Mercurial > octave-nkf
view scripts/plot/private/__plt__.m @ 14138:72c96de7a403 stable
maint: update copyright notices for 2012
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Mon, 02 Jan 2012 14:25:41 -0500 |
| parents | eda5eabd5d0b |
| children | f22a9555aa69 |
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## Copyright (C) 1993-2012 John W. Eaton ## ## 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} {} __plt__ (@var{caller}, @var{h}, @var{varargin}) ## Undocumented internal function. ## @end deftypefn ## Author: jwe function retval = __plt__ (caller, h, varargin) nargs = nargin - 2; if (nargs > 0) k = 1; x_set = false; y_set = false; property_set = false; properties = {}; hlegend = []; fkids = get (gcf(), "children"); for i = 1 : numel(fkids) if (ishandle (fkids (i)) && strcmp (get (fkids (i), "type"), "axes") && (strcmp (get (fkids (i), "tag"), "legend"))) udata = get (fkids (i), "userdata"); if (! isempty (intersect (udata.handle, gca ()))) hlegend = fkids (i); break; endif endif endfor setlgnd = false; if (isempty (hlegend)) hlgnd = []; tlgnd = {}; else [hlgnd, tlgnd] = __getlegenddata__ (hlegend); endif ## Gather arguments, decode format, gather plot strings, and plot lines. retval = []; while (nargs > 0 || x_set) if (nargs == 0) ## Force the last plot when input variables run out. next_cell = {}; next_arg = {""}; else next_cell = varargin(k); next_arg = varargin{k++}; endif nargs--; if (ischar (next_arg) || iscellstr (next_arg)) if (x_set) [options, valid] = __pltopt__ (caller, next_arg, false); if (! valid) if (nargs == 0) error ("%s: properties must appear followed by a value", caller); endif properties = [properties, [next_cell, varargin(k++)]]; nargs--; continue; else while (nargs > 0 && ischar (varargin{k})) if (nargs < 2) error ("%s: properties must appear followed by a value", caller); endif properties = [properties, varargin(k:k+1)]; k += 2; nargs -= 2; endwhile endif if (y_set) tmp = __plt2__ (h, x, y, options, properties); [hlgnd, tlgnd, setlgnd] = __plt_key__ (tmp, options, hlgnd, tlgnd, setlgnd); properties = {}; retval = [retval; tmp]; else tmp = __plt1__ (h, x, options, properties); [hlgnd, tlgnd, setlgnd] = __plt_key__ (tmp, options, hlgnd, tlgnd, setlgnd); properties = {}; retval = [retval; tmp]; endif x_set = false; y_set = false; else error ("plot: no data to plot"); endif elseif (x_set) if (y_set) options = __pltopt__ (caller, {""}); tmp = __plt2__ (h, x, y, options, properties); [hlgnd, tlgnd, setlgnd] = __plt_key__ (tmp, options, hlgnd, tlgnd, setlgnd); retval = [retval; tmp]; x = next_arg; y_set = false; properties = {}; else y = next_arg; y_set = true; endif else x = next_arg; x_set = true; endif endwhile if (setlgnd) legend (gca(), hlgnd, tlgnd); endif else error ("__plt__: invalid number of arguments"); endif endfunction function [hlgnd, tlgnd, setlgnd] = __plt_key__ (h, options, hlgnd, tlgnd, setlgnd) n = numel (h); if (numel (options) == 1) options = repmat (options(:), n, 1); endif for i = 1 : n key = options.key; if (! isempty (key)) hlgnd = [hlgnd(:); h(i)]; tlgnd = {tlgnd{:}, key}; setlgnd = true; endif endfor endfunction function retval = __plt1__ (h, x1, options, properties) if (nargin < 2 || nargin > 4) print_usage (); endif if (nargin < 3 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 4) properties = {}; endif if (! isstruct (options)) error ("__plt1__: options must be a struct array"); endif [nr, nc] = size (x1); if (nr == 1) x1 = x1.'; tmp = nr; nr = nc; nc = tmp; endif x1_i = imag (x1); if (any (any (x1_i))) x2 = x1_i; x1 = real (x1); else x2 = x1; x1 = (1:nr)'; endif retval = __plt2__ (h, x1, x2, options, properties); endfunction function retval = __plt2__ (h, x1, x2, options, properties) if (nargin < 3 || nargin > 5) print_usage (); endif if (nargin < 4 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 5) properties = {}; endif if (! isstruct (options)) error ("__plt1__: options must be a struct array"); endif if (any (any (imag (x1)))) x1 = real (x1); endif if (any (any (imag (x2)))) x2 = real (x2); endif h_set = false; if (isempty (x1) && isempty (x2)) retval = zeros (0, 1); elseif (isscalar (x1)) if (isscalar (x2)) retval = __plt2ss__ (h, x1, x2, options, properties); elseif (isvector (x2)) retval = __plt2sv__ (h, x1, x2, options, properties); else error ("__plt2__: invalid data for plotting"); endif elseif (isvector (x1)) if (isscalar (x2)) retval = __plt2vs__ (h, x1, x2, options, properties); elseif (isvector (x2)) retval = __plt2vv__ (h, x1, x2, options, properties); elseif (ismatrix (x2)) retval = __plt2vm__ (h, x1, x2, options, properties); else error ("__plt2__: invalid data for plotting"); endif elseif (ismatrix (x1)) if (isvector (x2)) retval = __plt2mv__ (h, x1, x2, options, properties); elseif (ismatrix (x2)) retval = __plt2mm__ (h, x1, x2, options, properties); else error ("__plt2__: invalid data for plotting"); endif else error ("__plt2__: invalid data for plotting"); endif endfunction function retval = __plt2mm__ (h, x, y, options, properties) if (nargin < 3 || nargin > 5) print_usage (); endif if (nargin < 4 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 5) properties = {}; endif [x_nr, x_nc] = size (x); [y_nr, y_nc] = size (y); k = 1; if (x_nr == y_nr && x_nc == y_nc) if (x_nc > 0) if (numel (options) == 1) options = repmat (options(:), x_nc, 1); endif retval = zeros (x_nc, 1); for i = 1:x_nc linestyle = options(i).linestyle; marker = options(i).marker; if (isempty (marker) && isempty (linestyle)) [linestyle, marker] = __next_line_style__ (); endif color = options(i).color; if (isempty (color)) color = __next_line_color__ (); endif retval(i) = line (x(:,i), y(:,i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); endfor else error ("__plt2mm__: arguments must be a matrices"); endif else error ("__plt2mm__: matrix dimensions must match"); endif endfunction function retval = __plt2mv__ (h, x, y, options, properties) if (nargin < 3 || nargin > 5) print_usage (); endif if (nargin < 4 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 5) properties = {}; endif [x_nr, x_nc] = size (x); [y_nr, y_nc] = size (y); if (y_nr == 1) y = y'; tmp = y_nr; y_nr = y_nc; y_nc = tmp; endif if (x_nr == y_nr) 1; elseif (x_nc == y_nr) x = x'; tmp = x_nr; x_nr = x_nc; x_nc = tmp; else error ("__plt2mv__: matrix dimensions must match"); endif if (x_nc > 0) if (numel (options) == 1) options = repmat (options(:), x_nc, 1); endif retval = zeros (x_nc, 1); for i = 1:x_nc linestyle = options(i).linestyle; marker = options(i).marker; if (isempty (marker) && isempty (linestyle)) [linestyle, marker] = __next_line_style__ (); endif color = options(i).color; if (isempty (color)) color = __next_line_color__ (); endif retval(i) = line (x(:,i), y, "color", color, "linestyle", linestyle, "marker", marker, properties{:}); endfor else error ("__plt2mv__: arguments must be a matrices"); endif endfunction function retval = __plt2ss__ (h, x, y, options, properties) if (nargin < 3 || nargin > 5) print_usage (); endif if (nargin < 4 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 5) properties = {}; endif if (numel (options) > 1) options = options(1); endif [x_nr, x_nc] = size (x); [y_nr, y_nc] = size (y); if (x_nr == 1 && x_nr == y_nr && x_nc == 1 && x_nc == y_nc) linestyle = options.linestyle; marker = options.marker; if (isempty (marker) && isempty (linestyle)) [linestyle, marker] = __next_line_style__ (); endif color = options.color; if (isempty (color)) color = __next_line_color__ (); endif retval = line (x, y, "color", color, "linestyle", linestyle, "marker", marker, properties{:}); else error ("__plt2ss__: arguments must be scalars"); endif endfunction function retval = __plt2sv__ (h, x, y, options, properties) if (nargin < 3 || nargin > 5) print_usage (); endif if (nargin < 4 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 5) properties = {}; endif if (isscalar (x) && isvector (y)) len = numel (y); if (numel (options) == 1) options = repmat (options(:), len, 1); endif retval = zeros (len, 1); for i = 1:len linestyle = options(i).linestyle; marker = options(i).marker; if (isempty (marker) && isempty (linestyle)) [linestyle, marker] = __next_line_style__ (); endif color = options(i).color; if (isempty (color)) color = __next_line_color__ (); endif retval(i) = line (x, y(i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); endfor else error ("__plt2sv__: first arg must be scalar, second arg must be vector"); endif endfunction function retval = __plt2vm__ (h, x, y, options, properties) if (nargin < 3 || nargin > 5) print_usage (); endif if (nargin < 4 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 5) properties = {}; endif [x_nr, x_nc] = size (x); [y_nr, y_nc] = size (y); if (x_nr == 1) x = x'; tmp = x_nr; x_nr = x_nc; x_nc = tmp; endif if (x_nr == y_nr) 1; elseif (x_nr == y_nc) y = y'; tmp = y_nr; y_nr = y_nc; y_nc = tmp; else error ("__plt2vm__: matrix dimensions must match"); endif if (y_nc > 0) if (numel (options) == 1) options = repmat (options(:), y_nc, 1); endif retval = zeros (y_nc, 1); for i = 1:y_nc linestyle = options(i).linestyle; marker = options(i).marker; if (isempty (marker) && isempty (linestyle)) [linestyle, marker] = __next_line_style__ (); endif color = options(i).color; if (isempty (color)) color = __next_line_color__ (); endif retval(i) = line (x, y(:,i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); endfor else error ("__plt2vm__: arguments must be a matrices"); endif endfunction function retval = __plt2vs__ (h, x, y, options, properties) if (nargin < 3 || nargin > 5) print_usage (); endif if (nargin < 4 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 5) properties = {}; endif if (isvector (x) && isscalar (y)) len = numel (x); if (numel (options) == 1) options = repmat (options(:), len, 1); endif retval = zeros (len, 1); for i = 1:len linestyle = options(i).linestyle; marker = options(i).marker; if (isempty (marker) && isempty (linestyle)) [linestyle, marker] = __next_line_style__ (); endif color = options(i).color; if (isempty (color)) color = __next_line_color__ (); endif retval(i) = line (x(i), y, "color", color, "linestyle", linestyle, "marker", marker, properties{:}); endfor else error ("__plt2vs__: first arg must be vector, second arg must be scalar"); endif endfunction function retval = __plt2vv__ (h, x, y, options, properties) if (nargin < 3 || nargin > 5) print_usage (); endif if (nargin < 4 || isempty (options)) options = __default_plot_options__ (); endif if (nargin < 5) properties = {}; endif if (numel (options) > 1) options = options(1); endif [x_nr, x_nc] = size (x); [y_nr, y_nc] = size (y); if (x_nr == 1) x = x'; tmp = x_nr; x_nr = x_nc; x_nc = tmp; endif if (y_nr == 1) y = y'; tmp = y_nr; y_nr = y_nc; y_nc = tmp; endif if (x_nr == y_nr) linestyle = options.linestyle; marker = options.marker; if (isempty (marker) && isempty (linestyle)) [linestyle, marker] = __next_line_style__ (); endif color = options.color; if (isempty (color)) color = __next_line_color__ (); endif retval = line (x, y, "color", color, "linestyle", linestyle, "marker", marker, properties{:}); else error ("__plt2vv__: vector lengths must match"); endif endfunction