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SVMCrossVal.git
somtoolbox2
som_dendrogram.m
starting som prediction fine-tuned class-performance visualisation
Christoph Budziszewski
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4dbef18
at 2009-01-21 16:34:25
som_dendrogram.m
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function [h,Coord,Color,height] = som_dendrogram(Z,varargin) %SOM_DENDROGRAM Visualize a dendrogram. % % [h,Coord,Color,height] = som_dendrogram(Z, [[argID,] value, ...]) % % Z = som_linkage(sM); % som_dendrogram(Z); % som_dendrogram(Z,sM); % som_dendrogram(Z,'coord',co); % % Input and output arguments ([]'s are optional): % h (vector) handle to the arc lines % Z (matrix) size n-1 x 1, the hierarchical cluster matrix % returned by functions like LINKAGE and SOM_LINKAGE % n is the number of original data samples. % [argID, (string) See below. The values which are unambiguous can % value] (varies) be given without the preceeding argID. % Coord (matrix) size 2*n-1 x {1,2}, the coordinates of the % original data samples and cluster nodes used % in the visualization % Color (matrix) size 2*n-1 x 3, the colors of ... % height (vector) size 2*n-1 x 1, the heights of ... % % Here are the valid argument IDs and corresponding values. The values % which are unambiguous (marked with '*') can be given without the % preceeding argID. % 'data' *(struct) map or data struct: many other optional % arguments require this % (matrix) data matrix % 'coord' (matrix) size n x 1 or n x 2, the coordinates of % the original data samples either in 1D or 2D % (matrix) size 2*n-1 x {1,2}, the coordinates of both % original data samples and each cluster % *(string) 'SOM', 'pca#', 'sammon#', or 'cca#': the coordinates % are calculated using the given data and the % required projection algorithm. The '#' at the % end of projection algorithms refers to the % desired output dimension and can be either 1 or 2 % (2 by default). In case of 'SOM', the unit % coordinates (given by SOM_VIS_COORDS) are used. % 'color' (matrix) size n x 3, the color of the original data samples % (matrix) size 2*n-1 x 3, the colors of both original % data samples and each cluster % (string) color specification, e.g. 'r.', used for each node % 'height' (vector) size n-1 x 1, the heights used for each cluster % (vector) size 2*n-1 x 1, the heights used for both original % data samples and each cluster % *(string) 'order', the order of combination determines height % 'depth', the depth at which the combination % happens determines height % 'linecolor' (string) color specification for the arc color, 'k' by default % (vector) size 1 x 3 % % See also SOM_LINKAGE, DENDROGRAM. % Copyright (c) 2000 by Juha Vesanto % Contributed to SOM Toolbox on June 16th, 2000 by Juha Vesanto % http://www.cis.hut.fi/projects/somtoolbox/ % Version 2.0beta juuso 160600 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% read the arguments % Z nd = size(Z,1)+1; nc = size(Z,1); % varargin Coordtype = 'natural'; Coord = []; codim = 1; Colortype = 'none'; Color = []; height = [zeros(nd,1); Z(:,3)]; M = []; linecol = 'k'; i=1; while i<=length(varargin), argok = 1; if ischar(varargin{i}), switch varargin{i}, case 'data', i = i + 1; M = varargin{i}; case 'coord', i=i+1; if isnumeric(varargin{i}), Coord = varargin{i}; Coordtype = 'given'; else if strcmp(varargin{i},'SOM'), Coordtype = 'SOM'; else Coordtype = 'projection'; Coord = varargin{i}; end end case 'color', i=i+1; if isempty(varargin{i}), Colortype = 'none'; elseif ischar(varargin{i}), Colortype = 'colorspec'; Color = varargin{i}; else Colortype = 'given'; Color = varargin{i}; end case 'height', i=i+1; height = varargin{i}; case 'linecolor', i=i+1; linecol = varargin{i}; case 'SOM', Coordtype = 'SOM'; case {'pca','pca1','pca2','sammon','sammon1','sammon2','cca','cca1','cca2'}, Coordtype = 'projection'; Coord = varargin{i}; case {'order','depth'}, height = varargin{i}; end elseif isstruct(varargin{i}), M = varargin{i}; else argok = 0; end if ~argok, disp(['(som_dendrogram) Ignoring invalid argument #' num2str(i+1)]); end i = i+1; end switch Coordtype, case 'SOM', if isempty(M) | ~any(strcmp(M.type,{'som_map','som_topol'})) , error('Cannot determine SOM coordinates without a SOM.'); end if strcmp(M.type,'som_map'), M = M.topol; end case 'projection', if isempty(M), error('Cannot do projection without the data.'); end if isstruct(M), if strcmp(M.type,'som_data'), M = M.data; elseif strcmp(M.type,'som_map'), M = M.codebook; end end if size(M,1) ~= nd, error('Given data must be equal in length to the number of original data samples.') end case 'given', if size(Coord,1) ~= nd & size(Coord,1) ~= nd+nc, error('Size of given coordinate matrix does not match the cluster hierarchy.'); end end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% initialization % Coordinates switch Coordtype, case 'natural', o = leavesorder(Z)'; [dummy,Coord] = sort(o); codim = 1; case 'SOM', Coord = som_vis_coords(M.lattice,M.msize); codim = 2; case 'projection', switch Coord, case {'pca','pca2'}, Coord = pcaproj(M,2); codim = 2; case 'pca1', Coord = pcaproj(M,1); codim = 1; case {'cca','cca2'}, Coord = cca(M,2,20); codim = 2; case 'cca1', Coord = cca(M,1,20); codim = 1; case {'sammon','sammon2'}, Coord = sammon(M,2,50); codim = 2; case 'sammon1', Coord = sammon(M,1,50); codim = 1; end case 'given', codim = min(size(Coord,2),2); % nill end if size(Coord,1) == nd, Coord = [Coord; zeros(nc,size(Coord,2))]; for i=(nd+1):(nd+nc), leaves = leafnodes(Z,i,nd); if any(leaves), Coord(i,:) = mean(Coord(leaves,:),1); else Coord(i,:) = Inf; end end end % Colors switch Colortype, case 'colorspec', % nill case 'none', Color = ''; case 'given', if size(Color,1) == nd, Color = [Color; zeros(nc,3)]; for i=(nd+1):(nd+nc), leaves = leafnodes(Z,i,nd); if any(leaves), Color(i,:) = mean(Color(leaves,:),1); else Color(i,:) = 0.8; end end end end % height if ischar(height), switch height, case 'order', height = [zeros(nd,1); [1:nc]']; case 'depth', height = nodedepth(Z); height = max(height) - height; end else if length(height)==nc, height = [zeros(nd,1); height]; end end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% draw % the arcs lfrom = []; lto = []; for i=1:nd+nc, if i<=nd, ch = []; elseif ~isfinite(Z(i-nd,3)), ch = []; else ch = Z(i-nd,1:2)'; end if any(ch), lfrom = [lfrom; i*ones(length(ch),1)]; lto = [lto; ch]; end end % the coordinates of the arcs if codim == 1, Lx = [Coord(lfrom), Coord(lto), Coord(lto)]; Ly = [height(lfrom), height(lfrom), height(lto)]; Lz = []; else Lx = [Coord(lfrom,1), Coord(lto,1), Coord(lto,1)]; Ly = [Coord(lfrom,2), Coord(lto,2), Coord(lto,2)]; Lz = [height(lfrom), height(lfrom), height(lto)]; end washold = ishold; if ~washold, cla; end % plot the lines if isempty(Lz), h = line(Lx',Ly','color',linecol); else h = line(Lx',Ly',Lz','color',linecol); if ~washold, view(3); end rotate3d on end % plot the nodes hold on switch Colortype, case 'none', % nill case 'colorspec', if codim == 1, plot(Coord,height,Color); else plot3(Coord(:,1), Coord(:,2), height, Color); end case 'given', som_grid('rect',[nd+nc 1],'line','none','Coord',[Coord, height],... 'Markersize',10,'Markercolor',Color); end if ~washold, hold off, end return; %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% subfunctions function depth = nodedepth(Z) nd = size(Z,1)+1; nc = size(Z,1); depth = zeros(nd+nc,1); ch = nc+nd-1; while any(ch), c = ch(1); ch = ch(2:end); if c>nd & isfinite(Z(c-nd,3)), chc = Z(c-nd,1:2); depth(chc) = depth(c) + 1; ch = [ch, chc]; end end return; function inds = leafnodes(Z,i,nd) inds = []; ch = i; while any(ch), c = ch(1); ch = ch(2:end); if c>nd & isfinite(Z(c-nd,3)), ch = [ch, Z(c-nd,1:2)]; end if c<=nd, inds(end+1) = c; end end return; function order = leavesorder(Z) nd = size(Z,1)+1; order = 2*nd-1; nonleaves = 1; while any(nonleaves), j = nonleaves(1); ch = Z(order(j)-nd,1:2); if j==1, oleft = []; else oleft = order(1:(j-1)); end if j==length(order), oright = []; else oright = order((j+1):length(order)); end order = [oleft, ch, oright]; nonleaves = find(order>nd); end return;