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function [cPCAarg, Pdata, Pproto] = som_projections(D,sM,bmus)
% SOM_PROJECTIONS Makes different kinds of projections for the data and the prototypes.
%
% [cPCAarg, Pdata, Pproto] = som_projections(D,sM,[bmus])
%
% sD (struct) data struct
% (matrix) size dlen x dim
% sM (struct) map struct
% (matrix) size munits x dim: prototype vectors
% [bmus] (vector) BMU for each data vector (calculated if not specified)
%
% cPCAarg (cell array) PCA arguments: {V, me, l} from pcaproj function
% Pdata (matrix) size dlen x 7, consisting of 3 projection coordinates from PCA,
% 1 residual from the rest of the PCA-projection coordinates,
% and 3 color components
% Pproto (matrix) size dlen x 7, consisting of 3 projection coordinates from PCA,
% 1 residual from the rest of the PCA-projection coordinates,
% 3 color components, and 3 projection coordinates from CCA
%
% See also PCAPROJ, CCA, SAMMON, SOM_PROJECTIONS_PLOT, SOM_COLORING, SOM_COLORCODE,
% SOM_CLUSTERCOLOR, SOM_KMEANCOLOR.
if isstruct(D),
cn = D.comp_names;
D = D.data;
end
[dlen dim] = size(D);
if nargin<3, bmus = som_bmus(sM,D); end
% projection of data
[P0,V,me,l] = pcaproj(D,dim);
D1 = som_fillnans(D,sM);
P1 = pcaproj(D1,V,me);
Res4 = zeros(dlen,1);
if dim<=3,
Res4 = zeros(dlen,1);
else
Res4 = sqrt(sum(P1(:,4:end).*P1(:,4:end),2));
end
P1 = P1(:,1:min(3,dim));
if dim<3, P1 = [P1, zeros(dlen,3-dim)]; end
% projection of codebook vectors
P1_m = pcaproj(sM,V,me);
Res4_m = zeros(dlen,1);
if dim<=3,
Res4_m = zeros(dlen,1);
else
Res4_m = sum(P1_m(:,4:end).*P1_m(:,4:end),2);
end
P1_m = P1_m(:,1:min(3,dim));
if dim<3, P1_m = [P1_m, zeros(size(P1_m,1),3-dim)]; end
P2_m = cca(sM,P1_m,20);
PCol_m = som_coloring(sM);
PCol = PCol_m(bmus,:);
% output
cPCAarg = {V,me,l};
Pdata = [P1, Res4, PCol];
Pproto = [P1_m, Res4_m, PCol_m, P2_m];
return;