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Refactor configure.ac to make it more understandable. Use common syntax for messages in config.h Correct typos, refer to libraries in all caps, use two spaces after period. Follow Autoconf guidelines and place general tests before specific tests. * configure.ac, m4/acinclude.m4: Use common syntax for messages in config.h Correct typos, refer to libraries in all caps, use two spaces after period. Follow Autoconf guidelines and place general tests before specific tests.
author Rik <rik@octave.org>
date Tue, 31 Jul 2012 10:28:51 -0700
parents c2dbdeaa25df
children ddac88d32d6a
line wrap: on
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## Copyright (C) 2012 Martin Helm
##
## This file is part of Octave.
##
## Octave 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 3 of the License, or (at
## your option) any later version.
##
## Octave 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 Octave; see the file COPYING.  If not, see
## <http://www.gnu.org/licenses/>.

## -*- texinfo -*-
## @deftypefn  {Function File} {} tetramesh (@var{T}, @var{X})
## @deftypefnx {Function File} {} tetramesh (@var{T}, @var{X}, @var{C})
## @deftypefnx {Function File} {} tetramesh (@dots{}, @var{property}, @var{val}, @dots{})
## @deftypefnx {Function File} {@var{h} =} tetramesh (@dots{})
##
## Display the tetrahedrons defined in the m-by-4 matrix @var{T}
## as 3-D patches.  @var{T} is typically the output of a Delaunay triangulation
## of a 3-D set of points.  Every row of @var{T} contains four indices into
## the n-by-3 matrix @var{X} of the vertices of a tetrahedron.  Every row in
## @var{X} represents one point in 3-D space. 
##
## The vector @var{C} specifies the color of each tetrahedron as an index
## into the current colormap.  The default value is 1:m where m is the number
## of tetrahedrons; the indices are scaled to map to the full range of the
## colormap.  If there are more tetrahedrons than colors in the colormap then
## the values in @var{C} are cyclically repeated.
## 
## Calling @code{tetramesh (@dots{}, "property", "value", @dots{})} passes all
## property/value pairs directly to the patch function as additional arguments.
##
## The optional return value @var{h} is a vector of patch handles where each
## handle represents one tetrahedron in the order given by @var{T}. 
## A typical use case for @var{h} is to turn the respective patch "visible"
## property "on" or "off".
##
## Type @code{demo tetramesh} to see examples on using @code{tetramesh}.
## @seealso{delaunay3, delaunayn, trimesh, patch}
## @end deftypefn

## Author: Martin Helm <martin@mhelm.de>

function h = tetramesh (varargin)

  [reg, prop] = parseparams (varargin);

  if (length (reg) < 2 || length (reg) > 3)
    print_usage ();
  endif

  T = reg{1};
  X = reg{2};

  if (! ismatrix (T) || columns (T) != 4)
    error ("tetramesh: T must be a n-by-4 matrix");
  endif
  if (! ismatrix (X) || columns (X) != 3)
    error ("tetramesh: X must be a n-by-3 matrix");
  endif

  size_T = rows (T);
  colmap = colormap ();
  
  if (length (reg) < 3)
    size_colmap = rows (colmap);
    C = mod ((1:size_T)' - 1, size_colmap) + 1;
    if (size_T < size_colmap && size_T > 1) 
      ## expand to the available range of colors
      C = floor ((C - 1) * (size_colmap - 1) / (size_T - 1)) + 1;
    endif
  else
    C = reg{3};
    if (! isvector (C) || size_T != length (C))
      error ("tetramesh: C must be a vector of the same length as T");
    endif
  endif

  h = zeros (1, size_T);
  if (strcmp (graphics_toolkit (), "gnuplot"))
    ## tiny reduction of the tetrahedron size to help gnuplot by
    ## avoiding identical faces with different colors
    for i = 1:size_T
      [th, p] = __shrink__ ([1 2 3 4], X(T(i, :), :), 1 - 1e-7);
      hvec(i) = patch ("Faces", th, "Vertices", p, 
                       "FaceColor", colmap(C(i), :), prop{:});
    endfor
  else
    for i = 1:size_T
      th = [1 2 3; 2 3 4; 3 4 1; 4 1 2];
      hvec(i) = patch ("Faces", th, "Vertices", X(T(i, :), :), 
                       "FaceColor", colmap(C(i), :), prop{:});
    endfor
  endif

  if (nargout > 0)
    h = hvec;
  endif

endfunction

## shrink the tetrahedron relative to its center of gravity
function [tri, p] = __shrink__ (T, X, sf)
  midpoint = repmat (sum (X(T, :), 1) / 4, 12, 1);
  p = [X([1 2 3], :); X([2 3 4], :); X([3 4 1], :); X([4 1 2], :)];
  p = sf * (p - midpoint) + midpoint;
  tri = reshape (1:12, 3, 4)';
endfunction


%!demo
%! clf;
%! d = [-1 1];
%! [x,y,z] = meshgrid (d, d, d);
%! x = [x(:); 0];
%! y = [y(:); 0];
%! z = [z(:); 0];
%! tetra = delaunay3 (x, y, z);
%! X = [x(:) y(:) z(:)];
%! colormap (jet (64));
%! h = tetramesh (tetra, X);
%! set (h(1:2:end), "Visible", "off");
%! axis equal;
%! view (30, 20);
%! title ("Using jet (64), every other tetrahedron invisible");

%!demo
%! clf;
%! d = [-1 1];
%! [x,y,z] = meshgrid (d, d, d);
%! x = [x(:); 0];
%! y = [y(:); 0];
%! z = [z(:); 0];
%! tetra = delaunay3 (x, y, z);
%! X = [x(:) y(:) z(:)];
%! colormap (gray (256));
%! tetramesh (tetra, X, 21:20:241, "EdgeColor", "w");
%! axis equal;
%! view (30, 20);
%! title ("Using gray (256) and white edges");