%EXPORT_FIG Exports figures suitable for publication
%
% Examples:
% im = export_fig
% [im alpha] = export_fig
% export_fig filename
% export_fig filename -format1 -format2
% export_fig ... -nocrop
% export_fig ... -transparent
% export_fig ... -native
% export_fig ... -m<val>
% export_fig ... -r<val>
% export_fig ... -a<val>
% export_fig ... -q<val>
% export_fig ... -<renderer>
% export_fig ... -<colorspace>
% export_fig ... -append
% export_fig ... -bookmark
% export_fig(..., handle)
%
% This function saves a figure or single axes to one or more vector and/or
% bitmap file formats, and/or outputs a rasterized version to the
% workspace, with the following properties:
% - Figure/axes reproduced as it appears on screen
% - Cropped borders (optional)
% - Embedded fonts (vector formats)
% - Improved line and grid line styles
% - Anti-aliased graphics (bitmap formats)
% - Render images at native resolution (optional for bitmap formats)
% - Transparent background supported (pdf, eps, png)
% - Semi-transparent patch objects supported (png only)
% - RGB, CMYK or grayscale output (CMYK only with pdf, eps, tiff)
% - Variable image compression, including lossless (pdf, eps, jpg)
% - Optionally append to file (pdf, tiff)
% - Vector formats: pdf, eps
% - Bitmap formats: png, tiff, jpg, bmp, export to workspace
%
% This function is especially suited to exporting figures for use in
% publications and presentations, because of the high quality and
% portability of media produced.
%
% Note that the background color and figure dimensions are reproduced
% (the latter approximately, and ignoring cropping & magnification) in the
% output file. For transparent background (and semi-transparent patch
% objects), use the -transparent option or set the figure 'Color' property
% to 'none'. To make axes transparent set the axes 'Color' property to
% 'none'. Pdf, eps and png are the only file formats to support a
% transparent background, whilst the png format alone supports transparency
% of patch objects.
%
% The choice of renderer (opengl, zbuffer or painters) has a large impact
% on the quality of output. Whilst the default value (opengl for bitmaps,
% painters for vector formats) generally gives good results, if you aren't
% satisfied then try another renderer. Notes: 1) For vector formats (eps,
% pdf), only painters generates vector graphics. 2) For bitmaps, only
% opengl can render transparent patch objects correctly. 3) For bitmaps,
% only painters will correctly scale line dash and dot lengths when
% magnifying or anti-aliasing. 4) Fonts may be substitued with Courier when
% using painters.
%
% When exporting to vector format (pdf & eps) and bitmap format using the
% painters renderer, this function requires that ghostscript is installed
% on your system. You can download this from:
% http://www.ghostscript.com
% When exporting to eps it additionally requires pdftops, from the Xpdf
% suite of functions. You can download this from:
% http://www.foolabs.com/xpdf
%
%IN:
% filename - string containing the name (optionally including full or
% relative path) of the file the figure is to be saved as. If
% a path is not specified, the figure is saved in the current
% directory. If no name and no output arguments are specified,
% the default name, 'export_fig_out', is used. If neither a
% file extension nor a format are specified, a ".png" is added
% and the figure saved in that format.
% -format1, -format2, etc. - strings containing the extensions of the
% file formats the figure is to be saved as.
% Valid options are: '-pdf', '-eps', '-png',
% '-tif', '-jpg' and '-bmp'. All combinations
% of formats are valid.
% -nocrop - option indicating that the borders of the output are not to
% be cropped.
% -transparent - option indicating that the figure background is to be
% made transparent (png, pdf and eps output only).
% -m<val> - option where val indicates the factor to magnify the
% on-screen figure pixel dimensions by when generating bitmap
% outputs. Default: '-m1'.
% -r<val> - option val indicates the resolution (in pixels per inch) to
% export bitmap and vector outputs at, keeping the dimensions
% of the on-screen figure. Default: '-r864' (for vector output
% only). Note that the -m option overides the -r option for
% bitmap outputs only.
% -native - option indicating that the output resolution (when outputting
% a bitmap format) should be such that the vertical resolution
% of the first suitable image found in the figure is at the
% native resolution of that image. To specify a particular
% image to use, give it the tag 'export_fig_native'. Notes:
% This overrides any value set with the -m and -r options. It
% also assumes that the image is displayed front-to-parallel
% with the screen. The output resolution is approximate and
% should not be relied upon. Anti-aliasing can have adverse
% effects on image quality (disable with the -a1 option).
% -a1, -a2, -a3, -a4 - option indicating the amount of anti-aliasing to
% use for bitmap outputs. '-a1' means no anti-
% aliasing; '-a4' is the maximum amount (default).
% -<renderer> - option to force a particular renderer (painters, opengl
% or zbuffer) to be used over the default: opengl for
% bitmaps; painters for vector formats.
% -<colorspace> - option indicating which colorspace color figures should
% be saved in: RGB (default), CMYK or gray. CMYK is only
% supported in pdf, eps and tiff output.
% -q<val> - option to vary bitmap image quality (in pdf, eps and jpg
% files only). Larger val, in the range 0-100, gives higher
% quality/lower compression. val > 100 gives lossless
% compression. Default: '-q95' for jpg, ghostscript prepress
% default for pdf & eps. Note: lossless compression can
% sometimes give a smaller file size than the default lossy
% compression, depending on the type of images.
% -append - option indicating that if the file (pdfs only) already
% exists, the figure is to be appended as a new page, instead
% of being overwritten (default).
% -bookmark - option to indicate that a bookmark with the name of the
% figure is to be created in the output file (pdf only).
% handle - The handle of the figure, axes or uipanels (can be an array of
% handles, but the objects must be in the same figure) to be
% saved. Default: gcf.
%
%OUT:
% im - MxNxC uint8 image array of the figure.
% alpha - MxN single array of alphamatte values in range [0,1], for the
% case when the background is transparent.
%
% Some helpful examples and tips can be found at:
% http://sites.google.com/site/oliverwoodford/software/export_fig
%
% See also PRINT, SAVEAS.
% Copyright (C) Oliver Woodford 2008-2012
% The idea of using ghostscript is inspired by Peder Axensten's SAVEFIG
% (fex id: 10889) which is itself inspired by EPS2PDF (fex id: 5782).
% The idea for using pdftops came from the MATLAB newsgroup (id: 168171).
% The idea of editing the EPS file to change line styles comes from Jiro
% Doke's FIXPSLINESTYLE (fex id: 17928).
% The idea of changing dash length with line width came from comments on
% fex id: 5743, but the implementation is mine :)
% The idea of anti-aliasing bitmaps came from Anders Brun's MYAA (fex id:
% 20979).
% The idea of appending figures in pdfs came from Matt C in comments on the
% FEX (id: 23629)
% Thanks to Roland Martin for pointing out the colour MATLAB
% bug/feature with colorbar axes and transparent backgrounds.
% Thanks also to Andrew Matthews for describing a bug to do with the figure
% size changing in -nodisplay mode. I couldn't reproduce it, but included a
% fix anyway.
% Thanks to Tammy Threadgill for reporting a bug where an axes is not
% isolated from gui objects.
% 23/02/12: Ensure that axes limits don't change during printing
% 14/03/12: Fix bug in fixing the axes limits (thanks to Tobias Lamour for
% reporting it).
% 02/05/12: Incorporate patch of Petr Nechaev (many thanks), enabling
% bookmarking of figures in pdf files.
% 09/05/12: Incorporate patch of Arcelia Arrieta (many thanks), to keep
% tick marks fixed.
% 12/12/12: Add support for isolating uipanels. Thanks to michael for
% suggesting it.
% 25/09/13: Add support for changing resolution in vector formats. Thanks
% to Jan Jaap Meijer for suggesting it.
function [im, alpha] = export_fig(varargin)
% Make sure the figure is rendered correctly _now_ so that properties like
% axes limits are up-to-date.
drawnow;
% Parse the input arguments
[fig, options] = parse_args(nargout, varargin{:});
% Isolate the subplot, if it is one
cls = all(ismember(get(fig, 'Type'), {'axes', 'uipanel'}));
if cls
% Given handles of one or more axes, so isolate them from the rest
fig = isolate_axes(fig);
else
% Check we have a figure
if ~isequal(get(fig, 'Type'), 'figure');
error('Handle must be that of a figure, axes or uipanel');
end
% Get the old InvertHardcopy mode
old_mode = get(fig, 'InvertHardcopy');
end
% Hack the font units where necessary (due to a font rendering bug in
% print?). This may not work perfectly in all cases. Also it can change the
% figure layout if reverted, so use a copy.
magnify = options.magnify * options.aa_factor;
if isbitmap(options) && magnify ~= 1
fontu = findobj(fig, 'FontUnits', 'normalized');
if ~isempty(fontu)
% Some normalized font units found
if ~cls
fig = copyfig(fig);
set(fig, 'Visible', 'off');
fontu = findobj(fig, 'FontUnits', 'normalized');
cls = true;
end
set(fontu, 'FontUnits', 'points');
end
end
% MATLAB "feature": axes limits and tick marks can change when printing
Hlims = findall(fig, 'Type', 'axes');
if ~cls
% Record the old axes limit and tick modes
Xlims = make_cell(get(Hlims, 'XLimMode'));
Ylims = make_cell(get(Hlims, 'YLimMode'));
Zlims = make_cell(get(Hlims, 'ZLimMode'));
Xtick = make_cell(get(Hlims, 'XTickMode'));
Ytick = make_cell(get(Hlims, 'YTickMode'));
Ztick = make_cell(get(Hlims, 'ZTickMode'));
end
% Set all axes limit and tick modes to manual, so the limits and ticks can't change
set(Hlims, 'XLimMode', 'manual', 'YLimMode', 'manual', 'ZLimMode', 'manual', 'XTickMode', 'manual', 'YTickMode', 'manual', 'ZTickMode', 'manual');
% Set to print exactly what is there
set(fig, 'InvertHardcopy', 'off');
% Set the renderer
switch options.renderer
case 1
renderer = '-opengl';
case 2
renderer = '-zbuffer';
case 3
renderer = '-painters';
otherwise
renderer = '-opengl'; % Default for bitmaps
end
% Do the bitmap formats first
if isbitmap(options)
% Get the background colour
if options.transparent && (options.png || options.alpha)
% Get out an alpha channel
% MATLAB "feature": black colorbar axes can change to white and vice versa!
hCB = findobj(fig, 'Type', 'axes', 'Tag', 'Colorbar');
if isempty(hCB)
yCol = [];
xCol = [];
else
yCol = get(hCB, 'YColor');
xCol = get(hCB, 'XColor');
if iscell(yCol)
yCol = cell2mat(yCol);
xCol = cell2mat(xCol);
end
yCol = sum(yCol, 2);
xCol = sum(xCol, 2);
end
% MATLAB "feature": apparently figure size can change when changing
% colour in -nodisplay mode
pos = get(fig, 'Position');
% Set the background colour to black, and set size in case it was
% changed internally
tcol = get(fig, 'Color');
set(fig, 'Color', 'k', 'Position', pos);
% Correct the colorbar axes colours
set(hCB(yCol==0), 'YColor', [0 0 0]);
set(hCB(xCol==0), 'XColor', [0 0 0]);
% Print large version to array
B = print2array(fig, magnify, renderer);
% Downscale the image
B = downsize(single(B), options.aa_factor);
% Set background to white (and set size)
set(fig, 'Color', 'w', 'Position', pos);
% Correct the colorbar axes colours
set(hCB(yCol==3), 'YColor', [1 1 1]);
set(hCB(xCol==3), 'XColor', [1 1 1]);
% Print large version to array
A = print2array(fig, magnify, renderer);
% Downscale the image
A = downsize(single(A), options.aa_factor);
% Set the background colour (and size) back to normal
set(fig, 'Color', tcol, 'Position', pos);
% Compute the alpha map
alpha = round(sum(B - A, 3)) / (255 * 3) + 1;
A = alpha;
A(A==0) = 1;
A = B ./ A(:,:,[1 1 1]);
clear B
% Convert to greyscale
if options.colourspace == 2
A = rgb2grey(A);
end
A = uint8(A);
% Crop the background
if options.crop
[alpha, v] = crop_background(alpha, 0);
A = A(v(1):v(2),v(3):v(4),:);
end
if options.png
% Compute the resolution
res = options.magnify * get(0, 'ScreenPixelsPerInch') / 25.4e-3;
% Save the png
imwrite(A, [options.name '.png'], 'Alpha', double(alpha), 'ResolutionUnit', 'meter', 'XResolution', res, 'YResolution', res);
% Clear the png bit
options.png = false;
end
% Return only one channel for greyscale
if isbitmap(options)
A = check_greyscale(A);
end
if options.alpha
% Store the image
im = A;
% Clear the alpha bit
options.alpha = false;
end
% Get the non-alpha image
if isbitmap(options)
alph = alpha(:,:,ones(1, size(A, 3)));
A = uint8(single(A) .* alph + 255 * (1 - alph));
clear alph
end
if options.im
% Store the new image
im = A;
end
else
% Print large version to array
if options.transparent
% MATLAB "feature": apparently figure size can change when changing
% colour in -nodisplay mode
pos = get(fig, 'Position');
tcol = get(fig, 'Color');
set(fig, 'Color', 'w', 'Position', pos);
A = print2array(fig, magnify, renderer);
set(fig, 'Color', tcol, 'Position', pos);
tcol = 255;
else
[A, tcol] = print2array(fig, magnify, renderer);
end
% Crop the background
if options.crop
A = crop_background(A, tcol);
end
% Downscale the image
A = downsize(A, options.aa_factor);
if options.colourspace == 2
% Convert to greyscale
A = rgb2grey(A);
else
% Return only one channel for greyscale
A = check_greyscale(A);
end
% Outputs
if options.im
im = A;
end
if options.alpha
im = A;
alpha = zeros(size(A, 1), size(A, 2), 'single');
end
end
% Save the images
if options.png
res = options.magnify * get(0, 'ScreenPixelsPerInch') / 25.4e-3;
imwrite(A, [options.name '.png'], 'ResolutionUnit', 'meter', 'XResolution', res, 'YResolution', res);
end
if options.bmp
imwrite(A, [options.name '.bmp']);
end
% Save jpeg with given quality
if options.jpg
quality = options.quality;
if isempty(quality)
quality = 95;
end
if quality > 100
imwrite(A, [options.name '.jpg'], 'Mode', 'lossless');
else
imwrite(A, [options.name '.jpg'], 'Quality', quality);
end
end
% Save tif images in cmyk if wanted (and possible)
if options.tif
if options.colourspace == 1 && size(A, 3) == 3
A = double(255 - A);
K = min(A, [], 3);
K_ = 255 ./ max(255 - K, 1);
C = (A(:,:,1) - K) .* K_;
M = (A(:,:,2) - K) .* K_;
Y = (A(:,:,3) - K) .* K_;
A = uint8(cat(3, C, M, Y, K));
clear C M Y K K_
end
append_mode = {'overwrite', 'append'};
imwrite(A, [options.name '.tif'], 'Resolution', options.magnify*get(0, 'ScreenPixelsPerInch'), 'WriteMode', append_mode{options.append+1});
end
end
% Now do the vector formats
if isvector(options)
% Set the default renderer to painters
if ~options.renderer
renderer = '-painters';
end
% Generate some filenames
tmp_nam = [tempname '.eps'];
if options.pdf
pdf_nam = [options.name '.pdf'];
else
pdf_nam = [tempname '.pdf'];
end
% Generate the options for print
p2eArgs = {renderer, sprintf('-r%d', options.resolution)};
if options.colourspace == 1
p2eArgs = [p2eArgs {'-cmyk'}];
end
if ~options.crop
p2eArgs = [p2eArgs {'-loose'}];
end
try
% Generate an eps
print2eps(tmp_nam, fig, p2eArgs{:});
% Remove the background, if desired
if options.transparent && ~isequal(get(fig, 'Color'), 'none')
eps_remove_background(tmp_nam);
end
% Add a bookmark to the PDF if desired
if options.bookmark
fig_nam = get(fig, 'Name');
if isempty(fig_nam)
warning('export_fig:EmptyBookmark', 'Bookmark requested for figure with no name. Bookmark will be empty.');
end
add_bookmark(tmp_nam, fig_nam);
end
% Generate a pdf
eps2pdf(tmp_nam, pdf_nam, 1, options.append, options.colourspace==2, options.quality);
catch ex
% Delete the eps
delete(tmp_nam);
rethrow(ex);
end
% Delete the eps
delete(tmp_nam);
if options.eps
try
% Generate an eps from the pdf
pdf2eps(pdf_nam, [options.name '.eps']);
catch ex
if ~options.pdf
% Delete the pdf
delete(pdf_nam);
end
rethrow(ex);
end
if ~options.pdf
% Delete the pdf
delete(pdf_nam);
end
end
end
if cls
% Close the created figure
close(fig);
else
% Reset the hardcopy mode
set(fig, 'InvertHardcopy', old_mode);
% Reset the axes limit and tick modes
for a = 1:numel(Hlims)
set(Hlims(a), 'XLimMode', Xlims{a}, 'YLimMode', Ylims{a}, 'ZLimMode', Zlims{a}, 'XTickMode', Xtick{a}, 'YTickMode', Ytick{a}, 'ZTickMode', Ztick{a});
end
end
return
function [fig, options] = parse_args(nout, varargin)
% Parse the input arguments
% Set the defaults
fig = get(0, 'CurrentFigure');
options = struct('name', 'export_fig_out', ...
'crop', true, ...
'transparent', false, ...
'renderer', 0, ... % 0: default, 1: OpenGL, 2: ZBuffer, 3: Painters
'pdf', false, ...
'eps', false, ...
'png', false, ...
'tif', false, ...
'jpg', false, ...
'bmp', false, ...
'colourspace', 0, ... % 0: RGB/gray, 1: CMYK, 2: gray
'append', false, ...
'im', nout == 1, ...
'alpha', nout == 2, ...
'aa_factor', 3, ...
'magnify', [], ...
'resolution', [], ...
'bookmark', false, ...
'quality', []);
native = false; % Set resolution to native of an image
% Go through the other arguments
for a = 1:nargin-1
if all(ishandle(varargin{a}))
fig = varargin{a};
elseif ischar(varargin{a}) && ~isempty(varargin{a})
if varargin{a}(1) == '-'
switch lower(varargin{a}(2:end))
case 'nocrop'
options.crop = false;
case {'trans', 'transparent'}
options.transparent = true;
case 'opengl'
options.renderer = 1;
case 'zbuffer'
options.renderer = 2;
case 'painters'
options.renderer = 3;
case 'pdf'
options.pdf = true;
case 'eps'
options.eps = true;
case 'png'
options.png = true;
case {'tif', 'tiff'}
options.tif = true;
case {'jpg', 'jpeg'}
options.jpg = true;
case 'bmp'
options.bmp = true;
case 'rgb'
options.colourspace = 0;
case 'cmyk'
options.colourspace = 1;
case {'gray', 'grey'}
options.colourspace = 2;
case {'a1', 'a2', 'a3', 'a4'}
options.aa_factor = str2double(varargin{a}(3));
case 'append'
options.append = true;
case 'bookmark'
options.bookmark = true;
case 'native'
native = true;
otherwise
val = str2double(regexp(varargin{a}, '(?<=-(m|M|r|R|q|Q))(\d*\.)?\d+(e-?\d+)?', 'match'));
if ~isscalar(val)
error('option %s not recognised', varargin{a});
end
switch lower(varargin{a}(2))
case 'm'
options.magnify = val;
case 'r'
options.resolution = val;
case 'q'
options.quality = max(val, 0);
end
end
else
[p, options.name, ext] = fileparts(varargin{a});
if ~isempty(p)
options.name = [p filesep options.name];
end
switch lower(ext)
case {'.tif', '.tiff'}
options.tif = true;
case {'.jpg', '.jpeg'}
options.jpg = true;
case '.png'
options.png = true;
case '.bmp'
options.bmp = true;
case '.eps'
options.eps = true;
case '.pdf'
options.pdf = true;
otherwise
options.name = varargin{a};
end
end
end
end
% Compute the magnification and resolution
if isempty(options.magnify)
if isempty(options.resolution)
options.magnify = 1;
options.resolution = 864;
else
options.magnify = options.resolution ./ get(0, 'ScreenPixelsPerInch');
end
elseif isempty(options.resolution)
options.resolution = 864;
end
% Check we have a figure handle
if isempty(fig)
error('No figure found');
end
% Set the default format
if ~isvector(options) && ~isbitmap(options)
options.png = true;
end
% Check whether transparent background is wanted (old way)
if isequal(get(ancestor(fig(1), 'figure'), 'Color'), 'none')
options.transparent = true;
end
% If requested, set the resolution to the native vertical resolution of the
% first suitable image found
if native && isbitmap(options)
% Find a suitable image
list = findobj(fig, 'Type', 'image', 'Tag', 'export_fig_native');
if isempty(list)
list = findobj(fig, 'Type', 'image', 'Visible', 'on');
end
for hIm = list(:)'
% Check height is >= 2
height = size(get(hIm, 'CData'), 1);
if height < 2
continue
end
% Account for the image filling only part of the axes, or vice
% versa
yl = get(hIm, 'YData');
if isscalar(yl)
yl = [yl(1)-0.5 yl(1)+height+0.5];
else
if ~diff(yl)
continue
end
yl = yl + [-0.5 0.5] * (diff(yl) / (height - 1));
end
hAx = get(hIm, 'Parent');
yl2 = get(hAx, 'YLim');
% Find the pixel height of the axes
oldUnits = get(hAx, 'Units');
set(hAx, 'Units', 'pixels');
pos = get(hAx, 'Position');
set(hAx, 'Units', oldUnits);
if ~pos(4)
continue
end
% Found a suitable image
% Account for stretch-to-fill being disabled
pbar = get(hAx, 'PlotBoxAspectRatio');
pos = min(pos(4), pbar(2)*pos(3)/pbar(1));
% Set the magnification to give native resolution
options.magnify = (height * diff(yl2)) / (pos * diff(yl));
break
end
end
return
function A = downsize(A, factor)
% Downsample an image
if factor == 1
% Nothing to do
return
end
try
% Faster, but requires image processing toolbox
A = imresize(A, 1/factor, 'bilinear');
catch
% No image processing toolbox - resize manually
% Lowpass filter - use Gaussian as is separable, so faster
% Compute the 1d Gaussian filter
filt = (-factor-1:factor+1) / (factor * 0.6);
filt = exp(-filt .* filt);
% Normalize the filter
filt = single(filt / sum(filt));
% Filter the image
padding = floor(numel(filt) / 2);
for a = 1:size(A, 3)
A(:,:,a) = conv2(filt, filt', single(A([ones(1, padding) 1:end repmat(end, 1, padding)],[ones(1, padding) 1:end repmat(end, 1, padding)],a)), 'valid');
end
% Subsample
A = A(1+floor(mod(end-1, factor)/2):factor:end,1+floor(mod(end-1, factor)/2):factor:end,:);
end
return
function A = rgb2grey(A)
A = cast(reshape(reshape(single(A), [], 3) * single([0.299; 0.587; 0.114]), size(A, 1), size(A, 2)), class(A));
return
function A = check_greyscale(A)
% Check if the image is greyscale
if size(A, 3) == 3 && ...
all(reshape(A(:,:,1) == A(:,:,2), [], 1)) && ...
all(reshape(A(:,:,2) == A(:,:,3), [], 1))
A = A(:,:,1); % Save only one channel for 8-bit output
end
return
function [A, v] = crop_background(A, bcol)
% Map the foreground pixels
[h, w, c] = size(A);
if isscalar(bcol) && c > 1
bcol = bcol(ones(1, c));
end
bail = false;
for l = 1:w
for a = 1:c
if ~all(A(:,l,a) == bcol(a))
bail = true;
break;
end
end
if bail
break;
end
end
bail = false;
for r = w:-1:l
for a = 1:c
if ~all(A(:,r,a) == bcol(a))
bail = true;
break;
end
end
if bail
break;
end
end
bail = false;
for t = 1:h
for a = 1:c
if ~all(A(t,:,a) == bcol(a))
bail = true;
break;
end
end
if bail
break;
end
end
bail = false;
for b = h:-1:t
for a = 1:c
if ~all(A(b,:,a) == bcol(a))
bail = true;
break;
end
end
if bail
break;
end
end
% Crop the background, leaving one boundary pixel to avoid bleeding on
% resize
v = [max(t-1, 1) min(b+1, h) max(l-1, 1) min(r+1, w)];
A = A(v(1):v(2),v(3):v(4),:);
return
function eps_remove_background(fname)
% Remove the background of an eps file
% Open the file
fh = fopen(fname, 'r+');
if fh == -1
error('Not able to open file %s.', fname);
end
% Read the file line by line
while true
% Get the next line
l = fgets(fh);
if isequal(l, -1)
break; % Quit, no rectangle found
end
% Check if the line contains the background rectangle
if isequal(regexp(l, ' *0 +0 +\d+ +\d+ +rf *[\n\r]+', 'start'), 1)
% Set the line to whitespace and quit
l(1:regexp(l, '[\n\r]', 'start', 'once')-1) = ' ';
fseek(fh, -numel(l), 0);
fprintf(fh, l);
break;
end
end
% Close the file
fclose(fh);
return
function b = isvector(options)
b = options.pdf || options.eps;
return
function b = isbitmap(options)
b = options.png || options.tif || options.jpg || options.bmp || options.im || options.alpha;
return
% Helper function
function A = make_cell(A)
if ~iscell(A)
A = {A};
end
return
function add_bookmark(fname, bookmark_text)
% Adds a bookmark to the temporary EPS file after %%EndPageSetup
% Read in the file
fh = fopen(fname, 'r');
if fh == -1
error('File %s not found.', fname);
end
try
fstrm = fread(fh, '*char')';
catch ex
fclose(fh);
rethrow(ex);
end
fclose(fh);
% Include standard pdfmark prolog to maximize compatibility
fstrm = strrep(fstrm, '%%BeginProlog', sprintf('%%%%BeginProlog\n/pdfmark where {pop} {userdict /pdfmark /cleartomark load put} ifelse'));
% Add page bookmark
fstrm = strrep(fstrm, '%%EndPageSetup', sprintf('%%%%EndPageSetup\n[ /Title (%s) /OUT pdfmark',bookmark_text));
% Write out the updated file
fh = fopen(fname, 'w');
if fh == -1
error('Unable to open %s for writing.', fname);
end
try
fwrite(fh, fstrm, 'char*1');
catch ex
fclose(fh);
rethrow(ex);
end
fclose(fh);
return