Mercurial > octave-libgccjit
view scripts/plot/draw/plot3.m @ 18924:9a5e03801d23
Update some plot %!demos so that they run under Matlab.
* datetick.m: Explicitly name 'x' axis in call to datetick.
* mesh.m: Use try/catch around block checking __graphics_toolkit__
which is an Octave-only figure property.
* patch.m: Call patch with X,Y,C rather than X,Y,PROP,VAL which is not
supported by Matlab.
* ezplot3: Use explicit call to legend, rather than ';legend;' in ezplot3
call which is Octave-only syntax.
* rose.m: Add a demo that Matlab can run. Matlab won't run the second demo
which uses Octave-only syntax.
* copyobj.m: Don't use errorbar plot style argument which is Octave-only
syntax.
| author | Rik <rik@octave.org> |
|---|---|
| date | Mon, 14 Jul 2014 21:40:28 -0700 |
| parents | d63878346099 |
| children |
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## Copyright (C) 1996-2013 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} {} plot3 (@var{x}, @var{y}, @var{z}) ## @deftypefnx {Function File} {} plot3 (@var{x}, @var{y}, @var{z}, @var{prop}, @var{value}, @dots{}) ## @deftypefnx {Function File} {} plot3 (@var{x}, @var{y}, @var{z}, @var{fmt}) ## @deftypefnx {Function File} {} plot3 (@var{x}, @var{cplx}) ## @deftypefnx {Function File} {} plot3 (@var{cplx}) ## @deftypefnx {Function File} {} plot3 (@var{hax}, @dots{}) ## @deftypefnx {Function File} {@var{h} =} plot3 (@dots{}) ## Produce 3-D plots. ## ## Many different combinations of arguments are possible. The simplest ## form is ## ## @example ## plot3 (@var{x}, @var{y}, @var{z}) ## @end example ## ## @noindent ## in which the arguments are taken to be the vertices of the points to ## be plotted in three dimensions. If all arguments are vectors of the ## same length, then a single continuous line is drawn. If all arguments ## are matrices, then each column of is treated as a separate line. No attempt ## is made to transpose the arguments to make the number of rows match. ## ## If only two arguments are given, as ## ## @example ## plot3 (@var{x}, @var{cplx}) ## @end example ## ## @noindent ## the real and imaginary parts of the second argument are used ## as the @var{y} and @var{z} coordinates, respectively. ## ## If only one argument is given, as ## ## @example ## plot3 (@var{cplx}) ## @end example ## ## @noindent ## the real and imaginary parts of the argument are used as the @var{y} ## and @var{z} values, and they are plotted versus their index. ## ## Arguments may also be given in groups of three as ## ## @example ## plot3 (@var{x1}, @var{y1}, @var{z1}, @var{x2}, @var{y2}, @var{z2}, @dots{}) ## @end example ## ## @noindent ## in which each set of three arguments is treated as a separate line or ## set of lines in three dimensions. ## ## To plot multiple one- or two-argument groups, separate each group ## with an empty format string, as ## ## @example ## plot3 (@var{x1}, @var{c1}, "", @var{c2}, "", @dots{}) ## @end example ## ## Multiple property-value pairs may be specified which will affect the line ## objects drawn by @code{plot3}. If the @var{fmt} argument is supplied it ## will format the line objects in the same manner as @code{plot}. ## ## If the first argument @var{hax} is an axes handle, then plot into this axis, ## rather than the current axes returned by @code{gca}. ## ## The optional return value @var{h} is a graphics handle to the created plot. ## ## Example: ## ## @example ## @group ## z = [0:0.05:5]; ## plot3 (cos (2*pi*z), sin (2*pi*z), z, ";helix;"); ## plot3 (z, exp (2i*pi*z), ";complex sinusoid;"); ## @end group ## @end example ## @seealso{ezplot3, plot} ## @end deftypefn ## Author: Paul Kienzle ## (modified from __plt__.m) function retval = plot3 (varargin) [hax, varargin, nargs] = __plt_get_axis_arg__ ("plot3", varargin{:}); if (nargs < 1) print_usage (); endif oldfig = []; if (! isempty (hax)) oldfig = get (0, "currentfigure"); endif unwind_protect hax = newplot (hax); x_set = 0; y_set = 0; z_set = 0; property_set = 0; fmt_set = 0; properties = {}; tlgnd = {}; hlgnd = []; idx = 0; ## Gather arguments, decode format, and plot lines. arg = 0; while (arg++ < nargs) new = varargin{arg}; new_cell = varargin(arg); if (property_set) properties = [properties, new_cell]; property_set = 0; continue; endif if (ischar (new)) if (! z_set) if (! y_set) if (! x_set) error ("plot3: needs X, [ Y, [ Z ] ]"); else y = real (x); z = imag (x); y_set = 1; z_set = 1; if (rows (x) > 1) x = repmat ((1:rows (x))', 1, columns (x)); else x = 1:columns (x); endif endif else z = imag (y); y = real (y); z_set = 1; endif endif if (! fmt_set) [options, valid] = __pltopt__ ("plot3", new, false); if (! valid) properties = [properties, new_cell]; property_set = 1; continue; else fmt_set = 1; while (arg < nargs && ischar (varargin{arg+1})) if (nargs - arg < 2) error ("plot3: properties must appear followed by a value"); endif properties = [properties, varargin(arg+1:arg+2)]; arg += 2; endwhile endif else properties = [properties, new_cell]; property_set = 1; continue; endif if (isvector (x) && isvector (y)) if (isvector (z)) x = x(:); y = y(:); z = z(:); elseif (length (x) == rows (z) && length (y) == columns (z)) [x, y] = meshgrid (x, y); else error ("plot3: [length(X), length(Y)] must match size (Z)"); endif endif if (! size_equal (x, y, z)) error ("plot3: X, Y, and Z must have the same shape"); elseif (ndims (x) > 2) error ("plot3: X, Y, and Z must not have more than two dimensions"); endif for i = 1 : columns (x) 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 htmp(++idx) = line (x(:, i), y(:, i), z(:, i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); key = options.key; if (! isempty (key)) hlgnd = [hlgnd, htmp(idx)]; tlgnd = {tlgnd{:}, key}; endif endfor x_set = 0; y_set = 0; z_set = 0; fmt_set = 0; properties = {}; elseif (! x_set) x = new; x_set = 1; elseif (! y_set) y = new; y_set = 1; elseif (! z_set) z = new; z_set = 1; else if (isvector (x) && isvector (y)) if (isvector (z)) x = x(:); y = y(:); z = z(:); elseif (length (x) == rows (z) && length (y) == columns (z)) [x, y] = meshgrid (x, y); else error ("plot3: [length(X), length(Y)] must match size (Z)"); endif endif if (! size_equal (x, y, z)) error ("plot3: X, Y, and Z must have the same shape"); elseif (ndims (x) > 2) error ("plot3: X, Y, and Z must not have more than two dimensions"); endif options = __default_plot_options__ (); for i = 1 : columns (x) 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 htmp(++idx) = line (x(:, i), y(:, i), z(:, i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); key = options.key; if (! isempty (key)) hlgnd = [hlgnd, htmp(idx)]; tlgnd = {tlgnd{:}, key}; endif endfor x = new; y_set = 0; z_set = 0; fmt_set = 0; properties = {}; endif endwhile if (property_set) error ("plot3: properties must appear followed by a value"); endif ## Handle last plot. if (x_set) if (y_set) if (! z_set) z = imag (y); y = real (y); z_set = 1; endif else y = real (x); z = imag (x); y_set = 1; z_set = 1; if (rows (x) > 1) x = repmat ((1:rows (x))', 1, columns (x)); else x = 1:columns (x); endif endif if (isvector (x) && isvector (y)) if (isvector (z)) x = x(:); y = y(:); z = z(:); elseif (length (x) == rows (z) && length (y) == columns (z)) [x, y] = meshgrid (x, y); else error ("plot3: [length(X), length(Y)] must match size (Z)"); endif endif if (! size_equal (x, y, z)) error ("plot3: X, Y, and Z must have the same shape"); elseif (ndims (x) > 2) error ("plot3: X, Y, and Z must not have more than two dimensions"); endif options = __default_plot_options__ (); for i = 1 : columns (x) 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 htmp(++idx) = line (x(:, i), y(:, i), z(:, i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); key = options.key; if (! isempty (key)) hlgnd = [hlgnd, htmp(idx)]; tlgnd = {tlgnd{:}, key}; endif endfor endif if (! isempty (hlgnd)) legend (hax, hlgnd, tlgnd); endif if (! ishold ()) set (hax, "view", [-37.5, 30]); endif unwind_protect_cleanup if (! isempty (oldfig)) set (0, "currentfigure", oldfig); endif end_unwind_protect if (nargout > 0 && idx > 0) retval = htmp; endif endfunction %!demo %! clf; %! z = [0:0.05:5]; %! plot3 (cos (2*pi*z), sin (2*pi*z), z) %! legend ('helix'); %! title ('plot3() of a helix'); %!demo %! clf; %! z = [0:0.05:5]; %! plot3 (z, exp (2i*pi*z)); %! legend ('complex sinusoid'); %! title ('plot3() with complex input');