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function [sTstats,csThist] = som_stats_table(csS,histlabel)
%SOM_STATS_TABLE Statistics table.
%
% [sTstats,csThist] = som_stats_table(csS)
%
% sTstats = som_stats_table(csS);
% som_table_print(sTstats);
%
% Input and output arguments ([]'s are optional):
% csS (cell array) of statistics structs
% (struct) a statistics struct
%
% sTstats (struct) a table struct with basic descriptive
% statistics for each variable
% csThist (cell array) of table structs, with histograms for
% each variable
%
% See also SOM_STATS, SOM_STATS_PLOT, SOM_TABLE_PRINT, SOM_STATS_REPORT.
% Contributed to SOM Toolbox 2.0, December 31st, 2001 by Juha Vesanto
% Copyright (c) by Juha Vesanto
% http://www.cis.hut.fi/projects/somtoolbox/
% Version 2.0beta juuso 311201
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% arguments
if isstruct(csS), csS = {csS}; end
dim = length(csS);
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
%% action
sTable = struct('colfmt','','headers',[],'values',[],'span',[]);
% summary table of all variables
sT = sTable;
sT.headers = {'name','min','mean','max','std','missing'};
if ~isnan(csS{1}.nunique), sT.headers{end+1} = 'unique'; end
%if length(col_values), sT.headers = [sT.headers, col_headers]; end
sT.values = cell(dim,length(sT.headers));
sT.span = ones([size(sT.values) 2]);
%if length(col_values), sT.values(:,end-size(col_values,2)+1:end) = col_values; end
%if length(col_spans), sT.span(:,end-size(col_spans,2)+1:end,:) = col_spans; end
for i=1:dim,
sT.values{i,1} = csS{i}.name;
v = [csS{i}.min,csS{i}.mean,csS{i}.max,csS{i}.std];
v = som_denormalize(v,csS{i}.normalization);
vstr = numtostring(v,6);
sT.values(i,2:5) = vstr';
sT.values{i,6} = c_and_p_str(csS{i}.ntotal-csS{i}.nvalid,csS{i}.ntotal);
if ~isnan(csS{1}.nunique),
sT.values{i,7} = c_and_p_str(csS{i}.nunique,csS{i}.nvalid);
end
end
sTstats = sT;
% histograms
csThist = cell(dim,1);
for i=1:dim,
sH = csS{i}.hist;
nvalid = csS{i}.nvalid;
nbins = length(sH.bins);
sT = sTable;
sT.headers = {[csS{i}.name ' values'],'frequency #','frequency %'};
sT.values = cell(nbins,length(sT.headers));
sT.span = ones(nbins,length(sT.headers),2);
for j=1:nbins,
if length(sH.bins) < csS{i}.nunique, sT.values{j,1} = sH.binlabels2{j};
else sT.values{j,1} = sH.binlabels{j}; end
sT.values{j,2} = sprintf('%d',round(sH.counts(j)));
sT.values{j,3} = p_str(sH.counts(j)/nvalid);
end
csThist{i} = sT;
end
return;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
%% subfunctions
function vstr = numtostring(v,d)
tp = (size(v,2)>1);
if tp, v = v'; end
nearzero = (abs(v)/(max(v)-min(v)) < 10.^-d);
i1 = find(v > 0 & nearzero);
i2 = find(v < 0 & nearzero);
vstr = strrep(cellstr(num2str(v,d)),' ','');
vstr(i1) = {'0.0'};
vstr(i2) = {'-0.0'};
if tp, vstr = vstr'; end
return;
function str = c_and_p_str(n,m)
% return a string of form # (%), e.g. '23 (12%)'
if n==m, p = '100';
elseif n==0, p = '0';
else p = sprintf('%.2g',100*n/m);
end
str = sprintf('%d (%s%%)',round(n),p);
return;
function str = p_str(p)
% return a string of form %, e.g. '12%'
if round(p*100)>100, p = sprintf('%3g',100*p);
elseif p==1, p = '100';
elseif abs(p)<eps, p = '0';
else p = sprintf('%.2g',100*p);
end
str = sprintf('%s%%',p);
return;