Mercurial > octave
view scripts/plot/plot3.m @ 14237:11949c9795a0
Revamp %!demos in m-files to use Octave coding conventions on spacing, etc.
Add clf() to all demos using plot features to get reproducibility.
Use 64 as input to all colormaps (jet (64)) to get reproducibility.
* bicubic.m, cell2mat.m, celldisp.m, cplxpair.m, interp1.m, interp2.m,
interpft.m, interpn.m, profile.m, profshow.m, convhull.m, delaunay.m,
griddata.m, inpolygon.m, voronoi.m, autumn.m, bone.m, contrast.m, cool.m,
copper.m, flag.m, gmap40.m, gray.m, hot.m, hsv.m, image.m, imshow.m, jet.m,
ocean.m, pink.m, prism.m, rainbow.m, spring.m, summer.m, white.m, winter.m,
condest.m, onenormest.m, axis.m, clabel.m, colorbar.m, comet.m, comet3.m,
compass.m, contour.m, contour3.m, contourf.m, cylinder.m, daspect.m,
ellipsoid.m, errorbar.m, ezcontour.m, ezcontourf.m, ezmesh.m, ezmeshc.m,
ezplot.m, ezplot3.m, ezpolar.m, ezsurf.m, ezsurfc.m, feather.m, fill.m,
fplot.m, grid.m, hold.m, isosurface.m, legend.m, loglog.m, loglogerr.m,
pareto.m, patch.m, pbaspect.m, pcolor.m, pie.m, pie3.m, plot3.m, plotmatrix.m,
plotyy.m, polar.m, quiver.m, quiver3.m, rectangle.m, refreshdata.m, ribbon.m,
rose.m, scatter.m, scatter3.m, semilogx.m, semilogxerr.m, semilogy.m,
semilogyerr.m, shading.m, slice.m, sombrero.m, stairs.m, stem.m, stem3.m,
subplot.m, surf.m, surfc.m, surfl.m, surfnorm.m, text.m, title.m, trimesh.m,
triplot.m, trisurf.m, uigetdir.m, uigetfile.m, uimenu.m, uiputfile.m,
waitbar.m, xlim.m, ylim.m, zlim.m, mkpp.m, pchip.m, polyaffine.m, spline.m,
bicgstab.m, cgs.m, gplot.m, pcg.m, pcr.m, treeplot.m, strtok.m, demo.m,
example.m, rundemos.m, speed.m, test.m, calendar.m, datestr.m, datetick.m,
weekday.m: Revamp %!demos to use Octave coding conventions on spacing, etc.
| author | Rik <octave@nomad.inbox5.com> |
|---|---|
| date | Fri, 20 Jan 2012 12:59:53 -0800 |
| parents | b33589ef9213 |
| children | 4506eade9f04 |
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## Copyright (C) 1996-2012 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} {} plot3 (@var{args}) ## Produce three-dimensional 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 the matrices 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{c}) ## @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{c}) ## @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 ## ## An example of the use of @code{plot3} is ## ## @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{plot, xlabel, ylabel, zlabel, title, print} ## @end deftypefn ## Author: Paul Kienzle ## (modified from __plt__.m) function retval = plot3 (varargin) newplot (); 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++ < nargin) 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 z = imag (x); y = real (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 < nargin && ischar (varargin{arg+1})) if (nargin - 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 tmp(++idx) = line (x(:, i), y(:, i), z(:, i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); key = options.key; if (! isempty (key)) hlgnd = [hlgnd, tmp(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 tmp(++idx) = line (x(:, i), y(:, i), z(:, i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); key = options.key; if (! isempty (key)) hlgnd = [hlgnd, tmp(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 z = imag (x); y = real (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 tmp(++idx) = line (x(:, i), y(:, i), z(:, i), "color", color, "linestyle", linestyle, "marker", marker, properties{:}); key = options.key; if (! isempty (key)) hlgnd = [hlgnd, tmp(idx)]; tlgnd = {tlgnd{:}, key}; endif endfor endif if (!isempty (hlgnd)) legend (gca(), hlgnd, tlgnd); endif set (gca (), "view", [-37.5, 30]); if (nargout > 0 && idx > 0) retval = tmp; endif endfunction %!demo %! clf; %! z = [0:0.05:5]; %! plot3 (cos(2*pi*z), sin(2*pi*z), z, ";helix;"); %! plot3 (z, exp(2i*pi*z), ";complex sinusoid;");