CFL stability condition.  
- *
- * The @g[] variables are freed by this function.
- */
-void gfs_centered_velocity_advection_diffusion (GfsDomain * domain,
-						guint dimension,
-						GfsAdvectionParams * par,
-						GfsVariable ** gmac,
-						GfsVariable ** g,
-						GfsFunction * alpha)
-{
-  FttComponent c;
-  GfsVariable ** v;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (gmac != NULL);
-
-  gfs_domain_timer_start (domain, "centered_velocity_advection_diffusion");
-
-  par->use_centered_velocity = FALSE;
-  v = gfs_domain_velocity (domain);
-  for (c = 0; c < dimension; c++) {
-    GfsSourceDiffusion * d = source_diffusion (v[c]);
-
-    par->v = v[c];
-    if (d) {
-      GfsVariable * rhs;
-
-      par->fv = rhs = gfs_temporary_variable (domain);
-      gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) copy_v_rhs, par);
-      variable_sources (domain, par, rhs, gmac, g);
-      variable_diffusion (domain, d, par, rhs, alpha);
-      gts_object_destroy (GTS_OBJECT (rhs));
-    }
-    else {
-      variable_sources (domain, par, par->v, gmac, g);
-      gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, par->v);
-    }
-  }
-  gfs_domain_timer_stop (domain, "centered_velocity_advection_diffusion");
-}
-
-/**
- * gfs_tracer_advection_diffusion:
- * @domain: a #GfsDomain.
- * @par: the advection parameters.
- *
- * Advects the @v field of @par using the current face-centered (MAC)
- * velocity field.
- */
-void gfs_tracer_advection_diffusion (GfsDomain * domain,
-				     GfsAdvectionParams * par)
-{
-  GfsSourceDiffusion * d;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (par != NULL);
-
-  gfs_domain_timer_start (domain, "tracer_advection_diffusion");
-
-  if ((d = source_diffusion (par->v))) {
-    GfsVariable * rhs;
-
-    par->fv = rhs = gfs_temporary_variable (domain);
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) copy_v_rhs, par);
-    variable_sources (domain, par, rhs, NULL, NULL);
-    variable_diffusion (domain, d, par, rhs, NULL);
-    gts_object_destroy (GTS_OBJECT (rhs));
-  }
-  else {
-    variable_sources (domain, par, par->v, NULL, NULL);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, par->v);
-  }
-
-  gfs_domain_timer_stop (domain, "tracer_advection_diffusion");
-}
-
-/* GfsSurfaceGenericBc: Object */
-
-static void gfs_surface_generic_bc_destroy (GtsObject * o)
-{
-  if (GFS_SURFACE_GENERIC_BC (o)->v)
-    GFS_SURFACE_GENERIC_BC (o)->v->surface_bc = NULL;
-
-  (* GTS_OBJECT_CLASS (gfs_surface_generic_bc_class ())->parent_class->destroy) (o);
-}
-
-static void gfs_surface_generic_bc_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  GfsSurfaceGenericBc * bc = GFS_SURFACE_GENERIC_BC (*o);
-  GtsObjectClass * klass;
-
-  if (GTS_OBJECT_CLASS (gfs_surface_generic_bc_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_surface_generic_bc_class ())->parent_class->read) 
-      (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a class name");
-    return;
-  }
-  if (!(klass = gfs_object_class_from_name (fp->token->str))) {
-    gts_file_error (fp, "unknown class `%s'", fp->token->str);
-    return;
-  }
-  if (!gts_object_class_is_from_class (klass, gfs_surface_generic_bc_class ())) {
-    gts_file_error (fp, "class `%s' is not a GfsSurfaceGenericClass", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a variable name");
-    return;
-  }
-  bc->v = gfs_variable_from_name (domain->variables, fp->token->str);
-  if (!bc->v) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  if (bc->v->surface_bc) {
-    gts_file_error (fp, "variable `%s' already has a surface boundary condition", 
-		    fp->token->str);
-    return;
-  }
-  bc->v->surface_bc = bc;
-  gts_file_next_token (fp);
-}
-
-static void gfs_surface_generic_bc_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_surface_generic_bc_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_surface_generic_bc_class ())->parent_class->write) (o, fp);
-  fprintf (fp, "%s %s", o->klass->info.name, GFS_SURFACE_GENERIC_BC (o)->v->name);
-}
-
-static void gfs_surface_generic_bc_class_init (GfsSurfaceGenericBcClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_surface_generic_bc_destroy;
-  GTS_OBJECT_CLASS (klass)->read = gfs_surface_generic_bc_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_surface_generic_bc_write;
-}
-
-GfsSurfaceGenericBcClass * gfs_surface_generic_bc_class (void)
-{
-  static GfsSurfaceGenericBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_surface_generic_bc_info = {
-      "GfsSurfaceGenericBc",
-      sizeof (GfsSurfaceGenericBc),
-      sizeof (GfsSurfaceGenericBcClass),
-      (GtsObjectClassInitFunc) gfs_surface_generic_bc_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_object_class ()),
-				  &gfs_surface_generic_bc_info);
-  }
-
-  return klass;
-}
-
-/* GfsSurfaceBc: Object */
-
-static void gfs_surface_bc_destroy (GtsObject * object)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_SURFACE_BC (object)->type));
-  gts_object_destroy (GTS_OBJECT (GFS_SURFACE_BC (object)->val));
-
-  (* GTS_OBJECT_CLASS (gfs_surface_bc_class ())->parent_class->destroy) (object);
-}
-
-static void gfs_surface_bc_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsSurfaceBc * bc = GFS_SURFACE_BC (*o);
-
-  if (GTS_OBJECT_CLASS (gfs_surface_bc_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_surface_bc_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  if (!strcmp (fp->token->str, "Neumann")) {
-    gfs_function_set_constant_value (bc->type, 0.);
-    gts_file_next_token (fp);
-  }
-  else if (!strcmp (fp->token->str, "Dirichlet")) {
-    gfs_function_set_constant_value (bc->type, 1.);
-    gts_file_next_token (fp);
-  }
-  else {
-    gfs_function_read (bc->type, gfs_object_simulation (bc), fp);
-    if (fp->type == GTS_ERROR)
-      return;
-  }
-  gfs_function_read (bc->val, gfs_object_simulation (bc), fp);
-}
-
-static void gfs_surface_bc_write (GtsObject * o, FILE * fp)
-{
-  GfsSurfaceBc * bc = GFS_SURFACE_BC (o);
-  gdouble val;
-
-  if (GTS_OBJECT_CLASS (gfs_surface_bc_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_surface_bc_class ())->parent_class->write) (o, fp);
-  if ((val = gfs_function_get_constant_value (bc->type)) < G_MAXDOUBLE)
-    fprintf (fp, " %s", val ? "Dirichlet" : "Neumann");
-  else
-    gfs_function_write (bc->type, fp);
-  gfs_function_write (bc->val, fp);
-}
-
-static void gfs_surface_bc_bc (FttCell * cell, GfsSurfaceGenericBc * b)
-{
-  GfsSurfaceBc * bc = GFS_SURFACE_BC (b);
-
-  if (gfs_function_value (bc->type, cell) > 0.) {
-    cell->flags |= GFS_FLAG_DIRICHLET;
-    gfs_function_set_units (bc->val, GFS_SURFACE_GENERIC_BC (bc)->v->units);
-    GFS_STATE (cell)->solid->fv = gfs_function_value (bc->val, cell);
-  }
-  else {
-    cell->flags &= ~GFS_FLAG_DIRICHLET;
-    gfs_function_set_units (bc->val, GFS_SURFACE_GENERIC_BC (bc)->v->units - 1.);
-    GFS_STATE (cell)->solid->fv = gfs_function_value (bc->val, cell);
-  }
-}
-
-static void gfs_surface_bc_class_init (GfsSurfaceGenericBcClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_surface_bc_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_surface_bc_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_surface_bc_destroy;
-  klass->bc = gfs_surface_bc_bc;
-}
-
-static void gfs_surface_bc_init (GfsSurfaceBc * object)
-{
-  object->type = gfs_function_new (gfs_function_class (), 0.);
-  object->val  = gfs_function_new (gfs_function_class (), 0.);
-}
-
-GfsSurfaceGenericBcClass * gfs_surface_bc_class (void)
-{
-  static GfsSurfaceGenericBcClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_surface_bc_info = {
-      "GfsSurfaceBc",
-      sizeof (GfsSurfaceBc),
-      sizeof (GfsSurfaceGenericBcClass),
-      (GtsObjectClassInitFunc) gfs_surface_bc_class_init,
-      (GtsObjectInitFunc) gfs_surface_bc_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_surface_generic_bc_class ()),
-				  &gfs_surface_bc_info);
-  }
-
-  return klass;
-}
diff --git a/src/timestep.h b/src/timestep.h
deleted file mode 100644
index cc1bec6..0000000
--- a/src/timestep.h
+++ /dev/null
@@ -1,142 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __TIMESTEP_H__
-#define __TIMESTEP_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "advection.h"
-#include "poisson.h"
-#include "variable.h"
-
-void          gfs_correct_normal_velocities   (GfsDomain * domain,
-					       guint dimension,
-					       GfsVariable * p,
-					       GfsVariable ** g,
-					       gdouble dt);
-void          gfs_scale_gradients             (GfsDomain * domain, 
-					       guint dimension, 
-					       GfsVariable ** g);
-void          gfs_update_gradients            (GfsDomain * domain, 
-					       GfsVariable * p,  
-					       GfsFunction * alpha, 
-					       GfsVariable ** g);
-void          gfs_mac_projection              (GfsDomain * domain,
-					       GfsMultilevelParams * par,
-					       GfsAdvectionParams * apar,
-					       GfsVariable * p,
-					       GfsFunction * alpha,
-					       GfsVariable ** g,
-					       void (* divergence_hook) (GfsDomain * domain, 
-									 GfsAdvectionParams * apar, 
-									 GfsVariable * div)
-					       );
-void          gfs_correct_centered_velocities (GfsDomain * domain,
-					       guint dimension,
-					       GfsVariable ** g,
-					       gdouble dt);
-void          gfs_approximate_projection      (GfsDomain * domain,
-					       GfsMultilevelParams * par,
-					       GfsAdvectionParams * apar,
-					       GfsVariable * p,
-					       GfsFunction * alpha,
-					       GfsVariable * res,
-					       GfsVariable ** g,
-					       void (* divergence_hook) (GfsDomain * domain, 
-									 GfsAdvectionParams * apar, 
-									 GfsVariable * div)
-					       );
-void          gfs_predicted_face_velocities   (GfsDomain * domain,
-					       guint d,
-					       GfsAdvectionParams * par);
-
-void          gfs_diffusion                   (GfsDomain * domain,
-					       GfsMultilevelParams * par,
-					       GfsVariable * v,
-					       GfsVariable * rhs, 
-					       GfsVariable * rhoc,
-					       GfsVariable * axi);
-void          gfs_centered_velocity_advection_diffusion (GfsDomain * domain,
-							 guint dimension,
-							 GfsAdvectionParams * apar,
-							 GfsVariable ** gmac,
-							 GfsVariable ** g,
-							 GfsFunction * alpha);
-void          gfs_tracer_advection_diffusion  (GfsDomain * domain,
-					       GfsAdvectionParams * par);
-
-/* GfsSurfaceGenericBc: Header */
-
-struct _GfsSurfaceGenericBc {
-  /*< private >*/
-  GtsObject parent;
-
-  /*< public >*/
-  GfsVariable * v;  
-};
-
-typedef struct _GfsSurfaceGenericBcClass    GfsSurfaceGenericBcClass;
-
-struct _GfsSurfaceGenericBcClass {
-  /*< private >*/
-  GtsObjectClass parent_class;
-
-  /*< public >*/
-  void (* bc) (FttCell *, GfsSurfaceGenericBc *);
-};
-
-#define GFS_SURFACE_GENERIC_BC(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSurfaceGenericBc,\
-					         gfs_surface_generic_bc_class ())
-#define GFS_SURFACE_GENERIC_BC_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 GfsSurfaceGenericBcClass,\
-						 gfs_surface_generic_bc_class())
-#define GFS_IS_SURFACE_GENERIC_BC(obj)         (gts_object_is_from_class (obj,\
-						 gfs_surface_generic_bc_class ()))
-
-GfsSurfaceGenericBcClass * gfs_surface_generic_bc_class  (void);
-
-/* GfsSurfaceBc: Header */
-
-typedef struct _GfsSurfaceBc         GfsSurfaceBc;
-
-struct _GfsSurfaceBc {
-  /*< private >*/
-  GfsSurfaceGenericBc parent;
-
-  /*< public >*/
-  GfsFunction * type, * val;
-};
-
-#define GFS_SURFACE_BC(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsSurfaceBc,\
-					         gfs_surface_bc_class ())
-#define GFS_IS_SURFACE_BC(obj)         (gts_object_is_from_class (obj,\
-						 gfs_surface_bc_class ()))
-
-GfsSurfaceGenericBcClass * gfs_surface_bc_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __TIMESTEP_H__ */
diff --git a/src/unstructured.c b/src/unstructured.c
deleted file mode 100644
index eb21db8..0000000
--- a/src/unstructured.c
+++ /dev/null
@@ -1,403 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric
- * Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "unstructured.h"
-#include "variable.h"
-#include "config.h"
-#include "version.h"
-
-#define NV (4*(FTT_DIMENSION - 1))
-
-static void reset_pointers (FttCell * cell, GfsVariable ** v)
-{
-  guint i;
-  for (i = 0; i < NV; i++)
-    GFS_DOUBLE_TO_POINTER (GFS_VALUE (cell, v[i])) = NULL;
-}
-
-typedef struct {
-  FttCell * cell;
-  guint i, index;
-} Vertex;
-
-/* Using VTK convention */
-static FttDirection d[NV][FTT_DIMENSION] = {
-#if FTT_2D
-  {FTT_LEFT,FTT_BOTTOM}, {FTT_RIGHT,FTT_BOTTOM}, {FTT_LEFT,FTT_TOP}, {FTT_RIGHT,FTT_TOP},
-#else /* 3D */
-  {FTT_LEFT,FTT_BOTTOM,FTT_BACK}, {FTT_RIGHT,FTT_BOTTOM,FTT_BACK}, 
-  {FTT_LEFT,FTT_TOP,FTT_BACK}, {FTT_RIGHT,FTT_TOP,FTT_BACK},
-  {FTT_LEFT,FTT_BOTTOM,FTT_FRONT}, {FTT_RIGHT,FTT_BOTTOM,FTT_FRONT}, 
-  {FTT_LEFT,FTT_TOP,FTT_FRONT}, {FTT_RIGHT,FTT_TOP,FTT_FRONT}
-#endif /* 3D */
-};
-
-static void vertex_pos (Vertex * v, FttVector * p, GfsSimulation * sim)
-{
-  ftt_corner_pos (v->cell, d[v->i], p);
-  gfs_simulation_map_inverse (sim, p);
-}
-
-static float vertex_value (Vertex * vertex, GfsVariable * v, gint max_depth)
-{
-  return gfs_dimensional_value (v, gfs_cell_corner_value (vertex->cell, d[vertex->i], 
-							  v, max_depth));
-}
-
-typedef struct {
-  GfsVariable ** v;
-  GfsDomain * domain;
-  GSList * vertices;
-  gint max_depth;
-  guint size, index;
-} AllocParams;
-
-static void allocate_vertices (FttCell * cell, AllocParams * par)
-{
-  static gint dx[NV][FTT_DIMENSION] = {
-#if FTT_2D
-    {-1,-1}, {1,-1}, {-1,1}, {1,1},
-#else /* 3D */
-    {-1,-1,-1}, {1,-1,-1}, {-1,1,-1}, {1,1,-1},
-    {-1,-1,1},  {1,-1,1},  {-1,1,1},  {1,1,1}
-#endif /* 3D */
-  };
-
-  gdouble h = ftt_cell_size (cell)/128.;
-  guint i;
-  for (i = 0; i < NV; i++)
-    if (GFS_DOUBLE_TO_POINTER (GFS_VALUE (cell, par->v[i])) == NULL) {
-      Vertex * vertex = g_malloc (par->size);
-      vertex->i = i;
-      vertex->cell = cell;
-      vertex->index = par->index++;
-      GFS_DOUBLE_TO_POINTER (GFS_VALUE (cell, par->v[i])) = vertex;
-      par->vertices = g_slist_prepend (par->vertices, vertex);
-      
-      FttVector p;
-      ftt_corner_pos (cell, d[i], &p);
-      FttCell * neighbor[NV];
-      guint j;
-      for (j = 0; j < NV; j++)
-	if (i != j) {
-	  FttVector q;
-	  FttComponent c;
-	  for (c = 0; c < FTT_DIMENSION; c++)
-	    (&q.x)[c] = (&p.x)[c] - dx[j][c]*h;
-	  FttCell * n = gfs_domain_locate (par->domain, q, par->max_depth, NULL);
-	  if (n) {
-	    guint k;
-	    for (k = 0; k < j && n; k++)
-	      if (n == neighbor[k]) {
-		/* T-junction */
-#if DEBUG
-		fprintf (stderr, "tj: %g %g %g %g %g %g\n", p.x, p.y, p.z, q.x, q.y, q.z);
-#endif
-		neighbor[k] = n = NULL;
-	      }
-	  }
-	  neighbor[j] = n;
-	}
-	else
-	  neighbor[j] = NULL;
-      for (j = 0; j < NV; j++)
-	if (neighbor[j]) {
-	  g_assert (GFS_DOUBLE_TO_POINTER (GFS_VALUE (neighbor[j], par->v[j])) == NULL);
-	  GFS_DOUBLE_TO_POINTER (GFS_VALUE (neighbor[j], par->v[j])) = vertex;
-	}
-    }
-}
-
-static GSList * allocate_domain_vertices (GfsDomain * domain, 
-					  gint max_depth, 
-					  GfsVariable * v[NV],
-					  guint size)
-{
-  g_return_val_if_fail (size >= sizeof (Vertex), NULL);
-
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, max_depth,
-			    (FttCellTraverseFunc) reset_pointers, v);
-  AllocParams par;
-  par.v = v;
-  par.domain = domain;
-  par.max_depth = max_depth;
-  par.size = size;  
-  par.vertices = NULL;
-  par.index = 0;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, max_depth,
-			    (FttCellTraverseFunc) allocate_vertices, &par);
-  return g_slist_reverse (par.vertices);
-}
-
-#if DEBUG
-static void print_pos (Vertex * v)
-{
-  FttVector p;
-  ftt_corner_pos (v->cell, d[v->i], &p);
-  fprintf (stderr, "v: %g %g %g\n", p.x, p.y, p.z);
-}
-#endif /* DEBUG */
-
-#if DEBUG
-static void draw_vertices (FttCell * cell, GfsVariable ** v)
-{
-  guint i;
-  FttVector c;
-  ftt_cell_pos (cell, &c);
-  for (i = 0; i < NV; i++) {
-    Vertex * vertex = GFS_DOUBLE_TO_POINTER (GFS_VALUE (cell, v[i]));
-    FttVector p;
-    ftt_corner_pos (vertex->cell, d[vertex->i], &p);
-    fprintf (stderr, "vp: %g %g\nvp: %g %g\nvp: \n", c.x, c.y, p.x, p.y);
-  }    
-}
-#endif /* DEBUG */
-
-typedef struct {
-  FILE * fp;
-  GfsVariable ** v;
-} WriteParams;
-
-static void write_element (FttCell * cell, WriteParams * par)
-{
-  fprintf (par->fp, "%d", NV);
-  guint i;
-  for (i = 0; i < NV; i++) {
-    Vertex * v = GFS_DOUBLE_TO_POINTER (GFS_VALUE (cell, par->v[i]));
-    fprintf (par->fp, " %d", v->index);
-  }
-  fputc ('\n', par->fp);
-}
-
-static void cell_count (FttCell * cell, guint * count)
-{
-  (*count)++; 
-}
-
-static guint local_domain_size (GfsDomain * domain, gint max_depth)
-{
-  guint n = 0;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, max_depth,
-			    (FttCellTraverseFunc) cell_count, &n);
-  return n;
-}
-
-/**
- * gfs_domain_write_vtk:
- * @domain: a #GfsDomain.
- * @max_depth: the maximum depth to consider.
- * @variables: a list of #GfsVariable to output.
- * @precision: the formatting string for converting float to ASCII.
- * @fp: a file pointer.
- *
- * Writes in @fp a VTK-formatted representation of @domain and of the
- * corresponding variables in the given list.
- */
-void gfs_domain_write_vtk (GfsDomain * domain, gint max_depth, GSList * variables, 
-			   const gchar * precision, FILE * fp)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (precision != NULL);
-  g_return_if_fail (fp != NULL);
-
-  GfsVariable * v[NV];
-  guint i;
-  for (i = 0; i < NV; i++)
-    v[i] = gfs_temporary_variable (domain);
-
-  GSList * vertices = allocate_domain_vertices (domain, max_depth, v, sizeof (Vertex));
-
-  /* header */
-  fprintf (fp, 
-	   "# vtk DataFile Version 2.0\n"
-	   "Gerris simulation version %s (%s)\n"
-	   "ASCII\n"
-	   "DATASET UNSTRUCTURED_GRID\n"
-	   "\n", 
-	   GFS_VERSION,
-	   GFS_BUILD_VERSION);
-  
-  /* vertices */
-  guint nv = g_slist_length (vertices);
-  fprintf (fp, "POINTS %d float\n", nv);
-  gchar * format = g_strdup_printf ("%s %s %s\n", precision, precision, precision);
-  GSList * j = vertices;
-  while (j) {
-    FttVector p;
-    vertex_pos (j->data, &p, GFS_SIMULATION (domain));
-    fprintf (fp, format, p.x, p.y, p.z);
-    j = j->next;
-  }
-  g_free (format);
-  fputc ('\n', fp);
-
-  /* elements */
-  guint n_cells = local_domain_size (domain, max_depth);
-  fprintf (fp, "CELLS %d %d\n", n_cells, n_cells*(NV + 1));
-  WriteParams par;
-  par.v = v;
-  par.fp = fp;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, max_depth,
-			    (FttCellTraverseFunc) write_element, &par);
-  fprintf (fp, "\nCELL_TYPES %d\n",n_cells);
-  for (i = 0; i < n_cells; i++) {
-#if FTT_2D
-    fputs ("8\n", fp);
-#else
-    fputs ("11\n", fp);
-#endif
-  }
-  fputc ('\n', fp);
-
-#if DEBUG
-  fprintf (stderr, "vertices: %d\n", g_slist_length (vertices));
-  g_slist_foreach (vertices, (GFunc) print_pos, NULL);
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, max_depth,
-			    (FttCellTraverseFunc) draw_vertices, v);
-#endif /* DEBUG */
-  
-  /* write scalar fields */
-  if (variables) {
-    gchar * format = g_strdup_printf ("%s\n", precision);
-    fprintf (fp, "POINT_DATA %d\n", nv);
-    GSList * i = variables;
-    while (i) {
-      GfsVariable * v = i->data;
-      fprintf (fp, "SCALARS %s float\nLOOKUP_TABLE default\n", v->name);
-      GSList * j = vertices;
-      while (j) {
-	Vertex * vertex = j->data;
-	fprintf (fp, format, vertex_value (vertex, v, max_depth));
-	j = j->next;
-      }
-      fputc ('\n', fp);
-      i = i->next;
-    }
-    g_free (format);
-  }
-
-  /* cleanup */
-  g_slist_foreach (vertices, (GFunc) g_free, NULL);
-  g_slist_free (vertices);
-  for (i = 0; i < NV; i++)
-    gts_object_destroy (GTS_OBJECT (v[i]));
-}
-
-static void write_tecplot_element (FttCell * cell, WriteParams * par)
-{
-  static guint tecplot_index[NV] = {
-#if FTT_2D
-    0, 1, 3, 2
-#else /* 3D */
-    0, 1, 3, 2,
-    4, 5, 7, 6
-#endif /* 3D */
-  };
-  guint i;
-  for (i = 0; i < NV; i++) {
-    Vertex * v = GFS_DOUBLE_TO_POINTER (GFS_VALUE (cell, par->v[tecplot_index[i]]));
-    fprintf (par->fp, "%d ", v->index + 1);
-  }
-  fputc ('\n', par->fp);
-}
-
-/**
- * gfs_domain_write_tecplot:
- * @domain: a #GfsDomain.
- * @max_depth: the maximum depth to consider.
- * @variables: a list of #GfsVariable to output.
- * @precision: the formatting string for converting float to ASCII.
- * @fp: a file pointer.
- *
- * Writes in @fp a Tecplot-formatted representation of @domain and of the
- * corresponding variables in the given list.
- */
-void gfs_domain_write_tecplot (GfsDomain * domain, gint max_depth, GSList * variables, 
-			       const gchar * precision, FILE * fp)
-{
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (precision != NULL);
-  g_return_if_fail (fp != NULL);
-
-  GfsVariable * v[NV];
-  guint i;
-  for (i = 0; i < NV; i++)
-    v[i] = gfs_temporary_variable (domain);
-
-  GSList * vertices = allocate_domain_vertices (domain, max_depth, v, sizeof (Vertex));
-
-  /* header */
-  fprintf (fp,
-	   " TITLE = \"Gerris simulation version %s (%s)\"\n",
-	   GFS_VERSION,
-	   GFS_BUILD_VERSION);
-
-  fputs (FTT_DIMENSION == 2 ? " VARIABLES = 'X', 'Y'" : " VARIABLES = 'X', 'Y', 'Z'", fp);
-  GSList * j = variables;
-  while (j) {
-    GfsVariable * v = j->data;
-    fprintf (fp, ", '%s'", v->name);
-    j = j->next;
-  }
-  fputc ('\n', fp);
-
-  guint nv = g_slist_length (vertices);
-  guint n_cells = local_domain_size (domain, max_depth);
-  fprintf (fp, " ZONE N=%i, E=%i, F=FEPOINT, ", nv, n_cells);
-  fputs (FTT_DIMENSION == 2 ? "ET=QUADRILATERAL\n" : "ET=BRICK\n", fp);
-  
-  /* vertices and scalar data */
-  gchar * xyzformat = 
-#if FTT_2D
-    g_strdup_printf ("%s %s", precision, precision);
-#else
-    g_strdup_printf ("%s %s %s", precision, precision, precision);
-#endif
-  gchar * format = g_strdup_printf (" %s", precision);
-  j = vertices;
-  while (j) {
-    Vertex * vertex = j->data;
-    FttVector p;
-    vertex_pos (vertex, &p, GFS_SIMULATION (domain));
-    fprintf (fp, xyzformat, p.x, p.y, p.z);
-    GSList * k = variables;
-    while (k) {
-      fprintf (fp, format, vertex_value (vertex, k->data, max_depth));
-      k = k->next;
-    }
-    fputc ('\n', fp);
-    j = j->next;
-  }
-  g_free (format);
-  g_free (xyzformat);
-
-  /* elements */
-  WriteParams par;
-  par.v = v;
-  par.fp = fp;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, max_depth,
-			    (FttCellTraverseFunc) write_tecplot_element, &par);
-
-  /* cleanup */
-  g_slist_foreach (vertices, (GFunc) g_free, NULL);
-  g_slist_free (vertices);
-  for (i = 0; i < NV; i++)
-    gts_object_destroy (GTS_OBJECT (v[i]));
-}
diff --git a/src/unstructured.h b/src/unstructured.h
deleted file mode 100644
index 7af76d9..0000000
--- a/src/unstructured.h
+++ /dev/null
@@ -1,45 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric
- * Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __UNSTRUCTURED_H__
-#define __UNSTRUCTURED_H__
-
-#include "domain.h"
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-void gfs_domain_write_vtk     (GfsDomain * domain, 
-			       gint max_depth, 
-			       GSList * variables, 
-			       const gchar * precision,
-			       FILE * fp);
-void gfs_domain_write_tecplot (GfsDomain * domain, 
-			       gint max_depth, 
-			       GSList * variables, 
-			       const gchar * precision,
-			       FILE * fp);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __UNSTRUCTURED_H__ */
diff --git a/src/utils.c b/src/utils.c
deleted file mode 100644
index ba9a698..0000000
--- a/src/utils.c
+++ /dev/null
@@ -1,1688 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <ctype.h>
-#include <sys/stat.h>
-#include <sys/wait.h>
-#include <sys/mman.h>
-#include <unistd.h>
-#include <signal.h>
-#include <math.h>
-#include <sys/times.h>
-#include "config.h"
-#include "solid.h"
-#include "simulation.h"
-#include "cartesian.h"
-
-/**
- * @c: a character.
- * @s: a string.
- *
- * Returns: %TRUE if @c belongs to @s, %FALSE otherwise.
- */
-gboolean gfs_char_in_string (char c, const char * s)
-{
-  if (s == NULL)
-    return FALSE;
-  while (*s != '\0')
-    if (*(s++) == c)
-      return TRUE;
-  return FALSE;
-}
-
-/**
- * gfs_file_statement:
- * @fp: a #GtsFile.
- *
- * Reads the next brackets-delimited ({...}) statemement in @fp,
- * including all comments.
- *
- * Returns: a newly allocated string containing the text of the next
- * statement in @fp, or %NULL if an error occured in which case
- * @fp->error is set.
- */
-gchar * gfs_file_statement (GtsFile * fp)
-{
-  g_return_val_if_fail (fp != NULL, NULL);
-
-  if (fp->type != '{') {
-    gts_file_error (fp, "expecting an opening brace");
-    return NULL;
-  }
-  GString * s = g_string_new ("");
-  gchar empty[] = "", * comments = fp->comments;
-  fp->comments = empty;
-  guint scope = fp->scope_max;
-  gint c = gts_file_getc (fp);
-  while (c != EOF && fp->scope > scope) {
-    g_string_append_c (s, c);
-    c = gts_file_getc (fp);
-  }
-  fp->comments = comments;
-  if (fp->scope != scope) {
-    gts_file_error (fp, "parse error");
-    g_string_free (s, TRUE);
-    return NULL;
-  }
-  gchar * ret = s->str;
-  g_string_free (s, FALSE);
-  return ret;
-}
-
-typedef gdouble (* GfsFunctionFunc) (const FttCell * cell,
-				     const FttCellFace * face,
-				     GfsSimulation * sim);
-typedef gdouble (* GfsFunctionDerivedFunc) (const FttCell * cell,
-					    const FttCellFace * face,
-					    GfsSimulation * sim,
-					    gpointer data);
-
-static GfsDerivedVariable * lookup_derived_variable (const gchar * name,
-						     GSList * i)
-{
-  while (i) {
-    GfsDerivedVariable * v = i->data;
-    if (!strcmp (v->name, name))
-      return v;
-    i = i->next;
-  }
-  return NULL;
-}
-
-/* GfsGlobal: Object */
-
-struct _GfsGlobal {
-  /*< private >*/
-  GtsObject parent;
-
-  /*< public >*/
-  gchar * s;
-  guint line;
-};
-
-static void global_destroy (GtsObject * object)
-{
-  g_free (GFS_GLOBAL (object)->s);
-  (* gfs_global_class ()->parent_class->destroy) (object);
-}
-
-static void global_write (GtsObject * object, FILE * fp)
-{
-  fprintf (fp, "%s {", object->klass->info.name);
-  fputs (GFS_GLOBAL (object)->s, fp);
-  fputs ("}\n", fp);
-}
-
-static void global_read (GtsObject ** object, GtsFile * fp)
-{
-  GfsGlobal * global = GFS_GLOBAL (*object);
-  GtsObjectClass * klass;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (GfsGlobalClass)");
-    return;
-  }
-  klass = gfs_object_class_from_name (fp->token->str);
-  if (klass == NULL) {
-    gts_file_error (fp, "unknown class `%s'", fp->token->str);
-    return;
-  }
-  if (!gts_object_class_is_from_class (klass, gfs_global_class ())) {
-    gts_file_error (fp, "`%s' is not a GfsGlobal", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-  global->line = fp->line;
-  g_free (global->s);
-  if ((global->s = gfs_file_statement (fp)))
-    gts_file_next_token (fp);
-}
-
-static void gfs_global_class_init (GtsObjectClass * klass)
-{
-  klass->destroy = global_destroy;
-  klass->read =    global_read;
-  klass->write =   global_write;
-}
-
-GtsObjectClass * gfs_global_class (void)
-{
-  static GtsObjectClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_global_info = {
-      "GfsGlobal",
-      sizeof (GfsGlobal),
-      sizeof (GtsObjectClass),
-      (GtsObjectClassInitFunc) gfs_global_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_object_class ()),
-				  &gfs_global_info);
-  }
-
-  return klass;
-}
-
-/* GfsFunction: Object */
-
-struct _GfsFunction {
-  GtsObject parent;
-  GString * expr;
-  gboolean isexpr;
-  GModule * module;
-  GfsFunctionFunc f;
-  gchar * sname;
-  GtsSurface * s;
-  GfsCartesianGrid * g;
-  guint index[4];
-  GfsVariable * v;
-  GfsDerivedVariable * dv;
-  gdouble val;
-  gboolean spatial, constant, nomap;
-  GtsFile fpd;
-  gdouble units;
-};
-
-static GtsSurface * read_surface (gchar * name, GtsFile * fp)
-{
-  FILE * fptr = fopen (name, "r");
-  GtsSurface * s;
-  GtsFile * fp1;
-
-  if (fptr == NULL) {
-    gts_file_error (fp, "cannot open file `%s'", name);
-    return NULL;
-  }
-  fp1 = gts_file_new (fptr);
-  s = gts_surface_new (gts_surface_class (), gts_face_class (), 
-		       gts_edge_class (), gts_vertex_class ());
-  if (gts_surface_read (s, fp1)) {
-    gts_file_error (fp, "%s:%d:%d: %s", name, fp1->line, fp1->pos, fp1->error);
-    gts_object_destroy (GTS_OBJECT (s));
-    s = NULL;
-  }
-  gts_file_destroy (fp1);
-  fclose (fptr);
-  return s;
-}
-
-static GfsCartesianGrid * read_cartesian_grid (gchar * name, GtsFile * fp)
-{
-  FILE * fptr = fopen (name, "r");
-  GtsFile * fp1;
-  GfsCartesianGrid * grid;
-  GtsObjectClass * klass;
-
-  if (fptr == NULL) {
-    gts_file_error (fp, "cannot open file `%s'", name);
-    return NULL;
-  }
-
-  fp1 = gts_file_new (fptr);
-
-  klass = gfs_cartesian_grid_class ();
-
-  grid = gfs_cartesian_grid_new (klass);
-  GtsObject * o = GTS_OBJECT (grid);
-  (* klass->read) (&o, fp1);
-
-  if (fp1->type == GTS_ERROR) {
-    gts_file_error (fp, "%s:%d:%d: %s", name, fp1->line, fp1->pos, fp1->error);
-    gts_object_destroy (GTS_OBJECT(grid));
-    grid = NULL;
-  }
-  gts_file_destroy (fp1);
-  fclose (fptr);
-  return grid;
-}
-
-static gboolean fit_index_dimension (GfsCartesianGrid * grid, guint * val, GtsFile * fp)
-{
-  guint i, j;
-  gchar list[] = {'x','y','z','t'};
-
-  if (grid->N > 4) {
-    gts_file_error (fp, "Cartesian grids can only use four dimensions or less");
-    return FALSE;
-  }
-
-  for (i = 0; i < grid->N; i++) {
-    for (j = 0; j < 4 && *grid->name[i] != list[j]; j++);
-    if (j == 4) {
-      gts_file_error (fp, "unknown Cartesian grid index `%s'", grid->name[i]);
-      return FALSE;
-    }
-    val[i] = j;
-  }
-  return TRUE;
-}
-
-static gboolean cgd_is_spatial (GfsFunction * f)
-{
-  guint i;
-  for (i = 0; i < f->g->N; i++)
-    if (f->index[i] < 3)
-      return TRUE;
-  return FALSE;
-}
-
-static gdouble interpolated_cgd (GfsFunction * f, FttVector * p)
-{
-  gdouble vector[4];
-  gdouble val;
-  guint i;
-
-  gfs_simulation_map_inverse (gfs_object_simulation (f), p);
-  for (i = 0; i < f->g->N; i++)
-    switch (f->index[i]) {
-    case 0: vector[i] = p->x; break;
-    case 1: vector[i] = p->y; break;
-    case 2: vector[i] = p->z; break;
-    case 3: vector[i] = gfs_object_simulation (f)->time.t; break;
-    default: g_assert_not_reached ();
-    }
-
-  if (!gfs_cartesian_grid_interpolate (f->g, vector, &val))
-    return 0.;
-  return val;
-}
-
-static gboolean load_module (GfsFunction * f, GtsFile * fp, gchar * mname)
-{
-  gchar * path;
-  
-  path = g_module_build_path (GFS_MODULES_DIR, mname);
-  f->module = g_module_open (path, 0);
-  g_free (path);
-  if (f->module == NULL)
-    f->module = g_module_open (mname, 0);
-  if (f->module == NULL) {
-    gts_file_error (fp, "cannot load module: %s", g_module_error ());
-    return FALSE;
-  }
-  if (!g_module_symbol (f->module, "f", (gpointer) &f->f)) {
-    gts_file_error (fp, "module `%s' does not export function `f'", mname);
-    g_module_close (f->module);
-    return FALSE;
-  }
-  if (f->constant) {
-    f->val = (* f->f) (NULL, NULL, NULL);
-    f->f = NULL;
-    g_module_close (f->module);
-    f->module = NULL;
-    if (f->expr) g_string_free (f->expr, TRUE);
-    f->expr = NULL;
-  }
-  return TRUE;
-}
-
-/**
- * gfs_function_expression:
- * @fp: a #GtsFile.
- * @is_expression: a pointer to a boolean or %NULL.
- *
- * Reads the expression (in which case @is_expression is set to %TRUE)
- * or function from @fp.
- *
- * Returns: a newly allocated GString containing the result or %NULL
- * in case of error.
- */
-GString * gfs_function_expression (GtsFile * fp, gboolean * is_expression)
-{
-  GString * expr = NULL;
-
-  g_return_val_if_fail (fp != NULL, NULL);
-
-  if (is_expression)
-    *is_expression = TRUE;
-  if (fp->type == '{') {
-    gchar * s = gfs_file_statement (fp);
-    if (fp->type == GTS_ERROR)
-      return NULL;
-    expr = g_string_new ("{");
-    g_string_append (expr, s);
-    g_free (s);
-    g_string_append_c (expr, '}');
-    if (is_expression)
-      *is_expression = FALSE;
-    return expr;
-  }
-  else {
-    static gchar spaces[] = " \t\f\r";
-    static gchar operators[] = "+-*/%<>=&^|?:!";
-    gboolean is_constant = (fp->type == GTS_INT || fp->type == GTS_FLOAT);
-    gint c, scope = 0;
-    gchar * s;
-    gchar empty[] = "", * comments = fp->comments;
-
-    fp->comments = empty;
-    expr = g_string_new (fp->token->str);
-    s = expr->str;
-    while (*s != '\0') {
-      if (*s == '(') scope++;
-      else if (*s == ')') scope--;
-      s++;
-    }
-    if (fp->next_token != '\0')
-      c = fp->next_token;
-    else {
-      if (fp->type != '(')
-	c = ' ';
-      else
-	c = gts_file_getc (fp);
-    }
-    if (strlen (expr->str) == 1 && gfs_char_in_string (expr->str[0], operators))
-      while (c != EOF && gfs_char_in_string (c, spaces)) {
-	g_string_append_c (expr, c);
-	c = gts_file_getc (fp);
-      }
-    while (c != EOF) {
-      if (gfs_char_in_string (c, "{}\n")) {
-	fp->next_token = c;
-	break;
-      }
-      else if (scope > 0) {
-	while (c != EOF && scope > 0) {
-	  if (c == '(') scope++;
-	  else if (c == ')') scope--;
-	  g_string_append_c (expr, c);
-	  c = gts_file_getc (fp);
-	}
-      }
-      else if (gfs_char_in_string (c, spaces)) {
-	while (c != EOF && gfs_char_in_string (c, spaces)) {
-	  g_string_append_c (expr, c);
-	  c = gts_file_getc (fp);
-	}
-	if (c == '(') {
-	  if (is_constant) {
-	    fp->next_token = c;
-	    break;
-	  }
-	  scope++;
-	  g_string_append_c (expr, c);
-	  c = gts_file_getc (fp);
-	}
-	else {
-	  if (!gfs_char_in_string (c, operators)) {
-	    fp->next_token = c;
-	    break;
-	  }
-	  is_constant = FALSE;
-	  g_string_append_c (expr, c);
-	  c = gts_file_getc (fp);
-	  while (c != EOF && gfs_char_in_string (c, spaces)) {
-	    g_string_append_c (expr, c);
-	    c = gts_file_getc (fp);
-	  }
-	}
-      }
-      else if (gfs_char_in_string (c, operators)) {
-	is_constant = FALSE;
-	g_string_append_c (expr, c);
-	c = gts_file_getc (fp);
-	while (c != EOF && gfs_char_in_string (c, spaces)) {
-	  g_string_append_c (expr, c);
-	  c = gts_file_getc (fp);
-	}
-      }
-      else {
-	is_constant = FALSE;
-	if (c == '(') scope++;
-	else if (c == ')') scope--;
-	if (scope < 0) {
-	  fp->next_token = c;
-	  break;
-	}
-	g_string_append_c (expr, c);
-	c = gts_file_getc (fp);
-      }
-    }
-    g_strchomp (expr->str);
-    fp->comments = comments;
-    return expr;
-  }
-}
-
-static gint compile (GtsFile * fp, GfsFunction * f, const gchar * finname)
-{
-  gchar foutname[] = "/tmp/gfsXXXXXX";
-  gchar ferrname[] = "/tmp/gfsXXXXXX";
-  gchar ftmpname[] = "/tmp/gfsXXXXXX";
-  gint foutd, ferrd, ftmpd;
-  gchar * cc;
-  gint status;
-  gchar cccommand[] = "gcc `pkg-config "
-#if FTT_2D
-    "gerris2D"
-#elif FTT_2D3
-    "gerris2D3"
-#else /* 3D */
-    "gerris3D"
-#endif
-    " --cflags --libs` -O -Wall -Wno-unused -Werror "
-    MODULES_FLAGS;
-  
-  foutd = mkstemp (foutname);
-  ferrd = mkstemp (ferrname);
-  ftmpd = mkstemp (ftmpname);
-  if (foutd < 0 || ferrd < 0 || ftmpd < 0) {
-    gts_file_error (fp, "cannot create temporary file");
-    return SIGABRT;
-  }
-  cc = g_strjoin (" ",
-		  cccommand, ftmpname, 
-		  "-o", foutname,
-                  "`sed 's/@/#/g' <", finname,
-		  "| awk '{"
-		  "   if ($1 == \"#\" && $2 == \"link\") {"
-		  "     for (i = 3; i <= NF; i++) printf (\"%s \", $i);"
-		  "     print \"\" > \"/dev/stderr\";"
-		  "   }"
-		  "   else if ($1 == \"#link\") {"
-		  "     for (i = 2; i <= NF; i++) printf (\"%s \", $i);"
-		  "     print \"\" > \"/dev/stderr\";"
-		  "   } else print $0 > \"/dev/stderr\";"
-		  "}' 2>", ftmpname, "` 2>",
-		  ferrname, NULL);
-  status = system (cc);
-  g_free (cc);
-  close (ftmpd);
-  remove (ftmpname);
-  if (WIFSIGNALED (status) && (WTERMSIG (status) == SIGINT || WTERMSIG (status) == SIGQUIT))
-    status = SIGQUIT;
-  else if (status == -1 || WEXITSTATUS (status) != 0) {
-    GString * msg = g_string_new ("");
-    FILE * ferr = fdopen (ferrd, "r");
-    gchar * needle;
-    gint c;
-
-    while ((c = fgetc (ferr)) != EOF)
-      g_string_append_c (msg, c);
-    fclose (ferr);
-    while ((needle = strstr (msg->str, "GfsFunction:")))
-      g_string_erase (msg, needle - msg->str, strlen ("GfsFunction:"));
-    gts_file_error (fp, "error compiling expression\n%s", msg->str);
-    g_string_free (msg, TRUE);
-    status = SIGABRT;
-  }
-  else {
-    if (load_module (f, fp, foutname))
-      status = SIGCONT;
-    else
-      status = SIGABRT;
-  }
-  close (foutd);
-  remove (foutname);
-  close (ferrd);
-  remove (ferrname);
-  return status;
-}
-
-static gchar * find_identifier (const gchar * s, const gchar * i)
-{
-  gchar * f = strstr (s, i);
-  static gchar allowed[] = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_1234567890";
-
-  while (f) {
-    if (gfs_char_in_string (f[strlen(i)], allowed) ||
-	(f > s && gfs_char_in_string (f[-1], allowed)))
-      f = strstr (++f, i);
-    else
-      return f;
-  }
-  return NULL;
-}
-
-static void function_compile (GfsFunction * f, GtsFile * fp)
-{
-  if (!HAVE_PKG_CONFIG) {
-    gts_file_error (fp, "expecting a number, variable or GTS surface (val)\n"
-		    "(functions are not supported on this system)");
-    return;
-  }
-  else {
-    GfsSimulation * sim = gfs_object_simulation (f);
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    gchar finname[] = "/tmp/gfsXXXXXX";
-    gint find, status;
-    FILE * fin;
-    GSList * lv = NULL, * ldv = NULL, * i;
-
-    find = mkstemp (finname);
-    if (find < 0) {
-      gts_file_error (fp, "cannot create temporary file");
-      return;
-    }
-    fin = fdopen (find, "w");
-    fputs ("#include <stdlib.h>\n"
-	   "#include <stdio.h>\n"
-	   "#include <math.h>\n"
-	   "#include <gfs.h>\n",
-	   fin);
-    if (f->spatial)
-      fputs ("#include <gerris/spatial.h>\n", fin);
-    else if (!f->constant)
-      fputs ("#include <gerris/function.h>\n", fin);
-    i = sim->globals;
-    while (i) {
-      fprintf (fin, "#line %d \"GfsGlobal\"\n", GFS_GLOBAL (i->data)->line);
-      fputs (GFS_GLOBAL (i->data)->s, fin);
-      fputc ('\n', fin);
-      i = i->next;
-    }
-    if (f->spatial)
-      fputs ("double f (double x, double y, double z, double t) {\n"
-	     "  _x = x; _y = y; _z = z;\n", 
-	     fin);
-    else if (f->constant)
-      fputs ("double f (void) {\n", fin);
-    else {
-      fputs ("typedef double (* Func) (const FttCell * cell,\n"
-	     "                         const FttCellFace * face,\n"
-	     "                         GfsSimulation * sim,\n"
-	     "                         gpointer data);\n"
-	     "double f (FttCell * cell, FttCellFace * face, GfsSimulation * sim) {\n"
-	     "  _sim = sim; _cell = cell;\n",
-	     fin);
-      i = domain->variables;
-      while (i) {
-	if (GFS_VARIABLE1 (i->data)->name && 
-	    find_identifier (f->expr->str, GFS_VARIABLE1 (i->data)->name))
-	  lv = g_slist_prepend (lv, i->data);
-	i = i->next;
-      }
-      i = domain->derived_variables;
-      while (i) {
-	GfsDerivedVariable * v = i->data;
-	if (find_identifier (f->expr->str, v->name))
-	  ldv = g_slist_prepend (ldv, v);
-	i = i->next;
-      }
-      if (lv || ldv) {
-	GSList * i = lv;
-
-	while (i) {
-	  GfsVariable * v = i->data;
-	  fprintf (fin, "  double %s;\n", v->name);
-	  i = i->next;
-	}
-	i = ldv;
-	while (i) {
-	  GfsDerivedVariable * v = i->data;
-	  fprintf (fin, "  double %s;\n", v->name);
-	  i = i->next;
-	}
-	if (lv) {
-	  fputs ("  if (cell) {\n", fin);
-	  i = lv;
-	  while (i) {
-	    GfsVariable * v = i->data;
-	    fprintf (fin, 
-		     "    %s = gfs_dimensional_value (GFS_VARIABLE1 (%p),\n"
-		     "           GFS_VALUE (cell, GFS_VARIABLE1 (%p)));\n", 
-		     v->name, v, v);
-	    i = i->next;
-	  }
-	  fputs ("  } else {\n", fin);
-	  i = lv;
-	  while (i) {
-	    GfsVariable * v = i->data;
-	    fprintf (fin, 
-		     "    %s = gfs_dimensional_value (GFS_VARIABLE1 (%p),\n"
-		     "           gfs_face_interpolated_value (face, GFS_VARIABLE1 (%p)->i));\n", 
-		     v->name, v, v);
-	    i = i->next;
-	  }
-	  fputs ("  }\n", fin);
-	  g_slist_free (lv);
-	}
-	if (ldv) {
-	  i = ldv;
-	  while (i) {
-	    GfsDerivedVariable * v = i->data;
-	    fprintf (fin, "  %s = (* (Func) %p) (cell, face, sim, ((GfsDerivedVariable *) %p)->data);\n", 
-		     v->name, v->func, v);
-	    i = i->next;
-	  }
-	  g_slist_free (ldv);
-	}
-      }
-    }
-    fprintf (fin, "#line %d \"GfsFunction\"\n", fp->line);
-
-    if (f->isexpr)
-      fprintf (fin, "return %s;\n}\n", f->expr->str);
-    else {
-      gchar * s = f->expr->str;
-      guint len = strlen (s);
-      g_assert (s[0] == '{' && s[len-1] == '}');
-      s[len-1] = '\0';
-      fprintf (fin, "%s\n}\n", &s[1]);
-      s[len-1] = '}';
-    }
-    fclose (fin);
-    close (find);
-
-    status = compile (fp, f, finname);
-    remove (finname);
-    switch (status) {
-    case SIGQUIT: exit (0);
-    case SIGABRT: return;
-    }
-  }  
-}
-
-#define DEFERRED_COMPILATION ((GfsFunctionFunc) 0x1)
-
-static void check_for_deferred_compilation (GfsFunction * f)
-{
-  if (f->f == DEFERRED_COMPILATION) {
-    function_compile (f, &f->fpd);
-    if (f->fpd.type == GTS_ERROR) {
-      g_log (G_LOG_DOMAIN, G_LOG_LEVEL_CRITICAL, 
-	     "error in deferred compilation\n%s", 
-	     f->fpd.error);
-      exit (1);
-    }
-  }
-}
-
-static void function_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsFunction * f = GFS_FUNCTION (*o);
-  GfsSimulation * sim;
-  GfsDomain * domain;
-
-  if (GTS_OBJECT_CLASS (gfs_function_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_function_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  sim = gfs_object_simulation (*o);
-  domain = GFS_DOMAIN (sim);
-  if (fp->type != GTS_INT && fp->type != GTS_FLOAT && fp->type != GTS_STRING &&
-      fp->type != '(' && fp->type != '{') {
-    gts_file_error (fp, "expecting an expression (val)");
-    return;
-  }
-
-  if (fp->type == GTS_STRING && !f->spatial && !f->constant && strlen (fp->token->str) > 3) {
-    if (!strcmp (&(fp->token->str[strlen (fp->token->str) - 4]), ".gts")) {
-      if ((f->s = read_surface (fp->token->str, fp)) == NULL)
-	return;
-      f->sname = g_strdup (fp->token->str);
-      gts_file_next_token (fp);
-      return;
-    }
-    else if (!strcmp (&(fp->token->str[strlen (fp->token->str) - 4]), ".cgd")) {
-      if ((f->g = read_cartesian_grid (fp->token->str, fp)) == NULL)
-	return;
-      if (!fit_index_dimension (f->g, f->index, fp))
-	return;
-      f->sname = g_strdup (fp->token->str);
-      gts_file_next_token (fp);
-      return;
-    }   
-  }
-
-  if ((f->expr = gfs_function_expression (fp, &f->isexpr)) == NULL)
-    return;
-
-  if (f->isexpr) {
-    if (fp->type == GTS_INT || fp->type == GTS_FLOAT) {
-      if (!strcmp (fp->token->str, f->expr->str)) {
-	f->val = atof (fp->token->str);
-	gts_file_next_token (fp);
-	return;
-      }
-    }
-    else if (fp->type == GTS_STRING && !f->spatial && !f->constant) {
-      if ((f->v = gfs_variable_from_name (domain->variables, f->expr->str)) ||
-	  (f->dv = lookup_derived_variable (f->expr->str, domain->derived_variables))) {
-	gts_file_next_token (fp);
-	return;
-      }
-    }
-  }
-
-  if (sim->deferred_compilation) {
-    f->f = DEFERRED_COMPILATION;
-    f->fpd = *fp;
-  }
-  else
-    function_compile (f, fp);
-
-  if (fp->type == GTS_ERROR)
-    return;
-  gts_file_next_token (fp);
-}
-
-static void function_write (GtsObject * o, FILE * fp)
-{
-  GfsFunction * f = GFS_FUNCTION (o);
-
-  if (GTS_OBJECT_CLASS (gfs_function_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_function_class ())->parent_class->write) (o, fp);
-
-  if (f->expr)
-    fprintf (fp, " %s", f->expr->str);
-  else if (f->module)
-    fprintf (fp, " %s", g_module_name (f->module));
-  else if (f->v)
-    fprintf (fp, " %s", f->v->name);
-  else if (f->s || f->g)
-    fprintf (fp, " %s", f->sname);
-  else
-    fprintf (fp, " %g", f->val);
-}
-
-static void function_destroy (GtsObject * object)
-{
-  GfsFunction * f = GFS_FUNCTION (object);
-
-  if (f->module) g_module_close (f->module);
-  if (f->expr) g_string_free (f->expr, TRUE);
-  if (f->s) {
-    gts_object_destroy (GTS_OBJECT (f->s));
-    g_free (f->sname);
-  }
-  if (f->g) {
-    gts_object_destroy (GTS_OBJECT (f->g));
-    g_free (f->sname);
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_function_class ())->parent_class->destroy) 
-    (object);
-}
-
-static void gfs_function_class_init (GfsFunctionClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = function_read;
-  GTS_OBJECT_CLASS (klass)->write = function_write;
-  GTS_OBJECT_CLASS (klass)->destroy = function_destroy;
-}
-
-GfsFunctionClass * gfs_function_class (void)
-{
-  static GfsFunctionClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_function_info = {
-      "GfsFunction",
-      sizeof (GfsFunction),
-      sizeof (GfsFunctionClass),
-      (GtsObjectClassInitFunc) gfs_function_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_object_class ()),
-				  &gfs_function_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_function_new:
- * @klass: a #GfsFunctionClass.
- * @val: a value.
- *
- * Returns: a new #GfsFunction with constant value @val.
- */
-GfsFunction * gfs_function_new (GfsFunctionClass * klass, 
-				gdouble val)
-{
-  GfsFunction * object;
-
-  object = GFS_FUNCTION (gts_object_new (GTS_OBJECT_CLASS (klass)));
-  object->val = val;
-
-  return object;
-}
-
-GfsFunction * gfs_function_new_from_variable (GfsFunctionClass * klass, 
-					      GfsVariable * v)
-{
-  GfsFunction * object;
-
-  g_return_val_if_fail (v != NULL, NULL);
-
-  object = GFS_FUNCTION (gts_object_new (GTS_OBJECT_CLASS (klass)));
-  object->v = v;
-
-  return object;
-}
-
-/**
- * gfs_function_set_units:
- * @f: a #GfsFunction.
- * @units: the units of @f.
- *
- * Sets the units of @f.
- */
-void gfs_function_set_units (GfsFunction * f, 
-			     gdouble units)
-{
-  g_return_if_fail (f != NULL);
-  f->units = units;
-}
-
-static gdouble interpolated_value (GfsFunction * f, FttVector * p)
-{
-  GtsPoint q;
-  GtsFace * t;
-
-  gfs_simulation_map_inverse (gfs_object_simulation (f), p);
-  q.x = p->x; q.y = p->y;
-  t = gts_point_locate (&q, f->s, NULL);
-  if (t == NULL)
-    return 0.;
-  gts_triangle_interpolate_height (GTS_TRIANGLE (t), &q);
-  return q.z;
-}
-
-/**
- * gfs_function_description:
- * @f: a #GfsFunction.
- * @truncate: whether to truncate long descriptions.
- *
- * Returns: a newly allocated string describing @f.
- */
-gchar * gfs_function_description (GfsFunction * f,
-				  gboolean truncate)
-{
-  gchar * s;
-
-  g_return_val_if_fail (f != NULL, NULL);
-
-  if (f->s)
-    s = g_strdup (f->sname);
-  else if (f->v)
-    s = g_strdup (f->v->name);
-  else if (f->expr) {
-    s = g_strdup (f->expr->str);    
-    if (truncate) {
-      gchar * c = s;
-      guint n = 0;
-      
-      while (*c != '\0' && !isspace (*c))
-	c++;
-      while (*c != '\0' && n < 3) {
-	*c = '.';
-	c++; n++;
-      }
-      *c = '\0';
-    }
-  }
-  else
-    s = g_strdup_printf ("%g", f->val);
-  return s;
-}
-
-static gdouble adimensional_value (GfsFunction * f, gdouble v)
-{
-  gdouble L;
-  if (v == G_MAXDOUBLE || f->units == 0. || 
-      (L = gfs_object_simulation (f)->physical_params.L) == 1.)
-    return v;
-  return v*pow (L, - f->units);
-}
-
-/**
- * gfs_function_value:
- * @f: a #GfsFunction.
- * @cell: a #FttCell or %NULL.
- *
- * Returns: the value of function @f in @cell.
- */
-gdouble gfs_function_value (GfsFunction * f, FttCell * cell)
-{
-  g_return_val_if_fail (f != NULL, 0.);
-
-  gdouble dimensional;
-  if (f->s) {
-    FttVector p;
-    gfs_cell_cm (cell, &p);
-    dimensional = interpolated_value (f, &p);
-  }
-  else if (f->g) {
-    FttVector p = {0.,0.,0.};
-    if (cgd_is_spatial (f))
-      gfs_cell_cm (cell, &p);
-    dimensional = interpolated_cgd (f, &p);
-  }
-  else if (f->v)
-    dimensional = gfs_dimensional_value (f->v, GFS_VALUE (cell, f->v));
-  else if (f->dv)
-    dimensional = (* (GfsFunctionDerivedFunc) f->dv->func) (cell, NULL,
-							    gfs_object_simulation (f),
-							    f->dv->data);
-  else if (f->f) {
-    check_for_deferred_compilation (f);
-    dimensional = (* f->f) (cell, NULL, gfs_object_simulation (f));
-  }
-  else
-    dimensional = f->val;
-  return adimensional_value (f, dimensional);
-}
-
-/**
- * gfs_function_face_value:
- * @f: a #GfsFunction.
- * @fa: a #FttCellFace.
- *
- * Returns: the value of function @f at the center of face @fa.
- */
-gdouble gfs_function_face_value (GfsFunction * f, FttCellFace * fa)
-{
-  g_return_val_if_fail (f != NULL, 0.);
-  g_return_val_if_fail (fa != NULL, 0.);
-
-  gdouble dimensional;
-  if (f->s) {
-    FttVector p;
-    ftt_face_pos (fa, &p);
-    dimensional = interpolated_value (f, &p);
-  }
-  else if (f->g) {
-    FttVector p = {0.,0.,0.};
-    if (cgd_is_spatial (f))
-      ftt_face_pos (fa, &p);
-    dimensional = interpolated_cgd (f, &p);
-  }
-  else if (f->v)
-    dimensional = gfs_dimensional_value (f->v, gfs_face_interpolated_value (fa, f->v->i));
-  else if (f->dv)
-    dimensional = (* (GfsFunctionDerivedFunc) f->dv->func) (NULL, fa,
-							    gfs_object_simulation (f),
-							    f->dv->data);
-  else if (f->f) {
-    check_for_deferred_compilation (f);
-    dimensional = (* f->f) (NULL, fa, gfs_object_simulation (f));
-  }
-  else
-    dimensional = f->val;
-  return adimensional_value (f, dimensional);
-}
-
-/**
- * gfs_function_set_constant_value:
- * @f: a #GfsFunction.
- * @val: the value.
- *
- * Sets the value of the constant function @f to @val.
- */
-void gfs_function_set_constant_value (GfsFunction * f, gdouble val)
-{
-  g_return_if_fail (f != NULL);
-  g_return_if_fail (!f->f && !f->s && !f->v && !f->dv);
-
-  f->val = val;
-}
-
-/**
- * gfs_function_get_constant_value:
- * @f: a #GfsFunction.
- *
- * Returns: the value of function @f if @f is constant, G_MAXDOUBLE
- * otherwise.
- */
-gdouble gfs_function_get_constant_value (GfsFunction * f)
-{
-  g_return_val_if_fail (f != NULL, G_MAXDOUBLE);
-
-  check_for_deferred_compilation (f);
-  if (f->f || f->s || f->v || f->dv)
-    return G_MAXDOUBLE;
-  else
-    return adimensional_value (f, f->val);
-}
-
-/**
- * gfs_function_get_variable:
- * @f: a #GfsFunction.
- *
- * Returns: the variable containing the value of @f if @f is a simple
- * variable, NULL otherwise.
- */
-GfsVariable * gfs_function_get_variable (GfsFunction * f)
-{
-  g_return_val_if_fail (f != NULL, NULL);
-
-  return f->v;
-}
-
-/**
- * gfs_function_read:
- * @f: a #GfsFunction.
- * @domain: a #GfsDomain.
- * @fp: a #GtsFile.
- *
- * Calls the read() method of @f.
- */
-void gfs_function_read (GfsFunction * f, gpointer domain, GtsFile * fp)
-{
-  GtsObject * o = (GtsObject *) f;
-
-  g_return_if_fail (f != NULL);
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (fp != NULL);
-
-  GTS_OBJECT (f)->reserved = domain;
-  (* GTS_OBJECT (f)->klass->read) (&o, fp);
-}
-
-/**
- * gfs_function_write:
- * @f: a #GfsFunction.
- * @fp: a file pointer.
- *
- * Calls the write() method of @f.
- */
-void gfs_function_write (GfsFunction * f, FILE * fp)
-{
-  g_return_if_fail (f != NULL);
-  g_return_if_fail (fp != NULL);
-
-  (* GTS_OBJECT (f)->klass->write) (GTS_OBJECT (f), fp);
-}
-
-/* GfsFunctionSpatial: object */
-
-static void gfs_function_spatial_init (GfsFunction * f)
-{
-  f->spatial = TRUE;
-}
-
-GfsFunctionClass * gfs_function_spatial_class (void)
-{
-  static GfsFunctionClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_function_info = {
-      "GfsFunctionSpatial",
-      sizeof (GfsFunction),
-      sizeof (GfsFunctionClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) gfs_function_spatial_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_function_class ()),
-				  &gfs_function_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_function_spatial_value:
- * @f: a #GfsFunction.
- * @p: a #FttVector.
- *
- * Returns: the value of function @f at location @p.
- */
-gdouble gfs_function_spatial_value (GfsFunction * f, const FttVector * p)
-{
-  g_return_val_if_fail (f != NULL, 0.);
-  g_return_val_if_fail (GFS_IS_FUNCTION_SPATIAL (f), 0.);
-  g_return_val_if_fail (p != NULL, 0.);
-
-  gdouble dimensional;  
-  if (f->f) {
-    GfsSimulation * sim = gfs_object_simulation (f);
-    FttVector q = *p;
-    check_for_deferred_compilation (f);
-    if (!f->nomap)
-      gfs_simulation_map_inverse (sim, &q);
-    dimensional = (* (GfsFunctionSpatialFunc) f->f) (q.x, q.y, q.z, sim->time.t);
-  }
-  else
-    dimensional = f->val;
-  return adimensional_value (f, dimensional);
-}
-
-GfsFunction * gfs_function_spatial_new (GfsFunctionClass * klass, 
-					GfsFunctionSpatialFunc func)
-{
-  GfsFunction * object;
-
-  g_return_val_if_fail (func != NULL, NULL);
-
-  object = GFS_FUNCTION (gts_object_new (GTS_OBJECT_CLASS (klass)));
-  object->f = (GfsFunctionFunc) func;
-
-  return object;
-}
-
-/* GfsFunctionMap: object */
-
-static void gfs_function_map_init (GfsFunction * f)
-{
-  f->nomap = TRUE;
-}
-
-GfsFunctionClass * gfs_function_map_class (void)
-{
-  static GfsFunctionClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_function_info = {
-      "GfsFunctionMap",
-      sizeof (GfsFunction),
-      sizeof (GfsFunctionClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) gfs_function_map_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_function_spatial_class ()),
-				  &gfs_function_info);
-  }
-
-  return klass;
-}
-
-/* GfsFunctionConstant: object */
-
-static void gfs_function_constant_init (GfsFunction * f)
-{
-  f->constant = TRUE;
-}
-
-GfsFunctionClass * gfs_function_constant_class (void)
-{
-  static GfsFunctionClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_function_info = {
-      "GfsFunctionConstant",
-      sizeof (GfsFunction),
-      sizeof (GfsFunctionClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) gfs_function_constant_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_function_class ()),
-				  &gfs_function_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_read_constant:
- * @fp: a #GtsFile.
- * @domain: a #GfsDomain.
- *
- * Reads a constant value from @fp.
- *
- * Returns: the value of the constant or G_MAXDOUBLE if an error
- * occured.
- */
-gdouble gfs_read_constant (GtsFile * fp, gpointer domain)
-{
-  g_return_val_if_fail (fp != NULL, G_MAXDOUBLE);
-  g_return_val_if_fail (domain != NULL, G_MAXDOUBLE);
-
-  GfsFunction * f = gfs_function_new (gfs_function_constant_class (), 0.);
-  gfs_function_read (f, domain, fp);
-  if (fp->type == GTS_ERROR)
-    return G_MAXDOUBLE;
-  gdouble val = gfs_function_get_constant_value (f);
-  gts_object_destroy (GTS_OBJECT (f));
-  if (val == G_MAXDOUBLE)
-    gts_file_error (fp, "expecting a constant");
-  return val;
-}
-
-/**
- * gfs_object_class_from_name:
- * @name: the name of the class.
- *
- * Looks for a class called @name. If none is found append the "Gfs"
- * prefix and look again.
- *
- * Returns: the class or %NULL if none was found.
- */
-GtsObjectClass * gfs_object_class_from_name (const gchar * name)
-{
-  GtsObjectClass * klass;
-
-  g_return_val_if_fail (name != NULL, NULL);
-
-  if ((klass = gts_object_class_from_name (name)))
-    return klass;
-  /* for backward parameter file compatibility */
-  if (!strcmp (name, "GtsSurfaceFile"))
-    return GTS_OBJECT_CLASS (gfs_solid_class ());
-  gchar * ename = g_strconcat ("Gfs", name, NULL);
-  klass = gts_object_class_from_name (ename);
-  g_free (ename);
-  return klass;
-}
-
-static void eigsrt (gdouble d[FTT_DIMENSION], gdouble v[FTT_DIMENSION][FTT_DIMENSION])
-{
-  gint k, j, i;
-  gdouble p;
-
-  for (i = 0; i < FTT_DIMENSION - 1; i++) {
-    p = d[k = i];
-
-    for (j = i + 1; j < FTT_DIMENSION; j++)
-      if (d[j] >= p) 
-	p = d[k = j];
-    if (k != i) {
-      d[k] = d[i];
-      d[i] = p;
-      for (j = 0; j < FTT_DIMENSION; j++) {
-	p = v[j][i];
-	v[j][i] = v[j][k];
-	v[j][k] = p;
-      }
-    }
-  }
-}
-
-#define ROTATE(a,i,j,k,l) {g=a[i][j];h=a[k][l];a[i][j]=g-s*(h+g*tau);a[k][l]=h+s*(g-h*tau);}
-
-/**
- * gfs_eigenvalues:
- * @a: a symmetric matrix.
- * @d: a vector.
- * @v: another matrix.
- *
- * Fills @d (resp. @v) with the eigenvalues (resp. eigenvectors) of
- * matrix @a.
- */
-void gfs_eigenvalues (gdouble a[FTT_DIMENSION][FTT_DIMENSION],
-		      gdouble d[FTT_DIMENSION],
-		      gdouble v[FTT_DIMENSION][FTT_DIMENSION])
-{
-  gint j, iq, ip, i;
-  gdouble tresh, theta, tau, t, sm, s, h, g, c, b[FTT_DIMENSION], z[FTT_DIMENSION];
-
-  for (ip = 0; ip < FTT_DIMENSION; ip++) {
-    for (iq = 0; iq < FTT_DIMENSION; iq++)
-      v[ip][iq] = 0.0;
-    v[ip][ip] = 1.0;
-  }
-
-  for (ip = 0; ip < FTT_DIMENSION; ip++) {
-    b[ip] = d[ip] = a[ip][ip];
-    z[ip] = 0.0;
-  }
-
-  for (i = 1; i <= 50; i++) {
-    sm = 0.0;
-    for (ip = 0; ip < FTT_DIMENSION - 1; ip++) {
-      for (iq = ip + 1; iq < FTT_DIMENSION; iq++)
-	sm += fabs (a[ip][iq]);
-    }
-    if (sm == 0.0) {
-      eigsrt (d, v);
-      return;
-    }
-    if (i < 4)
-      tresh = 0.2*sm/(FTT_DIMENSION*FTT_DIMENSION);
-    else
-      tresh = 0.0;
-    for (ip = 0; ip < FTT_DIMENSION - 1; ip++) {
-      for (iq = ip + 1; iq < FTT_DIMENSION; iq++) {
-	g = 100.0*fabs (a[ip][iq]);
-	if (i > 4 && fabs(d[ip]) + g == fabs(d[ip]) && fabs(d[iq]) + g == fabs(d[iq]))
-	  a[ip][iq] = 0.0;
-	else if (fabs (a[ip][iq]) > tresh) {
-	  h = d[iq] - d[ip];
-	  if (fabs(h) + g == fabs(h))
-	    t = a[ip][iq]/h;
-	  else {
-	    theta = 0.5*h/a[ip][iq];
-	    t = 1.0/(fabs (theta) + sqrt (1.0 + theta*theta));
-	    if (theta < 0.0) t = -t;
-	  }
-	  c = 1.0/sqrt (1 + t*t);
-	  s = t*c;
-	  tau = s/(1.0 + c);
-	  h = t*a[ip][iq];
-	  z[ip] -= h;
-	  z[iq] += h;
-	  d[ip] -= h;
-	  d[iq] += h;
-	  a[ip][iq] = 0.0;
-	  for (j = 0; j <= ip - 1; j++)
-	    ROTATE (a, j, ip, j, iq);
-	  for (j = ip + 1; j <= iq - 1; j++)
-	    ROTATE (a, ip, j, j, iq);
-	  for (j = iq + 1; j < FTT_DIMENSION; j++)
-	    ROTATE(a, ip, j, iq, j);
-	  for (j = 0; j < FTT_DIMENSION; j++)
-	    ROTATE(v, j, ip, j, iq);
-	}
-      }
-    }
-    for (ip = 0; ip < FTT_DIMENSION; ip++) {
-      b[ip] += z[ip];
-      d[ip] = b[ip];
-      z[ip] = 0.0;
-    }
-  }
-  /* Too many iterations */
-  for (i = 0; i < FTT_DIMENSION; i++) {
-    for (j = 0; j < FTT_DIMENSION; j++)
-      fprintf (stderr, "%10.3g ", a[i][j]);
-    fprintf (stderr, "\n");
-  }
-  g_assert_not_reached ();
-}
-
-/**
- * gfs_matrix_inverse:
- * @m: a square matrix.
- * @n: size of the matrix.
- * @pivmin: the minimum value of the pivoting coefficient.
- *
- * Replaces @m with its inverse.
- *
- * Returns: 0. if the inversion encounters a pivot coefficient smaller
- * than or equal to @pivmin (i.e. @m is non-invertible), the minimum
- * absolute value of the pivoting coefficient otherwise.
- */
-gdouble gfs_matrix_inverse (gdouble ** m, guint n, gdouble pivmin)
-{
-  gint * indxc, * indxr, * ipiv;
-  gint i, icol = 0, irow = 0, j, k, l, ll;
-  gdouble big, dum, pivinv, temp, minpiv = G_MAXDOUBLE;
-
-  g_return_val_if_fail (m != NULL, 0.);
-  g_return_val_if_fail (pivmin >= 0., 0.);
-
-  indxc = g_malloc (sizeof (gint)*n);
-  indxr = g_malloc (sizeof (gint)*n);
-  ipiv = g_malloc (sizeof (gint)*n);
-  
-#define SWAP(a,b) {temp=(a);(a)=(b);(b)=temp;}
-
-  for (j = 0; j < n; j++)
-    ipiv[j] = -1;
-
-  for (i = 0; i < n; i++) {
-    big = 0.0;
-    for (j = 0; j < n; j++)
-      if (ipiv[j] != 0)
-	for (k = 0; k < n; k++) {
-	  if (ipiv[k] == -1) {
-	    if (fabs (m[j][k]) >= big) {
-	      big = fabs (m[j][k]);
-	      irow = j;
-	      icol = k;
-	    }
-	  }
-	}
-    ipiv[icol]++;
-    if (irow != icol)
-      for (l = 0; l < n; l++) 
-	SWAP (m[irow][l], m[icol][l]);
-    indxr[i] = irow;
-    indxc[i] = icol;
-    if (fabs (m[icol][icol]) <= pivmin) {
-      g_free (indxc);
-      g_free (indxr);
-      g_free (ipiv);
-      return 0.;
-    }
-    if (fabs (m[icol][icol]) < minpiv)
-      minpiv = fabs (m[icol][icol]);
-    pivinv = 1.0/m[icol][icol];
-    m[icol][icol] = 1.0;
-    for (l = 0; l < n; l++) m[icol][l] *= pivinv;
-    for (ll = 0; ll < n; ll++)
-      if (ll != icol) {
-	dum = m[ll][icol];
-	m[ll][icol] = 0.0;
-	for (l = 0; l < n; l++)
-	  m[ll][l] -= m[icol][l]*dum;
-      }
-  }
-  for (l = n - 1; l >= 0; l--) {
-    if (indxr[l] != indxc[l])
-      for (k = 0; k < n; k++)
-	SWAP (m[k][indxr[l]], m[k][indxc[l]]);
-  }
-  g_free (indxc);
-  g_free (indxr);
-  g_free (ipiv);
-  return minpiv;
-}
-
-/**
- * gfs_matrix_new:
- * @n: the size of the matrix.
- * @p: the size of the matrix.
- * @size: the size of the matrix elements.
- *
- * The matrix elements are initialised to zero.
- *
- * Returns: a newly allocated matrix.
- */
-gpointer gfs_matrix_new (guint n, guint p, guint size)
-{
-  guint i;
-  gpointer * m, a;
-  
-  g_return_val_if_fail (n > 0, NULL);
-  g_return_val_if_fail (p > 0, NULL);
-  g_return_val_if_fail (size > 0, NULL);
-
-  m = g_malloc (n*sizeof (gpointer));
-  a = g_malloc0 (n*p*size);
-  for (i = 0; i < n; i++)
-    m[i] = GUINT_TO_POINTER (GPOINTER_TO_UINT (a) + i*p*size);
-  return m;
-}
-
-/**
- * gfs_matrix_free:
- * @m: a matrix allocated with gfs_matrix_new().
- *
- * Frees the memory occupied by @m.
- */
-void gfs_matrix_free (gpointer m)
-{
-  g_return_if_fail (m != NULL);
-
-  g_free (((gpointer *) m)[0]);
-  g_free (m);
-}
-
-/**
- * gfs_clock_new:
- *
- * Returns: a new #GfsClock.
- */
-GfsClock * gfs_clock_new (void)
-{
-  GfsClock * t = g_malloc (sizeof (GfsClock));
-
-  t->start = -1;
-  t->started = FALSE;
-  return t;
-}
-
-/**
- * gfs_clock_start:
- * @t: a #GfsClock.
- *
- * Starts clock @t.
- */
-void gfs_clock_start (GfsClock * t)
-{
-  struct tms tm;
-
-  g_return_if_fail (t != NULL);
-  g_return_if_fail (!t->started);
-
-  if (times (&tm) == (clock_t) -1)
-    g_warning ("cannot read clock");
-  t->start = tm.tms_utime;
-  t->started = TRUE;
-}
-
-/**
- * gfs_clock_stop:
- * @t: a #GfsClock.
- *
- * Stops clock @t.
- */
-void gfs_clock_stop (GfsClock * t)
-{
-  struct tms tm;
-
-  g_return_if_fail (t != NULL);
-  g_return_if_fail (t->started);
-
-  if (times (&tm) == (clock_t) -1)
-    g_warning ("cannot read clock");
-  t->stop = tm.tms_utime;
-  t->started = FALSE;
-}
-
-/**
- * gfs_clock_elapsed:
- * @t: a #GfsClock.
- *
- * Returns: the time elapsed in seconds since @t was started.
- */
-gdouble gfs_clock_elapsed (GfsClock * t)
-{
-  g_return_val_if_fail (t != NULL, 0.);
-  g_return_val_if_fail (t->start >= 0, 0.);
-
-  if (t->started == FALSE)
-    return (t->stop - t->start)/(gdouble) sysconf (_SC_CLK_TCK);
-  else {
-    struct tms tm;
-    if (times (&tm) == (clock_t) -1)
-      g_warning ("cannot read clock");
-    return (tm.tms_utime - t->start)/(gdouble) sysconf (_SC_CLK_TCK);
-  }
-}
-
-/**
- * gfs_clock_destroy:
- * @t: a #GfsClock.
- *
- * Destroys the clock, freeing the memory allocated for it.
- */
-void gfs_clock_destroy (GfsClock * t)
-{
-  g_return_if_fail (t != NULL);
-
-  g_free (t);
-}
-
-/**
- * gfs_union_open:
- * @fp: a file pointer.
- * @rank: the rank of the current parallel process.
- *
- * Opens a "parallel" file which serialises multiple parallel (write)
- * accesses to the file pointed to by @fp.
- *
- * This file must be closed with gfs_union_close().
- *
- * Returns: a "parallel" file pointer associated with @fp.
- */
-FILE * gfs_union_open (FILE * fp, int rank)
-{
-  g_return_val_if_fail (fp != NULL, NULL);
-
-  if (rank <= 0) /* master */
-    return fp;
-  else { /* slaves */
-#ifdef HAVE_MPI
-    MPI_Status status;
-    int pe;
-    MPI_Recv (&pe, 1, MPI_INT, 0, rank, MPI_COMM_WORLD, &status);
-    g_assert (rank == pe);
-#endif /* HAVE_MPI */
-    return tmpfile ();
-  }
-}
-
-/**
- * gfs_union_close:
- * @fp: a file pointer.
- * @rank: the rank of the current parallel process.
- * @fpp: a "parallel" file pointer returned by a call to gfs_union_open().
- *
- * Closes a "parallel" file previously opened using gfs_union_open().
- */
-void gfs_union_close (FILE * fp, int rank, FILE * fpp)
-{
-  g_return_if_fail (fp != NULL);
-  g_return_if_fail (fpp != NULL);
-
-  if (rank == 0) { /* master */
-#ifdef HAVE_MPI
-    int pe, npe;
-    MPI_Comm_size (MPI_COMM_WORLD, &npe);
-    for (pe = 1; pe < npe; pe++) {
-      MPI_Send (&pe, 1, MPI_INT, pe, pe, MPI_COMM_WORLD);
-      MPI_Status status;
-      long length;
-      MPI_Recv (&length, 1, MPI_LONG, pe, pe, MPI_COMM_WORLD, &status);
-      /*      fprintf (stderr, "receiving %ld bytes from PE %d\n", length, pe); */
-      if (length > 0) {
-	char * buf = g_malloc (length);
-	MPI_Recv (buf, length, MPI_BYTE, pe, pe + 1, MPI_COMM_WORLD, &status);
-	int rcvcount;
-	MPI_Get_count (&status, MPI_BYTE, &rcvcount);
-	fwrite (buf, 1, rcvcount, fp);
-	g_free (buf);
-      }
-    }
-#endif /* HAVE_MPI */
-  }
-  else if (rank > 0) { /* slaves */
-#ifdef HAVE_MPI
-    int fd = fileno (fpp);
-    struct stat sb;
-    fflush (fpp);
-    g_assert (fstat (fd, &sb) != -1);
-    long length = sb.st_size;
-    MPI_Send (&length, 1, MPI_LONG, 0, rank, MPI_COMM_WORLD);
-    if (length > 0) {
-      char * buf = mmap (NULL, length, PROT_READ, MAP_PRIVATE, fd, 0);
-      g_assert (buf != MAP_FAILED);
-      MPI_Send (buf, length, MPI_BYTE, 0, rank + 1, MPI_COMM_WORLD);
-      munmap (buf, length);
-    }
-#endif /* HAVE_MPI */
-    fclose (fpp);
-  }
-}
diff --git a/src/utils.h b/src/utils.h
deleted file mode 100644
index 7f070ee..0000000
--- a/src/utils.h
+++ /dev/null
@@ -1,191 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __UTILS_H__
-#define __UTILS_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include <gmodule.h>
-#include "ftt.h"
-
-#ifdef HAVE_CONFIG_H
-#  include "config.h"
-#  ifdef HAVE_MPI
-#    include <mpi.h>
-
-# define gfs_all_reduce(domain, p, type, op) {			        \
-    if ((domain)->pid >= 0) {						\
-      union { int a; float b; double c;} global;			\
-      MPI_Allreduce (&(p), &global, 1, type, op, MPI_COMM_WORLD);	\
-      memcpy (&(p), &global, sizeof (p));				\
-    }									\
-  }
-
-# define gfs_error(pid, ...) {	                                        \
-    int rank;                                                           \
-    MPI_Comm_rank (MPI_COMM_WORLD, &rank);                              \
-    if (rank == (pid))		             				\
-      fprintf (stderr, __VA_ARGS__);                                    \
-    else if ((pid) < 0) {						\
-      int size;                                                         \
-      MPI_Comm_size (MPI_COMM_WORLD, &size);                            \
-      if (size > 1) {			                                \
-        char name[MPI_MAX_PROCESSOR_NAME];                              \
-        MPI_Get_processor_name (name, &size);                           \
-        fprintf (stderr, "PE %d (%s): ", rank, name);			\
-      }                                                                 \
-      fprintf (stderr, __VA_ARGS__);                                    \
-    }                                                                   \
-  }
-
-#  else /* doesn't HAVE_MPI */
-    /* gfs_all_reduce() defaults to nothing without MPI */
-#    define gfs_all_reduce(domain, p, type, op)
-#    define gfs_error(pid, ...) fprintf(stderr, __VA_ARGS__)
-#  endif /* doesn't HAVE_MPI */
-#endif /* HAVE_CONFIG_H */
-
-#define GFS_DOUBLE_TO_POINTER(d)     (*((gpointer *) &(d)))
-
-gboolean gfs_char_in_string (char c, const char * s);
-gchar *  gfs_file_statement (GtsFile * fp);
-
-/* GfsGlobal: Header */
-
-typedef struct _GfsGlobal         GfsGlobal;
-
-#define GFS_GLOBAL(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsGlobal,\
-					         gfs_global_class ())
-#define GFS_IS_GLOBAL(obj)         (gts_object_is_from_class (obj,\
-						 gfs_global_class ()))
-
-GtsObjectClass * gfs_global_class  (void);
-
-/* GfsFunction: Header */
-
-typedef struct _GfsFunction         GfsFunction;
-
-typedef struct _GfsFunctionClass    GfsFunctionClass;
-
-struct _GfsFunctionClass {
-  GtsObjectClass parent_class;
-};
-
-#define GFS_FUNCTION(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsFunction,\
-					         gfs_function_class ())
-#define GFS_FUNCTION_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 GfsFunctionClass,\
-						 gfs_function_class())
-#define GFS_IS_FUNCTION(obj)         (gts_object_is_from_class (obj,\
-						 gfs_function_class ()))
-
-GfsFunctionClass * gfs_function_class       (void);
-GfsFunction *      gfs_function_new         (GfsFunctionClass * klass,
-					     gdouble val);
-GfsFunction *      gfs_function_new_from_variable (GfsFunctionClass * klass, 
-						   GfsVariable * v);
-void               gfs_function_set_units   (GfsFunction * f,
-					     gdouble units);
-gchar *            gfs_function_description (GfsFunction * f,
-					     gboolean truncate);
-gdouble            gfs_function_face_value  (GfsFunction * f,
-					     FttCellFace * fa);
-gdouble            gfs_function_value       (GfsFunction * f,
-					     FttCell * cell);
-void               gfs_function_set_constant_value (GfsFunction * f, 
-						    gdouble val);
-gdouble            gfs_function_get_constant_value (GfsFunction * f);
-GfsVariable *      gfs_function_get_variable (GfsFunction * f);
-void               gfs_function_read        (GfsFunction * f, 
-					     gpointer domain,
-					     GtsFile * fp);
-void               gfs_function_write       (GfsFunction * f, 
-					     FILE * fp);
-GString *          gfs_function_expression  (GtsFile * fp, 
-					     gboolean * is_expression);
-
-/* GfsFunctionSpatial: Header */
-
-#define GFS_IS_FUNCTION_SPATIAL(obj)         (gts_object_is_from_class (obj,\
-					      gfs_function_spatial_class ()))
-
-typedef gdouble (* GfsFunctionSpatialFunc)    (double x, double y, double z, double t);
-
-GfsFunctionClass * gfs_function_spatial_class (void);
-GfsFunction *      gfs_function_spatial_new   (GfsFunctionClass * klass, 
-					       GfsFunctionSpatialFunc func);
-gdouble            gfs_function_spatial_value (GfsFunction * f, const FttVector * p);
-
-/* GfsFunctionMap: Header */
-
-#define GFS_IS_FUNCTION_MAP(obj)         (gts_object_is_from_class (obj,\
-					      gfs_function_map_class ()))
-
-GfsFunctionClass * gfs_function_map_class (void);
-
-/* GfsFunctionConstant: Header */
-
-#define GFS_IS_FUNCTION_CONSTANT(obj)         (gts_object_is_from_class (obj,\
-					       gfs_function_constant_class ()))
-
-GfsFunctionClass * gfs_function_constant_class (void);
-gdouble            gfs_read_constant           (GtsFile * fp,
-						gpointer domain);
-
-GtsObjectClass *   gfs_object_class_from_name (const gchar * name);
-
-void               gfs_eigenvalues          (gdouble a[FTT_DIMENSION][FTT_DIMENSION],
-					     gdouble d[FTT_DIMENSION],
-					     gdouble v[FTT_DIMENSION][FTT_DIMENSION]);
-gdouble            gfs_matrix_inverse       (gdouble ** m, 
-					     guint n,
-					     gdouble pivmin);
-gpointer           gfs_matrix_new           (guint n, 
-					     guint p,
-					     guint size);
-void               gfs_matrix_free          (gpointer m);
-
-typedef struct {
-  gboolean started;
-  glong start, stop;
-} GfsClock;
-
-GfsClock *         gfs_clock_new            (void);
-void               gfs_clock_start          (GfsClock * t);
-void               gfs_clock_stop           (GfsClock * t);
-gdouble            gfs_clock_elapsed        (GfsClock * t);
-void               gfs_clock_destroy        (GfsClock * t);
-
-FILE *             gfs_union_open           (FILE * fp, 
-					     int rank);
-void               gfs_union_close          (FILE * fp, 
-					     int rank, 
-					     FILE * fpp);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __UTILS_H__ */
-
diff --git a/src/variable.c b/src/variable.c
deleted file mode 100644
index 184df36..0000000
--- a/src/variable.c
+++ /dev/null
@@ -1,847 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "variable.h"
-#include "vof.h"
-
-/* GfsVariable: Object */
-
-static void variable_init_domain (GfsVariable * v, GfsDomain * domain)
-{
-  v->i = gfs_domain_alloc (domain);
-  v->domain = domain;
-  GTS_OBJECT (v)->reserved = domain;
-}
-
-static void gfs_variable_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsDomain * domain;
-  GfsVariable * v, * old;
-
-  if (GTS_OBJECT_CLASS (gfs_variable_class ())->parent_class->read)
-    (* GTS_OBJECT_CLASS (gfs_variable_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (name)");
-    return;
-  }
-  domain = (*o)->reserved;
-  if (gfs_derived_variable_from_name (domain->derived_variables, fp->token->str)) {
-    gts_file_error (fp, "`%s' is a reserved keyword", fp->token->str);
-    return;
-  }
-  v = GFS_VARIABLE1 (*o);
-  v->name = g_strdup (fp->token->str);
-  gts_file_next_token (fp);
-
-  if ((old = gfs_variable_from_name (domain->variables, v->name))) {
-    GSList * i;
-    if ((i = g_slist_find (domain->variables_io, old)))
-      i->data = v;
-    domain->variables = g_slist_remove (domain->variables, old);
-    v->units = old->units;
-    gts_object_destroy (GTS_OBJECT (old));
-  }
-  variable_init_domain (v, domain);
-  domain->variables = g_slist_append (domain->variables, v);
-}
-
-static void gfs_variable_write (GtsObject * o, FILE * fp)
-{
-  if (GTS_OBJECT_CLASS (gfs_variable_class ())->parent_class->write)
-    (* GTS_OBJECT_CLASS (gfs_variable_class ())->parent_class->write) (o, fp);
-  fprintf (fp, " %s", GFS_VARIABLE1 (o)->name);
-}
-
-static void gfs_variable_destroy (GtsObject * object)
-{
-  GfsVariable * v = GFS_VARIABLE1 (object);
-
-  g_free (v->name);
-  g_free (v->description);
-  if (v->sources)
-    gts_object_destroy (GTS_OBJECT (v->sources));
-  if (v->surface_bc)
-    gts_object_destroy (GTS_OBJECT (v->surface_bc));
-  if (v->default_bc)
-    gts_object_destroy (GTS_OBJECT (v->default_bc));
-  if (v->domain) {
-    gfs_domain_free (v->domain, v->i);
-    v->domain->variables = g_slist_remove (v->domain->variables, v);
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_variable_class ())->parent_class->destroy) (object);
-}
-
-static void gfs_variable_class_init (GfsVariableClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->read = gfs_variable_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_variable_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_variable_destroy;
-}
-
-static void gfs_variable_init (GfsVariable * v)
-{
-  GFS_EVENT (v)->istep = 1;
-  v->centered = FALSE;
-  v->component = FTT_DIMENSION;
-  v->fine_coarse = (GfsVariableFineCoarseFunc) gfs_get_from_below_intensive;
-  v->coarse_fine = (GfsVariableFineCoarseFunc) gfs_cell_coarse_fine;
-}
-
-GfsVariableClass * gfs_variable_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_info = {
-      "GfsVariable",
-      sizeof (GfsVariable),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) gfs_variable_class_init,
-      (GtsObjectInitFunc) gfs_variable_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_event_class ()), &gfs_variable_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_variable_new:
- * @klass: a #GfsVariableClass.
- * @domain: a #GfsDomain.
- * @name: the name of the variable or %NULL.
- * @description: the variable description or %NULL.
- *
- * Returns: a newly allocated #GfsVariable or %NULL if a variable
- * named @name already exists in @domain.
- */
-GfsVariable * gfs_variable_new (GfsVariableClass * klass,
-				GfsDomain * domain,
-				const gchar * name,
-				const gchar * description)
-{
-  GfsVariable * v;
-
-  g_return_val_if_fail (klass != NULL, NULL);
-  g_return_val_if_fail (domain != NULL, NULL);
-
-  if (name &&
-      (gfs_variable_from_name (domain->variables, name) ||
-       gfs_derived_variable_from_name (domain->derived_variables, name)))
-    return NULL;
-
-  v = GFS_VARIABLE1 (gts_object_new (GTS_OBJECT_CLASS (klass)));
-  if (name)
-    v->name = g_strdup (name);
-  if (description)
-    v->description = g_strdup (description);
-  variable_init_domain (v, domain);
-
-  return v;
-}
-
-/**
- * gfs_variable_from_name:
- * @i: the list of available #GfsVariable.
- * @name: the name of the variable to find.
- *
- * Returns: the #GfsVariable @name or %NULL if this variable name does
- * not exist.  
- */
-GfsVariable * gfs_variable_from_name (GSList * i,
-				      const gchar * name)
-{
-  g_return_val_if_fail (name != NULL, NULL);
-
-  while (i && (!GFS_VARIABLE1 (i->data)->name || strcmp (name, GFS_VARIABLE1 (i->data)->name)))
-    i = i->next;
-  return i ? GFS_VARIABLE1 (i->data) : NULL;
-}
-
-/**
- * gfs_variables_from_list:
- * @i: the list of available #GfsVariable.
- * @list: a malloc'ed string containing comma separated variable names.
- * @error: where to return the variable name in case of error.
- *
- * Returns: a list of variables or %NULL in case of error, in which
- * case *@error points to the name of the unknown variable.  
- */
-GSList * gfs_variables_from_list (GSList * i,
-				  gchar * list,
-				  gchar ** error)
-{
-  gchar * s;
-  GSList * var = NULL;
-
-  g_return_val_if_fail (i != NULL, NULL);
-  g_return_val_if_fail (error != NULL, NULL);
-
-  s = strtok (list, ",");
-  while (s) {
-    GfsVariable * v = gfs_variable_from_name (i, s);
-
-    if (v == NULL) {
-      *error = s;
-      g_slist_free (var);
-      return NULL;
-    }
-    var = g_slist_append (var, v);
-    s = strtok (NULL, ",");
-  }
-  return var;
-}
-
-/**
- * gfs_variables_swap:
- * @v1: a #GfsVariable.
- * @v2: a #GfsVariable.
- *
- * Swaps the values of @v1 and @v2, belonging to the same #GfsDomain.
- */
-void gfs_variables_swap (GfsVariable * v1, GfsVariable * v2)
-{
-  guint i;
-
-  g_return_if_fail (v1 != NULL);
-  g_return_if_fail (v2 != NULL);
-  g_return_if_fail (v1->domain == v2->domain);
-
-  i = v1->i; v1->i = v2->i; v2->i = i;
-}
-
-/**
- * gfs_variable_set_vector:
- * @v: the components of the vector.
- * @n: the vector dimension.
- *
- * Sets @v[0],..., at v[n-1] as components of a vector quantity.
- */
-void gfs_variable_set_vector (GfsVariable ** v, guint n)
-{
-  guint i, j;
-
-  g_return_if_fail (v != NULL);
-  g_return_if_fail (n <= FTT_DIMENSION);
-
-  for (i = 0; i < n; i++) {
-    g_return_if_fail (v[i] != NULL);
-    v[i]->component = i;
-    for (j = 0; j < n; j++)
-      v[i]->vector[j] = v[j];
-  }    
-}
-
-/* GfsVariableTracer: object */
-
-static void variable_tracer_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_tracer_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type == '{')
-    gfs_advection_params_read (&GFS_VARIABLE_TRACER (*o)->advection, fp);
-  if (fp->type != GTS_ERROR && fp->type == '{')
-    g_warning ("%d:%d: specifying diffusion parameters is not done here anymore!",
-	       fp->line, fp->pos);
-}
-
-static void variable_tracer_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_tracer_class ())->parent_class->write) (o, fp);
-
-  fputc (' ', fp);
-  gfs_advection_params_write (&GFS_VARIABLE_TRACER (o)->advection, fp);
-}
-
-static void variable_tracer_class_init (GtsObjectClass * klass)
-{
-  klass->read = variable_tracer_read;
-  klass->write = variable_tracer_write;
-}
-
-static void variable_tracer_init (GfsVariableTracer * v)
-{
-  gfs_advection_params_init (&v->advection);
-  v->advection.gradient = gfs_center_van_leer_gradient;
-  v->advection.flux = gfs_face_advection_flux;
-  v->advection.v = GFS_VARIABLE1 (v);
-  v->advection.fv = NULL;
-  GFS_VARIABLE1 (v)->description = g_strdup ("Tracer");
-}
-
-GfsVariableClass * gfs_variable_tracer_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_tracer_info = {
-      "GfsVariableTracer",
-      sizeof (GfsVariableTracer),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_tracer_class_init,
-      (GtsObjectInitFunc) variable_tracer_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_tracer_info);
-  }
-
-  return klass;
-}
-
-/* GfsVariableResidual: Object */
-
-static void scale_residual (FttCell * cell, GfsVariable * res)
-{
-  gdouble size = ftt_cell_size (cell);
-  gdouble dt = GFS_SIMULATION (res->domain)->advection_params.dt;
-  GFS_VARIABLE (cell, res->i) *= dt*dt/(size*size);
-}
-
-static gboolean variable_residual_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_variable_class ())->event) (event, sim)) {
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) scale_residual, event);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void variable_residual_class_init (GfsEventClass * klass)
-{
-  klass->event = variable_residual_event;
-}
-
-static void variable_residual_init (GfsVariable * v)
-{
-  v->description = g_strdup ("Residual of the Poisson equation");
-}
-
-GfsVariableClass * gfs_variable_residual_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_residual_info = {
-      "GfsVariableResidual",
-      sizeof (GfsVariable),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_residual_class_init,
-      (GtsObjectInitFunc) variable_residual_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_residual_info);
-  }
-
-  return klass;
-}
-
-/* GfsVariableFiltered: object */
-
-static void variable_filtered_read (GtsObject ** o, GtsFile * fp)
-{
-  GfsVariableFiltered * v = GFS_VARIABLE_FILTERED (*o);
-  GfsDomain * domain;
-
-  (* GTS_OBJECT_CLASS (gfs_variable_filtered_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (fp->type != GTS_STRING) {
-    gts_file_error (fp, "expecting a string (v)");
-    return;
-  }
-  domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  if (!(v->v = gfs_variable_from_name (domain->variables, fp->token->str))) {
-    gts_file_error (fp, "unknown variable `%s'", fp->token->str);
-    return;
-  }
-  gts_file_next_token (fp);
-
-  if (fp->type != GTS_INT) {
-    gts_file_error (fp, "expecting a number (niter)");
-    return;
-  }
-  v->niter = atoi (fp->token->str);
-  if (v->niter == 0) {
-    gts_file_error (fp, "niter must be strictly positive");
-    return;
-  }
-  gts_file_next_token (fp);  
-
-  if (GFS_VARIABLE1 (v)->description)
-    g_free (GFS_VARIABLE1 (v)->description);
-  GFS_VARIABLE1 (v)->description = g_strjoin (" ", "Variable", v->v->name, "filtered", NULL);
-
-  GFS_VARIABLE1 (v)->units = v->v->units;
-}
-
-static void variable_filtered_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_filtered_class ())->parent_class->write) (o, fp);
-
-  fprintf (fp, " %s %d", GFS_VARIABLE_FILTERED (o)->v->name, GFS_VARIABLE_FILTERED (o)->niter);
-}
-
-static void variable_filtered_event_half (GfsEvent * event, GfsSimulation * sim)
-{
-  guint n = GFS_VARIABLE_FILTERED (event)->niter;
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsVariable * v = GFS_VARIABLE1 (event);
-
-  gfs_domain_filter (domain, GFS_VARIABLE_FILTERED (event)->v, v);
-  while (--n)
-    gfs_domain_filter (domain, v, NULL);
-  gfs_domain_cell_traverse (domain,
-			    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) v->fine_coarse, v);
-  gfs_domain_bc (domain, FTT_TRAVERSE_NON_LEAFS, -1, v);
-}
-
-static gboolean variable_filtered_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_variable_filtered_class ())->parent_class)->event)
-      (event, sim)) {
-    variable_filtered_event_half (event, sim);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void variable_filtered_class_init (GtsObjectClass * klass)
-{
-  klass->read = variable_filtered_read;
-  klass->write = variable_filtered_write;
-  GFS_EVENT_CLASS (klass)->event = variable_filtered_event;
-  GFS_EVENT_CLASS (klass)->event_half = variable_filtered_event_half;
-}
-
-static void variable_filtered_init (GfsEvent * v)
-{
-  /* the variable/event may need to be initialised at the start */
-  v->start = -1;
-}
-
-GfsVariableClass * gfs_variable_filtered_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_filtered_info = {
-      "GfsVariableFiltered",
-      sizeof (GfsVariableFiltered),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_filtered_class_init,
-      (GtsObjectInitFunc) variable_filtered_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_filtered_info);
-  }
-
-  return klass;
-}
-
-/* GfsVariableDiagonal: object */
-
-static void unity (FttCell * cell, GfsVariable * v)
-{
-  GFS_VARIABLE (cell, v->i) = 1.;
-}
-
-static void variable_diagonal (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-  GfsVariable * tmp = data[1];
-  GfsGradient g;
-  FttCellNeighbors neighbor;
-  FttCellFace f;
-  GfsGradient ng;
-
-  GFS_VARIABLE (cell, tmp->i) = G_MAXDOUBLE;
-  g.a = g.b = 0.;
-  f.cell = cell;
-  ftt_cell_neighbors (cell, &neighbor);
-  for (f.d = 0; f.d < FTT_NEIGHBORS; f.d++) {
-    f.neighbor = neighbor.c[f.d];
-    if (f.neighbor) {
-      gfs_face_weighted_gradient (&f, &ng, tmp->i, -1);
-      g.a += ng.a;
-      g.b += ng.b;
-    }
-  }
-  if (g.a > 0.)
-    GFS_VARIABLE (cell, v->i) = g.b/g.a;
-  else
-    GFS_VARIABLE (cell, v->i) = G_MAXDOUBLE;
-  GFS_VARIABLE (cell, tmp->i) = 1.;
-}
-
-static gboolean variable_diagonal_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_variable_diagonal_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    GfsVariable * tmp = gfs_temporary_variable (domain);
-    gpointer data[2];
-    data[0] = event;
-    data[1] = tmp;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) unity, tmp);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, tmp);
-    gfs_poisson_coefficients (domain, sim->physical_params.alpha);
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) variable_diagonal, data);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, GFS_VARIABLE1 (event));
-    gts_object_destroy (GTS_OBJECT (tmp));
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void variable_diagonal_class_init (GtsObjectClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = variable_diagonal_event;
-}
-
-GfsVariableClass * gfs_variable_diagonal_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_diagonal_info = {
-      "GfsVariableDiagonal",
-      sizeof (GfsVariable),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_diagonal_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_diagonal_info);
-  }
-
-  return klass;
-}
-
-/* GfsVariableFunction: Object */
-
-static void variable_function_destroy (GtsObject * o)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_VARIABLE_FUNCTION (o)->f));
-
-  (* GTS_OBJECT_CLASS (gfs_variable_function_class ())->parent_class->destroy) (o);
-}
-
-static void variable_function_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_function_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsVariableFunction * v = GFS_VARIABLE_FUNCTION (*o);
-  gfs_function_read (v->f, GFS_DOMAIN (gfs_object_simulation (*o)), fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  gfs_function_set_units (v->f, GFS_VARIABLE1 (*o)->units);
-}
-
-static void variable_function_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_function_class ())->parent_class->write) (o, fp);
-
-  gfs_function_write (GFS_VARIABLE_FUNCTION (o)->f, fp);
-}
-
-static void variable_function_class_init (GtsObjectClass * klass)
-{
-  klass->destroy = variable_function_destroy;
-  klass->read = variable_function_read;
-  klass->write = variable_function_write;
-}
-
-static void variable_function_coarse_fine (FttCell * parent, GfsVariable * v)
-{
-  GfsFunction * f = GFS_VARIABLE_FUNCTION (v)->f;
-  FttCellChildren child;
-  guint n;
-
-  ftt_cell_children (parent, &child);
-  for (n = 0; n < FTT_CELLS; n++)
-    if (child.c[n])
-      GFS_VALUE (child.c[n], v) = gfs_function_value (f, child.c[n]);
-}
-
-static void variable_function_init (GfsVariableFunction * v)
-{
-  GFS_VARIABLE1 (v)->coarse_fine = variable_function_coarse_fine;
-  v->f = gfs_function_new (gfs_function_class (), 0.);
-}
-
-GfsVariableClass * gfs_variable_function_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_function_info = {
-      "GfsVariableFunction",
-      sizeof (GfsVariableFunction),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_function_class_init,
-      (GtsObjectInitFunc) variable_function_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_class ()), 
-				  &gfs_variable_function_info);
-  }
-
-  return klass;
-}
-
-#if FTT_2D
-
-/* GfsVariableStreamFunction: Object */
-
-static gdouble face_metric (FttCell * cell, FttDirection d, GfsDomain * domain)
-{
-  if (domain->face_metric) {
-    FttCellFace f;
-    f.cell = cell;
-    f.d = d;
-    return (* domain->face_metric) (domain, &f);
-  }
-  else
-    return 1.;
-}
-
-static void init_mac_from_stream_function (FttCell * cell,
-					   gdouble psi0, gdouble psi1, gdouble psi2, gdouble psi3,
-					   gdouble h,
-					   GfsDomain * domain,
-					   GfsVariable ** u)
-{
-  GFS_STATE (cell)->f[0].un = (psi2 - psi1)/(h*face_metric (cell, 0, domain));
-  GFS_STATE (cell)->f[1].un = (psi3 - psi0)/(h*face_metric (cell, 1, domain));
-  GFS_STATE (cell)->f[2].un = (psi3 - psi2)/(h*face_metric (cell, 2, domain));
-  GFS_STATE (cell)->f[3].un = (psi0 - psi1)/(h*face_metric (cell, 3, domain));
-
-  GFS_VALUE (cell, u[0]) = (GFS_STATE (cell)->f[0].un + GFS_STATE (cell)->f[1].un)/2.;
-  GFS_VALUE (cell, u[1]) = (GFS_STATE (cell)->f[2].un + GFS_STATE (cell)->f[3].un)/2.;
-}
-
-static void variable_stream_function_coarse_fine (FttCell * parent, GfsVariable * v)
-{
-  if (GFS_CELL_IS_BOUNDARY (parent))
-    return;
-
-  GfsFunction * f = GFS_VARIABLE_FUNCTION (v)->f;
-  FttCellChildren child;
-  ftt_cell_children (parent, &child);
-  FttVector o, p;
-  ftt_cell_pos (parent, &o);
-  gdouble h = ftt_cell_size (parent)/2.;
-  p.x = o.x - h; p.y = o.y - h;
-  gdouble psi0 = gfs_function_spatial_value (f, &p);
-  p.x = o.x + h; p.y = o.y - h;
-  gdouble psi1 = gfs_function_spatial_value (f, &p);
-  p.x = o.x + h; p.y = o.y + h;
-  gdouble psi2 = gfs_function_spatial_value (f, &p);
-  p.x = o.x - h; p.y = o.y + h;
-  gdouble psi3 = gfs_function_spatial_value (f, &p);
-  p.x = o.x; p.y = o.y - h;
-  gdouble psi4 = gfs_function_spatial_value (f, &p);
-  p.x = o.x + h; p.y = o.y;
-  gdouble psi5 = gfs_function_spatial_value (f, &p);
-  p.x = o.x; p.y = o.y + h;
-  gdouble psi6 = gfs_function_spatial_value (f, &p);
-  p.x = o.x - h; p.y = o.y;
-  gdouble psi7 = gfs_function_spatial_value (f, &p);
-  gdouble psi8 = gfs_function_spatial_value (f, &o);
-  GfsVariable ** u = gfs_domain_velocity (v->domain);
-  init_mac_from_stream_function (child.c[0], psi7, psi8, psi6, psi3, h, v->domain, u);
-  init_mac_from_stream_function (child.c[1], psi8, psi5, psi2, psi6, h, v->domain, u);
-  init_mac_from_stream_function (child.c[2], psi0, psi4, psi8, psi7, h, v->domain, u);
-  init_mac_from_stream_function (child.c[3], psi4, psi1, psi5, psi8, h, v->domain, u);
-  guint n;
-  for (n = 0; n < FTT_CELLS; n++) {
-    ftt_cell_pos (child.c[n], &o);
-    GFS_VALUE (child.c[n], v) = gfs_function_spatial_value (f, &o);
-  }
-}
-
-static void variable_stream_function_fine_coarse (FttCell * cell, GfsVariable * v)
-{
-  FttCellChildren child;
-  ftt_cell_children (cell, &child);
-  double s = 2.*face_metric (cell, 0, v->domain);
-  GFS_STATE (cell)->f[0].un = 
-    (face_metric (child.c[1], 0, v->domain)*GFS_STATE (child.c[1])->f[0].un +
-     face_metric (child.c[3], 0, v->domain)*GFS_STATE (child.c[3])->f[0].un)/s;
-  s = 2.*face_metric (cell, 1, v->domain);
-  GFS_STATE (cell)->f[1].un = 
-    (face_metric (child.c[0], 1, v->domain)*GFS_STATE (child.c[0])->f[1].un +
-     face_metric (child.c[2], 1, v->domain)*GFS_STATE (child.c[2])->f[1].un)/s;
-  s = 2.*face_metric (cell, 2, v->domain);
-  GFS_STATE (cell)->f[2].un = 
-    (face_metric (child.c[0], 2, v->domain)*GFS_STATE (child.c[0])->f[2].un +
-     face_metric (child.c[1], 2, v->domain)*GFS_STATE (child.c[1])->f[2].un)/s;
-  s = 2.*face_metric (cell, 3, v->domain);
-  GFS_STATE (cell)->f[3].un = 
-    (face_metric (child.c[3], 3, v->domain)*GFS_STATE (child.c[3])->f[3].un +
-     face_metric (child.c[2], 3, v->domain)*GFS_STATE (child.c[2])->f[3].un)/s;
-  GFS_VALUE (cell, v) = (GFS_VALUE (child.c[0], v) + GFS_VALUE (child.c[1], v) + 
-			 GFS_VALUE (child.c[2], v) + GFS_VALUE (child.c[3], v))/4.;
-}
-
-static void init_streamfunction (FttCell * cell, GfsVariable * v)
-{
-  GfsFunction * f = GFS_VARIABLE_FUNCTION (v)->f;
-  FttVector o, p;
-  ftt_cell_pos (cell, &o);
-  gdouble h = ftt_cell_size (cell)/2.;
-  p.x = o.x - h; p.y = o.y - h;
-  gdouble psi0 = gfs_function_spatial_value (f, &p);
-  p.x = o.x + h; p.y = o.y - h;
-  gdouble psi1 = gfs_function_spatial_value (f, &p);
-  p.x = o.x + h; p.y = o.y + h;
-  gdouble psi2 = gfs_function_spatial_value (f, &p);
-  p.x = o.x - h; p.y = o.y + h;
-  gdouble psi3 = gfs_function_spatial_value (f, &p);
-  init_mac_from_stream_function (cell, psi0, psi1, psi2, psi3, 2.*h, 
-				 v->domain, gfs_domain_velocity (v->domain));
-}
-
-static gboolean variable_stream_function_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (gfs_variable_function_class ())->event) (event, sim)) {
-    gfs_domain_traverse_leaves (GFS_DOMAIN (sim), (FttCellTraverseFunc) init_streamfunction, event);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void variable_stream_function_class_init (GfsEventClass * klass)
-{
-  klass->event = variable_stream_function_event;
-}
-
-static void variable_stream_function_init (GfsVariable * v)
-{
-  v->units = 2.;
-  v->coarse_fine = variable_stream_function_coarse_fine;
-  v->fine_coarse = variable_stream_function_fine_coarse;
-  gts_object_destroy (GTS_OBJECT (GFS_VARIABLE_FUNCTION (v)->f));
-  GFS_VARIABLE_FUNCTION (v)->f = gfs_function_new (gfs_function_spatial_class (), 0.);
-  GFS_EVENT (v)->istep = G_MAXINT/2;
-}
-
-GfsVariableClass * gfs_variable_stream_function_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_stream_function_info = {
-      "GfsVariableStreamFunction",
-      sizeof (GfsVariableFunction),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_stream_function_class_init,
-      (GtsObjectInitFunc) variable_stream_function_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_function_class ()), 
-				  &gfs_variable_stream_function_info);
-  }
-
-  return klass;
-}
-
-#endif /* FTT_2D */
-
-/* GfsDerivedVariable: object */
-
-static void gfs_derived_variable_destroy (GtsObject * object)
-{
-  g_free (GFS_DERIVED_VARIABLE (object)->name);
-  g_free (GFS_DERIVED_VARIABLE (object)->description);
-
-  (* GTS_OBJECT_CLASS (gfs_derived_variable_class ())->parent_class->destroy) (object);
-}
-
-static void gfs_derived_variable_class_init (GtsObjectClass * klass)
-{
-  klass->destroy = gfs_derived_variable_destroy;
-}
-
-GtsObjectClass * gfs_derived_variable_class (void)
-{
-  static GtsObjectClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_derived_variable_info = {
-      "GfsDerivedVariable",
-      sizeof (GfsDerivedVariable),
-      sizeof (GtsObjectClass),
-      (GtsObjectClassInitFunc) gfs_derived_variable_class_init,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_object_class ()), 
-				  &gfs_derived_variable_info);
-  }
-
-  return klass;
-}
-
-/**
- * gfs_derived_variable_from_name:
- * @i: a list of #GfsDerivedVariable.
- * @name: a name.
- *
- * Returns: the #GfsDerivedVariable @name of @list or %NULL.
- */
-GfsDerivedVariable * gfs_derived_variable_from_name (GSList * i, const gchar * name)
-{
-  g_return_val_if_fail (name != NULL, NULL);
-
-  while (i) {
-    GfsDerivedVariable * v = i->data;
-    if (!strcmp (v->name, name))
-      return v;
-    i = i->next;
-  }
-  return NULL;
-}
diff --git a/src/variable.h b/src/variable.h
deleted file mode 100644
index dce3566..0000000
--- a/src/variable.h
+++ /dev/null
@@ -1,199 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __VARIABLE_H__
-#define __VARIABLE_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-typedef struct _GfsSurfaceGenericBc        GfsSurfaceGenericBc;
-
-#include "timestep.h"
-#include "event.h"
-
-/* GfsVariable: Header */
-
-typedef void (* GfsVariableFineCoarseFunc) (FttCell * cell, GfsVariable * v);
-
-struct _GfsVariable {
-  /*< private >*/
-  GfsEvent parent;
-
-  /*< public >*/
-  guint i;
-  FttComponent component;
-  GfsVariable * vector[FTT_DIMENSION];
-  gchar * name, * description;
-  gboolean centered;
-  GfsVariableFineCoarseFunc fine_coarse, coarse_fine;
-  GtsContainer * sources;
-  GfsSurfaceGenericBc * surface_bc;
-  GfsBc * default_bc;
-  GfsDomain * domain;
-  FttCellCleanupFunc cleanup;
-  gdouble units;
-};
-
-typedef struct _GfsVariableClass    GfsVariableClass;
-
-struct _GfsVariableClass {
-  /*< private >*/
-  GfsEventClass parent_class;
-
-  /*< public >*/
-};
-
-#define GFS_VARIABLE1(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsVariable,\
-					         gfs_variable_class ())
-#define GFS_VARIABLE_CLASS(klass)    GTS_OBJECT_CLASS_CAST (klass,\
-						 GfsVariableClass,\
-						 gfs_variable_class())
-#define GFS_IS_VARIABLE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_variable_class ()))
-#define GFS_VALUE(cell,v)            ((&GFS_STATE (cell)->place_holder)[(v)->i])
-
-GfsVariableClass *    gfs_variable_class            (void);
-GfsVariable *         gfs_variable_new              (GfsVariableClass * klass,
-						     GfsDomain * domain,
-						     const gchar * name,
-						     const gchar * description);
-#define               gfs_temporary_variable(d)     (gfs_variable_new (gfs_variable_class (),\
-                                                                      (d), NULL, NULL))
-GfsVariable *         gfs_variable_from_name        (GSList * i,
-						     const gchar * name);
-GSList *              gfs_variables_from_list       (GSList * i,
-						     gchar * list,
-						     gchar ** error);
-void                  gfs_variables_swap            (GfsVariable * v1, 
-						     GfsVariable * v2);
-void                  gfs_variable_set_vector       (GfsVariable ** v,
-						     guint n);
-
-/* GfsVariableTracer: header */
-
-typedef struct _GfsVariableTracer                GfsVariableTracer;
-
-struct _GfsVariableTracer {
-  /*< private >*/
-  GfsVariable parent;
-
-  /*< public >*/
-  GfsAdvectionParams advection;
-};
-
-#define GFS_VARIABLE_TRACER(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsVariableTracer,\
-					           gfs_variable_tracer_class ())
-#define GFS_IS_VARIABLE_TRACER(obj)         (gts_object_is_from_class (obj,\
-					     gfs_variable_tracer_class ()))
-
-GfsVariableClass * gfs_variable_tracer_class  (void);
-
-/* GfsVariableResidual: header */
-
-#define GFS_IS_VARIABLE_RESIDUAL(obj)         (gts_object_is_from_class (obj,\
-					       gfs_variable_residual_class ()))
-
-GfsVariableClass * gfs_variable_residual_class  (void);
-
-/* GfsVariableFiltered: header */
-
-typedef struct _GfsVariableFiltered                GfsVariableFiltered;
-
-struct _GfsVariableFiltered {
-  /*< private >*/
-  GfsVariable parent;
-
-  /*< public >*/
-  GfsVariable * v;
-  guint niter;
-};
-
-#define GFS_VARIABLE_FILTERED(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsVariableFiltered,\
-					           gfs_variable_filtered_class ())
-#define GFS_IS_VARIABLE_FILTERED(obj)         (gts_object_is_from_class (obj,\
-					     gfs_variable_filtered_class ()))
-
-GfsVariableClass * gfs_variable_filtered_class  (void);
-
-/* GfsVariableDiagonal: Header */
-
-GfsVariableClass * gfs_variable_diagonal_class  (void);
-
-/* GfsVariableFunction: header */
-
-typedef struct _GfsVariableFunction                GfsVariableFunction;
-
-struct _GfsVariableFunction {
-  /*< private >*/
-  GfsVariable parent;
-
-  /*< public >*/
-  GfsFunction * f;
-};
-
-#define GFS_VARIABLE_FUNCTION(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsVariableFunction,\
-					           gfs_variable_function_class ())
-#define GFS_IS_VARIABLE_FUNCTION(obj)         (gts_object_is_from_class (obj,\
-					     gfs_variable_function_class ()))
-
-GfsVariableClass * gfs_variable_function_class  (void);
-
-#if FTT_2D
-
-/* GfsVariableStreamFunction: header */
-
-#define GFS_IS_VARIABLE_STREAM_FUNCTION(obj)         (gts_object_is_from_class (obj,\
-					     gfs_variable_stream_function_class ()))
-
-GfsVariableClass * gfs_variable_stream_function_class  (void);
-
-#endif /* FTT_2D */
-
-/* GfsDerivedVariable: Header */
-
-struct _GfsDerivedVariable {
-  /*< private >*/
-  GtsObject parent;
-
-  /*< public >*/
-  gchar * name, * description;
-  gpointer func, data;
-};
-
-#define GFS_DERIVED_VARIABLE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsDerivedVariable,\
-					         gfs_derived_variable_class ())
-#define GFS_IS_DERIVED_VARIABLE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_derived_variable_class ()))
-
-GtsObjectClass *     gfs_derived_variable_class            (void);
-GfsDerivedVariable * gfs_derived_variable_from_name        (GSList * i, 
-							    const gchar * name);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __VARIABLE_H__ */
diff --git a/src/vof.c b/src/vof.c
deleted file mode 100644
index 90b7e32..0000000
--- a/src/vof.c
+++ /dev/null
@@ -1,2412 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include <stdlib.h>
-#include "vof.h"
-#include "variable.h"
-#include "adaptive.h"
-#include "graphic.h"
-
-#define THRESHOLD(c) {if ((c) < 0.) c = 0.; else if ((c) > 1.) c = 1.;}
-
-/**
- * gfs_line_area:
- * @m: normal to the line.
- * @alpha: line constant.
- *
- * Returns: the area of the fraction of a cell lying under the line
- * (@m, at alpha).
- */
-gdouble gfs_line_area (const FttVector * m, gdouble alpha)
-{
-  FttVector n;
-  gdouble alpha1, a, v, area;
-
-  g_return_val_if_fail (m != NULL, 0.);
-
-  n = *m;
-  alpha1 = alpha;
-  if (n.x < 0.) {
-    alpha1 -= n.x;
-    n.x = - n.x;
-  }
-  if (n.y < 0.) {
-    alpha1 -= n.y;
-    n.y = - n.y;
-  }
-
-  if (alpha1 <= 0.)
-    return 0.;
-
-  if (alpha1 >= n.x + n.y)
-    return 1.;
-
-  if (n.x == 0.)
-    area = alpha1/n.y;
-  else if (n.y == 0.)
-    area = alpha1/n.x;
-  else {
-    v = alpha1*alpha1;
-
-    a = alpha1 - n.x;
-    if (a > 0.)
-      v -= a*a;
-    
-    a = alpha1 - n.y;
-    if (a > 0.)
-      v -= a*a;
-
-    area = v/(2.*n.x*n.y);
-  }
-
-  return CLAMP (area, 0., 1.);
-}
-
-/**
- * gfs_line_alpha:
- * @m: a #FttVector.
- * @c: a volume fraction.
- *
- * Returns: the value @alpha such that the area of a square cell
- * lying under the line defined by @m. at x = @alpha is equal to @c. 
- */
-gdouble gfs_line_alpha (const FttVector * m, gdouble c)
-{
-  gdouble alpha, m1, m2, v1;
-
-  g_return_val_if_fail (m != NULL, 0.);
-  g_return_val_if_fail (c >= 0. && c <= 1., 0.);
-  
-  m1 = fabs (m->x); m2 = fabs (m->y);
-  if (m1 > m2) {
-    v1 = m1; m1 = m2; m2 = v1;
-  }
-  
-  v1 = m1/2.;
-  if (c <= v1/m2)
-    alpha = sqrt (2.*c*m1*m2);
-  else if (c <= 1. - v1/m2)
-    alpha = c*m2 + v1;
-  else
-    alpha = m1 + m2 - sqrt (2.*m1*m2*(1. - c));
-
-  if (m->x < 0.)
-    alpha += m->x;
-  if (m->y < 0.)
-    alpha += m->y;
-
-  return alpha;
-}
-
-#define EPS 1e-4
-
-/**
- * gfs_line_center:
- * @m: normal to the line.
- * @alpha: line constant.
- * @a: area of cell fraction.
- * @p: a #FttVector.
- *
- * Fills @p with the position of the center of mass of the fraction of
- * a square cell lying under the line (@m, at alpha).
- */
-void gfs_line_center (const FttVector * m, gdouble alpha, gdouble a, FttVector * p)
-{
-  FttVector n;
-  gdouble b;
-
-  g_return_if_fail (m != NULL);
-  g_return_if_fail (p != NULL);
-
-  n = *m;
-  if (n.x < 0.) {
-    alpha -= n.x;
-    n.x = - n.x;
-  }
-  if (n.y < 0.) {
-    alpha -= n.y;
-    n.y = - n.y;
-  }
-
-  p->z = 0.;
-  if (alpha <= 0.) {
-    p->x = p->y = 0.;
-    return;
-  }
-
-  if (alpha >= n.x + n.y) {
-    p->x = p->y = 0.5;
-    return;
-  }
-
-  g_return_if_fail (a > 0. && a < 1.);
-
-  if (n.x < EPS) {
-    p->x = 0.5;
-    p->y = m->y < 0. ? 1. - a/2. : a/2.;
-    return;
-  }
-
-  if (n.y < EPS) {
-    p->y = 0.5;
-    p->x = m->x < 0. ? 1. - a/2. : a/2.;
-    return;
-  }
-
-  p->x = p->y = alpha*alpha*alpha;
-
-  b = alpha - n.x;
-  if (b > 0.) {
-    p->x -= b*b*(alpha + 2.*n.x);
-    p->y -= b*b*b;
-  }
-
-  b = alpha - n.y;
-  if (b > 0.) {
-    p->y -= b*b*(alpha + 2.*n.y);
-    p->x -= b*b*b;
-  }
-  
-  p->x /= 6.*n.x*n.x*n.y*a;
-  p->y /= 6.*n.x*n.y*n.y*a;
-
-  if (m->x < 0.)
-    p->x = 1. - p->x;
-  if (m->y < 0.)
-    p->y = 1. - p->y;
-}
-
-/**
- * gfs_line_area_center:
- * @m: normal to the line.
- * @alpha: line constant.
- * @p: a #FttVector.
- *
- * Fills @p with the position of the center of area of the fraction of
- * a square cell lying under the line (@m, at alpha).
- *
- * Returns: the length of the facet.
- */
-gdouble gfs_line_area_center (const FttVector * m, gdouble alpha, FttVector * p)
-{
-  FttVector n;
-
-  g_return_val_if_fail (m != NULL, 0.);
-  g_return_val_if_fail (p != NULL, 0.);
-
-  n = *m;
-  if (n.x < 0.) {
-    alpha -= n.x;
-    n.x = - n.x;
-  }
-  if (n.y < 0.) {
-    alpha -= n.y;
-    n.y = - n.y;
-  }
-
-  p->z = 0.;
-  if (alpha <= 0. || alpha >= n.x + n.y) {
-    p->x = p->y = 0.;
-    return 0.;
-  }
-
-  if (n.x < EPS) {
-    p->x = 0.5;
-    p->y = m->y < 0. ? 1. - alpha : alpha;
-    return 1.;
-  }
-
-  if (n.y < EPS) {
-    p->y = 0.5;
-    p->x = m->x < 0. ? 1. - alpha : alpha;
-    return 1.;
-  }
-
-  p->x = p->y = 0.;
-
-  if (alpha >= n.x) {
-    p->x += 1.;
-    p->y += (alpha - n.x)/n.y;
-  }
-  else
-    p->x += alpha/n.x;
-
-  gdouble ax = p->x, ay = p->y;
-  if (alpha >= n.y) {
-    p->y += 1.;
-    ay -= 1.;
-    p->x += (alpha - n.y)/n.x;
-    ax -= (alpha - n.y)/n.x;
-  }
-  else {
-    p->y += alpha/n.y;
-    ay -= alpha/n.y;
-  }
-
-  p->x /= 2.;
-  p->y /= 2.;
-
-  THRESHOLD (p->x);
-  THRESHOLD (p->y);
-
-  if (m->x < 0.)
-    p->x = 1. - p->x;
-  if (m->y < 0.)
-    p->y = 1. - p->y;
-
-  return sqrt (ax*ax + ay*ay);
-}
-
-#if (!FTT_2D)
-/**
- * gfs_plane_volume:
- * @m: normal to the plane.
- * @alpha: plane constant.
- *
- * Returns: the volume of a cell lying under the plane (@m, at alpha).
- */
-gdouble gfs_plane_volume (const FttVector * m, gdouble alpha)
-{
-  g_return_val_if_fail (m != NULL, 0.);
-
-  gdouble al = alpha + MAX(0., -m->x) + MAX(0., -m->y) + MAX(0., -m->z);
-  if (al <= 0.)
-    return 0.;
-  gdouble tmp = fabs(m->x) + fabs(m->y) + fabs(m->z);
-  if (al >= tmp)
-    return 1.;
-  g_assert (tmp > 0.);
-  gdouble n1 = fabs(m->x)/tmp;
-  gdouble n2 = fabs(m->y)/tmp;
-  gdouble n3 = fabs(m->z)/tmp;
-  al = MAX(0., MIN(1., al/tmp));
-  gdouble al0 = MIN(al, 1. - al);
-  gdouble b1 = MIN(n1*1, n2);
-  gdouble b3 = MAX(n1*1, n2);
-  gdouble b2 = n3;
-  if (b2 < b1) {
-    tmp = b1;
-    b1 = b2;
-    b2 = tmp;
-  }
-  else if (b2 > b3) {
-    tmp = b3;
-    b3 = b2;
-    b2 = tmp;
-  }
-  gdouble b12 = b1 + b2;
-  gdouble bm = MIN(b12, b3);
-  gdouble pr = MAX(6.*b1*b2*b3, 1e-50);
-  if (al0 < b1)
-    tmp = al0*al0*al0/pr;
-  else if (al0 < b2)
-    tmp = 0.5*al0*(al0 - b1)/(b2*b3) +  b1*b1*b1/pr;
-  else if (al0 < bm)
-    tmp = (al0*al0*(3.*b12 - al0) + b1*b1*(b1 - 3.*al0) + b2*b2*(b2 - 3.*al0))/pr;
-  else if (b12 < b3)
-    tmp = (al0 - 0.5*bm)/b3;
-  else
-    tmp = (al0*al0*(3. - 2.*al0) + b1*b1*(b1 - 3.*al0) + 
-	   b2*b2*(b2 - 3.*al0) + b3*b3*(b3 - 3.*al0))/pr;
-
-  gdouble volume = al <= 0.5 ? tmp : 1. - tmp;
-  return CLAMP (volume, 0., 1.);
-}
-
-/**
- * gfs_plane_alpha:
- * @m: a #FttVector.
- * @c: a volume fraction.
- *
- * Returns: the value @alpha such that the volume of a cubic cell
- * lying under the plane defined by @m. at x = @alpha is equal to @c. 
- */
-gdouble gfs_plane_alpha (const FttVector * m, gdouble c)
-{
-  gdouble alpha;
-  FttVector n;
-
-  g_return_val_if_fail (m != NULL, 0.);
-  g_return_val_if_fail (c >= 0. && c <= 1., 0.);
-
-  n.x = fabs (m->x); n.y = fabs (m->y); n.z = fabs (m->z);
-
-  gdouble m1, m2, m3;
-  m1 = MIN(n.x, n.y);
-  m3 = MAX(n.x, n.y);
-  m2 = n.z;
-  if (m2 < m1) {
-    gdouble tmp = m1;
-    m1 = m2;
-    m2 = tmp;
-  }
-  else if (m2 > m3) {
-    gdouble tmp = m3;
-    m3 = m2;
-    m2 = tmp;
-  }
-  gdouble m12 = m1 + m2;
-  gdouble pr = MAX(6.*m1*m2*m3, 1e-50);
-  gdouble V1 = m1*m1*m1/pr;
-  gdouble V2 = V1 + (m2 - m1)/(2.*m3), V3;
-  gdouble mm;
-  if (m3 < m12) {
-    mm = m3;
-    V3 = (m3*m3*(3.*m12 - m3) + m1*m1*(m1 - 3.*m3) + m2*m2*(m2 - 3.*m3))/pr;
-  }
-  else {
-    mm = m12;
-    V3 = mm/(2.*m3);
-  }
-
-  gdouble ch = MIN(c, 1. - c);
-  if (ch < V1)
-    alpha = pow (pr*ch, 1./3.);
-  else if (ch < V2)
-    alpha = (m1 + sqrt(m1*m1 + 8.*m2*m3*(ch - V1)))/2.;
-  else if (ch < V3) {
-    gdouble p = 2.*m1*m2;
-    gdouble q = 3.*m1*m2*(m12 - 2.*m3*ch)/2.;
-    gdouble p12 = sqrt (p);
-    gdouble teta = acos(q/(p*p12))/3.;
-    gdouble cs = cos(teta);
-    alpha = p12*(sqrt(3.*(1. - cs*cs)) - cs) + m12;
-  }
-  else if (m12 < m3)
-    alpha = m3*ch + mm/2.;
-  else {
-    gdouble p = m1*(m2 + m3) + m2*m3 - 1./4.;
-    gdouble q = 3.*m1*m2*m3*(1./2. - ch)/2.;
-    gdouble p12 = sqrt(p);
-    gdouble teta = acos(q/(p*p12))/3.;
-    gdouble cs = cos(teta);
-    alpha = p12*(sqrt(3.*(1. - cs*cs)) - cs) + 1./2.;
-  }
-  if (c > 1./2.) alpha = 1. - alpha;
-
-  if (m->x < 0.)
-    alpha += m->x;
-  if (m->y < 0.)
-    alpha += m->y;
-  if (m->z < 0.)
-    alpha += m->z;
-
-  return alpha;
-}
-
-/**
- * gfs_plane_center:
- * @m: normal to the plane.
- * @alpha: plane constant.
- * @a: volume of cell fraction.
- * @p: a #FttVector.
- *
- * Fills @p with the position of the center of mass of the fraction of
- * a cubic cell lying under the plane (@m, at alpha).
- */
-void gfs_plane_center (const FttVector * m, gdouble alpha, gdouble a, FttVector * p)
-{
-  FttVector n;
-  gdouble b, amax;
-
-  g_return_if_fail (m != NULL);
-  g_return_if_fail (p != NULL);
-  g_return_if_fail (a >= 0. && a <= 1.);
-
-  if (fabs (m->x) < EPS) {
-    FttVector q;
-    n.x = m->y;
-    n.y = m->z;
-    gfs_line_center (&n, alpha, a, &q);
-    p->x = 0.5;
-    p->y = q.x;
-    p->z = q.y;
-    return;
-  }
-  if (fabs (m->y) < EPS) {
-    FttVector q;
-    n.x = m->z;
-    n.y = m->x;
-    gfs_line_center (&n, alpha, a, &q);
-    p->x = q.y;
-    p->y = 0.5;
-    p->z = q.x;
-    return;
-  }
-  if (fabs (m->z) < EPS) {
-    gfs_line_center (m, alpha, a, p);
-    p->z = 0.5;
-    return;
-  }
-
-  n = *m;
-  if (n.x < 0.) {
-    alpha -= n.x;
-    n.x = - n.x;
-  }
-  if (n.y < 0.) {
-    alpha -= n.y;
-    n.y = - n.y;
-  }  
-  if (n.z < 0.) {
-    alpha -= n.z;
-    n.z = - n.z;
-  }  
-
-  if (alpha <= 0. || a == 0.) {
-    p->x = p->y = p->z = 0.;
-    return;
-  }
-
-  if (alpha >= n.x + n.y + n.z || a == 1.) {
-    p->x = p->y = p->z = 0.5;
-    return;
-  }
-
-  amax = n.x + n.y + n.z;
-  p->x = p->y = p->z = alpha*alpha*alpha*alpha;
-
-  b = alpha - n.x;
-  if (b > 0.) {
-    p->x -= b*b*b*(3.*n.x + alpha);
-    p->y -= b*b*b*b;
-    p->z -= b*b*b*b;
-  }
-  b = alpha - n.y;
-  if (b > 0.) {
-    p->y -= b*b*b*(3.*n.y + alpha);
-    p->x -= b*b*b*b;
-    p->z -= b*b*b*b;
-  }
-  b = alpha - n.z;
-  if (b > 0.) {
-    p->z -= b*b*b*(3.*n.z + alpha);
-    p->x -= b*b*b*b;
-    p->y -= b*b*b*b;
-  }
-
-  amax = alpha - amax;
-  b = amax + n.x;
-  if (b > 0.) {
-    p->y += b*b*b*(3.*n.y + alpha - n.z);
-    p->z += b*b*b*(3.*n.z + alpha - n.y);
-    p->x += b*b*b*b;
-  }
-  b = amax + n.y;
-  if (b > 0.) {
-    p->x += b*b*b*(3.*n.x + alpha - n.z);
-    p->z += b*b*b*(3.*n.z + alpha - n.x);
-    p->y += b*b*b*b;
-  }
-  b = amax + n.z;
-  if (b > 0.) {
-    p->x += b*b*b*(3.*n.x + alpha - n.y);
-    p->y += b*b*b*(3.*n.y + alpha - n.x);
-    p->z += b*b*b*b;
-  }
-
-  b = 24.*n.x*n.y*n.z*a;
-  p->x /= b*n.x; p->y /= b*n.y; p->z /= b*n.z;
-
-  if (m->x < 0.) p->x = 1. - p->x;
-  if (m->y < 0.) p->y = 1. - p->y;
-  if (m->z < 0.) p->z = 1. - p->z;
-}
-
-/**
- * gfs_plane_area_center:
- * @m: normal to the plane.
- * @alpha: plane constant.
- * @p: a #FttVector.
- *
- * Fills @p with the position of the center of area of the fraction of
- * a cubic cell lying under the plane (@m, at alpha).
- *
- * Returns: the area of the facet.
- */
-gdouble gfs_plane_area_center (const FttVector * m, gdouble alpha, FttVector * p)
-{
-  g_return_val_if_fail (m != NULL, 0.);
-  g_return_val_if_fail (p != NULL, 0.);
-
-  if (fabs (m->x) < EPS) {
-    FttVector n, q;
-    n.x = m->y;
-    n.y = m->z;
-    gdouble area = gfs_line_area_center (&n, alpha, &q);
-    p->x = 0.5;
-    p->y = q.x;
-    p->z = q.y;
-    return area;
-  }
-  if (fabs (m->y) < EPS) {
-    FttVector n, q;
-    n.x = m->z;
-    n.y = m->x;
-    gdouble area = gfs_line_area_center (&n, alpha, &q);
-    p->x = q.y;
-    p->y = 0.5;
-    p->z = q.x;
-    return area;
-  }
-  if (fabs (m->z) < EPS) {
-    gdouble area = gfs_line_area_center (m, alpha, p);
-    p->z = 0.5;
-    return area;
-  }
-
-  FttVector n = *m;
-  if (n.x < 0.) {
-    alpha -= n.x;
-    n.x = - n.x;
-  }
-  if (n.y < 0.) {
-    alpha -= n.y;
-    n.y = - n.y;
-  }  
-  if (n.z < 0.) {
-    alpha -= n.z;
-    n.z = - n.z;
-  }
-
-  gdouble amax = n.x + n.y + n.z;
-  if (alpha <= 0. || alpha >= amax) {
-    p->x = p->y = p->z = 0.;
-    return 0.;
-  }
-
-  gdouble area = alpha*alpha;
-  p->x = p->y = p->z = area*alpha;
-
-  gdouble b = alpha - n.x;
-  if (b > 0.) {
-    area -= b*b;
-    p->x -= b*b*(2.*n.x + alpha);
-    p->y -= b*b*b;
-    p->z -= b*b*b;
-  }
-  b = alpha - n.y;
-  if (b > 0.) {
-    area -= b*b;
-    p->y -= b*b*(2.*n.y + alpha);
-    p->x -= b*b*b;
-    p->z -= b*b*b;
-  }
-  b = alpha - n.z;
-  if (b > 0.) {
-    area -= b*b;
-    p->z -= b*b*(2.*n.z + alpha);
-    p->x -= b*b*b;
-    p->y -= b*b*b;
-  }
-
-  amax = alpha - amax;
-  b = amax + n.x;
-  if (b > 0.) {
-    area += b*b;
-    p->y += b*b*(2.*n.y + alpha - n.z);
-    p->z += b*b*(2.*n.z + alpha - n.y);
-    p->x += b*b*b;
-  }
-  b = amax + n.y;
-  if (b > 0.) {
-    area += b*b;
-    p->x += b*b*(2.*n.x + alpha - n.z);
-    p->z += b*b*(2.*n.z + alpha - n.x);
-    p->y += b*b*b;
-  }
-  b = amax + n.z;
-  if (b > 0.) {
-    area += b*b;
-    p->x += b*b*(2.*n.x + alpha - n.y);
-    p->y += b*b*(2.*n.y + alpha - n.x);
-    p->z += b*b*b;
-  }
-
-  area *= 3.;
-  p->x /= area*n.x;
-  p->y /= area*n.y;
-  p->z /= area*n.z;
-
-  THRESHOLD (p->x);
-  THRESHOLD (p->y);
-  THRESHOLD (p->z);
-
-  if (m->x < 0.) p->x = 1. - p->x;
-  if (m->y < 0.) p->y = 1. - p->y;
-  if (m->z < 0.) p->z = 1. - p->z;
-
-  return area*sqrt (1./(n.x*n.x*n.y*n.y) + 1./(n.x*n.x*n.z*n.z) + 1./(n.z*n.z*n.y*n.y))/6.;
-}
-#endif /* 3D */
-
-/**
- * gfs_youngs_gradient:
- * @cell: a #FttCell.
- * @v: a #GfsVariable.
- * @g: a #FttVector.
- *
- * Fills @g with the Youngs-averaged gradients of @v 
- * normalised by the size of @cell.
- */
-void gfs_youngs_gradient (FttCell * cell, GfsVariable * v, FttVector * g)
-{
-  static FttDirection d[(FTT_DIMENSION - 1)*4][FTT_DIMENSION] = {
-#if FTT_2D
-    {FTT_RIGHT, FTT_TOP}, {FTT_LEFT, FTT_TOP}, {FTT_LEFT, FTT_BOTTOM}, {FTT_RIGHT, FTT_BOTTOM}
-#else  /* 3D */
-    {FTT_RIGHT, FTT_TOP, FTT_FRONT}, {FTT_LEFT, FTT_TOP, FTT_FRONT}, 
-    {FTT_LEFT, FTT_BOTTOM, FTT_FRONT}, {FTT_RIGHT, FTT_BOTTOM, FTT_FRONT},
-    {FTT_RIGHT, FTT_TOP, FTT_BACK}, {FTT_LEFT, FTT_TOP, FTT_BACK}, 
-    {FTT_LEFT, FTT_BOTTOM, FTT_BACK}, {FTT_RIGHT, FTT_BOTTOM, FTT_BACK},
-#endif /* 3D */
-  };
-  gdouble u[(FTT_DIMENSION - 1)*4];
-  guint i;
-
-  g_return_if_fail (cell != NULL);
-  g_return_if_fail (v != NULL);
-  g_return_if_fail (g != NULL);
-
-  for (i = 0; i < (FTT_DIMENSION - 1)*4; i++)
-    u[i] = gfs_cell_corner_value (cell, d[i], v, -1);
-
-#if FTT_2D
-  g->x = (u[0] + u[3] - u[1] - u[2])/2.;
-  g->y = (u[0] + u[1] - u[2] - u[3])/2.;
-#else  /* 3D */
-  g->x = (u[0] + u[3] + u[4] + u[7] - u[1] - u[2] - u[5] - u[6])/4.;
-  g->y = (u[0] + u[1] + u[4] + u[5] - u[2] - u[3] - u[6] - u[7])/4.;
-  g->z = (u[0] + u[1] + u[2] + u[3] - u[4] - u[5] - u[6] - u[7])/4.;
-#endif /* 3D */
-}
-
-/**
- * gfs_vof_plane_interpolate:
- * @cell: a #FttCell containing location @p.
- * @p: the center of the virtual cell.
- * @level: the level of the virtual cell.
- * @t: a #GfsVariableTracerVOF.
- * @m: a #FttVector.
- *
- * Computes the equation @m.x = alpha of the volume fraction plane of
- * a virtual cell at @level centered on @p.
- *
- * Returns: alpha for the virtual cell.
- */
-gdouble gfs_vof_plane_interpolate (FttCell * cell,
-				   FttVector * p,
-				   guint level,
-				   GfsVariableTracerVOF * t,
-				   FttVector * m)
-{
-  guint l = ftt_cell_level (cell);
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (l <= level, 0.);
-  g_return_val_if_fail (t != NULL, 0.);
-  g_return_val_if_fail (m != NULL, 0.);
-
-  GfsVariable * v = GFS_VARIABLE1 (t);
-  gdouble f = GFS_VALUE (cell, v);
-  g_return_val_if_fail (!GFS_IS_FULL (f), 0.);
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&m->x)[c] = GFS_VALUE (cell, t->m[c]);
-
-  gdouble alpha = GFS_VALUE (cell, t->alpha);
-  if (l < level) {
-    gdouble h = ftt_level_size (level);
-    gdouble H = ftt_cell_size (cell);
-    FttVector q;
-    
-    ftt_cell_pos (cell, &q);
-    alpha *= H;
-    for (c = 0; c < FTT_DIMENSION; c++)
-      alpha -= (&m->x)[c]*((&p->x)[c] - h/2. - (&q.x)[c] + H/2);
-    alpha /= h;
-  }
-  return alpha;
-}
-
-/**
- * gfs_vof_interpolate:
- * @cell: a #FttCell containing location @p.
- * @p: the center of the virtual cell.
- * @level: the level of the virtual cell.
- * @t: a #GfsVariableTracerVOF.
- *
- * Computes the volume fraction of a virtual cell at @level centered
- * on @p.
- *
- * Returns: the volume fraction of the virtual cell.
- */
-gdouble gfs_vof_interpolate (FttCell * cell,
-			     FttVector * p,
-			     guint level,
-			     GfsVariableTracerVOF * t)
-{
-  guint l = ftt_cell_level (cell);
-
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (l <= level, 0.);
-  g_return_val_if_fail (t != NULL, 0.);
-
-  GfsVariable * v = GFS_VARIABLE1 (t);
-  gdouble f = GFS_VALUE (cell, v);
-  if (l == level || GFS_IS_FULL (f))
-    return f;
-  else {
-    FttVector m;
-    gdouble alpha = gfs_vof_plane_interpolate (cell, p, level, t, &m);
-    return gfs_plane_volume (&m, alpha);
-  }
-}
-
-/* GfsVariableTracerVOF: object */
-
-#if FTT_2D
-# define F(x,y,z) f[x][y]
-#else
-# define F(x,y,z) f[x][y][z]
-#endif
-
-static void stencil (FttCell * cell, GfsVariable * v, gdouble F(3,3,3))
-{
-  gdouble h = ftt_cell_size (cell);
-  guint level = ftt_cell_level (cell);
-  FttVector p;
-  gint x, y, z = 0;
-  
-  F(1,1,1) = GFS_VALUE (cell, v);
-  ftt_cell_pos (cell, &p);
-#if !FTT_2D
-  for (z = -1; z <= 1; z++)
-#endif
-    for (x = -1; x <= 1; x++)
-      for (y = -1; y <= 1; y++)
-	if (x != 0 || y != 0 || z != 0) {
-	  FttVector o;
-	  o.x = p.x + h*x; o.y = p.y + h*y; o.z = p.z + h*z;
-	  FttCell * neighbor = gfs_domain_boundary_locate (v->domain, o, level, NULL);
-	  if (neighbor)
-	    F(x + 1, y + 1, z + 1) =
-	      gfs_vof_interpolate (neighbor, &o, level, GFS_VARIABLE_TRACER_VOF (v));
-	  else
-	    F(x + 1, y + 1, z + 1) = -1.;
-	}
-  /* boundary conditions (symmetry) */
-#if FTT_2D
-  for (x = 0; x <= 2; x++) {
-    if (f[x][0] < 0.) f[x][0] = f[x][1];
-    if (f[x][2] < 0.) f[x][2] = f[x][1];
-  }
-  for (y = 0; y <= 2; y++) {
-    if (f[0][y] < 0.) f[0][y] = f[1][y];
-    if (f[2][y] < 0.) f[2][y] = f[1][y];
-  }
-#else /* 3D */
-  for (x = 0; x <= 2; x++)
-    for (y = 0; y <= 2; y++) {
-      if (f[x][y][0] < 0.) f[x][y][0] = f[x][y][1];
-      if (f[x][y][2] < 0.) f[x][y][2] = f[x][y][1];
-    }
-  for (x = 0; x <= 2; x++)
-    for (z = 0; z <= 2; z++) {
-      if (f[x][0][z] < 0.) f[x][0][z] = f[x][1][z];
-      if (f[x][2][z] < 0.) f[x][2][z] = f[x][1][z];
-    }
-  for (z = 0; z <= 2; z++)
-    for (y = 0; y <= 2; y++) {
-      if (f[0][y][z] < 0.) f[0][y][z] = f[1][y][z];
-      if (f[2][y][z] < 0.) f[2][y][z] = f[1][y][z];
-    }
-#endif /* 3D */
-}
-
-static void youngs_normal (FttCell * cell, GfsVariable * v, FttVector * n)
-{
-  gdouble F(3,3,3);
-
-  stencil (cell, v, f);
-#if FTT_2D
-  n->x = (f[0][2] + 2.*f[0][1] + f[0][0] - 2.*f[2][1] - f[2][2] - f[2][0])/8.;
-  n->y = (f[2][0] + 2.*f[1][0] + f[0][0] - 2.*f[1][2] - f[2][2] - f[0][2])/8.;
-  n->z = 0.;
-#else  /* 3D */
-  gdouble mm1 = f[0][0][0] + f[0][0][2] + f[0][2][0] + f[0][2][2] +
-    2.*(f[0][0][1] + f[0][2][1] + f[0][1][0] + f[0][1][2]) + 
-    4.*f[0][1][1];
-  gdouble mm2 = f[2][0][0] + f[2][0][2] + f[2][2][0] + f[2][2][2] + 
-    2.*(f[2][0][1] + f[2][2][1] + f[2][1][0] + f[2][1][2]) + 
-    4.*f[2][1][1];
-  n->x = (mm1 - mm2)/32.;
-    
-  mm1 = f[0][0][0] + f[0][0][2] + f[2][0][0] + f[2][0][2] + 
-    2.*(f[0][0][1] + f[2][0][1] + f[1][0][0] + f[1][0][2]) + 
-    4.*f[1][0][1];
-  mm2 = f[0][2][0] + f[0][2][2] + f[2][2][0] + f[2][2][2] + 
-    2.*(f[0][2][1] + f[2][2][1] + f[1][2][0] + f[1][2][2]) + 
-    4.*f[1][2][1];
-  n->y = (mm1 - mm2)/32.;
-                  
-  mm1 = f[0][0][0] + f[0][2][0] + f[2][0][0] + f[2][2][0] +
-    2.*(f[0][1][0] + f[2][1][0] + f[1][0][0] + f[1][2][0]) + 
-    4.*f[1][1][0];
-  mm2 = f[0][0][2] + f[0][2][2] + f[2][0][2] + f[2][2][2] + 
-    2.*(f[0][1][2] + f[2][1][2] + f[1][0][2] + f[1][2][2]) + 
-    4.*f[1][1][2];
-  n->z = (mm1 - mm2)/32.;
-#endif /* 3D */
-}
-
-#if FTT_2D
-# include "myc2d.h"
-#else
-# include "myc.h"
-#endif
-
-static void myc_normal (FttCell * cell, GfsVariable * v, FttVector * n)
-{
-  gdouble F(3,3,3);  
-
-  stencil (cell, v, f);
-  mycs (f, &n->x);
-#if FTT_2D
-  n->z = 0.;
-#endif
-}
-
-static void vof_plane (FttCell * cell, GfsVariable * v)
-{
-  if (FTT_CELL_IS_LEAF (cell)) {
-    GfsVariableTracerVOF * t = GFS_VARIABLE_TRACER_VOF (v);
-    gdouble f = GFS_VALUE (cell, v);
-    FttComponent c;
-
-    THRESHOLD (f);
-    if (GFS_IS_FULL (f)) {
-      for (c = 1; c < FTT_DIMENSION; c++)
-	GFS_VALUE (cell, t->m[c]) = 0.;
-      GFS_VALUE (cell, t->m[0]) = 1.;
-      GFS_VALUE (cell, t->alpha) = f;
-    }
-    else {
-      FttVector m;
-      gdouble n = 0.;
-
-      myc_normal (cell, v, &m);
-      for (c = 0; c < FTT_DIMENSION; c++)
-	n += fabs ((&m.x)[c]);
-      if (n > 0.)
-	for (c = 0; c < FTT_DIMENSION; c++)
-	  (&m.x)[c] /= n;
-      else /* fixme: this is a small fragment */
-	m.x = 1.;
-      for (c = 0; c < FTT_DIMENSION; c++)
-	GFS_VALUE (cell, t->m[c]) = (&m.x)[c];
-      GFS_VALUE (cell, t->alpha) = gfs_plane_alpha (&m, f);
-    }
-  }
-}
-
-static void variable_tracer_vof_update (GfsVariable * v, GfsDomain * domain)
-{
-  GfsVariableTracerVOF * t = GFS_VARIABLE_TRACER_VOF (v);
-  guint l, depth = gfs_domain_depth (domain);
-  FttComponent c;
-  for (l = 0; l <= depth; l++) {
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEVEL, l,
-			      (FttCellTraverseFunc) vof_plane, v);
-    for (c = 0; c < FTT_DIMENSION; c++)
-      gfs_domain_bc (domain, FTT_TRAVERSE_LEVEL, l, t->m[c]);
-    gfs_domain_bc (domain, FTT_TRAVERSE_LEVEL, l, t->alpha);
-  }
-}
-
-static void no_coarse_fine (FttCell * cell,  GfsVariable * v) {}
-
-static void allocate_normal_alpha (GfsVariableTracerVOF * t)
-{
-  GfsVariable * v = GFS_VARIABLE1 (t);
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    static gchar index[][2] = {"x", "y", "z"};
-    gchar * name = g_strdup_printf ("%s_%s", v->name, index[c]);
-    gchar * description = 
-      g_strdup_printf ("%s-component of the normal to the interface defined by %s",
-		       index[c], v->name);
-    t->m[c] = gfs_domain_get_or_add_variable (v->domain, name, description);
-    t->m[c]->fine_coarse = t->m[c]->coarse_fine = no_coarse_fine;
-    g_free (name);
-    g_free (description);
-  }
-  gchar * name = g_strdup_printf ("%s_alpha", v->name);
-  gchar * description = 
-    g_strdup_printf ("\"alpha\" for the interface defined by %s", v->name);
-  t->alpha = gfs_domain_get_or_add_variable (v->domain, name, description);
-  t->alpha->fine_coarse = t->alpha->coarse_fine = no_coarse_fine;
-  g_free (name);
-  g_free (description);
-}
-
-static gboolean variable_tracer_vof_event (GfsEvent * event, 
-					   GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_variable_tracer_vof_class ())->parent_class)->event)
-      (event, sim)) {
-    GfsVariable * v = GFS_VARIABLE1 (event);
-    GfsDomain * domain = GFS_DOMAIN (sim);
-    gfs_domain_cell_traverse (domain,
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_get_from_below_intensive, v);
-    gfs_domain_bc (GFS_DOMAIN (sim), FTT_TRAVERSE_ALL, -1, v);
-
-    GfsVariableTracerVOF * t = GFS_VARIABLE_TRACER_VOF (v);
-    if (!t->alpha)
-      allocate_normal_alpha (t);
-    variable_tracer_vof_update (v, domain);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void variable_tracer_vof_destroy (GtsObject * o)
-{
-  GfsVariableTracerVOF * v = GFS_VARIABLE_TRACER_VOF (o);
-
-  if (v->alpha) {
-    FttComponent c;
-    for (c = 0; c < FTT_DIMENSION; c++)
-      gts_object_destroy (GTS_OBJECT (v->m[c]));
-    gts_object_destroy (GTS_OBJECT (v->alpha));
-  }
-
-  (* GTS_OBJECT_CLASS (gfs_variable_tracer_vof_class ())->parent_class->destroy) (o);
-}
-
-static void variable_tracer_vof_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_variable_tracer_vof_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  if (GFS_VARIABLE_TRACER (*o)->advection.cfl > 0.5) {
-    gts_file_error (fp, "cfl `%g' is out of range `]0,0.5]'", 
-		    GFS_VARIABLE_TRACER (*o)->advection.cfl);
-    return;
-  }  
-
-  allocate_normal_alpha (GFS_VARIABLE_TRACER_VOF (*o));
-}
-
-static void variable_tracer_vof_class_init (GtsObjectClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = variable_tracer_vof_event;
-  klass->destroy = variable_tracer_vof_destroy;
-  klass->read = variable_tracer_vof_read;
-}
-
-static void vof_coarse_fine (FttCell * parent, GfsVariable * v)
-{
-  GfsVariableTracerVOF * t = GFS_VARIABLE_TRACER_VOF (v);
-  gdouble f = GFS_VALUE (parent, v);
-  FttCellChildren child;
-  guint i;
-  
-  ftt_cell_children (parent, &child);
-  if (GFS_IS_FULL (f))
-    for (i = 0; i < FTT_CELLS; i++) {
-      FttComponent c;
-      if (!child.c[i])
-	g_assert_not_implemented ();
-      GFS_VALUE (child.c[i], v) = f;
-      for (c = 1; c < FTT_DIMENSION; c++)
-	GFS_VALUE (child.c[i], t->m[c]) = 0.;
-      GFS_VALUE (child.c[i], t->m[0]) = 1.;
-      GFS_VALUE (child.c[i], t->alpha) = f;
-    }
-  else {
-    gdouble alpha = GFS_VALUE (parent, t->alpha);
-    FttVector m;
-    
-    for (i = 0; i < FTT_DIMENSION; i++)
-      (&m.x)[i] = GFS_VALUE (parent, t->m[i]);
-    for (i = 0; i < FTT_CELLS; i++) {
-      gdouble alpha1 = alpha;
-      FttComponent c;
-      FttVector p;
-      
-      if (!child.c[i])
-	g_assert_not_implemented ();
-      ftt_cell_relative_pos (child.c[i], &p);
-      for (c = 0; c < FTT_DIMENSION; c++) {
-	alpha1 -= (&m.x)[c]*(0.25 + (&p.x)[c]);
-	GFS_VALUE (child.c[i], t->m[c]) = (&m.x)[c];
-      }
-      GFS_VALUE (child.c[i], v) = gfs_plane_volume (&m, 2.*alpha1);
-      GFS_VALUE (child.c[i], t->alpha) = 2.*alpha1;
-    }
-  }
-}
-
-static void vof_fine_coarse (FttCell * parent, GfsVariable * v)
-{
-  GfsVariableTracerVOF * t = GFS_VARIABLE_TRACER_VOF (v);
-  gfs_get_from_below_intensive (parent, v);
-  gdouble f = GFS_VALUE (parent, v);
-  FttComponent c;
-
-  if (GFS_IS_FULL (f)) {
-    for (c = 1; c < FTT_DIMENSION; c++)
-      GFS_VALUE (parent, t->m[c]) = 0.;
-    GFS_VALUE (parent, t->m[0]) = 1.;
-    GFS_VALUE (parent, t->alpha) = f;
-  }
-  else {
-    FttCellChildren child;
-    FttVector m = {0., 0., 0.};
-    guint i;
-    
-    ftt_cell_children (parent, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i]) {
-	gdouble f = GFS_VALUE (child.c[i], v);
-	gdouble a = f*(1. - f);
-
-	for (c = 0; c < FTT_DIMENSION; c++)
-	  (&m.x)[c] += a*GFS_VALUE (child.c[i], t->m[c]);
-      }
-    
-    gdouble n = 0.;
-    for (c = 0; c < FTT_DIMENSION; c++)
-      n += fabs ((&m.x)[c]);
-    if (n > 0.)
-      for (c = 0; c < FTT_DIMENSION; c++)
-	(&m.x)[c] /= n;
-    else /* fixme: this is a small fragment */
-      m.x = 1.;
-    for (c = 0; c < FTT_DIMENSION; c++)
-      GFS_VALUE (parent, t->m[c]) = (&m.x)[c];
-    GFS_VALUE (parent, t->alpha) = gfs_plane_alpha (&m, f);
-  }
-}
-
-static void variable_tracer_vof_init (GfsVariable * v)
-{
-  GFS_EVENT (v)->start = -1;
-  GFS_EVENT (v)->istep = G_MAXINT/2;
-  v->coarse_fine = vof_coarse_fine;
-  v->fine_coarse = vof_fine_coarse;
-  //  v->face_value = gfs_vof_face_value;
-  GFS_VARIABLE_TRACER (v)->advection.cfl = 0.5;
-}
-
-GfsVariableClass * gfs_variable_tracer_vof_class (void)
-{
-  static GfsVariableClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_variable_tracer_vof_info = {
-      "GfsVariableTracerVOF",
-      sizeof (GfsVariableTracerVOF),
-      sizeof (GfsVariableClass),
-      (GtsObjectClassInitFunc) variable_tracer_vof_class_init,
-      (GtsObjectInitFunc) variable_tracer_vof_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_variable_tracer_class ()), 
-				  &gfs_variable_tracer_vof_info);
-  }
-
-  return klass;
-}
-
-typedef struct {
-  GfsAdvectionParams * par, vpar;
-  FttComponent c;
-  GfsDomain * domain;
-  guint depth, too_coarse;
-} VofParms;
-
-static gdouble plane_volume_shifted (FttVector m, gdouble alpha, FttVector p[2])
-{
-  FttComponent c;
-
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    alpha -= (&m.x)[c]*(&p[0].x)[c];
-    (&m.x)[c] *= (&p[1].x)[c] - (&p[0].x)[c];
-  }
-  return gfs_plane_volume (&m, alpha);
-}
-
-static gdouble fine_fraction (FttCellFace * face, VofParms * p, gdouble un)
-{
-  gdouble f = GFS_VALUE (face->cell, p->par->v);
-  if (f == 0. || f == 1.)
-    return f;
-  else if (GFS_CELL_IS_BOUNDARY (face->cell))
-    return GFS_STATE (face->cell)->f[face->d].v;
-  else {
-    FttComponent c;
-    FttVector m;
-    gdouble alpha = GFS_VALUE (face->cell, GFS_VARIABLE_TRACER_VOF (p->par->v)->alpha);
-
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&m.x)[c] = GFS_VALUE (face->cell, GFS_VARIABLE_TRACER_VOF (p->par->v)->m[c]);
-    if (face->d % 2 != 0) {
-      (&m.x)[face->d/2] = - (&m.x)[face->d/2];
-      alpha += (&m.x)[face->d/2];
-    }
-
-    FttVector q[2] = {{0., 0., 0.},{1., 1., 1.}};
-
-    (&q[0].x)[face->d/2] = 1. - un; (&q[1].x)[face->d/2] = 1.;
-    return plane_volume_shifted (m, alpha, q);
-  }
-}
-
-static gdouble coarse_fraction (FttCellFace * face, VofParms * p, gdouble un)
-{
-  gdouble f = GFS_VALUE (face->neighbor, p->par->v);
-  if (f == 0. || f == 1.)
-    return f;
-  else {
-    FttVector q[2] = {{0., 0., 0.},{1., 1., 1.}};
-    FttComponent c;
-    FttVector m, o;
-    gdouble alpha = GFS_VALUE (face->neighbor, GFS_VARIABLE_TRACER_VOF (p->par->v)->alpha);
-    
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&m.x)[c] = GFS_VALUE (face->neighbor, GFS_VARIABLE_TRACER_VOF (p->par->v)->m[c]);
-    if (!FTT_FACE_DIRECT (face)) {
-      (&m.x)[face->d/2] = - (&m.x)[face->d/2];
-      alpha += (&m.x)[face->d/2];
-    }
-    
-    /* shift interface perpendicularly */
-    ftt_cell_relative_pos (face->cell, &o);
-    for (c = 0; c < FTT_DIMENSION; c++)
-      if (c != face->d/2) {
-	(&q[0].x)[c] = (&o.x)[c] + 0.25;
-	(&q[1].x)[c] = (&o.x)[c] + 0.75;
-      }
-    (&q[1].x)[face->d/2] = un;
-    return plane_volume_shifted (m, alpha, q);
-  }
-}
-
-#define TOO_COARSE(cell) (GFS_VALUE (cell, p->par->fv))
-
-/* Marks coarse cells which should be refined because an interface in
-   a neighboring finer cell will be advected into them */
-static void face_too_coarse (FttCellFace * face, VofParms * p)
-{
-  if (ftt_face_type (face) == FTT_FINE_COARSE) {
-    gdouble un = GFS_FACE_NORMAL_VELOCITY (face);
-    if (!FTT_FACE_DIRECT (face))
-      un = - un;
-    if (un > 0.) {
-      gdouble f = GFS_VALUE (face->neighbor, p->par->v);
-      if (GFS_IS_FULL (f) &&
-	  fine_fraction (face, p, un*p->par->dt/ftt_cell_size (face->cell)) != f) {
-	p->too_coarse++;
-	TOO_COARSE (face->neighbor) = TRUE;
-      }
-    }
-  }
-}
-
-static void vof_cell_fine_init (FttCell * parent, VofParms * p)
-{
-  gfs_cell_fine_init (parent, p->domain);
-
-  FttDirection d;
-  for (d = 0; d < FTT_NEIGHBORS; d++) {
-    FttDirection od = FTT_OPPOSITE_DIRECTION (d);
-    FttCellChildren dchild;
-    guint i, n = ftt_cell_children_direction (parent, d, &dchild);
-    for (i = 0; i < n; i++) {
-      g_assert (dchild.c[i]);
-      FttCell * neighbor = ftt_cell_neighbor (dchild.c[i], d);
-      if (neighbor)
-	GFS_STATE (dchild.c[i])->f[d].un = GFS_STATE (neighbor)->f[od].un;
-    }
-  }
-
-  FttCellChildren child;
-  gdouble div[FTT_CELLS], P[FTT_CELLS];
-  guint n;
-  ftt_cell_children (parent, &child);
-  for (n = 0; n < FTT_CELLS; n++) {
-    g_assert (child.c[n]);
-    GFS_VALUE (child.c[n], p->vpar.v) = GFS_VALUE (parent, p->vpar.v);
-    div[n] = 0.;
-    FttComponent c;
-    for (c = 0; c < FTT_DIMENSION; c++)
-      div[n] += GFS_STATE (child.c[n])->f[2*c].un - GFS_STATE (child.c[n])->f[2*c + 1].un;
-  }
-
-#if FTT_2D
-  P[0] = 0.;
-  P[1] = (3.*div[1] + div[2])/4. + div[3]/2.;
-  P[2] = (div[1] + 3.*div[2])/4. + div[3]/2.;
-  P[3] = (div[1] + div[2])/2. + div[3];
-  GFS_STATE (child.c[0])->f[0].un = GFS_STATE (child.c[1])->f[1].un = P[1] - P[0];
-  GFS_STATE (child.c[2])->f[0].un = GFS_STATE (child.c[3])->f[1].un = P[3] - P[2];
-  GFS_STATE (child.c[0])->f[3].un = GFS_STATE (child.c[2])->f[2].un = P[0] - P[2];
-  GFS_STATE (child.c[1])->f[3].un = GFS_STATE (child.c[3])->f[2].un = P[1] - P[3];
-#else /* 3D */
-  static gdouble m[7][7] = {{7./12.,5./24.,3./8.,5./24.,3./8.,1./4.,1./3.},
-			    {5./24.,7./12.,3./8.,5./24.,1./4.,3./8.,1./3.}, 
-			    {3./8.,3./8.,3./4.,1./4.,3./8.,3./8.,1./2.}, 
-			    {5./24.,5./24.,1./4.,7./12.,3./8.,3./8.,1./3.}, 
-			    {3./8.,1./4.,3./8.,3./8.,3./4.,3./8.,1./2.}, 
-			    {1./4.,3./8.,3./8.,3./8.,3./8.,3./4.,1./2.}, 
-			    {1./3.,1./3.,1./2.,1./3.,1./2.,1./2.,5./6.}};
-  P[0] = 0.;
-  guint i, j;
-  for (i = 0; i < 7; i++) {
-    P[i + 1] = 0.;
-    for (j = 0; j < 7; j++)
-      P[i + 1] += m[i][j]*div[j + 1];
-  }
-  GFS_STATE (child.c[0])->f[0].un = GFS_STATE (child.c[1])->f[1].un = P[1] - P[0];
-  GFS_STATE (child.c[2])->f[0].un = GFS_STATE (child.c[3])->f[1].un = P[3] - P[2];
-  GFS_STATE (child.c[0])->f[3].un = GFS_STATE (child.c[2])->f[2].un = P[0] - P[2];
-  GFS_STATE (child.c[1])->f[3].un = GFS_STATE (child.c[3])->f[2].un = P[1] - P[3];
-
-  GFS_STATE (child.c[4])->f[0].un = GFS_STATE (child.c[5])->f[1].un = P[5] - P[4];
-  GFS_STATE (child.c[6])->f[0].un = GFS_STATE (child.c[7])->f[1].un = P[7] - P[6];
-  GFS_STATE (child.c[4])->f[3].un = GFS_STATE (child.c[6])->f[2].un = P[4] - P[6];
-  GFS_STATE (child.c[5])->f[3].un = GFS_STATE (child.c[7])->f[2].un = P[5] - P[7];
-
-  GFS_STATE (child.c[0])->f[5].un = GFS_STATE (child.c[4])->f[4].un = P[0] - P[4];
-  GFS_STATE (child.c[1])->f[5].un = GFS_STATE (child.c[5])->f[4].un = P[1] - P[5];
-  GFS_STATE (child.c[2])->f[5].un = GFS_STATE (child.c[6])->f[4].un = P[2] - P[6];
-  GFS_STATE (child.c[3])->f[5].un = GFS_STATE (child.c[7])->f[4].un = P[3] - P[7];
-#endif /* 3D */
-}
-
-/* Same as vof_cell_fine_init() but initialisation of MAC velocities
-   is done through a GfsVariableStreamFunction */
-static void vof_cell_fine_init_with_streamfunction (FttCell * parent, VofParms * p)
-{
-  gfs_cell_fine_init (parent, p->domain);
-
-  FttCellChildren child;
-  guint n;
-  ftt_cell_children (parent, &child);
-  for (n = 0; n < FTT_CELLS; n++) {
-    g_assert (child.c[n]);
-    GFS_VALUE (child.c[n], p->vpar.v) = GFS_VALUE (parent, p->vpar.v);
-  }
-}
-
-static void refine_too_coarse (FttCell * cell, VofParms * p)
-{
-  if (TOO_COARSE (cell)) {
-    guint level = ftt_cell_level (cell);
-
-    TOO_COARSE (cell) = FALSE;
-    ftt_cell_refine_corners (cell, (FttCellInitFunc) p->domain->cell_init, p);
-    ftt_cell_refine_single (cell, (FttCellInitFunc) p->domain->cell_init, p);
-    if (level + 1 > p->depth)
-      p->depth = level + 1;
-  }
-}
-
-static void vof_face_value (FttCellFace * face, VofParms * p)
-{
-  gdouble un = GFS_FACE_NORMAL_VELOCITY (face)*p->par->dt/ftt_cell_size (face->cell);
-  if (!FTT_FACE_DIRECT (face))
-    un = - un;
-
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE: {
-    if (un < 0.) {
-      FttCell * tmp = face->cell;
-      face->cell = face->neighbor;
-      face->neighbor = tmp;
-      face->d = FTT_OPPOSITE_DIRECTION (face->d);
-      un = - un;
-    }
-    GFS_STATE (face->cell)->f[face->d].v = fine_fraction (face, p, un);
-    break;
-  }
-  case FTT_FINE_COARSE: {
-    GFS_STATE (face->cell)->f[face->d].v = 
-      un > 0. ? fine_fraction (face, p, un) : coarse_fraction (face, p, -un/2.);
-    break;
-  }
-  default:
-    g_assert_not_reached ();
-  }
-}
-
-static void vof_flux (FttCellFace * face, VofParms * p)
-{
-  gdouble un = GFS_FACE_NORMAL_VELOCITY (face)*p->par->dt/ftt_cell_size (face->cell);
-  if (!FTT_FACE_DIRECT (face))
-    un = - un;
-  if (fabs (un) > 0.5) {
-    FttVector p;
-    ftt_face_pos (face, &p);
-    g_warning ("CFL (%g) at (%g,%g,%g) is larger than 0.5!", un, p.x, p.y, p.z);
-  }
-  un *= gfs_domain_face_fraction (p->par->fv->domain, face);
-
-  gdouble flux = GFS_STATE (face->cell)->f[face->d].v*un;
-  switch (ftt_face_type (face)) {
-  case FTT_FINE_FINE: {
-    if (un < 0.)
-      flux = GFS_STATE (face->neighbor)->f[FTT_OPPOSITE_DIRECTION (face->d)].v*un;
-    GFS_VALUE (face->neighbor, p->par->fv) += flux;
-    GFS_VALUE (face->neighbor, p->vpar.fv) += un;
-    break;
-  }
-  case FTT_FINE_COARSE: {
-    GFS_VALUE (face->neighbor, p->par->fv) += flux/FTT_CELLS;
-    GFS_VALUE (face->neighbor, p->vpar.fv) += un/FTT_CELLS;
-    break;
-  }
-  default:
-    g_assert_not_reached ();
-  }
-  GFS_VALUE (face->cell, p->par->fv) -= flux;
-  GFS_VALUE (face->cell, p->vpar.fv) -= un;
-}
-
-static void initialize_dV (FttCell * cell, GfsVariable * dV)
-{
-  GFS_VALUE (cell, dV) = 1.;
-}
-
-static void f_times_dV (FttCell * cell, VofParms * p)
-{
-  GFS_VALUE (cell, p->par->fv) = 0.;
-  GFS_VALUE (cell, p->vpar.fv) = 0.;
-  GFS_VALUE (cell, p->par->v) *= GFS_VALUE (cell, p->vpar.v);
-}
-
-static void f_over_dV (FttCell * cell, VofParms * p)
-{
-  g_assert (GFS_VALUE (cell, p->vpar.v) > 0.);
-  gdouble f = GFS_VALUE (cell, p->par->v)/GFS_VALUE (cell, p->vpar.v);
-  GFS_VALUE (cell, p->par->v) = f < 1e-10 ? 0. : f > 1. - 1e-10 ? 1. : f;
-}
-
-/* refine cells which would lead to a loss of resolution at the interface */
-static void fix_too_coarse (GfsDomain * domain, VofParms * p)
-{
-  p->depth = 0;
-  p->domain = domain;
-  p->too_coarse = 0;
-  gfs_domain_face_traverse (domain, p->c,
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttFaceTraverseFunc) face_too_coarse, p);
-  gboolean streamfunction = FALSE;
-#if FTT_2D
-  GSList * i = domain->variables;
-  while (i && !streamfunction) {
-    streamfunction = (GFS_IS_VARIABLE_STREAM_FUNCTION (i->data) != NULL);
-    i = i->next;
-  }
-#endif /* 2D */ 
-  domain->cell_init = (FttCellInitFunc) (streamfunction ? 
-					 vof_cell_fine_init_with_streamfunction : 
-					 vof_cell_fine_init);
-  domain->cell_init_data = p;
-  if (p->too_coarse > 0)
-    gfs_domain_cell_traverse (domain,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) refine_too_coarse, p);
-  gfs_all_reduce (domain, p->too_coarse, MPI_UNSIGNED, MPI_SUM);
-  if (p->too_coarse > 0)
-    gfs_domain_reshape (domain, p->depth);
-  domain->cell_init = (FttCellInitFunc) gfs_cell_fine_init;
-  domain->cell_init_data = domain;
-}
-
-/**
- * gfs_tracer_vof_advection:
- * @domain: a #GfsDomain.
- * @par: the advection parameters.
- *
- * Advects the @v field of @par using the current face-centered (MAC)
- * velocity field.
- */
-void gfs_tracer_vof_advection (GfsDomain * domain,
-			       GfsAdvectionParams * par)
-{
-  VofParms p;
-  static FttComponent cstart = 0;
-  FttComponent c;
-
-  g_return_if_fail (domain != NULL);
-  g_return_if_fail (par != NULL);
-  g_return_if_fail (GFS_IS_VARIABLE_TRACER_VOF (par->v));
-  g_return_if_fail (par->cfl <= 0.5);
-
-  gfs_domain_timer_start (domain, "tracer_vof_advection");
-
-  p.par = par;
-  gfs_advection_params_init (&p.vpar);
-  p.vpar.v = gfs_temporary_variable (domain);
-  p.vpar.fv = gfs_temporary_variable (domain);
-  p.vpar.average = par->average;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) initialize_dV, p.vpar.v);
-  par->fv = gfs_temporary_variable (domain);
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    p.c = (cstart + c) % FTT_DIMENSION;
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_cell_reset, par->fv);
-    fix_too_coarse (domain, &p);
-    gfs_domain_face_traverse (domain, p.c,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttFaceTraverseFunc) vof_face_value, &p);
-    gfs_domain_face_bc (domain, p.c, par->v);
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) f_times_dV, &p);
-    gfs_domain_face_traverse (domain, p.c,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttFaceTraverseFunc) vof_flux, &p);
-    gfs_domain_traverse_merged (domain, (GfsMergedTraverseFunc) gfs_advection_update, par);
-    gfs_domain_traverse_merged (domain, (GfsMergedTraverseFunc) gfs_advection_update, &p.vpar);
-    gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-    			      (FttCellTraverseFunc) f_over_dV, &p);
-    gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) par->v->fine_coarse, par->v);
-    gfs_domain_bc (domain, FTT_TRAVERSE_ALL, -1, par->v);
-
-    variable_tracer_vof_update (p.par->v, domain);
-  }
-  cstart = (cstart + 1) % FTT_DIMENSION;
-  gts_object_destroy (GTS_OBJECT (par->fv));
-  par->fv = NULL;
-  gts_object_destroy (GTS_OBJECT (p.vpar.v));
-  gts_object_destroy (GTS_OBJECT (p.vpar.fv));
-
-  gfs_domain_timer_stop (domain, "tracer_vof_advection");
-}
-
-static gdouble face_value (FttCell * cell, FttDirection d, GfsVariable * v)
-{
-  gdouble f = GFS_VALUE (cell, v);
-
-  if (GFS_IS_FULL (f))
-    return f;
-  else {
-    GfsVariableTracerVOF * t = GFS_VARIABLE_TRACER_VOF (v);
-    gdouble alpha = GFS_VALUE (cell, t->alpha);
-    FttComponent c;
-    FttVector m;
-    
-    for (c = 0; c < FTT_DIMENSION; c++)
-      (&m.x)[c] = GFS_VALUE (cell, t->m[c]);
-    (&m.x)[d/2] /= 2.;
-    if (d % 2)
-      alpha -= (&m.x)[d/2];
-    return gfs_plane_volume (&m, alpha);
-  }
-}
-
-/**
- * gfs_vof_face_value:
- * @face: a #FttCellFace.
- * @t: a #GfsVariableTracerVOF.
- *
- * Returns: the value of the VOF fraction defined by @t, interpolated
- * on @face.
- */
-gdouble gfs_vof_face_value (const FttCellFace * face, GfsVariableTracerVOF * t)
-{
-  g_return_val_if_fail (face != NULL, 0.);
-  g_return_val_if_fail (t != NULL, 0.);
-
-  GfsVariable * v = GFS_VARIABLE1 (t);
-  gdouble vright, vleft = GFS_VALUE (face->cell, v); //face_value (face->cell, face->d, v);
-  if (ftt_face_type (face) == FTT_FINE_COARSE) {
-    gdouble f = GFS_VALUE (face->neighbor, v);
-
-    if (GFS_IS_FULL (f))
-      vright = f;
-    else {
-      gdouble alpha = GFS_VALUE (face->neighbor, t->alpha);
-      FttComponent c;
-      FttVector m;
-
-      for (c = 0; c < FTT_DIMENSION; c++)
-	(&m.x)[c] = GFS_VALUE (face->neighbor, t->m[c]);
-
-      FttVector p, o;
-      ftt_face_pos (face, &p);
-      ftt_cell_pos (face->neighbor, &o);
-      gdouble h = ftt_cell_size (face->neighbor);
-
-      (&p.x)[face->d/2] += face->d % 2 ? -h/4. : h/4.;
-      for (c = 0; c < FTT_DIMENSION; c++)
-	alpha -= (&m.x)[c]*(0.25 - ((&p.x)[c] - (&o.x)[c])/h);
-      //      for (c = 0; c < FTT_DIMENSION; c++)
-      //	(&m.x)[c] /= 2.;
-      //      (&m.x)[face->d/2] /= 2.;
-      //      if (!(face->d % 2))
-      //	alpha -= (&m.x)[face->d/2];
-      vright = gfs_plane_volume (&m, 2.*alpha);
-#if 0
-      if (vright > 0.2 && vright < 0.8) {
-	fprintf (stderr, "%d (%g,%g) (%g,%g) %g\n", face->d, p.x, p.y, o.x, o.y, vright);
-	g_assert_not_reached ();
-      }
-#endif
-    }
-  }
-  else
-    vright = GFS_VALUE (face->neighbor, v); //face_value (face->neighbor, FTT_OPPOSITE_DIRECTION (face->d), v);
-  return (vright + vleft)/2.;
-}
-
-/**
- * gfs_vof_facet:
- * @cell: a #FttCell.
- * @t: a #GfsVariableTracerVOF.
- * @p: a #FttVector array (of size 2 in 2D and 6 in 3D)
- * @m: a #FttVector.
- *
- * Fills @p with the coordinates of points defining the
- * VOF-reconstructed interface facet defined by @t.
- *
- * Fills @m with the normal to the interface.
- *
- * Returns: the number of points defining the facet.
- */
-guint gfs_vof_facet (FttCell * cell,
-		     GfsVariableTracerVOF * t,
-		     FttVector * p,
-		     FttVector * m)
-{
-  g_return_val_if_fail (cell != NULL, 0);
-  g_return_val_if_fail (t != NULL, 0);
-  g_return_val_if_fail (p != NULL, 0);
-  g_return_val_if_fail (m != NULL, 0);
-
-  if (GFS_IS_FULL (GFS_VALUE (cell, GFS_VARIABLE1 (t))))
-    return 0;
-
-  guint n = 0;
-  FttVector q;
-  ftt_cell_pos (cell, &q);
-  gdouble h = ftt_cell_size (cell);
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&m->x)[c] = GFS_VALUE (cell, t->m[c]);
-  gdouble alpha = GFS_VALUE (cell, t->alpha);
-
-#if FTT_2D
-  gdouble x, y;
-
-  if (fabs (m->y) > EPS) {
-    y = (alpha - m->x)/m->y;
-    if (y >= 0. && y <= 1.) {
-      p[n].x = q.x + h/2.; p[n].y = q.y + h*(y - 0.5); p[n++].z = 0.;
-    }
-  }
-  if (fabs (m->x) > EPS) {
-    x = (alpha - m->y)/m->x;
-    if (x >= 0. && x <= 1.) {
-      p[n].x = q.x + h*(x - 0.5); p[n].y = q.y + h/2.; p[n++].z = 0.;
-    }
-  }
-  if (fabs (m->y) > EPS) {
-    y = alpha/m->y;
-    if (y >= 0. && y <= 1.) {
-      p[n].x = q.x - h/2.; p[n].y = q.y + h*(y - 0.5); p[n++].z = 0.;
-    }
-  }
-  if (fabs (m->x) > EPS) {
-    x = alpha/m->x;
-    if (x >= 0. && x <= 1.) {
-      p[n].x = q.x + h*(x - 0.5); p[n].y = q.y - h/2.; p[n++].z = 0.;
-    }
-  }
-  g_assert (n <= 2);
-#else /* 3D */
-  gdouble max = fabs (m->x);
-  c = FTT_X;
-  if (fabs (m->y) > max) {
-    max = fabs (m->y);
-    c = FTT_Y;
-  }
-  if (fabs (m->z) > max)
-    c = FTT_Z;
-  q.x -= h/2.; q.y -= h/2.; q.z -= h/2.;
-  (&q.x)[c] += h*alpha/(&m->x)[c];
-  FttVector m1 = *m;
-  gts_vector_normalize (&m1.x);
-
-  FttDirection d[12];
-  n = gfs_cut_cube_vertices (cell, -1, &q, &m1, p, d, NULL, NULL);
-  g_assert (n <= 6);
-#endif /* 3D */
-  return n;
-}
-
-/**
- * gfs_vof_facet_distance2:
- * @cell: a #FttCell.
- * @t: a #GfsVariableTracerVOF.
- * @p: a #GtsPoint.
- *
- * Returns: the square of the distance between point @p and the
- * VOF-reconstructed interface facet defined by @t or %G_MAXDOUBLE if
- * @cell does not contain an interface.
- */
-gdouble gfs_vof_facet_distance2 (FttCell * cell,
-				 GfsVariableTracerVOF * t,
-				 GtsPoint * p)
-{
-  g_return_val_if_fail (cell != NULL, G_MAXDOUBLE);
-  g_return_val_if_fail (t != NULL, G_MAXDOUBLE);
-  g_return_val_if_fail (p != NULL, G_MAXDOUBLE);
-
-  if (GFS_IS_FULL (GFS_VALUE (cell, GFS_VARIABLE1 (t))))
-    return G_MAXDOUBLE;
-
-  FttVector q, m;
-  ftt_cell_pos (cell, &q);
-  gdouble h = ftt_cell_size (cell), lambda = 0., norm2 = 0.;
-  FttComponent c;
-  q.x -= h/2.; q.y -= h/2.; q.z -= h/2.;
-  /* compute position of closest point on VOF plane m*x + m*y + m*z = alpha */
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    (&m.x)[c] = GFS_VALUE (cell, t->m[c]);
-    lambda += (&m.x)[c]*((&p->x)[c] - (&q.x)[c])/h;
-    norm2 += (&m.x)[c]*(&m.x)[c];
-  }
-  gdouble alpha = GFS_VALUE (cell, t->alpha);
-  g_assert (norm2 > 0.);
-  lambda = (lambda - alpha)/norm2;
-
-  FttVector o;
-  for (c = 0; c < FTT_DIMENSION; c++) {
-    (&o.x)[c] = ((&p->x)[c] - (&q.x)[c])/h - lambda*(&m.x)[c];
-    if ((&o.x)[c] <= 0. || (&o.x)[c] >= 1.) {
-      /* closest point on VOF plane is not within cell
-	 return minimum distance from facet edges */
-      FttVector q[FTT_DIMENSION*(FTT_DIMENSION - 1) + 1];
-      gdouble dmin = G_MAXDOUBLE;
-      guint i, n = gfs_vof_facet (cell, t, q, &m);
-#if !FTT_2D
-      if (n > 2)
-	q[n++] = q[0];
-#endif
-      for (i = 0; i < n - 1; i++) {
-	GtsPoint p1, p2;
-	p1.x = q[i].x; p1.y = q[i].y; p1.z = q[i].z;
-	p2.x = q[i + 1].x; p2.y = q[i + 1].y; p2.z = q[i + 1].z;
-	GtsSegment s;
-	s.v1 = (GtsVertex *) &p1; s.v2 = (GtsVertex *) &p2;
-	gdouble d = gts_point_segment_distance2 (p, &s);
-	if (d < dmin)
-	  dmin = d;
-      }
-      return dmin;
-    }
-  }
-  return h*h*lambda*lambda*norm2;
-}
-
-/**
- * gfs_vof_center:
- * @cell: a #FttCell.
- * @t: a #GfsVariableTracerVOF.
- * @p: a #FttVector.
- *
- * Fills @p with the coordinates of the center of mass of the
- * VOF-reconstructed interface facet defined by @t.
- *
- * Returns: the area (length in 2D) of the VOF-reconstructed facet or 0. if the
- * cell is not cut by the interface.
- */
-gdouble gfs_vof_center (FttCell * cell, GfsVariableTracerVOF * t, FttVector * p)
-{
-  g_return_val_if_fail (cell != NULL, FALSE);
-  g_return_val_if_fail (t != NULL, FALSE);
-  g_return_val_if_fail (p != NULL, 0);
-
-  if (GFS_IS_FULL (GFS_VALUE (cell, GFS_VARIABLE1 (t))))
-    return 0.;
-
-  FttVector m, o;
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&m.x)[c] = GFS_VALUE (cell, t->m[c]);
-  gdouble area = gfs_plane_area_center (&m, GFS_VALUE (cell, t->alpha), p);
-  ftt_cell_pos (cell, &o);
-  gdouble h = ftt_cell_size (cell);
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&p->x)[c] = (&o.x)[c] + h*((&p->x)[c] - 0.5);
-  return area;
-}
-
-static gdouble fraction (FttVector * p,
-			 guint level,
-			 GfsVariable * v)
-{
-  FttCell * cell = gfs_domain_boundary_locate (v->domain, *p, level, NULL);
-  if (cell)
-    return gfs_vof_interpolate (cell, p, level, GFS_VARIABLE_TRACER_VOF (v));
-  else /* fixme: boundary conditions? */
-    return 2.;
-}
-
-#define NMAX 10
-
-#define ADD_H(f) { H += f; n++; }
-#define SIGN(x) ((x) > 0. ? 1. : -1.)
-
-static gdouble local_height (FttVector * p,
-			     FttVector * origin,
-			     guint level,
-			     GfsVariable * v,
-			     FttDirection d,
-			     GtsVector interface)
-{
-  gdouble h = ftt_level_size (level), h1 = d % 2 ? - h : h, H = 0.;
-  gdouble right = fraction (p, level, v), left = right;
-  FttVector pright = *p, pleft = pright;
-  FttComponent c = d/2;
-  guint n = 0;
-
-  ADD_H (right);
-  gboolean found_interface = (right > 0.);
-  while (n < NMAX && (!found_interface || !GFS_IS_FULL (right))) {
-    (&pright.x)[c] += h1;
-    right = fraction (&pright, level, v);
-    if (right > 1.)
-      return G_MAXDOUBLE;
-    ADD_H (right);
-    if (!GFS_IS_FULL (right))
-      found_interface = TRUE;
-  }
-  if (right != 1.)
-    return G_MAXDOUBLE;
-
-  found_interface = (left < 1.);
-  while (n < NMAX && (!found_interface || !GFS_IS_FULL (left))) {
-    (&pleft.x)[c] -= h1;
-    left = fraction (&pleft, level, v);
-    if (left > 1.)
-      return G_MAXDOUBLE;
-    ADD_H (left);
-    if (!GFS_IS_FULL (left))
-      found_interface = TRUE;
-  }
-  if (left != 0.)
-    return G_MAXDOUBLE;
-
-  H -= ((&pright.x)[c] - (&origin->x)[c])/h1 + 0.5;
-  interface[0] = (p->x - origin->x)/h;
-  interface[1] = (p->y - origin->y)/h;
-  interface[2] = (p->z - origin->z)/h;
-  interface[c] = - SIGN (h1)*H;
-  return H;
-}
-
-/* fixme: does not work for periodic boundary conditions along direction c
- * for cells close to the boundary */
-static gboolean curvature_along_direction (FttCell * cell, 
-					   GfsVariableTracerVOF * t,
-					   FttComponent c,
-					   gdouble * kappa,
-					   gdouble * kmax,
-					   GtsVector * interface,
-					   guint * n)
-{
-  GfsVariable * v = GFS_VARIABLE1 (t);
-
-  FttVector m;
-  FttComponent i;
-  for (i = 0; i < FTT_DIMENSION; i++)
-    (&m.x)[i] = GFS_VALUE (cell, t->m[i]);
-  FttDirection d = 2*c + ((&m.x)[c] > 0.);
-
-  FttVector p;
-  ftt_cell_pos (cell, &p);
-  guint level = ftt_cell_level (cell);
-  gdouble size = ftt_level_size (level), H;
-
-  gboolean found_all_heights = TRUE;
-  H = local_height (&p, &p, level, v, d, interface[*n]);
-  if (H == G_MAXDOUBLE)
-    found_all_heights = FALSE;
-  else
-    (*n)++;
-#if 0
-  if (H < -0.5 || H > 0.5)
-    found_all_heights = FALSE;
-#endif
-
-#ifdef FTT_2D
-  FttComponent cp = FTT_ORTHOGONAL_COMPONENT (c);
-  FttVector q = p;
-  gdouble h[2];
-  (&q.x)[cp] += size;
-  h[0] = local_height (&q, &p, level, v, d, interface[*n]);
-  if (h[0] == G_MAXDOUBLE)
-    found_all_heights = FALSE;
-  else
-    (*n)++;
-
-  q = p;
-  (&q.x)[cp] -= size;
-  h[1] = local_height (&q, &p, level, v, d, interface[*n]);
-  if (h[1] == G_MAXDOUBLE)
-    found_all_heights = FALSE;
-  else
-    (*n)++;
-
-  if (found_all_heights) {
-    gdouble hxx = h[0] - 2.*H + h[1];
-    gdouble hx = (h[0] - h[1])/2.;
-    gdouble dnm = 1. + hx*hx;
-    *kappa = hxx/(size*sqrt (dnm*dnm*dnm));
-    if (kmax)
-      *kmax = fabs (*kappa);
-    if (GFS_IS_AXI (v->domain)) {
-      gdouble nr, r = p.y;
-      if (c == FTT_X)
-	nr = hx;
-      else {
-	r += (d == FTT_TOP ? - H*size : H*size);
-	nr = (d == FTT_TOP ? 1. : -1.);
-      }
-      gdouble kaxi = nr/(sqrt(dnm)*r);
-      *kappa += kaxi;
-      if (kmax)
-	*kmax = MAX (*kmax, fabs (kaxi));
-    }
-  }
-#else  /* 3D */  
-  static FttComponent or[3][2] = { { FTT_Y, FTT_Z }, { FTT_X, FTT_Z }, { FTT_X, FTT_Y } };
-  gdouble h[3][3];
-  gint x, y;
-
-  for (x = -1; x <= 1; x++)
-    for (y = -1; y <= 1; y++)
-      if (x != 0 || y != 0) {
-	FttVector q = p;
-	(&q.x)[or[c][0]] += size*x;
-	(&q.x)[or[c][1]] += size*y;
-	h[x + 1][y + 1] = local_height (&q, &p, level, v, d, interface[*n]);
-	if (h[x + 1][y + 1] == G_MAXDOUBLE)
-	  found_all_heights = FALSE;
-	else
-	  (*n)++;
-      }
-
-  if (found_all_heights) {
-    gdouble hxx = h[2][1] - 2.*H + h[0][1];
-    gdouble hyy = h[1][2] - 2.*H + h[1][0];
-    gdouble hx = (h[2][1] - h[0][1])/2.;
-    gdouble hy = (h[1][2] - h[1][0])/2.;
-    gdouble hxy = (h[2][2] + h[0][0] - h[2][0] - h[0][2])/4.;
-    gdouble dnm = 1. + hx*hx + hy*hy; 
-    *kappa = (hxx + hyy + hxx*hy*hy + hyy*hx*hx - 2.*hxy*hx*hy)/(size*sqrt (dnm*dnm*dnm));  
-    if (kmax) {
-      gdouble km = *kappa/2.;
-      /* Gaussian curvature */
-      gdouble kg = (hxx*hyy - hxy*hxy)/(size*size*dnm*dnm);
-      gdouble a = km*km - kg;
-      *kmax = fabs (km);
-      if (a >= 0.)
-	*kmax += sqrt (a);
-    }
-  }
-#endif /* 3D */
-  return found_all_heights;
-}
-
-#define PARABOLA_FIT_CENTER_WEIGHT .1
-#define PARABOLA_SIMPLER 0
-
-typedef struct {
-  GtsVector o;
-#if FTT_2D /* y = a[0]*x^2 + a[0]*x + a[1] */
-  GtsVector m;
-  GtsMatrix * M;
-  GtsVector rhs, a;
-#else /* 3D */
-# if PARABOLA_SIMPLER /* z = a[0]*x^2 + a[1]*y^2 + a[2]*x*y */
-  GtsMatrix * M;
-  GtsVector rhs, a;
-# else /* z = a[0]*x^2 + a[1]*y^2 + a[2]*x*y + a[3]*x + a[4]*y + a[5] */
-  gdouble ** M, rhs[6], a[6];
-# endif
-  GtsVector t[3];
-#endif /* 3D */
-} ParabolaFit;
-
-static void parabola_fit_init (ParabolaFit * p, FttVector * o, FttVector * m)
-{
-  p->o[0] = o->x; p->o[1] = o->y; p->o[2] = o->z;
-#if FTT_2D
-  p->m[0] = m->x; p->m[1] = m->y; p->m[2] = 0.;
-  gts_vector_normalize (p->m);
-  p->M = gts_matrix_zero (NULL);
-  p->rhs[0] = p->rhs[1] = p->rhs[2] = 0.;
-#else /* 3D */
-  gdouble max;
-  GtsVector nx = {0., 0., 0.}, ny, nz;
-  guint d = 0;
-
-  nz[0] = m->x; nz[1] = m->y; nz[2] = m->z;
-  gts_vector_normalize (nz);
-  max = nz[0]*nz[0];
-  /* build a vector orthogonal to nz */
-  if (nz[1]*nz[1] > max) { max = nz[1]*nz[1]; d = 1; }
-  if (nz[2]*nz[2] > max) d = 2;
-  switch (d) {
-  case 0: nx[0] = - nz[2]/nz[0]; nx[2] = 1.0; break;
-  case 1: nx[1] = - nz[2]/nz[1]; nx[2] = 1.0; break;
-  case 2: nx[2] = - nz[0]/nz[2]; nx[0] = 1.0; break;
-  }
-  gts_vector_normalize (nx);
-
-  /* build a second vector orthogonal to nx and nz */
-  gts_vector_cross (ny, nz, nx);
-
-  /* transformation matrix from (i,j,k) to (nx, ny, nz) */
-  p->t[0][0] = nx[0]; p->t[0][1] = nx[1]; p->t[0][2] = nx[2];
-  p->t[1][0] = ny[0]; p->t[1][1] = ny[1]; p->t[1][2] = ny[2];
-  p->t[2][0] = nz[0]; p->t[2][1] = nz[1]; p->t[2][2] = nz[2];
-
-# if PARABOLA_SIMPLER
-  p->M = gts_matrix_zero (NULL);
-  p->rhs[0] = p->rhs[1] = p->rhs[2] = 0.;
-# else
-  p->M = gfs_matrix_new (6, 6, sizeof (gdouble));
-  p->rhs[0] = p->rhs[1] = p->rhs[2] = p->rhs[3] = p->rhs[4] = p->rhs[5] = 0.;
-# endif
-#endif /* 3D */
-}
-
-static void parabola_fit_add (ParabolaFit * p, GtsVector m, gdouble w)
-{
-#if FTT_2D
-  gdouble x1 = m[0] - p->o[0];
-  gdouble y1 = m[1] - p->o[1];
-  gdouble x = p->m[1]*x1 - p->m[0]*y1;
-  gdouble y = p->m[0]*x1 + p->m[1]*y1;
-  gdouble x2 = w*x*x, x3 = x2*x, x4 = x3*x;
-  p->M[0][0] += x4;
-  p->M[1][0] += x3; p->M[1][1] += x2;
-  p->M[2][1] += w*x; p->M[2][2] += w;
-  p->rhs[0] += x2*y;
-  p->rhs[1] += w*x*y;
-  p->rhs[2] += w*y;
-#else /* 3D */
-  gdouble x1 = m[0] - p->o[0];
-  gdouble y1 = m[1] - p->o[1];
-  gdouble z1 = m[2] - p->o[2];
-  gdouble x = p->t[0][0]*x1 + p->t[0][1]*y1 + p->t[0][2]*z1;
-  gdouble y = p->t[1][0]*x1 + p->t[1][1]*y1 + p->t[1][2]*z1;
-  gdouble z = p->t[2][0]*x1 + p->t[2][1]*y1 + p->t[2][2]*z1;
-  gdouble x2 = x*x, x3 = x2*x, x4 = x3*x;
-  gdouble y2 = y*y, y3 = y2*y, y4 = y3*y;
-# if PARABOLA_SIMPLER
-  p->M[0][0] += w*x4;
-  p->M[1][0] += w*x2*y2; p->M[1][1] += w*y4;
-  p->M[2][0] += w*x3*y;  p->M[2][1] += w*x*y3;
-  p->rhs[0] += w*z*x2;   p->rhs[1] += w*z*y2;  p->rhs[2] += w*z*x*y;
-# else
-  p->M[0][0] += w*x4; p->M[1][1] += w*y4; p->M[2][2] += w*x2*y2; 
-  p->M[3][3] += w*x2; p->M[4][4] += w*y2; p->M[5][5] += w;
-  p->M[0][2] += w*x3*y; p->M[0][3] += w*x3; p->M[0][4] += w*x2*y;
-  p->M[1][2] += w*x*y3; p->M[1][3] += w*x*y2; p->M[1][4] += w*y3;
-  p->M[2][5] += w*x*y;
-  p->M[3][5] += w*x;
-  p->M[4][5] += w*y;
-  p->rhs[0] += w*x2*z; p->rhs[1] += w*y2*z; p->rhs[2] += w*x*y*z;
-  p->rhs[3] += w*x*z; p->rhs[4] += w*y*z; p->rhs[5] += w*z;
-# endif
-#endif /* 3D */
-}
-
-static void parabola_fit_solve (ParabolaFit * p)
-{
-#if FTT_2D
-  p->M[0][1] = p->M[1][0];
-  p->M[0][2] = p->M[2][0] = p->M[1][1];
-  p->M[1][2] = p->M[2][1];
-  GtsMatrix * M = gts_matrix3_inverse ((GtsMatrix *) p->M);
-  if (M) {
-    p->a[0] = M[0][0]*p->rhs[0] + M[0][1]*p->rhs[1] + M[0][2]*p->rhs[2];
-    p->a[1] = M[1][0]*p->rhs[0] + M[1][1]*p->rhs[1] + M[1][2]*p->rhs[2];
-    gts_matrix_destroy (M);
-  }
-  else /* this may be a degenerate/isolated interface fragment */
-    p->a[0] = p->a[1] = 0.;
-#else /* 3D */
-# if PARABOLA_SIMPLER
-  p->M[0][1] = p->M[1][0]; p->M[0][2] = p->M[2][0];
-  p->M[1][2] = p->M[2][1]; p->M[2][2] = p->M[1][0];
-  GtsMatrix * M = gts_matrix3_inverse ((GtsMatrix *) p->M);
-  if (M) {
-    p->a[0] = M[0][0]*p->rhs[0] + M[0][1]*p->rhs[1] + M[0][2]*p->rhs[2];
-    p->a[1] = M[1][0]*p->rhs[0] + M[1][1]*p->rhs[1] + M[1][2]*p->rhs[2];
-    p->a[2] = M[2][0]*p->rhs[0] + M[2][1]*p->rhs[1] + M[2][2]*p->rhs[2];
-    gts_matrix_destroy (M);
-  }
-  else /* this may be a degenerate/isolated interface fragment */
-    p->a[0] = p->a[1] = p->a[2] = 0.;
-# else
-  p->M[0][1] = p->M[2][2]; p->M[0][5] = p->M[3][3];
-  p->M[1][5] = p->M[4][4];
-  p->M[2][3] = p->M[0][4]; p->M[2][4] = p->M[1][3];
-  p->M[3][4] = p->M[2][5];
-  guint i, j;
-  for (i = 1; i < 6; i++)
-    for (j = 0; j < i; j++)
-      p->M[i][j] = p->M[j][i];
-  if (gfs_matrix_inverse (p->M, 6, 1e-10)) {
-    for (i = 0; i < 6; i++) {
-      p->a[i] = 0.;
-      for (j = 0; j < 6; j++)
-	p->a[i] += p->M[i][j]*p->rhs[j];
-    }
-  }
-  else { /* this may be a degenerate/isolated interface fragment */
-    g_warning ("singular matrix");
-    p->a[0] = p->a[1] = p->a[2] = 0.;
-  }
-# endif
-#endif /* 3D */
-}
-
-static gdouble parabola_fit_curvature (ParabolaFit * p, gdouble kappamax,
-				       gdouble * kmax)
-{
-  gdouble kappa;
-#if FTT_2D
-  gdouble dnm = 1. + p->a[1]*p->a[1];
-  kappa = 2.*p->a[0]/sqrt (dnm*dnm*dnm);
-  if (kmax)
-    *kmax = fabs (kappa);
-#else /* 3D */
-  gdouble hxx = 2.*p->a[0];
-  gdouble hyy = 2.*p->a[1];
-  gdouble hxy = p->a[2];
-  gdouble hx, hy;
-# if PARABOLA_SIMPLER
-  hx = hy = 0.;
-# else
-  hx = p->a[3];
-  hy = p->a[4];
-# endif
-  gdouble dnm = 1. + hx*hx + hy*hy;
-  kappa = (hxx + hyy + hxx*hy*hy + hyy*hx*hx - 2.*hxy*hx*hy)/sqrt (dnm*dnm*dnm);
-  if (kmax) {
-    gdouble kg = (hxx*hyy - hxy*hxy)/(dnm*dnm);
-    gdouble a = kappa*kappa/4. - kg;
-    *kmax = fabs (kappa/2.);
-    if (a >= 0.)
-      *kmax += sqrt (a);
-  }
-#endif /* 3D */
-  if (fabs (kappa) > kappamax) {
-    if (kmax)
-      *kmax = kappamax;
-    return kappa > 0. ? kappamax : - kappamax;
-  }
-  return kappa;
-}
-
-#if FTT_2D
-static void parabola_fit_axi_curvature (const ParabolaFit * p, gdouble r, 
-					gdouble * kappa, gdouble * kmax)
-{
-  gdouble nr = (p->m[0]*p->a[1] + p->m[1])/sqrt (1. + p->a[1]*p->a[1]);
-  gdouble kaxi = - nr/r;
-  *kappa += kaxi;
-  if (kmax)
-    *kmax = MAX (*kmax, fabs (kaxi));
-}
-#endif /* 2D */
-
-static void parabola_fit_destroy (ParabolaFit * p)
-{
-#if (FTT_2D || PARABOLA_SIMPLER)
-  gts_matrix_destroy (p->M);
-#else
-  gfs_matrix_free (p->M);
-#endif
-}
-
-static void add_vof_center (FttCell * cell, FttVector * p, guint level,
-			    FttVector * origin,
-			    GfsVariableTracerVOF * t,
-			    ParabolaFit * fit, gdouble w)
-{
-  gdouble f = GFS_VALUE (cell, GFS_VARIABLE1 (t));
-  if (!GFS_IS_FULL (f)) {
-    FttVector m, c;
-    gdouble alpha = gfs_vof_plane_interpolate (cell, p, level, t, &m);
-    gdouble area = gfs_plane_area_center (&m, alpha, &c);
-    gdouble h = ftt_level_size (level);
-    FttComponent i;
-    for (i = 0; i < FTT_DIMENSION; i++)
-      (&c.x)[i] = ((&p->x)[i] - (&origin->x)[i])/h + (&c.x)[i] - 0.5;
-    parabola_fit_add (fit, &c.x, w*area);
-  }
-}
-
-static void fit_from_fractions (FttCell * cell, GfsVariable * v, ParabolaFit * fit)
-{
-  gdouble h = ftt_cell_size (cell);
-  guint level = ftt_cell_level (cell);
-  gint x, y, z = 0;
-  FttVector p;
-  
-  ftt_cell_pos (cell, &p);
-#if !FTT_2D
-  for (z = -1; z <= 1; z++)
-#endif
-    for (x = -1; x <= 1; x++)
-      for (y = -1; y <= 1; y++)
-	if (x != 0 || y != 0 || z != 0) {
-	  FttVector o;
-	  o.x = p.x + h*x; o.y = p.y + h*y; o.z = p.z + h*z;
-	  FttCell * neighbor = gfs_domain_boundary_locate (v->domain, o, level, NULL);
-	  if (neighbor)
-	    add_vof_center (neighbor, &o, level, &p, GFS_VARIABLE_TRACER_VOF (v),
-			    fit, 1.);
-	}
-}
-
-/**
- * gfs_fit_curvature:
- * @cell: a #FttCell containing an interface.
- * @v: a #GfsVariableTracerVOF.
- * @kmax: a pointer or %NULL. 
- *
- * Computes an approximation of the curvature of the interface
- * contained in @cell using paraboloid fitting of the centroids of the
- * reconstructed interface segments.
- *
- * If @kmax is not %NULL, it is filled with the absolute value of the
- * maximum surface curvature (note that in 2D this is just the absolute value of
- * the mean curvature).
- *
- * Returns: (double in 3D) the mean curvature of the interface contained in @cell.
- */
-gdouble gfs_fit_curvature (FttCell * cell, GfsVariableTracerVOF * t, gdouble * kmax)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (t != NULL, 0.);
-
-  GfsVariable * v = GFS_VARIABLE1 (t);
-  g_return_val_if_fail (!GFS_IS_FULL (GFS_VALUE (cell,  v)), 0.);
-
-  FttVector m;
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&m.x)[c] = GFS_VALUE (cell, t->m[c]);
-
-  ParabolaFit fit;
-  FttVector p, fc;
-  ftt_cell_pos (cell, &p);
-  gdouble area = gfs_vof_center (cell, t, &fc);
-  gdouble h = ftt_cell_size (cell);
-  fc.x = (fc.x - p.x)/h;
-  fc.y = (fc.y - p.y)/h;
-  fc.z = (fc.z - p.z)/h;
-  parabola_fit_init (&fit, &fc, &m);
-  parabola_fit_add (&fit, &fc.x, area);
-  fit_from_fractions (cell, GFS_VARIABLE1 (t), &fit);
-  parabola_fit_solve (&fit);
-  gdouble kappa = parabola_fit_curvature (&fit, 2., kmax)/h;
-  if (kmax)
-    *kmax /= h;
-#if FTT_2D
-  if (GFS_IS_AXI (v->domain))
-    parabola_fit_axi_curvature (&fit, fc.y*h + p.y, &kappa, kmax);
-#endif
-  parabola_fit_destroy (&fit);
-  return kappa;
-}
-
-#if FTT_2D
-# define NI 3
-#else
-# define NI 9
-#endif
-
-static void orientation (FttVector * m, FttComponent * c)
-{
-  FttComponent i, j;
-  for (i = 0; i < FTT_DIMENSION; i++)
-    c[i] = i;
-  for (i = 0; i < FTT_DIMENSION - 1; i++)
-    for (j = 0; j < FTT_DIMENSION - 1 - i; j++)
-      if (fabs ((&m->x)[c[j + 1]]) > fabs ((&m->x)[c[j]])) {
-	FttComponent tmp = c[j];
-	c[j] = c[j + 1];
-	c[j + 1] = tmp;
-      }
-}
-
-static guint independent_positions (GtsVector * interface, guint n)
-{
-  if (n < 2)
-    return n;
-
-  guint j, ni = 1;
-  for (j = 1; j < n; j++) {
-    guint i;
-    gboolean depends = FALSE;
-    for (i = 0; i < j && !depends; i++) {
-      gdouble d2 = 0.;
-      FttComponent c;
-      for (c = 0; c < FTT_DIMENSION; c++)
-	d2 += (interface[i][c] - interface[j][c])*(interface[i][c] - interface[j][c]);
-      depends = d2 < 0.5*0.5;
-    }
-    ni += !depends;
-  }
-  return ni;
-}
-
-/**
- * gfs_height_curvature:
- * @cell: a #FttCell containing an interface.
- * @v: a #GfsVariableTracerVOF.
- * @kmax: a pointer or %NULL.
- *
- * An implementation of the Height-Function (HF) method generalised to
- * adaptive meshes.
- *
- * If @kmax is not %NULL, it is filled with the absolute value of the
- * maximum surface curvature (note that in 2D this is just the absolute value of
- * the mean curvature).
- *
- * Returns: (double in 3D) the mean curvature of the interface contained in @cell.
- */
-gdouble gfs_height_curvature (FttCell * cell, GfsVariableTracerVOF * t, gdouble * kmax)
-{
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (t != NULL, 0.);
-
-  GfsVariable * v = GFS_VARIABLE1 (t);
-  gdouble f = GFS_VALUE (cell,  v);
-  g_return_val_if_fail (!GFS_IS_FULL (f), 0.);
-
-  FttVector m;
-  FttComponent c;
-  for (c = 0; c < FTT_DIMENSION; c++)
-    (&m.x)[c] = GFS_VALUE (cell, t->m[c]);
-
-  FttComponent try[FTT_DIMENSION];
-  orientation (&m, try); /* sort directions according to normal */
-
-  gdouble kappa = 0.;
-  GtsVector interface[FTT_DIMENSION*NI];
-  guint n = 0;
-  for (c = 0; c < FTT_DIMENSION; c++) /* try each direction */
-    if (curvature_along_direction (cell, t, try[c], &kappa, kmax, interface, &n))
-      return kappa;
-
-  /* Could not compute curvature from the simple algorithm along any direction:
-   * Try parabola fitting of the collected interface positions */
-
-  if (independent_positions (interface, n) < 3*(FTT_DIMENSION - 1))
-    return G_MAXDOUBLE;
-
-  gdouble h = ftt_cell_size (cell);
-  ParabolaFit fit;
-  guint j;
-  
-  FttVector p, fc;
-  ftt_cell_pos (cell, &p);
-  gdouble area = gfs_vof_center (cell, t, &fc);
-  fc.x = (fc.x - p.x)/h;
-  fc.y = (fc.y - p.y)/h;
-  fc.z = (fc.z - p.z)/h;
-  parabola_fit_init (&fit, &fc, &m);
-#if FTT_2D
-  parabola_fit_add (&fit, &fc.x, PARABOLA_FIT_CENTER_WEIGHT);
-#elif !PARABOLA_SIMPLER
-  parabola_fit_add (&fit, &fc.x, area*100.);
-#endif
-  for (j = 0; j < n; j++)
-    parabola_fit_add (&fit, interface[j], 1.);
-  parabola_fit_solve (&fit);
-  kappa = parabola_fit_curvature (&fit, 2., kmax)/h;
-  if (kmax)
-    *kmax /= h;
-#if FTT_2D
-  if (GFS_IS_AXI (v->domain))
-    parabola_fit_axi_curvature (&fit, fc.y*h + p.y, &kappa, kmax);
-#endif
-  parabola_fit_destroy (&fit);
-  return kappa;
-}
-
-/**
- * gfs_vof_correctness:
- * @cell: a #FttCell.
- * @t: a #GfsVariableTracerVOF.
- *
- * An implementation of the criterion of Cerne et al (2002), to
- * measure how well an interface is represented by a local VOF field.
- *
- * Returns: the "correctness" of the interface representation.
- */
-gdouble gfs_vof_correctness (FttCell * cell, GfsVariableTracerVOF * t)
-{
-  GfsVariable * v = GFS_VARIABLE1 (t);
-  gdouble F(3,3,3);
-  
-  g_return_val_if_fail (cell != NULL, 0.);
-  g_return_val_if_fail (t != NULL, 0.);
-
-  if (GFS_VALUE (cell, v) <= 0. || GFS_VALUE (cell, v) >= 1.)
-    return 1.;
-
-  stencil (cell, v, f);
-#if FTT_2D
-  gdouble dx = f[2][0] + f[2][1] + f[2][2] - f[0][0] - f[0][1] - f[0][2];
-  gdouble dy = f[0][2] + f[1][2] + f[2][2] - f[0][0] - f[1][0] - f[2][0];
-  return sqrt ((dx*dx + dy*dy)/9.);
-#else
-  gdouble dx = (f[2][0][0] + f[2][1][0] + f[2][2][0] - f[0][0][0] - f[0][1][0] - f[0][2][0] +
-		f[2][0][1] + f[2][1][1] + f[2][2][1] - f[0][0][1] - f[0][1][1] - f[0][2][1] +
-		f[2][0][2] + f[2][1][2] + f[2][2][2] - f[0][0][2] - f[0][1][2] - f[0][2][2]);
-  gdouble dy = (f[0][2][0] + f[1][2][0] + f[2][2][0] - f[0][0][0] - f[1][0][0] - f[2][0][0] +
-		f[0][2][1] + f[1][2][1] + f[2][2][1] - f[0][0][1] - f[1][0][1] - f[2][0][1] +
-		f[0][2][2] + f[1][2][2] + f[2][2][2] - f[0][0][2] - f[1][0][2] - f[2][0][2]);
-  gdouble dz = (f[0][0][2] + f[1][0][2] + f[2][0][2] - f[0][0][0] - f[1][0][0] - f[2][0][0] +
-		f[0][1][2] + f[1][1][2] + f[2][1][2] - f[0][1][0] - f[1][1][0] - f[2][1][0] +
-		f[0][2][2] + f[1][2][2] + f[2][2][2] - f[0][2][0] - f[1][2][0] - f[2][2][0]);  
-  return sqrt ((dx*dx + dy*dy + dz*dz)/27.);
-#endif
-}
diff --git a/src/vof.h b/src/vof.h
deleted file mode 100644
index b54b788..0000000
--- a/src/vof.h
+++ /dev/null
@@ -1,121 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __VOF_H__
-#define __VOF_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "advection.h"
-#include "variable.h"
-
-#define GFS_IS_FULL(f)             ((f) == 0. || (f) == 1.)
-
-gdouble gfs_line_area              (const FttVector * m, 
-				    gdouble alpha);
-void    gfs_line_center            (const FttVector * m, 
-				    gdouble alpha, 
-				    gdouble a, 
-				    FttVector * p);
-gdouble gfs_line_area_center       (const FttVector * m, 
-				    gdouble alpha, 
-				    FttVector * p);
-gdouble gfs_line_alpha             (const FttVector * m, 
-				    gdouble c);
-#if FTT_2D
-#  define gfs_plane_volume         gfs_line_area
-#  define gfs_plane_alpha          gfs_line_alpha
-#  define gfs_plane_center         gfs_line_center
-#  define gfs_plane_area_center     gfs_line_area_center
-#else /* 3D */
-gdouble gfs_plane_volume           (const FttVector * m, 
-				    gdouble alpha);
-gdouble gfs_plane_alpha            (const FttVector * m, 
-				    gdouble c);
-void    gfs_plane_center           (const FttVector * m, 
-				    gdouble alpha, 
-				    gdouble a,
-				    FttVector * p);
-gdouble gfs_plane_area_center      (const FttVector * m, 
-				    gdouble alpha, 
-				    FttVector * p);
-#endif /* 3D */
-void    gfs_youngs_gradient        (FttCell * cell, 
-				    GfsVariable * v,
-				    FttVector * g);
-
-/* GfsVariableTracerVOF: header */
-
-typedef struct _GfsVariableTracerVOF                GfsVariableTracerVOF;
-
-struct _GfsVariableTracerVOF {
-  /*< private >*/
-  GfsVariableTracer parent;
-
-  /*< public >*/
-  GfsVariable * m[FTT_DIMENSION], * alpha;
-};
-
-#define GFS_VARIABLE_TRACER_VOF(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsVariableTracerVOF,\
-					           gfs_variable_tracer_vof_class ())
-#define GFS_IS_VARIABLE_TRACER_VOF(obj)         (gts_object_is_from_class (obj,\
-						   gfs_variable_tracer_vof_class ()))
-
-GfsVariableClass * gfs_variable_tracer_vof_class  (void);
-
-void     gfs_tracer_vof_advection  (GfsDomain * domain,
-				    GfsAdvectionParams * par);
-gdouble  gfs_vof_face_value        (const FttCellFace * face, 
-				    GfsVariableTracerVOF * t);
-guint    gfs_vof_facet             (FttCell * cell,
-				    GfsVariableTracerVOF * t,
-				    FttVector * p,
-				    FttVector * m);
-gdouble  gfs_vof_facet_distance2   (FttCell * cell,
-				    GfsVariableTracerVOF * t,
-				    GtsPoint * p);
-gdouble  gfs_vof_center            (FttCell * cell,
-				    GfsVariableTracerVOF * t,
-				    FttVector * p);
-gdouble  gfs_vof_plane_interpolate (FttCell * cell,
-				    FttVector * p,
-				    guint level,
-				    GfsVariableTracerVOF * t,
-				    FttVector * m);
-gdouble  gfs_vof_interpolate       (FttCell * cell,
-				    FttVector * p,
-				    guint level,
-				    GfsVariableTracerVOF * t);
-gdouble  gfs_height_curvature      (FttCell * cell, 
-				    GfsVariableTracerVOF * t,
-				    gdouble * kmax);
-gdouble  gfs_fit_curvature         (FttCell * cell,
-				    GfsVariableTracerVOF * t,
-				    gdouble * kmax);
-gdouble  gfs_vof_correctness       (FttCell * cell, 
-				    GfsVariableTracerVOF * t);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __VOF_H__ */
diff --git a/src/wave.c b/src/wave.c
deleted file mode 100644
index 05c61c3..0000000
--- a/src/wave.c
+++ /dev/null
@@ -1,485 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2008 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include "wave.h"
-#include "adaptive.h"
-#include "solid.h"
-
-/* GfsWave: Object */
-
-static double frequency (int ik)
-{
-  double gamma = GFS_WAVE_GAMMA;
-  double f0 = GFS_WAVE_F0;
-  return f0*pow(gamma, ik);
-}
-      
-static double theta (guint ith, guint ntheta)
-{
-  return 2.*M_PI*ith/ntheta;
-}
-
-static void group_velocity (int ik, int ith, FttVector * u, guint ntheta, gdouble g)
-{
-  double cg = g/(4.*M_PI*frequency (ik));
-  u->x = cg*cos (theta (ith, ntheta));
-  u->y = cg*sin (theta (ith, ntheta));
-  u->z = 0.;
-}
-
-static gdouble cell_E (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  GfsWave * wave = GFS_WAVE (domain);
-  GfsVariable *** F = wave->F;
-  guint ik, ith;
-  gdouble E = 0., sigma = 2.*M_PI*GFS_WAVE_F0, sgamma = (GFS_WAVE_GAMMA - 1./GFS_WAVE_GAMMA)/2.;
-  for (ik = 0; ik < wave->nk; ik++) {
-    gdouble df = sigma*sgamma;
-    gdouble dE = 0.;
-    for (ith = 0; ith < wave->ntheta; ith++)
-      dE += GFS_VALUE (cell, F[ik][ith]);
-    E += dE*df;
-    sigma *= GFS_WAVE_GAMMA;
-  }
-  return E*2.*M_PI/wave->ntheta;
-}
-
-static void set_group_velocity (const FttCellFace * face, FttVector * u)
-{
-  GFS_FACE_NORMAL_VELOCITY_RIGHT (face) = 
-    GFS_FACE_NORMAL_VELOCITY_LEFT (face) = (&u->x)[face->d/2];
-}
-
-typedef struct {
-  GfsAdvectionParams * p;
-  GfsVariable * div, * fv;
-} SolidFluxParams;
-
-static void solid_flux (FttCell * cell, SolidFluxParams * par)
-{
-  gfs_normal_divergence (cell, par->div);
-  if (GFS_VALUE (cell, par->div) < 0.) {
-    gdouble h = ftt_cell_size (cell);
-    GFS_VALUE (cell, par->fv) = GFS_VALUE (cell, par->div)*par->p->dt*
-      GFS_VALUE (cell, par->p->v)/(h*h);
-  }
-  else
-    GFS_VALUE (cell, par->fv) = 0.;
-}
-
-typedef struct {
-  GfsVariable * F, * Fn, * dF;
-  gdouble D[2][2];
-} GSEData;
-
-static void compute_gradient (FttCell * cell, GSEData * p)
-{
-  GFS_VALUE (cell, p->dF) = gfs_center_regular_gradient (cell, p->dF->component, p->Fn);
-}
-
-static void diffusion (FttCell * cell, GSEData * p)
-{
-  gdouble h2 = ftt_cell_size (cell);
-  h2 *= h2;
-  /* off-diagonal */
-  FttComponent j;
-  for (j = 0; j < 2; j++)
-    if (j != p->dF->component)
-      GFS_VALUE (cell, p->F) += 
-	p->D[j][p->dF->component]*gfs_center_regular_gradient (cell, j, p->dF)/h2;
-  /* diagonal */
-  GFS_VALUE (cell, p->F) += 
-    p->D[p->dF->component][p->dF->component]*
-    gfs_center_regular_2nd_derivative (cell, p->dF->component, p->Fn)/h2;
-}
-
-static void copy_F (FttCell * cell, GSEData * p)
-{
-  GFS_VALUE (cell, p->Fn) = GFS_VALUE (cell, p->F);
-}
-
-static void gse_alleviation_diffusion (GfsDomain * domain, GfsVariable * F,
-				       FttVector * cg, gdouble dt)
-{
-  gfs_domain_timer_start (domain, "gse_alleviation");
-
-  gdouble ncg = sqrt (cg->x*cg->x + cg->y*cg->y);
-  gdouble dcg = (GFS_WAVE_GAMMA - 1./GFS_WAVE_GAMMA)*ncg/2.;
-  gdouble dtheta = 2.*M_PI/GFS_WAVE (domain)->ntheta;
-#if 0
-  gdouble Ts = 4.*GFS_WAVE (domain)->alpha_s*GFS_WAVE (domain)->alpha_s*dt;
-  gdouble dtDss = dt*dcg*dcg*Ts/12.;
-  gdouble dtDnn = dt*(ncg*dtheta)*(ncg*dtheta)*Ts/12.;
-#else
-  gdouble alpha = GFS_WAVE (domain)->alpha_s*dcg*dt;
-  gdouble beta = GFS_WAVE (domain)->alpha_s*ncg*dtheta*dt;
-  gdouble dtDss = alpha*alpha/3.;
-  gdouble dtDnn = beta*beta/3.;
-#endif
-  GSEData p;
-  gdouble cost = cg->x/ncg, sint = cg->y/ncg;
-  p.D[0][0] = dtDss*cost*cost + dtDnn*sint*sint;
-  p.D[1][1] = dtDss*sint*sint + dtDnn*cost*cost;
-  p.D[0][1] = p.D[1][0] = (dtDss - dtDnn)*cost*sint;
-  p.F = F;
-  p.Fn = gfs_temporary_variable (domain);
-  p.dF = gfs_temporary_variable (domain);
-  gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) copy_F, &p);
-  gfs_domain_cell_traverse (domain, FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			    (FttCellTraverseFunc) p.Fn->fine_coarse, p.Fn);
-  for (p.dF->component = 0; p.dF->component < 2; p.dF->component++) {
-    gfs_domain_cell_traverse (domain,  FTT_PRE_ORDER, FTT_TRAVERSE_ALL, -1,
-			      (FttCellTraverseFunc) compute_gradient, &p);
-    gfs_domain_bc (domain, FTT_TRAVERSE_ALL, -1, p.dF);
-    gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) diffusion, &p);
-  }
-  gts_object_destroy (GTS_OBJECT (p.Fn));
-  gts_object_destroy (GTS_OBJECT (p.dF));
-  gfs_domain_timer_stop (domain, "gse_alleviation");
-}
-
-static void redo_some_events (GfsEvent * event, GfsSimulation * sim)
-{
-  if (GFS_IS_ADAPT (event) || GFS_IS_INIT (event))
-    gfs_event_redo (event, sim);
-}
-
-static void wave_run (GfsSimulation * sim)
-{
-  GfsDomain * domain = GFS_DOMAIN (sim);
-  GfsWave * wave = GFS_WAVE (sim);
-
-  SolidFluxParams par;
-  par.div = gfs_variable_from_name (domain->variables, "P");
-  g_assert (par.div);
-  par.p = &sim->advection_params;
-  par.fv = gfs_temporary_variable (domain);
-
-  gfs_simulation_refine (sim);
-  gfs_simulation_init (sim);
-
-  while (sim->time.t < sim->time.end &&
-	 sim->time.i < sim->time.iend) {
-    gdouble tstart = gfs_clock_elapsed (domain->timer);
-
-    gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);
-
-    /* get global timestep */
-    gfs_domain_face_traverse (domain, FTT_XYZ,
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttFaceTraverseFunc) gfs_face_reset_normal_velocity, NULL);
-    gfs_simulation_set_timestep (sim);
-    gdouble dt = sim->advection_params.dt;
-    gdouble g = sim->physical_params.g/sim->physical_params.L;
-    gdouble tnext = sim->tnext;
-    
-    /* spatial advection */
-    guint ik, ith;
-    for (ik = 0; ik < wave->nk; ik++) {
-      FttVector cg;
-      group_velocity (ik, 0, &cg, wave->ntheta, g);
-      gfs_domain_face_traverse (domain, FTT_XYZ,
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttFaceTraverseFunc) set_group_velocity, &cg);
-      if (wave->alpha_s > 0.) {
-	/* stability criterion for GSE diffusion */
-	gdouble cfl = sim->advection_params.cfl;
-	sim->advection_params.cfl = MIN (cfl, 2./(4.*wave->alpha_s*M_PI/wave->ntheta));
-	/* fixme: this should be:
-	   sim->advection_params.cfl = MIN (cfl, sqrt(3.)/(wave->alpha_s*2.*M_PI/wave->ntheta));
-	*/
-	gfs_simulation_set_timestep (sim);
-	sim->advection_params.cfl = cfl;
-      }
-      else
-	gfs_simulation_set_timestep (sim);
-      /* subcycling */
-      guint n = rint (dt/sim->advection_params.dt);
-      g_assert (fabs (sim->time.t + sim->advection_params.dt*n - tnext) < 1e-12);
-      while (n--) {
-	for (ith = 0; ith < wave->ntheta; ith++) {
-	  FttVector cg;
-	  group_velocity (ik, ith, &cg, wave->ntheta, g);
-	  gfs_domain_face_traverse (domain, FTT_XYZ,
-				    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				    (FttFaceTraverseFunc) set_group_velocity, &cg);
-	  GfsVariable * t = GFS_WAVE (sim)->F[ik][ith];
-	  sim->advection_params.v = t;
-	  gfs_domain_traverse_leaves (domain, (FttCellTraverseFunc) solid_flux, &par);
-	  gfs_tracer_advection_diffusion (domain, &sim->advection_params);
-	  sim->advection_params.fv = par.fv;
-	  gfs_domain_traverse_merged (domain, (GfsMergedTraverseFunc) gfs_advection_update, 
-	  			      &sim->advection_params);
-	  if (wave->alpha_s > 0.)
-	    gse_alleviation_diffusion (domain, t, &cg, sim->advection_params.dt);
-	  gfs_domain_bc (domain, FTT_TRAVERSE_LEAFS, -1, t);
-	  gfs_domain_cell_traverse (domain,
-				    FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-				    (FttCellTraverseFunc) t->fine_coarse, t);
-	}
-	gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) redo_some_events, sim);
-	gfs_simulation_adapt (sim);
-      }
-    }
-
-    sim->advection_params.dt = dt;
-
-    /* source terms */
-    if (wave->source)
-      (* wave->source) (wave);
-
-    sim->time.t = sim->tnext = tnext;
-    sim->time.i++;
-
-    gts_range_add_value (&domain->timestep, gfs_clock_elapsed (domain->timer) - tstart);
-    gts_range_update (&domain->timestep);
-    gts_range_add_value (&domain->size, gfs_domain_size (domain, FTT_TRAVERSE_LEAFS, -1));
-    gts_range_update (&domain->size);
-  }
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gfs_event_do, sim);  
-  gts_container_foreach (GTS_CONTAINER (sim->events), (GtsFunc) gts_object_destroy, NULL);
-  gts_object_destroy (GTS_OBJECT (par.fv));
-}
-
-static void wave_destroy (GtsObject * object)
-{
-  if (GFS_WAVE (object)->F)
-    gfs_matrix_free (GFS_WAVE (object)->F);
-  (* GTS_OBJECT_CLASS (gfs_wave_class ())->parent_class->destroy) (object);
-}
-
-static void wave_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_wave_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsWave * wave = GFS_WAVE (*o);
-  if (fp->type == '{') {
-    GtsFileVariable var[] = {
-      {GTS_UINT,   "nk",      TRUE, &wave->nk},
-      {GTS_UINT,   "ntheta",  TRUE, &wave->ntheta},
-      {GTS_DOUBLE, "alpha_s", TRUE, &wave->alpha_s},
-      {GTS_NONE}
-    };
-    gts_file_assign_variables (fp, var);
-    if (fp->type == GTS_ERROR)
-      return;
-  }
-
-  GfsDomain * domain = GFS_DOMAIN (wave);
-  guint ik, ith;
-  wave->F = gfs_matrix_new (wave->nk, wave->ntheta, sizeof (GfsVariable *));
-  for (ik = 0; ik < wave->nk; ik++)
-    for (ith = 0; ith < wave->ntheta; ith++) {
-      gchar * name = g_strdup_printf ("F%d_%d", ik, ith);
-      gchar * description = g_strdup_printf ("Action density for f = %g Hz and theta = %g degrees",
-					     frequency (ik), theta (ith, wave->ntheta)*180./M_PI);
-      wave->F[ik][ith] = gfs_domain_get_or_add_variable (domain, name, description);
-      g_assert (wave->F[ik][ith]);
-      g_free (name);
-      g_free (description);
-    }
-}
-
-static void wave_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_wave_class ())->parent_class->write) (o, fp);
-
-  GfsWave * wave = GFS_WAVE (o);
-  fprintf (fp, " {\n"
-	   "  nk = %d\n"
-	   "  ntheta = %d\n"
-	   "  alpha_s = %g\n"
-	   "}",
-	   wave->nk, wave->ntheta, wave->alpha_s);
-}
-
-static void gfs_wave_class_init (GfsSimulationClass * klass)
-{
-  GTS_OBJECT_CLASS (klass)->destroy = wave_destroy;
-  GTS_OBJECT_CLASS (klass)->read = wave_read;
-  GTS_OBJECT_CLASS (klass)->write = wave_write;
-  klass->run = wave_run;
-}
-
-static gdouble cell_hs (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  gdouble E = cell_E (cell, face, domain);
-  return E > 0. ? 4.*sqrt (E) : 0.;
-}
-
-static gdouble cell_frequency (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  return frequency (GFS_WAVE (domain)->ik);
-}
-
-static gdouble cell_direction (FttCell * cell, FttCellFace * face, GfsDomain * domain)
-{
-  return theta (GFS_WAVE (domain)->ith, GFS_WAVE (domain)->ntheta);
-}
-
-static void wave_init (GfsWave * wave)
-{
-  wave->nk = 25;
-  wave->ntheta = 24;
-  wave->alpha_s = 0.;
-  /* default for g is acceleration of gravity on Earth with kilometres as
-     spatial units, hours as time units and Hz as frequency units */
-  GFS_SIMULATION (wave)->physical_params.g = 9.81/1000.*3600.;
-
-  GfsAdvectionParams * par = &GFS_SIMULATION (wave)->advection_params;
-  par->gradient = gfs_center_van_leer_gradient;
-  par->flux = gfs_face_advection_flux;
-  par->use_centered_velocity = FALSE;  
-
-  static GfsDerivedVariableInfo derived_variable[] = {
-    { "Hs", "Significant wave height", cell_hs },
-    { "Energy", "Wave energy", cell_E },
-    { "Frequency", "Wave frequency", cell_frequency },
-    { "Direction", "Wave direction (angle)", cell_direction },
-    { NULL, NULL, NULL}
-  };
-  GfsDerivedVariableInfo * v = derived_variable;
-  while (v->name) {
-    g_assert (gfs_domain_add_derived_variable (GFS_DOMAIN (wave), *v));
-    v++;
-  }
-}
-
-GfsSimulationClass * gfs_wave_class (void)
-{
-  static GfsSimulationClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_wave_info = {
-      "GfsWave",
-      sizeof (GfsWave),
-      sizeof (GfsSimulationClass),
-      (GtsObjectClassInitFunc) gfs_wave_class_init,
-      (GtsObjectInitFunc) wave_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_simulation_class ()), &gfs_wave_info);
-  }
-
-  return klass;
-}
-
-/* GfsInitWave: Object */
-
-static void gfs_init_wave_read (GtsObject ** o, GtsFile * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_init_wave_class ())->parent_class->read) (o, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-
-  GfsDomain * domain = GFS_DOMAIN (gfs_object_simulation (*o));
-  if (!GFS_IS_WAVE (domain)) {
-    gts_file_error (fp, "GfsInitWave can only be used within a GfsWave simulation");
-    return;
-  }
-  
-  gfs_function_read (GFS_INIT_WAVE (*o)->d, domain, fp);
-  if (fp->type == GTS_ERROR)
-    return;
-  gfs_function_read (GFS_INIT_WAVE (*o)->hs, domain, fp);
-}
-
-static void gfs_init_wave_write (GtsObject * o, FILE * fp)
-{
-  (* GTS_OBJECT_CLASS (gfs_init_wave_class ())->parent_class->write) (o, fp);
-
-  gfs_function_write (GFS_INIT_WAVE (o)->d, fp);
-  gfs_function_write (GFS_INIT_WAVE (o)->hs, fp);
-}
-
-static void gfs_init_wave_destroy (GtsObject * object)
-{
-  gts_object_destroy (GTS_OBJECT (GFS_INIT_WAVE (object)->d));
-  gts_object_destroy (GTS_OBJECT (GFS_INIT_WAVE (object)->hs));
-
-  (* GTS_OBJECT_CLASS (gfs_init_wave_class ())->parent_class->destroy) (object);
-}
-
-static void init_energy (FttCell * cell, GfsInitWave * event)
-{
-  GfsWave * wave = GFS_WAVE (gfs_object_simulation (event));
-  for (wave->ik = 0; wave->ik < wave->nk; wave->ik++)
-    for (wave->ith = 0; wave->ith < wave->ntheta; wave->ith++)
-      GFS_VALUE (cell, wave->F[wave->ik][wave->ith]) = gfs_function_value (event->d, cell);
-
-  gdouble E = cell_E (cell, NULL, GFS_DOMAIN (wave));
-  if (E > 0.) {
-    gdouble Hs = gfs_function_value (event->hs, cell);
-    gdouble scaling = Hs*Hs/(16.*E);
-    guint ik, ith;
-    for (ik = 0; ik < wave->nk; ik++)
-      for (ith = 0; ith < wave->ntheta; ith++)
-	GFS_VALUE (cell, wave->F[ik][ith]) *= scaling;
-  }
-}
-
-static gboolean gfs_init_wave_event (GfsEvent * event, GfsSimulation * sim)
-{
-  if ((* GFS_EVENT_CLASS (GTS_OBJECT_CLASS (gfs_init_wave_class ())->parent_class)->event) 
-      (event, sim)) {
-    gfs_domain_cell_traverse (GFS_DOMAIN (sim), FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) init_energy, event);
-    return TRUE;
-  }
-  return FALSE;
-}
-
-static void gfs_init_wave_class_init (GfsGenericInitClass * klass)
-{
-  GFS_EVENT_CLASS (klass)->event = gfs_init_wave_event;
-  GTS_OBJECT_CLASS (klass)->read = gfs_init_wave_read;
-  GTS_OBJECT_CLASS (klass)->write = gfs_init_wave_write;
-  GTS_OBJECT_CLASS (klass)->destroy = gfs_init_wave_destroy;
-}
-
-static void gfs_init_wave_init (GfsInitWave * object)
-{
-  object->d = gfs_function_new (gfs_function_class (), 0.);
-  object->hs = gfs_function_new (gfs_function_class (), 0.);
-}
-
-GfsGenericInitClass * gfs_init_wave_class (void)
-{
-  static GfsGenericInitClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_init_wave_info = {
-      "GfsInitWave",
-      sizeof (GfsInitWave),
-      sizeof (GfsGenericInitClass),
-      (GtsObjectClassInitFunc) gfs_init_wave_class_init,
-      (GtsObjectInitFunc) gfs_init_wave_init,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gfs_generic_init_class ()),
-				  &gfs_init_wave_info);
-  }
-
-  return klass;
-}
-
diff --git a/src/wave.h b/src/wave.h
deleted file mode 100644
index 545ebf7..0000000
--- a/src/wave.h
+++ /dev/null
@@ -1,80 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#ifndef __WAVE_H__
-#define __WAVE_H__
-
-#ifdef __cplusplus
-extern "C" {
-#endif /* __cplusplus */
-
-#include "simulation.h"
-
-/* GfsWave: Header */
-
-#define GFS_WAVE_GAMMA 1.1
-#define GFS_WAVE_F0 0.04
-
-typedef struct _GfsWave    GfsWave;
-
-struct _GfsWave {
-  /*< private >*/
-  GfsSimulation parent;
-  guint ik, ith;
-  void (* source) (GfsWave * wave);
-
-  /*< public >*/
-  guint nk, ntheta;
-  gdouble alpha_s;
-  GfsVariable *** F;
-};
-
-#define GFS_WAVE(obj)            GTS_OBJECT_CAST (obj,\
-					           GfsWave,\
-					           gfs_wave_class ())
-#define GFS_IS_WAVE(obj)         (gts_object_is_from_class (obj,\
-							    gfs_wave_class ()))
-
-GfsSimulationClass * gfs_wave_class        (void);
-
-/* GfsInitWave: Header */
-
-typedef struct _GfsInitWave         GfsInitWave;
-
-struct _GfsInitWave {
-  /*< private >*/
-  GfsGenericInit parent;
-
-  /*< public >*/
-  GfsFunction * d, * hs;
-};
-
-#define GFS_INIT_WAVE(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsInitWave,\
-					         gfs_init_wave_class ())
-#define GFS_IS_INIT_WAVE(obj)         (gts_object_is_from_class (obj,\
-						 gfs_init_wave_class ()))
-
-GfsGenericInitClass * gfs_init_wave_class  (void);
-
-#ifdef __cplusplus
-}
-#endif /* __cplusplus */
-
-#endif /* __WAVE_H__ */
diff --git a/test/Makefile.am b/test/Makefile.am
deleted file mode 100644
index 94ac6ea..0000000
--- a/test/Makefile.am
+++ /dev/null
@@ -1,91 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-TESTDIRS = \
-	poisson \
-	circle \
-	dumbell \
-	advection \
-	shear \
-	reynolds \
-	periodic \
-	merging \
-	axi \
-	axiadvection \
-	lid \
-	poiseuille \
-	couette \
-	kinetic \
-	hydrostatic \
-	boundaries \
-	channel \
-	plate \
-	hexagon \
-	strouhal \
-	spurious \
-	capwave \
-	oscillation \
-	geo \
-	waves \
-	nz \
-	parabola \
-	lonlat \
-	cosine
-
-EXTRA_DIST = \
-	template.tex \
-	tests.bib \
-	depend.py \
-	test.py \
-	check.py \
-	gfs2tex \
-	Makefile.deps
-
-TESTS = test.sh
-
-test.sh: $(TESTDIRS)
-	@echo "python -u test.py $(TESTDIRS)" > test.sh
-	@chmod +x test.sh
-
-clean-generic:
-	$(RM) *.dvi *.aux *.log *.toc *.out tests.tex *.pyc test.sh *.bbl *.blg Makefile.deps
-
-DOC = tests
-
-tests: tests.dvi
-	hevea -fix $(DOC).tex
-	imagen -res 500 -extra "pnmscale 0.24" $(DOC)
-	hacha $(DOC).html
-	rm -f $(DOC).html
-	mv -f $(DOC)[0-9][0-9][0-9].png $(DOC)
-##	fixme: the character conversion below is a workaround for a bug in hevea version < 1.09
-	for f in *.html; do konwert iso1-utf8 < $$f > $(DOC)/$$f; rm -f $$f; done
-	cat $(DOC).css ../doc/share/darcs.css > $(DOC)/$(DOC).css
-	sh ../doc/share/fixnav.sh $(DOC)
-	cp -f ../doc/share/contents.png ../doc/share/next.png ../doc/share/prev.png $(DOC)
-	rm -f *_motif.gif $(DOC).h{tml,aux,ind,toc} $(DOC).image.tex $(DOC).css
-	sh ../doc/examples/crossref.sh --url=http://gfs.sourceforge.net/tests/tests $(TESTDIRS)
-	mv references tests
-
-tests.dvi: tests.tex tests.bib
-	latex -interaction=nonstopmode tests.tex > /dev/null 2>&1
-	bibtex tests
-	latex -interaction=nonstopmode tests.tex > /dev/null 2>&1
-	latex -interaction=nonstopmode tests.tex
-
-tests.pdf: tests.dvi
-	dvips -Ppdf -G0 tests.dvi -o tests.ps
-	ps2pdf -sPAPERSIZE=a4 -dMaxSubsetPct=100 -dCompatibilityLevel=1.2 -dSubsetFonts=true -dEmbedAllFonts=true tests.ps tests.pdf
-	rm -f tests.ps
-
-tests.tex: template.tex Makefile.deps
-	rm -r -f tests
-	python gfs2tex $(TESTDIRS)
-	cp -f template.tex tests.tex
-
-Makefile.deps: Makefile depend.py
-	python depend.py $(TESTDIRS) > Makefile.deps
-
--include Makefile.deps
-
-tests.tar.gz: tests $(DOCS)
-	tar czf tests.tar.gz tests $(DOCS)
diff --git a/test/advection/advection.gfs b/test/advection/advection.gfs
deleted file mode 100644
index 9278a23..0000000
--- a/test/advection/advection.gfs
+++ /dev/null
@@ -1,55 +0,0 @@
-# Title: Convergence of the Godunov advection scheme
-#
-# Description:
-#
-# A non-trivial initial tracer distribution is advected by a constant
-# velocity field corresponding to a solid rotation around the center
-# of the domain. The tracer field after one revolution is compared to the
-# initial tracer field to compute the error norms.
-#
-# Figure \ref{error} and \ref{order} illustrate the convergence of the
-# solution with increased resolution. Close to second-order
-# convergence is obtained.
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the error as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh advection.sh advection.gfs
-# Version: 091022
-# Required files: advection.sh error.ref order.ref
-# Generated files: error.eps order.eps
-#
-1 0 GfsAdvection GfsBox GfsGEdge {} {
-  Time { end = 0.785398 }
-  Refine LEVEL
-  VariableTracer T { gradient = gfs_center_gradient }
-  Init {} {
-    T = {
-      double r2 = x*x + y*y; 
-      double coeff = 20. + 20000.*r2*r2*r2*r2;
-      return (1. + cos(20.*x)*cos(20.*y))*exp(-coeff*r2)/2.;
-    }
-  }
-  VariableStreamFunction Psi -4.*(x*x + y*y)
-  OutputErrorNorm { start = end } { awk '{ print LEVEL " " $5 " " $7 " " $9}' } { v = T } {
-    s = {
-      double r2 = x*x + y*y; 
-      double coeff = 20. + 20000.*r2*r2*r2*r2;
-      return (1. + cos(20.*x)*cos(20.*y))*exp(-coeff*r2)/2.;
-    }
-  }
-  OutputScalarSum { istep = 1 } t { v = T }
-}
-GfsBox {}
diff --git a/test/advection/advection.sh b/test/advection/advection.sh
deleted file mode 100644
index 6873106..0000000
--- a/test/advection/advection.sh
+++ /dev/null
@@ -1,65 +0,0 @@
-if ! $donotrun; then
-    rm -f error
-    for level in 4 5 6 7 8; do
-	if sed "s/LEVEL/$level/g" < $1 | \
-	    gerris2D - >> error; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-if awk '
-BEGIN { n = 0 }
-{
-  l[n] = $1; n1[n] = $2; n2[n] = $3; ni[n++] = $4;
-}
-END {
-  for (i = 1; i < n; i++)
-    print l[i] " " log(n1[i-1]/n1[i])/log(2.) " " log(n2[i-1]/n2[i])/log(2.) " " log(ni[i-1]/ni[i])/log(2.);
-}' < error > order; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'error.eps'
-    set xlabel 'Level'
-    set ylabel 'Error norms'
-    set key
-    set logscale y
-    plot 'error.ref' u 1:2 t '1 (ref)' w lp, \
-         'error.ref' u 1:3 t '2 (ref)' w lp, \
-         'error.ref' u 1:4 t 'max (ref)' w lp, \
-         'error' u 1:2 t '1' w lp, \
-         'error' u 1:3 t '2' w lp, \
-         'error' u 1:4 t 'max' w lp
-    set output 'order.eps'
-    set xlabel 'Level'
-    set ylabel 'Order'
-    set key
-    unset logscale
-    set xtics 0,1
-    set ytics 0,1
-    set grid
-    plot [][0:3] 'order.ref' u 1:2 t '1 (ref)' w lp, \
-                 'order.ref' u 1:3 t '2 (ref)' w lp, \
-                 'order.ref' u 1:4 t 'max (ref)' w lp, \
-                 'order' u 1:2 t '1' w lp, \
-                 'order' u 1:3 t '2' w lp, \
-                 'order' u 1:4 t 'max' w lp
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('error',1,4) - Curve('error.ref',1,4)).max() > 1e-6:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/advection/error.ref b/test/advection/error.ref
deleted file mode 100644
index 6f0b1da..0000000
--- a/test/advection/error.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-4 3.385e-02 6.498e-02 2.842e-01
-5 1.810e-02 3.538e-02 1.643e-01
-6 4.505e-03 8.779e-03 4.327e-02
-7 8.661e-04 1.674e-03 8.888e-03
-8 1.809e-04 3.580e-04 1.916e-03
diff --git a/test/advection/order.ref b/test/advection/order.ref
deleted file mode 100644
index c985201..0000000
--- a/test/advection/order.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-5 0.903166 0.877062 0.790574
-6 2.00639 2.01081 1.92489
-7 2.37892 2.39076 2.28344
-8 2.25934 2.22527 2.21376
diff --git a/test/axi/axi.gfs b/test/axi/axi.gfs
deleted file mode 100644
index 17d5052..0000000
--- a/test/axi/axi.gfs
+++ /dev/null
@@ -1,68 +0,0 @@
-# Title: Potential flow around a sphere
-#
-# Description:
-#
-# The axisymmetric potential flow around a sphere is computed (Figure
-# \ref{isolines}) and compared to the theoretical solution
-# \cite{lamb}. A large domain is used together with variable spatial
-# resolution to minimise the influence of the finite domain size.
-#
-# Figure \ref{error} and \ref{order} illustrate the convergence of the
-# solution for the horizontal component of velocity with increased
-# resolution.
-#
-# \begin{figure}[htbp]
-# \caption{\label{isolines}Isolines of the velocity components ($x$ in red, $y$ in blue).}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{isolines.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the error as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh axi.sh axi.gfs
-# Version: 1.3.0
-# Required files: axi.sh error.ref order.ref isolines.gfv
-# Generated files: error.eps order.eps isolines.eps
-#
-1 0 GfsAxi GfsBox GfsGEdge {} {
-    Time { end = 0 }
-    PhysicalParams { L = 50 }
-    AdvectionParams { scheme = none }
-    ApproxProjectionParams { tolerance = 1e-10 }
-    Refine 4
-    Refine (LEVEL + 1./50.*(x*x + y*y)*(4. - LEVEL))
-    Global {
-	#define A0 0.5
-	#define U0 1.
-    }
-    Solid (ellipse (0., 0., A0, A0))
-    Init {} {
-	U = U0
-	Phi = {
-	    double r = sqrt (cx*cx + cy*cy);
-	    return U0*A0*A0*A0*cx/(2.*r*r*r);
-	}
-    }
-    OutputErrorNorm { start = end } { awk '{ print LEVEL " " $7 " " $9}' } { v = U } {
- 	s = (dx("Phi") + 1.)
-    }
-    OutputSimulation { start = end } sim-LEVEL.gfs
-}
-GfsBox {
-    left = Boundary { BcDirichlet U U0 }
-    right = Boundary { BcDirichlet U U0 }
-}
diff --git a/test/axi/axi.sh b/test/axi/axi.sh
deleted file mode 100644
index 11be029..0000000
--- a/test/axi/axi.sh
+++ /dev/null
@@ -1,66 +0,0 @@
-if ! $donotrun; then
-    rm -f error
-    for level in 10 11 12 13; do
-	if sed "s/LEVEL/$level/g" < $1 | \
-	    gerris2D - >> error; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-if echo "Save isolines.eps { format = EPS }" | gfsview-batch2D sim-13.gfs isolines.gfv; then :
-else
-    exit 1
-fi
-
-if awk '
-BEGIN { n = 0 }
-{
-  l[n] = $1; n2[n] = $2; ni[n++] = $3;
-}
-END {
-  for (i = 1; i < n; i++)
-    print l[i] " " log(n2[i-1]/n2[i])/log(2.) " " log(ni[i-1]/ni[i])/log(2.);
-}' < error > order; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'error.eps'
-    set xlabel 'Level'
-    set ylabel 'Error norms'
-    set key
-    set logscale y
-    plot 'error.ref' u 1:2 t '2 (ref)' w lp, \
-         'error.ref' u 1:3 t 'max (ref)' w lp, \
-         'error' u 1:2 t '2' w lp, \
-         'error' u 1:3 t 'max' w lp
-    set output 'order.eps'
-    set xlabel 'Level'
-    set ylabel 'Order'
-    set key
-    unset logscale
-    set xtics 0,1
-    set ytics 0,1
-    set grid
-    plot [][0:2] 'order.ref' u 1:2 t '2 (ref)' w lp, \
-                 'order.ref' u 1:3 t 'max (ref)' w lp, \
-                 'order' u 1:2 t '2' w lp, \
-                 'order' u 1:3 t 'max' w lp
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('error',1,3) - Curve('error.ref',1,3)).max() > 1e-5:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/axi/error.ref b/test/axi/error.ref
deleted file mode 100644
index 3ce9c93..0000000
--- a/test/axi/error.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-10 1.102e-04 1.210e-01
-11 3.994e-05 5.267e-02
-12 1.418e-05 2.793e-02
-13 5.068e-06 1.466e-02
diff --git a/test/axi/isolines.gfv b/test/axi/isolines.gfv
deleted file mode 100644
index 8051ad4..0000000
--- a/test/axi/isolines.gfv
+++ /dev/null
@@ -1,58 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 0.955076
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 1 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} U {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 10
-}
-Isoline {
-  r = 0 g = 0.0160678 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} V {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 10
-}
-Symmetry {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 1 n.z = 0
-  pos = 0
-}
-Solid {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
diff --git a/test/axi/order.ref b/test/axi/order.ref
deleted file mode 100644
index 273bbb2..0000000
--- a/test/axi/order.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-11 1.46422 1.19995
-12 1.49398 0.915166
-13 1.48437 0.92993
diff --git a/test/axi/viscous/Re-12 b/test/axi/viscous/Re-12
deleted file mode 100644
index 4094da1..0000000
--- a/test/axi/viscous/Re-12
+++ /dev/null
@@ -1,12 +0,0 @@
-20 100 0.00601338 0.00214903
-30 100 0.144321 -1.54293e-05
-40 100 0.281624 0.000964816
-50 100 0.405324 2.30829e-05
-60 100 0.51502 2.97476e-05
-80 22.7 0.703601 0.000283994
-100 28.1 0.86826 -0.00022001
-120 31.4 1.01188 -1.2337e-05
-150 31.5 1.19646 -6.03988e-05
-200 36.2 1.44074 -6.93522e-05
-250 76 1.62679 -2.93692e-06
-300 100 1.76844 -1.06835e-07
diff --git a/test/axi/viscous/blanco-1995 b/test/axi/viscous/blanco-1995
deleted file mode 100644
index d341ff4..0000000
--- a/test/axi/viscous/blanco-1995
+++ /dev/null
@@ -1,4 +0,0 @@
-20.0453 0
-38.4509 0.46092
-70.6662 1.22222
-99.8764 1.72006
diff --git a/test/axi/viscous/cp-12-200 b/test/axi/viscous/cp-12-200
deleted file mode 100644
index e173896..0000000
--- a/test/axi/viscous/cp-12-200
+++ /dev/null
@@ -1,162 +0,0 @@
-0.0122082 1.03596
-0.036632 1.03337
-0.0610778 1.02801
-0.08556 1.01973
-0.110094 1.00848
-0.134694 0.994156
-0.159377 0.97694
-0.184158 0.963758
-0.206752 0.95857
-0.219232 0.956152
-0.234084 0.941808
-0.259263 0.90893
-0.284612 0.879878
-0.303968 0.867636
-0.316787 0.86038
-0.335899 0.834982
-0.361881 0.79477
-0.378716 0.777
-0.391904 0.765906
-0.414648 0.733718
-0.435666 0.70047
-0.449168 0.686672
-0.468673 0.657964
-0.489793 0.621894
-0.503675 0.60358
-0.52422 0.569548
-0.542272 0.533592
-0.556615 0.51391
-0.579278 0.479456
-0.593887 0.455112
-0.611131 0.426434
-0.630019 0.387948
-0.645253 0.36276
-0.665318 0.328058
-0.680918 0.298664
-0.700022 0.264834
-0.716033 0.235808
-0.734326 0.203932
-0.7508 0.174536
-0.768399 0.143297
-0.785398 0.113224
-0.802397 0.0835276
-0.819997 0.0534478
-0.83647 0.0237254
-0.854763 -0.00820992
-0.870775 -0.0372544
-0.889878 -0.0703106
-0.905479 -0.0983104
-0.925544 -0.129695
-0.940778 -0.150842
-0.959665 -0.183019
-0.976909 -0.207078
-0.991519 -0.230668
-1.01418 -0.26238
-1.02852 -0.278202
-1.04658 -0.308696
-1.06712 -0.337024
-1.081 -0.351164
-1.10212 -0.378892
-1.12163 -0.399754
-1.13513 -0.40825
-1.15615 -0.4347
-1.17889 -0.458974
-1.19208 -0.46304
-1.20891 -0.470916
-1.2349 -0.50155
-1.25401 -0.519646
-1.26683 -0.51963
-1.28618 -0.519728
-1.31153 -0.537734
-1.33671 -0.561508
-1.35156 -0.56906
-1.36404 -0.564762
-1.38664 -0.555342
-1.41142 -0.554992
-1.4361 -0.561374
-1.4607 -0.564578
-1.48524 -0.565088
-1.50972 -0.563096
-1.53416 -0.558486
-1.55859 -0.551548
-1.583 -0.542996
-1.60743 -0.533548
-1.63187 -0.523638
-1.65636 -0.513396
-1.68089 -0.502784
-1.70549 -0.49173
-1.73017 -0.480044
-1.75495 -0.46499
-1.77755 -0.450128
-1.79003 -0.443966
-1.80488 -0.437696
-1.83006 -0.427432
-1.85541 -0.414374
-1.87476 -0.40278
-1.88758 -0.396722
-1.90669 -0.388444
-1.93268 -0.376222
-1.94951 -0.367008
-1.9627 -0.36128
-1.98544 -0.351782
-2.00646 -0.342482
-2.01996 -0.337486
-2.03947 -0.329846
-2.06059 -0.320994
-2.07447 -0.316432
-2.09502 -0.309344
-2.11307 -0.302192
-2.12741 -0.297794
-2.15007 -0.291136
-2.16468 -0.287044
-2.18193 -0.28244
-2.20081 -0.276632
-2.21605 -0.272968
-2.23611 -0.268362
-2.25171 -0.264858
-2.27082 -0.260936
-2.28683 -0.25778
-2.30512 -0.254544
-2.3216 -0.251754
-2.3392 -0.249158
-2.35619 -0.246772
-2.37319 -0.2446
-2.39079 -0.242494
-2.40727 -0.24068
-2.42556 -0.238842
-2.44157 -0.23724
-2.46067 -0.235464
-2.47627 -0.233902
-2.49634 -0.232184
-2.51157 -0.231044
-2.53046 -0.229146
-2.54771 -0.22774
-2.56232 -0.226114
-2.58498 -0.22391
-2.59932 -0.222744
-2.61737 -0.21986
-2.63792 -0.217012
-2.6518 -0.21531
-2.67292 -0.211322
-2.69242 -0.208046
-2.70593 -0.206326
-2.72694 -0.20112
-2.74969 -0.196002
-2.76288 -0.194366
-2.77971 -0.191118
-2.80569 -0.18289
-2.82481 -0.177534
-2.83762 -0.176016
-2.85698 -0.173063
-2.88233 -0.165418
-2.90751 -0.156343
-2.92236 -0.152274
-2.93484 -0.151542
-2.95743 -0.14985
-2.98222 -0.14547
-3.0069 -0.139639
-3.0315 -0.134555
-3.05603 -0.130407
-3.08051 -0.127268
-3.10496 -0.125194
-3.12938 -0.124181
diff --git a/test/axi/viscous/fadlun b/test/axi/viscous/fadlun
deleted file mode 100644
index 7d3dee7..0000000
--- a/test/axi/viscous/fadlun
+++ /dev/null
@@ -1,10 +0,0 @@
-#x Fadlun
-25.1277 0.0820564
-30.2905 0.141539
-39.8675 0.297622
-50.1931 0.416587
-59.7792 0.535541
-75.2714 0.699138
-79.7001 0.736332
-199.284 1.70345
-498.74 2.10889
diff --git a/test/axi/viscous/fadlun-cp-100 b/test/axi/viscous/fadlun-cp-100
deleted file mode 100644
index 738f6e7..0000000
--- a/test/axi/viscous/fadlun-cp-100
+++ /dev/null
@@ -1,100 +0,0 @@
-0.00650221 1.09141
-0.0402099 1.09138
-0.0708118 1.08118
-0.101414 1.07099
-0.138103 1.05063
-0.177828 1.0235
-0.226719 0.989586
-0.269482 0.955678
-0.30606 0.908232
-0.345717 0.86417
-0.379286 0.830272
-0.421938 0.769275
-0.440213 0.742167
-0.470691 0.7015
-0.49809 0.657451
-0.516365 0.630343
-0.531576 0.603237
-0.549851 0.576129
-0.726338 0.271189
-0.741535 0.240698
-0.750631 0.216986
-0.768907 0.189877
-0.784118 0.162772
-0.802393 0.135663
-0.81759 0.105172
-0.835865 0.0780634
-0.893687 -0.020196
-0.951522 -0.115069
-0.969797 -0.142178
-0.988072 -0.169287
-1.00328 -0.196392
-1.02464 -0.220118
-1.06726 -0.287886
-1.1069 -0.335335
-1.12826 -0.359061
-1.20452 -0.443797
-1.22895 -0.464141
-1.25033 -0.481095
-1.29918 -0.525168
-1.32672 -0.535357
-1.35426 -0.545547
-1.3787 -0.562504
-1.40933 -0.565925
-1.43073 -0.579493
-1.45214 -0.589675
-1.46744 -0.593078
-1.49807 -0.596499
-1.51034 -0.593127
-1.541 -0.589775
-1.56553 -0.586417
-1.59616 -0.589838
-1.62072 -0.579707
-1.65135 -0.583128
-1.67895 -0.576387
-1.70659 -0.562874
-1.73727 -0.552751
-1.74648 -0.549375
-1.77409 -0.542634
-1.80172 -0.529122
-1.86004 -0.505485
-1.90917 -0.481839
-1.9368 -0.468326
-1.95831 -0.454806
-1.98286 -0.444676
-2.00742 -0.434546
-2.03197 -0.424415
-2.05347 -0.414282
-2.0811 -0.400769
-2.10872 -0.390642
-2.13635 -0.377129
-2.16705 -0.36362
-2.19466 -0.356879
-2.22229 -0.343366
-2.24684 -0.336622
-2.27752 -0.326498
-2.30514 -0.316371
-2.33276 -0.306245
-2.36037 -0.299504
-2.38799 -0.289377
-2.41866 -0.28264
-2.4432 -0.275895
-2.47387 -0.269158
-2.50148 -0.262417
-2.53215 -0.25568
-2.55976 -0.248939
-2.5843 -0.242194
-2.61189 -0.23884
-2.75911 -0.208532
-2.78669 -0.208563
-2.81429 -0.201822
-2.84495 -0.198471
-2.87562 -0.191733
-2.90628 -0.188382
-2.93387 -0.185027
-2.96453 -0.181676
-2.99519 -0.178324
-3.02279 -0.171583
-3.05342 -0.175004
-3.08408 -0.171652
-3.11474 -0.168301
diff --git a/test/axi/viscous/fadlun-cp-200 b/test/axi/viscous/fadlun-cp-200
deleted file mode 100644
index f4f317d..0000000
--- a/test/axi/viscous/fadlun-cp-200
+++ /dev/null
@@ -1,100 +0,0 @@
-#x Re-200
-0.00933136 1.03385
-0.0368966 1.03043
-0.0675123 1.02363
-0.0950636 1.01682
-0.122615 1.01002
-0.150139 0.996445
-0.174584 0.979487
-0.19903 0.962529
-0.220397 0.942189
-0.247907 0.925228
-0.26926 0.901502
-0.290628 0.881162
-0.311981 0.857436
-0.333335 0.83371
-0.354688 0.809983
-0.406505 0.742205
-0.497882 0.606662
-0.577015 0.474518
-0.637859 0.366097
-0.713901 0.227185
-0.774772 0.125536
-0.823484 0.0476033
-0.838681 0.0171121
-0.856956 -0.00999656
-0.872167 -0.0371018
-0.890442 -0.0642104
-0.908718 -0.0913191
-0.923929 -0.118424
-0.942204 -0.145533
-0.96048 -0.172642
-1.10064 -0.369188
-1.12199 -0.392914
-1.14336 -0.413254
-1.16471 -0.43698
-1.18609 -0.453935
-1.20746 -0.474275
-1.25941 -0.508193
-1.3175 -0.542119
-1.37565 -0.559115
-1.4308 -0.562563
-1.45838 -0.562594
-1.48902 -0.562629
-1.51664 -0.552502
-1.54425 -0.545761
-1.57185 -0.53902
-1.5964 -0.532276
-1.62709 -0.518766
-1.65775 -0.515415
-1.69768 -0.491758
-1.72532 -0.478245
-1.75297 -0.461346
-1.78059 -0.45122
-1.8236 -0.42418
-1.85122 -0.414053
-1.8758 -0.397151
-1.90344 -0.383638
-1.92799 -0.373508
-1.95563 -0.359995
-1.98326 -0.346482
-2.01088 -0.336355
-2.03547 -0.319453
-2.06614 -0.312716
-2.09376 -0.302589
-2.12443 -0.295852
-2.14899 -0.285721
-2.17967 -0.275598
-2.21034 -0.26886
-2.23795 -0.26212
-2.26862 -0.255382
-2.29621 -0.252027
-2.32687 -0.248676
-2.35448 -0.241935
-2.38513 -0.238584
-2.41273 -0.235229
-2.44032 -0.231874
-2.47096 -0.231909
-2.50162 -0.228557
-2.53226 -0.228592
-2.55987 -0.221851
-2.59053 -0.218499
-2.63344 -0.215162
-2.68863 -0.208452
-2.73156 -0.201729
-2.75918 -0.191602
-2.78983 -0.18825
-2.81744 -0.18151
-2.84813 -0.171386
-2.87572 -0.168031
-2.9064 -0.157908
-2.9156 -0.157918
-2.9432 -0.151177
-2.97387 -0.14444
-3.00454 -0.137703
-3.03214 -0.134348
-3.05973 -0.130993
-3.09039 -0.127642
-3.12104 -0.12429
-
-
diff --git a/test/axi/viscous/fornberg b/test/axi/viscous/fornberg
deleted file mode 100644
index 6d08956..0000000
--- a/test/axi/viscous/fornberg
+++ /dev/null
@@ -1,6 +0,0 @@
-#x Fornberg
-99.6247 0.922272
-199.31 1.59949
-497.977 2.20542
-
-
diff --git a/test/axi/viscous/isolines.gfv b/test/axi/viscous/isolines.gfv
deleted file mode 100644
index 02d6561..0000000
--- a/test/axi/viscous/isolines.gfv
+++ /dev/null
@@ -1,75 +0,0 @@
-# GfsView 2D
-View {
-  tx = -0.0102258 ty = 2.77268e-05
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 0.895771
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 1 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} U {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 10
-}
-Isoline {
-  r = 0 g = 0.0160678 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} V {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 10
-}
-Isoline {
-  r = 0 g = 0.803098 b = 0.139818
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} U {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 0 levels = 0
-}
-Solid {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Symmetry {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 1 n.z = 0
-  pos = 0
-}
diff --git a/test/axi/viscous/masliyah-1970 b/test/axi/viscous/masliyah-1970
deleted file mode 100644
index 9fa5f84..0000000
--- a/test/axi/viscous/masliyah-1970
+++ /dev/null
@@ -1,5 +0,0 @@
-20.0094 0.0825769
-49.99 0.91264
-99.9148 1.6556
-
-
diff --git a/test/axi/viscous/viscous.gfs b/test/axi/viscous/viscous.gfs
deleted file mode 100644
index 10fc40c..0000000
--- a/test/axi/viscous/viscous.gfs
+++ /dev/null
@@ -1,101 +0,0 @@
-# Title: Viscous flow past a sphere
-#
-# Description:
-#
-# When viscosity is added, a recirculation region develops behind the
-# sphere (Figure \ref{isolines}). 
-#
-# \begin{figure}[htbp]
-# \caption{\label{isolines}Viscous flow around a sphere at Reynolds
-# 100. Isolines of the velocity components ($x$ in red, $y$ in
-# blue). The recirculation region is indicated by the green isoline
-# where the value of the horizontal velocity component vanishes.}
-# \begin{center}
-# \includegraphics[width=\hsize]{isolines.eps}
-# \end{center}
-# \end{figure}
-#
-# The length of the recirculation depends on the Reynolds
-# number. Figure \ref{length} plots the results obtained with Gerris
-# as well as previously published results. Published results agree
-# with Gerris for Reynolds numbers smaller than 100. The mismatch for
-# results at Reynolds 200 can be attributed to the coarse mesh used to
-# resolve the wake in the studies of Fornberg \cite{fornberg1988} and
-# Fadlun et al \cite{fadlun2000}.
-#
-# \begin{figure}[htbp]
-# \caption{\label{length}Relative length of the recirculation region
-# as a function of the Reynolds number. The results of Gerris are
-# compared with the results of Masliyah \& Epstein
-# \cite{masliyah1970}, Fornberg \cite{fornberg1988}, Blanco \&
-# Magnaudet \cite{blanco1995}, Fadlun et al \cite{fadlun2000} and
-# Zhang \& Zheng \cite{zhang2007}.}
-# \begin{center}
-# \includegraphics[width=\hsize]{length.eps}
-# \end{center}
-# \end{figure}
-#
-# The pressure profiles are also in good agreement with those reported
-# by Fadlun et al (which also agree with those of Fornberg) (Figure
-# \ref{Cp}).
-#
-# \begin{figure}[htbp]
-# \caption{\label{Cp}Pressure coefficient over the sphere surface at
-# Reynolds numbers 100 and 200.}
-# \begin{center}
-# \includegraphics[width=\hsize]{Cp.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh viscous.sh
-# Version: 1.3.0
-# Required files: viscous.sh cp-12-200 fadlun fadlun-cp-100 fadlun-cp-200 Re-12 zhang blanco-1995 masliyah-1970 isolines.gfv fornberg
-# Generated files: length.eps Cp.eps isolines.eps
-#
-
-Define A0 0.5
-Define U0 1.
-
-1 0 GfsAxi GfsBox GfsGEdge {} {
-    Time { end = 100 }
-    PhysicalParams { L = 50 }
-    AdvectionParams { gc = 1 }
-    Refine 4
-    Refine (LEVEL + 1./50.*(x*x + y*y)*(4. - LEVEL))
-    Solid (ellipse (0., 0., A0, A0))
-    SourceViscosity 1./RE
-    Init {} { U = U0 }
-    AdaptGradient { istep = 1 } { cmax = 5e-2 maxlevel = LEVEL } U
-    AdaptGradient { istep = 1 } { cmax = 5e-2 maxlevel = LEVEL } V
-    AdaptFunction { istep = 1 } { cmax = 1e-2 maxlevel = LEVEL } {
-	return (fabs(dx("U"))+fabs(dy("U")))/fabs(U)*ftt_cell_size (cell);
-    }
-    EventStop { step = 0.1 } U 1e-3 DU
-
-#    OutputTime { step = 1 } stderr
-#    OutputScalarNorm { step = 1 } stderr { v = DU }
-    OutputSimulation { start = end } end-LEVEL-RE.gfs
-    OutputLocation { step = 0.1 } {
-	awk 'BEGIN { t = 2.; oldl = -1.; oldt = 0.; } {
-          if ($1 != t) { t = $1; x1 = $2; u1 = $7; }
-          else {
-            x2 = $2; u2 = $7;
-            if (u1 <= 0. && u2 > 0.) {
-              l = (u1*x2 - u2*x1)/(u1 - u2) - A0;
-              dl = (l - oldl)/(t - oldt);
-              print t, l, dl;
-              fflush (stdout);
-              oldl = l;
-              oldt = t;
-            }
-            x1 = x2; u1 = u2;
-          }
-        }' > l-LEVEL-RE
-    } axis
-}
-GfsBox {
-    left = Boundary { BcDirichlet U U0 }
-    right = BoundaryOutflow
-    bottom = Boundary
-}
diff --git a/test/axi/viscous/viscous.sh b/test/axi/viscous/viscous.sh
deleted file mode 100644
index 6d96e31..0000000
--- a/test/axi/viscous/viscous.sh
+++ /dev/null
@@ -1,50 +0,0 @@
-if ! $donotrun; then
-    awk 'BEGIN{ for (x = 0.5; x <= 3.; x += 1./256.) print x, 0., 0.;}' > axis
-    for Re in 100; do
-	if gerris2D -DLEVEL=12 -DRE=$Re viscous.gfs; then :
-	else
-	    exit 1
-	fi
-	if gfs2oogl2D -c P -o -i < end-12-$Re.gfs | \
-	    awk '{print 3.14159265359 - atan2($2,$1),$4*2.}' | \
-	    sort -k 1,2 > cp-12-$Re; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-if echo "Save isolines.eps { format = EPS }" | gfsview-batch2D  end-12-100.gfs isolines.gfv; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | gnuplot ; then :
-set term postscript eps color lw 3 solid 20
-set key bottom right
-set pointsize 1.5
-set output 'length.eps'
-set xlabel 'Reynolds number'
-set ylabel 'Recirculation length'
-plot [0:320][0:]'fadlun' t 'Fadlun et al. (2000)', 'fornberg' t 'Fornberg (1988)', 'zhang' t 'Zhang & Zheng (2007)' pt 2, 'blanco-1995' u 1:(\$2/2.) t 'Blanco & Magnaudet (1995)', 'masliyah-1970' u 1:(\$2/2.) t 'Masliyah & Epstein (1970)' pt 8 lt 7, 'Re-12' u 1:3 smooth csplines w l t '' lt 5, 'Re-12' u 1:3 t 'Gerris' lt 5 pt 1
-
-set key top right
-set xlabel 'Angle'
-set ylabel 'Cp'
-set output 'Cp.eps'
-plot 'fadlun-cp-100' u (\$1*180./pi):2 w l t 'Fadlun et al., Re = 100', 'cp-12-100' u (\$1*180./pi):2 w l t 'Gerris, Re = 100', 'fadlun-cp-200' u (\$1*180./pi):2 w l t 'Fadlun et al., Re = 200', 'cp-12-200' u (\$1*180./pi):2 w l t 'Gerris, Re = 200'
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('cp-12-100',1,2) - Curve('fadlun-cp-100',1,2)).norm2() > 1e-2:
-    print (Curve('cp-12-100',1,2) - Curve('fadlun-cp-100',1,2)).norm2()
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/axi/viscous/zhang b/test/axi/viscous/zhang
deleted file mode 100644
index b9f8bb9..0000000
--- a/test/axi/viscous/zhang
+++ /dev/null
@@ -1,9 +0,0 @@
-#x Zhang
-29.8903 0.133929
-40.0366 0.262897
-49.9086 0.386905
-60.0548 0.491071
-80.0731 0.674603
-99.8172 0.848214
-
-
diff --git a/test/axiadvection/axi.sh b/test/axiadvection/axi.sh
deleted file mode 100644
index 771af68..0000000
--- a/test/axiadvection/axi.sh
+++ /dev/null
@@ -1,47 +0,0 @@
-if ! $donotrun; then
-    gerris2D axiadvection.gfs | gfsview-batch2D -s vof.gfv > vof.gnu
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'vof.eps'
-    set xlabel 'z'
-    set ylabel 'r'
-    unset key
-    set xtics -0.5,.25,0.5
-    set size ratio -1
-    plot [-0.5:0.5][0:1]'vof.gnu' u 1:2 w l, 'vectors.gnu' u 1:2 w l
-EOF
-else
-    exit 1
-fi
-
-if awk '
-BEGIN { min = 1000.; max = -1000.; }{ 
-  if ($5 < min) min = $5; 
-  if ($5 > max) max = $5; 
-}
-END {
-  e = 2.*(max - min)/(max + min);
-  print "VOF:", e;
-  if (e > 4e-4)
-    exit (1);
-}' < srt; then :
-else
-    exit 1
-fi
-
-if awk '
-BEGIN { min = 1000.; max = -1000.; }{ 
-  if ($5 < min) min = $5; 
-  if ($5 > max) max = $5; 
-}
-END {
-  e = 2.*(max - min)/(max + min);
-  print "Standard:", e;
-  if (e > 1.5e-7)
-    exit (1);
-}' < srt1; then :
-else
-    exit 1
-fi
diff --git a/test/axiadvection/axiadvection.gfs b/test/axiadvection/axiadvection.gfs
deleted file mode 100644
index ed25c0c..0000000
--- a/test/axiadvection/axiadvection.gfs
+++ /dev/null
@@ -1,53 +0,0 @@
-# Title: Mass conservation
-#
-# Description:
-#
-# A standard and a VOF tracer are advected by an axisymmetric
-# flow. The initial interface is a torus which is then advected by the
-# flow illustrated in Figure \ref{vof}. As the torus is flattened
-# against the right-hand-side wall, its cross-sectional surface area
-# decreases but the volume should remain constant. This is indeed the
-# case to within 0.04\% for the VOF tracer and $1.5\times 10^{-5}$\% for
-# the standard tracer.
-#
-# \begin{figure}[htbp]
-# \caption{\label{vof}VOF interface (red) and velocity field (green).}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{vof.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh axi.sh
-# Version: 1.3.0
-# Required files: axi.sh vectors.gfv vof.gfv
-# Generated files: vof.eps
-#
-1 0 GfsAxi GfsBox GfsGEdge {} {
-    Time { end = 1.3 }
-    Refine 6
-    Init {} { U = 1 }
-    VariableTracerVOF T
-    VariableTracer T1
-    InitFraction T (- ellipse (0, 0.3, 0.1, 0.1))
-    InitFraction T1 (- ellipse (0, 0.3, 0.1, 0.1))
-    AdaptGradient { istep = 1 } { cmax = 1e-3 minlevel = 4 maxlevel = (x < 0.25 ? 6 : 7) } T1
-    OutputScalarSum { istep = 1 end = 0.8 } srt { v = T }
-    OutputScalarSum { istep = 1 end = 0.8 } srt1 { v = T1 }
-    OutputSimulation { step = 0.2 } stdout
-    EventScript { step = 0.2 } {
-	echo "Save stdout { format = Gnuplot }"
-    }
-    EventScript { start = 1.2 } {
-	echo "Clear"
-	cat vectors.gfv
-	echo "Save vectors.gnu { format = Gnuplot }"
-    }
-}
-GfsBox {
-    left = Boundary {
-	BcDirichlet U 1
-	BcDirichlet V 0
-    }
-    top = BoundaryOutflow
-}
diff --git a/test/axiadvection/solid/axi.sh b/test/axiadvection/solid/axi.sh
deleted file mode 100644
index d4f967b..0000000
--- a/test/axiadvection/solid/axi.sh
+++ /dev/null
@@ -1,33 +0,0 @@
-if ! $donotrun; then
-    gerris2D solid.gfs
-fi
-
-if awk '
-BEGIN { min = 1000.; max = -1000.; }{ 
-  if ($5 < min) min = $5; 
-  if ($5 > max) max = $5; 
-}
-END {
-  e = 2.*(max - min)/(max + min);
-  print "VOF:", e;
-  if (e > 2.5e-2)
-    exit (1);
-}' < srt; then :
-else
-    exit 1
-fi
-
-if awk '
-BEGIN { min = 1000.; max = -1000.; }{ 
-  if ($5 < min) min = $5; 
-  if ($5 > max) max = $5; 
-}
-END {
-  e = 2.*(max - min)/(max + min);
-  print "Standard:", e;
-  if (e > 0.)
-    exit (1);
-}' < srt1; then :
-else
-    exit 1
-fi
diff --git a/test/axiadvection/solid/solid.gfs b/test/axiadvection/solid/solid.gfs
deleted file mode 100644
index fa29083..0000000
--- a/test/axiadvection/solid/solid.gfs
+++ /dev/null
@@ -1,33 +0,0 @@
-# Title: Mass conservation with solid boundary
-#
-# Description:
-#
-# A similar test but for tracers advected around a solid sphere.
-#
-# Author: St\'ephane Popinet
-# Command: sh axi.sh
-# Version: 1.3.0
-# Required files: axi.sh
-#
-1 0 GfsAxi GfsBox GfsGEdge {} {
-    Time { end = 0.55 }
-    Refine (x < 0. ? 7 : 8)
-    Init {} { U = 1 }
-    ApproxProjectionParams { tolerance = 1e-6 }
-    ProjectionParams { tolerance = 1e-6 }
-    Solid (ellipse (0., 0., 0.05, 0.05))
-    VariableTracerVOF T
-    VariableTracer T1
-    InitFraction T (- ellipse (-0.2, 0., 0.05, 0.05))
-    InitFraction T1 (- ellipse (-0.2, 0., 0.05, 0.05))
-    AdaptGradient { istep = 1 } { cmax = 1e-3 minlevel = 4 maxlevel = (x < 0. ? 7 : 8) } T1
-    OutputScalarSum { istep = 1 } srt { v = T }
-    OutputScalarSum { istep = 1 } srt1 { v = T1 }
-}
-GfsBox {
-    left = Boundary {
-	BcDirichlet U 1
-	BcDirichlet V 0
-    }
-    right = BoundaryOutflow
-}
diff --git a/test/axiadvection/vectors.gfv b/test/axiadvection/vectors.gfv
deleted file mode 100644
index bc7eb47..0000000
--- a/test/axiadvection/vectors.gfv
+++ /dev/null
@@ -1,26 +0,0 @@
-# GfsView 2D
-View {
-  tx = -0.0177224 ty = -0.490634
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 22.0083
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Vectors {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = 4
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} U V {
-  scale = 0.07499
-  use_scalar = 0
-}
diff --git a/test/axiadvection/vof.gfv b/test/axiadvection/vof.gfv
deleted file mode 100644
index 1cb7f74..0000000
--- a/test/axiadvection/vof.gfv
+++ /dev/null
@@ -1,27 +0,0 @@
-# GfsView 2D
-View {
-  tx = -0.0177224 ty = -0.490634
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 22.0083
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-VOF {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} T {
-  reversed = 0
-  use_scalar = 0
-  draw_edges = 0
-}
diff --git a/test/boundaries/boundaries.gfs b/test/boundaries/boundaries.gfs
deleted file mode 100644
index 1d68647..0000000
--- a/test/boundaries/boundaries.gfs
+++ /dev/null
@@ -1,48 +0,0 @@
-# Title: Convergence of a potential flow solution
-#
-# Description:
-#
-# A test case initially presented by Almgren et al \cite{almgren97}.
-# Three elliptical bodies are placed in the unit square. Constant
-# unity inflow and outflow are specified on the left and right
-# boundaries. Projection is then performed to obtain a potential flow
-# solution around the bodies.
-#
-# Tables \ref{boundaries-x} and \ref{boundaries-y} illustrate the errors and convergence
-# orders obtained for both components of the velocity when the
-# resolution varies. Richardson extrapolation is used.  The errors are
-# computed either on the whole domain (All cells) or on the cells
-# whose parents at level 7 are entirely contained in the fluid (Full
-# 128 cells).
-#
-# Close to second-order convergence is obtained in the bulk of the
-# fluid, reducing to first-order close to the boundaries. The errors
-# are small in all cases (with a maximum of 6\%) and comparable to
-# that obtained by Almgren et al using a different discretisation.
-#
-# \input{convergence.tex}
-#
-# Author: St\'ephane Popinet
-# Command: sh boundaries.sh boundaries.gfs
-# Version: 0.6.4
-# Required files: boundaries.sh orderU.ref orderfU.ref orderV.ref orderfV.ref
-# Running time: 3 minutes
-# Generated files: convergence.tex
-#
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-    Time { iend = 0 end = 1 }
-    AdvectionParams { scheme = none }
-    ApproxProjectionParams { tolerance = 1e-6 }
-    Refine LEVEL
-    Solid (ellipse (0.25, 0.25, 0.1, 0.1))
-    Solid (ellipse (-0.25, 0.125, 0.15, 0.1))
-    Solid (ellipse (0., -0.25, 0.2, 0.1))
-    Init {} { U = 1 }
-    OutputSimulation { start = end } sim-LEVEL {
-        variables = U,V,P
-    }
-}
-GfsBox {
-    left = Boundary { BcDirichlet U 1 }
-    right = Boundary { BcDirichlet U 1 }
-}
diff --git a/test/boundaries/boundaries.sh b/test/boundaries/boundaries.sh
deleted file mode 100644
index e87c5f2..0000000
--- a/test/boundaries/boundaries.sh
+++ /dev/null
@@ -1,82 +0,0 @@
-if ! $donotrun; then
-    for level in 7 8 9; do
-	if sed "s/LEVEL/$level/g" < $1 | \
-           gerris2D -; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-for v in U V; do
-    rm -f order$v orderf$v
-    for level in 7 8; do
-	level1=`expr $level + 1`
-	echo -n "$level " >> order$v
-	if gfscompare2D -v sim-$level sim-$level1 $v 2>&1 | \
-	    awk '{if ($1 == "total") print $4 " " $6 " " $8;}' >> order$v; then :
-	else
-	    exit 1
-	fi
-	echo -n "$level " >> orderf$v
-	if gfscompare2D -f 7 -v sim-$level sim-$level1 $v 2>&1 | \
-	    awk '{if ($1 == "total") print $4 " " $6 " " $8;}' >> orderf$v; then :
-	else
-	    exit 1
-	fi
-    done
-done
-
-if cat <<EOF | python > convergence.tex; then :
-from check import *
-from sys import *
-from math import *
-
-for component,variable in [('x','U'),('y','V')]:
-  print r"""\begin{table}[htbp]
-  \caption{"""
-  print r"\label{boundaries-" + component + "}"
-  print r"Errors and convergence rates for the \$"+component+r"\$-component of the velocity.}"  
-  print r"""\begin{center}
-  \begin{tabular}{||l|c|c|c||c|c|c||} \hline
-           & \multicolumn{3}{c||}{All cells} & \multicolumn{3}{c||}{Full 128 cells} \\\ \hline
-           & 128-256  & Rate & 256-512  & 128-256  & Rate & 256-512  \\\ \hline"""
-
-  for i,name in [(2,r"\$L_1\$"),(3,r"\$L_2\$"),(4,r"\$L_\infty\$")]:
-    a=Curve('order'+variable,1,i)
-    b=Curve('orderf'+variable,1,i)
-    print name,
-    print "& %.2e & %4.2f & %.2e & %.2e & %4.2f & %.2e" % (\
-    a.l[0][1], log(a.l[0][1]/a.l[1][1])/log(2.), a.l[1][1], \
-    b.l[0][1], log(b.l[0][1]/b.l[1][1])/log(2.), b.l[1][1]),
-    print r"\\\"
-
-    a=Curve('order'+variable+'.ref',1,i)
-    b=Curve('orderf'+variable+'.ref',1,i)
-    print "& {\color{blue}%.2e} & {\color{blue}%4.2f} & {\color{blue}%.2e} & {\color{blue}%.2e} & {\color{blue}%4.2f} & {\color{blue}%.2e}" % (\
-    a.l[0][1], log(a.l[0][1]/a.l[1][1])/log(2.), a.l[1][1], \
-    b.l[0][1], log(b.l[0][1]/b.l[1][1])/log(2.), b.l[1][1]),
-    print r"\\\"
-
-  print r"\hline"
-  print r"""\end{tabular}
-  \end{center}
-  \end{table}"""
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-
-for f in ['orderU','orderV','orderfU','orderfV']:
-   if (Curve(f,1,2) - Curve(f+'.ref',1,2)).max() > 1e-6 or\
-      (Curve(f,1,3) - Curve(f+'.ref',1,3)).max() > 1e-6 or\
-      (Curve(f,1,4) - Curve(f+'.ref',1,4)).max() > 1e-6:
-      exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/boundaries/orderU.ref b/test/boundaries/orderU.ref
deleted file mode 100644
index d82e74d..0000000
--- a/test/boundaries/orderU.ref
+++ /dev/null
@@ -1,2 +0,0 @@
-7 3.722e-04 2.134e-03 6.678e-02
-8 1.016e-04 8.851e-04 4.408e-02
diff --git a/test/boundaries/orderV.ref b/test/boundaries/orderV.ref
deleted file mode 100644
index ea22f34..0000000
--- a/test/boundaries/orderV.ref
+++ /dev/null
@@ -1,2 +0,0 @@
-7 3.999e-04 1.746e-03 5.347e-02
-8 1.067e-04 6.590e-04 3.287e-02
diff --git a/test/boundaries/orderfU.ref b/test/boundaries/orderfU.ref
deleted file mode 100644
index 7b7222c..0000000
--- a/test/boundaries/orderfU.ref
+++ /dev/null
@@ -1,2 +0,0 @@
-7 2.252e-04 4.771e-04 6.737e-03
-8 5.627e-05 1.230e-04 2.794e-03
diff --git a/test/boundaries/orderfV.ref b/test/boundaries/orderfV.ref
deleted file mode 100644
index 06d6d33..0000000
--- a/test/boundaries/orderfV.ref
+++ /dev/null
@@ -1,2 +0,0 @@
-7 2.818e-04 7.563e-04 9.280e-03
-8 7.034e-05 2.330e-04 3.691e-03
diff --git a/test/capwave/air-water/air-water.gfs b/test/capwave/air-water/air-water.gfs
deleted file mode 100644
index 863da20..0000000
--- a/test/capwave/air-water/air-water.gfs
+++ /dev/null
@@ -1,65 +0,0 @@
-# Title: Air-Water capillary wave
-#
-# Description:
-#
-# Same test as before but with density and viscosity ratio
-# corresponding to an air/water interface.
-#
-# \begin{table}[htbp]
-# \caption{\label{convergence}Convergence of the relative error between the analytical
-# solution and simulation results.}
-# \begin{center}
-# \begin{tabular}{|l|ccccc|} \hline
-# Method & $8^2$ & $16^2$ & $32^2$ & $64^2$ & $128^2$ \\ \hline
-# \input{convergence.tex} & 0.00313 \\
-# \end{tabular}
-# \end{center}
-# \end{table}
-#
-# \begin{figure}[htbp]
-# \caption{\label{amplitude}Evolution of the amplitude of the capillary wave as a
-# function of non-dimensional time $\tau=\omega_0 t$.}
-# \begin{center}
-# \includegraphics[width=\hsize]{amplitude.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../capwave.sh air-water.gfs
-# Version: 1.2.0
-# Required files: convergence.ref prosperetti
-# Generated files: convergence.tex amplitude.eps
-#
-# Theoretical solution generated using:
-#  ~/local/src/laplace/oscillations planar 1 1 0.0182571749236 0.273038508 1 1 0.0012 0.01 0 0 | awk '{print $1*15.7402, ($2 > 0. ? $2 : -$2)}' > prosperetti
-#
-3 5 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 1.58928694288774963184 }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  Refine floor(LEVEL + 1 - (LEVEL - 2)*fabs(y)/1.5)
-  VariableTracerVOF T
-  VariableFiltered T1 T 1
-  VariableCurvature K T
-  SourceTension T 1 K
-  VariablePosition Y T y
-  Global {
-      #define VAR(T,min,max)   (min + CLAMP(T,0,1)*(max - min))
-      #define RHO(T)            VAR(T, 1.2/1000., 1.)
-      #define MU(T)             VAR(T, 1.8e-5/1.003e-3, 1.)
-  }
-  PhysicalParams { alpha = 1./RHO(T1) }
-  SourceViscosity 0.0182571749236*MU(T1)
-  InitFraction T (y - 0.01*cos (2.*M_PI*x))
-  OutputScalarNorm { step = 0.00198785108553814829 } {
-      awk '{printf ("%g %g\n", $3*15.7402, $9); fflush(stdout); }' > wave-LEVEL
-  } { v = (T > 0. && T < 1. ? Y : 0.) }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-1 1 right
-2 2 right
-3 3 right
-1 2 top
-1 3 bottom
diff --git a/test/capwave/air-water/convergence.ref b/test/capwave/air-water/convergence.ref
deleted file mode 100644
index 49c5880..0000000
--- a/test/capwave/air-water/convergence.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-3 0.198686
-4 0.0750547
-5 0.0159213
-6 0.00576257
diff --git a/test/capwave/air-water/prosperetti b/test/capwave/air-water/prosperetti
deleted file mode 100644
index e6a3434..0000000
--- a/test/capwave/air-water/prosperetti
+++ /dev/null
@@ -1,800 +0,0 @@
-0 0.01
-0.0312892 0.00999512
-0.0625783 0.00998051
-0.0938675 0.00995625
-0.125157 0.00992241
-0.156446 0.00987909
-0.187735 0.00982636
-0.219025 0.00976434
-0.250313 0.00969313
-0.281603 0.00961285
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-0.344182 0.0094256
-0.37547 0.00931889
-0.40676 0.00920366
-0.438048 0.00908006
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-0.500627 0.00880841
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-1.25157 0.0035806
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-1.56446 0.000825597
-1.59574 0.000548353
-1.62703 0.000271857
-1.65832 3.62942e-06
-1.68962 0.000277848
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-4.3179 0.00370286
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-4.44306 0.0028758
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-4.75595 0.000719994
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-4.81853 0.000287112
-4.84982 7.17978e-05
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-5.94495 0.00558476
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-8.41679 0.00191201
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-8.51065 0.00233998
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-8.57323 0.002611
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-17.5532 0.000146072
-17.5845 6.66762e-05
-17.6158 1.23887e-05
-17.6471 9.1049e-05
-17.6784 0.000169232
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-17.7723 0.000400196
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-20.1503 0.00124313
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-20.776 3.61205e-05
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-24.6559 0.000901793
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-24.7184 0.000967031
-24.7497 0.000998038
-24.7811 0.00102794
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-24.8435 0.00108433
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-25 0.00120446
diff --git a/test/capwave/capwave.gfs b/test/capwave/capwave.gfs
deleted file mode 100644
index 20e7f9d..0000000
--- a/test/capwave/capwave.gfs
+++ /dev/null
@@ -1,84 +0,0 @@
-# Title: Planar capillary waves
-#
-# Description:
-#
-# A small amplitude sinusoidal wave oscillates under surface
-# tension. Prosperetti \cite{prosperetti81} found a solution to this
-# initial value problem in the limit of a vanishingly small initial
-# amplitude.
-#
-# The domain size is 1x3 units, large enough to minimise the effect of
-# boundaries (Prosperetti's theory is valid for infinite domains).
-#
-# Table \ref{convergence} shows the convergence of various solvers as
-# a function of resolution: Gerris, the marker technique of
-# \cite{popinet99}, Surfer \cite{gueyffier98}, PROST and CLSVOF
-# \cite{gerlach2006}. The same data is represented on Figure \ref{fig-convergence}.
-#
-# The time-evolution of the amplitude given by Prosperetti's theory
-# and Gerris ($64^2$) is given on Figure \ref{amplitude}.
-#
-# \begin{table}[htbp]
-# \caption{\label{convergence}Convergence of the relative error between the analytical
-# solution and simulation results from various solvers.}
-# \begin{center}
-# \begin{tabular}{|l|ccccc|} \hline
-# Method & $8^2$ & $16^2$ & $32^2$ & $64^2$ & $128^2$ \\ \hline
-# \input{convergence.tex} & 0.000545 \\
-# \input{markers.tex} \\
-# \input{surfer.tex} \\
-# \input{prost.tex} \\
-# \input{clsvof.tex} \\ \hline
-# \end{tabular}
-# \end{center}
-# \end{table}
-#
-# \begin{figure}[htbp]
-# \caption{\label{fig-convergence}Convergence of the RMS error as a
-# function of resolution (number of grid points per wavelength) for
-# the methods indicated in the legend.}
-# \begin{center}
-# \includegraphics[width=\hsize]{convergence.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{amplitude}Evolution of the amplitude of the capillary wave as a
-# function of non-dimensional time $\tau=\omega_0 t$.}
-# \begin{center}
-# \includegraphics[width=\hsize]{amplitude.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh capwave.sh capwave.gfs
-# Version: 1.1.0
-# Required files: capwave.sh convergence.ref prosperetti markers.tex surfer.tex prost.tex clsvof.tex
-# Generated files: convergence.tex amplitude.eps convergence.eps markers.tex surfer.tex prost.tex clsvof.tex
-#
-3 5 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 2.2426211256 }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  # Decrease the resolution linearly down to 3 levels close to the
-  # bottom and top boundaries
-  Refine floor(LEVEL + 1 - (LEVEL - 2)*fabs(y)/1.5)
-  VariableTracerVOF T
-  VariableCurvature K T
-  SourceTension T 1 K
-  VariablePosition Y T y
-  SourceDiffusion U 0.0182571749236
-  SourceDiffusion V 0.0182571749236
-  InitFraction T (y - 0.01*cos (2.*M_PI*x))
-  OutputScalarNorm { step = 3.04290519077e-3 } {
-      awk '{printf ("%g %g\n", $3*11.1366559937, $9); fflush(stdout); }' > wave-LEVEL
-  } { v = (T > 0. && T < 1. ? Y : 0.) }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-1 1 right
-2 2 right
-3 3 right
-1 2 top
-1 3 bottom
diff --git a/test/capwave/capwave.sh b/test/capwave/capwave.sh
deleted file mode 100755
index d2dc43f..0000000
--- a/test/capwave/capwave.sh
+++ /dev/null
@@ -1,74 +0,0 @@
-levels="3 4 5 6"
-
-if ! $donotrun; then
-    for level in $levels; do
-	if sed "s/LEVEL/$level/g" < $1 | gerris2D -; then
-	    :
-	else
-	    exit 1;
-	fi
-    done
-fi
-
-rm -f convergence
-for level in $levels; do
-    if awk -v level=$level 'BEGIN {s = 0.; n = 0; } {
-          t = $1; y = $2;
-          getline < "prosperetti"
-          s += (y - $2)*(y - $2);
-          n += 1;
-        }
-        END {
-          s = sqrt (s/n)/0.01;
-          printf ("%d %g\n", level, s);
-        }' < wave-$level >> convergence; then
-	:
-    else
-	exit 1;
-    fi
-done
-
-awk 'BEGIN{first=1}{ 
-  if (first) printf("Gerris &\n%.5f",$2);
-  else printf(" &\n%.5f",$2);
-  first=0;
-}' < convergence > convergence.tex
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'amplitude.eps'
-    set xlabel 'tau'
-    set ylabel 'Relative amplitude'
-    plot 'prosperetti' w l t "Prosperetti", 'wave-6' every 10 w p t "Gerris"
-EOF
-else
-    exit 1
-fi
-
-if test -f clsvof.tex ; then
-    cp convergence.tex gerris.tex
-    echo " &\n0.00060" >> gerris.tex
-    if cat <<EOF | gnuplot ; then :
-      set term postscript eps color lw 3 solid 20
-      set output 'convergence.eps'
-      set xlabel 'Number of grid points'
-      set ylabel 'Relative RMS error'
-      set logscale y
-      set logscale x 2
-      set grid
-      plot [5:200][1e-4:1]'gerris.tex' u (2**(\$0 + 2)):1 t "Gerris" w lp, 'prost.tex' u (2**(\$0 + 2)):1 t "PROST" w lp, 'markers.tex' u (2**(\$0 + 2)):1 t "Markers" w lp, 'clsvof.tex' u (2**(\$0 + 2)):1 t "CLSVOF" w lp, 'surfer.tex' u (2**(\$0 + 2)):1 t "Surfer" w lp, 2./x**2 t "Second order"
-EOF
-    else
-	exit 1
-    fi
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('convergence',1,2) - Curve('convergence.ref',1,2)).max() > 1e-5:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/capwave/clsvof.tex b/test/capwave/clsvof.tex
deleted file mode 100644
index 58f5db5..0000000
--- a/test/capwave/clsvof.tex
+++ /dev/null
@@ -1,5 +0,0 @@
-CLSVOF &
-0.3169 &
-0.0991 &
-0.0131 &
-0.0033
diff --git a/test/capwave/convergence.ref b/test/capwave/convergence.ref
deleted file mode 100644
index 51dab6a..0000000
--- a/test/capwave/convergence.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-3 0.156991
-4 0.0282426
-5 0.00862894
-6 0.00183428
diff --git a/test/capwave/density/convergence.ref b/test/capwave/density/convergence.ref
deleted file mode 100644
index 6ea8a0f..0000000
--- a/test/capwave/density/convergence.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-3 0.145919
-4 0.0423646
-5 0.00485021
-6 0.00141383
diff --git a/test/capwave/density/density.gfs b/test/capwave/density/density.gfs
deleted file mode 100644
index 342a631..0000000
--- a/test/capwave/density/density.gfs
+++ /dev/null
@@ -1,66 +0,0 @@
-# Title: Fluids of different densities
-#
-# Description:
-#
-# Same test as before but with a density ratio of 10. The dynamic
-# viscosities are identical.
-#
-# Table \ref{convergence} shows the convergence of various
-# solvers as a function of resolution: Gerris, the marker technique of
-# \cite{popinet99} and Surfer \cite{gueyffier98}.
-#
-# The time-evolution of the amplitude given by Prosperetti's theory
-# and Gerris ($64^2$) is given on Figure \ref{amplitude}.
-#
-# \begin{table}[htbp]
-# \caption{\label{convergence}Convergence of the relative error between the analytical
-# solution and simulation results from various solvers.}
-# \begin{center}
-# \begin{tabular}{|l|ccccc|} \hline
-# Method & $8^2$ & $16^2$ & $32^2$ & $64^2$ & $128^2$ \\ \hline
-# \input{convergence.tex} & 0.001155 \\
-# Markers & 0.3593 & 0.1397 & 0.0566 & 0.0264 & 0.0148 \\
-# Surfer & - & - & 0.1233 & 0.0300 & 0.0254 \\ \hline
-# \end{tabular}
-# \end{center}
-# \end{table}
-#
-# \begin{figure}[htbp]
-# \caption{\label{amplitude}Evolution of the amplitude of the capillary wave as a
-# function of non-dimensional time $\tau=\omega_0 t$.}
-# \begin{center}
-# \includegraphics[width=\hsize]{amplitude.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../capwave.sh density.gfs
-# Version: 1.1.0
-# Required files: convergence.ref prosperetti
-# Generated files: convergence.tex amplitude.eps
-#
-3 5 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 1.66481717925811447992 }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  Refine floor(LEVEL + 1 - (LEVEL - 2)*fabs(y)/1.5)
-  VariableTracerVOF T
-  VariableCurvature K T
-  SourceTension T 1 K
-  VariablePosition Y T y
-  SourceDiffusion U 0.0182571749236
-  SourceDiffusion V 0.0182571749236
-  PhysicalParams { alpha = 1./(T + 0.1*(1. - T)) }
-  InitFraction T (y - 0.01*cos (2.*M_PI*x))
-  OutputScalarNorm { step = .00225584983639310905 } {
-      awk '{printf ("%g %g\n", $3*15.016663878457, $9); fflush(stdout); }' > wave-LEVEL
-  } { v = (T > 0. && T < 1. ? Y : 0.) }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-1 1 right
-2 2 right
-3 3 right
-1 2 top
-1 3 bottom
diff --git a/test/capwave/density/prosperetti b/test/capwave/density/prosperetti
deleted file mode 100644
index 91d37ac..0000000
--- a/test/capwave/density/prosperetti
+++ /dev/null
@@ -1,739 +0,0 @@
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diff --git a/test/capwave/gravity/convergence.ref b/test/capwave/gravity/convergence.ref
deleted file mode 100644
index 145ac1e..0000000
--- a/test/capwave/gravity/convergence.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-3 0.151397
-4 0.0324848
-5 0.00593384
-6 0.00635294
diff --git a/test/capwave/gravity/gravity.gfs b/test/capwave/gravity/gravity.gfs
deleted file mode 100644
index 107db7e..0000000
--- a/test/capwave/gravity/gravity.gfs
+++ /dev/null
@@ -1,65 +0,0 @@
-# Title: Pure gravity wave
-#
-# Description:
-#
-# Similar to the capillary wave test case but for a pure gravity
-# wave. The density ratio is 10. The dynamic viscosities are
-# identical.
-#
-# The time-evolution of the amplitude given by Prosperetti's theory
-# and Gerris ($64^2$) is given on Figure \ref{amplitude}.
-#
-# \begin{table}[htbp]
-# \caption{\label{convergence}Convergence of the relative error between the analytical
-# solution and simulation results.}
-# \begin{center}
-# \begin{tabular}{|l|ccccc|} \hline
-# Method & $8^2$ & $16^2$ & $32^2$ & $64^2$ & $128^2$ \\ \hline
-# \input{convergence.tex} & 0.00417707 \\
-# \end{tabular}
-# \end{center}
-# \end{table}
-#
-# \begin{figure}[htbp]
-# \caption{\label{amplitude}Evolution of the amplitude of the gravity wave as a
-# function of non-dimensional time $\tau=\omega_0 t$.}
-# \begin{center}
-# \includegraphics[width=\hsize]{amplitude.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../capwave.sh gravity.gfs
-# Version: 1.0.0
-# Required files: convergence.ref prosperetti
-# Generated files: convergence.tex amplitude.eps
-#
-1 1 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 1.66481717925811447992 }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  Refine LEVEL
-  VariableTracerVOF {} T
-
-  # Line below is for direct imposition of gravity acceleration
-  #  Source {} V 50
-
-  # It is better to use a formulation where the first-order
-  # hydrostatic pressure is substracted away (in particular it
-  # prevents the generation of "hydrostatic spurious currents")
-  VariablePosition {} Y T y
-
-  # acceleration of gravity is 50, the equivalent "reduced pressure"
-  # is 50*(1. - 0.1) = 45
-  SourceTension {} T 45 Y
-
-  SourceDiffusion {} U 0.0182571749236
-  SourceDiffusion {} V 0.0182571749236
-  PhysicalParams { alpha = 1./(T + 0.1*(1. - T)) }
-  InitFraction {} T (y - 0.01*cos (2.*M_PI*x))
-  OutputScalarNorm { step = .00225584983639310905 } {
-      awk '{printf ("%g %g\n", $3*16.032448313657, $9); fflush(stdout); }' > wave-LEVEL
-  } { v = (T > 1e-6 && T < 1. - 1e-6 ? Y : 0.) }
-}
-GfsBox {}
-1 1 right
diff --git a/test/capwave/gravity/prosperetti b/test/capwave/gravity/prosperetti
deleted file mode 100644
index d1a1a57..0000000
--- a/test/capwave/gravity/prosperetti
+++ /dev/null
@@ -1,739 +0,0 @@
-0 0.01
-0.036167 0.0099936
-0.072334 0.00997468
-0.1085 0.0099435
-0.14467 0.00990031
-0.18083 0.00984532
-0.217 0.00977877
-0.25317 0.00970087
-0.28933 0.00961185
-0.3255 0.00951193
-0.36167 0.00940137
-0.39783 0.00928039
-0.434 0.00914926
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-0.50634 0.00885755
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diff --git a/test/capwave/markers.tex b/test/capwave/markers.tex
deleted file mode 100644
index 5758d74..0000000
--- a/test/capwave/markers.tex
+++ /dev/null
@@ -1,6 +0,0 @@
-Markers &
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diff --git a/test/capwave/prosperetti b/test/capwave/prosperetti
deleted file mode 100644
index f03b8a1..0000000
--- a/test/capwave/prosperetti
+++ /dev/null
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-13.0807 0.00192326
-13.1146 0.00196953
-13.1484 0.00201357
-13.1823 0.00205536
-13.2162 0.00209487
-13.2501 0.00213209
-13.284 0.00216698
-13.3179 0.00219954
-13.3518 0.00222975
-13.3857 0.00225761
-13.4195 0.0022831
-13.4534 0.0023062
-13.4873 0.00232692
-13.5212 0.00234526
-13.5551 0.00236121
-13.589 0.00237477
-13.6229 0.00238596
-13.6568 0.00239478
-13.6907 0.00240122
-13.7245 0.00240532
-13.7584 0.00240707
-13.7923 0.00240649
-13.8262 0.00240361
-13.8601 0.00239844
-13.894 0.00239099
-13.9279 0.00238131
-13.9618 0.0023694
-13.9956 0.0023553
-14.0295 0.00233904
-14.0634 0.00232065
-14.0973 0.00230015
-14.1312 0.00227759
-14.1651 0.00225301
-14.199 0.00222643
-14.2329 0.0021979
-14.2667 0.00216747
-14.3006 0.00213517
-14.3345 0.00210105
-14.3684 0.00206515
-14.4023 0.00202753
-14.4362 0.00198822
-14.4701 0.00194728
-14.504 0.00190477
-14.5378 0.00186072
-14.5717 0.00181521
-14.6056 0.00176827
-14.6395 0.00171998
-14.6734 0.00167037
-14.7073 0.0016195
-14.7412 0.00156745
-14.7751 0.00151426
-14.8089 0.00145999
-14.8428 0.00140471
-14.8767 0.00134847
-14.9106 0.00129134
-14.9445 0.00123337
-14.9784 0.00117463
-15.0123 0.00111518
-15.0462 0.00105508
-15.08 0.000994395
-15.1139 0.00093319
-15.1478 0.00087152
-15.1817 0.00080945
-15.2156 0.000747045
-15.2495 0.00068437
-15.2834 0.00062148
-15.3173 0.00055844
-15.3512 0.00049531
-15.385 0.000432154
-15.4189 0.000369032
-15.4528 0.000306004
-15.4867 0.000243129
-15.5206 0.000180467
-15.5545 0.000118076
-15.5884 5.60155e-05
-15.6223 5.65895e-06
-15.6561 6.68905e-05
-15.69 0.000127624
-15.7239 0.000187803
-15.7578 0.000247376
-15.7917 0.000306288
-15.8256 0.00036449
-15.8595 0.000421929
-15.8934 0.000478555
-15.9272 0.00053432
-15.9611 0.00058918
-15.995 0.000643085
-16.0289 0.00069599
-16.0628 0.00074785
-16.0967 0.00079863
-16.1306 0.00084828
-16.1645 0.00089677
-16.1983 0.00094405
-16.2322 0.000990095
-16.2661 0.00103486
-16.3 0.00107832
-16.3339 0.00112043
-16.3678 0.00116118
-16.4017 0.00120052
-16.4356 0.00123843
-16.4694 0.00127489
-16.5033 0.00130986
-16.5372 0.00134333
-16.5711 0.00137528
-16.605 0.00140569
-16.6389 0.00143453
-16.6728 0.00146179
-16.7067 0.00148746
-16.7405 0.00151152
-16.7744 0.00153396
-16.8083 0.00155478
-16.8422 0.00157395
-16.8761 0.00159149
-16.91 0.00160738
-16.9439 0.0016216
-16.9778 0.00163419
-17.0117 0.00164511
-17.0455 0.00165438
-17.0794 0.00166201
-17.1133 0.00166798
-17.1472 0.00167231
-17.1811 0.00167502
-17.215 0.0016761
-17.2489 0.00167557
-17.2828 0.00167344
-17.3166 0.00166972
-17.3505 0.00166443
-17.3844 0.00165759
-17.4183 0.00164921
-17.4522 0.0016393
-17.4861 0.00162791
-17.52 0.00161503
-17.5539 0.0016007
-17.5877 0.00158494
-17.6216 0.00156777
-17.6555 0.00154923
-17.6894 0.00152934
-17.7233 0.00150812
-17.7572 0.00148562
-17.7911 0.00146185
-17.825 0.00143685
-17.8588 0.00141066
-17.8927 0.00138331
-17.9266 0.00135483
-17.9605 0.00132525
-17.9944 0.00129462
-18.0283 0.00126296
-18.0622 0.00123032
-18.0961 0.00119674
-18.1299 0.00116226
-18.1638 0.00112692
-18.1977 0.00109074
-18.2316 0.00105379
-18.2655 0.00101608
-18.2994 0.000977675
-18.3333 0.00093861
-18.3672 0.00089893
-18.401 0.00085867
-18.4349 0.00081788
-18.4688 0.0007766
-18.5027 0.000734875
-18.5366 0.00069274
-18.5705 0.00065025
-18.6044 0.00060744
-18.6383 0.00056436
-18.6722 0.000521045
-18.706 0.000477546
-18.7399 0.000433902
-18.7738 0.000390157
-18.8077 0.000346352
-18.8416 0.000302531
-18.8755 0.000258737
-18.9094 0.00021501
-18.9433 0.000171392
-18.9771 0.000127924
-19.011 8.46475e-05
-19.0449 4.16014e-05
-19.0788 1.17405e-06
-19.1127 4.36399e-05
-19.1466 8.57575e-05
-19.1805 0.00012749
-19.2144 0.000168798
-19.2482 0.000209646
-19.2821 0.000249999
-19.316 0.000289822
-19.3499 0.000329079
-19.3838 0.000367737
-19.4177 0.000405763
-19.4516 0.000443126
-19.4855 0.000479794
-19.5193 0.00051574
-19.5532 0.000550925
-19.5871 0.000585335
-19.621 0.00061893
-19.6549 0.00065169
-19.6888 0.00068359
-19.7227 0.000714605
-19.7566 0.00074471
-19.7904 0.00077388
-19.8243 0.0008021
-19.8582 0.000829345
-19.8921 0.000855595
-19.926 0.00088084
-19.9599 0.000905055
-19.9938 0.000928225
-20.0277 0.00095034
-20.0615 0.00097138
-20.0954 0.00099134
-20.1293 0.0010102
-20.1632 0.00102796
-20.1971 0.00104459
-20.231 0.00106011
-20.2649 0.0010745
-20.2988 0.00108775
-20.3327 0.00109987
-20.3665 0.00111083
-20.4004 0.00112066
-20.4343 0.00112933
-20.4682 0.00113686
-20.5021 0.00114324
-20.536 0.00114849
-20.5699 0.00115258
-20.6038 0.00115554
-20.6376 0.00115737
-20.6715 0.00115807
-20.7054 0.00115766
-20.7393 0.00115614
-20.7732 0.00115352
-20.8071 0.00114981
-20.841 0.00114502
-20.8749 0.00113916
-20.9087 0.00113225
-20.9426 0.00112431
-20.9765 0.00111534
-21.0104 0.00110537
-21.0443 0.00109439
-21.0782 0.00108245
-21.1121 0.00106956
-21.146 0.00105573
-21.1798 0.00104099
-21.2137 0.00102535
-21.2476 0.00100884
-21.2815 0.00099147
-21.3154 0.00097328
-21.3493 0.000954285
-21.3832 0.000934505
-21.4171 0.00091397
-21.4509 0.000892705
-21.4848 0.000870735
-21.5187 0.00084808
-21.5526 0.00082478
-21.5865 0.00080085
-21.6204 0.00077632
-21.6543 0.00075122
-21.6882 0.00072558
-21.722 0.000699425
-21.7559 0.000672785
-21.7898 0.000645685
-21.8237 0.00061816
-21.8576 0.00059024
-21.8915 0.00056195
-21.9254 0.000533325
-21.9593 0.00050439
-21.9931 0.000475175
-22.027 0.000445714
-22.0609 0.000416034
-22.0948 0.000386166
-22.1287 0.00035614
-22.1626 0.000325985
-22.1965 0.000295733
-22.2304 0.000265412
-22.2643 0.000235051
-22.2981 0.000204681
-22.332 0.000174331
-22.3659 0.000144028
-22.3998 0.000113804
-22.4337 8.3685e-05
-22.4676 5.37e-05
-22.5015 2.38765e-05
-22.5354 5.7578e-06
-22.5692 3.51759e-05
-22.6031 6.43515e-05
-22.637 9.32575e-05
-22.6709 0.000121869
-22.7048 0.00015016
-22.7387 0.000178105
-22.7726 0.000205683
-22.8065 0.000232865
-22.8403 0.000259632
-22.8742 0.00028596
-22.9081 0.000311826
-22.942 0.000337209
-22.9759 0.000362089
-23.0098 0.000386445
-23.0437 0.000410257
-23.0776 0.000433507
-23.1114 0.000456176
-23.1453 0.000478245
-23.1792 0.000499701
-23.2131 0.000520525
-23.247 0.0005407
-23.2809 0.000560215
-23.3148 0.000579055
-23.3487 0.000597205
-23.3825 0.000614655
-23.4164 0.00063139
-23.4503 0.0006474
-23.4842 0.00066268
-23.5181 0.000677215
-23.552 0.000690995
-23.5859 0.000704015
-23.6198 0.00071627
-23.6536 0.00072775
-23.6875 0.000738455
-23.7214 0.00074837
-23.7553 0.000757505
-23.7892 0.000765845
-23.8231 0.00077339
-23.857 0.000780145
-23.8909 0.0007861
-23.9248 0.00079126
-23.9586 0.00079563
-23.9925 0.000799205
-24.0264 0.000801985
-24.0603 0.000803985
-24.0942 0.000805195
-24.1281 0.000805625
-24.162 0.00080528
-24.1959 0.00080417
-24.2297 0.000802295
-24.2636 0.00079967
-24.2975 0.00079629
-24.3314 0.00079218
-24.3653 0.000787335
-24.3992 0.00078177
-24.4331 0.0007755
-24.467 0.00076853
-24.5008 0.000760875
-24.5347 0.000752545
-24.5686 0.000743555
-24.6025 0.00073392
-24.6364 0.000723645
-24.6703 0.000712755
-24.7042 0.00070126
-24.7381 0.000689175
-24.7719 0.000676515
-24.8058 0.0006633
-24.8397 0.000649545
-24.8736 0.000635265
-24.9075 0.00062048
-24.9414 0.000605205
-24.9753 0.00058946
diff --git a/test/capwave/prost.tex b/test/capwave/prost.tex
deleted file mode 100644
index 347a4d9..0000000
--- a/test/capwave/prost.tex
+++ /dev/null
@@ -1,5 +0,0 @@
-PROST &
-0.2960 &
-0.0818 &
-0.0069 &
-0.0018
diff --git a/test/capwave/surfer.tex b/test/capwave/surfer.tex
deleted file mode 100644
index cb39cdb..0000000
--- a/test/capwave/surfer.tex
+++ /dev/null
@@ -1,6 +0,0 @@
-Surfer &
-- &
-- &
-0.1168 &
-0.0132 &
-0.007
diff --git a/test/channel/channel.gfs b/test/channel/channel.gfs
deleted file mode 100644
index 43517ad..0000000
--- a/test/channel/channel.gfs
+++ /dev/null
@@ -1,60 +0,0 @@
-# Title: Flow through a divergent channel
-#
-# Description:
-#
-# A test case initially presented by Almgren et al \cite{almgren97}.
-# The Euler equations are solved in a divergent channel for a unit
-# inflow velocity on the left boundary and outflow on the right
-# boundary.
-#
-# Tables \ref{channel-x} and \ref{channel-y} illustrate the errors and
-# convergence orders obtained for both components of the velocity when
-# the resolution varies. Richardson extrapolation is used.  The errors
-# are computed either on the whole domain (All cells) or on the cells
-# whose parents at level 5 are entirely contained in the fluid (Full
-# 128 cells).
-#
-# Close to second-order convergence is obtained in the bulk of the
-# fluid, reducing to first-order close to the boundaries. The errors
-# are small in all cases (with a maximum of .5\%) and comparable to
-# that obtained by Almgren et al using a different discretisation.
-#
-# \input{convergence.tex}
-#
-# Author: St\'ephane Popinet
-# Command: sh channel.sh channel.gfs
-# Version: 1.1.0
-# Required files: channel.sh orderU.ref orderfU.ref orderV.ref orderfV.ref
-# Running time: 3 minutes
-# Generated files: convergence.tex
-#
-4 3 GfsSimulation GfsBox GfsGEdge {} {
-    Time { end = 1 }
-    AdvectionParams { cfl = 0.9 }
-    ProjectionParams { tolerance = 1e-6 }
-    ApproxProjectionParams { tolerance = 1e-6 }
-    Refine LEVEL
-    Global {
-        double channel (double x) {
-            double y1 = 0.2/4.;
-            double y2 = 1e-6/4.;
-            
-            return x <= -0.25 ? y1 : 
-                   x < 0.25 ? y2 + 0.5*(y1 - y2)*(1. + cos (2.*M_PI*(x + 0.25))) : 
-                   y2;
-        }
-    }
-    Solid (0.125 - channel (x) - y) { scale = 4 tx = 1.5 }
-    Solid (y + 0.125 - channel (x)) { scale = 4 tx = 1.5 }
-    Init {} { U = 1 }
-    OutputSimulation { start = end } sim-LEVEL {
-        variables = U,V,P
-    }
-}
-GfsBox { left = Boundary { BcDirichlet U 1 } }
-GfsBox {}
-GfsBox {}
-GfsBox { right = BoundaryOutflow }
-1 2 right
-2 3 right
-3 4 right
diff --git a/test/channel/channel.sh b/test/channel/channel.sh
deleted file mode 100644
index 736ef15..0000000
--- a/test/channel/channel.sh
+++ /dev/null
@@ -1,83 +0,0 @@
-if ! $donotrun; then
-    shapes channel | transform --revert --scale 4 --tx 1.5 > channel.gts
-    for level in 5 6 7; do
-	if sed "s/LEVEL/$level/g" < $1 | \
-           gerris2D -; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-for v in U V; do
-    rm -f order$v orderf$v
-    for level in 5 6; do
-	level1=`expr $level + 1`
-	echo -n "$level " >> order$v
-	if gfscompare2D -v sim-$level sim-$level1 $v 2>&1 | \
-	    awk '{if ($1 == "total") print $4 " " $6 " " $8;}' >> order$v; then :
-	else
-	    exit 1
-	fi
-	echo -n "$level " >> orderf$v
-	if gfscompare2D -f 5 -v sim-$level sim-$level1 $v 2>&1 | \
-	    awk '{if ($1 == "total") print $4 " " $6 " " $8;}' >> orderf$v; then :
-	else
-	    exit 1
-	fi
-    done
-done
-
-if cat <<EOF | python > convergence.tex; then :
-from check import *
-from sys import *
-from math import *
-
-for component,variable in [('x','U'),('y','V')]:
-  print r"""\begin{table}[htbp]
-  \caption{"""
-  print r"\label{channel-" + component + "}"
-  print r"Errors and convergence rates for the \$"+component+r"\$-component of the velocity.}"
-  print r"""\begin{center}
-  \begin{tabular}{||l|c|c|c||c|c|c||} \hline
-           & \multicolumn{3}{c||}{All cells} & \multicolumn{3}{c||}{Full 128 cells} \\\ \hline
-           & 128-256  & Rate & 256-512  & 128-256  & Rate & 256-512  \\\ \hline"""
-
-  for i,name in [(2,r"\$L_1\$"),(3,r"\$L_2\$"),(4,r"\$L_\infty\$")]:
-    a=Curve('order'+variable,1,i)
-    b=Curve('orderf'+variable,1,i)
-    print name,
-    print "& %.2e & %4.2f & %.2e & %.2e & %4.2f & %.2e" % (\
-    a.l[0][1], log(a.l[0][1]/a.l[1][1])/log(2.), a.l[1][1], \
-    b.l[0][1], log(b.l[0][1]/b.l[1][1])/log(2.), b.l[1][1]),
-    print r"\\\"
-
-    a=Curve('order'+variable+'.ref',1,i)
-    b=Curve('orderf'+variable+'.ref',1,i)
-    print "& {\color{blue}%.2e} & {\color{blue}%4.2f} & {\color{blue}%.2e} & {\color{blue}%.2e} & {\color{blue}%4.2f} & {\color{blue}%.2e}" % (\
-    a.l[0][1], log(a.l[0][1]/a.l[1][1])/log(2.), a.l[1][1], \
-    b.l[0][1], log(b.l[0][1]/b.l[1][1])/log(2.), b.l[1][1]),
-    print r"\\\"
-
-  print r"\hline"
-  print r"""\end{tabular}
-  \end{center}
-  \end{table}"""
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-
-for f in ['orderU','orderV','orderfU','orderfV']:
-   if (Curve(f,1,2) - Curve(f+'.ref',1,2)).max() > 1e-6 or\
-      (Curve(f,1,3) - Curve(f+'.ref',1,3)).max() > 1e-6 or\
-      (Curve(f,1,4) - Curve(f+'.ref',1,4)).max() > 1e-6:
-      exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/channel/orderU.ref b/test/channel/orderU.ref
deleted file mode 100644
index 28fcf6f..0000000
--- a/test/channel/orderU.ref
+++ /dev/null
@@ -1,2 +0,0 @@
-5 1.176e-04 2.889e-04 2.334e-03
-6 5.092e-05 1.544e-04 1.618e-03
diff --git a/test/channel/orderV.ref b/test/channel/orderV.ref
deleted file mode 100644
index 0e79301..0000000
--- a/test/channel/orderV.ref
+++ /dev/null
@@ -1,2 +0,0 @@
-5 1.728e-04 5.273e-04 4.552e-03
-6 4.903e-05 1.914e-04 2.427e-03
diff --git a/test/channel/orderfU.ref b/test/channel/orderfU.ref
deleted file mode 100644
index 9008f1d..0000000
--- a/test/channel/orderfU.ref
+++ /dev/null
@@ -1,2 +0,0 @@
-5 1.021e-04 2.578e-04 2.177e-03
-6 3.737e-05 1.128e-04 1.362e-03
diff --git a/test/channel/orderfV.ref b/test/channel/orderfV.ref
deleted file mode 100644
index 59385fc..0000000
--- a/test/channel/orderfV.ref
+++ /dev/null
@@ -1,2 +0,0 @@
-5 1.537e-04 4.966e-04 4.552e-03
-6 3.415e-05 1.428e-04 2.282e-03
diff --git a/test/check.py b/test/check.py
deleted file mode 100644
index 79a5cbd..0000000
--- a/test/check.py
+++ /dev/null
@@ -1,69 +0,0 @@
-from sys import *
-from math import *
-
-class Curve:
-	def read(self,file,x,y):
-		line = file.readline()
-		while line:
-			record = line.split()
-			if record[0] != "#":
-				self.l.append((float(record[x-1]),float(record[y-1])))
-			line = file.readline()
-	def __init__(self,f=None,x=1,y=2):
-		self.l = []
-		if f:
-			self.read(open(f,'r'),x,y)
-	def value(self,x):
-		l,u = 0,len(self.l)-1
-		if u == l:
-			return self.l[u][1]
-		while u - l > 1:
-			i = (u + l)/2
-			if self.l[i][0] > x:
-				u = i
-			else:
-				l = i
-		x0,x1,y0,y1 = self.l[l][0],self.l[u][0],self.l[l][1],self.l[u][1]
-		return y0 + (x - x0)/(x1 - x0)*(y1 - y0)
-	def __sub__(self,other):
-		c = Curve()
-		if len(self.l) < len(other.l):
-			for p in self.l:
-				c.l.append((p[0], p[1] - other.value(p[0])))
-		else:
-			for p in other.l:
-				c.l.append((p[0], self.value(p[0]) - p[1]))
-		return c
-	def sum(self,f=lambda x: x):
-		s = 0.
-		p1 = None
-		for p in self.l:
-			if p1:
-				s += (p[0] - p1[0])*f((p[1] + p1[1])/2.)
-			p1 = p
-		return s
-	def max(self,f=lambda x: x):
-		m = None
-		for p in self.l:
-			v = f(p[1])
-			if not m or v > m:
-				m = v
-		return m
-	def min(self,f=lambda x: x):
-		m = None
-		for p in self.l:
-			v = f(p[1])
-			if not m or v < m:
-				m = v
-		return m
-	def mean(self):
-		return self.sum()/self.sum(lambda x: 1.)
-	def norm1(self):
-		return self.sum(lambda x: abs(x))/self.sum(lambda x: 1.)
-	def norm2(self):
-		return sqrt(self.sum(lambda x: x*x)/self.sum(lambda x: 1.))
-	def normi(self):
-		return self.max(lambda x: abs(x))
-	def write(self):
-		for p in self.l:
-			print p[0],p[1]
diff --git a/test/circle/circle.gfs b/test/circle/circle.gfs
deleted file mode 100644
index 2481914..0000000
--- a/test/circle/circle.gfs
+++ /dev/null
@@ -1,76 +0,0 @@
-# Title: Convergence of the Poisson solver with solid boundaries
-#
-# Description:
-#
-# Another of the test cases presented in Popinet \cite{popinet2003}. A
-# circular solid boundary of radius 0.25 is embedded in the
-# domain. The same right-hand-side is used.
-# 
-# This time the problem does not have an analytical solution and we
-# use Richardson extrapolation to estimate the error for a given
-# resolution.
-#
-# \begin{figure}[htbp]
-# \caption{\label{solution}Solution of the Poisson equation.}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{solution.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{residual}Evolution of the residual.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{residual.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{rate}Average reduction factor.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{rate.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the error as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh circle.sh circle.gfs
-# Version: 1.1.0
-# Required files: circle.sh res-7.ref error.ref order.ref solution.gfv
-# Generated files: residual.eps rate.eps error.eps order.eps solution.eps
-#
-1 0 GfsPoisson GfsBox GfsGEdge {} {
-  Time { iend = 10 }
-  Refine LEVEL
-  Solid (ellipse (0, 0, 0.25, 0.25))
-  ApproxProjectionParams { nrelax = 4 tolerance = 1e-30 erelax = 2 }
-  Init {} {
-    Div = {
-      int k = 3, l = 3;
-      return -M_PI*M_PI*(k*k + l*l)*sin (M_PI*k*x)*sin (M_PI*l*y);
-    }
-  }
-  OutputTime { istep = 1 } {
-    awk '{print n++, $8}' > time
-  }
-  OutputProjectionStats { istep = 1 } {
-    awk '{
-      if ($1 == "niter:") printf ("%d ", $2);
-      if ($1 == "residual.infty:") print $3 " " $4;
-    }' > proj
-  }
-  OutputSimulation { start = end } sim-LEVEL { variables = P }
-}
-GfsBox {}
diff --git a/test/circle/circle.sh b/test/circle/circle.sh
deleted file mode 100644
index 41d2b61..0000000
--- a/test/circle/circle.sh
+++ /dev/null
@@ -1,93 +0,0 @@
-if ! $donotrun; then
-    for level in 3 4 5 6 7 8 9; do
-	if ( sed "s/LEVEL/$level/g" < $1 | gerris2D - ) && join time proj > res-$level; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-rm -f error
-for level in 3 4 5 6 7 8; do
-    next=`expr $level + 1`
-    echo -n "$level " >> error
-    if gfscompare2D -C -c -v sim-$level sim-$next P 2>&1 | \
-	awk '{if ($1 == "total") print $4 " " $6 " " $8;}' >> error; then :
-    else
-	exit 1
-    fi
-done
-
-if echo "Save solution.eps { format = EPS line_width = 0.25}" | gfsview-batch2D sim-9 solution.gfv; then :
-else
-    exit 1
-fi
-
-if awk '
-BEGIN { n = 0 }
-{
-  l[n] = $1; n1[n] = $2; n2[n] = $3; ni[n++] = $4;
-}
-END {
-  for (i = 1; i < n; i++)
-    print l[i] " " log(n1[i-1]/n1[i])/log(2.) " " log(n2[i-1]/n2[i])/log(2.) " " log(ni[i-1]/ni[i])/log(2.);
-}' < error > order; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'residual.eps'
-    set xlabel 'CPU time'
-    set ylabel 'Maximum residual'
-    set logscale y
-    plot 'res-7.ref' u 2:3 t 'ref' w lp, 'res-7' u 2:3 t '' w lp
-    set output 'rate.eps'
-    set xlabel 'V-cycle'
-    set ylabel 'Cumulative residual reduction factor'
-    unset logscale
-    plot 'res-7.ref' u 1:4 t 'ref' w lp, 'res-7' u 1:4 t '' w lp
-    set output 'error.eps'
-    set xlabel 'Level'
-    set ylabel 'Error norms'
-    set key
-    set logscale y
-    plot 'error.ref' u 1:2 t '1 (ref)' w lp, \
-         'error.ref' u 1:3 t '2 (ref)' w lp, \
-         'error.ref' u 1:4 t 'max (ref)' w lp, \
-         'error' u 1:2 t '1' w lp, \
-         'error' u 1:3 t '2' w lp, \
-         'error' u 1:4 t 'max' w lp
-    set output 'order.eps'
-    set xlabel 'Level'
-    set ylabel 'Order'
-    set key
-    unset logscale
-    set xtics 0,1
-    set ytics 0,1
-    set grid
-    plot [][0:3] 'order.ref' u 1:2 t '1 (ref)' w lp, \
-                 'order.ref' u 1:3 t '2 (ref)' w lp, \
-                 'order.ref' u 1:4 t 'max (ref)' w lp, \
-                 'order' u 1:2 t '1' w lp, \
-                 'order' u 1:3 t '2' w lp, \
-                 'order' u 1:4 t 'max' w lp
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-c = Curve()
-for p in Curve('res-7.ref',2,3).l:
-    c.l.append((p[0]+0.1, p[1]))
-if (Curve('res-7',2,3) - c).max() > 1e-8 or\
-   (Curve('error',1,4) - Curve('error.ref',1,4)).max() > 1e-6:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/circle/error.ref b/test/circle/error.ref
deleted file mode 100644
index dfc1e3b..0000000
--- a/test/circle/error.ref
+++ /dev/null
@@ -1,6 +0,0 @@
-3 7.983e-02 1.068e-01 2.972e-01
-4 1.773e-02 2.227e-02 4.846e-02
-5 4.495e-03 5.567e-03 1.339e-02
-6 1.088e-03 1.356e-03 3.952e-03
-7 2.809e-04 3.504e-04 1.802e-03
-8 6.908e-05 8.573e-05 3.554e-04
diff --git a/test/circle/order.ref b/test/circle/order.ref
deleted file mode 100644
index 3d65837..0000000
--- a/test/circle/order.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-4 2.17074 2.26174 2.61657
-5 1.9798 2.00013 1.85564
-6 2.04664 2.03754 1.7605
-7 1.95355 1.95228 1.13298
-8 2.02372 2.03113 2.34208
diff --git a/test/circle/refined/error.ref b/test/circle/refined/error.ref
deleted file mode 100644
index 3478a9a..0000000
--- a/test/circle/refined/error.ref
+++ /dev/null
@@ -1,6 +0,0 @@
-3 1.031e-01 1.423e-01 3.652e-01
-4 2.943e-02 3.575e-02 7.316e-02
-5 6.323e-03 7.547e-03 1.639e-02
-6 1.472e-03 1.768e-03 3.912e-03
-7 3.350e-04 4.078e-04 9.345e-04
-8 8.133e-05 9.961e-05 3.329e-04
diff --git a/test/circle/refined/order.ref b/test/circle/refined/order.ref
deleted file mode 100644
index d164206..0000000
--- a/test/circle/refined/order.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-4 1.80868 1.99292 2.31956
-5 2.21861 2.24397 2.15824
-6 2.10283 2.09378 2.06684
-7 2.13554 2.11618 2.06564
-8 2.0423 2.0335 1.48911
diff --git a/test/circle/refined/refined.gfs b/test/circle/refined/refined.gfs
deleted file mode 100644
index bf71863..0000000
--- a/test/circle/refined/refined.gfs
+++ /dev/null
@@ -1,77 +0,0 @@
-# Title: Star-shaped solid boundary with refinement
-#
-# Description:
-#
-# Same as the star test but with two levels of refinement added near 
-# the solid boundary.
-#
-# \begin{figure}[htbp]
-# \caption{\label{solution}Solution of the Poisson equation.}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{solution.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{residual}Evolution of the residual.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{residual.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{rate}Average reduction factor.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{rate.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the error as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../circle.sh refined.gfs
-# Version: 1.1.2
-# Required files: res-7.ref error.ref order.ref solution.gfv
-# Generated files: residual.eps rate.eps error.eps order.eps solution.eps
-#
-1 0 GfsPoisson GfsBox GfsGEdge {} {
-    Time { iend = 10 }
-    Refine LEVEL
-    RefineSolid (LEVEL + 2)
-    Solid ({
-            double dr = 0.1;
-            double theta = atan2 (y, x);
-            double radius = 0.79*(0.45 - dr + dr*cos (6.*theta));
-            return x*x + y*y - radius*radius;
-          })
-    ApproxProjectionParams { nrelax = 4 tolerance = 1e-30 }
-    Init {} {
-        Div = {
-            int k = 3, l = 3;
-            return -M_PI*M_PI*(k*k + l*l)*sin (M_PI*k*x)*sin (M_PI*l*y);
-        }
-    }
-    OutputTime { istep = 1 } {
-        awk '{print n++, $8}' > time
-    }
-    OutputProjectionStats { istep = 1 } {
-        awk '{
-      if ($1 == "niter:") printf ("%d ", $2);
-      if ($1 == "residual.infty:") print $3 " " $4;
-    }' > proj
-    }
-    OutputSimulation { start = end } sim-LEVEL { variables = P }
-}
-GfsBox {}
diff --git a/test/circle/refined/res-7.ref b/test/circle/refined/res-7.ref
deleted file mode 100644
index d9f4be2..0000000
--- a/test/circle/refined/res-7.ref
+++ /dev/null
@@ -1,11 +0,0 @@
-0 0.00000000 1.775e+02 0
-1 0.13000000 7.967e+01 2.2
-2 0.24000000 3.404e+01 2.3
-3 0.36000000 4.312e+00 3.5
-4 0.47000000 1.104e+00 3.6
-5 0.58000000 3.463e-01 3.5
-6 0.70000000 1.017e-01 3.5
-7 0.81000000 2.778e-02 3.5
-8 0.92000000 8.372e-03 3.5
-9 1.03000000 2.247e-03 3.5
-10 1.14000000 6.869e-04 3.5
diff --git a/test/circle/refined/solution.gfv b/test/circle/refined/solution.gfv
deleted file mode 100644
index 26884cc..0000000
--- a/test/circle/refined/solution.gfv
+++ /dev/null
@@ -1,38 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 30
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Boundaries {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Solid {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 30
-}
diff --git a/test/circle/res-7.ref b/test/circle/res-7.ref
deleted file mode 100644
index 67ef393..0000000
--- a/test/circle/res-7.ref
+++ /dev/null
@@ -1,11 +0,0 @@
-0 0.00000000 1.775e+02 0
-1 0.07000000 4.867e+00 36
-2 0.13000000 1.526e-01 34
-3 0.19000000 5.844e-03 31
-4 0.24000000 2.190e-04 30
-5 0.30000000 7.283e-06 30
-6 0.36000000 2.330e-07 30
-7 0.42000000 6.724e-09 31
-8 0.48000000 2.837e-10 30
-9 0.54000000 1.958e-11 28
-10 0.60000000 1.640e-11 20
diff --git a/test/circle/solution.gfv b/test/circle/solution.gfv
deleted file mode 100644
index 26884cc..0000000
--- a/test/circle/solution.gfv
+++ /dev/null
@@ -1,38 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 30
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Boundaries {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Solid {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 30
-}
diff --git a/test/circle/star/error.ref b/test/circle/star/error.ref
deleted file mode 100644
index ce48330..0000000
--- a/test/circle/star/error.ref
+++ /dev/null
@@ -1,6 +0,0 @@
-3 1.467e-01 1.691e-01 2.966e-01
-4 1.987e-02 2.465e-02 5.349e-02
-5 6.993e-03 8.183e-03 1.644e-02
-6 1.120e-03 1.413e-03 3.203e-03
-7 2.713e-04 3.451e-04 1.543e-03
-8 1.184e-04 1.382e-04 5.969e-04
diff --git a/test/circle/star/order.ref b/test/circle/star/order.ref
deleted file mode 100644
index 99a085b..0000000
--- a/test/circle/star/order.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-4 2.88421 2.77822 2.47118
-5 1.50661 1.59089 1.70206
-6 2.64241 2.53387 2.35971
-7 2.04554 2.03368 1.05369
-8 1.19622 1.32026 1.37018
diff --git a/test/circle/star/res-7.ref b/test/circle/star/res-7.ref
deleted file mode 100644
index f6ed7da..0000000
--- a/test/circle/star/res-7.ref
+++ /dev/null
@@ -1,11 +0,0 @@
-0 0.00000000 1.775e+02 0
-1 0.07000000 2.218e+01 8
-2 0.13000000 7.922e-01 15
-3 0.19000000 2.020e-02 21
-4 0.26000000 9.981e-04 21
-5 0.32000000 3.120e-05 22
-6 0.38000000 1.313e-06 23
-7 0.44000000 6.383e-08 22
-8 0.50000000 2.329e-09 23
-9 0.57000000 1.308e-10 22
-10 0.62000000 2.316e-11 19
diff --git a/test/circle/star/solution.gfv b/test/circle/star/solution.gfv
deleted file mode 100644
index 26884cc..0000000
--- a/test/circle/star/solution.gfv
+++ /dev/null
@@ -1,38 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 30
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Boundaries {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Solid {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 30
-}
diff --git a/test/circle/star/star.gfs b/test/circle/star/star.gfs
deleted file mode 100644
index 4a21b33..0000000
--- a/test/circle/star/star.gfs
+++ /dev/null
@@ -1,83 +0,0 @@
-# Title: Star-shaped solid boundary
-#
-# Description:
-#
-# A similar but more difficult test using a star-shaped solid boundary
-# defined in polar coordinates as
-# $$
-# r(\theta)=0.2765+0.079\cos(6\theta)
-# $$
-#
-# The convergence rate is smaller because the shape of the boundary is
-# not represented properly on the coarsest levels of the multigrid
-# hierarchy.
-#
-# \begin{figure}[htbp]
-# \caption{\label{solution}Solution of the Poisson equation.}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{solution.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{residual}Evolution of the residual.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{residual.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{rate}Average reduction factor.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{rate.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the error as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../circle.sh star.gfs
-# Version: 1.1.0
-# Required files: res-7.ref error.ref order.ref solution.gfv
-# Generated files: residual.eps rate.eps error.eps order.eps solution.eps
-#
-1 0 GfsPoisson GfsBox GfsGEdge {} {
-    Time { iend = 10 }
-    Refine LEVEL
-    Solid ({
-            double dr = 0.1;
-            double theta = atan2 (y, x);
-            double radius = 0.79*(0.45 - dr + dr*cos (6.*theta));
-            return x*x + y*y - radius*radius;
-          })
-    ApproxProjectionParams { nrelax = 4 tolerance = 1e-30 erelax = 2 }
-    Init {} {
-        Div = {
-            int k = 3, l = 3;
-            return -M_PI*M_PI*(k*k + l*l)*sin (M_PI*k*x)*sin (M_PI*l*y);
-        }
-    }
-    OutputTime { istep = 1 } {
-        awk '{print n++, $8}' > time
-    }
-    OutputProjectionStats { istep = 1 } {
-        awk '{
-      if ($1 == "niter:") printf ("%d ", $2);
-      if ($1 == "residual.infty:") print $3 " " $4;
-    }' > proj
-    }
-    OutputSimulation { start = end } sim-LEVEL { variables = P }
-}
-GfsBox {}
diff --git a/test/circle/thin/error.ref b/test/circle/thin/error.ref
deleted file mode 100644
index 6ba8e5e..0000000
--- a/test/circle/thin/error.ref
+++ /dev/null
@@ -1,6 +0,0 @@
-3 1.577e-01 1.943e-01 4.335e-01
-4 6.417e-02 7.586e-02 2.048e-01
-5 2.960e-02 3.379e-02 1.364e-01
-6 1.426e-02 1.605e-02 9.463e-02
-7 7.001e-03 7.844e-03 6.646e-02
-8 3.468e-03 3.880e-03 4.687e-02
diff --git a/test/circle/thin/order.ref b/test/circle/thin/order.ref
deleted file mode 100644
index 59a91d2..0000000
--- a/test/circle/thin/order.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-4 1.29721 1.35687 1.08182
-5 1.1163 1.16674 0.586372
-6 1.05362 1.07402 0.527474
-7 1.02634 1.03291 0.509811
-8 1.01346 1.01553 0.503821
diff --git a/test/circle/thin/res-7.ref b/test/circle/thin/res-7.ref
deleted file mode 100644
index 19c7d9f..0000000
--- a/test/circle/thin/res-7.ref
+++ /dev/null
@@ -1,10 +0,0 @@
-1 0.4 2.895e+02 0.61
-2 0.73 8.132e+01 1.5
-3 1.07 2.256e+01 2
-4 1.39 6.258e+00 2.3
-5 1.7 1.736e+00 2.5
-6 2.03 4.814e-01 2.7
-7 2.36 1.335e-01 2.8
-8 2.68 3.703e-02 2.9
-9 3.05 1.027e-02 3
-10 3.36 2.848e-03 3
diff --git a/test/circle/thin/solution.gfv b/test/circle/thin/solution.gfv
deleted file mode 100644
index 63bf42e..0000000
--- a/test/circle/thin/solution.gfv
+++ /dev/null
@@ -1,50 +0,0 @@
-# GfsView 2D
-View {
-  tx = -0.591968 ty = 0.496337
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 37.9885
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Boundaries {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Solid {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 30
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-}
diff --git a/test/circle/thin/thin.gfs b/test/circle/thin/thin.gfs
deleted file mode 100644
index 627d78a..0000000
--- a/test/circle/thin/thin.gfs
+++ /dev/null
@@ -1,78 +0,0 @@
-# Title: Thin wall at box boundary
-#
-# Description:
-#
-# Boxes are used to setup a similar problem but with an infinitely
-# thin wall.
-#
-# \begin{figure}[htbp]
-# \caption{\label{solution}Solution of the Poisson equation.}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{solution.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{residual}Evolution of the residual.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{residual.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{rate}Average reduction factor.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{rate.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the error as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../circle.sh thin.gfs
-# Version: 0.8.0
-# Required files: res-7.ref error.ref order.ref solution.gfv
-# Generated files: residual.eps rate.eps error.eps order.eps solution.eps
-#
-4 3 GfsPoisson GfsBox GfsGEdge {} {
-  Time { iend = 10 }
-  Refine LEVEL
-  ApproxProjectionParams { nrelax = 4 tolerance = 1e-30 erelax = 2 }
-  Init {} {
-    Div = {
-      int k = 3, l = 3;
-      x = (x - 0.5)/2.;
-      y = (y + 0.5)/2.;
-      return -M_PI*M_PI*(k*k + l*l)*sin (M_PI*k*x)*sin (M_PI*l*y);
-    }
-  }
-  OutputTime { istep = 1 } {
-    awk '{print n++, $8}' > time
-  }
-  OutputProjectionStats { istep = 1 } {
-    awk '{
-      if ($1 == "niter:") printf ("%d ", $2);
-      if ($1 == "residual.infty:") print $3 " " $4;
-    }' > proj
-  }
-  OutputSimulation { start = end } sim-LEVEL { variables = P }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-1 2 right
-2 3 bottom
-3 4 left
diff --git a/test/cosine/cosine.gfs b/test/cosine/cosine.gfs
deleted file mode 100644
index 127de78..0000000
--- a/test/cosine/cosine.gfs
+++ /dev/null
@@ -1,184 +0,0 @@
-# Title: Advection of a cosine bell around the sphere
-#
-# Description:
-#
-# This test case was suggested by Williamson et
-# al. \cite{williamson92} (Problem \#1). A "cosine bell" initial
-# concentration is given by
-# $$
-# h(\lambda,\theta)=(h_0/2)(1+\cos(\pi r/R))
-# $$
-# if $r<R$ and 0 otherwise, with $R=1/3$ and
-# $$
-# r=\arccos[\sin\theta_c\sin\theta+\cos\theta_c\cos\theta\cos(\lambda-\lambda_c)]
-# $$
-# the great circle distance between longitude, latitude
-# $(\lambda,\theta)$ and the center initially taken as
-# $(\lambda_c,\theta_c)=(3\pi/2,0)$.
-#
-# The advection velocity field corresponds to solid-body rotation at an
-# angle $\alpha$ to the polar axis of the spherical coordinate
-# system. It is given by the streamfunction
-# $$
-# \psi=-u_0(\sin\theta\cos\alpha-\cos\lambda\cos\theta\sin\alpha)
-# $$
-#
-# The cosine bell field is rotated once around the sphere and should
-# come back exactly to its original position. The difference between
-# the initial and final fields is a measure of the accuracy of the
-# advection scheme coupled with the spherical coordinate mapping (the
-# "conformal expanded spherical cube" metric in our case).
-#
-# For the "spherical cube" metric, two angles are considered: 45
-# degrees which rotates the cosine bell above four of the eight "poles"
-# of the mapping and 90 degrees which avoids the poles entirely. Mass
-# is conserved to within machine accuracy in either case.
-#
-# The mesh is adapted dynamically according to the gradient of tracer
-# concentration.
-#
-# \begin{figure}[htbp] 
-# \caption{\label{solution45}Tracer field after one rotation around the
-# sphere with $\alpha=45^\circ$ (red). Reference solution
-# (green). Zero level contour line (blue). Equivalent static
-# resolutions (a) $16\times 16\times 6$. (b) $32\times 32\times
-# 6$. (c) $64\times 64\times 6$. (d) $128\times 128\times 6$.}
-# \begin{center}
-# \begin{tabular}{cc}
-# (a) \includegraphics[width=0.45\hsize]{isolines-4-45.eps} &
-# (b) \includegraphics[width=0.45\hsize]{isolines-5-45.eps} \\
-# (c) \includegraphics[width=0.45\hsize]{isolines-6-45.eps} &
-# (d) \includegraphics[width=0.45\hsize]{isolines-7-45.eps}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp] 
-# \caption{\label{solution90}Tracer field after one rotation around the
-# sphere with $\alpha=90^\circ$ (red). Reference solution
-# (green). Zero level contour line (blue). Equivalent static
-# resolutions (a) $16\times 16\times 6$. (b) $32\times 32\times
-# 6$. (c) $64\times 64\times 6$. (d) $128\times 128\times 6$.}
-# \begin{center}
-# \begin{tabular}{cc}
-# (a) \includegraphics[width=0.45\hsize]{isolines-4-90.eps} &
-# (b) \includegraphics[width=0.45\hsize]{isolines-5-90.eps} \\
-# (c) \includegraphics[width=0.45\hsize]{isolines-6-90.eps} &
-# (d) \includegraphics[width=0.45\hsize]{isolines-7-90.eps}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp] 
-# \caption{\label{error}Relative error norms (as defined in
-# \cite{williamson92}) as functions of spatial resolution. The results
-# of Rossmanith \cite{rossmanith2006} using a gnomonic spherical cube
-# metric and a different 2nd-order advection scheme are also
-# reproduced for comparison. (a) $\alpha=45^\circ$. (b)
-# $\alpha=90^\circ$.}
-# \begin{center}
-# \begin{tabular}{c}
-# (a) \includegraphics[width=0.7\hsize]{order-45.eps} \\
-# (b) \includegraphics[width=0.7\hsize]{order-90.eps}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh cosine.sh
-# Version: 091029
-# Required files: cosine.sh isolines.gfv reference.gfv zero.gfv error-45.ref error-90.ref rossmanith45 rossmanith90
-# Running time: 6 minutes
-# Generated files: isolines-4-45.eps  isolines-5-90.eps  isolines-7-45.eps  order-90.eps isolines-4-90.eps  isolines-6-45.eps  isolines-7-90.eps isolines-5-45.eps  isolines-6-90.eps  order-45.eps
-#
-Define U0 (2.*M_PI)
-
-6 12 GfsAdvection GfsBox GfsGEdge {} {
-  PhysicalParams { L = 2.*M_PI/4. }
-  MetricCubed M LEVEL
-  Time { end = 1 }
-  Refine LEVEL
-  VariableTracer T { 
-      gradient = gfs_center_gradient 
-      cfl = 1
-  }
-  Global {
-      #define DTR (M_PI/180.)
-      double bell (double x, double y, double t) {
-	  double h0 = 1.;
-	  double R = 1./3.;
-	  double lc = 3.*M_PI/2. + U0*t, tc = 0.;
-	  x *= DTR; y *= DTR;
-	  double r = acos (sin(tc)*sin(y) + cos (tc)*cos (y)*cos (x - lc));
-	  return r >= R ? 0. : (h0/2.)*(1. + cos (M_PI*r/R));
-      }
-  }
-  Init {} { T = bell(x,y,0) }
-  VariableStreamFunction Psi -U0*(sin (y*DTR)*cos (DTR*ALPHA) - cos (x*DTR)*cos (y*DTR)*sin (DTR*ALPHA))
-  AdaptGradient { istep = 1 } { cmax = 1e-4 maxlevel = LEVEL } T
-  OutputTime { istep = 10 } stderr
-#  OutputSimulation { istep = 10 } stdout
-  OutputSimulation { start = end } end-LEVEL-ALPHA.gfs
-  OutputErrorNorm { istep = 1 } { awk '{ print LEVEL,$3,$5,$7,$9}' > error-LEVEL-ALPHA } { v = T } {
-      s = bell(x,y,t)
-      v = E
-      relative = 1
-  }
-  OutputScalarSum { istep = 1 } t-LEVEL-ALPHA { v = T }
-  OutputScalarSum { istep = 1 } area-LEVEL-ALPHA { v = 1 }
-  EventScript { start = end } {
-      ( cat isolines.gfv
-        echo "Save isolines.gnu { format = Gnuplot }"
-        echo "Clear"
-        cat reference.gfv
-        echo "Save reference.gnu { format = Gnuplot }"
-	echo "Clear"
-        cat zero.gfv
-        echo "Save zero.gnu { format = Gnuplot }"
-      ) | gfsview-batch2D end-LEVEL-ALPHA.gfs
-      cat <<EOF | gnuplot
-        set term postscript eps lw 2 18 color
-        set output 'isolines-LEVEL-ALPHA.eps'
-        set size ratio -1
-        set xlabel 'Longitude'
-        set ylabel 'Latitude'
-        unset key
-        plot [-120:-60][-30:30]'isolines.gnu' w l, 'reference.gnu' w l, 'zero.gnu' w l
-EOF
-      fixbb isolines-LEVEL-ALPHA.eps
-      rm -f isolines.gnu reference.gnu zero.gnu
-
-      # check mass conservation
-      if awk '
-        BEGIN { min = 1000.; max = -1000.; }{ 
-          if ($5 < min) min = $5; 
-          if ($5 > max) max = $5; 
-        }
-        END {
-          if (max - min != 0.)
-            exit (1);
-        }' < t-LEVEL-ALPHA; then
-	  exit 0
-      else
-	  exit $GFS_STOP
-      fi
-  }
-}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-GfsBox {}
-1 2 right
-2 3 top
-3 4 right
-4 5 top
-5 6 right
-6 1 top
-1 3 top left
-3 5 top left
-5 1 top left
-2 6 bottom right
-4 2 bottom right
-6 4 bottom right
diff --git a/test/cosine/cosine.sh b/test/cosine/cosine.sh
deleted file mode 100644
index 7166c49..0000000
--- a/test/cosine/cosine.sh
+++ /dev/null
@@ -1,60 +0,0 @@
-levels="4 5 6 7"
-alphas="45 90"
-
-if ! $donotrun; then
-    for alpha in $alphas; do
-	for i in $levels; do
-	    if gerris2D -DLEVEL=$i -DALPHA=$alpha cosine.gfs 2> log-$i-$alpha; then :
-	    else
-		exit 1
-	    fi
-	done
-    done
-fi
-
-for alpha in $alphas; do
-    rm -f error-$alpha
-    for i in $levels; do
-	tail -n 1 error-$i-$alpha >> error-$alpha
-    done
-
-    if cat <<EOF | gnuplot ; then :
-set term postscript eps color enhanced lw 2 18
-set output 'order-$alpha.eps'
-set logscale
-set xtics 16,2,256
-set key spacing 1.5 bottom left
-ftitle(a,b) = sprintf("%.0f/x^{%4.2f}", exp(a), -b)
-f2(x)=a2+b2*x
-fit [3:]f2(x) 'error-$alpha' u (log(2**\$1)):(log(\$4)) via a2,b2
-fm(x)=am+bm*x
-fit [3:]fm(x) 'error-$alpha' u (log(2**\$1)):(log(\$5)) via am,bm
-set xlabel 'Spatial resolution'
-set ylabel 'Relative error norms'
-plot 'error-$alpha' u (2**\$1):4 t 'L2' w lp ps 2,  exp(f2(log(x))) t ftitle(a2,b2), \
-     'error-$alpha' u (2**\$1):5 t 'Max' w lp ps 2, exp(fm(log(x))) t ftitle(am,bm), \
-     'rossmanith$alpha' u 1:3 t 'L2 (Rossmanith)' w lp ps 2, \
-     'rossmanith$alpha' u 1:4 t 'Max (Rossmanith)' w lp ps 2 lt 1
-EOF
-    else
-	exit 1
-    fi
-done
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-c = Curve()
-print (Curve('error-45',1,4) - Curve('error-45.ref',1,4)).max()
-print (Curve('error-45',1,5) - Curve('error-45.ref',1,5)).max()
-print (Curve('error-90',1,4) - Curve('error-90.ref',1,4)).max()
-print (Curve('error-90',1,5) - Curve('error-90.ref',1,5)).max() 
-if (Curve('error-45',1,4) - Curve('error-45.ref',1,4)).max() > 1e-10 or\
-   (Curve('error-45',1,5) - Curve('error-45.ref',1,5)).max() > 1e-10 or\
-   (Curve('error-90',1,4) - Curve('error-90.ref',1,4)).max() > 1e-10 or\
-   (Curve('error-90',1,5) - Curve('error-90.ref',1,5)).max() > 1e-10:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/cosine/error-45.ref b/test/cosine/error-45.ref
deleted file mode 100644
index 2b246e0..0000000
--- a/test/cosine/error-45.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-4 1 1.002e+00 5.316e-01 5.358e-01
-5 1 3.577e-01 2.092e-01 1.909e-01
-6 1 8.026e-02 5.107e-02 4.311e-02
-7 1 1.557e-02 1.174e-02 1.248e-02
diff --git a/test/cosine/error-90.ref b/test/cosine/error-90.ref
deleted file mode 100644
index 1d84b60..0000000
--- a/test/cosine/error-90.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-4 1 6.565e-01 4.073e-01 3.483e-01
-5 1 2.002e-01 1.266e-01 9.351e-02
-6 1 3.949e-02 2.585e-02 1.578e-02
-7 1 8.840e-03 6.328e-03 5.954e-03
diff --git a/test/cosine/isolines.gfv b/test/cosine/isolines.gfv
deleted file mode 100644
index 25a2b41..0000000
--- a/test/cosine/isolines.gfv
+++ /dev/null
@@ -1,28 +0,0 @@
-# GfsView 2D
-View {
-  tx = -2.01967 ty = -2.03136
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 5.09252
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} T {
-  amin = 0 min = 0
-  amax = 0 max = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 9
-}
diff --git a/test/cosine/reference.gfv b/test/cosine/reference.gfv
deleted file mode 100644
index 09882fc..0000000
--- a/test/cosine/reference.gfv
+++ /dev/null
@@ -1,28 +0,0 @@
-# GfsView 2D
-View {
-  tx = -2.04454 ty = -2.04048
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 4.18068
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0.733654 b = 0.0148928
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} bell(x,y,0) {
-  amin = 0 min = 0
-  amax = 0 max = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 9
-}
diff --git a/test/cosine/rossmanith45 b/test/cosine/rossmanith45
deleted file mode 100644
index a8c0e02..0000000
--- a/test/cosine/rossmanith45
+++ /dev/null
@@ -1,6 +0,0 @@
-# see Rossmanith, 2006, JCP 213, Table 3, t = 1
-# resolution L1 L2 Linfty
-20    5.02e-1 	4.01e-1		4.62e-1
-40    1.12e-1 	1.07e-1 	1.76e-1
-80    2.12e-2 	2.23e-2 	5.85e-2
-160   4.77e-3 	5.32e-3 	1.96e-2
diff --git a/test/cosine/rossmanith90 b/test/cosine/rossmanith90
deleted file mode 100644
index 8ab0ce7..0000000
--- a/test/cosine/rossmanith90
+++ /dev/null
@@ -1,6 +0,0 @@
-# see Rossmanith, 2006, JCP 213, Table 2, t = 1
-# resolution L1 L2 Linfty
-20    2.48e-1 1.96e-1 1.83e-1
-40    5.70e-2 4.62e-2 4.57e-2
-80    1.47e-2 1.20e-2 1.48e-2
-160   3.77e-3 3.22e-3 6.26e-3
diff --git a/test/cosine/zero.gfv b/test/cosine/zero.gfv
deleted file mode 100644
index 8298c7b..0000000
--- a/test/cosine/zero.gfv
+++ /dev/null
@@ -1,28 +0,0 @@
-# GfsView 2D
-View {
-  tx = -2.01967 ty = -2.03136
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 5.09252
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} T {
-  amin = 0 min = 0
-  amax = 0 max = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 0 levels = 0
-}
diff --git a/test/couette/couette.gfs b/test/couette/couette.gfs
deleted file mode 100644
index dbacb26..0000000
--- a/test/couette/couette.gfs
+++ /dev/null
@@ -1,80 +0,0 @@
-# Title: Creeping Couette flow of Generalised Newtonian fluids
-#
-# Description:
-#
-# Following \cite{vola2004}, we solve for the 2D creeping flow between
-# two coaxial cylinders. The inner cylinder rotates at a constant
-# speed. The outer cylinder is fixed. The viscosity is a function of
-# the second principal invariant of the shear strain rate tensor:
-# $$|D|=\sqrt{\sum_{i,j}D_{ij}D_{ij}}$$
-# where $D_{ij}=(\partial_iu_j+\partial_ju_i)/2$.
-#
-# We use a general Herschel-Bulkley formulation of the form:
-# $$\mu(|D|)={\tau_y\over 2|D|}+\mu|D|^{N-1},$$ where $\tau_y$ is the
-# yield stress. The solutions obtained for the stationary tangential
-# velocity profiles for Newtonian, Power law ($N=0.5$),
-# Herschel-Bulkley ($\mu=0.0672$, $\tau_y=0.12$, $N=0.5$) and Bingham
-# ($\mu=1$, $\tau_y=10$, $N=1$) fluids are illustrated on Figure
-# \ref{prof}, together with the analytical solutions given by
-# \cite{bird87}.
-#
-# The Bingham fluid case is a particularly severe test of the
-# diffusion solver, as the outer part of the fluid ring ($r>0.35$)
-# behaves likes a rigid body attached to the outer boundary.
-#
-# \begin{figure}[htbp]
-# \caption{\label{prof}Tangential velocity as a function of radial position for
-# various Generalised Newtonian fluids.}
-# \begin{center}
-# \includegraphics[width=\hsize]{prof.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh couette.sh couette.gfs
-# Version: 1.0.0
-# Required files: couette.sh profile prof-0.ref prof-1.ref prof-2.ref prof-3.ref
-# Running time: 32 minutes
-# Generated files: prof.eps
-#
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-  Time { iend = 100 dtmax = 1e-2 }
-  Refine 6
-  Solid (ellipse (0,0,0.25,0.25)) { flip = 1 scale = 1.9999 }
-  Solid (ellipse (0,0,0.25,0.25))
-  ApproxProjectionParams { tolerance = 1e-6 }
-  AdvectionParams { scheme = none }
-  SourceViscosity {} {
-    double mu, ty, N, mumax = 1000.;
-    double m;
-
-    switch (MODEL) {
-    case 0: /* Newtonian */
-      mu = 1.; ty = 0.; N = 1.; break;
-    case 1: /* Power-law (shear-thinning) */
-      mu = 0.08; ty = 0.; N = 0.5; break;
-    case 2: /* Herschel-Bulkley */
-      mu = 0.0672; ty = 0.12; N = 0.5; break;
-    case 3: /* Bingham */
-      mu = 1.; ty = 10.; N = 1.; break;
-    }
-    if (D2 > 0.)
-      m = ty/(2.*D2) + mu*exp ((N - 1.)*log (D2));
-    else {
-      if (ty > 0. || N < 1.) m = mumax;
-      else m = N == 1. ? mu : 0.;
-    }
-    return MIN (m, mumax);
-  } {
-    # Crank-Nicholson does not converge for these cases, we need backward Euler
-    # (beta = 0.5 -> Crank-Nicholson, beta = 1 -> backward Euler)
-    beta = 1
-  }
-  GfsSurfaceBc U Dirichlet (x*x + y*y > 0.140625 ? 0. : - ay)
-  GfsSurfaceBc V Dirichlet (x*x + y*y > 0.140625 ? 0. :   ax)
-  EventStop { istep = 1 } U 1e-4 DU
-
-  OutputScalarNorm { istep = 1 } du-MODEL { v = DU }
-  OutputLocation { start = end } { awk '{if ($1 != "#") print $2,$8;}' > prof-MODEL } profile
-}
-GfsBox {}
diff --git a/test/couette/couette.sh b/test/couette/couette.sh
deleted file mode 100644
index 8e7c7b0..0000000
--- a/test/couette/couette.sh
+++ /dev/null
@@ -1,42 +0,0 @@
-if ! $donotrun; then
-    for model in 0 1 2 3; do
-	if sed "s/MODEL/$model/g" < $1 | gerris2D -; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-if cat <<EOF | gnuplot ; then :
-set term postscript eps color lw 3 solid 20
-set output 'prof.eps'
-set xlabel 'r'
-set ylabel 'Tangential velocity'
-powerlaw(r,N)=r*((0.5/r)**(2./N) - 1.)/((0.5/0.25)**(2./N) - 1.)
-hb(r,Rl)=(r > Rl ? 0. : r*sqrt(2.)*0.12*0.12/(4.*0.0672*0.0672)*(3./4.+(Rl/r)**4/4.-(Rl/r)**2+log(Rl/r)))
-bingham(r,Rl)=(r > Rl ? 0. : r*sqrt(2.)*10./4.*((Rl/r)**2-2.*log(Rl/r)-1.))
-plot [0.25:0.5][0:0.25]powerlaw(x,1.) t "Newtonian", 'prof-0' w p ps 2 pt 9 t "",\
-               powerlaw(x,0.5) t "Power law", 'prof-1' w p ps 2 pt 9 t "",\
-               hb(x,0.4637) t "Herschel-Bulkley", 'prof-2' w p ps 2 pt 9 t "",\
-               bingham(x,0.34924) t "Bingham", 'prof-3' w p ps 2 pt 9 t ""
-EOF
-else
-   exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-print (Curve('prof-0',1,2) - Curve('prof-0.ref',1,2)).norm2(),\
-   (Curve('prof-1',1,2) - Curve('prof-1.ref',1,2)).norm2(),\
-   (Curve('prof-2',1,2) - Curve('prof-2.ref',1,2)).norm2(),\
-   (Curve('prof-3',1,2) - Curve('prof-3.ref',1,2)).norm2()
-if (Curve('prof-0',1,2) - Curve('prof-0.ref',1,2)).norm2() > 3.6e-4 or \
-   (Curve('prof-1',1,2) - Curve('prof-1.ref',1,2)).norm2() > 6.3e-4 or \
-   (Curve('prof-2',1,2) - Curve('prof-2.ref',1,2)).norm2() > 21e-4 or \
-   (Curve('prof-3',1,2) - Curve('prof-3.ref',1,2)).norm2() > 22e-4:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/couette/prof-0.ref b/test/couette/prof-0.ref
deleted file mode 100644
index 66e129b..0000000
--- a/test/couette/prof-0.ref
+++ /dev/null
@@ -1,19 +0,0 @@
-0.2625 0.228374
-0.275 0.211074
-0.2875 0.193769
-0.3 0.177503
-0.3125 0.162164
-0.325 0.147884
-0.3375 0.13429
-0.35 0.121324
-0.3625 0.108931
-0.375 0.097061
-0.3875 0.0858052
-0.4 0.0749568
-0.4125 0.0644852
-0.425 0.0543619
-0.4375 0.0445603
-0.45 0.035141
-0.4625 0.0259768
-0.475 0.017052
-0.4875 0.00940313
diff --git a/test/couette/prof-1.ref b/test/couette/prof-1.ref
deleted file mode 100644
index 9cfd98a..0000000
--- a/test/couette/prof-1.ref
+++ /dev/null
@@ -1,19 +0,0 @@
-0.2625 0.210866
-0.275 0.183792
-0.2875 0.158062
-0.3 0.135508
-0.3125 0.116131
-0.325 0.100148
-0.3375 0.0861675
-0.35 0.0739109
-0.3625 0.0631336
-0.375 0.0536236
-0.3875 0.0454754
-0.4 0.0381569
-0.4125 0.0315675
-0.425 0.0256176
-0.4375 0.0202283
-0.45 0.0154642
-0.4625 0.0110954
-0.475 0.00707182
-0.4875 0.0037639
diff --git a/test/couette/prof-2.ref b/test/couette/prof-2.ref
deleted file mode 100644
index 5bb43f0..0000000
--- a/test/couette/prof-2.ref
+++ /dev/null
@@ -1,19 +0,0 @@
-0.2625 0.184616
-0.275 0.144868
-0.2875 0.108955
-0.3 0.0796569
-0.3125 0.0569322
-0.325 0.0409685
-0.3375 0.0287308
-0.35 0.0195365
-0.3625 0.01279
-0.375 0.00798333
-0.3875 0.00500264
-0.4 0.00295887
-0.4125 0.00163182
-0.425 0.000829206
-0.4375 0.000386639
-0.45 0.000196303
-0.4625 9.1544e-05
-0.475 3.73828e-05
-0.4875 1.07438e-05
diff --git a/test/couette/prof-3.ref b/test/couette/prof-3.ref
deleted file mode 100644
index 327b350..0000000
--- a/test/couette/prof-3.ref
+++ /dev/null
@@ -1,19 +0,0 @@
-0.2625 0.177734
-0.275 0.129386
-0.2875 0.0852325
-0.3 0.0498059
-0.3125 0.0243925
-0.325 0.0112533
-0.3375 0.00441371
-0.35 0.00150978
-0.3625 0.000664511
-0.375 0.000487827
-0.3875 0.000428553
-0.4 0.000378624
-0.4125 0.000331367
-0.425 0.000283671
-0.4375 0.000235993
-0.45 0.000188843
-0.4625 0.000142289
-0.475 9.64123e-05
-0.4875 5.6789e-05
diff --git a/test/couette/profile b/test/couette/profile
deleted file mode 100644
index 9898d1d..0000000
--- a/test/couette/profile
+++ /dev/null
@@ -1,19 +0,0 @@
-0.2625 0 0
-0.275 0 0
-0.2875 0 0
-0.30 0 0
-0.3125 0 0
-0.325 0 0
-0.3375 0 0
-0.35 0 0
-0.3625 0 0
-0.375 0 0
-0.3875 0 0
-0.40 0 0
-0.4125 0 0
-0.425 0 0
-0.4375 0 0
-0.45 0 0
-0.4625 0 0
-0.475 0 0
-0.4875 0 0
diff --git a/test/depend.py b/test/depend.py
deleted file mode 100755
index 47876c2..0000000
--- a/test/depend.py
+++ /dev/null
@@ -1,29 +0,0 @@
-#!/usr/bin/python
-
-import sys
-import os
-import os.path
-sys.path.append("../doc/examples")
-import gfs2tex
-
-dists = ""
-depends = ""
-docs = ""
-for start in sys.argv[1:]:
-    for root, dirs, files in os.walk(start,topdown=True):
-        if not ".xvpics" in root:
-            test = gfs2tex.Example(root)
-            name = test.path + "/" + test.name + ".gfs"
-            docs += "\\\n\t" + name + ".html"
-            dists += "\\\n\t" + name
-            depends += "\\\n\t" + name
-            for f in test.required:
-                dists += "\\\n\t" + test.path + "/" + f
-            for f in test.generated:
-                depends += "\\\n\t" + test.path + "/" + f
-
-print "DOCS = " + docs + dists
-print ""
-print "EXTRA_DIST += " + dists
-print ""
-print "tests.tex: " + depends
diff --git a/test/dumbell/dumbell.gfs b/test/dumbell/dumbell.gfs
deleted file mode 100644
index 155a9c3..0000000
--- a/test/dumbell/dumbell.gfs
+++ /dev/null
@@ -1,20 +0,0 @@
-# Title: Poisson solution in a dumbbell-shaped domain
-#
-# Description:
-#
-# Domains with a dumbbell topology can trigger an instability in the
-# Poisson solver if care is not taken.
-#
-# Author: St\'ephane Popinet
-# Command: sh dumbell.sh
-# Version: 0.9.3
-# Required files: dumbell.sh
-#
-1 0 GfsPoisson GfsBox GfsGEdge {} {
-  Refine 3
-  ApproxProjectionParams { nitermax = 1000 minlevel = 1 tolerance = 1e-30 }
-  Solid dumbell.gts
-  Init {} { Div = y }
-  OutputProjectionStats { istep = 1 } stdout
-}
-GfsBox {}
diff --git a/test/dumbell/dumbell.sh b/test/dumbell/dumbell.sh
deleted file mode 100755
index cd18ef4..0000000
--- a/test/dumbell/dumbell.sh
+++ /dev/null
@@ -1,24 +0,0 @@
-#!/bin/sh
-
-bottom=.255
-top=.49
-
-tac <<EOF | shapes - > dumbell.gts
--0.51 -0.51
--0.51 $bottom
--0.1 $bottom
--0.1 $top
-0.1 $top
-0.1 $bottom
-0.51 $bottom
-0.51 -0.51
-EOF
-
-if gerris2D dumbell.gfs | awk '{
-    if ($1 == "residual.infty:" && $3 > 6.621e-02)
-      exit (1);
-  }'; then
-    :
-else
-    exit 1
-fi
diff --git a/test/geo/beta/beta.gfs b/test/geo/beta/beta.gfs
deleted file mode 100644
index 98e9605..0000000
--- a/test/geo/beta/beta.gfs
+++ /dev/null
@@ -1,66 +0,0 @@
-# Title: Geostrophic adjustment on a beta-plane
-#
-# Description:
-#
-# Same as before but a beta-plane, $f = f_0 + \beta y$ is used and
-# the advection terms are included in the momentum equation. No
-# explicit dissipation is added. As in {\cite{dupont}} we chose $\beta
-# = 1.607 \times 10^{- 11}$ m$^{- 1}$s$^{- 1}$.  The geostrophic eddy
-# moves slowly westward through the emission of Rossby waves and
-# southward due to the non-linear advection term. The resulting
-# evolution of the total energy is shown on figure \ref{energy}. For
-# our method, the slow decrease in the total energy is due both to the
-# dissipation of potential energy induced by the approximate
-# projection operator and to the dissipative properties of the BCG
-# upwind advection scheme. Another run with the advection terms
-# switched off (figure \ref{energy}, green curve) confirms that the
-# dissipation induced by the approximate projection operator dominates
-# the total dissipation. The results however compare favourably with
-# the finite-element formulations tested by Dupont which all show
-# significantly larger energy dissipation.
-#
-# \begin{figure}[htbp]
-# \caption{\label{energy}Evolution
-# of the total energy for the non-linear geostrophic adjustment problem. The
-# C-grid model is based on Sadourny {\cite{}} and implemented by Dupont
-# {\cite{dupont}}. The finite-element formulations are those studied by Dupont. LW:
-# Lynch and Werner {\cite{lynch87}}, LLS: Le Roux et al {\cite{leroux98}}, PZM: Peraire et al
-# {\cite{peraire86}}.}
-# \begin{center}
-# \includegraphics[width=\hsize]{energy.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh beta.sh beta.gfs
-# Version: 0.8.0
-# Required files: beta.sh c dlw lls pzm llw energy.ref energy-nonlinear.ref
-# Running time: 3 minutes
-# Generated files: energy.eps
-#
-1 0 GfsOcean GfsBox GfsGEdge {} {
-  # dt = 1000 s
-  Time { iend = 1580 dtmax = 0.10285 }
-  Refine 6
-  # Lx = Ly = 1000 km
-  # H0 = 1000 m
-  # g = 0.01 m/s^2
-  PhysicalParams { g = 9.4534734306584e-4 }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  Init {} {
-    # e-folding radius = 100 km
-    # umax = 0.5 m/s = sqrt(200)*exp(-1/2)
-    U = (5.667583815e-4*200.*y*exp (-100.*(x*x + y*y)))
-    V = (- 5.667583815e-4*200.*x*exp (-100.*(x*x + y*y)))
-    P = (5.667583815e-4*exp (-100.*(x*x + y*y)))
-    H = 1
-  }
-  # f0 = 1.0285e-4 s-1
-  # beta = 1.607e-11 m-1s-1
-  SourceCoriolis {} (1. + 0.156246961595*(y + 0.5))
-
-  OutputScalarSum { istep = 150 } { awk '{print $3/1.0285e-4/3600./24. " " $5/6.34646e-06}' > energy } { v = (Velocity2 + P*P/9.4534734306584e-4) }
-}
-GfsBox {
-  front = Boundary
-}
diff --git a/test/geo/beta/beta.sh b/test/geo/beta/beta.sh
deleted file mode 100644
index 661e662..0000000
--- a/test/geo/beta/beta.sh
+++ /dev/null
@@ -1,38 +0,0 @@
-if ! $donotrun; then
-    if gerris2D3 $1; then :
-    else
-	exit 1
-    fi
-    mv -f energy energy-nonlinear
-    if sed 's/Refine 6/Refine 6\nAdvectionParams {scheme = none}/' < $1 |\
-       gerris2D3 -; then :
-    else
-	exit 1
-    fi
-fi
-
-if cat <<EOF | gnuplot; then :
-    set term postscript eps lw 3 color solid 20
-    set output 'energy.eps'
-    set xlabel 'Time (days)'
-    set ylabel 'Normalised total energy'
-    set key bottom left
-    plot 'c' t 'C-grid' w lp, 'energy' t 'Gerris (linear)' w lp, 'energy-nonlinear' t 'Gerris' w lp, 'dlw' t 'Delumped LW' w lp, 'lls' t 'LLS' w lp, 'pzm' t 'PZM' w lp, 'llw' t 'Lumped LW' w lp
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if Curve('energy',1,2).max() > 1. or \
-   Curve('energy-nonlinear',1,2).max() > 1.:
-    exit(1)
-if (Curve('energy.ref',1,2) - Curve('energy',1,2)).max() > 1e-2 or \
-   (Curve('energy-nonlinear.ref',1,2) - Curve('energy-nonlinear',1,2)).max() > 1e-2:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/geo/beta/c b/test/geo/beta/c
deleted file mode 100644
index e497c33..0000000
--- a/test/geo/beta/c
+++ /dev/null
@@ -1,12 +0,0 @@
-0 1
-1.8303 0.99984162
-3.6606 0.99968176
-5.491 0.99960331
-7.3213 0.99952338
-9.1516 0.99952338
-10.9819 0.99952338
-12.8071 0.99952338
-14.6374 0.99952338
-16.4677 0.99952338
-18.298 0.99952338
-
diff --git a/test/geo/beta/dlw b/test/geo/beta/dlw
deleted file mode 100644
index 4841961..0000000
--- a/test/geo/beta/dlw
+++ /dev/null
@@ -1,12 +0,0 @@
-0 1
-1.73713 0.99466583
-3.47425 0.98933314
-5.2062 0.98383903
-6.94333 0.97850486
-8.68046 0.9730922
-10.4176 0.96775803
-12.1495 0.96234538
-13.8868 0.95701121
-15.6239 0.95159707
-17.361 0.94626438
-
diff --git a/test/geo/beta/energy-nonlinear.ref b/test/geo/beta/energy-nonlinear.ref
deleted file mode 100644
index c115e40..0000000
--- a/test/geo/beta/energy-nonlinear.ref
+++ /dev/null
@@ -1,11 +0,0 @@
-0 1
-1.73611 0.996768
-3.47222 0.993652
-5.20833 0.990761
-6.94444 0.98795
-8.68056 0.985093
-10.4167 0.982291
-12.1528 0.97958
-13.8889 0.976855
-15.6251 0.97414
-17.3611 0.971562
diff --git a/test/geo/beta/energy.ref b/test/geo/beta/energy.ref
deleted file mode 100644
index 3de376a..0000000
--- a/test/geo/beta/energy.ref
+++ /dev/null
@@ -1,11 +0,0 @@
-0 1
-1.73611 0.997607
-3.47222 0.995234
-5.20833 0.992885
-6.94444 0.990559
-8.68056 0.988258
-10.4167 0.985979
-12.1528 0.983722
-13.8889 0.981484
-15.6251 0.979269
-17.3611 0.977071
diff --git a/test/geo/beta/lls b/test/geo/beta/lls
deleted file mode 100644
index 23cd688..0000000
--- a/test/geo/beta/lls
+++ /dev/null
@@ -1,12 +0,0 @@
-0 0.9999599
-1.73713 0.99525031
-3.47425 0.99109916
-5.2062 0.98670889
-6.94333 0.98072202
-8.68046 0.9740178
-10.4176 0.96779032
-12.1495 0.96212426
-13.8868 0.95542004
-15.6239 0.94943317
-17.361 0.94392602
-
diff --git a/test/geo/beta/llw b/test/geo/beta/llw
deleted file mode 100644
index 699373c..0000000
--- a/test/geo/beta/llw
+++ /dev/null
@@ -1,12 +0,0 @@
-0 1
-1.73713 0.97962145
-3.47425 0.95892304
-5.2062 0.93830607
-6.94333 0.91800601
-8.68046 0.89802582
-10.4176 0.87836403
-12.1495 0.85894214
-13.8868 0.83983716
-15.6239 0.8208936
-17.361 0.80226547
-
diff --git a/test/geo/beta/pzm b/test/geo/beta/pzm
deleted file mode 100644
index e4ea0f9..0000000
--- a/test/geo/beta/pzm
+++ /dev/null
@@ -1,12 +0,0 @@
-0 1
-1.73713 0.9877397
-3.47425 0.97858483
-5.2062 0.96871469
-6.94333 0.95916146
-8.68046 0.94977113
-10.4176 0.94053629
-12.1495 0.93098602
-13.8868 0.92207106
-15.6239 0.91267776
-17.361 0.90352585
-
diff --git a/test/geo/e.ref b/test/geo/e.ref
deleted file mode 100644
index 0b52019..0000000
--- a/test/geo/e.ref
+++ /dev/null
@@ -1,1581 +0,0 @@
-0 5.18011e-17
-0.0115741 5.11875e-05
-0.0231481 0.000108532
-0.0347222 0.000176337
-0.0462963 0.000335961
-0.0578704 0.000540965
-0.0694444 0.000786695
-0.0810185 0.00106839
-0.0925926 0.00137833
-0.104167 0.00171154
-0.115741 0.00206062
-0.127315 0.00241816
-0.138889 0.0027757
-0.150463 0.00312689
-0.162037 0.00346434
-0.173611 0.00378062
-0.185185 0.0040694
-0.196759 0.00432434
-0.208333 0.00454225
-0.219907 0.00471678
-0.231481 0.0048469
-0.243056 0.00492835
-0.25463 0.00496114
-0.266204 0.00494421
-0.277778 0.00487969
-0.289352 0.00476862
-0.300926 0.00461312
-0.3125 0.00441742
-0.324074 0.00418576
-0.335648 0.00392343
-0.347222 0.0036357
-0.358796 0.00332788
-0.37037 0.00300842
-0.381944 0.00268155
-0.393519 0.00235469
-0.405093 0.00203312
-0.416667 0.00172423
-0.428241 0.00143228
-0.439815 0.00116359
-0.451389 0.000922095
-0.462963 0.000711273
-0.474537 0.000534618
-0.486111 0.000394352
-0.497685 0.000319248
-0.509259 0.000289841
-0.520833 0.000258
-0.532407 0.000268896
-0.543981 0.00030867
-0.555556 0.000350242
-0.56713 0.000464485
-0.578704 0.000606973
-0.590278 0.000773367
-0.601852 0.000959647
-0.613426 0.00116148
-0.625 0.0013741
-0.636574 0.00159307
-0.648148 0.00181309
-0.659722 0.002031
-0.671296 0.00224256
-0.68287 0.00244249
-0.694444 0.00262761
-0.706019 0.0027958
-0.717593 0.00294389
-0.729167 0.00306977
-0.740741 0.00317132
-0.752315 0.00324748
-0.763889 0.00329826
-0.775463 0.00332365
-0.787037 0.00332259
-0.798611 0.00329826
-0.810185 0.0032496
-0.821759 0.00317978
-0.833333 0.00309093
-0.844907 0.00298409
-0.856481 0.00286244
-0.868056 0.00272916
-0.87963 0.00258635
-0.891204 0.0024372
-0.902778 0.00228276
-0.914352 0.00212832
-0.925926 0.00197494
-0.9375 0.00182473
-0.949074 0.00168086
-0.960648 0.00154546
-0.972222 0.00141958
-0.983796 0.00130428
-0.99537 0.00120167
-1.00694 0.00111176
-1.01852 0.00103655
-1.03009 0.000975409
-1.04167 0.000928653
-1.05324 0.000896179
-1.06481 0.000877561
-1.07639 0.000872166
-1.08796 0.000879148
-1.09954 0.000897765
-1.11111 0.000926749
-1.12269 0.000964936
-1.13426 0.00101116
-1.14584 0.00106416
-1.15741 0.00112234
-1.16899 0.00118369
-1.18056 0.00124822
-1.19214 0.00131486
-1.2037 0.00138044
-1.21528 0.00144497
-1.22685 0.00150738
-1.23843 0.00156662
-1.25 0.00162163
-1.26158 0.0016724
-1.27315 0.00171789
-1.28473 0.00175597
-1.2963 0.00178876
-1.30788 0.00181521
-1.31944 0.00183425
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-16.956 0.0125985
-16.9676 0.012662
-16.9792 0.0127255
-16.9908 0.0127784
-17.0024 0.0128418
-17.0138 0.0128947
-17.0254 0.0129582
-17.037 0.0130005
-17.0486 0.0130534
-17.0602 0.0130957
-17.0718 0.0131275
-17.0834 0.0131592
-17.0949 0.0131909
-17.1064 0.0132121
-17.118 0.0132227
-17.1296 0.0132227
-17.1412 0.0132227
-17.1528 0.0132121
-17.1644 0.0132015
-17.1759 0.0131803
-17.1875 0.0131592
-17.1991 0.0131275
-17.2107 0.0130957
-17.2222 0.0130534
-17.2338 0.0130111
-17.2453 0.0129688
-17.2569 0.0129265
-17.2685 0.0128842
-17.2801 0.0128313
-17.2917 0.012789
-17.3033 0.0127466
-17.3149 0.0127149
-17.3263 0.0126832
-17.3379 0.0126514
-17.3495 0.0126303
-17.3611 0.0126091
-17.3727 0.0125985
-17.3843 0.0125985
-17.3959 0.0125985
-17.4074 0.0126091
-17.419 0.0126197
-17.4305 0.0126514
-17.4421 0.0126832
-17.4537 0.0127149
-17.4653 0.0127678
-17.4768 0.0128101
-17.4884 0.012863
-17.5 0.0129265
-17.5116 0.0129899
-17.5232 0.0130428
-17.5348 0.0131063
-17.5463 0.0131803
-17.5578 0.0132332
-17.5694 0.0132967
-17.581 0.0133602
-17.5926 0.0134131
-17.6042 0.0134554
-17.6158 0.0134977
-17.6274 0.01354
-17.6388 0.0135717
-17.6504 0.0135929
-17.662 0.013614
-17.6736 0.0136246
-17.6852 0.0136246
-17.6968 0.0136246
-17.7083 0.013614
-17.7199 0.0135929
-17.7315 0.0135717
-17.743 0.01354
-17.7546 0.0135188
-17.7662 0.0134765
-17.7778 0.0134448
-17.7893 0.0134131
-17.8009 0.0133707
-17.8125 0.013339
-17.8241 0.0133073
-17.8357 0.0132755
-17.8473 0.0132544
-17.8588 0.0132227
-17.8703 0.0132121
-17.8819 0.0132015
-17.8935 0.0132015
-17.9051 0.0132015
-17.9167 0.0132121
-17.9283 0.0132227
-17.9398 0.0132438
-17.9513 0.0132755
-17.9629 0.0133073
-17.9745 0.0133496
-17.9861 0.0133919
-17.9977 0.0134342
-18.0093 0.0134871
-18.0208 0.0135294
-18.0324 0.0135823
-18.044 0.0136352
-18.0556 0.0136775
-18.0671 0.0137198
-18.0787 0.0137621
-18.0903 0.0137939
-18.1018 0.0138256
-18.1134 0.0138468
-18.125 0.0138679
-18.1366 0.0138785
-18.1482 0.0138891
-18.1598 0.0138785
-18.1712 0.0138679
-18.1828 0.0138573
-18.1944 0.0138362
-18.206 0.013815
-18.2176 0.0137833
-18.2292 0.0137516
-18.2408 0.0137198
-18.2523 0.0136881
-18.2639 0.0136458
-18.2754 0.013614
-18.287 0.0135823
diff --git a/test/geo/geo.gfs b/test/geo/geo.gfs
deleted file mode 100644
index 9d2735c..0000000
--- a/test/geo/geo.gfs
+++ /dev/null
@@ -1,117 +0,0 @@
-# Title: Geostrophic adjustment
-#
-# Description:
-#
-# We consider the geostrophic adjustment problem studied by
-# Dupont {\cite{dupont}} and Le Roux et al {\cite{leroux98}}. A Gaussian bump
-# \[ \eta ( x, y ) = \eta_0 e^{^{- \frac{x^2 + y^2}{R^2}}} \]
-# is initialised in a 1000$\times$1000 km, 1000 m deep square basin. A reduced
-# gravity $g = 0.01$ m/s$^2$ is used to approximate a 10 m-thick stratified surface
-# layer. On an $f$-plane the corresponding geostrophic velocities are given by
-# \begin{eqnarray*}
-#   u ( x, y ) & = & \frac{2 g \eta_0 y}{f_0 R^2} e^{- \frac{x^2 + y^2}{R^2}},\\
-#   v ( x, y ) & = & - \frac{2 g \eta_0 x}{f_0 R^2} e^{- \frac{x^2 + y^2}{R^2}},
-# \end{eqnarray*}
-# where $f_0$ is the Coriolis parameter. Following Dupont we set $f_0 = 1.0285
-# \times 10^{- 4}$ s$^{- 1}$, $R = 100$ km, $\eta_0 = 599.5$ m which gives a
-# maximum geostrophic velocity of 0.5 m/s.
-#
-# In the context of the linearised shallow-water equations, the geostrophic
-# balance is an exact solution which should be preserved by the numerical
-# method. In practice, this would require an exact numerical balance between
-# terms computed very differently: the pressure gradient and the Coriolis terms
-# in the momentum equation. If this numerical balance is not exact, the
-# numerical solution will adjust toward numerical equilibrium through the
-# emission of gravity-wave noise which should not affect the stability of the
-# solution. This problem is thus a good test of both the overall accuracy of the
-# numerical scheme and its stability properties when dealing with
-# inertia--gravity waves. We note in particular that a standard A-grid
-# discretisation would develop a strong computational-mode instability in this
-# case. Also, as studied by Leroux et al, an inappropriate choice of
-# finite-element basis functions will result in growing gravity-wave noise.
-#
-# \begin{figure}[htbp]
-# \caption{\label{geo-error}Evolution of the maximum error on the surface height for the 
-# geostrophic adjustment problem.}
-# \begin{center}
-# \includegraphics[width=\hsize]{geo_error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{geo-error1}Evolution of the surface-height error field. (a) $t =$1.157
-# days, (b) $t = 2.315$ days, (c) $t =$3.472 days, (d) $t =$4.630 days, (e) $t
-# =$17.361 days.}
-# \begin{center}
-# \begin{tabular}{ccccc}
-# \includegraphics[width=0.18\hsize]{error-100.eps} &
-# \includegraphics[width=0.18\hsize]{error-200.eps} &
-# \includegraphics[width=0.18\hsize]{error-300.eps} &
-# \includegraphics[width=0.18\hsize]{error-400.eps} &
-# \includegraphics[width=0.18\hsize]{error-1500.eps} \\
-#   (a) & (b) & (c) & (d) & (e)
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# Figures \ref{geo-error} and \ref{geo-error1} summarise the results obtained
-# when running the geostrophic adjustment problem on a $64 \times 64$ uniform
-# grid with a timestep $\Delta t = 1000$ s. The maximum error on the height
-# field (Figure \ref{geo-error}) is small even after 18 days. After a strong
-# initial transient corresponding to the emission of gravity waves, the error
-# reaches a minimum at day 3 and then slowly grows with time with modulations
-# due to the reflexions of the initial gravity waves on the domain boundaries.
-# As illustrated on figure \ref{geo-error1}, this growth is not due to any
-# instability of the solution but to the slow decrease of the maximum amplitude
-# of the Gaussian bump due to numerical energy dissipation.
-#
-# Author: St\'ephane Popinet
-# Command: sh geo.sh geo.gfs
-# Version: 0.8.0
-# Required files: geo.sh geo.gfv e.ref
-# Running time: 3 minutes
-# Generated files: geo_error.eps error-100.eps error-200.eps error-300.eps error-400.eps error-1500.eps
-#
-1 0 GfsOcean GfsBox GfsGEdge {} {
-  # dt = 1000 s
-  Time { iend = 1580 dtmax = 0.10285 }
-  Refine 6
-  # Lx = Ly = 1000 km
-  # H0 = 1000 m
-  # g = 0.01 m/s^2
-  PhysicalParams { g = 9.4534734306584e-4 }
-  AdvectionParams { scheme = none }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  Init {} {
-    # e-folding radius = 100 km
-    # umax = 0.5 m/s = sqrt(200)*exp(-1/2)
-    U = (5.667583815e-4*200.*y*exp (-100.*(x*x + y*y)))
-    V = (- 5.667583815e-4*200.*x*exp (-100.*(x*x + y*y)))
-    P = (5.667583815e-4*exp (-100.*(x*x + y*y)))
-    H = 1
-  }
-  # f0 = 1.0285e-4 s-1
-  SourceCoriolis {} 1
-
-  OutputErrorNorm { istep = 1 } { awk '{print $3/1.0285e-4/3600./24. " " $9*1000e6*1.0285e-4*1.0285e-4/0.01;}' > e } { v = P } {
-    s = (5.667583815e-4*exp (-100.*(x*x + y*y)))
-    unbiased = 1
-    v = E
-  }
-  OutputSimulation { istart = 100 iend = 500 istep = 100 } stdout
-  EventScript { istart = 100 iend = 500 istep = 100 } { echo "Save error-$GfsIter.eps { format = EPS }"}
-  OutputSimulation { istart = 1500 } stdout
-  EventScript { istart = 1500 } { echo "Save error-$GfsIter.eps { format = EPS }"}
-  EventScript { start = end } {
-    cat <<EOF | gnuplot
-    set term postscript eps lw 3 color solid 20
-    set output 'geo_error.eps'
-    set xlabel 'Time (days)'
-    set ylabel 'Maximum error on surface height (cm)'
-    plot 'e.ref' u 1:(\$2*100.) t '' w l, 'e' u 1:(\$2*100.) t 'ref' w l
-EOF
-  }
-}
-GfsBox {
-  front = Boundary
-}
diff --git a/test/geo/geo.gfv b/test/geo/geo.gfv
deleted file mode 100644
index d61f0af..0000000
--- a/test/geo/geo.gfv
+++ /dev/null
@@ -1,22 +0,0 @@
-# GfsView 3D
-View {
-  tx = 0 ty = 0
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 30
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = -0.5
-} E {
-  amin = 1
-  amax = 1
-  cmap = Jet
-}
diff --git a/test/geo/geo.sh b/test/geo/geo.sh
deleted file mode 100644
index 7596ee8..0000000
--- a/test/geo/geo.sh
+++ /dev/null
@@ -1,16 +0,0 @@
-if ! $donotrun; then
-    if gerris2D3 $1 | gfsview-batch2D3 geo.gfv; then :
-    else
-	exit 1
-    fi
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('e',1,2) - Curve('e.ref',1,2)).max() > 1e-3:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/gfs2tex b/test/gfs2tex
deleted file mode 100755
index 0cb556c..0000000
--- a/test/gfs2tex
+++ /dev/null
@@ -1,19 +0,0 @@
-#!/usr/bin/python
-
-import sys
-import os
-import os.path
-import glob
-sys.path.append("../doc/examples")
-import gfs2tex
-
-if not os.access("tests",os.F_OK):
-    os.mkdir("tests")
-
-for start in sys.argv[1:]:
-    for root, dirs, files in os.walk(start,topdown=True):
-        if not ".xvpics" in root:
-            example = gfs2tex.Example(root)
-            if not os.access("tests/" + example.path,os.F_OK):
-                os.symlink("../" + example.path, "tests/" + example.path)
-            example.write(style="tests.css")
diff --git a/test/hexagon/hexagon.gfs b/test/hexagon/hexagon.gfs
deleted file mode 100644
index e8dab9f..0000000
--- a/test/hexagon/hexagon.gfs
+++ /dev/null
@@ -1,74 +0,0 @@
-# Title: Translation of an hexagon in a uniform flow
-#
-# Description: 
-#
-# An hexagonal solid object translates uniformly in a fluid moving at
-# the same speed (U = 1). There is no diffusion.
-#
-# The conservation properties of the scheme can be checked by filling
-# the simulation domain with tracer and computing the total amount at
-# each time step.
-# 
-# \begin{figure}[htbp]
-# \caption{\label{errorvelocitytime} Error in the horizontal component
-# of the velocity field. Dark blue is zero, dark red 0.1.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{end-2.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{ordertime} Evolution of the global RMS error on the
-# velocity field.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: S\'ebastien Delaux
-# Command: sh hexagon.sh hexagon.gfs
-# Version: 090502
-# Required files: hexagon.sh hexagon.gts hexagon.gfv
-# Generated files: error.eps end-2.eps
-#
-2 1 GfsSimulationMoving GfsBox GfsGEdge {} {
-  Time { end = .1875 }
-  Refine 7
-
-  SolidMoving hexagon.gts { scale = 0.250001 } { level = 7 }
-  AdvectionParams { 
-      moving_order = ORDER 
-      # uncommenting the following line leads to instabilities for the
-      # first-order scheme 
-      # cfl = 0.45
-  }
-  
-  ProjectionParams { tolerance = 1e-10 }
-  ApproxProjectionParams { tolerance = 1e-10 }
-
-  AdaptVorticity { istep = 1 } { minlevel = 4 maxlevel = 7 cmax = 1e-2 }
-
-  VariableTracer T
- 
-  SurfaceBc U Dirichlet 1.
-
-  Init {} { U = 1 T = 1 }
-
-  OutputErrorNorm { istep = 1 } {
-      awk '{ printf ("%e %e %e %e\n", $3, $5, $7, $9) }' > momentumerror-ORDER
-  } { v = sqrt((U - 1.)*(U - 1.) + V*V) } { s = 0. }
-
-  OutputScalarSum { istep = 1 } {
-      awk '{ printf ("%e %e\n", $3, $5 - 1.953125) }' > tracersum-ORDER
-  } { v = T }
-  OutputSimulation { start = end } end-ORDER.gfs
-  
-}
-GfsBox {
-    left = Boundary {
-	BcDirichlet U 1
-	BcDirichlet T 1
-    }
-}
-GfsBox { right = BoundaryOutflow }
-1 2 right
diff --git a/test/hexagon/hexagon.gfv b/test/hexagon/hexagon.gfv
deleted file mode 100644
index a20b764..0000000
--- a/test/hexagon/hexagon.gfv
+++ /dev/null
@@ -1,23 +0,0 @@
-# GfsView 2D
-View {
-  tx = -0.180022 ty = -0.0101632
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 6.36061
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} fabs(U-1) {
-  amin = 0 min = 1.64428e-08
-  amax = 0 max = 0.1
-  cmap = Jet
-}
diff --git a/test/hexagon/hexagon.gts b/test/hexagon/hexagon.gts
deleted file mode 100644
index b4fdd9b..0000000
--- a/test/hexagon/hexagon.gts
+++ /dev/null
@@ -1,387 +0,0 @@
-66 192 128 GtsSurface GtsFace GtsEdge GtsVertex
-0.25 -0.5 0.6
-0.25 -0.5 0.8
--0.25 -0.5 0.8
--0.5 0 0.6
--0.25 -0.5 0.6
--0.5 0 0.8
--0.25 0.5 -1
--0.25 0.5 -0.8
-0.25 0.5 -0.8
--0.25 0.5 0.8
--0.25 0.5 1
-0.5 0 -0.8
-0.5 0 -0.6
-0.5 0 -0.4
-0.25 0.5 -0.4
-0.5 0 -0.2
--0.5 0 -1
-0.5 0 -1
-0.25 0.5 -1
-0.25 0.5 0.4
-0.25 0.5 0.6
-0.5 0 0.6
--0.5 0 -0.6
--0.5 0 -0.4
--0.25 0.5 -0.4
--0.25 0.5 0.6
-0.25 0.5 0.8
-0.5 0 0.2
-0.5 0 0.4
-0.25 -0.5 0.4
--0.25 -0.5 0.2
-0.25 -0.5 0.2
--0.25 -0.5 0.4
-0.25 0.5 -5.551115123e-17
--0.25 0.5 -5.551115123e-17
-0.25 0.5 0.2
-0.25 -0.5 -1
-0.25 -0.5 -0.8
--0.25 -0.5 -0.8
-0.25 -0.5 -0.2
-0.25 0.5 -0.6
-0.25 0.5 -0.2
-0.5 0 -5.551115123e-17
-0.25 -0.5 1
--0.25 -0.5 1
--0.25 -0.5 -0.4
-0.25 -0.5 -0.4
--0.25 -0.5 -0.2
-0.25 -0.5 -5.551115123e-17
--0.25 -0.5 -5.551115123e-17
--0.5 0 1
--0.25 -0.5 -1
-0.25 -0.5 -0.6
--0.25 0.5 0.2
--0.25 0.5 -0.2
--0.5 0 0.2
--0.5 0 0.4
-0.25 0.5 1
--0.5 0 -0.8
--0.5 0 -0.2
--0.5 0 -5.551115123e-17
-0.5 0 1
--0.25 0.5 0.4
--0.25 -0.5 -0.6
-0.5 0 0.8
--0.25 0.5 -0.6
-1 2
-1 3
-3 2
-4 5
-4 6
-5 6
-7 8
-7 9
-9 8
-10 6
-10 11
-6 11
-12 9
-12 13
-9 13
-14 15
-14 16
-15 16
-17 18
-18 19
-17 19
-20 21
-20 22
-22 21
-4 10
-23 24
-23 25
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-5 3
-6 3
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-13 47
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-54 20
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-27 10
-37 18
-18 38
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-24 55
-32 30
-30 1
-5 1
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-56 57
-31 57
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-3 51
-51 45
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-57 4
-33 4
-47 40
-48 40
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-60 61
-48 61
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-1 22
-22 2
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-35 54
-61 54
-23 64
-64 24
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-60 35
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-66 15
-28 36
-36 29
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-8 59
-8 66
-59 66
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-25 42
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-65 44
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-4 5 6
-7 8 9
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-13 14 15
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-187 158 44
-74 75 106
-3 105 58
-117 181 178
-97 183 155
-152 185 192
-159 111 49
-79 115 55
-116 122 64
-59 129 192
diff --git a/test/hexagon/hexagon.sh b/test/hexagon/hexagon.sh
deleted file mode 100644
index c0dacf4..0000000
--- a/test/hexagon/hexagon.sh
+++ /dev/null
@@ -1,41 +0,0 @@
-if ! $donotrun; then
-    for order in 1 2 ; do
-	if gerris2D -DORDER=$order hexagon.gfs; then :
-	else
-	    exit 1
-	fi
-    done
-
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'error.eps'
-    set xlabel 'Time'
-    set ylabel 'Norm2 of error on the velocity field'
-    set yr [1e-10:0.1]
-    set log y
-    plot 'momentumerror-1' t 'first order' w lp, \
-         'momentumerror-2' t 'second order' w lp
-EOF
-else
-    exit 1
-fi
-
-if echo "Save end-2.eps { format = EPS }" | gfsview-batch2D end-2.gfs hexagon.gfv; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if Curve('tracersum-1',1,2).normi() > 1e-6 or \
-   Curve('tracersum-2',1,2).normi() > 5e-6 or \
-   Curve('momentumerror-1',1,3).max() > 11e-3 or \
-   Curve('momentumerror-2',1,3).max() > 2e-3:
-    exit(1)
-EOF
-else
-    exit 1
-fi
diff --git a/test/hydrostatic/hydrostatic.gfs b/test/hydrostatic/hydrostatic.gfs
deleted file mode 100644
index 601379c..0000000
--- a/test/hydrostatic/hydrostatic.gfs
+++ /dev/null
@@ -1,30 +0,0 @@
-# Title: Hydrostatic balance with solid boundaries and viscosity
-#
-# Description:
-#
-# Checks that hydrostatic balance is accurately computed when coupled
-# with the Crank-Nicholson discretisation of viscous terms.
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D hydrostatic.gfs
-# Version: 1.1.3
-# Required files: hydrostatic.gfs
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-    Refine 3
-    Source V -1
-    SourceViscosity 1e-2
-    Solid (ellipse(0.,0.,0.24,0.24))
-    Time { iend = 10 }
-    ApproxProjectionParams { tolerance = 1e-12 }
-    ProjectionParams { tolerance = 1e-12 }
-
-    OutputScalarNorm { istep = 1 } v { v = V }
-    EventScript { start = end } { 
-        if awk '{if ($9 > 1e-12) exit (1);}' < v ; then
-            exit 0;
-        else
-            exit $GFS_STOP;
-        fi
-    } 
-}
-GfsBox {}
diff --git a/test/hydrostatic/quadratic/quadratic.gfs b/test/hydrostatic/quadratic/quadratic.gfs
deleted file mode 100644
index cce31c5..0000000
--- a/test/hydrostatic/quadratic/quadratic.gfs
+++ /dev/null
@@ -1,46 +0,0 @@
-# Title: Hydrostatic balance with quadratic pressure profile
-#
-# Description:
-#
-# Same test as before but for a quadratic pressure profile.
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D quadratic.gfs
-# Version: 1.2.0
-# Required files: quadratic.gfs
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-    Refine 3
-
-    # This test case only works for constant refinement
-    #    Refine (x*x + y*y < 0.2*0.2 ? 4 : 3) 
-
-    # Note: it is important to use 'cy' rather than 'y' in the formula
-    # below so that the hydrostatic density distribution is correct
-    # even for 'cut cells'
-    Init {} { rho = (cy + 0.5) }
-
-    Source V -rho
-    SourceViscosity 1e-2
-    Solid (ellipse(0.,0.,0.24,0.24))
-    Time { iend = 10 }
-    ApproxProjectionParams { tolerance = 1e-12 }
-    ProjectionParams { tolerance = 1e-12 }
-
-    OutputScalarNorm { istep = 1 } v { v = V }
-    # Checks that the pressure profile is close to the exact solution
-    OutputErrorNorm { istep = 1 } p { v = P } {
-        s = -(cy*cy/2. + 0.5*cy) 
-        unbiased = 1 
-    }
-    EventScript { start = end } { 
-        if awk '{if ($9 > 1e-12) exit (1);}' < v ; then :
-        else
-            exit $GFS_STOP;
-        fi        
-        if awk '{if ($9 > 1e-12) exit (1);}' < p ; then :
-        else
-            exit $GFS_STOP;
-        fi
-    } 
-}
-GfsBox {}
diff --git a/test/kinetic/kinetic.gfs b/test/kinetic/kinetic.gfs
deleted file mode 100644
index 3badab7..0000000
--- a/test/kinetic/kinetic.gfs
+++ /dev/null
@@ -1,69 +0,0 @@
-# Title: Momentum conservation for large density ratios
-#
-# Description:
-#
-# A dense droplet moves through a lighter background fluid. The
-# kinetic energy decreases due to viscous dissipation (Figure
-# \ref{k}). For these density and viscosity ratios of 1000, the
-# calculation is stable only if a "mollified" volume fraction is used
-# to compute the average density and viscosity.
-#
-# \begin{figure}[htbp]
-# \caption{\label{k}Evolution of the kinetic energy.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{k.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D kinetic.gfs
-# Version: 1.1.0
-# Required files: kinetic.gfs
-# Generated files: k.eps
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-    Time { end = 0.5 }
-
-    Global {
-        #define var(T,min,max) (CLAMP(T,0,1)*(max - min) + min)
-        #define rho(T) var(T, 0.001, 1.)
-        #define mu(T)  var(T, 1e-6, 1e-3)
-        #define level 7
-        #define radius 0.05
-    }
-
-    Refine level
-
-    ProjectionParams { tolerance = 1e-6 }
-    ApproxProjectionParams { tolerance = 1e-6 }
-
-    VariableTracerVOF T
-    VariableFiltered T1 T 1
-    InitFraction T (- ellipse(-0.3,0,radius,radius))
-    Init {} { U = T }
-
-    PhysicalParams { alpha = 1./rho(T1) }
-    SourceViscosity mu(T1)
-
-    AdaptVorticity { istep = 1 } { cmax = 0.3 maxlevel = level }
-    AdaptGradient { istep = 1 } { cmax = 1e-3 maxlevel = level } T
-
-    OutputScalarSum { istep = 1 } k { v = Velocity2*rho(T1) }
-    OutputScalarSum { istep = 1 } t { v = T }
-
-    EventScript { start = end } {
-        gnuplot <<EOF
-            set term postscript eps color lw 3 solid 20
-            set output 'k.eps'
-            set xlabel 'Time'
-            set ylabel 'Kinetic energy'
-            set grid
-            plot 'k' u 3:5 w l t ''
-EOF
-        if awk '{if ($5 > 7.2e-3) exit (1);}' < k ; then
-            return 0;
-        else
-            return $GFS_STOP;
-        fi
-    } 
-}
-GfsBox {}
diff --git a/test/lid/explicit/explicit.gfs b/test/lid/explicit/explicit.gfs
deleted file mode 100644
index 9432001..0000000
--- a/test/lid/explicit/explicit.gfs
+++ /dev/null
@@ -1,88 +0,0 @@
-# Title: Lid-driven cavity at Re=1000 (explicit scheme)
-#
-# Description:
-#
-# Same test case but with an explicit scheme for the viscous term.
-#
-# Author: St\'ephane Popinet
-# Command: sh lid.sh explicit.gfs
-# Version: 1.3.0
-# Required files: lid.sh
-# Running time: 70 minutes
-# Generated files: xprof yprof xprof.eps yprof.eps velocity.eps
-#
-# The simulation domain has 1 GfsBox
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-
-  # Stop the simulation at t = 300 if convergence has not been reached before
-  Time { end = 300 }
-
-  # Use an initial refinement of 6 levels (i.e. 2^6=64x64)
-  Refine 6
-
-  # Set a viscosity source term on the velocity vector with x-component U
-  # The Reynolds number is Re = L*U/Nu = 1*1/1e-3 = 1000
-  SourceViscosityExplicit 1e-3
-
-  # Stops the simulation if the maximum of the absolute value of the
-  # difference between the current U field and the U field 10 timesteps
-  # before is smaller than 1e-4.
-  #
-  # Stores this difference in the DU field (this can be used for
-  # monitoring the convergence of the simulation).
-  EventStop { istep = 10 } U 1e-4 DU
-
-  OutputScalarNorm { istep = 10 } du { v = DU }
-
-  # Pipes a bitmap PPM image representation of the velocity field at the end of the simulation
-  # into the ImageMagick converter "convert" to create the
-  # corresponding EPS file
-  OutputPPM { start = end } { convert -colors 256 ppm:- velocity.eps } {
-    v = Velocity
-  }
-
-  # At the end of the simulation, computes the values of the variables
-  # at the locations defined in files xprofile, yprofile and stores the
-  # results in files xprof, yprof
-  OutputLocation { start = end } xprof ../xprofile
-  OutputLocation { start = end } yprof ../yprofile
-
-  # At the end of the simulation calls the script generating the EPS
-  # files using gnuplot and files: xprof, yprof, xprof.ghia, yprof.ghia
-  EventScript { start = end } {
-    cat <<EOF | gnuplot
-    set term postscript eps lw 3 solid 20
-    set output 'xprof.eps'
-    set xlabel 'Y'
-    set ylabel 'U'
-    plot [-0.5:0.5]'../xprof.ghia' u 1:2 title "Ghia et al." w p ps 2 pt 9, 'xprof' u 3:7 w l title "Gerris"
-    set output 'yprof.eps'
-    set xlabel 'X'
-    set ylabel 'V'
-    plot [-0.5:0.5]'../yprof.ghia' u 1:2 title "Ghia et al." w p ps 2 pt 9, 'yprof' u 2:8 w l title "Gerris"
-EOF
-  }
-}
-GfsBox {
-
-  # Dirichlet boundary conditions for both components of the velocity on all sides:
-  # - non-slip (U = V = 0) on right, left and bottom boundaries
-  # - tangential velocity equal to 1 (U = 1) on top boundary
-
-  top = Boundary {
-    BcDirichlet U 1
-    BcDirichlet V 0
-  }
-  bottom = Boundary {
-    BcDirichlet U 0
-    BcDirichlet V 0
-  }
-  right = Boundary {
-    BcDirichlet U 0
-    BcDirichlet V 0
-  }
-  left = Boundary {
-    BcDirichlet U 0
-    BcDirichlet V 0
-  }
-}
diff --git a/test/lid/explicit/lid.sh b/test/lid/explicit/lid.sh
deleted file mode 100644
index 12c44a9..0000000
--- a/test/lid/explicit/lid.sh
+++ /dev/null
@@ -1,19 +0,0 @@
-if ! $donotrun; then
-    if gerris2D $1; then :
-    else
-	exit 1
-    fi
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-print (Curve('xprof',3,7) - Curve('../xprof.ghia',1,2)).normi()
-print (Curve('yprof',2,8) - Curve('../yprof.ghia',1,2)).normi()
-if (Curve('xprof',3,7) - Curve('../xprof.ghia',1,2)).normi() > 2.2e-2 or \
-   (Curve('yprof',2,8) - Curve('../yprof.ghia',1,2)).normi() > 2.1e-2:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/lid/lid.gfs b/test/lid/lid.gfs
deleted file mode 100644
index 680df43..0000000
--- a/test/lid/lid.gfs
+++ /dev/null
@@ -1,121 +0,0 @@
-# Title: Lid-driven cavity at Re=1000
-#
-# Description:
-#
-# The classical lid-driven cavity test case.
-#
-# This example illustrates how to check for the convergence toward a
-# stationary solution of an initially time-dependent problem.
-#
-# The stationary solution obtained is illustrated on Figure \ref{velocity}.
-#
-# \begin{figure}[htbp]
-# \caption{\label{velocity}Norm of the velocity for the stationary regime.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{velocity.eps}
-# \end{center}
-# \end{figure}
-#
-# Velocity profiles are generated automatically and compared to the
-# benchmark results of Ghia et al. \cite{ghia82} on
-# Figures \ref{xprof} and \ref{yprof}.
-#
-# \begin{figure}[htbp]
-# \caption{\label{xprof}Vertical profile of the $x$-component of the velocity on
-# the centerline of the box.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{xprof.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{yprof}Horizontal profile of the $y$-component of the velocity on
-# the centerline of the box.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{yprof.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh lid.sh lid.gfs
-# Version: 0.6.4
-# Required files: lid.sh xprofile yprofile xprof.ghia yprof.ghia
-# Running time: 70 minutes
-# Generated files: xprof yprof xprof.eps yprof.eps velocity.eps
-#
-# The simulation domain has 1 GfsBox
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-
-  # Stop the simulation at t = 300 if convergence has not been reached before
-  Time { end = 300 }
-
-  # Use an initial refinement of 6 levels (i.e. 2^6=64x64)
-  Refine 6
-
-  # Set a viscosity source term on the velocity vector with x-component U
-  # The Reynolds number is Re = L*U/Nu = 1*1/1e-3 = 1000
-  SourceDiffusion {} U 1e-3
-  SourceDiffusion {} V 1e-3
-
-  # Stops the simulation if the maximum of the absolute value of the
-  # difference between the current U field and the U field 10 timesteps
-  # before is smaller than 1e-4.
-  #
-  # Stores this difference in the DU field (this can be used for
-  # monitoring the convergence of the simulation).
-  EventStop { istep = 10 } U 1e-4 DU
-
-  OutputScalarNorm { istep = 10 } du { v = DU }
-
-  # Pipes a bitmap PPM image representation of the velocity field at the end of the simulation
-  # into the ImageMagick converter "convert" to create the
-  # corresponding EPS file
-  OutputPPM { start = end } { convert -colors 256 ppm:- velocity.eps } {
-    v = Velocity
-  }
-
-  # At the end of the simulation, computes the values of the variables
-  # at the locations defined in files xprofile, yprofile and stores the
-  # results in files xprof, yprof
-  OutputLocation { start = end } xprof xprofile
-  OutputLocation { start = end } yprof yprofile
-
-  # At the end of the simulation calls the script generating the EPS
-  # files using gnuplot and files: xprof, yprof, xprof.ghia, yprof.ghia
-  EventScript { start = end } {
-    cat <<EOF | gnuplot
-    set term postscript eps lw 3 solid 20
-    set output 'xprof.eps'
-    set xlabel 'Y'
-    set ylabel 'U'
-    plot [-0.5:0.5]'xprof.ghia' u 1:2 title "Ghia et al." w p ps 2 pt 9, 'xprof' u 3:7 w l title "Gerris"
-    set output 'yprof.eps'
-    set xlabel 'X'
-    set ylabel 'V'
-    plot [-0.5:0.5]'yprof.ghia' u 1:2 title "Ghia et al." w p ps 2 pt 9, 'yprof' u 2:8 w l title "Gerris"
-EOF
-  }
-}
-GfsBox {
-
-  # Dirichlet boundary conditions for both components of the velocity on all sides:
-  # - non-slip (U = V = 0) on right, left and bottom boundaries
-  # - tangential velocity equal to 1 (U = 1) on top boundary
-
-  top = Boundary {
-    BcDirichlet U 1
-    BcDirichlet V 0
-  }
-  bottom = Boundary {
-    BcDirichlet U 0
-    BcDirichlet V 0
-  }
-  right = Boundary {
-    BcDirichlet U 0
-    BcDirichlet V 0
-  }
-  left = Boundary {
-    BcDirichlet U 0
-    BcDirichlet V 0
-  }
-}
diff --git a/test/lid/lid.sh b/test/lid/lid.sh
deleted file mode 100644
index 69de6ab..0000000
--- a/test/lid/lid.sh
+++ /dev/null
@@ -1,17 +0,0 @@
-if ! $donotrun; then
-    if gerris2D $1; then :
-    else
-	exit 1
-    fi
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('xprof',3,7) - Curve('xprof.ghia',1,2)).normi() > 2e-2 or \
-   (Curve('yprof',2,8) - Curve('yprof.ghia',1,2)).normi() > 1.7e-2:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/lid/xprof.ghia b/test/lid/xprof.ghia
deleted file mode 100644
index e038a95..0000000
--- a/test/lid/xprof.ghia
+++ /dev/null
@@ -1,17 +0,0 @@
--0.327052 -0.383699
--0.397406 -0.297251
--0.217948 -0.27788
--0.428914 -0.222276
--0.43629 -0.201989
--0.444335 -0.181701
--0.046595 -0.106804
-0.001598 -0.060949
--0.49933 -0.000882
-0.118733 0.057217
-0.235193 0.186849
-0.352315 0.333239
-0.45404 0.466401
-0.461386 0.511382
-0.469392 0.574884
-0.476719 0.659554
-0.5 0.999118
diff --git a/test/lid/xprofile b/test/lid/xprofile
deleted file mode 100644
index 9aa9885..0000000
--- a/test/lid/xprofile
+++ /dev/null
@@ -1,101 +0,0 @@
-0 -0.5 0
-0 -0.49 0
-0 -0.48 0
-0 -0.47 0
-0 -0.46 0
-0 -0.45 0
-0 -0.44 0
-0 -0.43 0
-0 -0.42 0
-0 -0.41 0
-0 -0.4 0
-0 -0.39 0
-0 -0.38 0
-0 -0.37 0
-0 -0.36 0
-0 -0.35 0
-0 -0.34 0
-0 -0.33 0
-0 -0.32 0
-0 -0.31 0
-0 -0.3 0
-0 -0.29 0
-0 -0.28 0
-0 -0.27 0
-0 -0.26 0
-0 -0.25 0
-0 -0.24 0
-0 -0.23 0
-0 -0.22 0
-0 -0.21 0
-0 -0.2 0
-0 -0.19 0
-0 -0.18 0
-0 -0.17 0
-0 -0.16 0
-0 -0.15 0
-0 -0.14 0
-0 -0.13 0
-0 -0.12 0
-0 -0.11 0
-0 -0.1 0
-0 -0.09 0
-0 -0.08 0
-0 -0.07 0
-0 -0.06 0
-0 -0.05 0
-0 -0.04 0
-0 -0.03 0
-0 -0.02 0
-0 -0.01 0
-0 0 0
-0 0.01 0
-0 0.02 0
-0 0.03 0
-0 0.04 0
-0 0.05 0
-0 0.06 0
-0 0.07 0
-0 0.08 0
-0 0.09 0
-0 0.1 0
-0 0.11 0
-0 0.12 0
-0 0.13 0
-0 0.14 0
-0 0.15 0
-0 0.16 0
-0 0.17 0
-0 0.18 0
-0 0.19 0
-0 0.2 0
-0 0.21 0
-0 0.22 0
-0 0.23 0
-0 0.24 0
-0 0.25 0
-0 0.26 0
-0 0.27 0
-0 0.28 0
-0 0.29 0
-0 0.3 0
-0 0.31 0
-0 0.32 0
-0 0.33 0
-0 0.34 0
-0 0.35 0
-0 0.36 0
-0 0.37 0
-0 0.38 0
-0 0.39 0
-0 0.4 0
-0 0.41 0
-0 0.42 0
-0 0.43 0
-0 0.44 0
-0 0.45 0
-0 0.46 0
-0 0.47 0
-0 0.48 0
-0 0.49 0
-0 0.5 0
diff --git a/test/lid/yprof.ghia b/test/lid/yprof.ghia
deleted file mode 100644
index f2a4470..0000000
--- a/test/lid/yprof.ghia
+++ /dev/null
@@ -1,17 +0,0 @@
--0.500577 0.00069404
--0.43768 0.275621
--0.429602 0.290847
--0.421523 0.303994
--0.406521 0.326826
--0.343624 0.371038
--0.273803 0.330015
--0.265724 0.32307
--0.000289 0.0252893
-0.304962 -0.318994
-0.359781 -0.427191
-0.40652 -0.515279
-0.445182 -0.392034
-0.45326 -0.336623
-0.461339 -0.277749
-0.46884 -0.214023
-0.5 -6.20706e-17
diff --git a/test/lid/yprofile b/test/lid/yprofile
deleted file mode 100644
index cd3e5d1..0000000
--- a/test/lid/yprofile
+++ /dev/null
@@ -1,101 +0,0 @@
--0.5 0 0
--0.49 0 0
--0.48 0 0
--0.47 0 0
--0.46 0 0
--0.45 0 0
--0.44 0 0
--0.43 0 0
--0.42 0 0
--0.41 0 0
--0.4 0 0
--0.39 0 0
--0.38 0 0
--0.37 0 0
--0.36 0 0
--0.35 0 0
--0.34 0 0
--0.33 0 0
--0.32 0 0
--0.31 0 0
--0.3 0 0
--0.29 0 0
--0.28 0 0
--0.27 0 0
--0.26 0 0
--0.25 0 0
--0.24 0 0
--0.23 0 0
--0.22 0 0
--0.21 0 0
--0.2 0 0
--0.19 0 0
--0.18 0 0
--0.17 0 0
--0.16 0 0
--0.15 0 0
--0.14 0 0
--0.13 0 0
--0.12 0 0
--0.11 0 0
--0.1 0 0
--0.09 0 0
--0.08 0 0
--0.07 0 0
--0.06 0 0
--0.05 0 0
--0.04 0 0
--0.03 0 0
--0.02 0 0
--0.01 0 0
-0 0 0
-0.01 0 0
-0.02 0 0
-0.03 0 0
-0.04 0 0
-0.05 0 0
-0.06 0 0
-0.07 0 0
-0.08 0 0
-0.09 0 0
-0.1 0 0
-0.11 0 0
-0.12 0 0
-0.13 0 0
-0.14 0 0
-0.15 0 0
-0.16 0 0
-0.17 0 0
-0.18 0 0
-0.19 0 0
-0.2 0 0
-0.21 0 0
-0.22 0 0
-0.23 0 0
-0.24 0 0
-0.25 0 0
-0.26 0 0
-0.27 0 0
-0.28 0 0
-0.29 0 0
-0.3 0 0
-0.31 0 0
-0.32 0 0
-0.33 0 0
-0.34 0 0
-0.35 0 0
-0.36 0 0
-0.37 0 0
-0.38 0 0
-0.39 0 0
-0.4 0 0
-0.41 0 0
-0.42 0 0
-0.43 0 0
-0.44 0 0
-0.45 0 0
-0.46 0 0
-0.47 0 0
-0.48 0 0
-0.49 0 0
-0.5 0 0
diff --git a/test/lonlat/coriolis/coriolis.gfs b/test/lonlat/coriolis/coriolis.gfs
deleted file mode 100644
index 92013a7..0000000
--- a/test/lonlat/coriolis/coriolis.gfs
+++ /dev/null
@@ -1,56 +0,0 @@
-# Title: Circular dam break on a rotating sphere
-#
-# Description:
-#
-# Similar test case but with rotation. See also test case of \cite{rossmanith2004}, Figure 7.
-#
-# \begin{figure}[htbp]
-# \caption{Solution to the rotating shallow-water equations computed
-# on a longitude-latitude grid in the domain
-# $[-75^\circ,75^\circ]\times[-75^\circ,75^\circ]$ with $256\times
-# 256$ points. The Coriolis parameter is set to $f=10$. The solution
-# is shown at times (a) $t=0.4$, (b) $t=0.8$, and (c) $t=1.2$.
-# }
-# \begin{center}
-# \begin{tabular}{cc}
-# (a) \includegraphics[width=0.45\hsize]{isolines-0.4.eps} &
-# (b) \includegraphics[width=0.45\hsize]{isolines-0.8.eps} \\
-# \multicolumn{2}{c}{(c) \includegraphics[width=0.45\hsize]{isolines-1.2.eps}}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D -m coriolis.gfs
-# Version: 090924
-# Required files: isolines.gfv
-# Running time: 5 minutes
-# Generated files: isolines-0.4.eps isolines-0.8.eps isolines-1.2.eps
-#
-Define LENGTH (150./180.*M_PI)
-
-1 0 GfsRiver GfsBox GfsGEdge {} {
-    PhysicalParams { L = LENGTH }
-    MetricLonLat M 1.
-    Refine 8
-    InitFraction P (0.2 - acos(cos(x*M_PI/180.)*cos(y*M_PI/180.)))
-    Init {} { P = 0.2 + 1.8*P/LENGTH }
-    Time { end = 1.4 }
-    SourceCoriolis 10.*sin(y*M_PI/180.)
-    OutputTime { istep = 10 } stderr
-    OutputSimulation { step = 0.4 } sim-%g.gfs
-    OutputSimulation { step = 0.4 } sim-%g.txt { variables = U,V,P format = text }
-#    OutputSimulation { istep = 10 } stdout
-    EventScript { start = end } {
-	for i in 0.4 0.8 1.2; do
-	    echo "Save stdout { format = EPS line_width = 0.5 }" | \
-		gfsview-batch2D sim-$i.gfs isolines.gfv > isolines-$i.eps
-	done
-    }
-}
-GfsBox {
-    right = Boundary { BcNeumann U 0 }
-    left = Boundary { BcNeumann U 0 }
-    top = Boundary { BcNeumann V 0 }
-    bottom = Boundary { BcNeumann V 0 }
-}
diff --git a/test/lonlat/coriolis/isolines.gfv b/test/lonlat/coriolis/isolines.gfv
deleted file mode 100644
index 2da075e..0000000
--- a/test/lonlat/coriolis/isolines.gfv
+++ /dev/null
@@ -1,33 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 25.764
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 20
-}
-Boundaries {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
diff --git a/test/lonlat/isolines.gfv b/test/lonlat/isolines.gfv
deleted file mode 100644
index 2da075e..0000000
--- a/test/lonlat/isolines.gfv
+++ /dev/null
@@ -1,33 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 25.764
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 20
-}
-Boundaries {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-}
diff --git a/test/lonlat/lonlat.gfs b/test/lonlat/lonlat.gfs
deleted file mode 100644
index ee8a751..0000000
--- a/test/lonlat/lonlat.gfs
+++ /dev/null
@@ -1,121 +0,0 @@
-# Title: Circular dam break on a sphere
-#
-# Description:
-#
-# An initial circular cylinder collapses and creates shock and
-# rarefaction waves. The initial condition are radially-symmetric and
-# should remain so. The problem is discretised using
-# longitude-latitude spherical coordinates. Deviations from radial
-# symmetry are a measure of the accuracy of treatment of geometric
-# source terms.
-#
-# This test case was proposed by \cite{rossmanith2004}, Figures 5 and 6.
-#
-# \begin{figure}[htbp]
-# \caption{\label{height}Solution to the shallow-water equations computed on a
-# longitude-latitude grid in the domain
-# $[-75^\circ,75^\circ]\times[-75^\circ,75^\circ]$ with $256\times
-# 256$ points. The solution is shown at times (a) $t=0.3$, (b)
-# $t=0.6$, and (c) $t=0.9$. The contours do not appear circular
-# because the solution has been projected down to a plane.}
-# \begin{center}
-# \begin{tabular}{cc}
-# (a) \includegraphics[width=0.45\hsize]{isolines-0.3.eps} &
-# (b) \includegraphics[width=0.45\hsize]{isolines-0.6.eps} \\
-# \multicolumn{2}{c}{(c) \includegraphics[width=0.45\hsize]{isolines-0.9.eps}}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp] 
-# \caption{Scatter plot of the (radial) solution shown in Figure
-# \ref{height}. The green line is the average solution. The solution
-# is shown at times (a) $t=0.3$, (b) $t=0.6$, and (c) $t=0.9$.}
-# \begin{center}
-# \begin{tabular}{c}
-# (a) \includegraphics[width=0.8\hsize]{p-0.3.eps} \\
-# (b) \includegraphics[width=0.8\hsize]{p-0.6.eps} \\
-# (c) \includegraphics[width=0.8\hsize]{p-0.9.eps}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D -m lonlat.gfs
-# Version: 090924
-# Required files: isolines.gfv
-# Running time: 5 minutes
-# Generated files: isolines-0.3.eps isolines-0.6.eps isolines-0.9.eps p-0.3.eps p-0.6.eps p-0.9.eps
-#
-Define LENGTH (150./180.*M_PI)
-
-1 0 GfsRiver GfsBox GfsGEdge {} {
-    PhysicalParams { L = LENGTH }
-    MetricLonLat M 1.
-    Refine 8
-    InitFraction P (0.2 - acos(cos(x*M_PI/180.)*cos(y*M_PI/180.)))
-    Init {} { P = 0.2 + 1.8*P/LENGTH }
-    Time { end = 0.9 }
-    OutputTime { istep = 10 } stderr
-    OutputSimulation { step = 0.3 } sim-%g.gfs
-    OutputSimulation { step = 0.3 } sim-%g.txt { variables = U,V,P format = text }
-    OutputScalarSum { istep = 1 } sp { v = P }
-#    OutputSimulation { istep = 10 } stdout
-    EventScript { start = end } {
-	status=0
-	for i in 0.3 0.6 0.9; do
-	    if awk 'BEGIN { n1 = 0; pi = 3.14159265359 }{
-              if ($1 != "#") {
-                c = cos($1*pi/180.)*cos($2*pi/180.);
-                d = atan2(sqrt(1. - c*c),c)*180./pi
-                i = int(d*2.)
-                x[i] += d
-                y[i] += $6
-                n[i]++
-                x1[n1] = d;
-                y1[n1++] = $6;
-              }
-            }END {
-              for (i = 0; i <= 180; i++)
-                if (n[i] > 0)
-                  print x[i]/n[i], y[i]/n[i], n[i];
-              sum = 0.;
-              for (i = 0; i < n1; i++) {
-                j = int(x1[i]*2.)
-                d = y1[i] - y[j]/n[j];
-                sum += d*d;
-              }
-              scatter = sqrt(sum/n1);
-              if (scatter > 0.012) {
-                print scatter > "/dev/stderr";
-                exit (1);
-              }
-            }' < sim-$i.txt > prof-$i.txt ; then :
-	    else
-		status=$GFS_STOP;
-	    fi
-
-	    cat <<EOF | gnuplot
-rdist(x,y)=acos(cos(x*pi/180.)*cos(y*pi/180.))*180./pi
-cdist(x,y)=sqrt(x*x+y*y)
-set xlabel 'Angular distance (degree)'
-set ylabel 'Surface height'
-set xtics 0,22.5,90
-set ytics 0,0.25,0.75
-set term postscript eps color lw 2 solid 20
-set output 'p-$i.eps'
-plot [0:90][0:0.75]'sim-$i.txt' u (rdist(\$1,\$2)):6 ps 0.25 pt 6 t '', 'prof-$i.txt' w l lw 2 t ''
-EOF
-
-	    echo "Save stdout { format = EPS line_width = 0.5 }" | \
-		gfsview-batch2D sim-$i.gfs isolines.gfv > isolines-$i.eps
-	done
-	exit $status
-    }
-}
-GfsBox {
-    right = Boundary { BcNeumann U 0 }
-    left = Boundary { BcNeumann U 0 }
-    top = Boundary { BcNeumann V 0 }
-    bottom = Boundary { BcNeumann V 0 }
-}
diff --git a/test/merging/levels.gfv b/test/merging/levels.gfv
deleted file mode 100644
index 52abaa9..0000000
--- a/test/merging/levels.gfv
+++ /dev/null
@@ -1,22 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 30
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = 8
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Level {
-  amin = 1
-  amax = 1
-  cmap = Jet
-}
diff --git a/test/merging/merging.gfs b/test/merging/merging.gfs
deleted file mode 100644
index a09b598..0000000
--- a/test/merging/merging.gfs
+++ /dev/null
@@ -1,153 +0,0 @@
-# Title: Convergence for the three-way vortex merging problem
-#
-# Description:
-#
-# Another of the test cases presented in Popinet \cite{popinet2003},
-# initially used by Almgren et al. \cite{almgren98}, this convergence
-# test illustrates the second-order accuracy of Gerris when refinement
-# is placed appropriately, either through static refinement or dynamic
-# adaptive refinement.
-#
-# Four vortices are placed in the unit-square, centred at $(0,0)$,
-# $(0.09,0)$, $(-0.045,0.045\sqrt{3})$ and $(-0.045,$ $-0.045\sqrt{3})$
-# and of strengths $-150$, $50$, $50$, $50$ respectively. The profile of
-# each vortex centred around $(x_i,y_i)$ is
-# $$
-# {1+\tanh(100(0.03-r_i))\over 2},
-# $$
-# where $r_i=\sqrt{(x-x_i)^2+(y-y_i)^2}$. To initialise the velocity
-# field, we use this vorticity as the source term in the Poisson
-# equation for the streamfunction $\psi$
-# $$
-# \nabla^2\psi=\|\nabla\times{\bf U}\|.
-# $$
-# Each component of the velocity field is then calculated from the
-# streamfunction. No-flow boundary conditions are used on the four sides
-# of the domain and the simulations are ran to $t=0.25$ using a CFL of
-# 0.9.
-#
-# Two different discretisations are used, each time with up to $L$
-# levels of refinement: a grid using static refinement in concentric
-# circles of decreasing radius and a grid using dynamic adaptive
-# refinement. The ``circle'' grid is constructed by starting from a
-# uniform grid with four levels of refinement and by successively adding
-# one level to all the cells contained within circles centred on the
-# origin and of radii:
-# \begin{itemize}
-# \item $L=6$: 0.25, 0.15
-# \item $L=7$: 0.25, 0.2, 0.15
-# \item $L=8$: 0.25, 0.2, 0.175, 0.15
-# \item $L=9$: 0.25, 0.2, 0.175, 0.1625, 0.15
-# \end{itemize}
-# For the dynamically refined grid, the vorticity-based criterion is
-# applied at every timestep with a threshold $\tau=4\times10^{-3}$. As
-# we do not have an analytical solution for this problem, Richardson
-# extrapolation is used.
-#
-# Figure \ref{vorticity} illustrates the evolution of the vorticity
-# and of the adaptively refined grid for $L=8$. The most refined level
-# closely follows the three outer vortices as they orbit the central
-# one. Far from the vortices, a very coarse mesh is used ($l=3$). One
-# may note a few isolated patches of refinement scattered at the
-# periphery of the outer vortices. They are due to the numerical noise
-# added to the vorticity by the interpolation procedure necessary to
-# fill in velocity values for newly created cells. This could be
-# improved by using higher-order interpolants.
-#
-# Table \ref{convergence} summarises the results obtained for the
-# first twelve calculations. For fine enough grids close to
-# second-order convergence is obtained for both norms and for the two
-# discretisations used. The norms of the error on the various grids
-# are also comparable for a given resolution.
-#
-# \begin{table}
-# \caption{\label{convergence}Errors and convergence orders in the $x$-component of the
-# velocity for the four-way vortex merging problem. The reference
-# solution values are given in blue.}
-# \begin{center}
-# \input{convergence.tex}
-# \end{center}
-# \end{table}
-#
-# \begin{figure}
-# \caption{\label{vorticity}Contour plots of vorticity (left) and adaptive grids used
-# (right) for the four-way vortex merging calculation.}
-# \begin{center}
-# \begin{tabular}{cc}
-# \includegraphics*[width=0.3\hsize]{tv_0_05.eps} &
-# \includegraphics*[width=0.3\hsize]{tm_0_05.eps} \\
-# \multicolumn{2}{c}{$t=0.05$} \\
-# \\
-# \includegraphics*[width=0.3\hsize]{tv_0_15.eps} &
-# \includegraphics*[width=0.3\hsize]{tm_0_15.eps} \\
-# \multicolumn{2}{c}{$t=0.15$} \\
-# \\
-# \includegraphics*[width=0.3\hsize]{tv_0_25.eps} &
-# \includegraphics*[width=0.3\hsize]{tm_0_25.eps} \\
-# \multicolumn{2}{c}{$t=0.25$}
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh merging.sh merging.gfs
-# Version: 0.6.4
-# Required files: merging.sh levels.gfv vorticity.gfv sim.err.ref simc.err.ref
-# Running time: 3 minutes
-# Generated files: convergence.tex tv_0_05.eps tm_0_05.eps tv_0_15.eps tm_0_15.eps tv_0_25.eps tm_0_25.eps
-#
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 0.25 }
-  AdvectionParams { cfl = 0.9 }
-  ApproxProjectionParams { tolerance = 1e-5 }
-  ProjectionParams { tolerance = 1e-5 }
-  Refine {
-    double r = sqrt(x*x + y*y);
-    switch (LEVEL) {
-    case 6: return r > 0.25 ? 4 : r > 0.15 ? 5 : 6;
-    case 7: return r > 0.25 ? 4 : r > 0.2 ? 5 : r > 0.15 ? 6 : 7;
-    case 8: return r > 0.25 ? 4 : r > 0.2 ? 5 : r > 0.175 ? 6 : r > 0.15 ? 7 : 8;
-    case 9: return r > 0.25 ? 4 : r > 0.2 ? 5 : r > 0.175 ? 6 : r > 0.1625 ? 7 : r > 0.15 ? 8 : 9;
-    }
-  }
-  InitVorticity {} {
-    double vortex (double xo, double yo, double s) {
-      double r = sqrt ((x - xo)*(x - xo) + (y - yo)*(y - yo));
-      return s*(1. + tanh (100.*(0.03 - r)))/2.;
-    }
-    return vortex (0., 0., -150.) + 
-           vortex (0.09, 0., 50.) + 
-           vortex (-0.045, 0.0779422863406, 50.) +
-           vortex (-0.045, -0.0779422863406, 50.);
-  }
-  AdaptVorticity { istep = 1 } { maxlevel = LEVEL cmax = 4e-3 }
-  OutputSimulation { start = 0.05 } stdout
-  EventScript { start = 0.05 } {
-    echo Clear
-    cat levels.gfv
-    echo Save tm_0_05.eps { format = EPS line_width = 0.1 }
-    echo Clear
-    cat vorticity.gfv
-    echo Save tv_0_05.eps { format = EPS line_width = 0.1 }
-  }
-  OutputSimulation { start = 0.15 } stdout
-  EventScript { start = 0.15 } {
-    echo Clear
-    cat levels.gfv
-    echo Save tm_0_15.eps { format = EPS line_width = 0.1 }
-    echo Clear
-    cat vorticity.gfv
-    echo Save tv_0_15.eps { format = EPS line_width = 0.1 }
-  }
-  OutputSimulation { start = 0.25 } stdout
-  EventScript { start = 0.25 } {
-    echo Clear
-    cat levels.gfv
-    echo Save tm_0_25.eps { format = EPS line_width = 0.1 }
-    echo Clear
-    cat vorticity.gfv
-    echo Save tv_0_25.eps { format = EPS line_width = 0.1 }
-  }
-  OutputSimulation { start = 0.25 } SIM
-}
-GfsBox {}
diff --git a/test/merging/merging.sh b/test/merging/merging.sh
deleted file mode 100644
index e906190..0000000
--- a/test/merging/merging.sh
+++ /dev/null
@@ -1,90 +0,0 @@
-if ! $donotrun; then
-    if sed "s/LEVEL/8/g" < $1 | \
-       sed "s/SIM/sim-8/g" | \
-       gerris2D - | gfsview-batch2D; then :
-    else
-	exit 1
-    fi
-
-    for level in 6 7 9; do
-	if sed "s/LEVEL/$level/g" < $1 | \
-           sed "s/SIM/sim-$level/g" | \
-           gerris2D - > /dev/null; then :
-	else
-	    exit 1
-	fi
-    done
-
-    for level in 6 7 8 9; do
-	if sed "s/LEVEL/$level/g" < $1 | \
-           sed "s/AdaptVorticity/# AdaptVorticity/g" | \
-           sed "s/SIM/simc-$level/g" | \
-           gerris2D - > /dev/null; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-for s in sim simc; do
-    rm -f $s.err
-    for level in 6 7 8; do
-	level1=`expr $level + 1`
-	echo -n "$level " >> $s.err
-	if gfscompare2D -v $s-$level $s-$level1 U 2>&1 | \
-	    awk '{if ($1 == "total") print $6 " " $8;}' >> $s.err; then :
-	else
-	    exit 1
-	fi
-    done
-done
-
-if cat <<EOF | python > convergence.tex ; then :
-from check import *
-from sys import *
-from math import *
-
-print r"""\begin{tabular}{|c|c|c|c|c|c|}\hline
-Domain   & \multicolumn{5}{c|}{\$L_2\$}\\\ \hline
-         & \$L=6\$   & \$O_2\$ & \$L=7\$    & \$O_2\$ & \$L=8\$  \\\ \hline"""
-
-def order(r,color='black'):
-   for i in range(0,len(r.l)-1):
-     y0,y1 = r.l[i][1],r.l[i+1][1]
-     print '& {\color{%s}%.2e} & {\color{%s}%4.2f}' % (color, y0, color, log(y0/y1)/log(2.)),
-   print '& {\color{%s}%.2e}' % (color, r.l[i+1][1]), r'\\\'
-
-print 'Circle',
-order(Curve('simc.err',1,2))
-order(Curve('simc.err.ref',1,2), 'blue')
-print 'Adaptive',
-order(Curve('sim.err',1,2))
-order(Curve('sim.err.ref',1,2), 'blue')
-
-print r"""\hline
-Domain   & \multicolumn{5}{c|}{\$L_\infty\$} \\\ \hline
-         &  \$L=6\$   & \$O_\infty\$ & \$L=7\$   & \$O_\infty\$ & \$L=8\$ \\\ \hline"""
-
-print 'Circle',
-order(Curve('simc.err',1,3))
-order(Curve('simc.err.ref',1,3), 'blue')
-print 'Adaptive',
-order(Curve('sim.err',1,3))
-order(Curve('sim.err.ref',1,3), 'blue')
-
-print r"\hline\end{tabular}"
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('sim.err',1,2) - Curve('sim.err.ref',1,2)).max() > 1e-6 or\
-   (Curve('simc.err',1,3) - Curve('simc.err.ref',1,3)).max() > 1e-6:
-  exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/merging/sim.err.ref b/test/merging/sim.err.ref
deleted file mode 100644
index 21eba36..0000000
--- a/test/merging/sim.err.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-6 2.609e-02 4.564e-01
-7 1.071e-02 1.924e-01
-8 2.837e-03 4.519e-02
diff --git a/test/merging/simc.err.ref b/test/merging/simc.err.ref
deleted file mode 100644
index e83e0fc..0000000
--- a/test/merging/simc.err.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-6 2.634e-02 4.563e-01
-7 1.058e-02 1.882e-01
-8 2.691e-03 4.873e-02
diff --git a/test/merging/vorticity.gfv b/test/merging/vorticity.gfv
deleted file mode 100644
index c3a7443..0000000
--- a/test/merging/vorticity.gfv
+++ /dev/null
@@ -1,33 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 30
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
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-}
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-  shading = Constant
-  maxlevel = 8
-} {
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-} Vorticity {
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-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 17
-}
-Boundaries {
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-  maxlevel = 8
-}
diff --git a/test/nz/bath.gts b/test/nz/bath.gts
deleted file mode 100644
index c2e048a..0000000
--- a/test/nz/bath.gts
+++ /dev/null
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diff --git a/test/nz/nz.gfs b/test/nz/nz.gfs
deleted file mode 100644
index 7057c25..0000000
--- a/test/nz/nz.gfs
+++ /dev/null
@@ -1,74 +0,0 @@
-# Title: Gravity waves in a realistic ocean basin
-#
-# Description:
-#
-# A tilted ocean surface is initialised in a realistic basin (the Cook
-# strait area in New Zealand). The surface oscillates
-# sending complex gravity waves reflecting off the coast and
-# bathymetry (Figure \ref{p}). No explicit dissipation is added and Figure
-# \ref{k} illustrates the good conservation of the total energy.
-#
-# This is a good test of the robustness of the method when dealing
-# with adaptively refined complex bathymetry.
-#
-# The robustness is controlled essentially by the way face-centred
-# velocity values are computed from cell-centred values.
-#
-# \begin{figure}[htbp]
-# \caption{\label{p}Surface height at $t = 2$.}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{p.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{k}Evolution of the kinetic energy.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{k.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: gerris2D3 nz.gfs
-# Version: 1.0.0
-# Required files: nz.gfs bath.gts
-# Generated files: p.eps k.eps
-#
-# Use the "GfsOcean" model
-1 0 GfsOcean GfsBox GfsGEdge {} {
-    # Set the timestep to sthg small compared to the tidal period
-    Time { dtmax = 1e-2 end = 28.5 }
-    # Refine to six levels
-    Refine 6
-    # We want more accuracy in the projection than the default 1e-3
-    ApproxProjectionParams { tolerance = 1e-6 nitermax = 10 }
-    AdvectionParams { scheme = none }
-    Init {} { P = 1e-2*x }
-    # Bathymetry
-    Solid bath.gts
-    # Refine the coastline to 7 levels
-    RefineSurface 7 bath.gts { twod = 1 }
-    # Non-dimensional gravity
-    PhysicalParams { g = 19.62 }
-
-    OutputPPM { start = 2 } { convert ppm:- p.eps } { v = P min = -5e-3 max = 5e-3 }
-    OutputScalarSum { istep = 10 } k { v = Velocity2 }
-    EventScript { start = end } {
-        gnuplot <<EOF
-            set term postscript eps color lw 3 solid 20
-            set output 'k.eps'
-            set xlabel 'Time'
-            set ylabel 'Kinetic energy'
-            set grid
-            plot 'k' u 3:5 w l t ''
-EOF
-        if awk '{if ($5 > 4e-7) exit (1);}' < k ; then
-            return 0;
-        else
-            return $GFS_STOP;
-        fi
-    }
-}
-GfsBox {
-    front = Boundary
-}
diff --git a/test/oscillation/fit.ref b/test/oscillation/fit.ref
deleted file mode 100644
index fed8bde..0000000
--- a/test/oscillation/fit.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-5 0.000262644998808499 2.09156892219132 150.364967186
-6 0.000278820242460604 0.612581630706214 153.065777805706
-7 0.000285328887705565 0.217314392890076 154.499228064224
-8 0.000291359142215191 0.101175013065393 154.793056509618
diff --git a/test/oscillation/oscillation.gfs b/test/oscillation/oscillation.gfs
deleted file mode 100644
index 1b59d0b..0000000
--- a/test/oscillation/oscillation.gfs
+++ /dev/null
@@ -1,117 +0,0 @@
-# Title: Shape oscillation of an inviscid droplet
-#
-# Description:
-#
-# A two-dimensional elliptical droplet (density ratio 1/1000) is
-# released in a large domain. Under the effect of surface-tension the
-# shape of the droplet oscillates around its (circular) equilibrium
-# shape. The fluids inside and outside the droplet are inviscid so
-# ideally no damping of the oscillations should occur. As illustrated
-# on Figure \ref{kinetic} some damping occurs in the simulation due to
-# numerical dissipation.
-#
-# This simulation is also a stringent test case of the accuracy of the
-# surface tension representation as no explicit viscosity can damp
-# eventual parasitic currents.
-#
-# \begin{figure}[htbp]
-# \caption{\label{kinetic}Evolution of the kinetic energy as a function
-# of time for the spatial resolutions indicated in the legend. The
-# black lines are fitted decreasing exponential functions.}
-# \begin{center}
-# \includegraphics[width=0.9\hsize]{k.eps}
-# \end{center}
-# \end{figure}
-#
-# The initial shape of the droplet is given by:
-# $$r(\theta) = r_0 + \alpha\cos(n\theta)$$
-# The oscillation frequency is then \cite{torres00}:
-# $$\omega_n^2={(n^3-n)\sigma\over (\rho_d+\rho_e)r_0^3}$$
-#
-# A comparison between the theoretical and numerical values of the
-# frequency is given in Figure \ref{frequency}.
-#
-# \begin{figure}[htbp]
-# \caption{\label{frequency}Relative error in the oscillation
-# frequency as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{frequency.eps}
-# \end{center}
-# \end{figure}
-#
-# The amount of numerical damping can be estimated by computing an
-# equivalent viscosity. With viscosity, kinetic energy is expected to
-# decrease as:
-# $$\exp(-C\nu/D^2t)$$
-# where $C$ is a constant, $\nu$ the viscosity and $D$ the droplet
-# diameter. Using curve fitting the damping coefficient $b=C\nu/D^2$
-# can be estimated (black curves on Figure \ref{kinetic}). An
-# equivalent Laplace number can then be computed as:
-# $$La={\sigma D\over \rho\nu^2}={\sigma C^2 \over \rho b^2 D^3}$$
-# The equivalent Laplace number depends on spatial resolution as
-# illustrated in Figure \ref{laplace}.
-#
-# \begin{figure}[htbp]
-# \caption{\label{laplace}Equivalent Laplace number estimated from the
-# numerical damping of kinetic energy.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{laplace.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh oscillation.sh
-# Version: 1.2.0
-# Required files: oscillation.sh fit.ref
-# Running time: 3 minutes
-# Generated files: frequency.eps k.eps laplace.eps
-#
-Define DIAMETER 0.2
-Define EPSILON 0.05
-Define VAR(T,min,max)   (min + CLAMP(T,0,1)*(max - min))
-Define RHO(T)            VAR(T, 1., 1e-3)
-Define RADIUS(x,y)      (DIAMETER/2.*(1. + EPSILON*cos (2.*atan2 (y, x))))
-
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-    Time { end = 1 }
-
-    Refine LEVEL
- 
-    VariableTracerVOF T
-    VariableFiltered T1 T 1
-    InitFraction T ({ x += 0.5; y += 0.5; return x*x + y*y - RADIUS(x,y)*RADIUS(x,y); })
-
-    PhysicalParams { alpha = 1./RHO(T1) }
-    VariableCurvature K T
-    SourceTension T 1. K
-
-    # fixme: A small amount of viscosity seems to be necessary to
-    # obtain a non-increasing kinetic energy at high-resolution (8
-    # levels).
-    SourceViscosityExplicit 7e-5*RHO(T1)
-
-    AdaptFunction { istep = 1 } {
-        cmax = 0.01
-        maxlevel = LEVEL
-    } (T > 0 && T < 1 ? 1. : fabs (Vorticity)*ftt_cell_size (cell))
-
-    OutputScalarSum { istep = 1 } k-LEVEL {
-        v = RHO(T1)*Velocity2
-    }
-
-    EventScript { start = end } {
-        cat <<EOF | gnuplot 2>&1 | awk '{if ($1 == "result:") print LEVEL,$2,$3,$4;}'
-           k(t)=a*exp(-b*t)*(cos(c*t+3.14159265359)+1.)
-           a = 3e-4
-           b = 1.5
-           c = 153
-           fit k(x) 'k-LEVEL' u 3:5 via a,b,c
-           print "result: ", a, b, c       
-EOF
-        rm -f fit.log
-    }
-}
-GfsBox {
-    left = Boundary
-    bottom = Boundary
-}
diff --git a/test/oscillation/oscillation.sh b/test/oscillation/oscillation.sh
deleted file mode 100644
index b2ab535..0000000
--- a/test/oscillation/oscillation.sh
+++ /dev/null
@@ -1,72 +0,0 @@
-levels="5 6 7 8"
-
-if ! $donotrun; then
-    rm -f fit
-    for level in $levels; do
-	if gerris2D -D LEVEL=$level oscillation.gfs >> fit; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-rm -f fit-*
-if awk '{
-  level = $1; a = $2; b = $3; c = $4;
-  for (t = 0; t <= 1.; t += 0.005)
-    print t, 2.*a*exp(-b*t) >> "fit-" level;
-}' < fit ; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-
-    D = 0.2
-    n = 2.
-    sigma = 1.
-    rhol = 1.
-    rhog = 1./1000.
-    r0 = 0.1
-    omega0 = sqrt((n**3-n)*sigma/((rhol+rhog)*r0**3))
-
-    set output 'k.eps'
-    set xlabel 'Time'
-    set ylabel 'Kinetic energy'
-    set logscale y
-    plot [0:1][8e-5:]'k-8' u 3:5 t "256x256" w l, 'k-7' u 3:5 t "128x128" w l, 'k-6' u 3:5 t "64x64" w l, 'k-5' u 3:5 t "32x32" w l, 'fit-8' t "fit" w l lt 7, 'fit-7' t "" w l lt 7, 'fit-6' t "" w l lt 7, 'fit-5' t "" w l lt 7
-
-    set output 'laplace.eps'
-    set xlabel 'Diameter (grid points)'
-    set ylabel 'Equivalent Laplace number'
-    set logscale y
-    set logscale x 2
-    set grid
-    empirical_constant = 30.
-    plot 'fit' u (D*2.**(\$1)):(1./(\$3**2.*D**3.))*empirical_constant**2. t "" w lp pt 5 ps 2
-
-    unset logscale
-    set output 'frequency.eps'
-    set xlabel 'Diameter (grid points)'
-    set ylabel 'Frequency error (%)'
-    unset grid
-    set xzeroaxis
-    plot 'fit' u (D*2.**(\$1)):(\$4/2./omega0-1.)*100. t "" w lp pt 5 ps 2
-
-    
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('fit',1,3) - Curve('fit.ref',1,3)).max() > 1e-2 or\
-   (Curve('fit',1,4) - Curve('fit.ref',1,4)).max() > 1e-2:
-  exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/parabola/error.ref b/test/parabola/error.ref
deleted file mode 100644
index 2cdfcb7..0000000
--- a/test/parabola/error.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-5 0.00643516 0.0111809 0.07844
-6 0.00208764 0.00386098 0.04185
-7 0.000928116 0.00176718 0.03133
-8 0.000629843 0.00118686 0.03369
-9 0.000616878 0.00111956 0.03758
diff --git a/test/parabola/order.ref b/test/parabola/order.ref
deleted file mode 100644
index eeff67c..0000000
--- a/test/parabola/order.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-6 1.6241 1.534 0.906362
-7 1.1695 1.12752 0.417683
-8 0.559313 0.574299 -0.104776
-9 0.0300071 0.0842179 -0.157645
diff --git a/test/parabola/parabola.gfs b/test/parabola/parabola.gfs
deleted file mode 100644
index f5668c7..0000000
--- a/test/parabola/parabola.gfs
+++ /dev/null
@@ -1,118 +0,0 @@
-# Title: Oscillations in a parabolic container
-#
-# Description:
-#
-# Analytical solutions for the damped oscillations of a liquid in a
-# parabolic container have been derived by Sampson et al
-# \cite{sampson2006,liang2008}. Figure \ref{elevation} illustrates the
-# numerical and analytical solutions at $t = 1500$ seconds.  Wetting
-# and drying occur at the two moving contact points and hydrostatic
-# balance is approached as time passes.
-#
-# Figure \ref{u0} gives the analytical and numerical solutions for the
-# horizontal component of velocity (which is spatially
-# constant). Figures \ref{error} and \ref{error-u} give the relative
-# errors in surface elevation and horizontal velocity respectively, as
-# functions of spatial resolution. Figures \ref{order} and
-# \ref{order-u} give the corresponding convergence orders.
-#
-# The errors are generally small, however convergence is not reached
-# with increasing resolution. This is due to errors in velocity at the
-# contact points.
-#
-# \begin{figure}[htbp]
-# \caption{\label{elevation}Solution at $t = 1500$ seconds. Six levels of refinement.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{elevation.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{u0}Time evolution of the (spatially constant)
-# horizontal velocity. Seven levels of refinement.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{u0.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the relative elevation error norms as functions of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error-u}Evolution of the relative velocity error
-# L2-norm as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error-u.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order-u}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order-u.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh parabola.sh
-# Version: 1.3.1
-# Required files: parabola.sh error.ref order.ref
-# Generated files: elevation.eps error.eps error-u.eps order.eps order-u.eps u0.eps
-#
-Define h0 10.
-Define a 3000.
-Define tau 1e-3
-Define B 5
-Define G 9.81
-
-1 0 GfsRiver GfsBox GfsGEdge {} {
-
-    # Analytical solution, see Sampson, Easton, Singh, 2006
-    Global {
-	static gdouble Psi (double x, double t) {
-	    double p = sqrt (8.*G*h0)/a;
-	    double s = sqrt (p*p - tau*tau)/2.;
-	    return a*a*B*B*exp (-tau*t)/(8.*G*G*h0)*(- s*tau*sin (2.*s*t) + 
-		(tau*tau/4. - s*s)*cos (2.*s*t)) - B*B*exp(-tau*t)/(4.*G) -
-	    exp (-tau*t/2.)/G*(B*s*cos (s*t) + tau*B/2.*sin (s*t))*x;
-	}
-    }
-
-    PhysicalParams { L = 10000 }
-    RefineSolid LEVEL
-    Solid (y/10000. + 1./pow(2,LEVEL) - 1e-6 - 0.5)
-    Init {} {
-	Zb = h0*(x/a)*(x/a)
-	P = MAX (0., h0 + Psi (x, 0.) - Zb)
-    }
-    Init { istep = 1 } {
-	Pt = MAX (0., h0 + Psi (x, t) - Zb)
-    }
-    PhysicalParams { g = G }
-    SourceCoriolis 0 tau
-    Time { end = 6000 }
-    OutputSimulation { start = 1500 } sim-LEVEL-%g.txt { format = text }
-    OutputSimulation { start = end } end-LEVEL.txt { format = text }
-    OutputScalarSum { istep = 10 } ke-LEVEL { v = (P > 0. ? U*U/P : 0.) }
-    OutputScalarSum { istep = 10 } vol-LEVEL { v = P }
-    OutputScalarSum { istep = 10 } U-LEVEL { v = U }
-    OutputErrorNorm { istep = 1 } error-LEVEL { v = P } {
-	s = Pt
-	v = DP
-    }
-}
-GfsBox {
-    left = Boundary
-    right = Boundary
-}
diff --git a/test/parabola/parabola.sh b/test/parabola/parabola.sh
deleted file mode 100644
index 3e340cf..0000000
--- a/test/parabola/parabola.sh
+++ /dev/null
@@ -1,162 +0,0 @@
-levels="5 6 7 8 9"
-
-if ! $donotrun; then
-    for level in $levels; do
-	if gerris2D -DLEVEL=$level parabola.gfs; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-for level in $levels; do
-    awk -v level=$level 'BEGIN{
-      s1 = 0.;
-      s2 = 0.;
-      smax = 0.;
-      n = 0;
-      h0 = 10.;
-    }{
-      n++;
-      s1 += $5;
-      s2 += $7*$7;
-      if ($9 > smax) smax = $9;
-    }END { print level, s1/n/h0, sqrt(s2/n)/h0, smax/h0; }' < error-$level
-done > error
-
-for level in $levels; do
-    if  paste U-$level vol-$level | awk -v level=$level 'BEGIN {
-      sum = 0.; 
-      n = 0; 
-
-      h0 = 10.
-      a = 3000.
-      tau = 1e-3
-      B = 5.
-      G = 9.81
-      p = sqrt (8.*G*h0)/a
-      s = sqrt (p*p - tau*tau)/2.
-    } {
-          u0 = $5/$10;
-          t = $3;
-          ref = B*exp (-tau*t/2.)*sin (s*t);
-          sum += (u0 - ref)*(u0 - ref);
-          n += 1;
-        }
-        END {
-          print level, sqrt (sum/n);
-        }'; then
-	:
-    else
-	exit 1;
-    fi
-done > error-u
-
-if awk '
-BEGIN { n = 0 }
-{
-  l[n] = $1; n1[n] = $2; n2[n] = $3; ni[n++] = $4;
-}
-END {
-  for (i = 1; i < n; i++)
-    print l[i] " " log(n1[i-1]/n1[i])/log(2.) " " log(n2[i-1]/n2[i])/log(2.) " " log(ni[i-1]/ni[i])/log(2.);
-}' < error > order; then :
-else
-    exit 1
-fi
-
-if awk '
-BEGIN { n = 0 }
-{
-  l[n] = $1; n2[n++] = $2;
-}
-END {
-  for (i = 1; i < n; i++)
-    print l[i] " " log(n2[i-1]/n2[i])/log(2.);
-}' < error-u > order-u; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-
-    set output 'error.eps'
-    set xlabel 'Level'
-    set ylabel 'Relative error norms'
-    set key
-    set logscale y
-    set xtics 0,1
-    set grid
-    plot 'error.ref' u 1:2 t '1 (ref)' w lp, \
-         'error.ref' u 1:3 t '2 (ref)' w lp, \
-         'error.ref' u 1:4 t 'max (ref)' w lp, \
-         'error' u 1:2 t '1' w lp, \
-         'error' u 1:3 t '2' w lp, \
-         'error' u 1:4 t 'max' w lp
-   
-    set output 'error-u.eps'
-    set ylabel 'u0 relative error L2 norm'
-    plot 'error-u' u 1:(\$2/4.) t '' w lp
-   
-    set output 'order.eps'
-    set xlabel 'Level'
-    set ylabel 'Order'
-    unset logscale
-    set ytics 0,1
-    plot [][-1:2] 'order.ref' u 1:2 t '1 (ref)' w lp, \
-                  'order.ref' u 1:3 t '2 (ref)' w lp, \
-                  'order.ref' u 1:4 t 'max (ref)' w lp, \
-                  'order' u 1:2 t '1' w lp, \
-                  'order' u 1:3 t '2' w lp, \
-                  'order' u 1:4 t 'max' w lp
-
-    set output 'order-u.eps'
-    plot [][-1:2]'order-u' u 1:2 t '' w lp
-
-    set output 'u0.eps'
-
-    h0 = 10.
-    a = 3000.
-    tau = 1e-3
-    B = 5.
-    G = 9.81
-    p = sqrt (8.*G*h0)/a
-    s = sqrt (p*p - tau*tau)/2.
-    u0(t) = B*exp (-tau*t/2.)*sin (s*t)
-
-    set xtics auto
-    set ytics auto
-    unset grid
-    set ylabel 'u0'
-    set xlabel 'Time'
-    plot u0(x) t 'Analytical', '< paste U-7 vol-7' u 3:(\$5/\$10) every 2 w p t 'Gerris'
-
-    set output 'elevation.eps'
-    set xlabel 'x (m)'
-    set ylabel 'z (m)'
-    t = 1500
-    psi(x) = a*a*B*B*exp (-tau*t)/(8.*G*G*h0)*(- s*tau*sin (2.*s*t) + \
-      (tau*tau/4. - s*s)*cos (2.*s*t)) - B*B*exp(-tau*t)/(4.*G) - \
-      exp (-tau*t/2.)/G*(B*s*cos (s*t) + tau*B/2.*sin (s*t))*x + h0
-    bed(x) = h0*(x/a)**2
-    set key top center
-    plot [-5000:5000] \
-      'sim-6-1500.txt' u 1:7:8 w filledcu lc 3 t 'Numerical', \
-      psi(x) > bed(x) ? psi(x) : bed(x) lc 2 t 'Analytical', \
-      bed(x) lw 3 lc 1 lt 1 t 'Bed profile'
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('error',1,4) - Curve('error.ref',1,4)).max() > 1e-3:
-    print (Curve('error',1,4) - Curve('error.ref',1,4)).max()
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/periodic/periodic.gfs b/test/periodic/periodic.gfs
deleted file mode 100644
index 30a9245..0000000
--- a/test/periodic/periodic.gfs
+++ /dev/null
@@ -1,65 +0,0 @@
-# Title: Convergence for a simple periodic problem
-#
-# Description:
-#
-# This is one of the test cases presented in Popinet \cite{popinet2003}.
-# Following Minion \cite{minion96} and Almgren et al. \cite{almgren98},
-# this convergence test illustrates the second-order
-# accuracy of Gerris for flows without solid boundaries. This
-# problem uses a square unit domain with periodic boundary conditions in
-# both directions. The initial conditions are taken as
-# \begin{eqnarray*}
-# u(x,y) &=& 1-2\cos(2\pi x)\sin(2\pi y), \\
-# v(x,y) &=& 1+2\sin(2\pi x)\cos(2\pi y). 
-# \end{eqnarray*}
-# The exact solution of the Euler equations for these initial conditions
-# is
-# \begin{eqnarray*}
-# u(x,y,t) &=& 1-2\cos(2\pi(x-t))\sin(2\pi(y-t)), \\
-# v(x,y,t) &=& 1+2\sin(2\pi(x-t))\cos(2\pi(y-t)), \\
-# p(x,y,t) &=& -\cos(4\pi(x-t))-\cos(4\pi(y-t)).
-# \end{eqnarray*}
-# As in \cite{almgren98} nine runs are performed on grids with $L=5,6$
-# and $7$ levels of refinement (labelled ``uniform'') and with one
-# (labelled $r=1$) or two (labelled $r=2$) additional levels added only
-# within the square defined by the points $(-0.25,-0.25)$ and
-# $(0.25,0.25)$. The length of the run for each case is 0.5, the CFL number is
-# 0.75. For each run both the $L_2$ and $L_\infty$ norms of the error in
-# the $x$-component of the velocity is computed. Table \ref{minion1}
-# gives the errors and order of convergence obtained.
-#
-# Close to second-order convergence is obtained (asymptotically in
-# $L$) for the $L_2$ and $L_\infty$ norms. The values
-# obtained are comparable to that in \cite{minion96,almgren98}.
-# \begin{table}
-# \caption{\label{minion1}Errors and convergence orders in the $x$-component of the velocity
-# for a simple periodic problem. The reference solution values are given in blue.}
-# \begin{center}
-# \input{minion1.tex}
-# \end{center}
-# \end{table}
-#
-# Author: St\'ephane Popinet
-# Command: sh periodic.sh periodic.gfs
-# Version: 0.6.4
-# Required files: periodic.sh r0.ref r1.ref r2.ref
-# Running time: 3 minutes
-# Generated files: minion1.tex
-#
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 0.5 }
-  AdvectionParams { cfl = 0.75 }
-  Refine (x < -0.25 || x > 0.25 || y < -0.25 || y > 0.25 ? LEVEL : LEVEL + BOX)
-  Init {} {
-    U = (1. - 2.*cos (2.*M_PI*x)*sin (2.*M_PI*y))
-    V = (1. + 2.*sin (2.*M_PI*x)*cos (2.*M_PI*y))
-  }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  OutputErrorNorm { start = end } stdout { v = U } {
-    s = (1. - 2.*cos (2.*M_PI*(x - t))*sin (2.*M_PI*(y - t)))
-  }
-}
-GfsBox {}
-1 1 right
-1 1 top
diff --git a/test/periodic/periodic.sh b/test/periodic/periodic.sh
deleted file mode 100644
index 64b91f5..0000000
--- a/test/periodic/periodic.sh
+++ /dev/null
@@ -1,74 +0,0 @@
-if ! $donotrun; then
-    rm -f r0 r1 r2
-
-    for r in 0 1 2; do
-	for level in 5 6 7; do
-	    if sed "s/LEVEL/$level/g" < $1 | \
-		sed "s/BOX/$r/g" | \
-		gerris2D - | \
-		awk -v level=$level '{
-                  print level " " $7 " " $9
-                }' >> r$r; then :
-	    else
-		exit 1
-	    fi
-	done
-    done
-fi
-
-if cat <<EOF | python > minion1.tex; then :
-from check import *
-from sys import *
-from math import *
-
-print r"""\begin{tabular}{|c|c|c|c|c|c|}\hline
-        & \multicolumn{5}{c|}{\$L_2\$} \\\ \hline
-        & \$L=5\$   & \$O_2\$ & \$L=6\$    & \$O_2\$ & \$L=7\$  \\\ \hline"""
-
-def order(r,color='black'):
-   for i in range(0,len(r.l)-1):
-     y0,y1 = r.l[i][1],r.l[i+1][1]
-     print '& {\color{%s}%.2e} & {\color{%s}%4.2f}' % (color, y0, color, log(y0/y1)/log(2.)),
-   print '& {\color{%s}%.2e}' % (color, r.l[i+1][1]), r'\\\'
-
-print 'Uniform',
-order(Curve('r0',1,2))
-order(Curve('r0.ref',1,2),'blue')
-print '\$r=1\$',
-order(Curve('r1',1,2))
-order(Curve('r1.ref',1,2),'blue')
-print '\$r=2\$',
-order(Curve('r2',1,2))
-order(Curve('r2.ref',1,2),'blue')
-
-print r"""\hline
-        & \multicolumn{5}{c|}{\$L_\infty\$} \\\ \hline
-        & \$L=5\$   & \$O_\infty\$  & \$L=6\$   & \$O_\infty\$  & \$L=7\$ \\\ \hline"""
-
-print 'Uniform',
-order(Curve('r0',1,3))
-order(Curve('r0.ref',1,3),'blue')
-print '\$r=1\$',
-order(Curve('r1',1,3))
-order(Curve('r1.ref',1,3),'blue')
-print '\$r=2\$',
-order(Curve('r2',1,3))
-order(Curve('r2.ref',1,3),'blue')
-
-print r"\hline\end{tabular}"
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-for r in ['r0','r1','r2']:
-  if (Curve(r,1,2) - Curve(r+'.ref',1,2)).max() > 1e-6 or\
-     (Curve(r,1,3) - Curve(r+'.ref',1,3)).max() > 1e-6:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/periodic/r0.ref b/test/periodic/r0.ref
deleted file mode 100644
index d9575bb..0000000
--- a/test/periodic/r0.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-5 8.268e-03 1.966e-02
-6 1.155e-03 3.104e-03
-7 2.073e-04 5.080e-04
diff --git a/test/periodic/r1.ref b/test/periodic/r1.ref
deleted file mode 100644
index 1a1ba87..0000000
--- a/test/periodic/r1.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-5 8.351e-03 2.200e-02
-6 1.705e-03 4.765e-03
-7 3.960e-04 1.144e-03
diff --git a/test/periodic/r2.ref b/test/periodic/r2.ref
deleted file mode 100644
index 5fdf5ba..0000000
--- a/test/periodic/r2.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-5 1.062e-02 2.821e-02
-6 2.505e-03 6.545e-03
-7 6.242e-04 1.652e-03
diff --git a/test/plate/plate.gfs b/test/plate/plate.gfs
deleted file mode 100644
index 0f4ad83..0000000
--- a/test/plate/plate.gfs
+++ /dev/null
@@ -1,27 +0,0 @@
-# Title: Potential flow around a thin plate
-#
-# Description:
-#
-# This test case triggers an instability if the cell-centered pressure
-# gradient used in the approximate projection is not computed using
-# solid-fraction-weighted averages of the face-centered pressure
-# gradients.
-#
-# Author: St\'ephane Popinet
-# Command: sh plate.sh plate.gfs
-# Version: 1.1.2
-# Required files: plate.sh
-#
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-  Time { iend = 30 dtmax = 1e-2 }
-  Refine 5
-  RefineSolid 6
-  Solid (cube(0,0,0,0.5)) { sy = 0.06251 tx = 0.031249 ty = -0.015 }
-  AdvectionParams { scheme = none }
-  Init {} { U = 1 }
-  OutputScalarNorm { start = end } stdout { v = Velocity } 
-}
-GfsBox {
-  left = Boundary { BcDirichlet U 1 }
-  right = BoundaryOutflow 
-}
diff --git a/test/plate/plate.sh b/test/plate/plate.sh
deleted file mode 100644
index 954f0df..0000000
--- a/test/plate/plate.sh
+++ /dev/null
@@ -1,5 +0,0 @@
-if gerris2D $1 | awk '{ if ($9 < 10.) exit (1); }'; then :
-    exit 1
-else
-    exit 0
-fi
diff --git a/test/poiseuille/error.ref b/test/poiseuille/error.ref
deleted file mode 100644
index 94b0a33..0000000
--- a/test/poiseuille/error.ref
+++ /dev/null
@@ -1,4 +0,0 @@
-3 1.953e-03 1.953e-03 1.953e-03
-4 4.883e-04 4.883e-04 4.884e-04
-5 1.223e-04 1.223e-04 1.224e-04
-6 3.084e-05 3.084e-05 3.103e-05
diff --git a/test/poiseuille/poiseuille.gfs b/test/poiseuille/poiseuille.gfs
deleted file mode 100644
index 6b42cd3..0000000
--- a/test/poiseuille/poiseuille.gfs
+++ /dev/null
@@ -1,53 +0,0 @@
-# Title: Poiseuille flow
-#
-# Description:
-#
-# A simple parabolic Poiseuille flow in a periodic channel with a
-# constant along-channel acceleration $a$. The theoretical solution is given by:
-# $$u(y)={a\over 2\nu}(1/4-y^2)$$
-# Figure \ref{convergence} illustrates the maximum error between the
-# computed and theoretical solutions as a function of spatial
-# resolution.
-#
-# \begin{figure}[htbp]
-# \caption{\label{convergence}Convergence of the maximum error as a function
-# of resolution (number of grid points across the channel).}
-# \begin{center}
-# \includegraphics[width=\hsize]{convergence.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh poiseuille.sh
-# Version: 1.2.0
-# Required files: poiseuille.sh error.ref
-# Generated files: convergence.eps
-#
-1 1 GfsSimulation GfsBox GfsGEdge {} {
-    Refine LEVEL
-    # use backward Euler to avoid Crank-Nicholson oscillations in time
-    SourceViscosity 1. { beta = 1 }
-    Source U 1
-
-    # we need this so that acceleration can be balanced by viscous stress
-    # and yes, fixme, this is a mess...
-    AdvectionParams { gc = 1 }
-
-    EventStop { istep = 1 } U 1e-6 DU
-    ProjectionParams { tolerance = 1e-6 }
-    ApproxProjectionParams { tolerance = 1e-6 }
-    OutputErrorNorm { start = end } { awk '{print LEVEL,$5,$7,$9}' } { v = U } { 
-        s = 1./2.*(1./4 - y*y) 
-    }
-}
-GfsBox {
-    bottom = Boundary {
-        BcDirichlet U 0 
-        BcDirichlet V 0 
-    }
-    top = Boundary {
-        BcDirichlet U 0 
-        BcDirichlet V 0 
-    }
-}
-1 1 right
diff --git a/test/poiseuille/poiseuille.sh b/test/poiseuille/poiseuille.sh
deleted file mode 100644
index f9d894a..0000000
--- a/test/poiseuille/poiseuille.sh
+++ /dev/null
@@ -1,35 +0,0 @@
-levels="3 4 5 6"
-
-if ! $donotrun; then
-    rm -f error
-    for level in $levels; do
-	if gerris2D -DLEVEL=$level poiseuille.gfs >> error; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'convergence.eps'
-    set xlabel 'Number of grid points'
-    set ylabel 'Maximum error'
-    set logscale
-    set grid
-    set xtics 2
-    plot [6:80]'error' u (2**\$1):4 w lp t 'Gerris' pt 5, 1./x**2./5. t 'second order'
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('error',1,4) - Curve('error.ref',1,4)).max() > 1e-6:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/poisson/circle/circle.gfs b/test/poisson/circle/circle.gfs
deleted file mode 100644
index ed98de4..0000000
--- a/test/poisson/circle/circle.gfs
+++ /dev/null
@@ -1,72 +0,0 @@
-# Title: Convergence with a refined circle
-#
-# Description:
-#
-# Same as the previous test but in order to test the accuracy of the
-# gradient operator at coarse/fine boundaries, two levels of
-# refinement are added in a circle centered on the origin and of
-# radius 0.25.
-#
-# The solver still shows second-order accuracy in all norms (Figure \ref{order}).
-#
-# \begin{figure}[htbp]
-# \caption{\label{residual}Evolution of the residual.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{residual.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{rate}Average reduction factor.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{rate.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the error as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../poisson.sh circle.gfs
-# Version: 0.8.0
-# Required files: res-7.ref error.ref order.ref
-# Generated files: residual.eps rate.eps error.eps order.eps
-#
-1 0 GfsPoisson GfsBox GfsGEdge {} {
-  Time { iend = 10 }
-  Refine (x*x + y*y <= 0.25*0.25 ? LEVEL + 2 : LEVEL)
-  ApproxProjectionParams { nrelax = 4 tolerance = 1e-30 }
-  Init {} {
-    Div = {
-      int k = 3, l = 3;
-      return -M_PI*M_PI*(k*k + l*l)*sin (M_PI*k*x)*sin (M_PI*l*y);
-    }
-  }
-  OutputTime { istep = 1 } {
-      awk '{print n++, $8}' > time
-  }
-  OutputProjectionStats { istep = 1 } {
-    awk '{
-      if ($1 == "niter:") printf ("%d ", $2);
-      if ($1 == "residual.infty:") print $3 " " $4;
-    }' > proj
-  }
-  OutputErrorNorm { start = end } {
-    awk '{print LEVEL " " $5 " " $7 " " $9}' >> error 
-  } { v = P } {
-    s = (sin (M_PI*3.*x)*sin (M_PI*3.*y))
-    unbiased = 1
-  }
-}
-GfsBox {}
diff --git a/test/poisson/circle/error.ref b/test/poisson/circle/error.ref
deleted file mode 100644
index 73fef24..0000000
--- a/test/poisson/circle/error.ref
+++ /dev/null
@@ -1,6 +0,0 @@
-3 6.498e-02 9.917e-02 2.281e-01
-4 9.684e-03 1.260e-02 2.883e-02
-5 2.961e-03 3.878e-03 1.279e-02
-6 8.035e-04 1.046e-03 3.391e-03
-7 2.114e-04 2.757e-04 9.282e-04
-8 5.384e-05 7.025e-05 2.373e-04
diff --git a/test/poisson/circle/order.ref b/test/poisson/circle/order.ref
deleted file mode 100644
index 480c56f..0000000
--- a/test/poisson/circle/order.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-4 2.74632 2.97648 2.98402
-5 1.70952 1.70004 1.17255
-6 1.88171 1.89043 1.91523
-7 1.92632 1.92371 1.8692
-8 1.97323 1.97253 1.96772
diff --git a/test/poisson/circle/res-7.ref b/test/poisson/circle/res-7.ref
deleted file mode 100644
index 1f679e2..0000000
--- a/test/poisson/circle/res-7.ref
+++ /dev/null
@@ -1,11 +0,0 @@
-0 0.00000000 1.777e+02 0
-1 0.34000000 2.362e+01 7.5
-2 0.64000000 1.191e+00 12
-3 0.93000000 5.505e-02 15
-4 1.23000000 3.880e-03 15
-5 1.53000000 3.184e-04 14
-6 1.82000000 2.607e-05 14
-7 2.11000000 2.106e-06 14
-8 2.41000000 1.694e-07 13
-9 2.71000000 1.368e-08 13
-10 3.01000000 1.110e-09 13
diff --git a/test/poisson/error.ref b/test/poisson/error.ref
deleted file mode 100644
index 84d535e..0000000
--- a/test/poisson/error.ref
+++ /dev/null
@@ -1,6 +0,0 @@
-3 5.097e-02 6.208e-02 1.194e-01
-4 1.196e-02 1.471e-02 2.914e-02
-5 2.945e-03 3.630e-03 7.243e-03
-6 7.334e-04 9.046e-04 1.808e-03
-7 1.832e-04 2.260e-04 4.518e-04
-8 4.578e-05 5.648e-05 1.130e-04
diff --git a/test/poisson/order.ref b/test/poisson/order.ref
deleted file mode 100644
index c1b1aea..0000000
--- a/test/poisson/order.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-4 2.09143 2.07733 2.03473
-5 2.02188 2.01876 2.00834
-6 2.0056 2.00462 2.00219
-7 2.00118 2.00096 2.00064
-8 2.00063 2.00051 1.99936
diff --git a/test/poisson/poisson.gfs b/test/poisson/poisson.gfs
deleted file mode 100644
index 9766f98..0000000
--- a/test/poisson/poisson.gfs
+++ /dev/null
@@ -1,83 +0,0 @@
-# Title: Convergence of the Poisson solver
-#
-# Description:
-#
-# This is one of the test cases presented in Popinet
-# \cite{popinet2003}.  We solve the Poisson equation in a square
-# domain with Neumann boundary conditions on all sides and the
-# right-hand-side:
-# $$
-# \nabla\cdot{\bf U}^{\star\star}(x,y) = -\pi^2(k^2+l^2)\sin(\pi kx)\sin(\pi ly)
-# $$
-# with $k = l = 3$. The exact solution of the Poisson equation with this source term is
-# $$
-# \phi(x,y)=\sin(\pi kx)\sin(\pi ly).
-# $$
-# Figure \ref{residual} illustrates the evolution of the maximum
-# residual as a function of CPU time. Figure \ref{rate}
-# illustrates the average residual reduction factor (per V-cycle). The
-# evolution of the norms of the error of the final solution as a
-# function of resolution is illustrated on Figure \ref{error}. The
-# corresponding order of convergence is given on Figure \ref{order}.
-#
-# \begin{figure}[htbp]
-# \caption{\label{residual}Evolution of the residual.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{residual.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{rate}Average reduction factor.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{rate.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Evolution of the error as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{error.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{order}Corresponding convergence order.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{order.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh poisson.sh poisson.gfs
-# Version: 0.8.0
-# Required files: poisson.sh res-7.ref error.ref order.ref
-# Generated files: residual.eps rate.eps error.eps order.eps
-#
-1 0 GfsPoisson GfsBox GfsGEdge {} {
-  Time { iend = 10 }
-  Refine LEVEL
-  ApproxProjectionParams { nrelax = 4 tolerance = 1e-30 }
-  Init {} {
-    Div = {
-      int k = 3, l = 3;
-      return -M_PI*M_PI*(k*k + l*l)*sin (M_PI*k*x)*sin (M_PI*l*y);
-    }
-  }
-  OutputTime { istep = 1 } {
-    awk '{print n++, $8}' > time
-  }
-  OutputProjectionStats { istep = 1 } {
-    awk '{
-      if ($1 == "niter:") printf ("%d ", $2);
-      if ($1 == "residual.infty:") print $3 " " $4;
-    }' > proj
-  }
-  OutputErrorNorm { start = end } {
-    awk '{print LEVEL " " $5 " " $7 " " $9}' >> error 
-  } { v = P } {
-    s = (sin (M_PI*3.*x)*sin (M_PI*3.*y))
-    unbiased = 1
-  }
-}
-GfsBox {}
diff --git a/test/poisson/poisson.sh b/test/poisson/poisson.sh
deleted file mode 100644
index e33c74f..0000000
--- a/test/poisson/poisson.sh
+++ /dev/null
@@ -1,78 +0,0 @@
-if ! $donotrun; then
-    rm -f error
-    for level in 3 4 5 6 7 8; do
-	if ( sed "s/LEVEL/$level/g" < $1 | gerris2D - ) && join time proj > res-$level; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-if awk '
-BEGIN { n = 0 }
-{
-  l[n] = $1; n1[n] = $2; n2[n] = $3; ni[n++] = $4;
-}
-END {
-  for (i = 1; i < n; i++)
-    print l[i] " " log(n1[i-1]/n1[i])/log(2.) " " log(n2[i-1]/n2[i])/log(2.) " " log(ni[i-1]/ni[i])/log(2.);
-}' < error > order; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'residual.eps'
-    set xlabel 'CPU time'
-    set ylabel 'Maximum residual'
-    set logscale y
-    plot 'res-7.ref' u 2:3 t 'ref' w lp, 'res-7' u 2:3 t '' w lp
-    set output 'rate.eps'
-    set xlabel 'V-cycle'
-    set ylabel 'Cumulative residual reduction factor'
-    unset logscale
-    plot 'res-7.ref' u 1:4 t 'ref' w lp, 'res-7' u 1:4 t '' w lp
-    set output 'error.eps'
-    set xlabel 'Level'
-    set ylabel 'Error norms'
-    set key
-    set logscale y
-    plot 'error.ref' u 1:2 t '1 (ref)' w lp, \
-         'error.ref' u 1:3 t '2 (ref)' w lp, \
-         'error.ref' u 1:4 t 'max (ref)' w lp, \
-         'error' u 1:2 t '1' w lp, \
-         'error' u 1:3 t '2' w lp, \
-         'error' u 1:4 t 'max' w lp
-    set output 'order.eps'
-    set xlabel 'Level'
-    set ylabel 'Order'
-    set key
-    unset logscale
-    set xtics 0,1
-    set ytics 0,1
-    set grid
-    plot [][0:3] 'order.ref' u 1:2 t '1 (ref)' w lp, \
-                 'order.ref' u 1:3 t '2 (ref)' w lp, \
-                 'order.ref' u 1:4 t 'max (ref)' w lp, \
-                 'order' u 1:2 t '1' w lp, \
-                 'order' u 1:3 t '2' w lp, \
-                 'order' u 1:4 t 'max' w lp
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-c = Curve()
-for p in Curve('res-7.ref',2,3).l:
-    c.l.append((p[0]+0.1, p[1]))
-if (Curve('res-7',2,3) - c).max() > 1e-8 or\
-   (Curve('error',1,4) - Curve('error.ref',1,4)).max() > 1e-6:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/poisson/res-7.ref b/test/poisson/res-7.ref
deleted file mode 100644
index 1e1e821..0000000
--- a/test/poisson/res-7.ref
+++ /dev/null
@@ -1,11 +0,0 @@
-0 0 1.776e+02 0
-1 0.08 5.934e+00 30
-2 0.14 2.353e-01 27
-3 0.2 1.285e-02 24
-4 0.26 9.224e-04 21
-5 0.32 6.235e-05 20
-6 0.38 4.108e-06 19
-7 0.44 2.652e-07 18
-8 0.5 1.677e-08 18
-9 0.56 1.041e-09 18
-10 0.62 6.753e-11 17
diff --git a/test/reynolds/box/box.gfs b/test/reynolds/box/box.gfs
deleted file mode 100644
index 98a06b7..0000000
--- a/test/reynolds/box/box.gfs
+++ /dev/null
@@ -1,58 +0,0 @@
-# Title: Estimation of the numerical viscosity with refined box
-#
-# Description:
-#
-# Same as the previous test but with a refined box in the middle and four
-# modes of the exact Euler solution.
-#
-# \begin{figure}[htbp]
-# \caption{\label{divmax}Evolution of the maximum divergence.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{divmax.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{divL2}Evolution of the L2 norm of the divergence.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{divL2.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{kinetic}Evolution of the kinetic energy.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{kinetic.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{reynolds}Equivalent Reynolds number as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{reynolds.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../reynolds.sh box.gfs 4
-# Version: 0.6.4
-# Required files: ../reynolds.sh div5.ref div6.ref div7.ref reynolds.ref
-# Running time: 3 minutes
-# Generated files: divmax.eps reynolds.eps divL2.eps kinetic.eps
-#
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 2 }
-  Refine (x > 0.25 || x < -0.25 || y > 0.25 || y < -0.25 ? LEVEL : LEVEL + 1)
-  Init {} {
-    U = (- cos (8.*M_PI*x)*sin (8.*M_PI*y))
-    V = (sin (8.*M_PI*x)*cos (8.*M_PI*y))
-  }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  OutputScalarNorm { istep = 1 } divLEVEL { v = Divergence }
-  OutputScalarSum { istep = 1 } kineticLEVEL { v = Velocity2 }
-  OutputScalarSum { istep = 1 } stdout { v = Velocity2 }
-}
-GfsBox {}
-1 1 right
-1 1 top
diff --git a/test/reynolds/box/div5.ref b/test/reynolds/box/div5.ref
deleted file mode 100644
index 26cfd2b..0000000
--- a/test/reynolds/box/div5.ref
+++ /dev/null
@@ -1,146 +0,0 @@
-Divergence time: 0 first:  4.842e-02 second:  1.516e-01 infty:  6.945e-01
-Divergence time: 0.0129032 first:  1.531e+00 second:  2.091e+00 infty:  3.506e+00
-Divergence time: 0.0257232 first:  2.106e+00 second:  2.878e+00 infty:  4.958e+00
-Divergence time: 0.0385432 first:  2.309e+00 second:  3.144e+00 infty:  5.551e+00
-Divergence time: 0.0514475 first:  2.348e+00 second:  3.189e+00 infty:  5.707e+00
-Divergence time: 0.0643518 first:  2.308e+00 second:  3.128e+00 infty:  5.731e+00
-Divergence time: 0.0772561 first:  2.242e+00 second:  3.024e+00 infty:  5.558e+00
-Divergence time: 0.0901605 first:  2.162e+00 second:  2.906e+00 infty:  5.451e+00
-Divergence time: 0.103065 first:  2.076e+00 second:  2.789e+00 infty:  5.319e+00
-Divergence time: 0.115969 first:  1.994e+00 second:  2.678e+00 infty:  5.179e+00
-Divergence time: 0.128873 first:  1.922e+00 second:  2.574e+00 infty:  5.044e+00
-Divergence time: 0.141778 first:  1.854e+00 second:  2.478e+00 infty:  4.913e+00
-Divergence time: 0.154682 first:  1.793e+00 second:  2.388e+00 infty:  4.782e+00
-Divergence time: 0.167586 first:  1.737e+00 second:  2.305e+00 infty:  4.657e+00
-Divergence time: 0.180491 first:  1.685e+00 second:  2.229e+00 infty:  4.538e+00
-Divergence time: 0.193395 first:  1.634e+00 second:  2.157e+00 infty:  4.422e+00
-Divergence time: 0.206299 first:  1.584e+00 second:  2.091e+00 infty:  4.231e+00
-Divergence time: 0.219204 first:  1.535e+00 second:  2.027e+00 infty:  4.103e+00
-Divergence time: 0.232108 first:  1.492e+00 second:  1.967e+00 infty:  4.013e+00
-Divergence time: 0.245012 first:  1.453e+00 second:  1.909e+00 infty:  3.946e+00
-Divergence time: 0.257917 first:  1.417e+00 second:  1.854e+00 infty:  3.852e+00
-Divergence time: 0.270821 first:  1.383e+00 second:  1.802e+00 infty:  3.770e+00
-Divergence time: 0.283725 first:  1.348e+00 second:  1.751e+00 infty:  3.739e+00
-Divergence time: 0.29663 first:  1.313e+00 second:  1.701e+00 infty:  3.743e+00
-Divergence time: 0.309437 first:  1.274e+00 second:  1.647e+00 infty:  3.741e+00
-Divergence time: 0.322244 first:  1.240e+00 second:  1.599e+00 infty:  3.780e+00
-Divergence time: 0.335051 first:  1.209e+00 second:  1.554e+00 infty:  3.796e+00
-Divergence time: 0.347859 first:  1.181e+00 second:  1.511e+00 infty:  3.803e+00
-Divergence time: 0.360666 first:  1.152e+00 second:  1.469e+00 infty:  3.809e+00
-Divergence time: 0.373574 first:  1.127e+00 second:  1.433e+00 infty:  3.781e+00
-Divergence time: 0.386482 first:  1.097e+00 second:  1.395e+00 infty:  3.732e+00
-Divergence time: 0.399495 first:  1.068e+00 second:  1.360e+00 infty:  3.673e+00
-Divergence time: 0.412507 first:  1.036e+00 second:  1.321e+00 infty:  3.591e+00
-Divergence time: 0.425519 first:  1.002e+00 second:  1.284e+00 infty:  3.489e+00
-Divergence time: 0.438531 first:  9.699e-01 second:  1.245e+00 infty:  3.363e+00
-Divergence time: 0.451544 first:  9.403e-01 second:  1.206e+00 infty:  3.229e+00
-Divergence time: 0.464556 first:  9.129e-01 second:  1.168e+00 infty:  3.088e+00
-Divergence time: 0.477459 first:  8.805e-01 second:  1.124e+00 infty:  3.046e+00
-Divergence time: 0.490362 first:  8.511e-01 second:  1.083e+00 infty:  3.006e+00
-Divergence time: 0.503264 first:  8.216e-01 second:  1.045e+00 infty:  2.966e+00
-Divergence time: 0.516167 first:  7.923e-01 second:  1.010e+00 infty:  2.939e+00
-Divergence time: 0.529183 first:  7.666e-01 second:  9.793e-01 infty:  2.933e+00
-Divergence time: 0.5422 first:  7.395e-01 second:  9.480e-01 infty:  2.933e+00
-Divergence time: 0.555333 first:  7.146e-01 second:  9.185e-01 infty:  2.932e+00
-Divergence time: 0.568466 first:  6.884e-01 second:  8.871e-01 infty:  2.911e+00
-Divergence time: 0.581721 first:  6.629e-01 second:  8.575e-01 infty:  2.727e+00
-Divergence time: 0.595101 first:  6.423e-01 second:  8.328e-01 infty:  2.561e+00
-Divergence time: 0.60861 first:  6.233e-01 second:  8.092e-01 infty:  2.394e+00
-Divergence time: 0.622118 first:  6.041e-01 second:  7.859e-01 infty:  2.263e+00
-Divergence time: 0.635627 first:  5.853e-01 second:  7.643e-01 infty:  2.227e+00
-Divergence time: 0.649136 first:  5.713e-01 second:  7.432e-01 infty:  2.179e+00
-Divergence time: 0.662644 first:  5.590e-01 second:  7.229e-01 infty:  2.132e+00
-Divergence time: 0.676153 first:  5.507e-01 second:  7.060e-01 infty:  2.088e+00
-Divergence time: 0.689662 first:  5.386e-01 second:  6.881e-01 infty:  2.048e+00
-Divergence time: 0.70317 first:  5.268e-01 second:  6.706e-01 infty:  2.006e+00
-Divergence time: 0.716679 first:  5.136e-01 second:  6.510e-01 infty:  1.965e+00
-Divergence time: 0.730188 first:  5.029e-01 second:  6.331e-01 infty:  1.921e+00
-Divergence time: 0.743696 first:  4.925e-01 second:  6.166e-01 infty:  1.873e+00
-Divergence time: 0.757205 first:  4.815e-01 second:  6.010e-01 infty:  1.823e+00
-Divergence time: 0.770713 first:  4.718e-01 second:  5.872e-01 infty:  1.781e+00
-Divergence time: 0.784222 first:  4.608e-01 second:  5.750e-01 infty:  1.736e+00
-Divergence time: 0.797883 first:  4.527e-01 second:  5.670e-01 infty:  1.679e+00
-Divergence time: 0.811543 first:  4.424e-01 second:  5.576e-01 infty:  1.678e+00
-Divergence time: 0.825203 first:  4.321e-01 second:  5.480e-01 infty:  1.725e+00
-Divergence time: 0.838707 first:  4.207e-01 second:  5.352e-01 infty:  1.705e+00
-Divergence time: 0.85221 first:  4.096e-01 second:  5.224e-01 infty:  1.677e+00
-Divergence time: 0.865714 first:  4.000e-01 second:  5.109e-01 infty:  1.639e+00
-Divergence time: 0.879217 first:  3.912e-01 second:  5.003e-01 infty:  1.597e+00
-Divergence time: 0.89272 first:  3.816e-01 second:  4.895e-01 infty:  1.547e+00
-Divergence time: 0.906224 first:  3.734e-01 second:  4.799e-01 infty:  1.516e+00
-Divergence time: 0.919563 first:  3.647e-01 second:  4.680e-01 infty:  1.497e+00
-Divergence time: 0.932901 first:  3.564e-01 second:  4.567e-01 infty:  1.525e+00
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-Divergence time: 0.999946 first:  3.197e-01 second:  4.096e-01 infty:  1.507e+00
-Divergence time: 1.01346 first:  3.117e-01 second:  4.021e-01 infty:  1.374e+00
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-Divergence time: 1.11147 first:  2.688e-01 second:  3.672e-01 infty:  1.661e+00
-Divergence time: 1.1258 first:  2.638e-01 second:  3.613e-01 infty:  1.430e+00
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-Divergence time: 1.15422 first:  2.509e-01 second:  3.505e-01 infty:  1.693e+00
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-Divergence time: 1.19651 first:  2.407e-01 second:  3.423e-01 infty:  1.498e+00
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-Divergence time: 1.2388 first:  2.370e-01 second:  3.420e-01 infty:  1.531e+00
-Divergence time: 1.2529 first:  2.358e-01 second:  3.416e-01 infty:  1.684e+00
-Divergence time: 1.26727 first:  2.355e-01 second:  3.432e-01 infty:  1.755e+00
-Divergence time: 1.28163 first:  2.337e-01 second:  3.422e-01 infty:  1.732e+00
-Divergence time: 1.296 first:  2.318e-01 second:  3.403e-01 infty:  1.855e+00
-Divergence time: 1.31037 first:  2.307e-01 second:  3.378e-01 infty:  1.879e+00
-Divergence time: 1.32416 first:  2.241e-01 second:  3.297e-01 infty:  1.753e+00
-Divergence time: 1.33741 first:  2.153e-01 second:  3.201e-01 infty:  1.712e+00
-Divergence time: 1.35066 first:  2.071e-01 second:  3.134e-01 infty:  1.867e+00
-Divergence time: 1.36365 first:  1.992e-01 second:  3.048e-01 infty:  1.912e+00
-Divergence time: 1.37664 first:  1.938e-01 second:  2.988e-01 infty:  1.852e+00
-Divergence time: 1.38962 first:  1.886e-01 second:  2.943e-01 infty:  1.754e+00
-Divergence time: 1.40289 first:  1.847e-01 second:  2.916e-01 infty:  1.742e+00
-Divergence time: 1.41587 first:  1.801e-01 second:  2.843e-01 infty:  1.653e+00
-Divergence time: 1.42885 first:  1.766e-01 second:  2.759e-01 infty:  1.510e+00
-Divergence time: 1.44183 first:  1.734e-01 second:  2.657e-01 infty:  1.322e+00
-Divergence time: 1.45482 first:  1.688e-01 second:  2.548e-01 infty:  1.226e+00
-Divergence time: 1.4678 first:  1.649e-01 second:  2.444e-01 infty:  1.188e+00
-Divergence time: 1.48078 first:  1.608e-01 second:  2.364e-01 infty:  1.158e+00
-Divergence time: 1.49409 first:  1.595e-01 second:  2.325e-01 infty:  1.142e+00
-Divergence time: 1.5074 first:  1.577e-01 second:  2.277e-01 infty:  1.110e+00
-Divergence time: 1.52072 first:  1.568e-01 second:  2.230e-01 infty:  1.041e+00
-Divergence time: 1.53403 first:  1.540e-01 second:  2.171e-01 infty:  1.036e+00
-Divergence time: 1.54774 first:  1.518e-01 second:  2.129e-01 infty:  9.428e-01
-Divergence time: 1.56187 first:  1.500e-01 second:  2.084e-01 infty:  1.027e+00
-Divergence time: 1.57647 first:  1.485e-01 second:  2.040e-01 infty:  1.061e+00
-Divergence time: 1.5916 first:  1.458e-01 second:  1.991e-01 infty:  1.001e+00
-Divergence time: 1.60672 first:  1.398e-01 second:  1.927e-01 infty:  9.824e-01
-Divergence time: 1.62246 first:  1.382e-01 second:  1.896e-01 infty:  9.460e-01
-Divergence time: 1.63819 first:  1.353e-01 second:  1.856e-01 infty:  8.732e-01
-Divergence time: 1.65463 first:  1.325e-01 second:  1.847e-01 infty:  8.812e-01
-Divergence time: 1.67108 first:  1.305e-01 second:  1.826e-01 infty:  8.741e-01
-Divergence time: 1.68753 first:  1.285e-01 second:  1.798e-01 infty:  8.311e-01
-Divergence time: 1.70397 first:  1.254e-01 second:  1.760e-01 infty:  7.598e-01
-Divergence time: 1.72042 first:  1.223e-01 second:  1.717e-01 infty:  7.004e-01
-Divergence time: 1.73686 first:  1.192e-01 second:  1.675e-01 infty:  7.853e-01
-Divergence time: 1.75331 first:  1.164e-01 second:  1.634e-01 infty:  8.596e-01
-Divergence time: 1.76976 first:  1.132e-01 second:  1.597e-01 infty:  9.083e-01
-Divergence time: 1.7862 first:  1.116e-01 second:  1.573e-01 infty:  9.438e-01
-Divergence time: 1.80265 first:  1.103e-01 second:  1.559e-01 infty:  9.641e-01
-Divergence time: 1.81909 first:  1.080e-01 second:  1.543e-01 infty:  9.673e-01
-Divergence time: 1.83554 first:  1.056e-01 second:  1.516e-01 infty:  9.510e-01
-Divergence time: 1.85049 first:  9.968e-02 second:  1.428e-01 infty:  8.940e-01
-Divergence time: 1.86544 first:  9.636e-02 second:  1.357e-01 infty:  8.416e-01
-Divergence time: 1.88039 first:  9.327e-02 second:  1.301e-01 infty:  7.942e-01
-Divergence time: 1.89534 first:  9.068e-02 second:  1.255e-01 infty:  7.300e-01
-Divergence time: 1.91029 first:  8.824e-02 second:  1.223e-01 infty:  6.528e-01
-Divergence time: 1.92525 first:  8.609e-02 second:  1.199e-01 infty:  5.685e-01
-Divergence time: 1.9402 first:  8.442e-02 second:  1.175e-01 infty:  5.166e-01
-Divergence time: 1.95515 first:  8.243e-02 second:  1.142e-01 infty:  5.198e-01
-Divergence time: 1.9701 first:  7.993e-02 second:  1.101e-01 infty:  4.725e-01
-Divergence time: 1.98505 first:  7.739e-02 second:  1.063e-01 infty:  4.051e-01
-Divergence time: 2 first:  7.543e-02 second:  1.030e-01 infty:  4.070e-01
diff --git a/test/reynolds/box/div6.ref b/test/reynolds/box/div6.ref
deleted file mode 100644
index 6890b15..0000000
--- a/test/reynolds/box/div6.ref
+++ /dev/null
@@ -1,368 +0,0 @@
-Divergence time: 0 first:  1.295e-02 second:  6.223e-02 infty:  4.398e-01
-Divergence time: 0.00628931 first:  3.487e-01 second:  4.579e-01 infty:  1.086e+00
-Divergence time: 0.0125786 first:  3.943e-01 second:  5.213e-01 infty:  1.310e+00
-Divergence time: 0.0188679 first:  4.001e-01 second:  5.311e-01 infty:  1.395e+00
-Divergence time: 0.0251572 first:  4.008e-01 second:  5.331e-01 infty:  1.436e+00
-Divergence time: 0.0314465 first:  4.010e-01 second:  5.335e-01 infty:  1.474e+00
-Divergence time: 0.0377358 first:  4.013e-01 second:  5.336e-01 infty:  1.492e+00
-Divergence time: 0.0440252 first:  4.015e-01 second:  5.334e-01 infty:  1.513e+00
-Divergence time: 0.0503145 first:  4.013e-01 second:  5.330e-01 infty:  1.522e+00
-Divergence time: 0.0566038 first:  4.009e-01 second:  5.324e-01 infty:  1.538e+00
-Divergence time: 0.0628931 first:  4.003e-01 second:  5.317e-01 infty:  1.535e+00
-Divergence time: 0.0691824 first:  4.000e-01 second:  5.311e-01 infty:  1.532e+00
-Divergence time: 0.0754717 first:  3.999e-01 second:  5.304e-01 infty:  1.531e+00
-Divergence time: 0.081761 first:  3.998e-01 second:  5.298e-01 infty:  1.531e+00
-Divergence time: 0.0880503 first:  3.999e-01 second:  5.292e-01 infty:  1.531e+00
-Divergence time: 0.0943396 first:  4.000e-01 second:  5.286e-01 infty:  1.520e+00
-Divergence time: 0.100629 first:  4.000e-01 second:  5.280e-01 infty:  1.520e+00
-Divergence time: 0.106918 first:  4.004e-01 second:  5.275e-01 infty:  1.522e+00
-Divergence time: 0.113208 first:  4.004e-01 second:  5.270e-01 infty:  1.524e+00
-Divergence time: 0.119497 first:  4.003e-01 second:  5.264e-01 infty:  1.529e+00
-Divergence time: 0.125786 first:  4.002e-01 second:  5.259e-01 infty:  1.534e+00
-Divergence time: 0.132075 first:  4.000e-01 second:  5.253e-01 infty:  1.541e+00
-Divergence time: 0.138365 first:  3.999e-01 second:  5.246e-01 infty:  1.547e+00
-Divergence time: 0.144654 first:  3.996e-01 second:  5.240e-01 infty:  1.552e+00
-Divergence time: 0.150943 first:  3.994e-01 second:  5.234e-01 infty:  1.556e+00
-Divergence time: 0.157233 first:  3.993e-01 second:  5.228e-01 infty:  1.561e+00
-Divergence time: 0.163522 first:  3.992e-01 second:  5.222e-01 infty:  1.563e+00
-Divergence time: 0.169811 first:  3.991e-01 second:  5.215e-01 infty:  1.566e+00
-Divergence time: 0.176101 first:  3.987e-01 second:  5.208e-01 infty:  1.568e+00
-Divergence time: 0.18239 first:  3.984e-01 second:  5.201e-01 infty:  1.570e+00
-Divergence time: 0.188679 first:  3.983e-01 second:  5.194e-01 infty:  1.572e+00
-Divergence time: 0.194969 first:  3.979e-01 second:  5.187e-01 infty:  1.574e+00
-Divergence time: 0.201258 first:  3.978e-01 second:  5.181e-01 infty:  1.572e+00
-Divergence time: 0.207547 first:  3.974e-01 second:  5.173e-01 infty:  1.573e+00
-Divergence time: 0.213836 first:  3.970e-01 second:  5.166e-01 infty:  1.577e+00
-Divergence time: 0.220126 first:  3.967e-01 second:  5.159e-01 infty:  1.583e+00
-Divergence time: 0.226393 first:  3.953e-01 second:  5.138e-01 infty:  1.585e+00
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-Divergence time: 0.251506 first:  3.943e-01 second:  5.120e-01 infty:  1.611e+00
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-Divergence time: 1.95616 first:  7.179e-02 second:  1.034e-01 infty:  6.896e-01
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-Divergence time: 1.9659 first:  7.016e-02 second:  1.008e-01 infty:  7.218e-01
-Divergence time: 1.97078 first:  6.935e-02 second:  9.987e-02 infty:  7.340e-01
-Divergence time: 1.97565 first:  6.852e-02 second:  9.916e-02 infty:  7.419e-01
-Divergence time: 1.98052 first:  6.784e-02 second:  9.840e-02 infty:  7.451e-01
-Divergence time: 1.98539 first:  6.729e-02 second:  9.783e-02 infty:  7.436e-01
-Divergence time: 1.99026 first:  6.688e-02 second:  9.735e-02 infty:  7.372e-01
-Divergence time: 1.99513 first:  6.647e-02 second:  9.692e-02 infty:  7.262e-01
-Divergence time: 2 first:  6.596e-02 second:  9.652e-02 infty:  7.113e-01
diff --git a/test/reynolds/box/div7.ref b/test/reynolds/box/div7.ref
deleted file mode 100644
index 4eb1d80..0000000
--- a/test/reynolds/box/div7.ref
+++ /dev/null
@@ -1,773 +0,0 @@
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-Divergence time: 0.0406886 first:  5.609e-02 second:  7.639e-02 infty:  3.367e-01
-Divergence time: 0.0438185 first:  5.605e-02 second:  7.641e-02 infty:  3.493e-01
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-Divergence time: 0.0844718 first:  5.581e-02 second:  7.636e-02 infty:  3.236e-01
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-Divergence time: 1.94403 first:  4.551e-02 second:  7.400e-02 infty:  1.006e+00
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-Divergence time: 1.94851 first:  4.543e-02 second:  7.367e-02 infty:  8.452e-01
-Divergence time: 1.95085 first:  4.639e-02 second:  7.470e-02 infty:  7.368e-01
-Divergence time: 1.95319 first:  4.668e-02 second:  7.496e-02 infty:  7.263e-01
-Divergence time: 1.95553 first:  4.680e-02 second:  7.507e-02 infty:  8.287e-01
-Divergence time: 1.95787 first:  4.679e-02 second:  7.511e-02 infty:  9.216e-01
-Divergence time: 1.96021 first:  4.673e-02 second:  7.517e-02 infty:  1.004e+00
-Divergence time: 1.96255 first:  4.667e-02 second:  7.524e-02 infty:  1.071e+00
-Divergence time: 1.96489 first:  4.664e-02 second:  7.520e-02 infty:  1.119e+00
-Divergence time: 1.96723 first:  4.662e-02 second:  7.511e-02 infty:  1.145e+00
-Divergence time: 1.96957 first:  4.657e-02 second:  7.494e-02 infty:  1.145e+00
-Divergence time: 1.97191 first:  4.653e-02 second:  7.472e-02 infty:  1.118e+00
-Divergence time: 1.97425 first:  4.640e-02 second:  7.441e-02 infty:  1.063e+00
-Divergence time: 1.97659 first:  4.632e-02 second:  7.409e-02 infty:  9.784e-01
-Divergence time: 1.97894 first:  4.621e-02 second:  7.377e-02 infty:  8.671e-01
-Divergence time: 1.98128 first:  4.606e-02 second:  7.346e-02 infty:  7.326e-01
-Divergence time: 1.98362 first:  4.597e-02 second:  7.324e-02 infty:  6.730e-01
-Divergence time: 1.98596 first:  4.587e-02 second:  7.305e-02 infty:  6.231e-01
-Divergence time: 1.9883 first:  4.577e-02 second:  7.298e-02 infty:  7.341e-01
-Divergence time: 1.99064 first:  4.568e-02 second:  7.293e-02 infty:  8.345e-01
-Divergence time: 1.99251 first:  4.109e-02 second:  6.720e-02 infty:  9.002e-01
-Divergence time: 1.99438 first:  3.975e-02 second:  6.528e-02 infty:  9.531e-01
-Divergence time: 1.99626 first:  3.916e-02 second:  6.430e-02 infty:  9.920e-01
-Divergence time: 1.99813 first:  3.882e-02 second:  6.373e-02 infty:  1.016e+00
-Divergence time: 2 first:  3.860e-02 second:  6.331e-02 infty:  1.024e+00
diff --git a/test/reynolds/box/reynolds.ref b/test/reynolds/box/reynolds.ref
deleted file mode 100644
index c8b9e81..0000000
--- a/test/reynolds/box/reynolds.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-5 3287.69
-6 12767.3
-7 67250.4
diff --git a/test/reynolds/div5.ref b/test/reynolds/div5.ref
deleted file mode 100644
index 346d624..0000000
--- a/test/reynolds/div5.ref
+++ /dev/null
@@ -1,81 +0,0 @@
-Divergence time: 0 first:  1.010e-15 second:  1.281e-15 infty:  3.997e-15
-Divergence time: 0.025 first:  3.063e-02 second:  3.764e-02 infty:  9.014e-02
-Divergence time: 0.05 first:  3.217e-02 second:  3.989e-02 infty:  9.940e-02
-Divergence time: 0.075 first:  3.235e-02 second:  4.053e-02 infty:  1.049e-01
-Divergence time: 0.1 first:  3.254e-02 second:  4.140e-02 infty:  1.084e-01
-Divergence time: 0.125 first:  3.292e-02 second:  4.186e-02 infty:  1.102e-01
-Divergence time: 0.15 first:  3.276e-02 second:  4.197e-02 infty:  1.118e-01
-Divergence time: 0.175 first:  3.239e-02 second:  4.182e-02 infty:  1.141e-01
-Divergence time: 0.2 first:  3.289e-02 second:  4.238e-02 infty:  1.140e-01
-Divergence time: 0.225 first:  3.267e-02 second:  4.209e-02 infty:  1.148e-01
-Divergence time: 0.25 first:  3.293e-02 second:  4.238e-02 infty:  1.152e-01
-Divergence time: 0.275 first:  3.297e-02 second:  4.226e-02 infty:  1.156e-01
-Divergence time: 0.3 first:  3.252e-02 second:  4.193e-02 infty:  1.155e-01
-Divergence time: 0.325 first:  3.277e-02 second:  4.203e-02 infty:  1.154e-01
-Divergence time: 0.35 first:  3.299e-02 second:  4.210e-02 infty:  1.153e-01
-Divergence time: 0.375 first:  3.288e-02 second:  4.207e-02 infty:  1.148e-01
-Divergence time: 0.4 first:  3.270e-02 second:  4.206e-02 infty:  1.152e-01
-Divergence time: 0.425 first:  3.266e-02 second:  4.196e-02 infty:  1.158e-01
-Divergence time: 0.45 first:  3.263e-02 second:  4.190e-02 infty:  1.167e-01
-Divergence time: 0.475 first:  3.257e-02 second:  4.179e-02 infty:  1.165e-01
-Divergence time: 0.5 first:  3.257e-02 second:  4.172e-02 infty:  1.164e-01
-Divergence time: 0.525 first:  3.271e-02 second:  4.179e-02 infty:  1.164e-01
-Divergence time: 0.55 first:  3.271e-02 second:  4.180e-02 infty:  1.159e-01
-Divergence time: 0.575 first:  3.276e-02 second:  4.180e-02 infty:  1.148e-01
-Divergence time: 0.6 first:  3.281e-02 second:  4.180e-02 infty:  1.138e-01
-Divergence time: 0.625 first:  3.291e-02 second:  4.185e-02 infty:  1.147e-01
-Divergence time: 0.65 first:  3.290e-02 second:  4.186e-02 infty:  1.152e-01
-Divergence time: 0.675 first:  3.287e-02 second:  4.182e-02 infty:  1.159e-01
-Divergence time: 0.7 first:  3.285e-02 second:  4.178e-02 infty:  1.165e-01
-Divergence time: 0.725 first:  3.282e-02 second:  4.175e-02 infty:  1.169e-01
-Divergence time: 0.75 first:  3.280e-02 second:  4.172e-02 infty:  1.171e-01
-Divergence time: 0.775 first:  3.279e-02 second:  4.170e-02 infty:  1.172e-01
-Divergence time: 0.8 first:  3.285e-02 second:  4.172e-02 infty:  1.174e-01
-Divergence time: 0.825 first:  3.298e-02 second:  4.181e-02 infty:  1.175e-01
-Divergence time: 0.85 first:  3.308e-02 second:  4.189e-02 infty:  1.176e-01
-Divergence time: 0.875 first:  3.309e-02 second:  4.188e-02 infty:  1.175e-01
-Divergence time: 0.9 first:  3.315e-02 second:  4.189e-02 infty:  1.174e-01
-Divergence time: 0.925 first:  3.321e-02 second:  4.192e-02 infty:  1.173e-01
-Divergence time: 0.95 first:  3.321e-02 second:  4.191e-02 infty:  1.172e-01
-Divergence time: 0.975 first:  3.328e-02 second:  4.192e-02 infty:  1.170e-01
-Divergence time: 1 first:  3.338e-02 second:  4.201e-02 infty:  1.168e-01
-Divergence time: 1.025 first:  3.342e-02 second:  4.206e-02 infty:  1.169e-01
-Divergence time: 1.05 first:  3.349e-02 second:  4.214e-02 infty:  1.168e-01
-Divergence time: 1.075 first:  3.348e-02 second:  4.211e-02 infty:  1.168e-01
-Divergence time: 1.1 first:  3.346e-02 second:  4.204e-02 infty:  1.167e-01
-Divergence time: 1.125 first:  3.345e-02 second:  4.197e-02 infty:  1.167e-01
-Divergence time: 1.15 first:  3.349e-02 second:  4.197e-02 infty:  1.166e-01
-Divergence time: 1.175 first:  3.349e-02 second:  4.198e-02 infty:  1.167e-01
-Divergence time: 1.2 first:  3.356e-02 second:  4.204e-02 infty:  1.167e-01
-Divergence time: 1.225 first:  3.363e-02 second:  4.210e-02 infty:  1.168e-01
-Divergence time: 1.25 first:  3.366e-02 second:  4.209e-02 infty:  1.169e-01
-Divergence time: 1.275 first:  3.369e-02 second:  4.201e-02 infty:  1.171e-01
-Divergence time: 1.3 first:  3.370e-02 second:  4.192e-02 infty:  1.173e-01
-Divergence time: 1.325 first:  3.366e-02 second:  4.184e-02 infty:  1.174e-01
-Divergence time: 1.35 first:  3.361e-02 second:  4.180e-02 infty:  1.175e-01
-Divergence time: 1.375 first:  3.357e-02 second:  4.179e-02 infty:  1.176e-01
-Divergence time: 1.4 first:  3.354e-02 second:  4.175e-02 infty:  1.177e-01
-Divergence time: 1.425 first:  3.350e-02 second:  4.173e-02 infty:  1.179e-01
-Divergence time: 1.45 first:  3.340e-02 second:  4.161e-02 infty:  1.180e-01
-Divergence time: 1.475 first:  3.337e-02 second:  4.156e-02 infty:  1.181e-01
-Divergence time: 1.5 first:  3.334e-02 second:  4.153e-02 infty:  1.181e-01
-Divergence time: 1.525 first:  3.315e-02 second:  4.134e-02 infty:  1.181e-01
-Divergence time: 1.55 first:  3.310e-02 second:  4.134e-02 infty:  1.180e-01
-Divergence time: 1.575 first:  3.308e-02 second:  4.135e-02 infty:  1.180e-01
-Divergence time: 1.6 first:  3.277e-02 second:  4.104e-02 infty:  1.178e-01
-Divergence time: 1.625 first:  3.271e-02 second:  4.105e-02 infty:  1.176e-01
-Divergence time: 1.65 first:  3.265e-02 second:  4.103e-02 infty:  1.175e-01
-Divergence time: 1.675 first:  3.265e-02 second:  4.104e-02 infty:  1.172e-01
-Divergence time: 1.7 first:  3.249e-02 second:  4.092e-02 infty:  1.170e-01
-Divergence time: 1.725 first:  3.242e-02 second:  4.089e-02 infty:  1.170e-01
-Divergence time: 1.75 first:  3.236e-02 second:  4.085e-02 infty:  1.180e-01
-Divergence time: 1.775 first:  3.228e-02 second:  4.079e-02 infty:  1.185e-01
-Divergence time: 1.8 first:  3.220e-02 second:  4.071e-02 infty:  1.184e-01
-Divergence time: 1.825 first:  3.218e-02 second:  4.071e-02 infty:  1.182e-01
-Divergence time: 1.85 first:  3.211e-02 second:  4.065e-02 infty:  1.180e-01
-Divergence time: 1.875 first:  3.210e-02 second:  4.064e-02 infty:  1.179e-01
-Divergence time: 1.9 first:  3.202e-02 second:  4.063e-02 infty:  1.181e-01
-Divergence time: 1.925 first:  3.200e-02 second:  4.060e-02 infty:  1.179e-01
-Divergence time: 1.95 first:  3.188e-02 second:  4.053e-02 infty:  1.216e-01
-Divergence time: 1.975 first:  3.180e-02 second:  4.049e-02 infty:  1.241e-01
-Divergence time: 2 first:  3.170e-02 second:  4.034e-02 infty:  1.253e-01
diff --git a/test/reynolds/div6.ref b/test/reynolds/div6.ref
deleted file mode 100644
index 4f1087a..0000000
--- a/test/reynolds/div6.ref
+++ /dev/null
@@ -1,161 +0,0 @@
-Divergence time: 0 first:  1.728e-15 second:  2.338e-15 infty:  8.882e-15
-Divergence time: 0.0125 first:  4.108e-03 second:  5.293e-03 infty:  3.301e-02
-Divergence time: 0.025 first:  4.450e-03 second:  5.800e-03 infty:  3.637e-02
-Divergence time: 0.0375 first:  4.500e-03 second:  5.944e-03 infty:  3.539e-02
-Divergence time: 0.05 first:  4.504e-03 second:  6.112e-03 infty:  4.205e-02
-Divergence time: 0.0625 first:  4.635e-03 second:  6.241e-03 infty:  3.425e-02
-Divergence time: 0.075 first:  4.744e-03 second:  6.439e-03 infty:  3.105e-02
-Divergence time: 0.0875 first:  4.843e-03 second:  6.574e-03 infty:  4.007e-02
-Divergence time: 0.1 first:  4.875e-03 second:  6.714e-03 infty:  4.334e-02
-Divergence time: 0.1125 first:  4.858e-03 second:  6.779e-03 infty:  4.493e-02
-Divergence time: 0.125 first:  4.928e-03 second:  6.853e-03 infty:  3.663e-02
-Divergence time: 0.1375 first:  4.989e-03 second:  6.989e-03 infty:  4.175e-02
-Divergence time: 0.15 first:  4.984e-03 second:  7.061e-03 infty:  4.321e-02
-Divergence time: 0.1625 first:  5.015e-03 second:  7.116e-03 infty:  4.220e-02
-Divergence time: 0.175 first:  5.016e-03 second:  7.044e-03 infty:  4.208e-02
-Divergence time: 0.1875 first:  4.945e-03 second:  6.878e-03 infty:  4.207e-02
-Divergence time: 0.2 first:  5.009e-03 second:  7.019e-03 infty:  4.250e-02
-Divergence time: 0.2125 first:  5.022e-03 second:  7.010e-03 infty:  4.085e-02
-Divergence time: 0.225 first:  4.966e-03 second:  6.907e-03 infty:  4.188e-02
-Divergence time: 0.2375 first:  5.006e-03 second:  7.072e-03 infty:  4.216e-02
-Divergence time: 0.25 first:  4.958e-03 second:  6.939e-03 infty:  4.029e-02
-Divergence time: 0.2625 first:  4.953e-03 second:  6.969e-03 infty:  4.169e-02
-Divergence time: 0.275 first:  4.977e-03 second:  6.992e-03 infty:  3.786e-02
-Divergence time: 0.2875 first:  4.945e-03 second:  6.969e-03 infty:  4.430e-02
-Divergence time: 0.3 first:  4.931e-03 second:  7.007e-03 infty:  4.844e-02
-Divergence time: 0.3125 first:  4.899e-03 second:  6.944e-03 infty:  4.746e-02
-Divergence time: 0.325 first:  4.878e-03 second:  6.983e-03 infty:  5.502e-02
-Divergence time: 0.3375 first:  4.920e-03 second:  7.061e-03 infty:  5.593e-02
-Divergence time: 0.35 first:  4.906e-03 second:  6.936e-03 infty:  4.465e-02
-Divergence time: 0.3625 first:  4.952e-03 second:  6.977e-03 infty:  4.860e-02
-Divergence time: 0.375 first:  4.989e-03 second:  7.015e-03 infty:  4.853e-02
-Divergence time: 0.3875 first:  5.018e-03 second:  6.992e-03 infty:  4.490e-02
-Divergence time: 0.4 first:  5.021e-03 second:  6.962e-03 infty:  3.987e-02
-Divergence time: 0.4125 first:  5.005e-03 second:  6.888e-03 infty:  3.935e-02
-Divergence time: 0.425 first:  4.990e-03 second:  6.783e-03 infty:  3.035e-02
-Divergence time: 0.4375 first:  4.983e-03 second:  6.806e-03 infty:  3.246e-02
-Divergence time: 0.45 first:  4.952e-03 second:  6.769e-03 infty:  3.614e-02
-Divergence time: 0.4625 first:  4.923e-03 second:  6.782e-03 infty:  3.773e-02
-Divergence time: 0.475 first:  4.881e-03 second:  6.744e-03 infty:  3.816e-02
-Divergence time: 0.4875 first:  4.849e-03 second:  6.717e-03 infty:  3.818e-02
-Divergence time: 0.5 first:  4.834e-03 second:  6.689e-03 infty:  3.818e-02
-Divergence time: 0.5125 first:  4.828e-03 second:  6.669e-03 infty:  3.812e-02
-Divergence time: 0.525 first:  4.826e-03 second:  6.649e-03 infty:  3.805e-02
-Divergence time: 0.5375 first:  4.825e-03 second:  6.636e-03 infty:  3.800e-02
-Divergence time: 0.55 first:  4.825e-03 second:  6.626e-03 infty:  3.798e-02
-Divergence time: 0.5625 first:  4.824e-03 second:  6.619e-03 infty:  3.796e-02
-Divergence time: 0.575 first:  4.824e-03 second:  6.613e-03 infty:  3.795e-02
-Divergence time: 0.5875 first:  4.825e-03 second:  6.610e-03 infty:  3.794e-02
-Divergence time: 0.6 first:  4.825e-03 second:  6.607e-03 infty:  3.794e-02
-Divergence time: 0.6125 first:  4.825e-03 second:  6.605e-03 infty:  3.793e-02
-Divergence time: 0.625 first:  4.825e-03 second:  6.603e-03 infty:  3.793e-02
-Divergence time: 0.6375 first:  4.825e-03 second:  6.601e-03 infty:  3.792e-02
-Divergence time: 0.65 first:  4.825e-03 second:  6.600e-03 infty:  3.792e-02
-Divergence time: 0.6625 first:  4.825e-03 second:  6.599e-03 infty:  3.791e-02
-Divergence time: 0.675 first:  4.825e-03 second:  6.599e-03 infty:  3.791e-02
-Divergence time: 0.6875 first:  4.825e-03 second:  6.598e-03 infty:  3.791e-02
-Divergence time: 0.7 first:  4.825e-03 second:  6.597e-03 infty:  3.790e-02
-Divergence time: 0.7125 first:  4.825e-03 second:  6.597e-03 infty:  3.790e-02
-Divergence time: 0.725 first:  4.825e-03 second:  6.596e-03 infty:  3.789e-02
-Divergence time: 0.7375 first:  4.825e-03 second:  6.595e-03 infty:  3.789e-02
-Divergence time: 0.75 first:  4.825e-03 second:  6.595e-03 infty:  3.789e-02
-Divergence time: 0.7625 first:  4.826e-03 second:  6.594e-03 infty:  3.791e-02
-Divergence time: 0.775 first:  4.826e-03 second:  6.593e-03 infty:  3.792e-02
-Divergence time: 0.7875 first:  4.827e-03 second:  6.560e-03 infty:  3.794e-02
-Divergence time: 0.8 first:  4.833e-03 second:  6.585e-03 infty:  3.795e-02
-Divergence time: 0.8125 first:  4.835e-03 second:  6.568e-03 infty:  3.796e-02
-Divergence time: 0.825 first:  4.840e-03 second:  6.563e-03 infty:  3.796e-02
-Divergence time: 0.8375 first:  4.848e-03 second:  6.580e-03 infty:  3.810e-02
-Divergence time: 0.85 first:  4.855e-03 second:  6.601e-03 infty:  3.849e-02
-Divergence time: 0.8625 first:  4.858e-03 second:  6.587e-03 infty:  3.848e-02
-Divergence time: 0.875 first:  4.866e-03 second:  6.628e-03 infty:  3.845e-02
-Divergence time: 0.8875 first:  4.870e-03 second:  6.634e-03 infty:  3.842e-02
-Divergence time: 0.9 first:  4.872e-03 second:  6.650e-03 infty:  3.839e-02
-Divergence time: 0.9125 first:  4.873e-03 second:  6.657e-03 infty:  3.839e-02
-Divergence time: 0.925 first:  4.876e-03 second:  6.660e-03 infty:  3.842e-02
-Divergence time: 0.9375 first:  4.875e-03 second:  6.641e-03 infty:  3.839e-02
-Divergence time: 0.95 first:  4.875e-03 second:  6.620e-03 infty:  3.831e-02
-Divergence time: 0.9625 first:  4.881e-03 second:  6.629e-03 infty:  3.827e-02
-Divergence time: 0.975 first:  4.886e-03 second:  6.615e-03 infty:  3.826e-02
-Divergence time: 0.9875 first:  4.894e-03 second:  6.661e-03 infty:  3.828e-02
-Divergence time: 1 first:  4.898e-03 second:  6.642e-03 infty:  3.838e-02
-Divergence time: 1.0125 first:  4.907e-03 second:  6.690e-03 infty:  3.841e-02
-Divergence time: 1.025 first:  4.913e-03 second:  6.698e-03 infty:  3.846e-02
-Divergence time: 1.0375 first:  4.918e-03 second:  6.715e-03 infty:  3.844e-02
-Divergence time: 1.05 first:  4.919e-03 second:  6.704e-03 infty:  3.837e-02
-Divergence time: 1.0625 first:  4.921e-03 second:  6.703e-03 infty:  3.853e-02
-Divergence time: 1.075 first:  4.921e-03 second:  6.664e-03 infty:  3.850e-02
-Divergence time: 1.0875 first:  4.925e-03 second:  6.698e-03 infty:  3.841e-02
-Divergence time: 1.1 first:  4.935e-03 second:  6.705e-03 infty:  3.835e-02
-Divergence time: 1.1125 first:  4.941e-03 second:  6.746e-03 infty:  3.831e-02
-Divergence time: 1.125 first:  4.946e-03 second:  6.747e-03 infty:  3.774e-02
-Divergence time: 1.1375 first:  4.952e-03 second:  6.775e-03 infty:  3.774e-02
-Divergence time: 1.15 first:  4.955e-03 second:  6.744e-03 infty:  3.772e-02
-Divergence time: 1.1625 first:  4.948e-03 second:  6.783e-03 infty:  3.763e-02
-Divergence time: 1.175 first:  4.945e-03 second:  6.731e-03 infty:  3.752e-02
-Divergence time: 1.1875 first:  4.936e-03 second:  6.775e-03 infty:  4.036e-02
-Divergence time: 1.2 first:  4.941e-03 second:  6.795e-03 infty:  4.154e-02
-Divergence time: 1.2125 first:  4.953e-03 second:  6.817e-03 infty:  4.165e-02
-Divergence time: 1.225 first:  4.958e-03 second:  6.812e-03 infty:  4.153e-02
-Divergence time: 1.2375 first:  4.932e-03 second:  6.782e-03 infty:  4.163e-02
-Divergence time: 1.25 first:  4.929e-03 second:  6.821e-03 infty:  4.838e-02
-Divergence time: 1.2625 first:  4.932e-03 second:  6.816e-03 infty:  4.151e-02
-Divergence time: 1.275 first:  4.939e-03 second:  6.854e-03 infty:  4.837e-02
-Divergence time: 1.2875 first:  4.930e-03 second:  6.825e-03 infty:  4.358e-02
-Divergence time: 1.3 first:  4.924e-03 second:  6.863e-03 infty:  4.831e-02
-Divergence time: 1.3125 first:  4.929e-03 second:  6.861e-03 infty:  4.352e-02
-Divergence time: 1.325 first:  4.929e-03 second:  6.857e-03 infty:  4.345e-02
-Divergence time: 1.3375 first:  4.914e-03 second:  6.871e-03 infty:  4.823e-02
-Divergence time: 1.35 first:  4.909e-03 second:  6.843e-03 infty:  4.706e-02
-Divergence time: 1.3625 first:  4.914e-03 second:  6.852e-03 infty:  4.680e-02
-Divergence time: 1.375 first:  4.920e-03 second:  6.849e-03 infty:  4.721e-02
-Divergence time: 1.3875 first:  4.892e-03 second:  6.842e-03 infty:  5.216e-02
-Divergence time: 1.4 first:  4.900e-03 second:  6.857e-03 infty:  5.335e-02
-Divergence time: 1.4125 first:  4.922e-03 second:  6.868e-03 infty:  5.215e-02
-Divergence time: 1.425 first:  4.915e-03 second:  6.843e-03 infty:  5.333e-02
-Divergence time: 1.4375 first:  4.888e-03 second:  6.804e-03 infty:  5.194e-02
-Divergence time: 1.45 first:  4.905e-03 second:  6.812e-03 infty:  5.258e-02
-Divergence time: 1.4625 first:  4.876e-03 second:  6.775e-03 infty:  5.752e-02
-Divergence time: 1.475 first:  4.893e-03 second:  6.796e-03 infty:  5.840e-02
-Divergence time: 1.4875 first:  4.887e-03 second:  6.753e-03 infty:  5.750e-02
-Divergence time: 1.5 first:  4.860e-03 second:  6.683e-03 infty:  4.741e-02
-Divergence time: 1.5125 first:  4.877e-03 second:  6.693e-03 infty:  5.058e-02
-Divergence time: 1.525 first:  4.861e-03 second:  6.621e-03 infty:  4.506e-02
-Divergence time: 1.5375 first:  4.876e-03 second:  6.689e-03 infty:  5.153e-02
-Divergence time: 1.55 first:  4.873e-03 second:  6.652e-03 infty:  5.303e-02
-Divergence time: 1.5625 first:  4.868e-03 second:  6.688e-03 infty:  5.433e-02
-Divergence time: 1.575 first:  4.886e-03 second:  6.643e-03 infty:  4.598e-02
-Divergence time: 1.5875 first:  4.894e-03 second:  6.646e-03 infty:  4.527e-02
-Divergence time: 1.6 first:  4.873e-03 second:  6.607e-03 infty:  4.588e-02
-Divergence time: 1.6125 first:  4.849e-03 second:  6.574e-03 infty:  5.281e-02
-Divergence time: 1.625 first:  4.873e-03 second:  6.646e-03 infty:  5.506e-02
-Divergence time: 1.6375 first:  4.847e-03 second:  6.546e-03 infty:  4.231e-02
-Divergence time: 1.65 first:  4.852e-03 second:  6.601e-03 infty:  4.825e-02
-Divergence time: 1.6625 first:  4.867e-03 second:  6.607e-03 infty:  4.993e-02
-Divergence time: 1.675 first:  4.875e-03 second:  6.619e-03 infty:  4.590e-02
-Divergence time: 1.6875 first:  4.871e-03 second:  6.609e-03 infty:  5.504e-02
-Divergence time: 1.7 first:  4.849e-03 second:  6.556e-03 infty:  4.574e-02
-Divergence time: 1.7125 first:  4.836e-03 second:  6.500e-03 infty:  3.902e-02
-Divergence time: 1.725 first:  4.818e-03 second:  6.486e-03 infty:  4.160e-02
-Divergence time: 1.7375 first:  4.822e-03 second:  6.550e-03 infty:  4.993e-02
-Divergence time: 1.75 first:  4.833e-03 second:  6.549e-03 infty:  4.085e-02
-Divergence time: 1.7625 first:  4.830e-03 second:  6.546e-03 infty:  4.966e-02
-Divergence time: 1.775 first:  4.841e-03 second:  6.611e-03 infty:  4.870e-02
-Divergence time: 1.7875 first:  4.844e-03 second:  6.567e-03 infty:  4.231e-02
-Divergence time: 1.8 first:  4.860e-03 second:  6.647e-03 infty:  4.774e-02
-Divergence time: 1.8125 first:  4.849e-03 second:  6.599e-03 infty:  4.883e-02
-Divergence time: 1.825 first:  4.825e-03 second:  6.537e-03 infty:  4.565e-02
-Divergence time: 1.8375 first:  4.819e-03 second:  6.559e-03 infty:  4.660e-02
-Divergence time: 1.85 first:  4.798e-03 second:  6.481e-03 infty:  4.013e-02
-Divergence time: 1.8625 first:  4.814e-03 second:  6.550e-03 infty:  3.996e-02
-Divergence time: 1.875 first:  4.802e-03 second:  6.512e-03 infty:  4.752e-02
-Divergence time: 1.8875 first:  4.755e-03 second:  6.451e-03 infty:  4.872e-02
-Divergence time: 1.9 first:  4.762e-03 second:  6.484e-03 infty:  4.596e-02
-Divergence time: 1.9125 first:  4.775e-03 second:  6.530e-03 infty:  5.154e-02
-Divergence time: 1.925 first:  4.785e-03 second:  6.541e-03 infty:  5.305e-02
-Divergence time: 1.9375 first:  4.798e-03 second:  6.529e-03 infty:  5.181e-02
-Divergence time: 1.95 first:  4.799e-03 second:  6.519e-03 infty:  4.738e-02
-Divergence time: 1.9625 first:  4.779e-03 second:  6.504e-03 infty:  4.865e-02
-Divergence time: 1.975 first:  4.784e-03 second:  6.500e-03 infty:  5.252e-02
-Divergence time: 1.9875 first:  4.790e-03 second:  6.517e-03 infty:  4.661e-02
-Divergence time: 2 first:  4.796e-03 second:  6.541e-03 infty:  3.884e-02
diff --git a/test/reynolds/div7.ref b/test/reynolds/div7.ref
deleted file mode 100644
index eb1c78f..0000000
--- a/test/reynolds/div7.ref
+++ /dev/null
@@ -1,321 +0,0 @@
-Divergence time: 0 first:  3.825e-15 second:  5.208e-15 infty:  2.487e-14
-Divergence time: 0.00625 first:  5.328e-04 second:  8.353e-04 infty:  1.662e-02
-Divergence time: 0.0125 first:  5.912e-04 second:  9.907e-04 infty:  1.738e-02
-Divergence time: 0.01875 first:  6.159e-04 second:  1.043e-03 infty:  1.687e-02
-Divergence time: 0.025 first:  6.530e-04 second:  1.188e-03 infty:  2.282e-02
-Divergence time: 0.03125 first:  6.739e-04 second:  1.171e-03 infty:  2.117e-02
-Divergence time: 0.0375 first:  6.978e-04 second:  1.242e-03 infty:  2.399e-02
-Divergence time: 0.04375 first:  7.196e-04 second:  1.285e-03 infty:  2.014e-02
-Divergence time: 0.05 first:  7.468e-04 second:  1.351e-03 infty:  2.136e-02
-Divergence time: 0.05625 first:  7.624e-04 second:  1.383e-03 infty:  2.404e-02
-Divergence time: 0.0625 first:  7.811e-04 second:  1.416e-03 infty:  2.200e-02
-Divergence time: 0.06875 first:  7.969e-04 second:  1.440e-03 infty:  2.146e-02
-Divergence time: 0.075 first:  8.114e-04 second:  1.471e-03 infty:  2.215e-02
-Divergence time: 0.08125 first:  8.204e-04 second:  1.493e-03 infty:  2.307e-02
-Divergence time: 0.0875 first:  8.328e-04 second:  1.526e-03 infty:  2.322e-02
-Divergence time: 0.09375 first:  8.411e-04 second:  1.537e-03 infty:  2.145e-02
-Divergence time: 0.1 first:  8.404e-04 second:  1.530e-03 infty:  2.222e-02
-Divergence time: 0.10625 first:  8.479e-04 second:  1.555e-03 infty:  2.056e-02
-Divergence time: 0.1125 first:  8.562e-04 second:  1.581e-03 infty:  2.219e-02
-Divergence time: 0.11875 first:  8.614e-04 second:  1.593e-03 infty:  2.148e-02
-Divergence time: 0.125 first:  8.623e-04 second:  1.584e-03 infty:  2.224e-02
-Divergence time: 0.13125 first:  8.620e-04 second:  1.574e-03 infty:  2.160e-02
-Divergence time: 0.1375 first:  8.643e-04 second:  1.581e-03 infty:  2.148e-02
-Divergence time: 0.14375 first:  8.643e-04 second:  1.588e-03 infty:  2.189e-02
-Divergence time: 0.15 first:  8.700e-04 second:  1.597e-03 infty:  2.086e-02
-Divergence time: 0.15625 first:  8.790e-04 second:  1.618e-03 infty:  2.222e-02
-Divergence time: 0.1625 first:  8.833e-04 second:  1.641e-03 infty:  2.242e-02
-Divergence time: 0.16875 first:  8.789e-04 second:  1.634e-03 infty:  2.203e-02
-Divergence time: 0.175 first:  8.761e-04 second:  1.613e-03 infty:  1.963e-02
-Divergence time: 0.18125 first:  8.760e-04 second:  1.614e-03 infty:  2.191e-02
-Divergence time: 0.1875 first:  8.796e-04 second:  1.627e-03 infty:  1.838e-02
-Divergence time: 0.19375 first:  8.846e-04 second:  1.653e-03 infty:  2.139e-02
-Divergence time: 0.2 first:  8.859e-04 second:  1.650e-03 infty:  1.823e-02
-Divergence time: 0.20625 first:  8.836e-04 second:  1.645e-03 infty:  2.136e-02
-Divergence time: 0.2125 first:  8.836e-04 second:  1.640e-03 infty:  1.818e-02
-Divergence time: 0.21875 first:  8.782e-04 second:  1.621e-03 infty:  2.129e-02
-Divergence time: 0.225 first:  8.823e-04 second:  1.648e-03 infty:  1.816e-02
-Divergence time: 0.23125 first:  8.876e-04 second:  1.678e-03 infty:  2.127e-02
-Divergence time: 0.2375 first:  8.900e-04 second:  1.685e-03 infty:  1.813e-02
-Divergence time: 0.24375 first:  8.800e-04 second:  1.638e-03 infty:  2.125e-02
-Divergence time: 0.25 first:  8.758e-04 second:  1.625e-03 infty:  1.808e-02
-Divergence time: 0.25625 first:  8.716e-04 second:  1.620e-03 infty:  2.121e-02
-Divergence time: 0.2625 first:  8.701e-04 second:  1.623e-03 infty:  1.808e-02
-Divergence time: 0.26875 first:  8.674e-04 second:  1.614e-03 infty:  2.122e-02
-Divergence time: 0.275 first:  8.692e-04 second:  1.632e-03 infty:  1.803e-02
-Divergence time: 0.28125 first:  8.664e-04 second:  1.616e-03 infty:  2.155e-02
-Divergence time: 0.2875 first:  8.614e-04 second:  1.598e-03 infty:  1.806e-02
-Divergence time: 0.29375 first:  8.599e-04 second:  1.598e-03 infty:  2.135e-02
-Divergence time: 0.3 first:  8.552e-04 second:  1.584e-03 infty:  2.199e-02
-Divergence time: 0.30625 first:  8.546e-04 second:  1.592e-03 infty:  2.124e-02
-Divergence time: 0.3125 first:  8.545e-04 second:  1.587e-03 infty:  2.075e-02
-Divergence time: 0.31875 first:  8.558e-04 second:  1.597e-03 infty:  2.128e-02
-Divergence time: 0.325 first:  8.520e-04 second:  1.589e-03 infty:  2.262e-02
-Divergence time: 0.33125 first:  8.499e-04 second:  1.594e-03 infty:  2.139e-02
-Divergence time: 0.3375 first:  8.469e-04 second:  1.581e-03 infty:  2.087e-02
-Divergence time: 0.34375 first:  8.407e-04 second:  1.557e-03 infty:  2.127e-02
-Divergence time: 0.35 first:  8.374e-04 second:  1.567e-03 infty:  2.233e-02
-Divergence time: 0.35625 first:  8.346e-04 second:  1.552e-03 infty:  2.438e-02
-Divergence time: 0.3625 first:  8.332e-04 second:  1.546e-03 infty:  2.132e-02
-Divergence time: 0.36875 first:  8.272e-04 second:  1.531e-03 infty:  2.548e-02
-Divergence time: 0.375 first:  8.226e-04 second:  1.536e-03 infty:  2.753e-02
-Divergence time: 0.38125 first:  8.227e-04 second:  1.518e-03 infty:  2.632e-02
-Divergence time: 0.3875 first:  8.149e-04 second:  1.505e-03 infty:  2.492e-02
-Divergence time: 0.39375 first:  8.184e-04 second:  1.520e-03 infty:  2.553e-02
-Divergence time: 0.4 first:  8.193e-04 second:  1.475e-03 infty:  1.910e-02
-Divergence time: 0.40625 first:  8.200e-04 second:  1.465e-03 infty:  1.951e-02
-Divergence time: 0.4125 first:  8.164e-04 second:  1.456e-03 infty:  1.895e-02
-Divergence time: 0.41875 first:  8.135e-04 second:  1.443e-03 infty:  1.957e-02
-Divergence time: 0.425 first:  8.127e-04 second:  1.429e-03 infty:  1.957e-02
-Divergence time: 0.43125 first:  8.198e-04 second:  1.454e-03 infty:  1.794e-02
-Divergence time: 0.4375 first:  8.240e-04 second:  1.462e-03 infty:  1.926e-02
-Divergence time: 0.44375 first:  8.286e-04 second:  1.467e-03 infty:  1.926e-02
-Divergence time: 0.45 first:  8.278e-04 second:  1.445e-03 infty:  1.747e-02
-Divergence time: 0.45625 first:  8.231e-04 second:  1.424e-03 infty:  1.747e-02
-Divergence time: 0.4625 first:  8.290e-04 second:  1.452e-03 infty:  1.547e-02
-Divergence time: 0.46875 first:  8.331e-04 second:  1.469e-03 infty:  1.554e-02
-Divergence time: 0.475 first:  8.335e-04 second:  1.465e-03 infty:  1.550e-02
-Divergence time: 0.48125 first:  8.338e-04 second:  1.468e-03 infty:  1.550e-02
-Divergence time: 0.4875 first:  8.342e-04 second:  1.475e-03 infty:  1.777e-02
-Divergence time: 0.49375 first:  8.343e-04 second:  1.493e-03 infty:  1.791e-02
-Divergence time: 0.5 first:  8.265e-04 second:  1.463e-03 infty:  1.790e-02
-Divergence time: 0.50625 first:  8.191e-04 second:  1.438e-03 infty:  2.093e-02
-Divergence time: 0.5125 first:  8.184e-04 second:  1.458e-03 infty:  2.484e-02
-Divergence time: 0.51875 first:  8.210e-04 second:  1.474e-03 infty:  2.794e-02
-Divergence time: 0.525 first:  8.175e-04 second:  1.447e-03 infty:  2.139e-02
-Divergence time: 0.53125 first:  8.194e-04 second:  1.451e-03 infty:  1.994e-02
-Divergence time: 0.5375 first:  8.268e-04 second:  1.478e-03 infty:  2.097e-02
-Divergence time: 0.54375 first:  8.307e-04 second:  1.482e-03 infty:  2.148e-02
-Divergence time: 0.55 first:  8.220e-04 second:  1.446e-03 infty:  2.210e-02
-Divergence time: 0.55625 first:  8.239e-04 second:  1.454e-03 infty:  2.207e-02
-Divergence time: 0.5625 first:  8.335e-04 second:  1.482e-03 infty:  2.064e-02
-Divergence time: 0.56875 first:  8.365e-04 second:  1.487e-03 infty:  2.236e-02
-Divergence time: 0.575 first:  8.399e-04 second:  1.480e-03 infty:  2.097e-02
-Divergence time: 0.58125 first:  8.450e-04 second:  1.500e-03 infty:  2.247e-02
-Divergence time: 0.5875 first:  8.515e-04 second:  1.520e-03 infty:  2.241e-02
-Divergence time: 0.59375 first:  8.471e-04 second:  1.514e-03 infty:  2.113e-02
-Divergence time: 0.6 first:  8.465e-04 second:  1.513e-03 infty:  2.257e-02
-Divergence time: 0.60625 first:  8.518e-04 second:  1.521e-03 infty:  2.128e-02
-Divergence time: 0.6125 first:  8.542e-04 second:  1.527e-03 infty:  2.256e-02
-Divergence time: 0.61875 first:  8.584e-04 second:  1.537e-03 infty:  2.095e-02
-Divergence time: 0.625 first:  8.609e-04 second:  1.547e-03 infty:  2.256e-02
-Divergence time: 0.63125 first:  8.574e-04 second:  1.533e-03 infty:  2.095e-02
-Divergence time: 0.6375 first:  8.567e-04 second:  1.541e-03 infty:  2.243e-02
-Divergence time: 0.64375 first:  8.579e-04 second:  1.533e-03 infty:  2.103e-02
-Divergence time: 0.65 first:  8.605e-04 second:  1.542e-03 infty:  2.245e-02
-Divergence time: 0.65625 first:  8.625e-04 second:  1.551e-03 infty:  2.086e-02
-Divergence time: 0.6625 first:  8.609e-04 second:  1.551e-03 infty:  2.234e-02
-Divergence time: 0.66875 first:  8.545e-04 second:  1.535e-03 infty:  2.230e-02
-Divergence time: 0.675 first:  8.635e-04 second:  1.553e-03 infty:  2.088e-02
-Divergence time: 0.68125 first:  8.622e-04 second:  1.547e-03 infty:  2.230e-02
-Divergence time: 0.6875 first:  8.573e-04 second:  1.532e-03 infty:  2.237e-02
-Divergence time: 0.69375 first:  8.597e-04 second:  1.535e-03 infty:  2.227e-02
-Divergence time: 0.7 first:  8.556e-04 second:  1.526e-03 infty:  2.078e-02
-Divergence time: 0.70625 first:  8.575e-04 second:  1.539e-03 infty:  2.234e-02
-Divergence time: 0.7125 first:  8.441e-04 second:  1.498e-03 infty:  2.102e-02
-Divergence time: 0.71875 first:  8.402e-04 second:  1.490e-03 infty:  2.255e-02
-Divergence time: 0.725 first:  8.374e-04 second:  1.482e-03 infty:  1.899e-02
-Divergence time: 0.73125 first:  8.356e-04 second:  1.478e-03 infty:  1.999e-02
-Divergence time: 0.7375 first:  8.267e-04 second:  1.445e-03 infty:  2.103e-02
-Divergence time: 0.74375 first:  8.226e-04 second:  1.441e-03 infty:  2.249e-02
-Divergence time: 0.75 first:  8.163e-04 second:  1.415e-03 infty:  2.265e-02
-Divergence time: 0.75625 first:  8.181e-04 second:  1.423e-03 infty:  1.974e-02
-Divergence time: 0.7625 first:  8.085e-04 second:  1.388e-03 infty:  2.137e-02
-Divergence time: 0.76875 first:  8.122e-04 second:  1.418e-03 infty:  2.285e-02
-Divergence time: 0.775 first:  8.116e-04 second:  1.410e-03 infty:  2.124e-02
-Divergence time: 0.78125 first:  8.019e-04 second:  1.392e-03 infty:  2.249e-02
-Divergence time: 0.7875 first:  7.892e-04 second:  1.355e-03 infty:  2.278e-02
-Divergence time: 0.79375 first:  7.878e-04 second:  1.354e-03 infty:  2.128e-02
-Divergence time: 0.8 first:  7.862e-04 second:  1.349e-03 infty:  2.284e-02
-Divergence time: 0.80625 first:  7.874e-04 second:  1.347e-03 infty:  1.923e-02
-Divergence time: 0.8125 first:  7.815e-04 second:  1.323e-03 infty:  2.100e-02
-Divergence time: 0.81875 first:  7.777e-04 second:  1.307e-03 infty:  2.132e-02
-Divergence time: 0.825 first:  7.771e-04 second:  1.317e-03 infty:  2.286e-02
-Divergence time: 0.83125 first:  7.727e-04 second:  1.295e-03 infty:  1.948e-02
-Divergence time: 0.8375 first:  7.689e-04 second:  1.279e-03 infty:  2.080e-02
-Divergence time: 0.84375 first:  7.644e-04 second:  1.264e-03 infty:  1.737e-02
-Divergence time: 0.85 first:  7.625e-04 second:  1.257e-03 infty:  2.134e-02
-Divergence time: 0.85625 first:  7.598e-04 second:  1.258e-03 infty:  2.273e-02
-Divergence time: 0.8625 first:  7.564e-04 second:  1.236e-03 infty:  1.931e-02
-Divergence time: 0.86875 first:  7.561e-04 second:  1.231e-03 infty:  1.951e-02
-Divergence time: 0.875 first:  7.547e-04 second:  1.228e-03 infty:  1.573e-02
-Divergence time: 0.88125 first:  7.588e-04 second:  1.243e-03 infty:  1.528e-02
-Divergence time: 0.8875 first:  7.605e-04 second:  1.256e-03 infty:  1.520e-02
-Divergence time: 0.89375 first:  7.595e-04 second:  1.248e-03 infty:  1.467e-02
-Divergence time: 0.9 first:  7.586e-04 second:  1.244e-03 infty:  1.360e-02
-Divergence time: 0.90625 first:  7.538e-04 second:  1.216e-03 infty:  1.379e-02
-Divergence time: 0.9125 first:  7.520e-04 second:  1.208e-03 infty:  1.277e-02
-Divergence time: 0.91875 first:  7.513e-04 second:  1.210e-03 infty:  1.384e-02
-Divergence time: 0.925 first:  7.552e-04 second:  1.237e-03 infty:  1.600e-02
-Divergence time: 0.93125 first:  7.568e-04 second:  1.246e-03 infty:  1.565e-02
-Divergence time: 0.9375 first:  7.590e-04 second:  1.244e-03 infty:  1.447e-02
-Divergence time: 0.94375 first:  7.533e-04 second:  1.218e-03 infty:  1.452e-02
-Divergence time: 0.95 first:  7.515e-04 second:  1.208e-03 infty:  1.448e-02
-Divergence time: 0.95625 first:  7.512e-04 second:  1.214e-03 infty:  1.352e-02
-Divergence time: 0.9625 first:  7.588e-04 second:  1.258e-03 infty:  1.600e-02
-Divergence time: 0.96875 first:  7.607e-04 second:  1.262e-03 infty:  1.571e-02
-Divergence time: 0.975 first:  7.603e-04 second:  1.254e-03 infty:  1.621e-02
-Divergence time: 0.98125 first:  7.574e-04 second:  1.229e-03 infty:  1.278e-02
-Divergence time: 0.9875 first:  7.529e-04 second:  1.216e-03 infty:  1.576e-02
-Divergence time: 0.99375 first:  7.524e-04 second:  1.219e-03 infty:  1.548e-02
-Divergence time: 1 first:  7.587e-04 second:  1.256e-03 infty:  1.549e-02
-Divergence time: 1.00625 first:  7.567e-04 second:  1.235e-03 infty:  1.400e-02
-Divergence time: 1.0125 first:  7.569e-04 second:  1.236e-03 infty:  1.456e-02
-Divergence time: 1.01875 first:  7.540e-04 second:  1.228e-03 infty:  1.551e-02
-Divergence time: 1.025 first:  7.597e-04 second:  1.254e-03 infty:  1.630e-02
-Divergence time: 1.03125 first:  7.604e-04 second:  1.249e-03 infty:  1.440e-02
-Divergence time: 1.0375 first:  7.608e-04 second:  1.257e-03 infty:  1.625e-02
-Divergence time: 1.04375 first:  7.610e-04 second:  1.255e-03 infty:  1.617e-02
-Divergence time: 1.05 first:  7.598e-04 second:  1.237e-03 infty:  1.281e-02
-Divergence time: 1.05625 first:  7.577e-04 second:  1.232e-03 infty:  1.636e-02
-Divergence time: 1.0625 first:  7.576e-04 second:  1.229e-03 infty:  1.429e-02
-Divergence time: 1.06875 first:  7.614e-04 second:  1.258e-03 infty:  1.608e-02
-Divergence time: 1.075 first:  7.578e-04 second:  1.241e-03 infty:  1.421e-02
-Divergence time: 1.08125 first:  7.587e-04 second:  1.229e-03 infty:  1.302e-02
-Divergence time: 1.0875 first:  7.578e-04 second:  1.229e-03 infty:  1.472e-02
-Divergence time: 1.09375 first:  7.579e-04 second:  1.229e-03 infty:  1.421e-02
-Divergence time: 1.1 first:  7.624e-04 second:  1.255e-03 infty:  1.604e-02
-Divergence time: 1.10625 first:  7.609e-04 second:  1.252e-03 infty:  1.630e-02
-Divergence time: 1.1125 first:  7.610e-04 second:  1.242e-03 infty:  1.424e-02
-Divergence time: 1.11875 first:  7.610e-04 second:  1.241e-03 infty:  1.577e-02
-Divergence time: 1.125 first:  7.612e-04 second:  1.239e-03 infty:  1.410e-02
-Divergence time: 1.13125 first:  7.624e-04 second:  1.247e-03 infty:  1.433e-02
-Divergence time: 1.1375 first:  7.630e-04 second:  1.255e-03 infty:  1.419e-02
-Divergence time: 1.14375 first:  7.598e-04 second:  1.242e-03 infty:  1.472e-02
-Divergence time: 1.15 first:  7.624e-04 second:  1.243e-03 infty:  1.308e-02
-Divergence time: 1.15625 first:  7.612e-04 second:  1.238e-03 infty:  1.453e-02
-Divergence time: 1.1625 first:  7.632e-04 second:  1.241e-03 infty:  1.322e-02
-Divergence time: 1.16875 first:  7.641e-04 second:  1.255e-03 infty:  1.628e-02
-Divergence time: 1.175 first:  7.635e-04 second:  1.256e-03 infty:  1.427e-02
-Divergence time: 1.18125 first:  7.619e-04 second:  1.239e-03 infty:  1.459e-02
-Divergence time: 1.1875 first:  7.623e-04 second:  1.244e-03 infty:  1.353e-02
-Divergence time: 1.19375 first:  7.641e-04 second:  1.248e-03 infty:  1.430e-02
-Divergence time: 1.2 first:  7.698e-04 second:  1.282e-03 infty:  1.601e-02
-Divergence time: 1.20625 first:  7.658e-04 second:  1.261e-03 infty:  1.464e-02
-Divergence time: 1.2125 first:  7.661e-04 second:  1.255e-03 infty:  1.373e-02
-Divergence time: 1.21875 first:  7.632e-04 second:  1.242e-03 infty:  1.452e-02
-Divergence time: 1.225 first:  7.624e-04 second:  1.241e-03 infty:  1.397e-02
-Divergence time: 1.23125 first:  7.643e-04 second:  1.254e-03 infty:  1.633e-02
-Divergence time: 1.2375 first:  7.703e-04 second:  1.292e-03 infty:  1.582e-02
-Divergence time: 1.24375 first:  7.660e-04 second:  1.261e-03 infty:  1.449e-02
-Divergence time: 1.25 first:  7.673e-04 second:  1.274e-03 infty:  1.556e-02
-Divergence time: 1.25625 first:  7.634e-04 second:  1.244e-03 infty:  1.520e-02
-Divergence time: 1.2625 first:  7.677e-04 second:  1.267e-03 infty:  1.524e-02
-Divergence time: 1.26875 first:  7.667e-04 second:  1.278e-03 infty:  2.056e-02
-Divergence time: 1.275 first:  7.694e-04 second:  1.294e-03 infty:  1.673e-02
-Divergence time: 1.28125 first:  7.641e-04 second:  1.266e-03 infty:  1.632e-02
-Divergence time: 1.2875 first:  7.648e-04 second:  1.261e-03 infty:  1.633e-02
-Divergence time: 1.29375 first:  7.635e-04 second:  1.250e-03 infty:  1.563e-02
-Divergence time: 1.3 first:  7.666e-04 second:  1.256e-03 infty:  1.557e-02
-Divergence time: 1.30625 first:  7.665e-04 second:  1.280e-03 infty:  2.082e-02
-Divergence time: 1.3125 first:  7.655e-04 second:  1.286e-03 infty:  1.676e-02
-Divergence time: 1.31875 first:  7.611e-04 second:  1.258e-03 infty:  1.614e-02
-Divergence time: 1.325 first:  7.614e-04 second:  1.248e-03 infty:  1.635e-02
-Divergence time: 1.33125 first:  7.656e-04 second:  1.266e-03 infty:  1.595e-02
-Divergence time: 1.3375 first:  7.676e-04 second:  1.287e-03 infty:  2.150e-02
-Divergence time: 1.34375 first:  7.685e-04 second:  1.307e-03 infty:  2.335e-02
-Divergence time: 1.35 first:  7.623e-04 second:  1.279e-03 infty:  1.686e-02
-Divergence time: 1.35625 first:  7.627e-04 second:  1.263e-03 infty:  1.669e-02
-Divergence time: 1.3625 first:  7.623e-04 second:  1.267e-03 infty:  2.058e-02
-Divergence time: 1.36875 first:  7.703e-04 second:  1.316e-03 infty:  2.621e-02
-Divergence time: 1.375 first:  7.625e-04 second:  1.283e-03 infty:  2.302e-02
-Divergence time: 1.38125 first:  7.612e-04 second:  1.277e-03 infty:  2.312e-02
-Divergence time: 1.3875 first:  7.616e-04 second:  1.274e-03 infty:  1.749e-02
-Divergence time: 1.39375 first:  7.676e-04 second:  1.300e-03 infty:  2.025e-02
-Divergence time: 1.4 first:  7.658e-04 second:  1.278e-03 infty:  2.107e-02
-Divergence time: 1.40625 first:  7.740e-04 second:  1.327e-03 infty:  2.728e-02
-Divergence time: 1.4125 first:  7.679e-04 second:  1.312e-03 infty:  2.339e-02
-Divergence time: 1.41875 first:  7.712e-04 second:  1.317e-03 infty:  2.323e-02
-Divergence time: 1.425 first:  7.699e-04 second:  1.299e-03 infty:  2.094e-02
-Divergence time: 1.43125 first:  7.731e-04 second:  1.322e-03 infty:  2.427e-02
-Divergence time: 1.4375 first:  7.661e-04 second:  1.291e-03 infty:  2.602e-02
-Divergence time: 1.44375 first:  7.730e-04 second:  1.314e-03 infty:  2.153e-02
-Divergence time: 1.45 first:  7.750e-04 second:  1.320e-03 infty:  2.278e-02
-Divergence time: 1.45625 first:  7.662e-04 second:  1.276e-03 infty:  2.261e-02
-Divergence time: 1.4625 first:  7.733e-04 second:  1.314e-03 infty:  2.136e-02
-Divergence time: 1.46875 first:  7.730e-04 second:  1.324e-03 infty:  2.462e-02
-Divergence time: 1.475 first:  7.730e-04 second:  1.318e-03 infty:  2.205e-02
-Divergence time: 1.48125 first:  7.757e-04 second:  1.330e-03 infty:  2.435e-02
-Divergence time: 1.4875 first:  7.774e-04 second:  1.327e-03 infty:  2.437e-02
-Divergence time: 1.49375 first:  7.748e-04 second:  1.320e-03 infty:  2.445e-02
-Divergence time: 1.5 first:  7.711e-04 second:  1.300e-03 infty:  2.287e-02
-Divergence time: 1.50625 first:  7.707e-04 second:  1.291e-03 infty:  2.225e-02
-Divergence time: 1.5125 first:  7.743e-04 second:  1.303e-03 infty:  2.002e-02
-Divergence time: 1.51875 first:  7.755e-04 second:  1.307e-03 infty:  2.237e-02
-Divergence time: 1.525 first:  7.797e-04 second:  1.330e-03 infty:  2.500e-02
-Divergence time: 1.53125 first:  7.718e-04 second:  1.294e-03 infty:  2.381e-02
-Divergence time: 1.5375 first:  7.656e-04 second:  1.279e-03 infty:  2.373e-02
-Divergence time: 1.54375 first:  7.730e-04 second:  1.309e-03 infty:  2.298e-02
-Divergence time: 1.55 first:  7.745e-04 second:  1.304e-03 infty:  2.060e-02
-Divergence time: 1.55625 first:  7.767e-04 second:  1.317e-03 infty:  2.357e-02
-Divergence time: 1.5625 first:  7.786e-04 second:  1.323e-03 infty:  2.300e-02
-Divergence time: 1.56875 first:  7.831e-04 second:  1.317e-03 infty:  1.904e-02
-Divergence time: 1.575 first:  7.842e-04 second:  1.317e-03 infty:  2.075e-02
-Divergence time: 1.58125 first:  7.804e-04 second:  1.307e-03 infty:  2.301e-02
-Divergence time: 1.5875 first:  7.821e-04 second:  1.332e-03 infty:  2.313e-02
-Divergence time: 1.59375 first:  7.879e-04 second:  1.358e-03 infty:  2.275e-02
-Divergence time: 1.6 first:  7.933e-04 second:  1.361e-03 infty:  2.077e-02
-Divergence time: 1.60625 first:  7.996e-04 second:  1.387e-03 infty:  2.447e-02
-Divergence time: 1.6125 first:  7.992e-04 second:  1.374e-03 infty:  2.071e-02
-Divergence time: 1.61875 first:  8.022e-04 second:  1.391e-03 infty:  2.261e-02
-Divergence time: 1.625 first:  8.025e-04 second:  1.394e-03 infty:  2.317e-02
-Divergence time: 1.63125 first:  8.036e-04 second:  1.382e-03 infty:  2.177e-02
-Divergence time: 1.6375 first:  8.035e-04 second:  1.380e-03 infty:  2.134e-02
-Divergence time: 1.64375 first:  8.013e-04 second:  1.363e-03 infty:  2.309e-02
-Divergence time: 1.65 first:  8.016e-04 second:  1.373e-03 infty:  2.196e-02
-Divergence time: 1.65625 first:  8.041e-04 second:  1.401e-03 infty:  2.460e-02
-Divergence time: 1.6625 first:  8.098e-04 second:  1.404e-03 infty:  2.060e-02
-Divergence time: 1.66875 first:  8.177e-04 second:  1.427e-03 infty:  2.170e-02
-Divergence time: 1.675 first:  8.177e-04 second:  1.424e-03 infty:  2.451e-02
-Divergence time: 1.68125 first:  8.197e-04 second:  1.415e-03 infty:  2.015e-02
-Divergence time: 1.6875 first:  8.183e-04 second:  1.425e-03 infty:  2.474e-02
-Divergence time: 1.69375 first:  8.156e-04 second:  1.422e-03 infty:  2.258e-02
-Divergence time: 1.7 first:  8.192e-04 second:  1.438e-03 infty:  2.105e-02
-Divergence time: 1.70625 first:  8.162e-04 second:  1.425e-03 infty:  2.302e-02
-Divergence time: 1.7125 first:  8.208e-04 second:  1.443e-03 infty:  2.421e-02
-Divergence time: 1.71875 first:  8.197e-04 second:  1.437e-03 infty:  2.259e-02
-Divergence time: 1.725 first:  8.229e-04 second:  1.434e-03 infty:  2.132e-02
-Divergence time: 1.73125 first:  8.225e-04 second:  1.429e-03 infty:  2.394e-02
-Divergence time: 1.7375 first:  8.277e-04 second:  1.439e-03 infty:  2.113e-02
-Divergence time: 1.74375 first:  8.321e-04 second:  1.443e-03 infty:  2.285e-02
-Divergence time: 1.75 first:  8.300e-04 second:  1.442e-03 infty:  2.148e-02
-Divergence time: 1.75625 first:  8.250e-04 second:  1.437e-03 infty:  2.399e-02
-Divergence time: 1.7625 first:  8.304e-04 second:  1.447e-03 infty:  2.015e-02
-Divergence time: 1.76875 first:  8.335e-04 second:  1.454e-03 infty:  2.180e-02
-Divergence time: 1.775 first:  8.327e-04 second:  1.458e-03 infty:  2.066e-02
-Divergence time: 1.78125 first:  8.380e-04 second:  1.474e-03 infty:  2.222e-02
-Divergence time: 1.7875 first:  8.352e-04 second:  1.469e-03 infty:  2.347e-02
-Divergence time: 1.79375 first:  8.347e-04 second:  1.470e-03 infty:  2.147e-02
-Divergence time: 1.8 first:  8.325e-04 second:  1.463e-03 infty:  2.328e-02
-Divergence time: 1.80625 first:  8.356e-04 second:  1.461e-03 infty:  2.268e-02
-Divergence time: 1.8125 first:  8.382e-04 second:  1.465e-03 infty:  2.072e-02
-Divergence time: 1.81875 first:  8.363e-04 second:  1.456e-03 infty:  2.112e-02
-Divergence time: 1.825 first:  8.356e-04 second:  1.456e-03 infty:  2.174e-02
-Divergence time: 1.83125 first:  8.348e-04 second:  1.453e-03 infty:  2.134e-02
-Divergence time: 1.8375 first:  8.314e-04 second:  1.440e-03 infty:  2.257e-02
-Divergence time: 1.84375 first:  8.289e-04 second:  1.447e-03 infty:  2.172e-02
-Divergence time: 1.85 first:  8.193e-04 second:  1.432e-03 infty:  2.317e-02
-Divergence time: 1.85625 first:  8.177e-04 second:  1.423e-03 infty:  2.172e-02
-Divergence time: 1.8625 first:  8.210e-04 second:  1.430e-03 infty:  2.306e-02
-Divergence time: 1.86875 first:  8.263e-04 second:  1.442e-03 infty:  1.955e-02
-Divergence time: 1.875 first:  8.306e-04 second:  1.452e-03 infty:  2.101e-02
-Divergence time: 1.88125 first:  8.289e-04 second:  1.456e-03 infty:  2.123e-02
-Divergence time: 1.8875 first:  8.262e-04 second:  1.447e-03 infty:  2.334e-02
-Divergence time: 1.89375 first:  8.221e-04 second:  1.439e-03 infty:  2.264e-02
-Divergence time: 1.9 first:  8.177e-04 second:  1.446e-03 infty:  2.379e-02
-Divergence time: 1.90625 first:  8.200e-04 second:  1.447e-03 infty:  2.128e-02
-Divergence time: 1.9125 first:  8.206e-04 second:  1.440e-03 infty:  2.207e-02
-Divergence time: 1.91875 first:  8.191e-04 second:  1.424e-03 infty:  2.264e-02
-Divergence time: 1.925 first:  8.226e-04 second:  1.429e-03 infty:  1.924e-02
-Divergence time: 1.93125 first:  8.219e-04 second:  1.448e-03 infty:  2.257e-02
-Divergence time: 1.9375 first:  8.170e-04 second:  1.428e-03 infty:  2.267e-02
-Divergence time: 1.94375 first:  8.118e-04 second:  1.417e-03 infty:  2.399e-02
-Divergence time: 1.95 first:  8.038e-04 second:  1.411e-03 infty:  2.370e-02
-Divergence time: 1.95625 first:  8.008e-04 second:  1.410e-03 infty:  2.524e-02
-Divergence time: 1.9625 first:  8.051e-04 second:  1.398e-03 infty:  2.086e-02
-Divergence time: 1.96875 first:  8.056e-04 second:  1.397e-03 infty:  2.082e-02
-Divergence time: 1.975 first:  8.037e-04 second:  1.385e-03 infty:  2.171e-02
-Divergence time: 1.98125 first:  8.056e-04 second:  1.393e-03 infty:  2.135e-02
-Divergence time: 1.9875 first:  8.036e-04 second:  1.382e-03 infty:  2.251e-02
-Divergence time: 1.99375 first:  8.021e-04 second:  1.385e-03 infty:  2.247e-02
-Divergence time: 2 first:  7.973e-04 second:  1.369e-03 infty:  2.366e-02
diff --git a/test/reynolds/reynolds.gfs b/test/reynolds/reynolds.gfs
deleted file mode 100644
index 01efb55..0000000
--- a/test/reynolds/reynolds.gfs
+++ /dev/null
@@ -1,72 +0,0 @@
-# Title: Estimation of the numerical viscosity
-#
-# Description:
-#
-# The velocity field is initialised with an exact stationary solution of
-# the Euler equations in a periodic 2D domain. An exact Euler solver
-# would not change this field, however any numerical solver will
-# introduce numerical dissipation which will slowly dissipate the
-# kinetic energy of the initial solution. By monitoring the evolution of
-# the kinetic energy, the dissipative properties of the numerical scheme
-# can be measured (see \cite{rider95} for details).
-#
-# Figures \ref{divmax} and figure \ref{divL2} illustrate the evolution
-# of the divergence of the velocity field with time. This is a check of
-# the stability of the approximate projection and should remain bounded.
-#
-# Figures \ref{kinetic} and \ref{reynolds} illustrates the evolution of
-# the kinetic energy and the corresponding equivalent Reynolds number as
-# a function of resolution. The higher the Reynolds number, the less
-# dissipative the scheme.
-#
-# \begin{figure}[htbp]
-# \caption{\label{divmax}Evolution of the maximum divergence.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{divmax.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{divL2}Evolution of the L2 norm of the divergence.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{divL2.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{kinetic}Evolution of the kinetic energy.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{kinetic.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{reynolds}Equivalent Reynolds number as a function of resolution.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{reynolds.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh reynolds.sh reynolds.gfs 1
-# Version: 0.6.4
-# Required files: reynolds.sh div5.ref div6.ref div7.ref reynolds.ref
-# Running time: 3 minutes
-# Generated files: divmax.eps reynolds.eps divL2.eps kinetic.eps
-#
-1 2 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = 2 }
-  Refine LEVEL
-  Init {} {
-    U = (- cos (2.*M_PI*x)*sin (2.*M_PI*y))
-    V = (sin (2.*M_PI*x)*cos (2.*M_PI*y))
-  }
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  OutputScalarNorm { istep = 1 } divLEVEL { v = Divergence }
-  OutputScalarSum { istep = 1 } kineticLEVEL { v = Velocity2 }
-  OutputScalarSum { istep = 1 } stdout { v = Velocity2 }
-}
-GfsBox {}
-1 1 right
-1 1 top
diff --git a/test/reynolds/reynolds.ref b/test/reynolds/reynolds.ref
deleted file mode 100644
index a730684..0000000
--- a/test/reynolds/reynolds.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-5 9981.15
-6 79608.4
-7 637877
diff --git a/test/reynolds/reynolds.sh b/test/reynolds/reynolds.sh
deleted file mode 100644
index 7ba4a92..0000000
--- a/test/reynolds/reynolds.sh
+++ /dev/null
@@ -1,53 +0,0 @@
-if ! $donotrun; then
-    rm -f reynolds
-
-    for level in 5 6 7; do
-	if sed "s/LEVEL/$level/g" < $1 | gerris2D - | awk -v m=$2 -v level=$level '{
-          time = $3
-          ke = $5
-          if (time == 0)
-            ke0 = ke;
-          }END{
-            a = -log(ke/ke0)/time
-            nu = a/(4.*(2.*m*3.14159265359)^2)
-            print level " " 1./nu
-          }' >> reynolds; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'divmax.eps'
-    set xlabel 'Time'
-    set ylabel 'Divergence Max'
-    plot [0:2]'div5' u 3:9 t "5" w l, 'div6' u 3:9 t "6" w l, 'div7' u 3:9 t "7" w l, 'div5.ref' u 3:9 t "5 (ref)" w l, 'div6.ref' u 3:9 t "6 (ref)" w l, 'div7.ref' u 3:9 t "7 (ref)" w l
-    set output 'divL2.eps'
-    set ylabel 'Divergence L2'
-    plot [0:2]'div5' u 3:7 t "5" w l, 'div6' u 3:7 t "6" w l, 'div7' u 3:7 t "7" w l, 'div5.ref' u 3:7 t "5 (ref)" w l, 'div6.ref' u 3:7 t "6 (ref)" w l, 'div7.ref' u 3:7 t "7 (ref)" w l
-    set output 'kinetic.eps'
-    set ylabel 'Kinetic energy'
-    plot [0:2]'kinetic5' u 3:5 t "5" w l, 'kinetic6' u 3:5 t "6" w l, 'kinetic7' u 3:5 t "7" w l
-    set output 'reynolds.eps'
-    set xlabel 'Level'
-    set ylabel 'Effective Reynolds number'
-    set logscale y
-    plot 'reynolds' u 1:2 t "" w lp, 'reynolds.ref' u 1:2 t "ref" w lp
-EOF
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-for div in ['div5','div6','div7']:
-  if (Curve(div,3,9) - Curve(div+'.ref',3,9)).max() > 0.01*Curve(div+'.ref',3,9).mean() or\
-     (Curve(div,3,7) - Curve(div+'.ref',3,7)).max() > 0.01*Curve(div+'.ref',3,7).mean():
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/shear/curvature/curvature.gfs b/test/shear/curvature/curvature.gfs
deleted file mode 100644
index 3166e1b..0000000
--- a/test/shear/curvature/curvature.gfs
+++ /dev/null
@@ -1,91 +0,0 @@
-# Title: Time-reversed advection with curvature-based refinement
-#
-# Description:
-#
-# Same as the previous test but with adaptivity based on the local
-# curvature of the interface (with a maximum of eight levels of
-# refinement).
-#
-# \begin{figure}[htbp]
-# \caption{\label{advection}Interface shape and refined mesh at time 2.5.}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{t-2.5.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Difference between the initial and final volume fraction fields.}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{dt-5.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{table}[htbp]
-# \caption{\label{norms}Norms of the error between the initial and final fields. The
-# reference values are given in blue.}
-# \begin{center}
-# \begin{tabular}{|c|c|c|}\hline
-# $L_1$ & $L_2$ & $L_\infty$ \\ \hline
-# \input{norms.tex}
-# \end{tabular}
-# \end{center}
-# \end{table}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../shear.sh curvature.gfs | gfsview-batch2D curvature.gfv
-# Version: 091022
-# Required files: ../shear.sh norms.ref curvature.gfv
-# Running time: 2 minutes
-# Generated files: t-2.5.eps dt-5.eps norms norms.tex
-#
-# The type of the simulation is GfsAdvection which only solves the advection
-# of passive tracers.
-1 0 GfsAdvection GfsBox GfsGEdge {} {
-    Time { end = 5 }
-    Refine 8
-
-    # Add tracer T, using a VOF advection scheme.
-    # The default scheme is a Van-Leer limited, second-order upwind scheme.
-    VariableTracerVOF T
-
-    # Curvature K of the interface defined by T
-    VariableCurvature K T
-
-    InitFraction T (ellipse (0, -.236338, 0.2, 0.2))
-
-    # Maintain U and V with the vortical shear flow field defined by
-    # its streamfunction
-    VariableStreamFunction {
-	# make sure that the entire field is reinitialised at t = 2.5
-	step = 2.5 
-    } Psi (t < 2.5 ? 1. : -1.)*sin((x + 0.5)*M_PI)*sin((y + 0.5)*M_PI)/M_PI
-    
-    # Adapt the mesh dynamically using a custom cost function returning
-    # the cell size times the local curvature (only for cells cut by
-    # the interface).
-    # The maximum cost is set to 0.1 i.e. the radius of curvature must be
-    # resolved with at least 10 cells.
-    AdaptFunction { istep = 1 } { cmax = 0.1 maxlevel = 8 } {
-        return T > 0. && T < 1. ? ftt_cell_size (cell)*fabs (K) : 0.;
-    }
-
-    OutputSimulation { start = 2.5 } stdout
-    EventScript { start = 2.5 } { echo "Save t-2.5.eps { format = EPS line_width = 0.5 }" }
-    
-    # Add a new variable 
-    Variable Tref
-
-    # Initialize Tref with the initial shape
-    InitFraction { start = end } Tref (ellipse (0, -.236338, 0.2, 0.2))
-
-    # Output the norms of the difference between T and Tref, stores that into
-    # new variable DT
-    OutputErrorNorm { start = end } norms { v = T } {
-        s = Tref v = DT
-    }
-
-    OutputPPM { start = end } { convert ppm:- dt-5.eps } { v = DT }
-
-    OutputScalarSum { istep = 1 } { awk '{ print $3,$5-8.743441e-01 }' > t } { v = T }
-}
-GfsBox {}
diff --git a/test/shear/curvature/curvature.gfv b/test/shear/curvature/curvature.gfv
deleted file mode 100644
index d4439d2..0000000
--- a/test/shear/curvature/curvature.gfv
+++ /dev/null
@@ -1,35 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 24.9119
-  r = 1 g = 1 b = 1
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Cells {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-}
-VOF {
-  r = 0.010071 g = 0 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} T {
-  reversed = 0
-  use_scalar = 0
-  draw_edges = 0
-}
diff --git a/test/shear/curvature/norms.ref b/test/shear/curvature/norms.ref
deleted file mode 100644
index 33cfacd..0000000
--- a/test/shear/curvature/norms.ref
+++ /dev/null
@@ -1 +0,0 @@
-T time: 5 first:  9.417e-04 second:  1.027e-02 infty:  4.270e-01 bias: -4.640e-05
diff --git a/test/shear/norms.ref b/test/shear/norms.ref
deleted file mode 100644
index 96996bf..0000000
--- a/test/shear/norms.ref
+++ /dev/null
@@ -1 +0,0 @@
-T time: 5 first:  1.734e-04 second:  5.716e-03 infty:  3.770e-01 bias:  1.053e-05
diff --git a/test/shear/shear.gfs b/test/shear/shear.gfs
deleted file mode 100644
index 3937a0c..0000000
--- a/test/shear/shear.gfs
+++ /dev/null
@@ -1,98 +0,0 @@
-# Title: Time-reversed VOF advection in a shear flow
-#
-# Description:
-#
-# A test case initially presented by Rudman \cite{rudman97}.
-# A circular patch of tracer is advected in a vortical shear flow. At t = 2.5
-# the flow direction is reversed. An exact advection scheme would restore the 
-# initial circular shape at t = 5.
-#
-# The VOF (Volume-Of-Fluid) advection scheme is not exact. The initial, intermediate
-# and final shape of the interface are represented on Figure \ref{advection}. 
-# Figure \ref{error} illustrates the error between the initial and final shapes. The
-# corresponding error norms are given in Table \ref{norms}.
-#
-# Adaptive refinement is used with the gradient of the volume fraction as criterion.
-# Eight levels of refinement are used on the interfaces and six away from the interface.
-#
-# \begin{figure}[htbp]
-# \caption{\label{advection}Volume fraction field at times (a) 0, (b) 2.5 and (c) 5.}
-# \begin{center}
-# \begin{tabular}{ccc}
-# \includegraphics[width=0.3\hsize]{t-0.eps} &
-# \includegraphics[width=0.3\hsize]{t-2.5.eps} &
-# \includegraphics[width=0.3\hsize]{t-5.eps} \\
-# (a) & (b) & (c)
-# \end{tabular}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{error}Difference between the initial and final volume fraction fields.}
-# \begin{center}
-# \includegraphics[width=0.4\hsize]{dt-5.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{table}[htbp]
-# \caption{\label{norms}Norms of the error between the initial and final fields. The
-# reference values are given in blue.}
-# \begin{center}
-# \begin{tabular}{|c|c|c|}\hline
-# $L_1$ & $L_2$ & $L_\infty$ \\ \hline
-# \input{norms.tex}
-# \end{tabular}
-# \end{center}
-# \end{table}
-#
-# Author: St\'ephane Popinet
-# Command: sh shear.sh shear.gfs
-# Version: 091022
-# Required files: shear.sh norms.ref
-# Running time: 2 minutes
-# Generated files: t-0.eps t-2.5.eps t-5.eps dt-5.eps norms norms.tex
-#
-# The type of the simulation is GfsAdvection which only solves the advection
-# of passive tracers.
-1 0 GfsAdvection GfsBox GfsGEdge {} {
-    Time { end = 5 }
-    Refine 8
-
-    # Add tracer T, using a VOF advection scheme.
-    # The default scheme is a Van-Leer limited, second-order upwind scheme.
-    VariableTracerVOF T
-
-    InitFraction T (ellipse (0, -.236338, 0.2, 0.2))
-
-    # Maintain U and V with the vortical shear flow field defined by
-    # its streamfunction
-    VariableStreamFunction {
-	# make sure that the entire field is reinitialised at t = 2.5
-	step = 2.5 
-    } Psi (t < 2.5 ? 1. : -1.)*sin((x + 0.5)*M_PI)*sin((y + 0.5)*M_PI)/M_PI
-    
-    # Adapt the mesh dynamically so that at any time the maximum of the gradient
-    # of T is less than 1e-2 per cell length
-    AdaptGradient { istep = 1 } { cmax = 1e-2 maxlevel = 8 } T
-    
-    OutputPPM { start = 0 } { convert ppm:- t-0.eps } { v = T }
-    OutputPPM { start = 2.5 } { convert ppm:- t-2.5.eps } { v = T }
-    OutputPPM { start = 5 } { convert ppm:- t-5.eps } { v = T }
-
-    # Add a new variable 
-    Variable Tref
-
-    # Initialize Tref with the initial shape
-    InitFraction { start = end } Tref (ellipse (0, -.236338, 0.2, 0.2))
-
-    # Output the norms of the difference between T and Tref, stores that into
-    # new variable DT
-    OutputErrorNorm { start = end } norms { v = T } {
-        s = Tref v = DT
-    }
-
-    OutputPPM { start = end } { convert ppm:- dt-5.eps } { v = DT }
-
-    OutputScalarSum { istep = 1 } { awk '{ print $3,$5-8.743441e-01 }' > t } { v = T }
-}
-GfsBox {}
diff --git a/test/shear/shear.sh b/test/shear/shear.sh
deleted file mode 100644
index 9504cfd..0000000
--- a/test/shear/shear.sh
+++ /dev/null
@@ -1,27 +0,0 @@
-if ! $donotrun; then
-    if gerris2D $1; then :
-    else
-	exit 1
-    fi
-fi
-
-if awk '{print $5 " & " $7 " & " $9 "\\\\"}' < norms > norms.tex && \
-   awk '{print "{\\color{blue}" $5 "} & {\\color{blue}" $7 "} & {\\color{blue}" $9 "}"}' < norms.ref >> norms.tex ; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('norms',3,5) - Curve('norms.ref',3,5)).max() > 0. or\
-   (Curve('norms',3,7) - Curve('norms.ref',3,7)).max() > 0. or\
-   (Curve('norms',3,9) - Curve('norms.ref',3,9)).max() > 0. or\
-   (Curve('norms',3,11) - Curve('norms.ref',3,11)).max() > 0.:
-    exit(1)
-if Curve('t',1,2).max() > 2e-5:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/spurious/axi/axi.gfs b/test/spurious/axi/axi.gfs
deleted file mode 100644
index 3303a1d..0000000
--- a/test/spurious/axi/axi.gfs
+++ /dev/null
@@ -1,93 +0,0 @@
-# Title: Axisymmetric spherical droplet in equilibrium
-#
-# Description:
-#
-# The same test case but using the axisymmetric solver. The results
-# are comparable.
-#
-# \begin{figure}[htbp]
-# \caption{\label{laplace}Evolution of the amplitude of the capillary currents
-# $\max(|{\bf u}|)(D/\sigma)^{1/2}$ as a function of
-# non-dimensional time $\tau=t\mu/D^2$ for the range of Laplace
-# numbers indicated in the legend.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{laplace.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{curvature}Evolution of the standard deviation of the
-# value of the curvature along the interface as a function of
-# non-dimensional time $\tau=t\mu/D^2$ for the range of Laplace
-# numbers indicated in the legend.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{curvature.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{convergence}Convergence of the error on the equilibrium shape of the
-# droplet with resolution. The diameter is given in number of grid
-# points.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{convergence.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{kconvergence}Convergence of the relative error on the
-# equilibrium curvature value with resolution. The diameter is given
-# in number of grid points.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{kconvergence.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../spurious.sh axi.gfs 1e-7
-# Version: 1.3.1
-# Required files: convergence.ref kconvergence.ref
-# Generated files: laplace.eps curvature.eps convergence.eps kconvergence.eps
-#
-
-Define CIRCLE (ellipse (-0.5,0.,0.4,0.4))
-Define MU sqrt(0.8/LAPLACE)
-
-1 0 GfsAxi GfsBox GfsGEdge {} {
-  Time { end = TMAX }
-  Refine LEVEL
-  RefineSurface {return 10;} CIRCLE
-
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  AdvectionParams { scheme = none }
-
-  VariableTracerVOF T
-  VariableCurvature K T
-  SourceTension T 1 K
-  SourceViscosity MU
-
-  InitFraction T CIRCLE
-  Init {} { Tref = T }
-
-  AdaptGradient { istep = 1 } { cmax = 1e-6 maxlevel = LEVEL } T
-  EventStop { istep = 10 } T DT
-
-  OutputSimulation { start = end } stdout { depth = LEVEL }
-  OutputScalarNorm { istep = 1 } {
-    awk '{ print MU*$3/(0.8*0.8), $9*sqrt(0.8); fflush (stdout); }' > La-LAPLACE-LEVEL
-  } { v = Velocity }
-  OutputScalarNorm { istep = 1 } {
-    awk '{ print MU*$3/(0.8*0.8), $5, $7, $9; fflush (stdout); }' > E-LAPLACE-LEVEL
-  } { v = (Tref - T) }
-  OutputScalarStats { istep = 1 } {
-    awk '{ print MU*$3/(0.8*0.8), $5, $7, $9, $11; fflush (stdout); }' > K-LAPLACE-LEVEL
-  } { v = (K - 2.50771) }
-  OutputScalarNorm { istep = 1 } {
-    awk '{ print MU*$3/(0.8*0.8), $5, $7, $9; fflush (stdout); }' > EK-LAPLACE-LEVEL
-  } { v = (T > 0 && T < 1 ? (K - 5.)/2. : 0) }
-}
-GfsBox {
-  bottom = Boundary
-  left = Boundary
-}
diff --git a/test/spurious/axi/convergence.ref b/test/spurious/axi/convergence.ref
deleted file mode 100644
index 80168d7..0000000
--- a/test/spurious/axi/convergence.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-6.4 5.024e-03 6.003e-02
-12.8 2.638e-03 3.845e-02
-25.6 9.115e-04 1.646e-02
-51.2 2.468e-04 7.265e-03
-102.4 9.238e-05 3.723e-03
diff --git a/test/spurious/axi/kconvergence.ref b/test/spurious/axi/kconvergence.ref
deleted file mode 100644
index 3fdf3b7..0000000
--- a/test/spurious/axi/kconvergence.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-6.4 0.010728 0.04292
-12.8 0.0014968 0.00882
-25.6 0.00033816 0.0029452
-51.2 4.72e-05 0.0005896
-102.4 9.3e-06 0.00016372
diff --git a/test/spurious/convergence.ref b/test/spurious/convergence.ref
deleted file mode 100644
index ec86d3e..0000000
--- a/test/spurious/convergence.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-6.4 3.527e-02 2.461e-01
-12.8 3.735e-04 4.232e-03
-25.6 9.049e-05 1.263e-03
-51.2 2.475e-05 4.603e-04
-102.4 8.812e-06 2.312e-04
diff --git a/test/spurious/kconvergence.ref b/test/spurious/kconvergence.ref
deleted file mode 100644
index fe49a7b..0000000
--- a/test/spurious/kconvergence.ref
+++ /dev/null
@@ -1,5 +0,0 @@
-6.4 0.05632 0.15016
-12.8 0.002922 0.012968
-25.6 0.00049 0.0030176
-51.2 8.136e-05 0.0007292
-102.4 1.4608e-05 0.00018448
diff --git a/test/spurious/spurious.gfs b/test/spurious/spurious.gfs
deleted file mode 100644
index 7da7160..0000000
--- a/test/spurious/spurious.gfs
+++ /dev/null
@@ -1,117 +0,0 @@
-# Title: Circular droplet in equilibrium
-#
-# Description:
-#
-# A circular droplet of diameter $D=0.8$ is initialised centered on
-# the top-left corner of the unit box. Surface tension is imposed on
-# the interface. The exact solution is given by Laplace's law: uniform
-# zero velocity and a pressure jump accross the interface exactly
-# balancing the surface tension force.
-#
-# The initial condition -- while close to the exact solution -- does
-# not guarantee the exact balance between the numerical
-# discretisations of surface tension and pressure gradient. However,
-# these small initial perturbations generate small capillary waves
-# which are progressively (on a timescale of order $D^2/\mu$) damped
-# by viscosity so that the exact (to round-off error) balance is
-# eventually obtained.
-#
-# The convergence is obtained for a wide range of Laplace numbers
-# $La=\sigma\rho D/\mu^2$, as illustrated on Figure \ref{laplace}.
-# Correspondingly, convergence of the curvature to a constant value is
-# also obtained at all Laplace numbers as illustrated on Figure
-# \ref{curvature}.
-#
-# Figure \ref{convergence} illustrates the convergence of the error on
-# the droplet shape as a function of resolution for a Laplace number
-# of 12000. Both the shape error and the relative error on the
-# equilibrium curvature value illustrated on Figure
-# \ref{kconvergence} show close to second-order convergence.
-#
-# \begin{figure}[htbp]
-# \caption{\label{laplace}Evolution of the amplitude of the capillary currents
-# $\max(|{\bf u}|)(D/\sigma)^{1/2}$ as a function of
-# non-dimensional time $\tau=t\mu/D^2$ for the range of Laplace
-# numbers indicated in the legend.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{laplace.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{curvature}Evolution of the standard deviation of the
-# value of the curvature along the interface as a function of
-# non-dimensional time $\tau=t\mu/D^2$ for the range of Laplace
-# numbers indicated in the legend.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{curvature.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{convergence}Convergence of the error on the equilibrium shape of the
-# droplet with resolution. The diameter is given in number of grid
-# points.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{convergence.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{kconvergence}Convergence of the relative error on the
-# equilibrium curvature value with resolution. The diameter is given
-# in number of grid points.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{kconvergence.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: St\'ephane Popinet
-# Command: sh spurious.sh spurious.gfs 1e-11
-# Version: 1.1.2
-# Required files: spurious.sh convergence.ref kconvergence.ref
-# Generated files: laplace.eps curvature.eps convergence.eps kconvergence.eps
-#
-
-Define CIRCLE (ellipse (-0.5,0.5,0.4,0.4))
-Define MU sqrt(0.8/LAPLACE)
-
-1 0 GfsSimulation GfsBox GfsGEdge {} {
-  Time { end = TMAX }
-  Refine LEVEL
-  RefineSurface {return 10;} CIRCLE
-
-  ApproxProjectionParams { tolerance = 1e-6 }
-  ProjectionParams { tolerance = 1e-6 }
-  AdvectionParams { scheme = none }
-
-  VariableTracerVOF T
-  VariableCurvature K T
-  SourceTension T 1 K
-  SourceDiffusion U MU
-  SourceDiffusion V MU
-
-  InitFraction T CIRCLE
-  Init {} { Tref = T }
-
-  AdaptGradient { istep = 1 } { cmax = 1e-6 maxlevel = LEVEL } T
-  EventStop { istep = 10 } T DT
-
-  OutputSimulation { start = end } stdout { depth = LEVEL }
-  OutputScalarNorm { istep = 1 } {
-    awk '{ print MU*$3/(0.8*0.8), $9*sqrt(0.8) }' > La-LAPLACE-LEVEL
-  } { v = Velocity }
-  OutputScalarNorm { istep = 1 } {
-    awk '{ print MU*$3/(0.8*0.8), $5, $7, $9 }' > E-LAPLACE-LEVEL
-  } { v = (Tref - T) }
-  OutputScalarStats { istep = 1 } {
-    awk '{ print MU*$3/(0.8*0.8), $5, $7, $9, $11 }' > K-LAPLACE-LEVEL
-  } { v = (K - 2.50771) }
-  OutputScalarNorm { istep = 1 } {
-    awk '{ print MU*$3/(0.8*0.8), $5, $7, $9 }' > EK-LAPLACE-LEVEL
-  } { v = (T > 0 && T < 1 ? K - 2.5 : 0) }
-}
-GfsBox {
-  top = Boundary
-  left = Boundary
-}
diff --git a/test/spurious/spurious.sh b/test/spurious/spurious.sh
deleted file mode 100755
index aa16417..0000000
--- a/test/spurious/spurious.sh
+++ /dev/null
@@ -1,83 +0,0 @@
-if ! $donotrun; then
-    for La in 120 1200 12000; do
-	tmax=`echo $La | awk '{print 0.8*0.8/sqrt(0.8/$1)}'`
-	if sed "s/end = TMAX/iend = 1/g" < $1 | gerris2D -DLEVEL=5 -DLAPLACE=$La -DDT=0 - |\
-           sed "s/iend = 1/end = $tmax/" | gerris2D - > /dev/null; then :
-	else
-	    exit 1
-	fi
-    done
-
-    La=12000
-    for level in 3 4 6 7; do
-	tmax=`echo $La | awk '{print 0.8*0.8/sqrt(0.8/$1)}'`
-	if sed "s/end = TMAX/iend = 1/g" < $1 | gerris2D -DLEVEL=$level -DLAPLACE=$La -DDT=1e-9 - |\
-           sed "s/iend = 1/end = $tmax/" | gerris2D - > sim-$level; then : 
-	else
-	    exit 1
-	fi
-    done
-fi
-
-rm -f convergence kconvergence
-La=12000
-for level in 3 4 5 6 7; do
-    if awk -v level=$level < E-$La-$level '{
-             max2 = $3
-             maxi = $4
-           }END{print 0.8*2**level, max2, maxi}' >> convergence; then : 
-    else
-	exit 1
-    fi
-    if awk -v level=$level < EK-$La-$level '{
-             max2 = $3
-             maxi = $4
-           }END{print 0.8*2**level, max2/2.5, maxi/2.5}' >> kconvergence; then : 
-    else
-	exit 1
-    fi
-done
-
-if cat <<EOF | gnuplot ; then :
-    set term postscript eps color lw 3 solid 20
-    set output 'laplace.eps'
-    set xlabel 'Tau'
-    set ylabel 'U(D/sigma)^1/2'
-    set logscale y
-    plot 'La-120-5' w l t "La=120", 'La-1200-5' w l t "La=1200", 'La-12000-5' w l t "La=12000"
-    set output 'curvature.eps'
-    set ylabel 'Curvature standard deviation'
-    plot [][1e-12:]'K-120-5' u 1:4 w l t "La=120", 'K-1200-5' u 1:4 w l t "La=1200", 'K-12000-5' u 1:4 w l t "La=12000"
-    set output 'convergence.eps'
-    set xlabel 'D'
-    set ylabel 'Shape error'
-    set logscale x
-    set xtics 2
-    plot [5:120]'convergence' u 1:2 w lp t "RMS" ps 3, 'convergence' u 1:3 w lp t "Max" ps 3, 0.2/(x*x) t "Second order"
-    set output 'kconvergence.eps'
-    set ylabel 'Relative curvature error'
-    set logscale x
-    plot [5:120]'kconvergence' u 1:3 w lp t "" ps 3, 0.6/(x*x) t "Second order"
-EOF
-else
-    exit 1
-fi
-
-for f in La-120-5 La-1200-5 La-12000-5; do
-    if awk -v tolerance=$2 '{ last = $2; }END{if (last > tolerance) exit (1);}' < $f; then :
-    else
-	exit 1
-    fi
-done
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('convergence',1,3) - Curve('convergence.ref',1,3)).max() > 1e-6:
-    exit(1)
-if (Curve('kconvergence',1,3) - Curve('kconvergence.ref',1,3)).max() > 1e-6:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/strouhal/moving.ref b/test/strouhal/moving.ref
deleted file mode 100644
index 4e5fd62..0000000
--- a/test/strouhal/moving.ref
+++ /dev/null
@@ -1,8 +0,0 @@
-#Re St(high resolution) St(low resolution)
-200    0.207    0.197 
-250    0.214    0.207
-300    0.219    0.214
-350    0.224    0.221
-400    0.226    x
-450    0.229    0.230
-500    0.232    0.234
\ No newline at end of file
diff --git a/test/strouhal/static.ref b/test/strouhal/static.ref
deleted file mode 100644
index e1521f2..0000000
--- a/test/strouhal/static.ref
+++ /dev/null
@@ -1,8 +0,0 @@
-#Re St(high resolution) St(low resolution)
-200   0.209    0.195
-250   0.216    0.205
-300   0.221    0.212
-350   0.224    0.218
-400   0.228    0.223
-450   0.231    0.227
-500   0.233    0.231
\ No newline at end of file
diff --git a/test/strouhal/strouhal.gfs b/test/strouhal/strouhal.gfs
deleted file mode 100644
index daeea08..0000000
--- a/test/strouhal/strouhal.gfs
+++ /dev/null
@@ -1,80 +0,0 @@
-# Title: B\'enard--von K\'arm\'an vortex street behind a cylinder translating in a fluid at rest
-#
-# Description:
-#
-# An example of 2D viscous flow around a simple solid boundary. A solid
-# cylinder is impulsively started at the right of a channel bounded by
-# solid walls with a slip boundary condition.
-# 
-# Adaptive refinement is used based on the vorticity.
-#
-# After an initial growth phase, a classical B\'enard--von K\'arman
-# vortex street is formed.
-#
-# \begin{figure}[htbp]
-# \caption{\label{vorticity} Vorticity field.}
-# \begin{center}
-# \includegraphics[width=\hsize]{vort.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{Forces} Evolution of the drag and lift coefficients
-# for a Reynolds number of 400.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{forces.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{figure}[htbp]
-# \caption{\label{Strouhal} Strouhal number versus Reynolds
-# number. Comparison between static (reference) and moving problem.}
-# \begin{center}
-# \includegraphics[width=0.8\hsize]{strouhal.eps}
-# \end{center}
-# \end{figure}
-#
-# Author: S\'ebastien Delaux
-# Command: sh strouhal.sh
-# Version: 090512
-# Required files: strouhal.sh strouhal.gfv strouhal.ref moving.ref static.ref
-# Generated files: strouhal.eps vort.eps forces.eps
-#
-1 0 GfsSimulationMoving GfsBox GfsGEdge {} {
-  Time { end = 0.8 }
-  Refine {
-      if (fabs(y) < 0.02 && x > 0.38 && x < 0.42)
-	  return 11;
-      if (fabs(y) < 0.35 && x > 0.3 && x < 0.5)
-	  return 8;
-      return 5;
-  }
-
-  SolidMoving { istep = 1 } cylinder.gts { tx = 0.4 scale = 0.025 } { level = 11 }
-
-  # Set the boundary condition on the solid object.
-  # The velocity is imposed
-  SurfaceBc U Dirichlet -1.
-
-  # Adapt the mesh using the vorticity criterion at every timestep
-  AdaptVorticity { istep = 1 } { maxlevel = (x > 0.5 - t ? 9 : 10) cmax = 1e-2 }
-
-  SourceViscosity 3.125e-5 { beta = 1}
-
-  OutputSimulation { start = end } end.gfs 
-  OutputSolidForce { istep = 1 } forces.dat
-
-  EventScript { start = end } {
-      cat <<EOF | gnuplot 2>&1 | awk '{if ($1 == "400") print $0;}'
-           f(x)= a*cos(b*(x+c))
-           a = 0.00525
-           b = 110.49
-           c = 0.611
-           fit [0.5:] f(x) 'forces.dat' u 1:6 via a,b,c
-           print "400 ", b/(2*pi)*0.0125       
-EOF
-  }
-}
-GfsBox {
-    right = BoundaryOutflow 
-}
diff --git a/test/strouhal/strouhal.gfv b/test/strouhal/strouhal.gfv
deleted file mode 100644
index 2e05cfa..0000000
--- a/test/strouhal/strouhal.gfv
+++ /dev/null
@@ -1,26 +0,0 @@
-# GfsView 2D
-View {
-  tx = 0.297313 ty = 0.00131029
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 1.73964
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Linear {
-  r = 1 g = 1 b = 1
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = 0
-} Vorticity {
-  amin = 0 min = -300
-  amax = 0 max = 300
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-}
diff --git a/test/strouhal/strouhal.ref b/test/strouhal/strouhal.ref
deleted file mode 100644
index 4e6c22b..0000000
--- a/test/strouhal/strouhal.ref
+++ /dev/null
@@ -1 +0,0 @@
-400  0.228
\ No newline at end of file
diff --git a/test/strouhal/strouhal.sh b/test/strouhal/strouhal.sh
deleted file mode 100644
index a1b8a15..0000000
--- a/test/strouhal/strouhal.sh
+++ /dev/null
@@ -1,57 +0,0 @@
-if ! $donotrun; then 
-    shapes ellipse > cylinder.gts
-    if gerris2D strouhal.gfs > strouhal.res; then :
-    else
-	exit 1
-    fi
-fi
-
-if echo "Save stdout { width = 800 height = 200 }" | \
-    gfsview-batch2D end.gfs strouhal.gfv | \
-    convert -colors 256 ppm:- vort.eps; then :
-else
-    exit 1
-fi
-
-if cat <<EOF | gnuplot ;then :
-   set term pos enhanced eps solid color lw 2
-   set out 'forces.eps'
-   set xl "Time"
-   set yl "Cd/Cl"
-   set yr [-1.25:2.1]
-   set xr [0:112]
-   plot 'forces.dat' u (\$1/0.00625):((\$2+\$5)/0.00625) w l t 'Gerris Moving - Cd',\
-        'forces.dat' u (\$1/0.00625):((\$3+\$6)/0.00625) w l t 'Gerris Moving - Cl'
-
-EOF
-else
-   exit 1
-fi
-
-if cat <<EOF | gnuplot ;then :
-   set term pos enhanced eps solid color lw 2
-   set out 'strouhal.eps'
-   set xl "Reynolds number"
-   set yl "St"
-   set yr [0.19:0.24]
-   set xr [180:520]
-   set key bottom
-   plot 'static.ref' u 1:3 w lp t "Gerris Static Low Resolution",\
-        'moving.ref' u 1:3 pt 5 t "Gerris Moving Low Resolution",\
-        'static.ref' u 1:2 w lp t "Gerris Static High Resolution",\
-        'moving.ref' u 1:2 w lp t "Gerris Moving High Resolution",\
-        'strouhal.res' pt 5 lc 2 t ""
-EOF
-else
-   exit 1
-fi
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if (Curve('strouhal.res',1,2) - Curve('strouhal.ref',1,2)).max() > 0.01 :
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/test/template.tex b/test/template.tex
deleted file mode 100644
index db4c5ee..0000000
--- a/test/template.tex
+++ /dev/null
@@ -1,120 +0,0 @@
-\documentclass[a4paper]{article}
-\usepackage{hevea}
-\usepackage[usenames]{color}
-\usepackage{graphicx}
-
-\oddsidemargin=4mm
-\evensidemargin=-1mm
-\topmargin=-7mm
-\textwidth=15.42cm
-\textheight=23.2cm
-
-\newcommand{\htmladdnormallinkfoot}[2]{\footahref{#2}{#1}}
-\newcommand{\htmladdnormallink}[2]{\ahref{#2}{#1}}
-\renewcommand{\cuttingunit}{subsection}
-
-\title{Gerris test suite}
-
-\begin{document}
-
-\mbox{}\vspace{1cm}
-\begin{center}
-{\Huge Gerris Tests}\\
-\vspace{1cm}
-\input{summary.tex}
-\vspace{5mm}
-\end{center}
-
-\section{Introduction}
-
-This document is automatically generated from the results obtained
-when running the Gerris test suite. The test suite is run daily on the
-development branch of the version-controlled source code. 
-
-Note that the stable branch (from which snapshot versions and packages
-are generated) is only updated when all of the tests succeed i.e. the
-status of the test cases below reflects the state of the development
-branch only.
-
-\section{Poisson}
-
-\input{poisson/poisson.tex}
-\input{poisson/circle/circle.tex}
-\input{circle/circle.tex}
-\input{circle/star/star.tex}
-\input{circle/refined/refined.tex}
-\input{circle/thin/thin.tex}
-\input{dumbell/dumbell.tex}
-
-\section{Advection}
-
-\input{advection/advection.tex}
-\input{shear/shear.tex}
-\input{shear/curvature/curvature.tex}
-
-\section{Euler}
-
-\input{reynolds/reynolds.tex}
-\input{reynolds/box/box.tex}
-\input{periodic/periodic.tex}
-\input{merging/merging.tex}
-
-\section{Axisymmetric}
-\input{axi/axi.tex}
-\input{axi/viscous/viscous.tex}
-\input{axiadvection/axiadvection.tex}
-\input{axiadvection/solid/solid.tex}
-
-\section{Navier-Stokes}
-
-\input{lid/lid.tex}
-\input{lid/explicit/explicit.tex}
-\input{poiseuille/poiseuille.tex}
-\input{couette/couette.tex}
-\input{kinetic/kinetic.tex}
-\input{hydrostatic/hydrostatic.tex}
-\input{hydrostatic/quadratic/quadratic.tex}
-
-\section{Solid boundaries}
-
-\input{boundaries/boundaries.tex}
-\input{channel/channel.tex}
-\input{plate/plate.tex}
-
-\section{Moving solid boundaries}
-
-\input{hexagon/hexagon.tex}
-\input{strouhal/strouhal.tex}
-
-\section{Surface tension}
-
-\input{spurious/spurious.tex}
-\input{spurious/axi/axi.tex}
-\input{capwave/capwave.tex}
-\input{capwave/density/density.tex}
-\input{capwave/air-water/air-water.tex}
-\input{capwave/gravity/gravity.tex}
-\input{oscillation/oscillation.tex}
-
-\section{Shallow-water}
-
-\input{geo/geo.tex}
-\input{geo/beta/beta.tex}
-\input{waves/waves.tex}
-\input{waves/adaptive/adaptive.tex}
-\input{nz/nz.tex}
-
-\section{Saint-Venant}
-
-\input{parabola/parabola.tex}
-
-\section{General Orthogonal Coordinates}
-
-\input{lonlat/lonlat.tex}
-\input{lonlat/coriolis/coriolis.tex}
-\input{cosine/cosine.tex}
-
-\bibliographystyle{plain}
-\bibliography{tests}
-
-\end{document}
diff --git a/test/test.py b/test/test.py
deleted file mode 100644
index 516ff7c..0000000
--- a/test/test.py
+++ /dev/null
@@ -1,72 +0,0 @@
-import sys
-import commands
-import os
-import os.path
-sys.path.append("../doc/examples")
-import gfs2tex
-from datetime import *
-
-env = "export PYTHONPATH=$PYTHONPATH:" + os.getcwd() + " && export donotrun=false &&"
-system = commands.getoutput('uname -o -n -m')
-path = commands.getoutput('which gerris2D')
-version = commands.getoutput("""gerris2D -V 2>&1 | head -1 | cut -d' ' -f6-""")
-starttime = datetime.now()
-
-n = 0
-failed = 0
-for start in sys.argv[1:]:
-    for root, dirs, files in os.walk(start,topdown=True):
-        if not ".xvpics" in root:
-            test = gfs2tex.Example(root)
-            status,msg = test.run(env)
-            if status != None:
-                print "FAIL:",root
-                if len(msg) > 0:
-                    print " ".join(msg)
-                print >>open(test.path + "/status",'w'), "{\color{Red}FAIL}:"
-                failed += 1
-            else:
-                print "PASS:",root
-                print >>open(test.path + "/status",'w'), "{\color{OliveGreen}PASS}:"
-            n += 1
-
-endtime = datetime.now()
-e = endtime - starttime
-s = e.seconds
-h = int(s/3600)
-s -= h*3600
-m = int(s/60)
-s -= m*60
-
-summary = open('summary.tex','w')
-print >>summary, r'\begin{tabular}{ll}'
-print >>summary, r'{\bf Version} &', version, r'\\'
-print >>summary, r'{\bf Path} &', path, r'\\'
-print >>summary, r'{\bf System} &', system, r'\\'
-print >>summary, r'{\bf Start} &', starttime.strftime('%a %d %b %H:%M:%S'), r'\\'
-print >>summary, r'{\bf Finish} &', endtime.strftime('%a %d %b %H:%M:%S'), r'\\'
-elapsed = ""
-if e.days > 0:
-    elapsed += '%02d:' % e.days
-if h > 0:
-    elapsed += '%02d:' % h
-elapsed += '%02d:%02d' % (m,s)
-print >>summary, r'{\bf Elapsed} &', elapsed, r'\\'
-print >>summary, r'{\bf Status} &',
-if failed:
-    print >>summary, r'{\color{Red}FAIL (' + repr(failed) + '/' + repr(n) +')}'
-else:
-    print >>summary, r'{\color{OliveGreen}PASS (' + repr(n) + ')}'
-print >>summary, r'\end{tabular}'
-
-if failed:
-    msg = repr(failed) + " of " + repr(n) + " tests failed"
-else:
-    msg = "All " + repr(n) + " tests passed"
-
-print len(msg)*"="
-print msg
-print len(msg)*"="
-
-if failed:
-    sys.exit(1)
diff --git a/test/tests.bib b/test/tests.bib
deleted file mode 100644
index f5bd5eb..0000000
--- a/test/tests.bib
+++ /dev/null
@@ -1,321 +0,0 @@
- at Article{almgren97,
-  author =	 {A. S. Almgren and J. B. Bell and P. Colella and
-                  T. Marthaler},
-  title =	 {A Cartesian Grid Projection Method for the
-                  Incompressible Euler Equations in Complex
-                  Geometries},
-  journal =	 {SIAM J. Sci. Comp.},
-  year =	 1997,
-  volume =	 18,
-  number =	 5,
-  pages =	 {1289-1309},
-  url =
-                  {http://seesar.lbl.gov/ccse/Publications/almgren/abcm.sisc/paper.ps.gz},
-  local_url =	 {almgren.ps.gz}
-}
-
- at Article{almgren98,
-  author =	 {A. S. Almgren and J. B. Bell and P. Colella and
-                  L. H. Howell and M. L. Welcome},
-  title =	 {A Conservative Adaptive Projection Method for the
-                  Variable Density Incompressible Navier-Stokes
-                  Equations},
-  journal =	 {J. Comput. Phys.},
-  year =	 1998,
-  volume =	 142,
-  pages =	 {1-46},
-  url =
-                  {http://seesar.lbl.gov/ccse/Publications/almgren/abchw96/paper.ps.gz},
-  local_url =	 {almgren1.ps.gz}
-}
-
- at Book{bird87,
-  author =	 {R. B. Bird and R. C. Armstrong and O. Hassager},
-  title =	 {Dynamics of polymeric liquids},
-  publisher =	 {Wiley-Interscience},
-  year =	 1987,
-  edition =	 {second edition}
-}
-
- at article{blanco1995,
-  title =	 {The structure of the axisymmetric high-{R}eynolds
-                  number flow around an ellipsoidal bubble of fixed
-                  shape},
-  author =	 {Blanco, A. and Magnaudet, J.},
-  journal =	 {Physics of Fluids},
-  volume =	 7,
-  pages =	 1265,
-  year =	 1995,
-  publisher =	 {AIP}
-}
-
- at PhdThesis{dupont,
-  author =	 {F. Dupont},
-  title =	 {Comparison of numerical methods for modelling ocean
-                  circulation in basins with irregular coasts},
-  school =	 {McGill University},
-  year =	 2001,
-  address =	 {Montreal}
-}
-
- at article{fadlun2000,
-  title =	 {Combined immersed-boundary finite-difference methods
-                  for three-dimensional complex flow simulations},
-  author =	 {Fadlun, EA and Verzicco, R. and Orlandi, P. and
-                  Mohd-Yusof, J.},
-  journal =	 {Journal of Computational Physics},
-  volume =	 161,
-  number =	 1,
-  pages =	 {35--60},
-  year =	 2000
-}
-
- at Article{fornberg1988,
-  author =	 {B. Fornberg},
-  title =	 {Steady viscous flow past a sphere at high {R}eynolds
-                  number},
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-  year =	 1988,
-  volume =	 190,
-  pages =	 471
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-
- at article{gerlach2006,
-  author =	 {D. Gerlach and G. Tomar and G. Biswas and F. Durst},
-  title =	 {Comparison of surface tension methods for surface
-                  tension dominant two-phase flows},
-  journal =	 {Int. J.  Heat Mass Transfer},
-  year =	 2006,
-  pages =	 {740-754},
-  volume =	 49
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-  author =	 {U. Ghia, K.N. Ghia, C.T. Shin},
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-                  method},
-  journal =	 {J. Comput. Phys.},
-  year =	 1982,
-  volume =	 48,
-  pages =	 {387-411}
-}
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-  author =	 {D. Gueyffier and A. Nadim and J. Li and
-                  R. Scardovelli and S. Zaleski},
-  title =	 {Volume of fluid interface tracking with smoothed
-                  surface stress methods for three-dimensional flows},
-  journal =	 {J. Comp. Phys.},
-  year =	 1998,
-  volume =	 152,
-  pages =	 {423-456}
-}
-
- at Book{lamb,
-  author =	 {H. Lamb},
-  title =	 {Hydrodynamics},
-  publisher =	 {Dover},
-  year =	 1932
-}
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- at Article{leroux98,
-  author =	 {D. Y. Leroux and C. A. Lin},
-  title =	 {Finite elements for shallow-water equations ocean
-                  models},
-  journal =	 {Monthly Weather Review},
-  year =	 1998,
-  volume =	 126,
-  pages =	 {1931-1951}
-}
-
- at Article{liang2008,
-  title =	 {Adaptive quadtree simulation of shallow flows with
-                  wet--dry fronts over complex topography},
-  author =	 {Q. Liang and A.G.L. Borthwick},
-  journal =	 {Computers and Fluids},
-  year =	 2008,
-  publisher =	 {Elsevier}
-}
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- at Article{lynch87,
-  author =	 {D. R. Lynch and F. E. Werner},
-  title =	 {3-{D} hydrodynamics on finite elements. {P}art I:
-                  linearized harmonic model},
-  journal =	 {Int. J. for Num. Methods in Fluids},
-  year =	 1987,
-  number =	 7,
-  pages =	 {871-909}
-}
-
- at article{masliyah1970,
-  title =	 {Numerical study of steady flow past spheroids},
-  author =	 {Masliyah, J.H. and Epstein, N.},
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-  volume =	 44,
-  number =	 03,
-  pages =	 {493--512},
-  year =	 1970,
-  publisher =	 {Cambridge Univ Press}
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-  volume =	 127,
-  pages =	 {158-177},
-  year =	 1996,
-  url =		 {http://citeseer.nj.nec.com/minion96projection.html},
-  local_url =	 {minion96.ps.gz}
-}
-
- at Article{peraire86,
-  author =	 {J. Peraire and O. C. Zienkiewicz and K. Morgan},
-  title =	 {Shallow water problems: a general explicit
-                  formulation},
-  journal =	 {Int. J. for Num. Methods in Eng.},
-  year =	 1986,
-  volume =	 22,
-  pages =	 {547-574}
-}
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- at Article{popinet2003,
-  author =	 {S. Popinet},
-  title =	 {Gerris: a tree-based adaptive solver for the
-                  incompressible Euler equations in complex
-                  geometries},
-  journal =	 {J. Comput. Phys.},
-  year =	 2003,
-  volume =	 190,
-  number =	 2,
-  pages =	 {572-600},
-  url =		 {http://gfs.sf.net/gerris.pdf}
-}
-
- at Article{popinet99,
-  author =	 {S. Popinet and S. Zaleski},
-  title =	 {A front tracking algorithm for the accurate
-                  representation of surface tension},
-  journal =	 {Int. J. Numer. Meth. Fluids},
-  volume =	 30,
-  pages =	 {775-793},
-  year =	 1999
-}
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- at Article{prosperetti81,
-  author =	 {A. Prosperetti},
-  title =	 {Motion of two superposed viscous fluids},
-  journal =	 {Phys. Fluids},
-  year =	 1981,
-  volume =	 24,
-  pages =	 {1217-1223}
-}
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- at TechReport{rider95,
-  author =	 {W. J. Rider},
-  title =	 {Approximate projection methods for incompressible
-                  flows: Implementation, variants and robustness},
-  institution =	 {Los Alamos National Laboratory},
-  year =	 1995,
-  number =	 {LA-UR-2000},
-  local_url =	 {rider95.ps.gz},
-  url =
-                  {http://www-xdiv.lanl.gov/XHM/personnel/wjr/Web_papers/proj/proj.ps.Z},
-  pages =	 {81-85}
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-  author =	 {J. A, Rossmanith and D. S. Bale and R. J. LeVeque},
-  title =	 {A wave propagation algorithm for hyperbolic systems
-                  on curved manifolds},
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-  year =	 2004,
-  volume =	 199,
-  pages =	 {631-662}
-}
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-  title =	 {A wave propagation method for hyperbolic systems on
-                  the sphere},
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-  pages =	 {629--658},
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-  title =	 {Volume-tracking methods for interfacial flow
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-  pages =	 {671--691},
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-  author =	 {E. Curchitser},
-  title =	 {Waves in a circular basin},
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-                  {http://marine.rutgers.edu/po/index.php?model=test-problems&title=circle}
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-                  bottom topography},
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-  year =	 2006
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diff --git a/test/waves/adaptive/adaptive.gfs b/test/waves/adaptive/adaptive.gfs
deleted file mode 100644
index f09873d..0000000
--- a/test/waves/adaptive/adaptive.gfs
+++ /dev/null
@@ -1,624 +0,0 @@
-# Title: Coastally-trapped waves with adaptive refinement
-#
-# Description:
-#
-# Same test case as before but with adaptive refinement (using the
-# vorticity criterion).
-#
-# Figure \ref{solution} illustrates the solution obtained after three
-# wave periods.
-#
-# \begin{figure}[htbp]
-# \caption{\label{solution}Surface-height after a rotation of 3 wave
-# periods. The maximum resolution is 9.375 km (dark red), the minimum
-# resolution is 150 km (dark blue).}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{solution.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{table}[htbp]
-# \caption{\label{correlation}Maximum correlation and phase error as functions of resolution.}
-# \begin{center}
-# \input{correlation.tex}
-# \end{center}
-# \end{table}
-#
-# Author: St\'ephane Popinet
-# Command: sh ../waves.sh adaptive.gfs
-# Version: 1.0.0
-# Required files: solution.gfv correlation.ref
-# Generated files: correlation correlation.tex solution.eps
-#
-1 0 GfsOcean GfsBox GfsGEdge {} {
-  Time { end = 37.80501984 dtmax = 0.1 }
-  PhysicalParams { g = 5.87060327757e-3 }
-  Global {
-    #include <gsl/gsl_sf_bessel.h>
-    @link -lgsl -lgslcblas
-    
-    #define Ik(k,r,D) (gsl_sf_bessel_Inu ((k) - 1., (r)/(D))/(D)\
-                          - (k)/(r)*gsl_sf_bessel_Inu ((k), (r)/(D)))
-
-    static double D = 8.83906519983e-2;
-    static double k = 3.;
-    static double sigma = 0.4986;
-    static double a = 1./2555510.;
-    
-    static double pwave (double x, double y, double angle) {
-      double theta = atan2 (y, x) + angle*M_PI/180.;
-      double r = sqrt (x*x + y*y);
-      return a*cos (k*theta)*gsl_sf_bessel_Inu (k, r/D);
-    }
-
-    static double ur (double theta, double r) {
-      return -a*D*D/5.87060327757e-3*sin (k*theta)*(sigma*Ik (k, r, D) - 
-          k/r*gsl_sf_bessel_Inu (k, r/D));
-    }
-
-    static double vt (double theta, double r) {
-      return a*D*D/5.87060327757e-3*cos (k*theta)*(Ik (k, r, D) - 
-       	  k*sigma/r*gsl_sf_bessel_Inu (k, r/D));
-    }
-
-    static double uwave (double x, double y) {
-      double theta = atan2 (y, x);
-      double r = sqrt (x*x + y*y);
-      return ur (theta, r)*cos (theta) - vt (theta, r)*sin (theta);
-    }
-
-    static double vwave (double x, double y) {
-      double theta = atan2 (y, x);
-      double r = sqrt (x*x + y*y);
-      return ur (theta, r)*sin (theta) + vt (theta, r)*cos (theta);
-    }
-  }
-  Init {} {
-    P = pwave(cx, cy, 0)
-    U = uwave(x, y)
-    V = vwave(x, y)
-    H = 1
-  }
-  Refine LEVEL
-  AdaptVorticity { istep = 1 } { cmax = 5e-2 maxlevel = LEVEL }
-  Solid (- ellipse (0, 0, 0.25, 0.25)) { scale = 1.999 }
-  AdvectionParams { scheme = none }
-  ApproxProjectionParams { tolerance = 1e-9 weighted = 0 }
-  SourceCoriolis {} 1.
-  EventFilter { istep = 1 } U 4
-  EventFilter { istep = 1 } V 4
-  EventScript { start = end } { echo -n "-30 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -30)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-29 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -29)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-28 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -28)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-27 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -27)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-26 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -26)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-25 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -25)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-24 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -24)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-23 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -23)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-22 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -22)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-21 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -21)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-20 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -20)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-19 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -19)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-18 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -18)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-17 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -17)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-16 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -16)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-15 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -15)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-14 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -14)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-13 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -13)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-12 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -12)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-11 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -11)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-10 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -10)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "10 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 10)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "11 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 11)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "12 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 12)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "13 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 13)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "14 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 14)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "15 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 15)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "16 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 16)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "17 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 17)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "18 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 18)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "19 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 19)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "20 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 20)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "21 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 21)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "22 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 22)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "23 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 23)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "24 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 24)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "25 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 25)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "26 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 26)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "27 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 27)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "28 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 28)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "29 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 29)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "30 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 30)
-    unbiased = 1
-  }
-  OutputSimulation { start = end } sim-LEVEL
-}
-GfsBox {
-  front = Boundary
-}
diff --git a/test/waves/adaptive/correlation.ref b/test/waves/adaptive/correlation.ref
deleted file mode 100644
index c049183..0000000
--- a/test/waves/adaptive/correlation.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-5		2.6			0.8648
-6		0.6			0.9707
-7		0.4			0.991
diff --git a/test/waves/adaptive/solution.gfv b/test/waves/adaptive/solution.gfv
deleted file mode 100644
index 7f351f5..0000000
--- a/test/waves/adaptive/solution.gfv
+++ /dev/null
@@ -1,40 +0,0 @@
-# GfsView 3D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 30
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = -0.5
-} Level {
-  amin = 1
-  amax = 1
-  cmap = Jet
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = -0.5
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 16
-}
diff --git a/test/waves/correlation.ref b/test/waves/correlation.ref
deleted file mode 100644
index 0484393..0000000
--- a/test/waves/correlation.ref
+++ /dev/null
@@ -1,3 +0,0 @@
-5		2.7			0.8645
-6		0.6			0.9717
-7		0.2			0.9923
diff --git a/test/waves/solution.gfv b/test/waves/solution.gfv
deleted file mode 100644
index 2e8213b..0000000
--- a/test/waves/solution.gfv
+++ /dev/null
@@ -1,40 +0,0 @@
-# GfsView 3D
-View {
-  tx = 0 ty = 0
-  sx = 1 sy = 1 sz = 1
-  q0 = 0 q1 = 0 q2 = 0 q3 = 1
-  fov = 30
-  r = 0.3 g = 0.4 b = 0.6
-  res = 1
-  lc = 0.001
-  reactivity = 0.1
-}
-Squares {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = -0.5
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-}
-Isoline {
-  r = 0 g = 0 b = 0
-  shading = Constant
-  maxlevel = -1
-} {
-  n.x = 0 n.y = 0 n.z = 1
-  pos = -0.5
-} P {
-  amin = 1
-  amax = 1
-  cmap = Jet
-} 0 {
-  reversed = 0
-  use_scalar = 1
-} {
-  n = 16
-}
diff --git a/test/waves/waves.gfs b/test/waves/waves.gfs
deleted file mode 100644
index 5ff29dc..0000000
--- a/test/waves/waves.gfs
+++ /dev/null
@@ -1,635 +0,0 @@
-# Title: Coastally-trapped waves
-#
-# Description:
-#
-# A simulation is initialised with an exact solution found by Lamb
-# \cite{lamb} for inertia-gravity waves in a circular, flat-bottomed
-# basin on an $f$-plane.
-#
-# The waves should rotate unchanged around the basin. This is a good
-# test of the shallow-water solver with Coriolis terms and non-trivial
-# coastlines.
-#
-# Figure \ref{solution} illustrates the solution obtained after three
-# wave periods.
-#
-# Following \cite{rutgers-waves}, Table \ref{correlation} presents the
-# phase error and the maximum correlation between the computed
-# solution and the exact solution. Note that these results are not
-# directly comparable to \cite{rutgers-waves}, because the timestep
-# used is much larger. The time-explicit codes tested in
-# \cite{rutgers-waves} have stronger stability requirements than
-# Gerris.
-#
-# \begin{figure}[htbp]
-# \caption{\label{solution}Surface-height after a rotation of 3 wave periods for a
-# resolution of 9.375 km.}
-# \begin{center}
-# \includegraphics[width=0.6\hsize]{solution.eps}
-# \end{center}
-# \end{figure}
-#
-# \begin{table}[htbp]
-# \caption{\label{correlation}Maximum correlation and phase error as functions of resolution.}
-# \begin{center}
-# \input{correlation.tex}
-# \end{center}
-# \end{table}
-#
-# Author: St\'ephane Popinet
-# Command: sh waves.sh waves.gfs
-# Version: 1.0.0
-# Required files: waves.sh solution.gfv correlation.ref
-# Generated files: correlation correlation.tex solution.eps
-#
-1 0 GfsOcean GfsBox GfsGEdge {} {
-  Time { end = 37.80501984 dtmax = 0.1 }
-  PhysicalParams { g = 5.87060327757e-3 }
-  Global {
-    #include <gsl/gsl_sf_bessel.h>
-    @link -lgsl -lgslcblas
-    
-    #define Ik(k,r,D) (gsl_sf_bessel_Inu ((k) - 1., (r)/(D))/(D)\
-                          - (k)/(r)*gsl_sf_bessel_Inu ((k), (r)/(D)))
-
-    static double D = 8.83906519983e-2;
-    static double k = 3.;
-    static double sigma = 0.4986;
-    static double a = 1./2555510.;
-    
-    static double pwave (double x, double y, double angle) {
-      double theta = atan2 (y, x) + angle*M_PI/180.;
-      double r = sqrt (x*x + y*y);
-      return a*cos (k*theta)*gsl_sf_bessel_Inu (k, r/D);
-    }
-
-    static double ur (double theta, double r) {
-      return -a*D*D/5.87060327757e-3*sin (k*theta)*(sigma*Ik (k, r, D) - 
-          k/r*gsl_sf_bessel_Inu (k, r/D));
-    }
-
-    static double vt (double theta, double r) {
-      return a*D*D/5.87060327757e-3*cos (k*theta)*(Ik (k, r, D) - 
-       	  k*sigma/r*gsl_sf_bessel_Inu (k, r/D));
-    }
-
-    static double uwave (double x, double y) {
-      double theta = atan2 (y, x);
-      double r = sqrt (x*x + y*y);
-      return ur (theta, r)*cos (theta) - vt (theta, r)*sin (theta);
-    }
-
-    static double vwave (double x, double y) {
-      double theta = atan2 (y, x);
-      double r = sqrt (x*x + y*y);
-      return ur (theta, r)*sin (theta) + vt (theta, r)*cos (theta);
-    }
-  }
-  Init {} {
-    P = pwave(cx, cy, 0)
-    U = uwave(x, y)
-    V = vwave(x, y)
-    H = 1
-  }
-  Refine LEVEL
-  Solid (- ellipse (0, 0, 0.25, 0.25)) { scale = 1.999 }
-  AdvectionParams { scheme = none }
-  ApproxProjectionParams { tolerance = 1e-9 weighted = 0 }
-  SourceCoriolis {} 1.
-  EventFilter { istep = 1 } U 4
-  EventFilter { istep = 1 } V 4
-  EventScript { start = end } { echo -n "-30 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -30)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-29 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -29)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-28 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -28)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-27 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -27)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-26 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -26)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-25 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -25)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-24 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -24)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-23 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -23)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-22 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -22)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-21 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -21)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-20 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -20)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-19 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -19)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-18 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -18)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-17 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -17)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-16 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -16)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-15 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -15)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-14 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -14)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-13 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -13)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-12 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -12)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-11 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -11)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-10 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -10)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "-1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, -1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "0.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 0.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "1.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 1.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "2.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 2.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "3.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 3.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.1 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.1)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.2 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.2)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.3 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.3)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.4 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.4)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "4.9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 4.9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "5 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 5)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "6 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 6)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "7 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 7)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "8 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 8)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "9 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 9)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "10 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 10)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "11 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 11)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "12 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 12)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "13 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 13)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "14 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 14)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "15 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 15)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "16 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 16)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "17 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 17)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "18 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 18)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "19 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 19)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "20 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 20)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "21 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 21)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "22 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 22)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "23 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 23)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "24 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 24)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "25 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 25)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "26 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 26)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "27 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 27)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "28 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 28)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "29 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 29)
-    unbiased = 1
-  }
-  EventScript { start = end } { echo -n "30 " }
-  OutputCorrelation { start = end } stdout { v = P } {
-    s = pwave(cx, cy, 30)
-    unbiased = 1
-  }
-  OutputSimulation { start = end } sim-LEVEL
-}
-GfsBox {
-  front = Boundary
-}
diff --git a/test/waves/waves.sh b/test/waves/waves.sh
deleted file mode 100644
index 0462dee..0000000
--- a/test/waves/waves.sh
+++ /dev/null
@@ -1,43 +0,0 @@
-if ! $donotrun; then
-    rm -f correlation res-* sim-*
-    for level in 5 6 7; do
-	if sed "s/LEVEL/$level/g" < $1 | gerris2D3 - | \
-	    awk '{ print $1 " " $5 }' > res-$level && \
-	    awk -v l=$level 'BEGIN { min1 = 0. } {
-         if ($2 > min1) {
-           theta = $1;
-           min1 = $2;
-         }
-       } END {
-           printf ("%d\t\t%g\t\t\t%g\n", l, theta, min1);
-       }' < res-$level >> correlation; then :
-	else
-	    exit 1
-	fi
-    done
-fi
-
-echo "Save solution.eps { format = EPS }" | gfsview-batch2D3 sim-7 solution.gfv
-
-awk 'BEGIN {
-  print "\\begin{tabular}{|c|c|c|}"
-  print "\\hline Level & Maximum $C$ & Angle of max $C$ \\\\ \\hline"
-}{
-  print $1 " & " $3 " & " $2 " \\\\"
-}END {
-  print "\\hline"
-  print "\\end{tabular}"
-}' < correlation > correlation.tex
-
-if cat <<EOF | python ; then :
-from check import *
-from sys import *
-if Curve('correlation',1,3).max() > 10.:
-    exit(1)
-if (Curve('correlation',1,2) - Curve('correlation.ref',1,2)).max() > 0. or\
-   (Curve('correlation.ref',1,3) - Curve('correlation',1,3)).max() > 0.:
-    exit(1)
-EOF
-else
-   exit 1
-fi
diff --git a/tools/Makefile.am b/tools/Makefile.am
deleted file mode 100644
index a28b37a..0000000
--- a/tools/Makefile.am
+++ /dev/null
@@ -1,58 +0,0 @@
-## Process this file with automake to produce Makefile.in
-
-INCLUDES = -I$(top_srcdir)/src -I$(includedir) -DG_LOG_DOMAIN=\"Gfs-tools\"\
-            $(GTS_CFLAGS)
-
-bin_PROGRAMS = \
-	gfs2oogl2D \
-	gfs2oogl2D3 \
-	gfs2oogl3D \
-	streamanime \
-	ppmcombine \
-	gfscompare2D \
-	gfscompare2D3 \
-	gfscompare3D \
-	gfsjoin2D \
-	gfsjoin3D \
-	shapes
-
-bin_SCRIPTS = \
-	darcs2dist \
-	bat2gts \
-	ppm2mpeg \
-	ppm2theora \
-	ppm2video \
-	gfs2gfs \
-	gfsjoin
-
-EXTRA_DIST = $(bin_SCRIPTS)
-
-gfs2oogl2D_SOURCES = gfs2oogl.c
-gfs2oogl2D3_SOURCES = gfs2oogl.c
-gfs2oogl3D_SOURCES = gfs2oogl.c
-gfscompare2D_SOURCES = gfscompare.c
-gfscompare2D3_SOURCES = gfscompare.c
-gfscompare3D_SOURCES = gfscompare.c
-gfsjoin2D_SOURCES = gfsjoin2.c
-gfsjoin3D_SOURCES = gfsjoin2.c
-
-gfs2oogl2D_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-gfs2oogl2D3_CFLAGS = $(AM_CFLAGS) -DFTT_2D3=1
-gfs2oogl2D_LDADD = $(GFS2D_LIBS)
-gfs2oogl2D3_LDADD = $(GFS2D3_LIBS)
-gfs2oogl3D_LDADD = $(GFS3D_LIBS)
-gfscompare2D_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-gfscompare2D3_CFLAGS = $(AM_CFLAGS) -DFTT_2D3=1
-gfscompare2D_LDADD = $(GFS2D_LIBS)
-gfscompare2D3_LDADD = $(GFS2D3_LIBS)
-gfscompare3D_LDADD = $(GFS3D_LIBS)
-gfsjoin2D_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-gfsjoin2D_LDADD = $(GFS2D_LIBS)
-gfsjoin3D_LDADD = $(GFS3D_LIBS)
-
-ppmcombine_CFLAGS = $(AM_CFLAGS) -DFTT_2D=1
-ppmcombine_LDADD = $(GFS2D_LIBS)
-
-streamanime_LDADD = $(GFS3D_LIBS)
-
-shapes_LDADD = $(GTS_LIBS)
diff --git a/tools/bat2gts b/tools/bat2gts
deleted file mode 100755
index 0b48845..0000000
--- a/tools/bat2gts
+++ /dev/null
@@ -1,154 +0,0 @@
-#!/bin/sh
-
-# reference longitude (degrees)
-rlong=174
-# reference latitude (degrees)
-rlat=-41
-# width of the domain (kilometers)
-width=500
-# coastline reference depth (m)
-coast=0.1
-# verbose output
-verbose=""
-# angle of rotation
-angle=0
-# relative error
-relative=0.05
-# reference depth
-H=5000
-
-usage()
-{
-	cat <<EOF
-Usage: bat2gts [OPTIONS] < BATHY
-
-Takes a bathymetry file (three columns: longitude, latitude (degree),
-depth (meters)) and generates a GTS depth file for the given
-domain.
-
-Options:
-	[--long=V]  set reference longitude to V (default 174 deg)
-	[--lat=V]   set reference latitude  to V (default -41 deg)
-	[--width=V] set domain width (default is 500 km)
-        [--depth=V] set reference depth to V
-                        (default is 5000 meters)
-        [--coast=V] set coastline reference depth to V
-                        (default is 0.1 meters)
-        [--rel=T]   set relative error allowed on bathymetry (default is 0.05)
-        [--angle=V] rotation of V degrees (default is 0)
-        [--verbose] display info about the process
-        [--help]    display this message and exits
-EOF
-	exit $1
-}
-
-if test $# -lt 1; then
-	usage 1 1>&2
-fi
-
-command="bat2gts $*"
-
-while test $# -gt 0; do
-  case "$1" in
-  -*=*) optarg=`echo "$1" | sed 's/[-_a-zA-Z0-9]*=//'` ;;
-  *) optarg= ;;
-  esac
-
-  case $1 in
-    --long=*)
-      rlong=$optarg
-      ;;
-    --lat=*)
-      rlat=$optarg
-      ;;
-    --width=*)
-      width=$optarg
-      ;;
-    --depth=*)
-      H=$optarg
-      ;;
-    --coast=*)
-      coast=$optarg
-      ;;
-    --angle=*)
-      angle=$optarg;
-      ;;
-    --rel=*)
-      relative=$optarg
-      ;;
-    --verbose)
-      verbose="-v"
-      ;;
-    --help)
-      usage 0 1>&2
-      ;;
-    *)
-      usage 0 1>&2
-      ;;
-  esac
-  shift
-done
-
-proj=-Ja$rlong/$rlat/1:`echo $width | awk '{print $1*1e5}'`c
-area=-R`echo $rlong $rlat $width | awk '{
-  Pi = 3.14159265359
-  dlon = 0.71*$3/(6378.*cos ($2*Pi/180))*180./Pi
-  dlat = 0.71*$3/6378.*180./Pi
-  print $1 - dlon "/" $1 + dlon "/" $2 - dlat "/" $2 + dlat
-}'`
-
-cat <<EOF
-# Created by bat2gts
-# wdir: $PWD
-# command line: $command
-# reference depth: $H m
-EOF
-mapproject -Dc -C $proj $area |\
-  awk -v H=$H -v coast=$coast '{
-    if ($1 < 0.71 && $1 > -0.71 && $2 < 0.71 && $2 > -0.71)
-      print $1 " " $2 " " (coast - $3)/H;
-  }
-' | sort | uniq | happrox -f $verbose -r `awk -v H=$H 'BEGIN{print 1./H}'` -c $relative |\
-transform --rz $angle | transform --revert --tz 0.5
-
-cat <<EOF > lolat2xy
-gmtset D_FORMAT = %.12lf
-mapproject -Dc -C $proj $area | awk '
-BEGIN {
-  angle = $angle * 3.14159265359/180.;
-  cosa = cos (angle);
-  sina = sin (angle);
-}
-{
-  if (NF >= 2) {
-    printf ("%f %f", cosa*\$1 - sina*\$2, sina*\$1 + cosa*\$2);
-    for (i = 3; i <= NF; i++)
-      printf (" %s", \$i);
-    printf ("\n");
-  }
-  else
-    print \$0;
-}'
-EOF
-chmod +x lolat2xy
-
-cat <<EOF > xy2lolat
-gmtset D_FORMAT = %.12lf
-awk '
-BEGIN {
-  angle = - $angle * 3.14159265359/180.;
-  cosa = cos (angle);
-  sina = sin (angle);
-}
-{
-  if (NF >= 2) {
-    printf ("%f %f", cosa*\$1 - sina*\$2, sina*\$1 + cosa*\$2);
-    for (i = 3; i <= NF; i++)
-      printf (" %s", \$i);
-    printf ("\n");
-  }
-  else
-    print \$0;
-}' | mapproject -Dc -I -C $proj $area
-EOF
-chmod +x xy2lolat
diff --git a/tools/daily b/tools/daily
deleted file mode 100755
index ea8cfd7..0000000
--- a/tools/daily
+++ /dev/null
@@ -1,299 +0,0 @@
-#!/bin/bash
-
-. $HOME/.bashrc
-
-# Gerris tests
-wdir=$HOME/local/src/gerris-tests
-
-gerris=gerris-stable
-gfsview=gfsview-mainline
-gts=gts-mainline
-
-darcs_gerris=$HOME/local/src/darcs/gerris
-darcs_gts=$HOME/local/src/darcs/gts
-darcs_gfsview=$HOME/local/src/darcs/gfsview
-
-gtsweb=popinet,gts at web.sourceforge.net:/home/groups/g/gt/gts/htdocs
-gerrisweb=popinet,gfs at web.sourceforge.net:/home/groups/g/gf/gfs/htdocs
-localgerrisweb=/var/www/gerris
-
-archive_key=$HOME/.gnupg/popinet_key.asc
-
-export PATH=$wdir/local/bin:$PATH:/usr/local/bin
-export LD_LIBRARY_PATH=$wdir/local/lib:$LD_LIBRARY_PATH:/usr/local/lib
-export PKG_CONFIG_PATH=$wdir/local/lib/pkgconfig:$PKG_CONFIG_PATH
-ulimit -c unlimited
-
-# debian build looks for shlibs and symbols file in locally compiled
-# libgts-snapshot debian packages:
-export DEB_DH_SHLIBDEPS_ARGS_ALL="-- -S$wdir/$gts/debian/libgts-snapshot -S$wdir/$gerris/debian/gerris-snapshot"
-
-# kill all running rsync processes. Assumes the only ones would be
-# hanging rsync from previous calls of this script!!
-killall rsync 2> /dev/null
-
-# synchronise devel branches
-darcs_synchronise()
-{
-    if ( cd $HOME/local/src/darcs/$1/$1-devel && \
-	darcs pull -a $gerrisweb/darcs/$1/$1-devel && \
-	darcs push -a $gerrisweb/darcs/$1/$1-devel ) > $wdir/sync 2>&1 ; then :
-    else
-	echo
-        echo ====== $HOME/local/src/darcs/$1/$1-devel: sync failed ======
-	echo
-	cat $wdir/sync
-	exit 1
-    fi
-}
-
-darcs_synchronise gerris
-darcs_synchronise gfsview
-
-# argument #1: repository to upgrade
-# argument #2: package name
-darcs_upgrade()
-{
-    package=$localgerrisweb/version/$2
-    if ( darcs push --dry-run --no-set-default $1 | \
-	 grep "No recorded local changes to push" ) ; then :
-    else
-	if ( darcs push --dry-run --no-set-default $1 | \
-	       grep -v "^\(Making no changes\|Pushing to\|Would push\)" | \
-	       $HOME/local/bin/redate | \
-	       source-highlight -f html -s changelog -c mystyle --no-doc > $package"_changes" ) && \
-	   ( darcs changes | \
-	       $HOME/local/bin/redate | \
-	       source-highlight -f html -s changelog -c mystyle --no-doc > $package"_all_changes" ) && \
-	   ( grep -c 'class="date"' $package"_changes" | awk '{printf ("%d", $1)}' > $package"_changes_number" ) && \
-	   ( darcs changes --last=1 --xml-output | \
-	      awk 'BEGIN{RS=" ";FS="="} {
-                if ($1 == "date") 
-                  printf ("%s-%s-%s", substr($2,2,4), substr($2,6,2), substr($2,8,2));
-               }' > $package"_current" ) && \
-	    darcs tag $(cat $package"_current") && \
-	    darcs push -a --no-set-default $1 ; then
-	    return 0;
-	else
-	    return 1;
-	fi	
-    fi
-}
-
-# Creates signed Packages and Release files in a debian repository
-debian_release()
-{
-    cat <<EOF > Release
-Archive: stable
-Component: contrib
-Origin: Stephane Popinet
-Label: stable
-Architecture: i386
-EOF
-    if ( rm -f Release.gpg Packages.gz Packages && \
-	apt-ftparchive packages . > Packages && \
-	gzip -9c < Packages > Packages.gz && \
-	apt-ftparchive release . | awk '{if ($3 != "Release") print $0;}' >> Release && \
-	gpg -abs -o Release.gpg Release && \
-	cp -f $archive_key . ) ; then
-	return 0;
-    else
-	return 1;
-    fi
-}
-
-build_gts=false
-if ( cd $wdir/$gts && make -k clean && \
-    ( darcs pull -a $darcs_gts/gts-devel | grep "No remote changes to pull in" ) ) > /dev/null 2>&1 ; then
-    gts_changed=false
-else
-    gts_changed=true
-    if ( cd $wdir/$gts && sh autogen.sh --prefix=$wdir/local && make -k && make -k install ) \
-       > $wdir/build 2>&1 ; then :
-	build_gts=true
-    else
-	echo
-        echo ============ $wdir/$gts: build failed ============
-	echo
-	cat $wdir/build
-	exit 1
-    fi
-fi
-
-build_gerris=false
-if ( cd $wdir/$gerris && make -k clean && \
-    ( darcs pull -a $darcs_gerris/gerris-devel | grep "No remote changes to pull in" ) ) > /dev/null 2>&1 ; then
-    gerris_changed=false
-    if $build_gts ; then
-	build_gerris=true
-    fi
-else
-    gerris_changed=true
-    build_gerris=true
-fi
-if $build_gerris ; then
-    if ( cd $wdir/$gerris && sh autogen.sh --prefix=$wdir/local && make -k && make -k install ) \
-       > $wdir/build 2>&1 ; then :
-    else
-	echo
-        echo ============ $wdir/$gerris: build failed ============
-	echo
-	cat $wdir/build
-	exit 1
-    fi
-fi
-
-build_gfsview=false
-if ( cd $wdir/$gfsview && make -k clean && \
-    ( darcs pull -a $darcs_gfsview/gfsview-devel | grep "No remote changes to pull in" ) ) > /dev/null 2>&1 ; then :
-    gfsview_changed=false
-    if $build_gerris ; then
-	build_gfsview=true
-    fi
-else
-    gfsview_changed=true
-    build_gfsview=true
-fi
-if $build_gfsview ; then
-    if ( cd $wdir/$gfsview && sh autogen.sh --prefix=$wdir/local && make -k && make -k install ) \
-       > $wdir/build 2>&1 ; then :
-    else
-	echo
-        echo ============ $wdir/$gfsview: build failed ============
-	echo
-	cat $wdir/build
-	exit 1
-    fi
-fi
-
-if ( $build_gerris || $build_gfsview ) ; then
-   if ( cd $wdir/$gerris && make -k check ) > $wdir/check 2>&1 ; then :
-   else
-       check=1
-   fi
-   if ( cd $wdir/$gerris/test && make -k tests.tar.gz && \
-        cd $wdir/$gerris/doc/tutorial && make -k tutorial.pdf tutorial.tar.gz && \
-        cd $wdir/$gerris/doc/examples && make -k examples.tar.gz && \
-        cd $wdir/$gerris/doc && make -k templates sgml html ) > $wdir/tests 2>&1 ; then :
-   else
-       tests=1
-   fi
-   if test $check; then
-       echo
-       echo ============ $wdir: check failed =====================
-       if test ! $tests; then
-	   echo file://$wdir/$gerris/test/tests/index.html
-       fi
-       echo
-       cat $wdir/check
-   fi
-   if test $tests; then
-       echo
-       echo ============ $wdir: doc generation failed ============
-       echo
-       cat $wdir/tests
-   fi
-   if test -z "$check" && test -z "$tests"; then
-       if ( cd $wdir/$gts && darcs_upgrade $darcs_gts/$gts gts && \
-	    cd $wdir/$gerris && darcs_upgrade $darcs_gerris/$gerris gerris && \
-	    cd $wdir/$gfsview && darcs_upgrade $darcs_gfsview/$gfsview gfsview ) \
-	   > $wdir/darcs 2>&1 ; then
-	   gts_snapshot=true
-	   if $gts_changed ; then
-	       if ( darcs2dist gts $darcs_gts/$gts $gtsweb && \
-                    cd $wdir/$gts && make ChangeLog launchpad-snapshot ) \
-               > $wdir/snapshot 2>&1 ; then :
-	       else
-		   echo
-		   echo ============ $wdir: GTS snapshot failed ============
-		   echo
-		   cat $wdir/snapshot
-		   gts_snapshot=false
-	       fi
-	   fi
-	   gerris_snapshot=true
-	   if $gerris_changed && $gts_snapshot ; then
-	       if ( darcs2dist gerris $darcs_gerris/$gerris $gerrisweb ) \
-               > $wdir/snapshot 2>&1 ; then :
-	       else
-		   echo
-		   echo ============ $wdir: Gerris snapshot failed ============
-		   echo
-		   cat $wdir/snapshot
-		   gerris_snapshot=false
-	       fi
-	   fi
-	   gerris_debian=true
-           if $gts_snapshot && ( $gts_changed || $gerris_changed ) ; then
-	       if ( cd $wdir/$gerris && make ChangeLog launchpad-snapshot ) \
-		   > $wdir/debian 2>&1 ; then :
-	       else
-		   echo
-		   echo ============ $wdir: Gerris debian failed ============
-		   echo
-		   cat $wdir/debian
-		   gerris_debian=false
-	       fi
-	   fi
-	   if $gfsview_changed && $gerris_snapshot ; then
-	       if ( darcs2dist gfsview $darcs_gfsview/$gfsview $gerrisweb ) \
-               > $wdir/snapshot 2>&1 ; then :
-	       else
-		   echo
-		   echo ============ $wdir: GfsView snapshot failed ============
-		   echo
-		   cat $wdir/snapshot
-	       fi
-	   fi
-	   gfsview_debian=true
-	   if $gts_snapshot && $gerris_debian && \
-              ( $gts_changed || $gerris_changed || $gfsview_changed ) ; then
-	       if ( cd $wdir/$gfsview && make ChangeLog launchpad-snapshot ) \
-               > $wdir/debian 2>&1 ; then :
-	       else
-		   echo
-		   echo ============ $wdir: GfsView debian failed ============
-		   echo
-		   cat $wdir/debian
-		   gfsview_debian=false
-	       fi
-	   fi
-       else
-	   echo
-	   echo ============ $wdir: darcs push failed ============
-	   echo
-	   cat $wdir/darcs
-       fi
-   fi
-   if test -z "$tests"; then
-       if ( cd $wdir/$gerris/test && \
-           rm -r -f $localgerrisweb/tests/* && \
-           cp tests.tar.gz $localgerrisweb/tests/ && \
-	   cd $localgerrisweb/tests/ && \
-	   tar xzf tests.tar.gz && rm -f tests.tar.gz && \
-	   cd $wdir/$gerris/doc/examples && \
-           rm -r -f $HOME/local/src/gerris-www/publish/examples/* && \
-           cp examples.tar.gz $HOME/local/src/gerris-www/publish/examples/ && \
-	   cd $HOME/local/src/gerris-www/publish/examples/ && \
-	   tar xzf examples.tar.gz && rm -f examples.tar.gz && \
-	   cd $wdir/$gts && rm -f ChangeLog && make ChangeLog && \
-	   $HOME/local/bin/redate < ChangeLog | source-highlight -f html -s changelog -d -T "GTS ChangeLog" > $HOME/local/src/gts-www/publish/ChangeLog.html && \
-	   cd $wdir/$gerris && rm -f ChangeLog && make ChangeLog && \
-	   $HOME/local/bin/redate < ChangeLog | source-highlight -f html -s changelog -d -T "Gerris ChangeLog" > $localgerrisweb/gerris-ChangeLog.html && \
-	   cd $wdir/$gfsview && rm -f ChangeLog && make ChangeLog && \
-	   $HOME/local/bin/redate < ChangeLog | source-highlight -f html -s changelog -d -T "GfsView ChangeLog" > $localgerrisweb/gfsview-ChangeLog.html && \
-	   cd $HOME/local/src/gerris-www && make publish_local sync && \
-	   cd $HOME/local/src/gts-www && make sync ) > $wdir/www 2>&1 ; then :
-       else
-	   echo
-	   echo ============ $wdir: www failed ============
-	   echo
-	   cat $wdir/www
-       fi
-   fi
-fi
-
-# Darcs mirroring
-rsync -az --delete --rsh=ssh $HOME/local/src/darcs/gfsview/* $gerrisweb/darcs/gfsview/
-rsync -az --delete --rsh=ssh $HOME/local/src/darcs/gerris/* $gerrisweb/darcs/gerris
-rsync -az --delete --rsh=ssh $HOME/local/src/darcs/gts/* $gtsweb/darcs
diff --git a/tools/darcs2dist b/tools/darcs2dist
deleted file mode 100755
index e23f097..0000000
--- a/tools/darcs2dist
+++ /dev/null
@@ -1,63 +0,0 @@
-#!/bin/sh
-
-# see ../src/darcsversion.sh
-darcsversion()
-{
-    darcs changes --last=1 --xml-output | \
-	awk 'BEGIN{RS=" ";FS="="}{if ($1 == "date") print substr($2,4,6);}'
-}
-
-usage()
-{
-	cat <<EOF
-Usage: darcs2dist [OPTIONS] PACKAGE REPOSITORY URL
-
-Updates a SourceForge snapshot using the given darcs repository.
-
-EOF
-	exit $1
-}
-
-if test $# -lt 3; then
-	usage 1 1>&2
-fi
-
-package=$1
-repo=$2
-url=$3
-
-wrkdir=`mktemp -d /tmp/darcs2dist.XXXXXX`
-cd $wrkdir
-if ( darcs get --partial $repo $package && \
-     cd $package && \
-     version=`darcsversion` && \
-     login=`echo $url | awk 'BEGIN{FS=":"}{print $1}'` && \
-     dir=`echo $url | awk 'BEGIN{FS=":"}{print $2}'` && \
-     sh autogen.sh && \
-     make && \
-     make dist && \
-     tar xzf $package-*.tar.gz && \
-     cd  $package-[0-9].[0-9].[0-9] && \
-     ./configure && make && cd .. && \
-     rm -r -f $package-[0-9].[0-9].[0-9] && tar xzf $package-*.tar.gz && \
-     mv $package-[0-9].[0-9].[0-9] $package-snapshot-$version && \
-     tar chof - $package-snapshot-$version | gzip --best -c > $package-snapshot-$version.tar.gz && \
-     cat <<EOF | sftp $login
-     cd $dir/tarballs
-     -rm $package-snapshot-*.tar.gz
-     put $package-snapshot-$version.tar.gz
-     cd $dir
-     -rm $package-snapshot.tar.gz
-     symlink tarballs/$package-snapshot-$version.tar.gz $package-snapshot.tar.gz
-EOF
-) > msg 2>&1; then
-    rm -f msg
-    status=0
-else
-    cat msg
-    rm -f msg
-    status=1
-fi
-
-rm -r -f $wrkdir
-exit $status
diff --git a/tools/gfs2gfs b/tools/gfs2gfs
deleted file mode 100755
index 5e49838..0000000
--- a/tools/gfs2gfs
+++ /dev/null
@@ -1,35 +0,0 @@
-#!/bin/sh
-
-usage()
-{
-	cat <<EOF
-Usage: gfs2gfs [OPTIONS] < OLDFILE > NEWFILE
-
-Converts old Gerris simulation files to the current format.
-
-Options:
-        [--help]    display this message and exits
-EOF
-	exit $1
-}
-
-while test $# -gt 0; do
-  case "$1" in
-  -*=*) optarg=`echo "$1" | sed 's/[-_a-zA-Z0-9]*=//'` ;;
-  *) optarg= ;;
-  esac
-
-  case $1 in
-    --help)
-      usage 0 1>&2
-      ;;
-    *)
-      usage 0 1>&2
-      ;;
-  esac
-  shift
-done
-
-sed 's/^ *GtsSurface/GfsSolid {}/g' | \
-sed 's/GtsSurfaceFile/GfsSolid/g' | \
-sed 's/surface =/solid =/g'
diff --git a/tools/gfs2oogl.c b/tools/gfs2oogl.c
deleted file mode 100644
index 62fe314..0000000
--- a/tools/gfs2oogl.c
+++ /dev/null
@@ -1,1250 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include <stdlib.h>
-#include <string.h>
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-#ifdef HAVE_UNISTD_H
-#  include <unistd.h>
-#endif /* HAVE_UNISTD_H */
-
-#include "init.h"
-#include "simulation.h"
-#include "graphic.h"
-#include "solid.h"
-#include "adaptive.h"
-
-#define DEBUG 0
-
-static void merged_draw (GSList * merged, FILE * fp)
-{
-  if (merged->next != NULL) {
-    GSList * i = merged;
-
-    while (i) {
-      FttCell * cell = i->data;
-      FttCellNeighbors n;
-      FttCellFace f;  
-
-      f.cell = cell;
-      ftt_cell_neighbors (cell, &n);
-      for (f.d = 0; f.d < FTT_NEIGHBORS; f.d++)
-	if (!n.c[f.d] || !g_slist_find (merged, n.c[f.d]))
-	  ftt_face_draw (&f, fp);
-      i = i->next;
-    }
-  }
-}
-
-static gdouble local_size_ratio (GtsSegment * s, GfsDomain * domain)
-{
-  GtsPoint * p1 = GTS_POINT (s->v1);
-  GtsPoint * p2 = GTS_POINT (s->v2);
-  gdouble l = gts_point_distance (p1, p2);
-  FttVector p;
-  FttCell * cell;
-  gdouble size = G_MAXDOUBLE;
-
-  p.x = p1->x;
-  p.y = p1->y;
-  p.z = p1->z;
-  cell = gfs_domain_locate (domain, p, -1, NULL);
-  if (cell)
-    size = ftt_cell_size (cell);
-
-  p.x = p2->x;  
-  p.y = p2->y;
-  p.z = p2->z;
-  cell = gfs_domain_locate (domain, p, -1, NULL);
-  if (cell) {
-    gdouble s = ftt_cell_size (cell);
-    
-    if (size == G_MAXDOUBLE || s > size)
-      size = s;
-  }
-  
-  return size/l;
-}
-
-static gboolean stop (gdouble cost, guint nedge)
-{
-  if (cost >= 1. || nedge > 50000)
-    return TRUE;
-  return FALSE;
-}
-
-static void draw_vector (FttCell * cell, gpointer * data)
-{
-  gdouble * scale = data[0];
-  GfsVariable ** u = data[1];
-  FILE * fp = stdout;
-  FttVector pos, f;
-
-  gfs_cell_cm (cell, &pos);
-  
-  f.x = GFS_VARIABLE (cell, u[0]->i)*(*scale);
-  f.y = GFS_VARIABLE (cell, u[1]->i)*(*scale);
-#if FTT_2D
-  f.z = 0.;
-#else
-  f.z = GFS_VARIABLE (cell, u[2]->i)*(*scale);
-#endif
-  fprintf (fp, "VECT 1 3 0 3 0 %g %g %g %g %g %g %g %g %g\n",
-	   pos.x + f.x - (f.x - f.y/2.)/5.,
-	   pos.y + f.y - (f.x/2. + f.y)/5.,
-	   pos.z + f.z,
-	   pos.x + f.x,
-	   pos.y + f.y,
-	   pos.z + f.z,
-	   pos.x + f.x - (f.x + f.y/2.)/5.,
-	   pos.y + f.y + (f.x/2. - f.y)/5.,
-	   pos.z + f.z);
-  fprintf (fp, "VECT 1 2 0 2 0 %g %g %g %g %g %g\n",
-	   pos.x, pos.y, pos.z,
-	   pos.x + f.x,
-	   pos.y + f.y,
-	   pos.z + f.z);
-}
-
-static void compute_mixed_vorticity (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-  GfsVariable * u = data[1];
-  FttVector g;
-
-  g_assert (((cell)->flags & GFS_FLAG_DIRICHLET) != 0);
-  gfs_cell_dirichlet_gradient (cell, u->i, -1, GFS_STATE (cell)->solid->fv, &g);
-  if (u->component == FTT_X)
-    GFS_VARIABLE (cell, v->i) -= g.y;
-  else
-    GFS_VARIABLE (cell, v->i) += g.x;
-}
-
-static void output_mixed_vorticity (FttCell * cell, GfsVariable * v)
-{
-  gdouble size = ftt_cell_size (cell);
-  GfsSolidVector * s = GFS_STATE (cell)->solid;
-
-  printf ("%g %g %g %g\n", s->ca.x, s->ca.y, s->ca.z, 
-	  GFS_VARIABLE (cell, v->i)/size);
-}
-
-static void output_mixed_pressure (FttCell * cell, GfsVariable * p)
-{
-  GfsSolidVector * s = GFS_STATE (cell)->solid;
-
-  printf ("%g %g %g %g\n", s->ca.x, s->ca.y, s->ca.z, 
-	  gfs_dimensional_value (p, gfs_interpolate (cell, s->ca, p)));
-}
-
-static void output_mixed_variable (FttCell * cell, GfsVariable * v)
-{
-  GfsSolidVector * s = GFS_STATE (cell)->solid;
-
-  printf ("%g %g %g %g\n", s->ca.x, s->ca.y, s->ca.z,
-	  gfs_dimensional_value (v, GFS_VALUE (cell, v)));
-}
-
-/* SVertex: Header */
-
-typedef struct _SVertex         SVertex;
-
-struct _SVertex {
-  /*< private >*/
-  GtsVertex parent;
-
-  /*< public >*/
-  gdouble s;
-};
-
-#define S_VERTEX(obj)            GTS_OBJECT_CAST (obj,\
-					         SVertex,\
-					         s_vertex_class ())
-#define IS_S_VERTEX(obj)         (gts_object_is_from_class (obj,\
-						 s_vertex_class ()))
-
-/* SVertex: Object */
-
-static GtsVertexClass * s_vertex_class (void)
-{
-  static GtsVertexClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo s_vertex_info = {
-      "SVertex",
-      sizeof (SVertex),
-      sizeof (GtsVertexClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_vertex_class ()),
-				  &s_vertex_info);
-  }
-
-  return klass;
-}
-
-typedef struct {
-  GSList *** p;
-  guint nx, ny;
-  gdouble h;
-  FttVector min, max;
-} ClosestGrid;
-
-static ClosestGrid * closest_box_grid_new (FttVector min, FttVector max,
-					   gdouble h)
-{
-  ClosestGrid * g = g_malloc (sizeof (ClosestGrid));
-  guint i;
-
-  g->max = max;
-  g->min = min;
-  g->nx = (g->max.x - g->min.x)/h + 3;
-  g->h = h;
-  g->ny = (g->max.y - g->min.y)/h + 3;
-  g->min.x -= h;
-  g->min.y -= h;
-  g->max.x = g->min.x + g->nx*g->h;
-  g->max.y = g->min.y + g->ny*g->h;
-  g->p = g_malloc (g->nx*sizeof (GSList **));
-  for (i = 0; i < g->nx; i++)
-    g->p[i] = g_malloc0 (g->ny*sizeof (GSList *));
-
-  return g;
-}
-
-static void min_max_extent (FttCell * cell, ClosestGrid * g)
-{
-  FttVector pos;
-  
-  ftt_cell_pos (cell, &pos);
-  if (pos.x > g->max.x) g->max.x = pos.x;
-  if (pos.y > g->max.y) g->max.y = pos.y;
-  if (pos.x < g->min.x) g->min.x = pos.x;
-  if (pos.y < g->min.y) g->min.y = pos.y;
-}
-
-static ClosestGrid * closest_grid_new (GfsDomain * domain, gdouble h)
-{
-  ClosestGrid * g = g_malloc (sizeof (ClosestGrid));
-  guint i;
-
-  g->max.x = - G_MAXDOUBLE;
-  g->max.y = - G_MAXDOUBLE;
-  g->max.z = - G_MAXDOUBLE;
-  g->min.x = G_MAXDOUBLE;
-  g->min.y = G_MAXDOUBLE;
-  g->min.z = G_MAXDOUBLE;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) min_max_extent, g);
-  g->nx = (g->max.x - g->min.x)/h + 3;
-  g->h = h;
-  g->ny = (g->max.y - g->min.y)/h + 3;
-  g->min.x -= h;
-  g->min.y -= h;
-  g->max.x = g->min.x + g->nx*g->h;
-  g->max.y = g->min.y + g->ny*g->h;
-  g->p = g_malloc (g->nx*sizeof (GSList **));
-  for (i = 0; i < g->nx; i++)
-    g->p[i] = g_malloc0 (g->ny*sizeof (GSList *));
-
-  return g;
-}
-
-static void closest_grid_destroy (ClosestGrid * g)
-{
-  guint i, j;
-
-  for (i = 0; i < g->nx; i++) {
-    for (j = 0; j < g->ny; j++)
-      g_slist_free (g->p[i][j]);
-    g_free (g->p[i]);
-  }
-  g_free (g->p);
-  g_free (g);
-}
-
-typedef enum {
-  INSERTED, ALREADY_THERE, CLOSED, SELFCLOSED, FINISHED, OFFSIDE
-} InsertStatus;
-
-static gdouble point_distance2 (GtsPoint * p1, GtsPoint * p2)
-{
-  return ((p1->x - p2->x)*(p1->x - p2->x) + (p1->y - p2->y)*(p1->y - p2->y));
-}
-
-static InsertStatus closest_grid_is_insertable (ClosestGrid * g, GtsPoint * p,
-						gdouble dmin, 
-						gdouble ds)
-{
-  gint i = (p->x - g->min.x)/(g->max.x - g->min.x)*g->nx, i1;
-  gint j = (p->y - g->min.y)/(g->max.y - g->min.y)*g->ny, j1;
-
-  if (i < 0 || i >= g->nx || j < 0 || j >= g->ny)
-    return OFFSIDE;
-
-  for (i1 = i - 1; i1 <= i + 1; i1++)
-    for (j1 = j - 1; j1 <= j + 1; j1++) 
-      if (i1 >= 0 && i1 < g->nx && j1 >= 0 && j1 < g->ny) {
-	GSList * k = g->p[i1][j1];
-	while (k) {
-	  GtsPoint * p1 = k->data;
-	  
-	  if (IS_S_VERTEX (p) && IS_S_VERTEX (p1) && S_VERTEX (p1)->s >= 0.) {
-	    gdouble d = point_distance2 (p, p1);
-	    
-	    if (d == 0.) return ALREADY_THERE;
-	    if (S_VERTEX (p)->s - S_VERTEX (p1)->s >= 3.*ds && d < 0.9*ds*ds)
-	      return S_VERTEX (p1)->s == 0. ? CLOSED : SELFCLOSED;
-	  }
-	  else if ((!IS_S_VERTEX (p1) || S_VERTEX (p1)->s < 0.) &&
-		   point_distance2 (p, p1) < dmin*dmin)
-	    return FINISHED;
-	  k = k->next;
-	}
-      }
-  return INSERTED;
-}
-
-static InsertStatus closest_grid_add (ClosestGrid * g, GtsPoint * p,
-				      gdouble dmin, gdouble ds)
-{
-  InsertStatus status;
-  gint i = (p->x - g->min.x)/(g->max.x - g->min.x)*g->nx;
-  gint j = (p->y - g->min.y)/(g->max.y - g->min.y)*g->ny;
-
-  if ((status = closest_grid_is_insertable (g, p, dmin, ds)) != INSERTED)
-    return status;
-  g->p[i][j] = g_slist_prepend (g->p[i][j], p);
-  return INSERTED;
-}
-
-static void closest_grid_remove (GtsPoint * p, ClosestGrid * g)
-{
-  gint i = (p->x - g->min.x)/(g->max.x - g->min.x)*g->nx;
-  gint j = (p->y - g->min.y)/(g->max.y - g->min.y)*g->ny;
-
-  if (i < 0 || i >= g->nx || j < 0 || j >= g->ny)
-    return;
-  g->p[i][j] = g_slist_remove (g->p[i][j], p);
-}
-
-static InsertStatus insert (FttVector p, ClosestGrid * g,
-			    gdouble dmin, gdouble s, gdouble ds,
-			    GtsVertex ** vertex)
-{
-  GtsVertex * v = gts_vertex_new (s_vertex_class (), p.x, p.y, p.z);
-  InsertStatus status;
-
-  S_VERTEX (v)->s = s;
-  if ((status = closest_grid_add (g, GTS_POINT (v), dmin, ds)) != INSERTED) {
-    gts_object_destroy (GTS_OBJECT (v));
-    *vertex = NULL;
-    return status;
-  }
-  *vertex = v;
-  return INSERTED;
-}
-
-static gboolean advect (GfsDomain * domain,
-			FttCell * cell,
-			FttVector * p,
-			gdouble ds,
-			gint direction)
-{
-  FttComponent c;
-  FttVector u, ph;
-  gdouble nu = 0.;
-  guint n = 10;
-  gdouble h = ds/n;
-  gboolean ad = TRUE;
-  GfsVariable ** U = gfs_domain_velocity (domain);
-
-  while (n-- > 0 && ad) {
-    for (c = 0; c < 2/*FTT_DIMENSION*/; c++) {
-      ((gdouble *) &u)[c] = direction*gfs_interpolate (cell, *p, U[c]);
-      nu += ((gdouble *) &u)[c]*((gdouble *) &u)[c];
-    }
-    if (nu > 0.) {
-      nu = sqrt (nu);
-      ph = *p;
-      for (c = 0; c < 2/*FTT_DIMENSION*/; c++)
-	((gdouble *) &ph)[c] += h*((gdouble *) &u)[c]/(2.*nu);
-      cell = gfs_domain_locate (domain, ph, -1, NULL);
-      if (cell != NULL) {
-	nu = 0.;
-	for (c = 0; c < 2/*FTT_DIMENSION*/; c++) {
-	  ((gdouble *) &u)[c] = direction*gfs_interpolate (cell, ph, U[c]);
-	  nu += ((gdouble *) &u)[c]*((gdouble *) &u)[c];
-	}
-	if (nu > 0.) {
-	  nu = sqrt (nu);
-	  for (c = 0; c < 2/*FTT_DIMENSION*/; c++)
-	    ((gdouble *) p)[c] += h*((gdouble *) &u)[c]/nu;
-	}
-	else
-	  ad = FALSE;
-      }
-      else
-	ad = FALSE;
-    }
-    else
-      ad = FALSE;
-  }
-  return ad;
-}
-
-static InsertStatus grow_streamline (GfsDomain * domain,
-				     ClosestGrid * grid,
-				     FttVector p,
-				     gdouble dmin,
-				     gdouble rds,
-				     gint direction,
-				     GSList ** stream)
-{
-  FttCell * cell = gfs_domain_locate (domain, p, -1, NULL);
-  GtsVertex * v, * vstart = NULL;
-  gdouble s = 0.;
-  InsertStatus status = cell ? INSERTED : OFFSIDE;
-
-  while (status == INSERTED || status == ALREADY_THERE) {
-    gdouble ds = rds*ftt_cell_size (cell);
-
-    ds = MIN (dmin, ds);
-    switch ((status = insert (p, grid, dmin, s, ds, &v))) {
-    case INSERTED:
-      *stream = g_slist_prepend (*stream, v);
-#if DEBUG
-      fprintf (stderr, "%g %g\n", GTS_POINT (v)->x, GTS_POINT (v)->y);
-      fflush (stderr);
-#endif
-      if (!vstart) vstart = v;
-    case ALREADY_THERE:
-      if (advect (domain, cell, &p, ds, direction)) {
-	s += ds;
-	cell = gfs_domain_locate (domain, p, -1, NULL);
-	if (cell == NULL)
-	  status = OFFSIDE;
-      }
-      else
-	status = OFFSIDE;
-      break;
-    default:
-      ;
-    }
-  }
-  if (direction > 0) {
-    if (status == CLOSED)
-      *stream = g_slist_prepend (*stream, vstart);
-    *stream = g_slist_reverse (*stream);
-  }
-  return status;
-}
-
-static void set_not_current (SVertex * s)
-{
-  g_assert (IS_S_VERTEX (s));
-  s->s = -1.;
-}
-
-static void streamline_destroy (GSList * s, ClosestGrid * grid)
-{
-  g_slist_foreach (s, (GFunc) closest_grid_remove, grid);
-  g_slist_foreach (s, (GFunc) gts_object_destroy, NULL);
-  g_slist_free (s);
-}
-
-static GSList * streamline (GfsDomain * domain,
-			    ClosestGrid * grid,
-			    FttVector p,
-			    gdouble dmin,
-			    gdouble rds,
-			    gboolean closed)
-{
-  GSList * stream = NULL;
-  InsertStatus status = grow_streamline (domain, grid, p, dmin, rds, 1, 
-					 &stream);
-
-  if (!closed) {
-    if (status != CLOSED && status != SELFCLOSED)
-      grow_streamline (domain, grid, p, dmin, rds, -1, &stream);
-  }
-  else {
-    if (status != CLOSED && status != SELFCLOSED && status != OFFSIDE) {
-      streamline_destroy (stream, grid);
-      return NULL;
-    }
-    if (status == OFFSIDE) {
-      status = grow_streamline (domain, grid, p, dmin, rds, -1, &stream);
-      if (status != CLOSED && status != SELFCLOSED && status != OFFSIDE) {
-	streamline_destroy (stream, grid);
-	return NULL;
-      }
-    }
-  }
-  g_slist_foreach (stream, (GFunc) set_not_current, NULL);
-#if DEBUG
-  fprintf (stderr, "\n"); fflush (stderr);
-#endif
-  return stream;
-}
-
-static gboolean seed (GSList * i, 
-		      GfsDomain * domain,
-		      ClosestGrid * grid,
-		      gdouble dsep,
-		      gdouble dmin,
-		      GList ** streams,
-		      gboolean closed)
-{
-  GtsPoint * v = gts_point_new (gts_point_class (), 0., 0., 0.);
-  FttVector p;
-
-  p.z = 0.;/*-0.49;*/
-  while (i) {
-    GtsPoint * p1 = i->data;
-    i = i->next;
-    if (i) {
-      GtsPoint * p2 = i->data;
-      gdouble d = sqrt (point_distance2 (p1, p2));
-
-      if (d > 1e-6) {
-	v->x = p.x = (p1->x + p2->x)/2. - (p2->y - p1->y)*dsep/d;
-	v->y = p.y = (p1->y + p2->y)/2. + (p2->x - p1->x)*dsep/d;
-	if (gfs_domain_locate (domain, p, -1, NULL) &&
-	    closest_grid_is_insertable (grid, v, dsep, 0.) == INSERTED) {
-	  GSList * s = streamline (domain, grid, p, dmin, 0.25, closed);
-
-	  if (s) {
-	    *streams = g_list_prepend (*streams, s);
-	    gts_object_destroy (GTS_OBJECT (v));
-	    return TRUE;
-	  }
-	}
-	v->x = p.x = (p1->x + p2->x)/2. + (p2->y - p1->y)*dsep/d;
-	v->y = p.y = (p1->y + p2->y)/2. - (p2->x - p1->x)*dsep/d;
-	if (gfs_domain_locate (domain, p, -1, NULL) &&
-	    closest_grid_is_insertable (grid, v, dsep, 0.) == INSERTED) {
-	  GSList * s = streamline (domain, grid, p, dmin, 0.25, closed);
-
-	  if (s) {
-	    *streams = g_list_prepend (*streams, s);
-	    gts_object_destroy (GTS_OBJECT (v));
-	    return TRUE;
-	  }
-	}
-      }
-      i = i->next;
-    }
-  }
-  gts_object_destroy (GTS_OBJECT (v));
-  return FALSE;
-}
-
-static void cell_center (FttCell * cell, gpointer * data)
-{
-  FttVector * p = data[0], pos;
-
-  if (p->x == G_MAXDOUBLE) {
-    GfsDomain * domain = data[1];
-    ClosestGrid * grid = data[2];
-    GtsPoint * v;
-
-    ftt_cell_pos (cell, &pos);
-    pos.z = 0.;
-    v = gts_point_new (gts_point_class (), pos.x, pos.y, pos.z);
-    if (gfs_domain_locate (domain, pos, -1, NULL) && 
-	closest_grid_is_insertable (grid, v, 0., 0.) == INSERTED)
-      *p = pos;
-    gts_object_destroy (GTS_OBJECT (v));
-  }
-}
-
-static GList * even_streamlines (GfsDomain * domain,
-				 ClosestGrid * grid,
-				 gdouble dsep, 
-				 gdouble dmin,
-				 gboolean closed)
-{
-  GList * streams = NULL, * current;
-  FttVector p = {G_MAXDOUBLE, G_MAXDOUBLE, G_MAXDOUBLE};
-  gboolean finished = FALSE;
-  gpointer data[3];
-
-  data[0] = &p;
-  data[1] = domain;
-  data[2] = grid;
-  gfs_domain_cell_traverse (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) cell_center, data);
-  current = streams = g_list_prepend (streams, 
-			   streamline (domain, grid, p, dmin, 0.25, closed));
-  do {
-    if (!seed (current->data, domain, grid, dsep, dmin, &streams, closed)) {
-      if (current == streams)
-	finished = TRUE;
-      else
-	current = current->prev;
-    }
-  } while (!finished);
-  return streams;
-}
-
-static gdouble curve_cost (GtsPoint *  p1, GtsPoint *  p2, GtsPoint *  p3)
-{
-  GtsVector v1, v2, a;
-
-  v1[0] = p2->x - p1->x; v1[1] = p2->y - p1->y; v1[2] = p2->z - p1->z;
-  v2[0] = p3->x - p2->x; v2[1] = p3->y - p2->y; v2[2] = p3->z - p2->z;
-  gts_vector_cross (a, v1, v2);
-  return gts_vector_norm (a)/2.;
-}
-
-static GSList * simplify_stream (GSList * stream,
-				 gdouble maxcost)
-{
-  GSList * i = stream;
-  GSList * s = NULL;
-  GtsPoint * p1 = NULL, * p2 = NULL;
-  gdouble cost = 0.;
-
-  while (i) {
-    GtsPoint * p = i->data;
-
-    if (p1 == NULL) { 
-      p1 = p;
-      s = g_slist_prepend (s, p);
-    }
-    else if (p2 == NULL)
-      p2 = p;
-    else {
-      cost += curve_cost (p1, p2, p);
-      p1 = p2;
-      p2 = p;
-      if (cost > maxcost || !i->next) {
-	s = g_slist_prepend (s, p);
-	cost = 0.;
-      }
-      else
-	GTS_OBJECT (p)->reserved = p;
-    }
-    i = i->next;
-  }
-  i = stream;
-  while (i) {
-    if (GTS_OBJECT (i->data)->reserved == i->data)
-      gts_object_destroy (i->data);
-    i = i->next;
-  }
-  g_slist_free (stream);
-  return s;
-}
-
-static void write_stream (GSList * i, FILE * fp)
-{
-  guint n = g_slist_length (i);
-
-  fprintf (fp, "VECT 1 %u 0 %u 0\n", n, n);
-  while (i) {
-    GtsPoint * p = i->data;
-    fprintf (fp, "%g %g 0\n", p->x, p->y);
-    i = i->next;
-  }
-}
-
-static void update_var (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-  GfsFunction * f = data[1];
-
-  GFS_VARIABLE (cell, v->i) = gfs_function_value (f, cell);
-}
-
-static void velocity_norm (FttCell * cell, gpointer * data)
-{
-  GfsVariable * v = data[0];
-  GfsVariable ** u = data[1];
-  GFS_VARIABLE (cell, v->i) = gfs_vector_norm (cell, u);
-}
-
-int main (int argc, char * argv[])
-{
-  int c = 0;
-  GfsVariable * var = NULL;
-  GtsFile * fp;
-  GtsSurface * surface = NULL;
-  gboolean draw_surface = FALSE;
-
-  gboolean verbose = FALSE;
-  gboolean refine = FALSE;
-
-  gdouble vector = -1.;
-
-  FILE * stream = NULL;
-  gchar * streamname = NULL, * color = NULL;
-  gboolean ribbon = FALSE, lines = FALSE, squares = FALSE;
-
-  GtsBBox * box = NULL;
-
-  gdouble min = 0., max = 0.;
-  gboolean gnuplot = FALSE;
-
-  gboolean merged = FALSE;
-  gboolean reinit = FALSE;
-  gboolean mixed = FALSE;
-  gdouble even_stream = 0., rdmin = 0.5, maxcost = 2e-7;
-  FttVector bmin, bmax = { -G_MAXDOUBLE, -G_MAXDOUBLE, -G_MAXDOUBLE };
-  gboolean closed = FALSE;
-  gint level = -1;
-  gdouble iso = G_MAXDOUBLE;
-
-  FILE * profile = NULL;
-
-  gfs_init (&argc, &argv);
-
-  /* parse options using getopt */
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-      {"iso", required_argument, NULL, 'u'},
-      {"level", required_argument, NULL, 'L'},
-      {"closed", no_argument, NULL, 'j'},
-      {"stream", required_argument, NULL, 'f'},
-      {"dmin", required_argument, NULL, 'I'},
-      {"maxcost", required_argument, NULL, 'O'},
-      {"box", required_argument, NULL, 'b'},
-      {"profile", required_argument, NULL, 'p'},
-      {"mixed", no_argument, NULL, 'o'},
-      {"reinit", no_argument, NULL, 'i'},
-      {"merged", no_argument, NULL, 'e'},
-      {"min", required_argument, NULL, 'm'},
-      {"max", required_argument, NULL, 'M'},
-      {"squares", no_argument, NULL, 'S'},
-      {"gnuplot", no_argument, NULL, 'g'},
-      {"sx", required_argument, NULL, 'x'},
-      {"sy", required_argument, NULL, 'y'},
-      {"sz", required_argument, NULL, 'z'},
-      {"color", required_argument, NULL, 'c'},
-      {"streamlines", required_argument, NULL, 'l'},
-      {"cylinder", required_argument, NULL, 'C'},
-      {"ribbon", required_argument, NULL, 'R'},
-      {"refine", no_argument, NULL, 'r'},
-      {"surface", required_argument, NULL, 's'},
-      {"vector", required_argument, NULL, 'V'},
-      {"help", no_argument, NULL, 'h'},
-      {"verbose", no_argument, NULL, 'v'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, 
-			      "hvs:rV:C:R:c:x:y:z:Sm:M:eiop:f:I:O:b:jl:L:u:g",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, 
-			 "hvs:rV:C:R:c:x:y:z:Sm:M:geiop:f:I:O:b:jl:L:u:g"))) {
-#endif /* not HAVE_GETOPT_LONG */
-    case 'u': /* isosurface */
-      iso = atof (optarg);
-      break;
-    case 'L': /* level */
-      level = atoi (optarg);
-      break;
-    case 'j': /* closed */
-      closed = TRUE;
-      rdmin = 0.9;
-      break;
-    case 'b': { /* box */
-      gchar * s = strtok (optarg, ",");
-      guint i = 0;
-
-      while (i < 3 && s != NULL) {
-	(&bmin.x)[i++] = atof (s);
-	s = strtok (NULL, ",");
-      }
-      if (i != 3) {
-	fprintf (stderr, "gfs2oogl: expecting a number for option `--box'\n");
-	fprintf (stderr, "Try `gfs2oogl --help' for more information.\n");
-	return 1;
-      }
-      i = 0;
-      while (i < 3 && s != NULL) {
-	(&bmax.x)[i++] = atof (s);
-	s = strtok (NULL, ",");
-      }
-      if (i != 3) {
-	fprintf (stderr, "gfs2oogl: expecting a number for option `--box'\n");
-	fprintf (stderr, "Try `gfs2oogl --help' for more information.\n");
-	return 1;
-      }
-      break;
-    }
-    case 'f': /* stream */
-      even_stream = atof (optarg);
-      break;
-    case 'I': /* dmin */
-      rdmin = atof (optarg);
-      break;
-    case 'O': /* maxcost */
-      maxcost = atof (optarg);
-      break;
-    case 'p': /* profile */
-      if ((profile = fopen (optarg, "rt")) == NULL) {
-	fprintf (stderr, "gfs2oogl: cannot open file `%s'\n"
-		 "Try `gfs2oogl --help' for more information.\n", optarg);
-	return 1; /* failure */
-      }
-      break;
-   case 'o': /* mixed */
-      mixed = TRUE;
-      break;
-    case 'i': /* reinit */
-      reinit = TRUE;
-      break;
-    case 'e': /* merged */
-      merged = TRUE;
-      break;
-    case 'M': /* max */
-      max = atof (optarg);
-      break;
-    case 'm': /* min */
-      min = atof (optarg);
-      break;
-    case 'g': /* gnuplot */
-      gnuplot = TRUE;
-      break;
-    case 'S': /* squares */
-      squares = TRUE;
-      break;
-    case 'x': /* sx */
-      box = gts_bbox_new (gts_bbox_class (), NULL,
-			  atof (optarg), -G_MAXDOUBLE/2., -G_MAXDOUBLE/2.,
-			  atof (optarg), G_MAXDOUBLE/2., G_MAXDOUBLE/2.);
-      break;
-    case 'y': /* sy */
-      box = gts_bbox_new (gts_bbox_class (), NULL,
-			  -G_MAXDOUBLE/2., atof (optarg), -G_MAXDOUBLE/2.,
-			  G_MAXDOUBLE/2., atof (optarg), G_MAXDOUBLE/2.);
-      break;
-    case 'z': /* sz */
-      box = gts_bbox_new (gts_bbox_class (), NULL,
-			  -G_MAXDOUBLE/2., -G_MAXDOUBLE/2., atof (optarg),
-			  G_MAXDOUBLE/2., G_MAXDOUBLE/2., atof (optarg));
-      break;
-    case 's': /* surface */
-      draw_surface = TRUE;
-      if (strcmp (optarg, "solid")) {
-	FILE * fp = fopen (optarg, "rt");
-	GtsFile * f;
-	
-	if (fp == NULL) {
-	  fprintf (stderr, 
-		   "gfs2oogl: cannot open file `%s'\n"
-		   "Try `gfs2oogl --help' for more information.\n",
-		   optarg);
-	  return 1; /* failure */
-	}
-	f = gts_file_new (fp);
-	surface = gts_surface_new (gts_surface_class (),
-				   gts_face_class (),
-				   gts_edge_class (),
-				   gts_vertex_class ());
-	if (gts_surface_read (surface, f)) {
-	  fprintf (stderr, "gfs2oogl: file `%s' is not a valid GTS file\n", 
-		   optarg);
-	  fprintf (stderr, "%s:%d:%d: %s\n",
-		   optarg, f->line, f->pos, f->error);
-	  return 1; /* failure */
-	}
-	gts_file_destroy (f);
-	fclose (fp);
-      }
-      break;
-    case 'l': /* lines */
-      lines = TRUE;
-      /* fall through */
-    case 'R': /* ribbon */
-      ribbon = TRUE;
-      /* fall through */
-    case 'C': /* cylinder */
-      stream = fopen (optarg, "rt");
-      streamname = g_strdup (g_basename (optarg));
-      if (stream == NULL) {
-	fprintf (stderr, 
-		 "gfs2oogl: cannot open file `%s'\n"
-		 "Try `gfs2oogl --help' for more information.\n",
-		 optarg);
-	return 1; /* failure */
-      }
-      break;
-    case 'V': /* vector */
-      vector = atof (optarg);
-      break;
-    case 'r': /* refine */
-      refine = TRUE;
-      break;
-    case 'c': /* color */
-      color = g_strdup (optarg);
-      break;
-    case 'v': /* verbose */
-      verbose = TRUE;
-      break;
-    case 'h': /* help */
-      fprintf (stderr,
-     "Usage: gfs2oogl [OPTION] < GFS_FILE\n"
-     "Converts a Gerris simulation file to other (graphical) formats.\n"
-     "\n"
-     "  -u V    --iso=V       outputs a GTS file isosurface for value V\n"
-     "                        the variable needs to be specified using -c\n"
-     "  -f D    --stream=D    draw evenly-spaced streamlines (D is the spacing)\n"
-     "  -I M    --dmin=M      controls length of evenly-spaced streamlines\n"
-     "                        default is 0.5\n"
-     "  -O M    --maxcost=M   controls compression of streamlines (default is 2e-7)\n"
-     "  -b x,.. --box=x,y,..  specify bounding box for streamline calculation\n"
-     "  -j      --closed      outputs only closed streamlines\n"
-     "  -p F    --profile=F   output list of values for coordinates defined in F\n"
-     "  -o      --mixed       output text values in mixed cells only\n"
-     "  -L L    --level=L     use cells at level L only\n"
-     "  -i      --reinit      reinitializes refinement and solid fractions\n"
-     "  -e      --merged      draw boundaries of merged cells\n"
-     "  -S      --squares     draw (colored) squares\n"
-     "  -g      --gnuplot     output gnuplot data\n"
-     "  -x VAL  --sx=VAL      outputs a GTS surface, cross section for x = VAL\n"
-     "                        of the scalar variable\n"
-     "  -y VAL  --sy=VAL      outputs a GTS surface, cross section for y = VAL\n"
-     "                        of the scalar variable\n"
-     "  -z VAL  --sz=VAL      outputs a GTS surface, cross section for z = VAL\n"
-     "                        of the scalar variable\n"
-     "  -s S    --surface=S   outputs the surface defined by file S (or the solid\n"
-     "                        surface is S is equal to `solid')\n"
-     "  -V S    --vector=S    output an OOGL representation of the velocity vector\n"
-     "                        field in the mixed cells\n"
-     "  -l F    --streamlines=F  draw streamlines starting from each point defined\n"
-     "                        in file F\n"
-     "  -C F    --cylinder=F  draw stream cylinders starting from each point defined\n"
-     "                        in file F\n"
-     "  -R F    --ribbon=F    draw stream ribbons starting from each point defined\n"
-     "                        in file F\n"
-     "  -r                    refines the solid surface according to the local\n"
-     "                        resolution\n"
-     "  -c V    --color=V     color surfaces, streamlines etc... according to the\n"
-     "  -m V    --min=V       set minimum scalar value to V\n"
-     "  -M V    --max=V       set maximum scalar value to V\n"
-     "  -v      --verbose     display statistics and other info\n"
-     "  -h      --help        display this help and exit\n"
-     "\n"
-     "Reports bugs to %s\n",
-	       FTT_MAINTAINER);
-      return 0; /* success */
-      break;
-    case '?': /* wrong options */
-      fprintf (stderr, "Try `gfs2oogl --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-
-  fp = gts_file_new (stdin);
-
-  while (fp->type == GTS_INT) {
-    GfsSimulation * simulation;
-    GfsDomain * domain;
-    GtsRange stats;
-      
-    if (!(simulation = gfs_simulation_read (fp))) {
-      fprintf (stderr, 
-	       "gfs2oogl: file on standard input is not a valid simulation file\n"
-	       "<stdin>:%d:%d: %s\n",
-	       fp->line, fp->pos, fp->error);
-      return 1;
-    }
-    gfs_simulation_init (simulation);
-
-    domain = GFS_DOMAIN (simulation);
-
-    if (color) {
-      GtsFile * fp = gts_file_new_from_string (color);
-      GfsFunction * f = gfs_function_new (gfs_function_class (), 0.);
- 
-      gfs_function_read (f, domain, fp);
-      if (fp->type == GTS_ERROR) {
-	fprintf (stderr, 
-		 "gfs2oogl: incorrect `color' argument\n"
-		 "%d: %s\n",
-		 fp->pos, fp->error);
-	return 1;
-      }
-      gts_file_destroy (fp);
-      g_free (color);
-      
-      if (!(var = gfs_function_get_variable (f))) {
-	gpointer data[2];
-
-	data[0] = var = gfs_temporary_variable (domain);
-	data[1] = f;
-	gfs_domain_cell_traverse (domain,
-				  FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				  (FttCellTraverseFunc) update_var, data);
-      }
-      gts_object_destroy (GTS_OBJECT (f));
-    }
-
-    if (verbose)
-      fprintf (stderr, "gfs2oogl: processing t = %10e\n", simulation->time.t);
-
-    if (reinit) {
-      gfs_clock_start (domain->timer);
-      gfs_simulation_refine (simulation);
-      gfs_simulation_init (simulation);
-      gfs_clock_stop (domain->timer);
-    }
-
-    if (var != NULL) {
-      if (min == max) {
-	stats = gfs_domain_stats_variable (domain, var, FTT_TRAVERSE_ALL, -1);
-	if (verbose)
-	  fprintf (stderr, 
-		   "min: %g avg: %g| %g max: %g n: %7d\n",
-		   stats.min, stats.mean, stats.stddev, stats.max, stats.n);
-      }
-      else {
-	stats.min = min;
-	stats.max = max;
-      }	
-    }
-    else
-      stats.min = stats.max = 0.;
-
-    if (var != NULL && gnuplot) {
-      if (mixed)
-	gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				   (FttCellTraverseFunc) output_mixed_variable, var);
-      else {
-	if (level < 0)
-	  gfs_write_gnuplot (domain, var, 
-			     FTT_TRAVERSE_LEAFS, -1, box, stdout);
-	else
-	  gfs_write_gnuplot (domain, var, 
-			     FTT_TRAVERSE_LEVEL, level, box, stdout);
-      }
-    }
-    else if (box && var != NULL) {
-      if (squares) {
-	if (level < 0)
-	  gfs_write_squares (domain, var, stats.min, stats.max, 
-			     FTT_TRAVERSE_LEAFS, -1, box, stdout);
-	else
-	  gfs_write_squares (domain, var, stats.min, stats.max, 
-			     FTT_TRAVERSE_LEVEL, level, box, stdout);
-      }
-      else
-	gfs_write_gts (domain, var, FTT_TRAVERSE_LEAFS, -1, box, stdout);
-    }
-    else if (stream) {
-      FttVector p;
-
-      rewind (stream);
-      printf ("(geometry \"%s-%g\" = LIST {\n",
-	      streamname,
-	      simulation->time.t);
-      while (fscanf (stream, "%lf %lf %lf", &p.x, &p.y, &p.z) == 3) {
-#if FTT_2D
-	gfs_draw_streamline (domain, p, stdout);
-#else /* 3D */
-	if (lines)
-	  gfs_draw_streamline (domain, p, stdout);
-	else if (ribbon)
-	  gfs_draw_stream_ribbon (domain, p, 2e-3,
-				  var, stats.min, stats.max, stdout);
-	else
-	  gfs_draw_stream_cylinder (domain, p, 5e-4, 
-				    var, stats.min, stats.max, stdout);
-#endif /* 3D */
-      }
-      printf ("})\n");
-    }
-    else if (profile) {
-      FttVector p;
-
-      if (var)
-	while (fscanf (profile, "%lf %lf %lf", &p.x, &p.y, &p.z) == 3) {
-	  FttCell * cell = gfs_domain_locate (domain, p, -1, NULL);
-	  if (cell)
-	    printf ("%g %g %g %g\n", p.x, p.y, p.z, gfs_interpolate (cell, p, var));
-	}
-      else {
-	GSList * j;
-	guint i = 4;
-
-	printf ("# 1:X 2:Y 3:Z ");
-	j = domain->variables;
-	while (j) {
-	  GfsVariable * v = j->data;
-	  printf ("%d:%s ", i++, v->name);
-	  j = j->next;
-	}
-	printf ("\n");
-	while (fscanf (profile, "%lf %lf %lf", &p.x, &p.y, &p.z) == 3) {
-	  FttCell * cell = gfs_domain_locate (domain, p, -1, NULL);
-	  if (cell) {
-	    printf ("%g %g %g ", p.x, p.y, p.z);
-	    j = domain->variables;
-	    while (j) {
-	      GfsVariable * v = j->data;
-	      printf ("%g ", gfs_interpolate (cell, p, v));
-	      j = j->next;
-	    }
-	    printf ("\n");
-	  }
-	}
-      }
-    }
-    else if (vector > 0.) {
-      GtsRange stats;
-      gdouble scale = 1.;
-      GfsVariable * norm = gfs_temporary_variable (domain);
-      gpointer data[2];
-
-      data[0] = norm;
-      data[1] = gfs_domain_velocity (domain);
-      gfs_domain_cell_traverse (domain,
-				FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				(FttCellTraverseFunc) velocity_norm, data);
-      stats = gfs_domain_stats_variable (domain, norm, FTT_TRAVERSE_LEAFS, -1);
-      gts_object_destroy (GTS_OBJECT (norm));
-      if (verbose)
-	fprintf (stderr, 
-		 "min: %g avg: %g| %g max: %g n: %7d\n",
-		 stats.min, stats.mean, stats.stddev, stats.max, stats.n);
-      if (stats.max > 0.)
-	scale = vector*ftt_level_size (gfs_domain_depth (domain))/stats.max;
-      printf ("(geometry \"vector-%g\" = LIST {\n", simulation->time.t);
-      data[0] = &scale;
-#if FTT_2D
-      if (box == NULL)
-	box = gts_bbox_new (gts_bbox_class (), NULL,
-			    0., -G_MAXDOUBLE/2., -G_MAXDOUBLE/2.,
-			    0., G_MAXDOUBLE/2., G_MAXDOUBLE/2.);
-#else /* 3D */
-      if (box == NULL)
-	gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				  (FttCellTraverseFunc) draw_vector, data);
-      else
-#endif /* 3D */
-      gfs_domain_cell_traverse_box (domain, box,
-				    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-				    (FttCellTraverseFunc) draw_vector, data);
-      printf ("})\n");
-    }
-    else if (draw_surface) {
-      GSList * l = gfs_simulation_get_solids (simulation), * i = l;
-	
-      while (i) {
-	GtsSurface * s = GFS_IS_SURFACE (GFS_SOLID (i->data)->s) ?  
-	  GFS_SURFACE (GFS_SOLID (i->data)->s)->s : NULL;
-  
-	if (s) {
-	  if (refine)
-	    gts_surface_refine (s, 
-				(GtsKeyFunc) local_size_ratio, domain,
-				NULL, NULL,
-				(GtsStopFunc) stop, NULL);
-	  gfs_draw_surface (domain, s, 
-			    var, stats.min, stats.max,
-			    stdout);
-	}
-	i = i->next;
-      }
-      g_slist_free (l);
-    }
-    else if (merged) {
-      gfs_set_merged (domain);
-      puts ("LIST {\n");
-      gfs_domain_traverse_merged (domain,
-				  (GfsMergedTraverseFunc) merged_draw, 
-				  stdout);
-      puts ("}\n");
-    }
-    else if (mixed && var->name && !strcmp (var->name, "Vorticity")) {
-      FttComponent c;
-      GfsVariable ** u, * vort = gfs_temporary_variable (domain);
-      gpointer data[2];
-
-      u = gfs_domain_velocity (domain);
-      gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				 (FttCellTraverseFunc) gfs_cell_reset, vort);
-      data[0] = vort;
-      for (c = 0; c < FTT_DIMENSION; c++) {
-	gfs_domain_surface_bc (domain, u[c]);
-	data[1] = u[c];
-	gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				   (FttCellTraverseFunc) compute_mixed_vorticity, data);
-      }
-      gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				 (FttCellTraverseFunc) output_mixed_vorticity, vort);
-      gts_object_destroy (GTS_OBJECT (vort));
-    }
-    else if (mixed && var->name && !strcmp (var->name, "P"))
-      gfs_domain_traverse_mixed (domain, FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS,
-				 (FttCellTraverseFunc) output_mixed_pressure, var);
-    else if (even_stream > 0.) {
-      GList * s, * i;
-      ClosestGrid * grid;
-
-      gfs_domain_cell_traverse (domain,
-				FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-				(FttCellTraverseFunc) gfs_cell_coarse_init, domain);
-
-      if (bmax.x == -G_MAXDOUBLE)
-	grid = closest_grid_new (domain, even_stream);
-      else
-	grid = closest_box_grid_new (bmin, bmax, even_stream);
-      i = s = even_streamlines (domain, grid, even_stream, 
-				even_stream*rdmin, closed);
-      closest_grid_destroy (grid);
-      printf ("LIST {\n");
-      while (i) {
-	i->data = simplify_stream (i->data, maxcost);
-	write_stream (i->data, stdout);
-	i = i->next;
-      }
-      printf ("}\n");
-    }
-    else if (iso < G_MAXDOUBLE && var != NULL) {
-      GtsSurface * s = gfs_isosurface (domain, var, iso, level);
-
-      gts_surface_write (s, stdout);
-      gts_object_destroy (GTS_OBJECT (s));
-    }
-    else {
-      gfs_draw_refined_boundaries (domain, stdout);
-      gfs_draw_solid_boundaries (domain, stdout);
-      gfs_draw_boundary_conditions (domain, stdout);
-    }
-
-    gts_object_destroy (GTS_OBJECT (simulation));
-  }
-
-  gts_file_destroy (fp);
-
-  return 0;
-}
diff --git a/tools/gfscompare.c b/tools/gfscompare.c
deleted file mode 100644
index 2f89a2c..0000000
--- a/tools/gfscompare.c
+++ /dev/null
@@ -1,717 +0,0 @@
-#include <math.h>
-#include <stdlib.h>
-#include <string.h>
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-#ifdef HAVE_UNISTD_H
-#  include <unistd.h>
-#endif /* HAVE_UNISTD_H */
-
-#include "graphic.h"
-#include "solid.h"
-#include "init.h"
-#include "simulation.h"
-
-#if FTT_2D
-
-/* GfsVertex: Header */
-
-typedef struct _GfsVertex         GfsVertex;
-
-struct _GfsVertex {
-  /*< private >*/
-  GtsVertex parent;
-
-  /*< public >*/
-  FttCell * cell;
-};
-
-#define GFS_VERTEX(obj)            GTS_OBJECT_CAST (obj,\
-					         GfsVertex,\
-					         gfs_vertex_class ())
-#define IS_GFS_VERTEX(obj)         (gts_object_is_from_class (obj,\
-						 gfs_vertex_class ()))
-
-static GtsVertexClass * gfs_vertex_class  (void);
-
-/* GfsVertex: Object */
-
-GtsVertexClass * gfs_vertex_class (void)
-{
-  static GtsVertexClass * klass = NULL;
-
-  if (klass == NULL) {
-    GtsObjectClassInfo gfs_vertex_info = {
-      "GfsVertex",
-      sizeof (GfsVertex),
-      sizeof (GtsVertexClass),
-      (GtsObjectClassInitFunc) NULL,
-      (GtsObjectInitFunc) NULL,
-      (GtsArgSetFunc) NULL,
-      (GtsArgGetFunc) NULL
-    };
-    klass = gts_object_class_new (GTS_OBJECT_CLASS (gts_vertex_class ()),
-				  &gfs_vertex_info);
-  }
-
-  return klass;
-}
-
-static void add_vertex (GSList * merged, GtsSurface * s)
-{
-  FttVector cm = {0., 0., 0.};
-  gdouble ta = 0.;
-  GtsVertex * v;
-  GSList * i = merged;
-  
-  while (i) {
-    FttVector p;
-    FttCell * cell = i->data;
-    gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-
-    gfs_cell_cm (i->data, &p);
-    cm.x += a*p.x; cm.y += a*p.y; cm.z += a*p.z;
-    ta += a;
-    i = i->next;
-  }
-
-  v = gts_vertex_new (s->vertex_class, cm.x/ta, cm.y/ta, cm.z/ta);
-  g_assert (gts_delaunay_add_vertex (s, v, NULL) == NULL);
-  GFS_VERTEX (v)->cell = merged->data;
-}
-
-static GtsSurface * surface_from_domain (GfsDomain * domain)
-{
-  GtsSurface * s = gts_surface_new (gts_surface_class (),
-				    gts_face_class (),
-				    gts_edge_class (),
-				    GTS_VERTEX_CLASS (gfs_vertex_class ()));
-  GtsVertex * v1 = gts_vertex_new (s->vertex_class, -100., -100., 0.);
-  GtsVertex * v2 = gts_vertex_new (s->vertex_class,  100., -100., 0.);
-  GtsVertex * v3 = gts_vertex_new (s->vertex_class,    0.,  100., 0.);
-  GtsEdge * e1 = gts_edge_new (s->edge_class, v1, v2);
-  GtsEdge * e2 = gts_edge_new (s->edge_class, v2, v3);
-  GtsEdge * e3 = gts_edge_new (s->edge_class, v3, v1);
-  
-  gts_surface_add_face (s, gts_face_new (s->face_class, e1, e2, e3));
-  gfs_domain_traverse_merged (domain, (GfsMergedTraverseFunc) add_vertex, s);
-  gts_allow_floating_vertices = TRUE;
-  gts_object_destroy (GTS_OBJECT (v1));
-  gts_object_destroy (GTS_OBJECT (v2));
-  gts_object_destroy (GTS_OBJECT (v3));
-  gts_allow_floating_vertices = FALSE;
-
-  return s;
-}
-
-static void difference_triangulated (GfsVertex * v, gpointer * data)
-{
-  GtsSurface * s = data[0];
-  GfsVariable * var1 = data[1];
-  GfsVariable * var2 = data[2];
-  GfsVariable * e = data[3];
-  GtsFace * f = gts_point_locate (GTS_POINT (v), s, NULL);
-
-  if (f != NULL && gts_triangle_quality (GTS_TRIANGLE (f)) > 0.8) {
-    GtsVertex * v1, * v2, * v3;
-    gdouble x, x1, x2, y, y1, y2, a, b, det;
-    gdouble fv3, fv1, fv2;
-
-    gts_triangle_vertices (GTS_TRIANGLE (f), &v1, &v2, &v3);
-    x = GTS_POINT (v)->x - GTS_POINT (v1)->x;
-    y = GTS_POINT (v)->y - GTS_POINT (v1)->y;
-    x1 = GTS_POINT (v2)->x - GTS_POINT (v1)->x;
-    y1 = GTS_POINT (v2)->y - GTS_POINT (v1)->y;
-    x2 = GTS_POINT (v3)->x - GTS_POINT (v1)->x;
-    y2 = GTS_POINT (v3)->y - GTS_POINT (v1)->y;
-    det = x1*y2 - x2*y1;
-    g_assert (det != 0.);
-    a = (x*y2 - y*x2)/det;
-    b = (y*x1 - x*y1)/det;
-    fv1 = GFS_VARIABLE (GFS_VERTEX (v1)->cell, var2->i);
-    fv2 = GFS_VARIABLE (GFS_VERTEX (v2)->cell, var2->i);
-    fv3 = GFS_VARIABLE (GFS_VERTEX (v3)->cell, var2->i);
-    GTS_POINT (v)->z = GFS_VARIABLE (v->cell, e->i) = 
-      GFS_VARIABLE (v->cell, var1->i) -
-      (fv1 + a*(fv2 - fv1) + b*(fv3 - fv1));
-  }
-}
-
-#endif /* FTT_2D */
-
-static gboolean is_mixed (FttCell * cell, guint level)
-{
-  if (GFS_IS_MIXED (cell))
-    return TRUE;
-  if (!FTT_CELL_IS_ROOT (cell) && ftt_cell_level (cell) > level)
-    return is_mixed (ftt_cell_parent (cell), level);
-  return FALSE;
-}
-
-static void inject (FttCell * cell, GfsVariable * e)
-{
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren child;
-    guint i;
-
-    ftt_cell_children (cell, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i]) {
-	GFS_VARIABLE (child.c[i], e->i) = GFS_VARIABLE (cell, e->i);
-	inject (child.c[i], e);
-      }
-  }
-}
-
-static gboolean difference_tree (FttCell * cell,
-				 GfsDomain * ref,
-				 GfsVariable * v1,
-				 GfsVariable * v2,
-				 GfsVariable * e,
-				 gdouble period)
-{
-  guint level = ftt_cell_level (cell);
-  FttVector pos;
-  FttCell * locate;
-  gboolean added = FALSE;
-  
-  ftt_cell_pos (cell, &pos);
-  pos.x += period;
-  locate = gfs_domain_locate (ref, pos, level, NULL);
-  if (locate == NULL) {
-    pos.x -= 2.*period;
-    locate = gfs_domain_locate (ref, pos, level, NULL);
-  }
-  if (locate == NULL) {
-    fprintf (stderr, "gfscompare: the files are not comparable\n");
-    exit (1);
-  }
-  if (ftt_cell_level (locate) != level)
-    return FALSE;
-  if (!FTT_CELL_IS_LEAF (cell)) {
-    FttCellChildren child;
-    guint i;
-
-    ftt_cell_children (cell, &child);
-    for (i = 0; i < FTT_CELLS; i++)
-      if (child.c[i] && difference_tree (child.c[i], ref, v1, v2, e, period))
-	added = TRUE;
-  }
-  if (!added) {
-    GFS_VARIABLE (cell, e->i) = (GFS_VARIABLE (cell, v1->i) -
-				 GFS_VARIABLE (locate, v2->i));
-    inject (cell, e);
-  }
-  return TRUE;
-}
-
-static void difference_box (GfsBox * box, gpointer * data)
-{
-  gdouble * period = data[4];
-
-  difference_tree (box->root, data[0], data[1], data[2], data[3], *period);
-}
-
-static void difference_constant (FttCell * cell, gpointer * data)
-{
-  gint full = *((gint *) data[0]);
-  gdouble * sum = data[1];
-  gboolean * centered = data[3];
-  gboolean * weighted = data[4];
-  gdouble * weight = data[5];
-  GfsVariable * e = data[6];
-  gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-
-  if ((full == -2 || 
-       (full == -1 && !GFS_IS_MIXED (cell)) ||
-       (full >= 0 && !is_mixed (cell, full))) &&
-      (!(*centered) || a >= 0.5)) {
-    gdouble w = *weighted ? ftt_cell_volume (cell)*a : 1.;
-
-    *sum += w*GFS_VARIABLE (cell, e->i);
-    *weight += w;
-  }
-}
-
-static void difference (FttCell * cell, gpointer * data)
-{
-  gint full = *((gint *) data[0]);
-  GfsNorm * norm = data[1];
-  gboolean * histogram = data[2];
-  gboolean * centered = data[3];
-  gboolean * weighted = data[4];
-  gdouble * constant = data[5];
-  gboolean * mixed = data[6];
-  GfsVariable * e = data[7];
-  gdouble a = GFS_IS_MIXED (cell) ? GFS_STATE (cell)->solid->a : 1.;
-
-  if ((!(*mixed) || a < 1.) &&
-      (full == -2 || 
-       (full == -1 && !GFS_IS_MIXED (cell)) ||
-       (full >= 0 && !is_mixed (cell, full))) &&
-      (!(*centered) || a >= 0.5)) {
-    gfs_norm_add (norm, GFS_VARIABLE (cell, e->i) - *constant,
-		  *weighted ? ftt_cell_volume (cell)*a : 1.);
-    if (*histogram)
-      printf ("%g %g\n", GFS_VARIABLE (cell, e->i), a);
-  }
-  else
-    GFS_VARIABLE (cell, e->i) = 0.;
-}
-
-static void compute_gradient (FttCell * cell, gpointer * data) 
-{
-  GfsVariable * v = data[0];
-  FttComponent * c = data[1];
-  GfsVariable * g = data[2];
-
-  GFS_VARIABLE (cell, g->i) = 
-    gfs_center_gradient (cell, *c, v->i)/ftt_cell_size (cell);
-}
-
-static void compute_log (FttCell * cell, GfsVariable * e) 
-{
-  GFS_VARIABLE (cell, e->i) = log10 (fabs (GFS_VARIABLE (cell, e->i)) + 1e-10);
-}
-
-static void compute_absolute (FttCell * cell, GfsVariable * e)
-{
-  GFS_VARIABLE (cell, e->i) =  fabs (GFS_VARIABLE (cell, e->i));
-}
-
-static void difference_centered (FttCell * cell, gpointer * data)
-{
-  GfsDomain * ref = data[0];
-  GfsVariable * v1 = data[1];
-  GfsVariable * v2 = data[2];
-  GfsVariable * e = data[3];
-  FttVector p;
-  FttCell * locate;
-
-  gfs_cell_cm (cell, &p);
-  locate = gfs_domain_locate (ref, p, -1, NULL);
-  if (locate == NULL || ftt_cell_level (locate) < ftt_cell_level (cell)) {
-    fprintf (stderr, "gfscompare: the files are not comparable\n");
-    exit (1);
-  }
-  GFS_VARIABLE (cell, e->i) = GFS_VARIABLE (cell, v1->i) - gfs_interpolate (locate, p, v2);
-}
-
-int main (int argc, char * argv[])
-{
-  GtsFile * fp;
-  FILE * f;
-  int c = 0;
-  gchar * name;
-  GfsVariable * var1, * var2, * e;
-  GfsSimulation * s1, * s2;
-  
-  gboolean verbose = FALSE;
-  gint full = -2;
-  gboolean no_check = FALSE;
-  gboolean output = FALSE;
-  gboolean squares = FALSE;
-  gboolean take_log = FALSE;
-  gchar * fname1, * fname2;
-  gdouble period = 0.;
-
-  FttComponent gradient = FTT_DIMENSION;
-
-  GfsNorm norm;
-  gpointer data[8];
-
-  gboolean refined_error = FALSE;
-  gboolean histogram = FALSE;
-  gboolean centered = FALSE;
-  gboolean weighted = TRUE;
-  gdouble constant = 0.;
-  gboolean absolute = FALSE;
-#if FTT_2D
-  gboolean gnuplot = FALSE;
-  gboolean triangulate = FALSE;
-#endif /* FTT_2D */
-  gdouble min = G_MAXDOUBLE, max = - G_MAXDOUBLE;
-  gboolean mixed = FALSE;
-
-  gfs_init (&argc, &argv);
-
-  /* parse options using getopt */
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-#if FTT_2D
-      {"gnuplot", no_argument, NULL, 'G'},
-      {"triangulate", no_argument, NULL, 't'},
-#endif /* FTT_2D */
-      {"mixed", no_argument, NULL, 'x'},
-      {"min", required_argument, NULL, 'm'},
-      {"max", required_argument, NULL, 'M'},
-      {"period", required_argument, NULL, 'p'},
-      {"histogram", no_argument, NULL, 'H'},
-      {"refined", no_argument, NULL, 'r'},
-      {"log", no_argument, NULL, 'l'},
-      {"abs", no_argument, NULL, 'a'},
-      {"full", required_argument, NULL, 'f'},
-      {"gradient", required_argument, NULL, 'g'},
-      {"output", no_argument, NULL, 'o'},
-      {"squares", no_argument, NULL, 'S'},
-      {"nocheck", no_argument, NULL, 'n'},
-      {"help", no_argument, NULL, 'h'},
-      {"verbose", no_argument, NULL, 'v'},
-      {"centered", no_argument, NULL, 'c'},
-      {"not-weighted", no_argument, NULL, 'w'},
-      {"constant", no_argument, NULL, 'C'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, "hvnog:f:lSrHp:cwCeaGm:M:xt",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, "hvnog:f:lSrHp:cwCeaGm:M:xt"))) {
-#endif /* not HAVE_GETOPT_LONG */
-#if FTT_2D
-    case 'G': /* gnuplot */
-      gnuplot = TRUE;
-      break;
-    case 't': /* triangulate */
-      triangulate = TRUE;
-      break;
-#endif /* FTT_2D */
-    case 'x': /* mixed */
-      mixed = TRUE;
-      break;
-    case 'm': /* min */
-      min = atof (optarg);
-      break;
-    case 'M': /* max */
-      max = atof (optarg);
-      break;
-    case 'a': /* abs */
-      absolute = TRUE;
-      break;
-    case 'C': /* constant */
-      constant = TRUE;
-      break;
-    case 'w': /* not-weighted */
-      weighted = FALSE;
-      break;
-    case 'c': /* centered */
-      centered = TRUE;
-      break;
-    case 'p': /* period */
-      period = atof (optarg);
-      break;
-    case 'H': /* histogram */
-      histogram = TRUE;
-      break;
-    case 'r': /* refined */
-      refined_error = TRUE;
-      break;
-    case 'l': /* log */
-      take_log = TRUE;
-      break;
-    case 'f': /* full */
-      full = atoi (optarg);
-      break;
-    case 'g': /* gradient */
-      gradient = atoi (optarg);
-      if (gradient >= FTT_DIMENSION) {
-	fprintf (stderr, 
-		 "gfscompare: invalid argument for option `gradient'.\n"
-		 "Try `gfscompare --help' for more information.\n");
-	return 1; /* failure */
-      }
-      break;
-    case 'S': /* squares */
-      squares = TRUE;
-      break;
-    case 'o': /* output */
-      output = TRUE;
-      break;
-    case 'n': /* nocheck */
-      no_check = TRUE;
-      break;
-    case 'v': /* verbose */
-      verbose = TRUE;
-      break;
-    case 'h': /* help */
-      fprintf (stderr,
-     "Usage: gfscompare [OPTION] FILE1 FILE2 VAR\n"
-     "Computes the difference between the solutions in FILE1 and FILE2\n"
-     "for variable VAR.\n"
-     "\n"
-     "  -x    --mixed       compute error only in mixed cells\n"
-     "  -m V  --min=V       set minimum of color scale to V (used with -S)\n"
-     "  -M V  --max=V       set maximum of color scale to V\n"
-     "  -a    --abs         output the absolute value of the error field\n"
-     "  -C    --constant    apply a constant shift to one of the field, minimizing\n"
-     "                      the error between the two fields (useful for pressure)\n"
-     "  -w    --not-weighted do not use area-weighted norm estimation\n"
-     "  -c    --centered    use error estimation for cell-centered variables\n"
-     "  -p P  --period=P    shifts FILE1 by P along the x axis\n"
-     "  -H    --histogram   output (error,volume) pairs for each cell used\n"
-     "                      to compute the error norms\n"
-     "  -o    --output      output a GTS representation of the error field\n"
-     "  -S    --squares     output an OOGL representation of the error field\n"
-#if FTT_2D
-     "  -G    --gnuplot     output a gnuplot representation of the error field\n"
-     "  -t    --triangulate use center of mass triangulation\n"
-#endif /* FTT_2D */
-     "  -l    --log         output the log10 of the absolute value of the error field\n"
-     "  -f L  --full=L      compare only leaf cells descendants of a cell full at level L\n"
-     "                      or all full leaf cells if L = -1\n"
-     "  -r    --refined     display error norm on the finest grid\n"
-     "  -n    --nocheck     do not check solid fractions\n"
-     "  -g C  --gradient=C  use the C component of the gradient of VAR\n"
-     "  -v    --verbose     display difference statistics and other info\n"
-     "  -h    --help        display this help and exit\n"
-     "\n"
-     "Reports bugs to %s\n",
-	       FTT_MAINTAINER);
-      return 0; /* success */
-      break;
-    case '?': /* wrong options */
-      fprintf (stderr, "Try `gfscompare --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-
-  if (optind >= argc) { /* missing FILE1 */  
-    fprintf (stderr, 
-	     "gfscompare: missing FILE1\n"
-	     "Try `gfscompare --help' for more information.\n");
-    return 1; /* failure */
-  }
-  fname1 = argv[optind++];
-
-  if (optind >= argc) { /* missing FILE2 */  
-    fprintf (stderr, 
-	     "gfscompare: missing FILE2\n"
-	     "Try `gfscompare --help' for more information.\n");
-    return 1; /* failure */
-  }
-  fname2 = argv[optind++];
-
-  if (optind >= argc) { /* missing VAR */  
-    fprintf (stderr, 
-	     "gfscompare: missing VAR\n"
-	     "Try `gfscompare --help' for more information.\n");
-    return 1; /* failure */
-  }
-  name = argv[optind++];
-
-  f = fopen (fname1, "rt");
-  if (f == NULL) {
-    fprintf (stderr, "gfscompare: cannot open file `%s'\n", fname1);
-    return 1;
-  }
-  fp = gts_file_new (f);
-  if (!(s1 = gfs_simulation_read (fp))) {
-    fprintf (stderr, 
-	     "gfscompare: file `%s' is not a valid simulation file\n"
-	     "%s:%d:%d: %s\n",
-	     fname1, fname1, fp->line, fp->pos, fp->error);
-    return 1;
-  }
-  gts_file_destroy (fp);
-  fclose (f);
-  gfs_simulation_init (s1);
-
-  f = fopen (fname2, "rt");
-  if (f == NULL) {
-    fprintf (stderr, "gfscompare: cannot open file `%s'\n", fname2);
-    return 1;
-  }
-  fp = gts_file_new (f);
-  if (!(s2 = gfs_simulation_read (fp))) {
-    fprintf (stderr, 
-	     "gfscompare: file `%s' is not a valid simulation file\n"
-	     "%s:%d:%d: %s\n",
-	     fname2, fname2, fp->line, fp->pos, fp->error);
-    return 1;
-  }
-  gts_file_destroy (fp);
-  fclose (f);
-  gfs_simulation_init (s2);
-
-  var1 = gfs_variable_from_name (GFS_DOMAIN (s1)->variables, name);
-  if (var1 == NULL) {
-    fprintf (stderr, 
-	     "gfscompare: unknown variable `%s' for `%s'\n"
-	     "Try `gfscompare --help' for more information.\n",
-	     name, fname1);
-    return 1; /* failure */
-  }
-
-  var2 = gfs_variable_from_name (GFS_DOMAIN (s2)->variables, name);
-  if (var2 == NULL) {
-    fprintf (stderr, 
-	     "gfscompare: unknown variable `%s' for `%s'\n"
-	     "Try `gfscompare --help' for more information.\n",
-	     name, fname2);
-    return 1; /* failure */
-  }
-
-  if (verbose) {
-    GtsRange s;
-
-    norm = gfs_domain_norm_variable (GFS_DOMAIN (s1),
-				     var1, NULL, FTT_TRAVERSE_LEAFS, -1);
-    s = gfs_domain_stats_variable (GFS_DOMAIN (s1),
-				   var1, FTT_TRAVERSE_LEAFS, -1);
-    fprintf (stderr, 
-	     "%s:\n"
-	     "  first: %g second: %g infty: %g w: %g\n"
-	     "  min: %g avg: %g | %g max: %g\n",
-	     fname1, 
-	     norm.first, norm.second, norm.infty, norm.w,
-	     s.min, s.mean, s.stddev, s.max);
-    norm = gfs_domain_norm_variable (GFS_DOMAIN (s2),
-				     var2, NULL, FTT_TRAVERSE_LEAFS, -1);
-    s = gfs_domain_stats_variable (GFS_DOMAIN (s2),
-				   var2, FTT_TRAVERSE_LEAFS, -1);
-    fprintf (stderr, 
-	     "%s:\n"
-	     "  first: %g second: %g infty: %g w: %g\n"
-	     "  min: %g avg: %g | %g max: %g\n",
-	     fname2, 
-	     norm.first, norm.second, norm.infty, norm.w,
-	     s.min, s.mean, s.stddev, s.max);
-  }
-
-  if (gradient < FTT_DIMENSION) {
-    gpointer data[3];
-    GfsVariable * g1 = gfs_temporary_variable (GFS_DOMAIN (s1));
-    GfsVariable * g2 = gfs_temporary_variable (GFS_DOMAIN (s2));
-
-    data[0] = var1;
-    data[1] = &gradient;
-    data[2] = g1;
-    gfs_domain_cell_traverse (GFS_DOMAIN (s1), 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) compute_gradient, data);
-    data[0] = var2;
-    data[2] = g2;
-    gfs_domain_cell_traverse (GFS_DOMAIN (s2), 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) compute_gradient, data);
-    var1 = g1;
-    var2 = g2;
-  }
-
-  data[0] = s2;
-  data[1] = var1;
-  data[2] = var2;
-  data[3] = e = gfs_temporary_variable (GFS_DOMAIN (s1));
-  if (centered)
-    gfs_domain_cell_traverse (GFS_DOMAIN (s1), 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) difference_centered, data);
-#if FTT_2D
-  else if (triangulate) {
-    GtsSurface * ss1, * ss2;
-    gpointer data[4];
-
-    gfs_clock_start (GFS_DOMAIN (s1)->timer);
-    gfs_clock_start (GFS_DOMAIN (s2)->timer);
-    gfs_simulation_refine (s1);
-    gfs_simulation_refine (s2);
-    gfs_set_merged (GFS_DOMAIN (s1));
-    gfs_set_merged (GFS_DOMAIN (s2));
-    gfs_clock_stop (GFS_DOMAIN (s1)->timer);
-    gfs_clock_stop (GFS_DOMAIN (s2)->timer);
-    ss1 = surface_from_domain (GFS_DOMAIN (s1));
-    ss2 = surface_from_domain (GFS_DOMAIN (s2));
-    data[0] = ss2;
-    data[1] = var1;
-    data[2] = var2;
-    data[3] = e;
-    gts_surface_foreach_vertex (ss1, (GtsFunc) difference_triangulated, data);
-  }
-#endif /* FTT_2D */
-  else {
-    gfs_domain_cell_traverse (GFS_DOMAIN (s1), 
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_get_from_below_intensive, var1);
-    gfs_domain_cell_traverse (GFS_DOMAIN (s2), 
-			      FTT_POST_ORDER, FTT_TRAVERSE_NON_LEAFS, -1,
-			      (FttCellTraverseFunc) gfs_get_from_below_intensive, var2);
-    data[4] = &period;
-    gts_container_foreach (GTS_CONTAINER (s1), (GtsFunc) difference_box, data);
-  }
-
-  data[0] = &full;
-  data[2] = &histogram;
-  data[3] = &centered;
-  data[4] = &weighted;
-  if (constant) {
-    gdouble sum = 0., weight = 0.;
-
-    data[1] = &sum;
-    data[5] = &weight;
-    data[6] = e;
-    gfs_domain_cell_traverse (GFS_DOMAIN (s1), 
-			      FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			      (FttCellTraverseFunc) difference_constant, data);
-    constant = weight > 0. ? sum/weight : 0.;
-  }
-  
-  gfs_norm_init (&norm);
-  data[1] = &norm;
-  data[5] = &constant;
-  data[6] = &mixed;
-  data[7] = e;
-  gfs_domain_cell_traverse (GFS_DOMAIN (s1), 
-			    FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			    (FttCellTraverseFunc) difference, data);
-  gfs_norm_update (&norm);
-  if (verbose) {
-    fprintf (stderr, 
-	  "total err first: %10.3e second: %10.3e infty: %10.3e w: %g\n",
-	     norm.first, norm.second, norm.infty, norm.w);
-    if (refined_error) {
-      norm = gfs_domain_norm_variable (GFS_DOMAIN (s1),
-				       e, NULL, FTT_TRAVERSE_LEVEL,
-				       gfs_domain_depth (GFS_DOMAIN (s1)));
-      fprintf (stderr, 
-	  "refined err first: %10.3e second: %10.3e infty: %10.3e w: %g\n",
-	       norm.first, norm.second, norm.infty, norm.w);
-    }
-  }
-
-  if (output ||
-#if FTT_2D
-      gnuplot ||
-#endif /* FTT_2D */
-      squares) {
-    if (take_log)
-      gfs_domain_cell_traverse (GFS_DOMAIN (s1), 
-			       FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			       (FttCellTraverseFunc) compute_log, e);
-    else if (absolute)
-      gfs_domain_cell_traverse (GFS_DOMAIN (s1), 
-			       FTT_PRE_ORDER, FTT_TRAVERSE_LEAFS, -1,
-			       (FttCellTraverseFunc) compute_absolute, e);
-    if (squares) {
-      GtsRange stats = gfs_domain_stats_variable (GFS_DOMAIN (s1), e, FTT_TRAVERSE_LEAFS, -1);
-
-      gfs_write_squares (GFS_DOMAIN (s1), e, 
-			 min < G_MAXDOUBLE ? min : stats.min, 
-			 max > - G_MAXDOUBLE ? max : stats.max,
-			 FTT_TRAVERSE_LEAFS, -1, 
-			 NULL, stdout);
-    }
-#if FTT_2D
-    else if (gnuplot)
-      gfs_write_gnuplot (GFS_DOMAIN (s1), e,
-			 FTT_TRAVERSE_LEAFS, -1, 
-			 NULL, stdout);
-#endif /* FTT_2D */
-    else
-	gfs_write_gts (GFS_DOMAIN (s1), e, FTT_TRAVERSE_LEAFS, -1, NULL, stdout);
-  }
-
-  return 0;
-}
diff --git a/tools/gfsjoin b/tools/gfsjoin
deleted file mode 100755
index 446d616..0000000
--- a/tools/gfsjoin
+++ /dev/null
@@ -1,195 +0,0 @@
-#!/bin/bash
-# script to join gerris output files in parallel simulations
-
-
-help ()
-{
-    echo ""
-    echo "Usage: gfsjoin Simfile Directory Rootname NP Tailname > Joined"
-    echo ""
-    echo "Simfile:        Name of the simulation file"
-    echo "Directory:      Directory where results are located"
-    echo "Rootname:       File root name"
-    echo "NP:             Number of processors"
-    echo "Tailname:       File tail name"
-    echo ""
-    exit
-}
-
-#verbose=1
-
-message ()
-{
-    if test $verbose; then
-	echo $1 > /dev/stdout
-    fi
-}
-
-errmessage ()
-{
-        echo $1 > /dev/stderr
-}
-
-
-#------------------------------------------------------------------------------
-
-#checking input
-if [ $# -ne 5 ]; then
-   if [ $1 == '-h' ]; then
-       help
-   else
-        errmessage "Input error, this command requires 5 arguments"
-        errmessage "Type gfsjoin -h for more info"
-   fi
-exit
-fi
-
-# removing all blanks and tabs immediately before the end of line.
-# Comments are also removed to avoid errors
-tmp=`mktemp -d`
-sed -e 's/#.*//' -e 's/[ ^I]*$//' -e '/^$/ d' $1 | sed '/^#/ d'  > $tmp/sim.tmp
-
-c1=$3
-c2=$5
-c3="$tmp/sim.tmp"
-numproc=$4
-dir=$2
-
-# checking operations
-y=`expr ${#c2} - 2`
-tailst=`expr substr $c2 $y 3`
-
-if [ $tailst == 'gfs' ]; then
-   compress=0
-else
-        if [ $tailst == '.gz' ]; then
-          compress=1
-          c2=`expr substr $c2 1 $[$y-1]`
-        else
-          errmessage "Your simulation file has not a valid extension ("$tailst")"
-          errmessage "The correct file extensions are either .gfs or .gz"
-          exit
-        fi
-fi
-
-p1=$(awk '/GfsSimulation/ {print $1}' $c3)
-p2=$(awk '/GfsSimulation/ {print $2}' $c3)
-
-i=1
-if [ $compress -eq 1 ]; then
-while [ $i -le $numproc ]; do
-    gunzip -q ${dir}'/'$c1$[$i-1]$c2
-    i=$[$i+1]
-done
-fi
-
-message 'Creating output................'
-
-# Variables to handle the files names
-i=0
-while [ $i -lt $numproc ]; do
-    mainfile[$i]=${dir}'/'$c1$i$c2
-    message "${mainfile[$i]}"
-    i=$[$i+1]
-done
-
-# Copying the first two lines of the simulation file
-head -2 ${mainfile[0]} > $tmp/tmp.tmp
-# Inserting the correct number of boxes and connections
-sed -e '/GfsSimulation/ s/[0-9]*/'$p1'/1' -e '/GfsSimulation/s/[0-9]*/'$p2'/2' $tmp/tmp.tmp
-
-# Copying solid file (if any)
-sed -n '/SurfaceFile/ p' $c3
-
-# The first two lines are removed because they have useless information.
-# As I have already inserted the solid, this information is also removed from the files
-i=0
-while [ $i -lt $numproc ]; do
-    nend=$(echo -n $(sed -n '/GtsSurface/,/Gfs/ p' ${mainfile[$i]} | tail -1 | awk '{print $1}' ))
-    nend=$(echo -n $(awk '$1 ~ /'$nend'/ {print NR}' ${mainfile[$i]} | head -1 ))
-    nend=$[$nend+0]
-    if [ $nend -ne 0 ]; then
-	sed -e '1,2 d' -e '/GtsSurface/,'$[$nend-1]' d' ${mainfile[$i]} > $tmp/tmpfile$i
-    else
-	more +3 ${mainfile[$i]} > $tmp/tmpfile$i
-    fi
-    i=$[$i+1]
-done
-
-#Taking the initial common arguments
-sed -n '1,/GfsBox/p' $tmp/tmpfile0 | sed '$ d' 
-
-# Creating temporal file with all the boxes (sed is used to remove the 
-# local connectivities in case they will be equal)
-# boxes in proc 0
-(sed -n '/GfsBox/,$p' $tmp/tmpfile0 | awk '
-BEGIN{}
-{
-condition1 = ( $3 == "right" || $3 == "left" || $3 == "top" || $3 == "bottom" || $3 == "front" || $3 == "back" )
-if(!(NF == 3 && condition1)) {print $0}
-}
-END{}') > $tmp/tmp.tmp
-
-# the rest of boxes
-i=1
-while [ $i -lt $numproc ]; do
-    (sed -n '/GfsBox/,$p' $tmp/tmpfile$i | awk '
-BEGIN{}
-{
-condition1= ( $3 == "right" || $3 == "left" || $3 == "top" || $3 == "bottom" || $3 == "front" || $3 == "back" )
-if(!(NF == 3 && condition1)) {print $0}
-}
-END{}') >> $tmp/tmp.tmp
-    i=$[$i+1]
-done
-
-message
-message "IMPORTANT: This script assumes that the \"id\" is in correlative order in your simulation file (not the pid)"
-message
-
-awk '$1 ~ /GfsBox/ && /id =/ {print $0}' $tmp/tmp.tmp | \
-    awk 'BEGIN{}
-     { i = 0
-       do {
-           i++
-       } while ( $i !~ /^id/ )
-        print $(i+2)
-}
-END{}' > $tmp/tmp.tmp2
-
-# The last box in the temporal file is:
-lastid=$(tail -1 $tmp/tmp.tmp2)
-# And the total number of boxes:
-numboxes=$(wc -l $tmp/tmp.tmp2 | awk '{print $1}')
-
-message "Putting boxes in order in the final file"
-# Boxes are pasted in the final file in order (it is assumed to be sequential)
-i=1
-while [ $i -le $numboxes ]; do
-    if [ $i -ne $lastid ]; then
-	message -n "$i ,"
-        n0=$(awk '{if($1 == '$i') {print NR}}' $tmp/tmp.tmp2)
-        n1=$(awk 'FNR == '$[$n0+1]' {print $1}' $tmp/tmp.tmp2)
-        # Taking the lines of this range (the last line is removed
-	# because it corresponds to the next box)
-        (awk '/id = '$i' pid/,/id = '$n1' pid/ {print $0}' $tmp/tmp.tmp | head -n -1)
-        i=$[$i+1]
-    else
-	message -n "$i ,"
-        nf=$(awk '$1 ~ /GfsBox/ && $5 == '$i' && $3 ~ /id/ {print NR}' $tmp/tmp.tmp)
-        more +$nf $tmp/tmp.tmp
-        i=$[$i+1]
-    fi
-done
-
-# Copying the global conectivities
-tail -n $p2 $c3
-
-message
-message
-if [ $compress -eq 1 ]; then
-	message 'compressing files again'
-	gzip -f -q ${dir}'/'${c1}*'.gfs'
-fi
-
-rm -rf $tmp
diff --git a/tools/gfsjoin2.c b/tools/gfsjoin2.c
deleted file mode 100644
index 12bbabc..0000000
--- a/tools/gfsjoin2.c
+++ /dev/null
@@ -1,187 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001-2009 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-
-#include "init.h"
-#include "simulation.h"
-
-#ifdef HAVE_MPI
-# include <mpi.h>
-# include "mpi_boundary.h"
-#endif /* HAVE_MPI */
-
-static void add_box (GfsBox * box, GfsSimulation * sim)
-{
-  gts_container_add (GTS_CONTAINER (sim), GTS_CONTAINEE (box));
-}
-
-static void add_id (GfsBox * box, GPtrArray * ids)
-{
-  if (box->id > ids->len)
-    g_ptr_array_set_size (ids, box->id);
-  g_ptr_array_index (ids, box->id - 1) = box;
-}
-
-static void convert_boundary_mpi_into_edges (GfsBox * box, GPtrArray * ids)
-{
-#ifdef HAVE_MPI
-  FttDirection d;
-
-  for (d = 0; d < FTT_NEIGHBORS; d++)
-    if (GFS_IS_BOUNDARY_MPI (box->neighbor[d])) {
-      GfsBoundaryMpi * b = GFS_BOUNDARY_MPI (box->neighbor[d]);
-      if (b->id < 0) {
-	fprintf (stderr, 
-		 "gfsjoin: id < 0, you maybe trying to join old parallel simulation files\n");
-	exit (1);
-      }
-      GfsBox * nbox = g_ptr_array_index (ids, b->id - 1);
-      if (nbox) {
-	if (nbox->pid != b->process) {
-	  fprintf (stderr, "gfsjoin: inconsistent MPI boundary: pid = %d, nbox->pid = %d\n",
-		   b->process, nbox->pid);
-	  exit (1);
-	}
-	if (!GFS_IS_BOUNDARY_MPI (nbox->neighbor[FTT_OPPOSITE_DIRECTION (d)])) {
-	  fprintf (stderr, "gfsjoin: inconsistent MPI boundary: nbox[%d] is not an MPI boundary\n",
-		   FTT_OPPOSITE_DIRECTION (d));
-	  exit (1);
-	}
-	GfsBoundaryMpi * nb = GFS_BOUNDARY_MPI (nbox->neighbor[FTT_OPPOSITE_DIRECTION (d)]);
-	if (box->pid != nb->process || box->id != nb->id) {
-	  fprintf (stderr, "gfsjoin: inconsistent MPI boundary\n"
-		   "box->pid != nb->process || box->id != nb->id\n");
-	  exit (1);
-	}
-	gts_object_destroy (GTS_OBJECT (b));
-	gts_object_destroy (GTS_OBJECT (nb));
-	gfs_gedge_new (gfs_gedge_class (), box, nbox, d);
-      }
-    }
-#endif /* HAVE_MPI */
-}
-
-int main (int argc, char * argv[])
-{
-  int c = 0;
-  gboolean verbose = FALSE, keep = FALSE;
-
-  gfs_init (&argc, &argv);
-
-  /* parse options using getopt */
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-      {"keep", no_argument, NULL, 'k'},
-      {"help", no_argument, NULL, 'h'},
-      {"verbose", no_argument, NULL, 'v'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, 
-			      "hvk",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, 
-			 "hvk"))) {
-#endif /* not HAVE_GETOPT_LONG */
-    case 'k': /* keep */
-      keep = TRUE;
-      break;
-    case 'v': /* verbose */
-      verbose = TRUE;
-      break;
-    case 'h': /* help */
-      fprintf (stderr,
-	       "Usage: gfsjoin [OPTION] NAME1 NAME2... > JOINED\n"
-	       "Joins several parallel Gerris simulation files\n"
-	       "\n"
-	       "  -k      --keep        keep MPI boundaries\n"
-	       "  -v      --verbose     display statistics and other info\n"
-	       "  -h      --help        display this help and exit\n"
-	       "\n"
-	       "Reports bugs to %s\n",
-	       FTT_MAINTAINER);
-      return 0; /* success */
-      break;
-    case '?': /* wrong options */
-      fprintf (stderr, "Try `gfsjoin --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-
-#ifndef HAVE_MPI
-  fprintf (stderr, 
-	   "gfsjoin: only works for MPI version of Gerris\n"
-	   "Try `gfsjoin --help' for more information.\n");
-  return 1; /* failure */
-#endif
-
-  if (optind >= argc) { /* missing NAME */
-    fprintf (stderr, 
-	     "gfsjoin: missing NAME\n"
-	     "Try `gfsjoin --help' for more information.\n");
-    return 1; /* failure */
-  }
-
-  GfsSimulation ** sim = g_malloc (sizeof (GfsSimulation *)*(argc - optind));
-  for (c = optind; c < argc; c++) {
-    FILE * fptr = fopen (argv[c], "r");
-    if (fptr == NULL) {
-      fprintf (stderr, "gfsjoin: cannot open file `%s'\n", argv[c]);
-      return 1; /* failure */
-    }
-    GtsFile * fp = gts_file_new (fptr);    
-    if (!(sim[c - optind] = gfs_simulation_read (fp))) {
-      fprintf (stderr, 
-	       "gfsjoin: file `%s' is not a valid simulation file\n"
-	       "%s:%d:%d: %s\n",
-	       argv[c], argv[c], fp->line, fp->pos, fp->error);
-      return 1;
-    }
-    if (verbose)
-      fprintf (stderr, "%s: %d box(es), %d cells\n", argv[c],
-	       gts_container_size (GTS_CONTAINER (sim[c - optind])),
-	       gfs_domain_size (GFS_DOMAIN (sim[c - optind]), FTT_TRAVERSE_LEAFS, -1));
-  }
-
-  /* Add all boxes to first simulation */
-  for (c = 1; c < argc - optind; c++)
-    gts_container_foreach (GTS_CONTAINER (sim[c]), (GtsFunc) add_box, sim[0]);
-
-  if (!keep) {
-    /* Create array for fast linking of ids to GfsBox pointers */
-    GPtrArray * ids = g_ptr_array_new ();
-    gts_container_foreach (GTS_CONTAINER (sim[0]), (GtsFunc) add_id, ids);
-    
-    /* Convert GfsBoundaryMpi into graph edges */
-    gts_container_foreach (GTS_CONTAINER (sim[0]), (GtsFunc) convert_boundary_mpi_into_edges, ids);
-
-    g_ptr_array_free (ids, TRUE);
-  }
-
-  gfs_simulation_write (sim[0], -1, stdout);
-
-  return 0;
-}
diff --git a/tools/ppm2mpeg b/tools/ppm2mpeg
deleted file mode 100755
index 6e47045..0000000
--- a/tools/ppm2mpeg
+++ /dev/null
@@ -1,28 +0,0 @@
-#!/bin/bash
-
-if test -z "`which ffmpeg`"; then
-    echo "ppm2mpeg: error: could not find 'ffmpeg'" > /dev/stderr
-    exit 1
-fi
-
-command="ffmpeg -f image2pipe -vcodec ppm -i - -vcodec mpeg1video -b 1800K -f mpeg1video"
-while test $# -gt 0; do
-    command="$command $1"
-    shift
-done
-
-if test -d "$TMPDIR" ; then
-  log=`mktemp $TMPDIR/ppm2mpeg.XXXXXX`
-else
-  log=`mktemp /tmp/ppm2mpeg.XXXXXX`
-fi
-
-if $command - 2> $log; then :
-else
-    cat $log > /dev/stderr
-    rm -f $log
-    exit 1
-fi
-rm -f $log
-
-exit 0
diff --git a/tools/ppm2theora b/tools/ppm2theora
deleted file mode 100755
index 9e8e14d..0000000
--- a/tools/ppm2theora
+++ /dev/null
@@ -1,29 +0,0 @@
-#!/bin/bash
-
-if test -z "`which ffmpeg2theora`"; then
-    echo "ppm2theora: error: could not find 'ffmpeg2theora'" > /dev/stderr
-    exit 1
-fi
-
-# command="ffmpeg -f image2pipe -vcodec ppm -i - -f avi -vcodec libtheora -vb 1800K"
-command="ffmpeg2theora -f image2pipe pipe:.ppm -K 8 -v 10 --artist Gerris -o /dev/stdout"
-while test $# -gt 0; do
-    command="$command $1"
-    shift
-done
-
-if test -d "$TMPDIR" ; then
-  log=`mktemp $TMPDIR/ppm2theora.XXXXXX`
-else
-  log=`mktemp /tmp/ppm2theora.XXXXXX`
-fi
-
-if $command 2> $log; then :
-else
-    cat $log > /dev/stderr
-    rm -f $log
-    exit 1
-fi
-rm -f $log
-
-exit 0
diff --git a/tools/ppm2video b/tools/ppm2video
deleted file mode 100755
index 140505b..0000000
--- a/tools/ppm2video
+++ /dev/null
@@ -1,28 +0,0 @@
-#!/bin/bash
-
-if test -z "`which ffmpeg`"; then
-    echo "ppm2video: error: could not find 'ffmpeg'" > /dev/stderr
-    exit 1
-fi
-
-command="ffmpeg -f image2pipe -vcodec ppm -i -"
-while test $# -gt 0; do
-    command="$command $1"
-    shift
-done
-
-if test -d "$TMPDIR" ; then
-  log=`mktemp $TMPDIR/ppm2video.XXXXXX`
-else
-  log=`mktemp /tmp/ppm2video.XXXXXX`
-fi
-
-if $command 2> $log; then :
-else
-    cat $log > /dev/stderr
-    rm -f $log
-    exit 1
-fi
-rm -f $log
-
-exit 0
diff --git a/tools/ppmcombine.c b/tools/ppmcombine.c
deleted file mode 100644
index ee97343..0000000
--- a/tools/ppmcombine.c
+++ /dev/null
@@ -1,91 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include <stdlib.h>
-#include <string.h>
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-#ifdef HAVE_UNISTD_H
-#  include <unistd.h>
-#endif /* HAVE_UNISTD_H */
-
-#include "graphic.h"
-
-int main (int argc, char * argv[])
-{
-  int c = 0;
-  gboolean verbose = FALSE;
-
-  /* parse options using getopt */
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-      {"help", no_argument, NULL, 'h'},
-      {"verbose", no_argument, NULL, 'v'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, "hv",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, "hv"))) {
-#endif /* not HAVE_GETOPT_LONG */
-    case 'v': /* verbose */
-      verbose = TRUE;
-      break;
-    case 'h': /* help */
-      fprintf (stderr,
-     "Usage: ppmcombine [OPTION] FILE1 FILE2...\n"
-     "Combines several PPM files produced by a parallel run of Gerris.\n"
-     "\n"
-     "  -v      --verbose     display statistics and other info\n"
-     "  -h      --help        display this help and exit\n"
-     "\n"
-     "Reports bugs to %s\n",
-	       FTT_MAINTAINER);
-      return 0; /* success */
-      break;
-    case '?': /* wrong options */
-      fprintf (stderr, "Try `ppmcombine --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-
-  if (optind >= argc) {
-    fprintf (stderr, 
-	     "ppmcombine: missing FILE1\n"
-	     "Try `ppmcombine --help' for more information.\n");
-    return 1; /* failure */
-  }
-
-#if FTT_2D
-  c = gfs_combine_ppm (&argv[optind], argc - optind, stdout);
-  if (c >= 0) {
-    fprintf (stderr,
-	     "ppmcombine: format error in file `%s'\n",
-	     argv[optind + c]);
-    return 1; /* failure */
-  }
-#endif /* 2D only */
-
-  return 0;
-}
diff --git a/tools/shapes.c b/tools/shapes.c
deleted file mode 100644
index d8f725e..0000000
--- a/tools/shapes.c
+++ /dev/null
@@ -1,581 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <stdlib.h>
-#include <string.h>
-#include <math.h>
-#include <gts.h>
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-#ifdef HAVE_UNISTD_H
-#  include <unistd.h>
-#endif /* HAVE_UNISTD_H */
-
-#ifndef PI
-# define PI 3.14159265359
-#endif
-
-static GtsSurface * triangulate (GSList * vertices,
-				 GSList * constraints)
-{
-  GtsVertex * v1, * v2, * v3;
-  GtsSurface * s;
-  GSList * i;
-
-  v1 = gts_vertex_new (gts_vertex_class (), -1e10, -1e10, 0.);
-  v2 = gts_vertex_new (gts_vertex_class (), 1e10, -1e10, 0.);
-  v3 = gts_vertex_new (gts_vertex_class (), 0., 1e10, 0.);
-  s = gts_surface_new (gts_surface_class (), 
-		       gts_face_class (),
-		       gts_edge_class (),
-		       gts_vertex_class ());
-  gts_surface_add_face (s, gts_face_new (gts_face_class (), 
-				gts_edge_new (gts_edge_class (), v1, v2),
-				gts_edge_new (gts_edge_class (), v2, v3),
-				gts_edge_new (gts_edge_class (), v3, v1)));
-  i = vertices;
-  while (i) {
-    if (gts_delaunay_add_vertex (s, i->data, NULL) != NULL) {
-      gts_object_destroy (GTS_OBJECT (s));
-      return NULL;
-    }
-    i = i->next;
-  }
-  
-  i = constraints;
-  while (i) {
-    if (gts_delaunay_add_constraint (s, i->data) != NULL) {
-      gts_object_destroy (GTS_OBJECT (s));
-      return NULL;
-    }
-    i = i->next;
-  }
-  
-  gts_delaunay_remove_hull (s);
-
-  return s;
-}
-
-static GSList * contour (GSList * i, GtsSurface * s, 
-			 gdouble z, gboolean closed)
-{
-  GSList * edges = NULL;
-  GtsVertex * vold = NULL, * vin = NULL;
-
-  if (i == NULL || i->next == NULL)
-    return NULL;
-
-  while (i) {
-    GtsPoint * p = i->data;
-    GtsVertex * v;
-
-    v = gts_vertex_new (s->vertex_class, p->x, p->y, z);
-    if (vold)
-      edges = g_slist_prepend (edges, 
-	  gts_edge_new (GTS_EDGE_CLASS (gts_constraint_class ()), v, vold));
-    else
-      vin = v;
-    vold = v;
-    i = i->next;
-  }
-  if (closed)
-    edges = g_slist_prepend (edges, 
-	  gts_edge_new (GTS_EDGE_CLASS (gts_constraint_class ()), vin, vold));
-  return edges;
-}
-
-static void surface_add_shape (GtsSurface * s, 
-			       GSList * shape,
-			       gdouble z1,
-			       gdouble z2,
-			       guint nz,
-			       gboolean closed,
-			       gboolean ends)
-{
-  gdouble z, dz = (z2 - z1)/nz;
-  guint i;
-  GSList * bottom = NULL, * e1 = NULL, * e2 = NULL;
-
-  for (i = 0, z = z1; i <= nz; i++, z += dz) {
-    if (e1 == NULL)
-      bottom = e1 = contour (shape, s, z, closed);
-    else {
-      GSList * i, * j;
-      GtsEdge * eold = NULL, * ein = NULL;
-
-      e2 = contour (shape, s, z, closed);
-      i = e1; j = e2;
-      while (i && j) {
-	GtsEdge * e;
-	GtsEdge * ee = gts_edge_new (gts_edge_class (),
-				     GTS_SEGMENT (i->data)->v2,
-				     GTS_SEGMENT (j->data)->v1);
-
-	if (!closed || i->next != NULL)
-	  e = gts_edge_new (gts_edge_class (),
-			    GTS_SEGMENT (i->data)->v2,
-			    GTS_SEGMENT (j->data)->v2);
-	else
-	  e = ein;
-	if (eold == NULL)
-	  eold = ein = gts_edge_new (gts_edge_class (), 
-				     GTS_SEGMENT (i->data)->v1,
-				     GTS_SEGMENT (j->data)->v1);
-	gts_surface_add_face (s, gts_face_new (s->face_class, 
-					       i->data, eold, ee));
-	gts_surface_add_face (s, gts_face_new (s->face_class, 
-					       e, ee, j->data));
-	eold = e;
-	i = i->next; 
-	j = j->next;
-      }
-      if (e1 != bottom) g_slist_free (e1);
-      e1 = e2;
-    }
-  }
-
-  if (ends) {
-    GSList * vertices1 = gts_vertices_from_segments (bottom);
-    GSList * vertices2 = gts_vertices_from_segments (e1);
-    GtsSurface * s1 = triangulate (vertices1, bottom);
-    GtsSurface * s2 = triangulate (vertices2, e1);
-
-    if (s1 == NULL || s2 == NULL) {
-      GSList * i = shape;
-
-      while (i) {
-	fprintf (stderr, "%g %g\n", 
-		 GTS_POINT (i->data)->x, 
-		 GTS_POINT (i->data)->y); 
-	i = i->next;
-      }
-      fprintf (stderr, "\n");
-      if (s1) gts_object_destroy (GTS_OBJECT (s1));
-      if (s2) gts_object_destroy (GTS_OBJECT (s2));
-    }
-    else {
-      gts_surface_foreach_face (s2, (GtsFunc) gts_triangle_revert, NULL);
-      
-      gts_surface_merge (s, s1);
-      gts_surface_merge (s, s2);
-    
-      gts_object_destroy (GTS_OBJECT (s1));
-      gts_object_destroy (GTS_OBJECT (s2));
-    }
-    g_slist_free (vertices1);
-    g_slist_free (vertices2);
-  }
-
-  g_slist_free (bottom);
-  g_slist_free (e1);
-}
-
-static void surface_add_ellipse_shape (GtsSurface * s,
-				       gdouble x, gdouble y,
-				       gdouble radius,
-				       gdouble theta,
-				       gdouble thetamax,
-				       gdouble e,
-				       gdouble z1, gdouble z2,
-				       guint np,
-				       gboolean closed)
-{
-  GSList * shape = NULL;
-  guint i, npm = np;
-
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (np >= 3);
-
-  if (thetamax < 2.*PI)
-    npm = np + 1;
-  for (i = 0; i < npm; i++) {
-    gdouble theta1 = theta + i*thetamax/(gdouble) np;
-    shape = g_slist_prepend (shape, 
-			     gts_point_new (gts_point_class (),
-					    x + radius*e*cos (theta1),
-					    y + radius/e*sin (theta1),
-					    0.));
-  }
-  surface_add_shape (s, shape, z1, z2, 10, TRUE, closed);
-  g_slist_free (shape);
-}
-
-static void surface_add_star_shape (GtsSurface * s,
-				    gdouble dr,
-				    gdouble z1, gdouble z2,
-				    guint np,
-				    gboolean closed)
-{
-  GSList * shape = NULL;
-  guint i;
-
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (np >= 3);
-
-  for (i = 0; i < np; i++) {
-    gdouble theta = .001 + 2.*i*PI/np;
-    gdouble radius = 0.45 - dr + dr*cos (6.*theta);
-
-    shape = g_slist_prepend (shape, 
-			     gts_point_new (gts_point_class (),
-					    radius*cos (theta),
-					    radius*sin (theta),
-					    0.));
-  }
-  surface_add_shape (s, shape, z1, z2, 10, TRUE, closed);
-  g_slist_free (shape);
-}
-
-static gdouble shape_func_bottom (gdouble x)
-{
-  gdouble y1 = 0.2/4.;
-  gdouble y2 = 1e-6/4.;
-
-  if (x <= -0.25)
-    return y1;
-  if (x < 0.25)
-    return y2 + 0.5*(y1 - y2)*(1. + cos (2.*PI*(x + 0.25)));
-  return y2;
-}
-
-static void surface_add_channel_shape (GtsSurface * s,
-				       gdouble z1, gdouble z2,
-				       guint np,
-				       gboolean closed)
-{
-  GSList * shape = NULL;
-  gint i;
-
-  g_return_if_fail (s != NULL);
-
-  for (i = np - 1; i >= 0; i--) {
-    gdouble x = - 0.501 + 1.002*(gdouble) i/(gdouble) (np - 1);
-    gdouble y = shape_func_bottom (x) - 0.125;
-
-    shape = g_slist_prepend (shape, 
-			     gts_point_new (gts_point_class (), x, y, 0.));
-  }
-  for (i = 0; i < np; i++) {
-    gdouble x = - 0.501 + 1.002*(gdouble) i/(gdouble) (np - 1);
-    gdouble y = 0.25 - shape_func_bottom (x) - 0.125;
-
-    shape = g_slist_prepend (shape, 
-			     gts_point_new (gts_point_class (), x, y, 0.));
-  }
-  shape = g_slist_reverse (shape);
-  surface_add_shape (s, shape, z1, z2, 10, TRUE, closed);
-  g_slist_free (shape);
-}
-
-static void surface_add_rectangular_channel_shape (GtsSurface * s,
-						   gdouble z1, gdouble z2,
-						   gboolean closed)
-{
-  GSList * shape = NULL;
-
-  g_return_if_fail (s != NULL);
-
-  shape = g_slist_prepend (shape, 
-		  gts_point_new (gts_point_class (), -0.5001, -0.125001, 0.));
-  shape = g_slist_prepend (shape, 
-		  gts_point_new (gts_point_class (), -0.5001,  0.125001, 0.));
-  shape = g_slist_prepend (shape, 
-		  gts_point_new (gts_point_class (),  0.5001, 0.125001, 0.));
-  shape = g_slist_prepend (shape, 
-		  gts_point_new (gts_point_class (),  0.5001, -0.125001, 0.));
-  surface_add_shape (s, shape, z1, z2, 10, TRUE, closed);
-  g_slist_free (shape);
-}
-
-static void surface_add_witch_shape (GtsSurface * s,
-				     gdouble xo, gdouble h, gdouble lh,
-				     gdouble z1, gdouble z2,
-				     guint np)
-{
-  GSList * shape = NULL;
-  guint i;
-
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (np >= 2);
-  g_return_if_fail (lh > 0.);
-
-  shape = g_slist_prepend (shape, 
-			   gts_point_new (gts_point_class (),
-					  -0.5001, -0.5002, 0.));
-  for (i = 0; i < np; i++) {
-    gdouble x = -0.5001 + 1.0002*i/(gdouble) (np - 1);
-
-    shape = g_slist_prepend (shape, 
-			     gts_point_new (gts_point_class (),
-					    x,
-				 h/(1. + (x - xo)*(x - xo)/(lh*lh)) - 0.5001,
-					    0.));
-  }
-  shape = g_slist_prepend (shape, 
-			   gts_point_new (gts_point_class (),
-					  0.5001, -0.5002, 0.));
-  shape = g_slist_reverse (shape);
-  surface_add_shape (s, shape, z1, z2, 10, TRUE, TRUE);
-  g_slist_free (shape);
-}
-
-static void surface_add_rayleigh_taylor_shape (GtsSurface * s,
-					       gdouble yo, gdouble a,
-					       gdouble z1, gdouble z2,
-					       guint np)
-{
-  GSList * shape = NULL;
-  guint i;
-
-  g_return_if_fail (s != NULL);
-  g_return_if_fail (np >= 2);
-
-  shape = g_slist_prepend (shape, 
-			   gts_point_new (gts_point_class (),
-					  -0.5001, -10., 0.));
-  for (i = 0; i < np; i++) {
-    gdouble x = -0.5001 + 1.0002*i/(gdouble) (np - 1);
-
-    shape = g_slist_prepend (shape, 
-			     gts_point_new (gts_point_class (),
-					    x,
-			     yo + a*cos (i*2.*M_PI/(np - 1)),
-					    0.));
-  }
-  shape = g_slist_prepend (shape, 
-			   gts_point_new (gts_point_class (),
-					  0.5001, -10., 0.));
-  shape = g_slist_reverse (shape);
-  surface_add_shape (s, shape, z1, z2, 10, TRUE, TRUE);
-  g_slist_free (shape);
-}
-
-static gboolean surface_add_file_shape (GtsSurface * s,
-					gdouble z1, gdouble z2,
-					gboolean zextrude,
-					FILE * fp)
-{
-  gdouble xs = G_MAXDOUBLE, ys = G_MAXDOUBLE, x, y;
-  GSList * shape = NULL;
-  guint length;
-  GtsSurface * s1, * self = NULL;
-
-  if (zextrude && fscanf (fp, "%lf %lf", &z1, &z2) != 2)
-    return FALSE;
-
-  while (fscanf (fp, "%lf %lf", &x, &y) == 2) {
-    if (x != xs || y != ys)
-      shape = g_slist_prepend (shape, 
-			       gts_point_new (gts_point_class (), x, y, 0));
-    if (xs == G_MAXDOUBLE) { xs = x; ys = y; }
-  }
-  fgetc (fp);
-  length = g_slist_length (shape);
-  if (length > 0 && length < 3) {
-    g_slist_free (shape);
-    return FALSE;
-  }
-  s1 = gts_surface_new (gts_surface_class (), 
-			s->face_class, s->edge_class, s->vertex_class);
-  surface_add_shape (s1, shape, z1, z2, zextrude ? 1 : 10, TRUE, TRUE);
-  if (!gts_surface_is_orientable (s1) || 
-      !gts_surface_is_closed (s1) ||
-      (self = gts_surface_is_self_intersecting (s1))) {
-    GSList * i = shape;
-    
-    while (i) {
-      fprintf (stderr, "%g %g\n", 
-	       GTS_POINT (i->data)->x, 
-	       GTS_POINT (i->data)->y); 
-      i = i->next;
-    }
-    fprintf (stderr, "\n");
-    if (self)
-      gts_object_destroy (GTS_OBJECT (self));
-  }
-  else
-    gts_surface_merge (s, s1);
-  gts_object_destroy (GTS_OBJECT (s1));
-  g_slist_free (shape);
-  return TRUE;
-}
-
-int main (int argc, char * argv[])
-{
-  GtsSurface * s;
-  guint number = 100;
-  int c = 0;
-  gchar * shape = NULL;
-  gboolean verbose = FALSE;
-  gdouble dr = 0.15;
-  gdouble ratio = 1.;
-  gboolean closed = TRUE;
-  gboolean zextrude = FALSE;
-  FILE * sfp = NULL;
-
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-      {"zextrude", no_argument, NULL, 'z'},
-      {"number", required_argument, NULL, 'n'},
-      {"open", no_argument, NULL, 'o'},
-      {"dr", required_argument, NULL, 'd'},
-      {"ratio", required_argument, NULL, 'r'},
-      {"help", no_argument, NULL, 'h'},
-      {"verbose", no_argument, NULL, 'v'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, "hvn:d:r:oz",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, "hvn:d:r:oz"))) {
-#endif /* not HAVE_GETOPT_LONG */
-    case 'z': /* zextrude */
-      zextrude = TRUE;
-      break;
-    case 'o': /* open */
-      closed = FALSE;
-      break;
-    case 'n': /* number */
-      number = atoi (optarg);
-      break;
-    case 'd': /* dr */
-      dr = atof (optarg);
-      break;
-    case 'r' :/* ratio */
-      ratio = atof (optarg);
-      break;
-    case 'v': /* verbose */
-      verbose = TRUE;
-      break;
-    case 'h': /* help */
-      fprintf (stderr,
-     "Usage: shapes [OPTIONS] SHAPE\n"
-     "Generates various shapes. SHAPE can be one of:\n"
-     "  ellipse, star, 4ellipses, square, almgren, channel, half-cylinder,\n"
-     "  rayleigh-taylor, FILE\n"
-     "\n"
-     "  -z    --zextrude    shape file contains z coordinate\n"
-     "  -n N  --number=N    set number of points for polar surfaces (default is 100)\n"
-     "  -o    --open        generate open surfaces\n"
-     "  -d R  --dr=R        set inner radius for star to R (default is 0.15)\n"
-     "  -r R  --ratio=R     ratio x/y of the ellipse (default is 1)\n"
-     "  -v    --verbose     display surface statistics\n"
-     "  -h    --help        display this help and exit\n"
-     "\n"
-     "Reports bugs to %s\n",
-	       GTS_MAINTAINER);
-      return 0; /* success */
-      break;
-    case '?': /* wrong options */
-      fprintf (stderr, "Try `shapes --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-
-  if (optind >= argc) { /* missing SHAPE */  
-    fprintf (stderr, 
-	     "shapes: missing SHAPE\n"
-	     "Try `shapes --help' for more information.\n");
-    return 1; /* failure */
-  }
-  shape = argv[optind++];
-
-  s = gts_surface_new (gts_surface_class (),
-		       gts_face_class (),
-		       gts_edge_class (),
-		       gts_vertex_class ());
-  if (!strcmp (shape, "ellipse"))
-    surface_add_ellipse_shape (s, 0., 0., 0.25, 0.001, 2.*PI,
-			       sqrt (1./ratio), - 1., 1., number, closed);
-  else if (!strcmp (shape, "star"))
-    surface_add_star_shape (s, dr, - 1., 1., number, closed);
-  else if (!strcmp (shape, "4ellipses")) {
-    surface_add_ellipse_shape (s, 0.25, 0.25, 5./32./sqrt (2.), 0.001, 2.*PI,
-			       sqrt (2.), - 1., 1., number, closed);
-    surface_add_ellipse_shape (s, -0.25, 0.25, 5./32./sqrt (2.), 0.001, 2.*PI,
-			       sqrt (2.), - 1., 1., number, closed);
-    surface_add_ellipse_shape (s, 0.25, -0.25, 5./32./sqrt (2.), 0.001, 2.*PI,
-			       sqrt (2.), - 1., 1., number, closed);
-    surface_add_ellipse_shape (s, -0.25, -0.25, 5./32./sqrt (2.), 0.001, 2.*PI,
-			       sqrt (2.), - 1., 1., number, closed);
-  }
-  else if (!strcmp (shape, "square"))
-    surface_add_ellipse_shape (s, 0., 0., 0.25*sqrt(2.), PI/4.,  2.*PI, 1.,
-			       - 1., 1., 4, closed);
-  else if (!strcmp (shape, "almgren")) {
-    surface_add_ellipse_shape (s, 0.25, 0.25, 0.1, 0.001,  2.*PI, 1., -1., 1., 
-			       number, closed);
-    surface_add_ellipse_shape (s, -0.25, 0.125, sqrt (0.15*0.1),
-			       0.001, 2.*PI,
-			       0.15/sqrt (0.15*0.1),
-			       -1., 1., number, closed);
-    surface_add_ellipse_shape (s, 0., -0.25, sqrt (0.2*0.1),
-			       0.001, 2.*PI,
-			       0.2/sqrt (0.2*0.1),
-			       -1., 1., number, closed);
-  }
-  else if (!strcmp (shape, "channel"))
-    surface_add_channel_shape (s, -1., 1., number, closed);
-  else if (!strcmp (shape, "half-cylinder")) {
-    //    surface_add_rectangular_channel_shape (s, -1., 1., closed);
-    surface_add_ellipse_shape (s, -0.375001, 0., 0.03125001, 
-			       PI/2., PI, 1., -1., 1., 
-			       number, closed);
-  }
-  else if (!strcmp (shape, "witch"))
-    surface_add_witch_shape (s, -0.25, 0.05, 0.05, -1., 1., number);
-  else if (!strcmp (shape, "rayleigh-taylor"))
-    surface_add_rayleigh_taylor_shape (s, 0., 0.025, -1., 1., number);
-  else if (!strcmp (shape, "annulus")) {
-    surface_add_ellipse_shape (s, 0., 0., 0.5, 0.001, 2.*PI,
-			       1., - 2., 2., number, closed);
-    gts_surface_foreach_face (s, (GtsFunc) gts_triangle_revert, NULL);
-    surface_add_ellipse_shape (s, 0., 0., 0.25, 0.001, 2.*PI,
-			       1., - 1., 1., number, closed);
-  }
-  else if ((!strcmp (shape, "-") && (sfp = stdin)) || 
-	   (sfp = fopen (shape, "rt")) != NULL) {
-    while (!feof (sfp))
-      if (!surface_add_file_shape (s, -1., 1., zextrude, sfp)) {
-	fprintf (stderr, 
-		 "shapes: file `%s' is not a valid shape\n"
-		 "Try `shapes --help' for more information.\n",
-		 shape);
-	return 1; /* failure */
-      }
-    fclose (sfp);
-  }
-  else {
-    fprintf (stderr, 
-	     "shapes: unknown shape `%s'\n"
-	     "Try `shapes --help' for more information.\n",
-	     shape);
-    return 1; /* failure */
-  }
-  if (verbose)
-    gts_surface_print_stats (s, stderr);
-  gts_surface_write (s, stdout);
-
-  return 0;
-}
-				      
diff --git a/tools/streamanime.c b/tools/streamanime.c
deleted file mode 100644
index dc5ecae..0000000
--- a/tools/streamanime.c
+++ /dev/null
@@ -1,144 +0,0 @@
-/* Gerris - The GNU Flow Solver
- * Copyright (C) 2001 National Institute of Water and Atmospheric Research
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License as
- * published by the Free Software Foundation; either version 2 of the
- * License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	See the GNU
- * General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- * 02111-1307, USA.  
- */
-
-#include <math.h>
-#include <stdlib.h>
-#include <string.h>
-#include "config.h"
-#ifdef HAVE_GETOPT_H
-#  include <getopt.h>
-#endif /* HAVE_GETOPT_H */
-#ifdef HAVE_UNISTD_H
-#  include <unistd.h>
-#endif /* HAVE_UNISTD_H */
-
-#include "init.h"
-#include "simulation.h"
-#include "graphic.h"
-
-static void streamline_draw (GList * s, FILE * fp)
-{
-  guint np = g_list_length (s);
-
-  fprintf (fp, "VECT 1 %u 0 %u 0\n", np, np);
-  while (s) {
-    GtsPoint * p = s->data;
-
-    fprintf (fp, "%g %g %g\n", p->x, p->y, p->z);
-    s = s->next;
-  }
-}
-
-int main (int argc, char * argv[])
-{
-  int c = 0;
-  GtsFile * fp;
-  GfsTime time;
-  guint ns = 0;
-
-  gboolean verbose = FALSE;
-
-  gfs_init (&argc, &argv);
-
-  /* parse options using getopt */
-  while (c != EOF) {
-#ifdef HAVE_GETOPT_LONG
-    static struct option long_options[] = {
-      {"help", no_argument, NULL, 'h'},
-      {"verbose", no_argument, NULL, 'v'},
-      { NULL }
-    };
-    int option_index = 0;
-    switch ((c = getopt_long (argc, argv, "hv",
-			      long_options, &option_index))) {
-#else /* not HAVE_GETOPT_LONG */
-    switch ((c = getopt (argc, argv, "hv"))) {
-#endif /* not HAVE_GETOPT_LONG */
-    case 'v': /* verbose */
-      verbose = TRUE;
-      break;
-    case 'h': /* help */
-      fprintf (stderr,
-     "Usage: streamanime [OPTION] < STREAMLINE_FILE\n"
-     "Converts a Gerris streamline file to other (graphical) formats.\n"
-     "\n"
-     "  -v      --verbose     display statistics and other info\n"
-     "  -h      --help        display this help and exit\n"
-     "\n"
-     "Reports bugs to %s\n",
-	       FTT_MAINTAINER);
-      return 0; /* success */
-      break;
-    case '?': /* wrong options */
-      fprintf (stderr, "Try `streamanime --help' for more information.\n");
-      return 1; /* failure */
-    }
-  }
-
-  fp = gts_file_new (stdin);
-  gfs_time_init (&time);
-  while (fp->type == GTS_STRING) {
-    if (!strcmp (fp->token->str, "GfsTime")) {
-      gts_file_next_token (fp);
-      gfs_time_read (&time, fp);
-      if (fp->type == GTS_ERROR) {
-	fprintf (stderr, 
-		 "streamanime: file on standard input is not a valid streamline file\n"
-		 "<stdin>:%d:%d: %s\n",
-		 fp->line, fp->pos, fp->error);
-	return 1;
-      }
-      if (verbose)
-	fprintf (stderr, "\rstreamanime: processing t: %7.3f n: %5u", 
-		 time.t, ns);
-      gts_file_first_token_after (fp, '\n');
-      ns = 0;
-      printf ("(redraw focus)\n(freeze focus)\n");
-    }
-    else if (!strcmp (fp->token->str, "GfsStreamline")) {
-      GList * streamline = gfs_streamline_read (fp);
-
-      if (fp->type == GTS_ERROR) {
-	fprintf (stderr, 
-		 "streamanime: file on standard input is not a valid streamline file\n"
-		 "<stdin>:%d:%d: %s\n",
-		 fp->line, fp->pos, fp->error);
-	return 1;
-      }
-      printf ("(geometry \"stream-%u\" = {\n", ns++);
-      streamline_draw (streamline, stdout);
-      printf ("})\n");
-      gfs_streamline_destroy (streamline);
-    }
-    else {
-      gts_file_error (fp, "unknown identifier `%s'", fp->token->str);
-      fprintf (stderr, 
-	       "streamanime: file on standard input is not a valid streamline file\n"
-	       "<stdin>:%d:%d: %s\n",
-	       fp->line, fp->pos, fp->error);
-      return 1;
-    }
-  }
-  gts_file_destroy (fp);
-  printf ("(redraw focus)\n");
-  if (verbose)
-    fputc ('\n', stderr);
-
-  return 0;
-}

-- 
Gerris Flow Solver



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