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SVMCrossVal.git
somtoolbox2
som_recolorbar.m
starting som prediction fine-tuned class-performance visualisation
Christoph Budziszewski
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4dbef18
at 2009-01-21 16:34:25
som_recolorbar.m
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function h=som_recolorbar(p, ticks, scale, labels) %SOM_RECOLORBAR Refresh and rescale colorbars in the current SOM_SHOW fig. % % h = som_recolorbar([p], [ticks], [scaling], [labels]) % % colormap(jet); som_recolorbar % % Input and output arguments ([]'s are optional) % [p] (vector) subplot number vector % (string) 'all' (the default), 'comp' to process only % component planes % [ticks] (string) 'auto' or 'border', default: 'auto' % (cell array) p x 1 cell array of p row vectors % (vector) the same ticks are applied to all given subplots % (scalar) value is at least 2: the number of ticks to show, % evenly spaced between and including minimum and maximum % [scale] (string) 'denormalized' or 'normalized' (the default) % [labels] (cell array) p x 1 cell array of cells containing strings % % h (vector) handles to the colorbar objects. % % This function refreshes the colorbars in the figure created by SOM_SHOW. % Refreshing is necessary if you have changed the colormap. % Each colorbar has letter 'd' or 'n' and possibly 'u' as label. Letter 'd' means % that the scale is denormalized, letter 'n' that the scale is % normalized, and 'u' is for user specified labels. % % For more help, try 'type som_recolorbar' or check out online documentation. % See also SOM_SHOW %%%%%%%%%%%%% DETAILED DESCRIPTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % som_recolorbar % % PURPOSE % % Refreshes the the colorbars in the figure. % % SYNTAX % % h = som_recolorbar % h = som_recolorbar(p) % h = som_recolorbar(p, ticks) % h = som_recolorbar(p, ticks, scaling) % h = som_recolorbar(p, ticks, scaling, labels) % % DESCRIPTION % % This function refreshes the colorbars in the figure created by SOM_SHOW. % Refreshing is necessary if you have changed the colormap. Each colorbar % has letter 'd' or 'n' and possibly 'u' as label. Letter 'd' means that the % scale is denormalized, letter 'n' that the scale is normalized, and 'u' is % for user specified labels. % % Different argument combinations: % % 1. Argument 'ticks' has string values: % - 'auto' for input argument ticks sets the automatic tick % marking on (factory default). % - 'border' sets the tick marks to the color borders. This is % convenient if there are only few colors in use. % % Argument scale controls the scaling of the tick mark label values. % 'normalized' means that the tick mark labels are directly the values % of the ticks, that is, they refer to the map codebook values. % Value 'denormalized' scales the tick mark label values back to the original % data scaling. This is made using som_denormalize_data. % % 2. Argument 'ticks' is a cell array of vectors: % The values are set to be the tick marks to the colorbar specified by p. % - if arg. scale is 'normalized' the ticks are set directly to the colorbar. % - if arg. scale is 'denormalized' the tick values are first normalized % in the same way as the data. % % 3. Argument 'ticks' is a vector % As above, but the same values are used for all (given) subplots. % % 4. Argument 'ticks' is a scalar % The ticks are set to equally spaced values between (and including) % minimum and maximum. % % Argument 'labels' specify user defined labels to the tick marks % % NOTE: ticks are rounded to contain three significant digits. % % OPTIONAL INPUT ARGUMENTS % % p (vector) subplot number vector % (string) 'all' (the default), 'comp' to effect only % component planes % % ticks (string) 'auto' or 'border', default: 'auto' % (cell array) p x 1 cell array of p row vectors % (vector) as the cell array, but the same vector is % applied to all given subplots % (scalar) the number of ticks to show: these are % evenly space between minimum and maximum % % scale (string) 'denormalized' or 'normalized' (the default) % % labels (cell array) p x 1 cell array of cells containing strings % % OUTPUT ARGUMENTS % % h (vector) handles to the colorbar objects. % % EXAMPLE % % colormap(jet(5)); som_recolorbar('all','border','denormalized') % % Uses five colors and sets the ticks on the color borders. % % Tick label values are denormalized back to the original data scaling % % colormap(copper(64));som_recolorbar % % changes to colormap copper and resets default ticking and labeling % % som_recolorbar('all',3) % % To put 3 ticks to each colorbar so that minimum, mean and % % maximum values on the colorbar are shown. % % som_recolorbar([1 3],{[0.1 0.2 0.3];[0.2 0.4]},'denormalized') % % Ticks colorbar 1 by first normalizing values 0.1, 0.2, 0.3 and % % then setting the ticks to the colorbar. Labels are of course % % 0.1, 0.2 and 0.3. Ticks colorbar 3 in the same way using values % % 0.2 and 0.4. % % som_recolorbar([2 4],{[0.1 0.2];[-1.2 3]},'normalized',{{'1' '2'};{'a' 'b'}}) % % Ticks colorbar 2 and 4 directly to the specified values. Sets labels % % '1' '2' and 'a' 'b' to the ticks. % % som_recolorbar([2 4],{[0.1 0.2];[-1.2 3]},'normalized',{{'1' '2'};{'a' 'b'}}) % % as previous one, but normalizes tick values first % % SEE ALSO % % som_show Basic SOM visualization. % som_normalize Normalization operations. % som_denormalize Denormalization operations. % Copyright (c) 1997-2000 by the SOM toolbox programming team. % http://www.cis.hut.fi/projects/somtoolbox/ % Version 1.0beta Johan 061197 % Version 2.0beta juuso 151199 130300 160600 181101 %% Init & check %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% error(nargchk(0, 4, nargin)) % check no. of input args % Check the subplot vector p and get the handles, exit if error % Default subplot vector is 'all' if nargin < 1 | isempty(p) % default p p= 'all'; end % check SOM_SHOW and get the figure data. Exit, if error [handles, msg, lattice, msize, dim, normalization, comps]= ... vis_som_show_data(p, gcf); error(msg); if nargin < 2 | isempty(ticks) % default tick mode is 'auto' ticks = 'auto'; elseif isa(ticks,'cell') % check for cell tickValues = ticks; ticks= 'explicit'; elseif isa(ticks,'double') & length(ticks)>1, tickValues = {ticks}; ticks = 'explicit'; elseif isa(ticks,'double') & length(ticks)==1, tickValues = max(2,round(ticks)); ticks = 'evenspace'; end if ~ischar(ticks) % invalid argument error('The second argument should be a string or a cell array of vectors.'); end switch ticks % check ticks case {'auto','border'}, % nill case 'evenspace', tickValues_tmp = cell(length(handles),1); for i=1:length(handles), tickValues_tmp{i} = tickValues; end tickValues = tickValues_tmp; case 'explicit', if length(tickValues)==1 & length(handles)>1, tickValues_tmp = cell(length(handles),1); for i=1:length(handles), tickValues_tmp{i} = tickValues{1}; end tickValues = tickValues_tmp; end if length(tickValues) ~= length(handles), error('Cell containing the ticks has wrong size.') end otherwise error('''auto'' or ''border'' expected for the second argument.'); end if nargin < 3 | isempty(scale) % default mode is normalized scale= 'normalized'; end if ~ischar(scale) % check scale type error('The third argument should be a string.'); end switch scale % check the string case { 'normalized', 'denormalized'} % ok case 'n', scale = 'normalized'; case 'd', scale = 'denormalized'; otherwise error('''normalized'' or ''denormalized'' expected for the third argument.') end if nargin < 4 | isempty(labels) % default is autolabeling labels = 'auto'; elseif ~isa(labels,'cell') % check type error('The fourth argument should be a cell array of cells containing strings.') else labelValues=labels; % set labels labels = 'explicit'; if length(labelValues) == length(handles) % check size ; else error('Cell containing the labels has wrong size') end end %% Action %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% n = size(colormap,1)+1; % number of colors+1 h_ = zeros(length(handles),1); for i=1:length(handles), % MAIN LOOP BEGINS axes(handles(i)); % set axes, refres colorbar and if comps(i)>=0, h_(i)=colorbar; % get colorbar handles colorbardir=get(h_(i),'YaxisLocation'); switch colorbardir % get colorbar direction & case 'left' % set some strings Tick='Xtick'; Lim='Xlim'; LabelMode='XTickLabelMode'; Label='XtickLabel'; case 'right' Tick='Ytick'; Lim='Ylim'; LabelMode='YTickLabelMode'; Label='YtickLabel'; otherwise error('Internal error: unknown value for YaxisLocation'); % fatal end switch ticks case 'auto' set(h_(i),LabelMode,'auto'); % factory default ticking tickValues{i}=get(h_(i),Tick); % get tick values case 'border' limit=caxis; t=linspace(limit(1),limit(2),n); % set n ticks between min and max t([1 length(t)])=get(h_(i),Lim); % <- caxis is not necerraily the same tickValues{i}=t; % as the colorbar min & max values case 'evenspace' limit = caxis; t = linspace(limit(1),limit(2),tickValues{i}); t([1 length(t)])=get(h_(i),Lim); tickValues{i}=t; case 'explicit' if comps(i)>0, if strcmp(scale,'normalized') % normalize tick values tickValues{i} = som_normalize(tickValues{i},normalization{comps(i)}); end end otherwise error('Internal error: unknown tick type') % this shouldn't happen end %tickValues{i} = epsto0(tickValues{i}); switch labels case 'auto' switch scale case 'normalized' labelValues{i} = round2(tickValues{i}); % use the raw ones case 'denormalized' % denormalize tick values if comps(i)>0, labelValues{i} = som_denormalize(tickValues{i},normalization{comps(i)}); labelValues{i} = round2(labelValues{i}); % round the scale else labelValues{i} = round2(tickValues{i}); end otherwise error('Internal error: unknown scale type'); % this shouldn't happen end case 'explicit' ; % they are there already otherwise error('Internal error: unknown label type'); % this shouldn't happen end set(h_(i),Tick,tickValues{i}); % set ticks and labels set(h_(i),Label,labelValues{i}); if comps(i)>0, % Label the colorbar with letter 'n' if normalized, with letter 'd' % if denormalized and 'u' if the labels are user specified mem_axes=gca; axes(h_(i)); ch=' '; if strcmp(scale,'normalized'), ch(1)='n'; end if strcmp(scale,'denormalized'), ch(1)='d'; end if strcmp(labels,'explicit'), ch(2)='u'; end xlabel(ch); axes(mem_axes); end end end % MAIN LOOP ENDS %% Build output %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% if nargout>0 h=h_; end return; %% Subfunction: ROUND2 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % ROUND2 rounds the labels to tol significant digits function r=round2(d) tol=3; zero=(d==0); d(zero)=1; k=floor(log10(abs(d)))-(tol-1); r=round(d./10.^k).*10.^k; r(zero)=0; %r=epsto0(r); %% Subfunction: ISVECTOR %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function t=isvector(v) % ISVECTOR checks if a matrix is a vector or not t=(ndims(v) == 2 & min(size(v)) == 1) & isnumeric(v); %% Subfunction: EPSTO0 function t=epsto0(t) % EPSTO0 checks whether first tick value is *very* close to zero, % if so sets it to zero. if (t(end)-t(1))/t(end) > 1-0.005 & abs(t(1))<1, t(1) = 0; end