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applyhatch(h,patterns,colorlist)
APPLYHATCH Apply hatched patterns to a figure
APPLYHATCH(H,PATTERNS) creates a new figure from the figure H by
replacing distinct colors in H with the black and white
patterns in PATTERNS. The format for PATTERNS can be
a string of the characters '/', '\', '|', '-', '+', 'x', '.'
a cell array of matrices of zeros (white) and ones (black)
APPLYHATCH(H,PATTERNS,COLORS) maps the colors in the n by 3
matrix COLORS to PATTERNS. Each row of COLORS specifies an RGB
color value.
Note this function makes a bitmap image of H and so is limited
to low-resolution, bitmap output.
Example 1:
bar(rand(3,4));
applyhatch(gcf,'\-x.');
Example 2:
colormap(cool(6));
pie(rand(6,1));
legend('Jan','Feb','Mar','Apr','May','Jun');
applyhatch(gcf,'|-+.\/',cool(6));
See also: MAKEHATCH
| This function calls | |
|---|---|
function applyhatch(h,patterns,colorlist)
% By Ben Hinkle, bhinkle@mathworks.com
% This code is in the public domain.
oldppmode = get(h,'paperpositionmode');
oldunits = get(h,'units');
set(h,'paperpositionmode','auto');
set(h,'units','pixels');
figsize = get(h,'position');
if nargin == 2
colorlist = [];
end
bits = hardcopy(h,'-dzbuffer','-r0');
set(h,'paperpositionmode',oldppmode);
bwidth = size(bits,2);
bheight = size(bits,1);
bsize = bwidth * bheight;
if ~isempty(colorlist)
colorlist = uint8(255*colorlist);
[colors,colori] = nextnonbw(0,colorlist,bits);
else
colors = (bits(:,:,1) ~= bits(:,:,2)) | ...
(bits(:,:,1) ~= bits(:,:,3));
end
pati = 1;
colorind = find(colors);
while ~isempty(colorind)
colorval(1) = bits(colorind(1));
colorval(2) = bits(colorind(1)+bsize);
colorval(3) = bits(colorind(1)+2*bsize);
if iscell(patterns)
pattern = patterns{pati};
elseif isa(patterns,'char')
pattern = makehatch(patterns(pati));
else
pattern = patterns;
end
pattern = uint8(255*(1-pattern));
pheight = size(pattern,2);
pwidth = size(pattern,1);
ratioh = ceil(bheight/pheight);
ratiow = ceil(bwidth/pwidth);
bigpattern = repmat(pattern,[ratioh ratiow]);
if ratioh*pheight > bheight
bigpattern(bheight+1:end,:) = [];
end
if ratiow*pwidth > bwidth
bigpattern(:,bwidth+1:end) = [];
end
bigpattern = repmat(bigpattern,[1 1 3]);
color = (bits(:,:,1) == colorval(1)) & ...
(bits(:,:,2) == colorval(2)) & ...
(bits(:,:,3) == colorval(3));
color = repmat(color,[1 1 3]);
bits(color) = bigpattern(color);
if ~isempty(colorlist)
[colors,colori] = nextnonbw(colori,colorlist,bits);
else
colors = (bits(:,:,1) ~= bits(:,:,2)) | ...
(bits(:,:,1) ~= bits(:,:,3));
end
colorind = find(colors);
pati = (pati + 1);
if pati > length(patterns)
pati = 1;
end
end
newfig = figure('units','pixels','visible','off');
imaxes = axes('parent',newfig,'units','pixels');
im = image(bits,'parent',imaxes);
fpos = get(newfig,'position');
set(newfig,'position',[fpos(1:2) figsize(3) figsize(4)+1]);
set(imaxes,'position',[0 0 figsize(3) figsize(4)+1],'visible','off');
set(newfig,'visible','on');
function [colors,out] = nextnonbw(ind,colorlist,bits)
out = ind+1;
colors = [];
while out <= size(colorlist,1)
if isequal(colorlist(out,:),[255 255 255]) | ...
isequal(colorlist(out,:),[0 0 0])
out = out+1;
else
colors = (colorlist(out,1) == bits(:,:,1)) & ...
(colorlist(out,2) == bits(:,:,2)) & ...
(colorlist(out,3) == bits(:,:,3));
return
end
end