Mercurial > octave-nkf
view scripts/image/cmpermute.m @ 15515:4beb3a4bd440
rgbplot.m, cmpermute.m, cmunique.m, ind2rgb.m, imwrite.m: use core iscolormap function
| author | Carnë Draug <carandraug+dev@gmail.com> |
|---|---|
| date | Fri, 12 Oct 2012 23:11:08 +0200 |
| parents | 0ba7be7fed1c |
| children | d1285ebe60ca |
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## Copyright (C) 2004 Josep Mones i Teixidor ## Copyright (C) 2012 Rik Wehbring ## ## 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} {[@var{Y}, @var{newmap}] =} cmpermute (@var{X}, @var{map}) ## @deftypefnx {Function File} {[@var{Y}, @var{newmap}] =} cmpermute (@var{X}, @var{map}, @var{index}) ## Reorder colors in a colormap. ## ## When called with only two arguments, @code{cmpermute} randomly rearranges ## the colormap @var{map} and returns a new colormap @var{newmap}. It also ## returns the indexed image @var{Y} which is the equivalent of the original ## input image @var{X} when displayed using @var{newmap}. The input image ## @var{X} must be an indexed image of class uint8 or double. ## ## When called with an optional third argument the order of colors in the ## new colormap is defined by @var{index}. ## ## @strong{Caution:} @code{index} should not have repeated elements or the ## function will fail. ## ## @end deftypefn ## Author: Josep Mones i Teixidor <jmones@puntbarra.com> function [Y, newmap] = cmpermute (X, map, index) if (nargin < 2 || nargin > 3) print_usage (); endif ## FIXME: Matlab only accepts 2 types. Expand to uint16 & single?? if (! (isa (X, "uint8") || isa (X, "double"))) error ("cmpermute: X must be of class uint8 or double"); endif if (! isreal (X) || issparse (X) || (isfloat (X) && (any (X(:) < 1 || any (X(:) != fix (X(:))))))) error ("cmpermute: X must be an indexed image"); endif if (! iscolormap (map)) error ("cmpermute: MAP must be a valid colormap"); endif if (nargin < 3) index = randperm (rows (map)); elseif (! isvector (index) || length (index) != rows (map)) error ("cmpermute: invalid parameter INDEX"); endif ## new colormap newmap = map(index,:); ## build reverse index rindex = zeros (size (index)); rindex(index) = 1:length (index); ## adapt indices if (isa (X, "uint8")) rindex = uint8 (rindex-1); ## 0-based indices Y = rindex(double (X) + 1); else Y = rindex(X); endif endfunction %!demo %! [Y, newmap] = cmpermute ([1:4], hot (4), 4:-1:1) %! ## colormap will be arranged in reverse order (so will image) %!shared X, map %! X = uint8 (magic (16)); %! [X, map] = cmunique (X); %!test # random permutation, 0-based index %! [Y, newmap] = cmpermute (X, map); %! ## test we didn't lose colors %! assert (sort (map), sortrows (newmap)); %! ## test if images are equal %! assert (map(double (X)+1), newmap(double (Y)+1)); %!test # reverse map, 0-based index %! [Y, newmap] = cmpermute (X, map, rows (map):-1:1); %! ## we expect a reversed colormap %! assert (flipud (newmap), map); %! ## we expect reversed indices in image %! assert (X, max (Y(:)) - Y); %!shared X,map %! X = uint16 (magic (20)); %! [X, map] = cmunique (X); %!test # random permutation, 1-based index %! [Y, newmap] = cmpermute (X, map); %! ## test we didn't lose colors %! assert (sort (map), sortrows (newmap)); %! ## test if images are equal %! assert (map(X), newmap(Y)); %!test # reverse map, 1-based index %! [Y, newmap] = cmpermute (X, map, rows (map):-1:1); %! ## we expect a reversed colormap %! assert (newmap (rows (newmap):-1:1,:), map); %! ## we expect reversed indices in image %! assert (X, max (Y(:)) + 1 - Y); ## Test input validation %!error cmpermute () %!error cmpermute (1,2,3,4) %!error <X must be of class uint8> cmpermute (uint16 (magic (16)), jet (256)) %!error <X must be an indexed image> cmpermute (1+i, jet (256)) %!error <X must be an indexed image> cmpermute (sparse (1), jet (256)) %!error <X must be an indexed image> cmpermute (0, jet (256)) %!error <X must be an indexed image> cmpermute (1.5, jet (256)) %!error <MAP must be a valid colormap> cmpermute (1, "a") %!error <MAP must be a valid colormap> cmpermute (1, i) %!error <MAP must be a valid colormap> cmpermute (1, ones (3,3,3)) %!error <MAP must be a valid colormap> cmpermute (1, ones (3,2)) %!error <MAP must be a valid colormap> cmpermute (1, [-1 1 1]) %!error <MAP must be a valid colormap> cmpermute (1, [2 1 1]) %!error <invalid parameter INDEX> cmpermute (1, [0 1 0;1 0 1], ones (3)) %!error <invalid parameter INDEX> cmpermute (1, [0 1 0;1 0 1], 1:3)