Mercurial > hg > camir-aes2014
view toolboxes/FullBNT-1.0.7/KPMtools/exportfig.m @ 0:e9a9cd732c1e tip
first hg version after svn
| author | wolffd |
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| date | Tue, 10 Feb 2015 15:05:51 +0000 |
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function varargout = exportfig(varargin) %EXPORTFIG Export a figure. % EXPORTFIG(H, FILENAME) writes the figure H to FILENAME. H is % a figure handle and FILENAME is a string that specifies the % name of the output file. % % EXPORTFIG(H, FILENAME, OPTIONS) writes the figure H to FILENAME % with options initially specified by the structure OPTIONS. The % field names of OPTIONS must be legal parameters listed below % and the field values must be legal values for the corresponding % parameter. Default options can be set in releases prior to R12 % by storing the OPTIONS structure in the root object's appdata % with the command % setappdata(0,'exportfigdefaults', OPTIONS) % and for releases after R12 by setting the preference with the % command % setpref('exportfig', 'defaults', OPTIONS) % % EXPORTFIG(...,PARAM1,VAL1,PARAM2,VAL2,...) specifies % parameters that control various characteristics of the output % file. Any parameter value can be the string 'auto' which means % the parameter uses the default factory behavior, overriding % any other default for the parameter. % % Format Paramter: % 'Format' a string % specifies the output format. Defaults to 'eps'. For a % list of export formats type 'help print'. % 'Preview' one of the strings 'none', 'tiff' % specifies a preview for EPS files. Defaults to 'none'. % % Size Parameters: % 'Width' a positive scalar % specifies the width in the figure's PaperUnits % 'Height' a positive scalar % specifies the height in the figure's PaperUnits % 'Bounds' one of the strings 'tight', 'loose' % specifies a tight or loose bounding box. Defaults to 'tight'. % 'Reference' an axes handle or a string % specifies that the width and height parameters % are relative to the given axes. If a string is % specified then it must evaluate to an axes handle. % % Specifying only one dimension sets the other dimension % so that the exported aspect ratio is the same as the % figure's or reference axes' current aspect ratio. % If neither dimension is specified the size defaults to % the width and height from the figure's or reference % axes' size. Tight bounding boxes are only computed for % 2-D views and in that case the computed bounds enclose all % text objects. % % Rendering Parameters: % 'Color' one of the strings 'bw', 'gray', 'cmyk' % 'bw' specifies that lines and text are exported in % black and all other objects in grayscale % 'gray' specifies that all objects are exported in grayscale % 'rgb' specifies that all objects are exported in color % using the RGB color space % 'cmyk' specifies that all objects are exported in color % using the CMYK color space % 'Renderer' one of 'painters', 'zbuffer', 'opengl' % specifies the renderer to use % 'Resolution' a positive scalar % specifies the resolution in dots-per-inch. % 'LockAxes' one of 0 or 1 % specifies that all axes limits and ticks should be fixed % while exporting. % % The default color setting is 'bw'. % % Font Parameters: % 'FontMode' one of the strings 'scaled', 'fixed' % 'FontSize' a positive scalar % in 'scaled' mode multiplies with the font size of each % text object to obtain the exported font size % in 'fixed' mode specifies the font size of all text % objects in points % 'DefaultFixedFontSize' a positive scalar % in 'fixed' mode specified the default font size in % points % 'FontSizeMin' a positive scalar % specifies the minimum font size allowed after scaling % 'FontSizeMax' a positive scalar % specifies the maximum font size allowed after scaling % 'FontEncoding' one of the strings 'latin1', 'adobe' % specifies the character encoding of the font % 'SeparateText' one of 0 or 1 % specifies that the text objects are stored in separate % file as EPS with the base filename having '_t' appended. % % If FontMode is 'scaled' but FontSize is not specified then a % scaling factor is computed from the ratio of the size of the % exported figure to the size of the actual figure. % % The default 'FontMode' setting is 'scaled'. % % Line Width Parameters: % 'LineMode' one of the strings 'scaled', 'fixed' % 'LineWidth' a positive scalar % 'DefaultFixedLineWidth' a positive scalar % 'LineWidthMin' a positive scalar % specifies the minimum line width allowed after scaling % 'LineWidthMax' a positive scalar % specifies the maximum line width allowed after scaling % The semantics of 'Line' parameters are exactly the % same as the corresponding 'Font' parameters, except that % they apply to line widths instead of font sizes. % % Style Map Parameter: % 'LineStyleMap' one of [], 'bw', or a function name or handle % specifies how to map line colors to styles. An empty % style map means styles are not changed. The style map % 'bw' is a built-in mapping that maps lines with the same % color to the same style and otherwise cycles through the % available styles. A user-specified map is a function % that takes as input a cell array of line objects and % outputs a cell array of line style strings. The default % map is []. % % Examples: % exportfig(gcf,'fig1.eps','height',3); % Exports the current figure to the file named 'fig1.eps' with % a height of 3 inches (assuming the figure's PaperUnits is % inches) and an aspect ratio the same as the figure's aspect % ratio on screen. % % opts = struct('FontMode','fixed','FontSize',10,'height',3); % exportfig(gcf, 'fig2.eps', opts, 'height', 5); % Exports the current figure to 'fig2.eps' with all % text in 10 point fonts and with height 5 inches. % % See also PREVIEWFIG, APPLYTOFIG, RESTOREFIG, PRINT. % Copyright 2000 Ben Hinkle % Email bug reports and comments to bhinkle@mathworks.com if (nargin < 2) error('Too few input arguments'); end % exportfig(H, filename, [options,] ...) H = varargin{1}; if ~LocalIsHG(H,'figure') error('First argument must be a handle to a figure.'); end filename = varargin{2}; if ~ischar(filename) error('Second argument must be a string.'); end paramPairs = {varargin{3:end}}; if nargin > 2 if isstruct(paramPairs{1}) pcell = LocalToCell(paramPairs{1}); paramPairs = {pcell{:}, paramPairs{2:end}}; end end verstr = version; majorver = str2num(verstr(1)); defaults = []; if majorver > 5 if ispref('exportfig','defaults') defaults = getpref('exportfig','defaults'); end elseif exist('getappdata') defaults = getappdata(0,'exportfigdefaults'); end if ~isempty(defaults) dcell = LocalToCell(defaults); paramPairs = {dcell{:}, paramPairs{:}}; end % Do some validity checking on param-value pairs if (rem(length(paramPairs),2) ~= 0) error(['Invalid input syntax. Optional parameters and values' ... ' must be in pairs.']); end auto.format = 'eps'; auto.preview = 'none'; auto.width = -1; auto.height = -1; auto.color = 'bw'; auto.defaultfontsize=10; auto.fontsize = -1; auto.fontmode='scaled'; auto.fontmin = 8; auto.fontmax = 60; auto.defaultlinewidth = 1.0; auto.linewidth = -1; auto.linemode=[]; auto.linemin = 0.5; auto.linemax = 100; auto.fontencoding = 'latin1'; auto.renderer = []; auto.resolution = []; auto.stylemap = []; auto.applystyle = 0; auto.refobj = -1; auto.bounds = 'tight'; explicitbounds = 0; auto.lockaxes = 1; auto.separatetext = 0; opts = auto; % Process param-value pairs args = {}; for k = 1:2:length(paramPairs) param = lower(paramPairs{k}); if ~ischar(param) error('Optional parameter names must be strings'); end value = paramPairs{k+1}; switch (param) case 'format' opts.format = LocalCheckAuto(lower(value),auto.format); if strcmp(opts.format,'preview') error(['Format ''preview'' no longer supported. Use PREVIEWFIG' ... ' instead.']); end case 'preview' opts.preview = LocalCheckAuto(lower(value),auto.preview); if ~strcmp(opts.preview,{'none','tiff'}) error('Preview must be ''none'' or ''tiff''.'); end case 'width' opts.width = LocalToNum(value, auto.width); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.width) error('Width must be a numeric scalar > 0'); end end case 'height' opts.height = LocalToNum(value, auto.height); if ~ischar(value) | ~strcmp(value,'auto') if(~LocalIsPositiveScalar(opts.height)) error('Height must be a numeric scalar > 0'); end end case 'color' opts.color = LocalCheckAuto(lower(value),auto.color); if ~strcmp(opts.color,{'bw','gray','rgb','cmyk'}) error('Color must be ''bw'', ''gray'',''rgb'' or ''cmyk''.'); end case 'fontmode' opts.fontmode = LocalCheckAuto(lower(value),auto.fontmode); if ~strcmp(opts.fontmode,{'scaled','fixed'}) error('FontMode must be ''scaled'' or ''fixed''.'); end case 'fontsize' opts.fontsize = LocalToNum(value,auto.fontsize); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.fontsize) error('FontSize must be a numeric scalar > 0'); end end case 'defaultfixedfontsize' opts.defaultfontsize = LocalToNum(value,auto.defaultfontsize); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.defaultfontsize) error('DefaultFixedFontSize must be a numeric scalar > 0'); end end case 'fontsizemin' opts.fontmin = LocalToNum(value,auto.fontmin); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.fontmin) error('FontSizeMin must be a numeric scalar > 0'); end end case 'fontsizemax' opts.fontmax = LocalToNum(value,auto.fontmax); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.fontmax) error('FontSizeMax must be a numeric scalar > 0'); end end case 'fontencoding' opts.fontencoding = LocalCheckAuto(lower(value),auto.fontencoding); if ~strcmp(opts.fontencoding,{'latin1','adobe'}) error('FontEncoding must be ''latin1'' or ''adobe''.'); end case 'linemode' opts.linemode = LocalCheckAuto(lower(value),auto.linemode); if ~strcmp(opts.linemode,{'scaled','fixed'}) error('LineMode must be ''scaled'' or ''fixed''.'); end case 'linewidth' opts.linewidth = LocalToNum(value,auto.linewidth); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.linewidth) error('LineWidth must be a numeric scalar > 0'); end end case 'defaultfixedlinewidth' opts.defaultlinewidth = LocalToNum(value,auto.defaultlinewidth); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.defaultlinewidth) error(['DefaultFixedLineWidth must be a numeric scalar >' ... ' 0']); end end case 'linewidthmin' opts.linemin = LocalToNum(value,auto.linemin); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.linemin) error('LineWidthMin must be a numeric scalar > 0'); end end case 'linewidthmax' opts.linemax = LocalToNum(value,auto.linemax); if ~ischar(value) | ~strcmp(value,'auto') if ~LocalIsPositiveScalar(opts.linemax) error('LineWidthMax must be a numeric scalar > 0'); end end case 'linestylemap' opts.stylemap = LocalCheckAuto(value,auto.stylemap); case 'renderer' opts.renderer = LocalCheckAuto(lower(value),auto.renderer); if ~ischar(value) | ~strcmp(value,'auto') if ~strcmp(opts.renderer,{'painters','zbuffer','opengl'}) error(['Renderer must be ''painters'', ''zbuffer'' or' ... ' ''opengl''.']); end end case 'resolution' opts.resolution = LocalToNum(value,auto.resolution); if ~ischar(value) | ~strcmp(value,'auto') if ~(isnumeric(value) & (prod(size(value)) == 1) & (value >= 0)); error('Resolution must be a numeric scalar >= 0'); end end case 'applystyle' % means to apply the options and not export opts.applystyle = 1; case 'reference' if ischar(value) if strcmp(value,'auto') opts.refobj = auto.refobj; else opts.refobj = eval(value); end else opts.refobj = value; end if ~LocalIsHG(opts.refobj,'axes') error('Reference object must evaluate to an axes handle.'); end case 'bounds' opts.bounds = LocalCheckAuto(lower(value),auto.bounds); explicitbounds = 1; if ~strcmp(opts.bounds,{'tight','loose'}) error('Bounds must be ''tight'' or ''loose''.'); end case 'lockaxes' opts.lockaxes = LocalToNum(value,auto.lockaxes); case 'separatetext' opts.separatetext = LocalToNum(value,auto.separatetext); otherwise error(['Unrecognized option ' param '.']); end end % make sure figure is up-to-date drawnow; allLines = findall(H, 'type', 'line'); allText = findall(H, 'type', 'text'); allAxes = findall(H, 'type', 'axes'); allImages = findall(H, 'type', 'image'); allLights = findall(H, 'type', 'light'); allPatch = findall(H, 'type', 'patch'); allSurf = findall(H, 'type', 'surface'); allRect = findall(H, 'type', 'rectangle'); allFont = [allText; allAxes]; allColor = [allLines; allText; allAxes; allLights]; allMarker = [allLines; allPatch; allSurf]; allEdge = [allPatch; allSurf]; allCData = [allImages; allPatch; allSurf]; old.objs = {}; old.prop = {}; old.values = {}; % Process format if strncmp(opts.format,'eps',3) & ~strcmp(opts.preview,'none') args = {args{:}, ['-' opts.preview]}; end hadError = 0; oldwarn = warning; try % lock axes limits, ticks and labels if requested if opts.lockaxes old = LocalManualAxesMode(old, allAxes, 'TickMode'); old = LocalManualAxesMode(old, allAxes, 'TickLabelMode'); old = LocalManualAxesMode(old, allAxes, 'LimMode'); end % Process size parameters figurePaperUnits = get(H, 'PaperUnits'); oldFigureUnits = get(H, 'Units'); oldFigPos = get(H,'Position'); set(H, 'Units', figurePaperUnits); figPos = get(H,'Position'); refsize = figPos(3:4); if opts.refobj ~= -1 oldUnits = get(opts.refobj, 'Units'); set(opts.refobj, 'Units', figurePaperUnits); r = get(opts.refobj, 'Position'); refsize = r(3:4); set(opts.refobj, 'Units', oldUnits); end aspectRatio = refsize(1)/refsize(2); if (opts.width == -1) & (opts.height == -1) opts.width = refsize(1); opts.height = refsize(2); elseif (opts.width == -1) opts.width = opts.height * aspectRatio; elseif (opts.height == -1) opts.height = opts.width / aspectRatio; end wscale = opts.width/refsize(1); hscale = opts.height/refsize(2); sizescale = min(wscale,hscale); old = LocalPushOldData(old,H,'PaperPositionMode', ... get(H,'PaperPositionMode')); set(H, 'PaperPositionMode', 'auto'); newPos = [figPos(1) figPos(2)+figPos(4)*(1-hscale) ... wscale*figPos(3) hscale*figPos(4)]; set(H, 'Position', newPos); set(H, 'Units', oldFigureUnits); % process line-style map if ~isempty(opts.stylemap) & ~isempty(allLines) oldlstyle = LocalGetAsCell(allLines,'LineStyle'); old = LocalPushOldData(old, allLines, {'LineStyle'}, ... oldlstyle); newlstyle = oldlstyle; if ischar(opts.stylemap) & strcmpi(opts.stylemap,'bw') newlstyle = LocalMapColorToStyle(allLines); else try newlstyle = feval(opts.stylemap,allLines); catch warning(['Skipping stylemap. ' lasterr]); end end set(allLines,{'LineStyle'},newlstyle); end % Process rendering parameters switch (opts.color) case {'bw', 'gray'} if ~strcmp(opts.color,'bw') & strncmp(opts.format,'eps',3) opts.format = [opts.format 'c']; end args = {args{:}, ['-d' opts.format]}; %compute and set gray colormap oldcmap = get(H,'Colormap'); newgrays = 0.30*oldcmap(:,1) + 0.59*oldcmap(:,2) + 0.11*oldcmap(:,3); newcmap = [newgrays newgrays newgrays]; old = LocalPushOldData(old, H, 'Colormap', oldcmap); set(H, 'Colormap', newcmap); %compute and set ColorSpec and CData properties old = LocalUpdateColors(allColor, 'color', old); old = LocalUpdateColors(allAxes, 'xcolor', old); old = LocalUpdateColors(allAxes, 'ycolor', old); old = LocalUpdateColors(allAxes, 'zcolor', old); old = LocalUpdateColors(allMarker, 'MarkerEdgeColor', old); old = LocalUpdateColors(allMarker, 'MarkerFaceColor', old); old = LocalUpdateColors(allEdge, 'EdgeColor', old); old = LocalUpdateColors(allEdge, 'FaceColor', old); old = LocalUpdateColors(allCData, 'CData', old); case {'rgb','cmyk'} if strncmp(opts.format,'eps',3) opts.format = [opts.format 'c']; args = {args{:}, ['-d' opts.format]}; if strcmp(opts.color,'cmyk') args = {args{:}, '-cmyk'}; end else args = {args{:}, ['-d' opts.format]}; end otherwise error('Invalid Color parameter'); end if (~isempty(opts.renderer)) args = {args{:}, ['-' opts.renderer]}; end if (~isempty(opts.resolution)) | ~strncmp(opts.format,'eps',3) if isempty(opts.resolution) opts.resolution = 0; end args = {args{:}, ['-r' int2str(opts.resolution)]}; end % Process font parameters if ~isempty(opts.fontmode) oldfonts = LocalGetAsCell(allFont,'FontSize'); oldfontunits = LocalGetAsCell(allFont,'FontUnits'); set(allFont,'FontUnits','points'); switch (opts.fontmode) case 'fixed' if (opts.fontsize == -1) set(allFont,'FontSize',opts.defaultfontsize); else set(allFont,'FontSize',opts.fontsize); end case 'scaled' if (opts.fontsize == -1) scale = sizescale; else scale = opts.fontsize; end newfonts = LocalScale(oldfonts,scale,opts.fontmin,opts.fontmax); set(allFont,{'FontSize'},newfonts); otherwise error('Invalid FontMode parameter'); end old = LocalPushOldData(old, allFont, {'FontSize'}, oldfonts); old = LocalPushOldData(old, allFont, {'FontUnits'}, oldfontunits); end if strcmp(opts.fontencoding,'adobe') & strncmp(opts.format,'eps',3) args = {args{:}, '-adobecset'}; end % Process line parameters if ~isempty(opts.linemode) oldlines = LocalGetAsCell(allMarker,'LineWidth'); old = LocalPushOldData(old, allMarker, {'LineWidth'}, oldlines); switch (opts.linemode) case 'fixed' if (opts.linewidth == -1) set(allMarker,'LineWidth',opts.defaultlinewidth); else set(allMarker,'LineWidth',opts.linewidth); end case 'scaled' if (opts.linewidth == -1) scale = sizescale; else scale = opts.linewidth; end newlines = LocalScale(oldlines, scale, opts.linemin, opts.linemax); set(allMarker,{'LineWidth'},newlines); end end % adjust figure bounds to surround axes if strcmp(opts.bounds,'tight') if (~strncmp(opts.format,'eps',3) & LocalHas3DPlot(allAxes)) | ... (strncmp(opts.format,'eps',3) & opts.separatetext) if (explicitbounds == 1) warning(['Cannot compute ''tight'' bounds. Using ''loose''' ... ' bounds.']); end opts.bounds = 'loose'; end end warning('off'); if ~isempty(allAxes) if strncmp(opts.format,'eps',3) if strcmp(opts.bounds,'loose') args = {args{:}, '-loose'}; end old = LocalPushOldData(old,H,'Position', oldFigPos); elseif strcmp(opts.bounds,'tight') oldaunits = LocalGetAsCell(allAxes,'Units'); oldapos = LocalGetAsCell(allAxes,'Position'); oldtunits = LocalGetAsCell(allText,'units'); oldtpos = LocalGetAsCell(allText,'Position'); set(allAxes,'units','points'); apos = LocalGetAsCell(allAxes,'Position'); oldunits = get(H,'Units'); set(H,'units','points'); origfr = get(H,'position'); fr = []; for k=1:length(allAxes) if ~strcmpi(get(allAxes(k),'Tag'),'legend') axesR = apos{k}; r = LocalAxesTightBoundingBox(axesR, allAxes(k)); r(1:2) = r(1:2) + axesR(1:2); fr = LocalUnionRect(fr,r); end end if isempty(fr) fr = [0 0 origfr(3:4)]; end for k=1:length(allAxes) ax = allAxes(k); r = apos{k}; r(1:2) = r(1:2) - fr(1:2); set(ax,'Position',r); end old = LocalPushOldData(old, allAxes, {'Position'}, oldapos); old = LocalPushOldData(old, allText, {'Position'}, oldtpos); old = LocalPushOldData(old, allText, {'Units'}, oldtunits); old = LocalPushOldData(old, allAxes, {'Units'}, oldaunits); old = LocalPushOldData(old, H, 'Position', oldFigPos); old = LocalPushOldData(old, H, 'Units', oldFigureUnits); r = [origfr(1) origfr(2)+origfr(4)-fr(4) fr(3:4)]; set(H,'Position',r); else args = {args{:}, '-loose'}; old = LocalPushOldData(old,H,'Position', oldFigPos); end end % Process text in a separate file if needed if opts.separatetext & ~opts.applystyle % First hide all text and export oldtvis = LocalGetAsCell(allText,'visible'); set(allText,'visible','off'); oldax = LocalGetAsCell(allAxes,'XTickLabel',1); olday = LocalGetAsCell(allAxes,'YTickLabel',1); oldaz = LocalGetAsCell(allAxes,'ZTickLabel',1); null = cell(length(oldax),1); [null{:}] = deal([]); set(allAxes,{'XTickLabel'},null); set(allAxes,{'YTickLabel'},null); set(allAxes,{'ZTickLabel'},null); print(H, filename, args{:}); set(allText,{'Visible'},oldtvis); set(allAxes,{'XTickLabel'},oldax); set(allAxes,{'YTickLabel'},olday); set(allAxes,{'ZTickLabel'},oldaz); % Now hide all non-text and export as eps in painters [path, name, ext] = fileparts(filename); tfile = fullfile(path,[name '_t.eps']); tfile2 = fullfile(path,[name '_t2.eps']); foundRenderer = 0; for k=1:length(args) if strncmp('-d',args{k},2) args{k} = '-deps'; elseif strncmp('-zbuffer',args{k},8) | ... strncmp('-opengl', args{k},6) args{k} = '-painters'; foundRenderer = 1; end end if ~foundRenderer args = {args{:}, '-painters'}; end allNonText = [allLines; allLights; allPatch; ... allImages; allSurf; allRect]; oldvis = LocalGetAsCell(allNonText,'visible'); oldc = LocalGetAsCell(allAxes,'color'); oldaxg = LocalGetAsCell(allAxes,'XGrid'); oldayg = LocalGetAsCell(allAxes,'YGrid'); oldazg = LocalGetAsCell(allAxes,'ZGrid'); [null{:}] = deal('off'); set(allAxes,{'XGrid'},null); set(allAxes,{'YGrid'},null); set(allAxes,{'ZGrid'},null); set(allNonText,'Visible','off'); set(allAxes,'Color','none'); print(H, tfile2, args{:}); set(allNonText,{'Visible'},oldvis); set(allAxes,{'Color'},oldc); set(allAxes,{'XGrid'},oldaxg); set(allAxes,{'YGrid'},oldayg); set(allAxes,{'ZGrid'},oldazg); %hack up the postscript file fid1 = fopen(tfile,'w'); fid2 = fopen(tfile2,'r'); line = fgetl(fid2); while ischar(line) if strncmp(line,'%%Title',7) fprintf(fid1,'%s\n',['%%Title: ', tfile]); elseif (length(line) < 3) fprintf(fid1,'%s\n',line); elseif ~strcmp(line(end-2:end),' PR') & ... ~strcmp(line(end-1:end),' L') fprintf(fid1,'%s\n',line); end line = fgetl(fid2); end fclose(fid1); fclose(fid2); delete(tfile2); elseif ~opts.applystyle drawnow; print(H, filename, args{:}); end warning(oldwarn); catch warning(oldwarn); hadError = 1; end % Restore figure settings if opts.applystyle varargout{1} = old; else for n=1:length(old.objs) if ~iscell(old.values{n}) & iscell(old.prop{n}) old.values{n} = {old.values{n}}; end set(old.objs{n}, old.prop{n}, old.values{n}); end end if hadError error(deblank(lasterr)); end % % Local Functions % function outData = LocalPushOldData(inData, objs, prop, values) outData.objs = {objs, inData.objs{:}}; outData.prop = {prop, inData.prop{:}}; outData.values = {values, inData.values{:}}; function cellArray = LocalGetAsCell(fig,prop,allowemptycell); cellArray = get(fig,prop); if nargin < 3 allowemptycell = 0; end if ~iscell(cellArray) & (allowemptycell | ~isempty(cellArray)) cellArray = {cellArray}; end function newArray = LocalScale(inArray, scale, minv, maxv) n = length(inArray); newArray = cell(n,1); for k=1:n newArray{k} = min(maxv,max(minv,scale*inArray{k}(1))); end function gray = LocalMapToGray1(color) gray = color; if ischar(color) switch color(1) case 'y' color = [1 1 0]; case 'm' color = [1 0 1]; case 'c' color = [0 1 1]; case 'r' color = [1 0 0]; case 'g' color = [0 1 0]; case 'b' color = [0 0 1]; case 'w' color = [1 1 1]; case 'k' color = [0 0 0]; end end if ~ischar(color) gray = 0.30*color(1) + 0.59*color(2) + 0.11*color(3); end function newArray = LocalMapToGray(inArray); n = length(inArray); newArray = cell(n,1); for k=1:n color = inArray{k}; if ~isempty(color) color = LocalMapToGray1(color); end if isempty(color) | ischar(color) newArray{k} = color; else newArray{k} = [color color color]; end end function newArray = LocalMapColorToStyle(inArray); inArray = LocalGetAsCell(inArray,'Color'); n = length(inArray); newArray = cell(n,1); styles = {'-','--',':','-.'}; uniques = []; nstyles = length(styles); for k=1:n gray = LocalMapToGray1(inArray{k}); if isempty(gray) | ischar(gray) | gray < .05 newArray{k} = '-'; else if ~isempty(uniques) & any(gray == uniques) ind = find(gray==uniques); else uniques = [uniques gray]; ind = length(uniques); end newArray{k} = styles{mod(ind-1,nstyles)+1}; end end function newArray = LocalMapCData(inArray); n = length(inArray); newArray = cell(n,1); for k=1:n color = inArray{k}; if (ndims(color) == 3) & isa(color,'double') gray = 0.30*color(:,:,1) + 0.59*color(:,:,2) + 0.11*color(:,:,3); color(:,:,1) = gray; color(:,:,2) = gray; color(:,:,3) = gray; end newArray{k} = color; end function outData = LocalUpdateColors(inArray, prop, inData) value = LocalGetAsCell(inArray,prop); outData.objs = {inData.objs{:}, inArray}; outData.prop = {inData.prop{:}, {prop}}; outData.values = {inData.values{:}, value}; if (~isempty(value)) if strcmp(prop,'CData') value = LocalMapCData(value); else value = LocalMapToGray(value); end set(inArray,{prop},value); end function bool = LocalIsPositiveScalar(value) bool = isnumeric(value) & ... prod(size(value)) == 1 & ... value > 0; function value = LocalToNum(value,auto) if ischar(value) if strcmp(value,'auto') value = auto; else value = str2num(value); end end %convert a struct to {field1,val1,field2,val2,...} function c = LocalToCell(s) f = fieldnames(s); v = struct2cell(s); opts = cell(2,length(f)); opts(1,:) = f; opts(2,:) = v; c = {opts{:}}; function c = LocalIsHG(obj,hgtype) c = 0; if (length(obj) == 1) & ishandle(obj) c = strcmp(get(obj,'type'),hgtype); end function c = LocalHas3DPlot(a) zticks = LocalGetAsCell(a,'ZTickLabel'); c = 0; for k=1:length(zticks) if ~isempty(zticks{k}) c = 1; return; end end function r = LocalUnionRect(r1,r2) if isempty(r1) r = r2; elseif isempty(r2) r = r1; elseif max(r2(3:4)) > 0 left = min(r1(1),r2(1)); bot = min(r1(2),r2(2)); right = max(r1(1)+r1(3),r2(1)+r2(3)); top = max(r1(2)+r1(4),r2(2)+r2(4)); r = [left bot right-left top-bot]; else r = r1; end function c = LocalLabelsMatchTicks(labs,ticks) c = 0; try t1 = num2str(ticks(1)); n = length(ticks); tend = num2str(ticks(n)); c = strncmp(labs(1),t1,length(labs(1))) & ... strncmp(labs(n),tend,length(labs(n))); end function r = LocalAxesTightBoundingBox(axesR, a) r = []; atext = findall(a,'type','text','visible','on'); if ~isempty(atext) set(atext,'units','points'); res=LocalGetAsCell(atext,'extent'); for n=1:length(atext) r = LocalUnionRect(r,res{n}); end end if strcmp(get(a,'visible'),'on') r = LocalUnionRect(r,[0 0 axesR(3:4)]); oldunits = get(a,'fontunits'); set(a,'fontunits','points'); label = text(0,0,'','parent',a,... 'units','points',... 'fontsize',get(a,'fontsize'),... 'fontname',get(a,'fontname'),... 'fontweight',get(a,'fontweight'),... 'fontangle',get(a,'fontangle'),... 'visible','off'); fs = get(a,'fontsize'); % handle y axis tick labels ry = [0 -fs/2 0 axesR(4)+fs]; ylabs = get(a,'yticklabels'); yticks = get(a,'ytick'); maxw = 0; if ~isempty(ylabs) for n=1:size(ylabs,1) set(label,'string',ylabs(n,:)); ext = get(label,'extent'); maxw = max(maxw,ext(3)); end if ~LocalLabelsMatchTicks(ylabs,yticks) & ... strcmp(get(a,'xaxislocation'),'bottom') ry(4) = ry(4) + 1.5*ext(4); end if strcmp(get(a,'yaxislocation'),'left') ry(1) = -(maxw+5); else ry(1) = axesR(3); end ry(3) = maxw+5; r = LocalUnionRect(r,ry); end % handle x axis tick labels rx = [0 0 0 fs+5]; xlabs = get(a,'xticklabels'); xticks = get(a,'xtick'); if ~isempty(xlabs) if strcmp(get(a,'xaxislocation'),'bottom') rx(2) = -(fs+5); if ~LocalLabelsMatchTicks(xlabs,xticks); rx(4) = rx(4) + 2*fs; rx(2) = rx(2) - 2*fs; end else rx(2) = axesR(4); % exponent is still below axes if ~LocalLabelsMatchTicks(xlabs,xticks); rx(4) = rx(4) + axesR(4) + 2*fs; rx(2) = -2*fs; end end set(label,'string',xlabs(1,:)); ext1 = get(label,'extent'); rx(1) = -ext1(3)/2; set(label,'string',xlabs(size(xlabs,1),:)); ext2 = get(label,'extent'); rx(3) = axesR(3) + (ext2(3) + ext1(3))/2; r = LocalUnionRect(r,rx); end set(a,'fontunits',oldunits); delete(label); end function c = LocalManualAxesMode(old, allAxes, base) xs = ['X' base]; ys = ['Y' base]; zs = ['Z' base]; oldXMode = LocalGetAsCell(allAxes,xs); oldYMode = LocalGetAsCell(allAxes,ys); oldZMode = LocalGetAsCell(allAxes,zs); old = LocalPushOldData(old, allAxes, {xs}, oldXMode); old = LocalPushOldData(old, allAxes, {ys}, oldYMode); old = LocalPushOldData(old, allAxes, {zs}, oldZMode); set(allAxes,xs,'manual'); set(allAxes,ys,'manual'); set(allAxes,zs,'manual'); c = old; function val = LocalCheckAuto(val, auto) if ischar(val) & strcmp(val,'auto') val = auto; end