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########################################################################
##
## Copyright (C) 2007-2024 The Octave Project Developers
##
## See the file COPYRIGHT.md in the top-level directory of this
## distribution or <https://octave.org/copyright/>.
##
## 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
## <https://www.gnu.org/licenses/>.
##
########################################################################
## -*- texinfo -*-
## @deftypefn {} {} pcolor (@var{x}, @var{y}, @var{c})
## @deftypefnx {} {} pcolor (@var{c})
## @deftypefnx {} {} pcolor (@var{hax}, @dots{})
## @deftypefnx {} {@var{h} =} pcolor (@dots{})
## Produce a 2-D density plot.
##
## A @code{pcolor} plot draws rectangles with colors from the matrix @var{c}
## over the two-dimensional region represented by the matrices @var{x} and
## @var{y}. @var{x} and @var{y} are the coordinates of the mesh's vertices
## and are typically the output of @code{meshgrid}. If @var{x} and @var{y} are
## vectors, then a typical vertex is (@var{x}(j), @var{y}(i), @var{c}(i,j)).
## Thus, columns of @var{c} correspond to different @var{x} values and rows
## of @var{c} correspond to different @var{y} values.
##
## The values in @var{c} are scaled to span the range of the current
## colormap. Limits may be placed on the color axis by the command
## @code{caxis}, or by setting the @code{clim} property of the parent axis.
##
## The face color of each cell of the mesh is determined by interpolating
## the values of @var{c} for each of the cell's vertices; Contrast this with
## @code{imagesc} which renders one cell for each element of @var{c}.
##
## @code{shading} modifies an attribute determining the manner by which the
## face color of each cell is interpolated from the values of @var{c},
## and the visibility of the cells' edges. By default the attribute is
## @qcode{"faceted"}, which renders a single color for each cell's face with
## the edge visible.
##
## If the first argument @var{hax} is an axes handle, then plot into this axes,
## rather than the current axes returned by @code{gca}.
##
## The optional return value @var{h} is a graphics handle to the created
## surface object.
##
## @seealso{caxis, shading, meshgrid, contour, imagesc}
## @end deftypefn
function h = pcolor (varargin)
[hax, varargin, nargin] = __plt_get_axis_arg__ ("pcolor", varargin{:});
if (nargin == 1)
c = varargin{1};
[nr, nc] = size (c);
x = 1:nc;
y = 1:nr;
z = zeros (nr, nc);
elseif (nargin == 3)
x = varargin{1};
y = varargin{2};
c = varargin{3};
z = zeros (size (c));
else
print_usage ();
endif
oldfig = [];
if (! isempty (hax))
oldfig = get (0, "currentfigure");
endif
unwind_protect
hax = newplot (hax);
htmp = surface (x, y, z, c);
set (htmp, "facecolor", "flat");
if (! ishold ())
set (hax, "view", [0, 90], "box", "on");
set (hax, "xlimmode", "auto", "ylimmode", "auto", "zlimmode", "auto",
"xlimitmethod", "tight", "ylimitmethod", "tight",
"zlimitmethod", "tight");
endif
unwind_protect_cleanup
if (! isempty (oldfig))
set (0, "currentfigure", oldfig);
endif
end_unwind_protect
if (nargout > 0)
h = htmp;
endif
endfunction
%!demo
%! clf;
%! colormap ("default");
%! Z = peaks ();
%! pcolor (Z);
%! title ("pcolor() of peaks with facet shading");
%!demo
%! clf;
%! colormap ("default");
%! [X,Y,Z] = sombrero ();
%! [Fx,Fy] = gradient (Z);
%! pcolor (X,Y,Fx+Fy);
%! shading interp;
%! axis tight;
%! title ("pcolor() of peaks with interp shading");
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