| function varargout=shadedErrorBar(x,y,errBar,lineProps,transparent) | |
| % function H=shadedErrorBar(x,y,errBar,lineProps,transparent) | |
| % | |
| % Purpose | |
| % Makes a 2-d line plot with a pretty shaded error bar made | |
| % using patch. Error bar color is chosen automatically. | |
| % | |
| % Inputs | |
| % x - vector of x values [optional, can be left empty] | |
| % y - vector of y values or a matrix of n observations by m cases | |
| % where m has length(x); | |
| % errBar - if a vector we draw symmetric errorbars. If it has a size | |
| % of [2,length(x)] then we draw asymmetric error bars with | |
| % row 1 being the upper bar and row 2 being the lower bar | |
| % (with respect to y). ** alternatively ** errBar can be a | |
| % cellArray of two function handles. The first defines which | |
| % statistic the line should be and the second defines the | |
| % error bar. | |
| % lineProps - [optional,'-k' by default] defines the properties of | |
| % the data line. e.g.: | |
| % 'or-', or {'-or','markerfacecolor',[1,0.2,0.2]} | |
| % transparent - [optional, 0 by default] if ==1 the shaded error | |
| % bar is made transparent, which forces the renderer | |
| % to be openGl. However, if this is saved as .eps the | |
| % resulting file will contain a raster not a vector | |
| % image. | |
| % | |
| % Outputs | |
| % H - a structure of handles to the generated plot objects. | |
| % | |
| % | |
| % Examples | |
| % y=randn(30,80); x=1:size(y,2); | |
| % shadedErrorBar(x,mean(y,1),std(y),'g'); | |
| % shadedErrorBar(x,y,{@median,@std},{'r-o','markerfacecolor','r'}); | |
| % shadedErrorBar([],y,{@median,@std},{'r-o','markerfacecolor','r'}); | |
| % | |
| % Overlay two transparent lines | |
| % y=randn(30,80)*10; x=(1:size(y,2))-40; | |
| % shadedErrorBar(x,y,{@mean,@std},'-r',1); | |
| % hold on | |
| % y=ones(30,1)*x; y=y+0.06*y.^2+randn(size(y))*10; | |
| % shadedErrorBar(x,y,{@mean,@std},'-b',1); | |
| % hold off | |
| % | |
| % | |
| % Rob Campbell - November 2009 | |
| %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% | |
| % Error checking | |
| error(nargchk(3,5,nargin)) | |
| %Process y using function handles if needed to make the error bar | |
| %dynamically | |
| if iscell(errBar) | |
| fun1=errBar{1}; | |
| fun2=errBar{2}; | |
| errBar=fun2(y); | |
| y=fun1(y); | |
| else | |
| y=y(:)'; | |
| end | |
| if isempty(x) | |
| x=1:length(y); | |
| else | |
| x=x(:)'; | |
| end | |
| %Make upper and lower error bars if only one was specified | |
| if length(errBar)==length(errBar(:)) | |
| errBar=repmat(errBar(:)',2,1); | |
| else | |
| s=size(errBar); | |
| f=find(s==2); | |
| if isempty(f), error('errBar has the wrong size'), end | |
| if f==2, errBar=errBar'; end | |
| end | |
| if length(x) ~= length(errBar) | |
| error('length(x) must equal length(errBar)') | |
| end | |
| %Set default options | |
| defaultProps={'-k'}; | |
| if nargin<4, lineProps=defaultProps; end | |
| if isempty(lineProps), lineProps=defaultProps; end | |
| if ~iscell(lineProps), lineProps={lineProps}; end | |
| if nargin<5, transparent=0; end | |
| %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% | |
| % Plot to get the parameters of the line | |
| H.mainLine=plot(x,y,lineProps{:}); | |
| % Work out the color of the shaded region and associated lines | |
| % Using alpha requires the render to be openGL and so you can't | |
| % save a vector image. On the other hand, you need alpha if you're | |
| % overlaying lines. There we have the option of choosing alpha or a | |
| % de-saturated solid colour for the patch surface . | |
| col=get(H.mainLine,'color'); | |
| edgeColor=col+(1-col)*0.55; | |
| patchSaturation=0.15; %How de-saturated or transparent to make patch | |
| if transparent | |
| faceAlpha=patchSaturation; | |
| patchColor=col; | |
| set(gcf,'renderer','openGL') | |
| else | |
| faceAlpha=1; | |
| patchColor=col+(1-col)*(1-patchSaturation); | |
| set(gcf,'renderer','painters') | |
| end | |
| %Calculate the error bars | |
| uE=y+errBar(1,:); | |
| lE=y-errBar(2,:); | |
| %Add the patch error bar | |
| holdStatus=ishold; | |
| if ~holdStatus, hold on, end | |
| %Make the patch | |
| yP=[lE,fliplr(uE)]; | |
| xP=[x,fliplr(x)]; | |
| %remove nans otherwise patch won't work | |
| xP(isnan(yP))=[]; | |
| yP(isnan(yP))=[]; | |
| H.patch=patch(xP,yP,1,'facecolor',patchColor,... | |
| 'edgecolor','none',... | |
| 'facealpha',faceAlpha); | |
| %Make pretty edges around the patch. | |
| H.edge(1)=plot(x,lE,'-','color',edgeColor); | |
| H.edge(2)=plot(x,uE,'-','color',edgeColor); | |
| %Now replace the line (this avoids having to bugger about with z coordinates) | |
| delete(H.mainLine) | |
| H.mainLine=plot(x,y,lineProps{:}); | |
| if ~holdStatus, hold off, end | |
| if nargout==1 | |
| varargout{1}=H; | |
| end | |