% % W = RANDOMFORESTC(A,L,N) % % Train a decision forest on A, using L decision trees, each trained on % a bootstrapped version of dataset A. Each decison tree is using random % feature subsets of size N in each node. When N=0, no feature subsets % are used. % C-code: train: 101.3 s 110.4 % test: 0.1 s 0.1 % matlab: train: 1726.9 s % test: 520.4 s function w = randomforestc(a,L,featsubset) if nargin<3 featsubset = 1; end if nargin<2 L = 50; end if nargin<1 || isempty(a) w = prmapping(mfilename,{L,featsubset}); w = setname(w,'Random forest (L=%d)',L); return end if ~ismapping(L) isvaldfile(a,2,2); % at least 2 obj/class, 2 classes opt = []; [n,dim,opt.K] = getsize(a); opt.featsubset = featsubset; v = cell(L,1); for i=1:L [x,z] = gendat(a); if exist('decisiontree')==3 v{i} = decisiontree(+x,getnlab(x),opt.K,opt.featsubset); else prwarning(1,'Slow Matlab code used for training Randomforest classifier') v{i} = tree_train(+x,getnlab(x),opt); end end w = prmapping(mfilename,'trained',v,getlablist(a),dim,opt.K); w = setname(w,'Random forest (L=%d)',L); else v = getdata(L); n = size(a,1); % nr objects K = size(L,2); % nr of classes nrv = length(v); % nr of trees out = zeros(n,K); if exist('decisiontree')==3 && false for j=1:nrv I = decisiontree(v{j},+a); out = out + accumarray([(1:n)' I],ones(n,1),[n K]); end else % the old fashioned slow Matlab code prwarning(1,'Slow Matlab code used for testing Randomforest classifier') for i=1:n x = +a(i,:); for j=1:nrv I = tree_eval(v{j},x); out(i,I) = out(i,I)+1; end end out = out./repmat(sum(out,2),1,K); end w = setdat(a,out,L); end return