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litekmeans.m
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litekmeans.m
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function [label, center, bCon, sumD, D] = litekmeans(X, k, varargin)
if nargin < 2
error('litekmeans:TooFewInputs','At least two input arguments required.');
end
[n, p] = size(X);
pnames = { 'distance' 'start' 'maxiter' 'replicates' 'onlinephase' 'clustermaxiter'};
dflts = {'sqeuclidean' 'sample' [] [] 'off' [] };
[eid,errmsg,distance,start,maxit,reps,online,clustermaxit] = getargs(pnames, dflts, varargin{:});
if ~isempty(eid)
error(sprintf('litekmeans:%s',eid),errmsg);
end
if ischar(distance)
distNames = {'sqeuclidean','cosine'};
j = strcmpi(distance, distNames);
j = find(j);
if length(j) > 1
error('litekmeans:AmbiguousDistance', ...
'Ambiguous ''Distance'' parameter value: %s.', distance);
elseif isempty(j)
error('litekmeans:UnknownDistance', ...
'Unknown ''Distance'' parameter value: %s.', distance);
end
distance = distNames{j};
else
error('litekmeans:InvalidDistance', ...
'The ''Distance'' parameter value must be a string.');
end
center = [];
if ischar(start)
startNames = {'sample','cluster'};
j = find(strncmpi(start,startNames,length(start)));
if length(j) > 1
error(message('litekmeans:AmbiguousStart', start));
elseif isempty(j)
error(message('litekmeans:UnknownStart', start));
elseif isempty(k)
error('litekmeans:MissingK', ...
'You must specify the number of clusters, K.');
end
if j == 2
if floor(.1*n) < 5*k
j = 1;
end
end
start = startNames{j};
elseif isnumeric(start)
if size(start,2) == p
center = start;
elseif (size(start,2) == 1 || size(start,1) == 1)
center = X(start,:);
else
error('litekmeans:MisshapedStart', ...
'The ''Start'' matrix must have the same number of columns as X.');
end
if isempty(k)
k = size(center,1);
elseif (k ~= size(center,1))
error('litekmeans:MisshapedStart', ...
'The ''Start'' matrix must have K rows.');
end
start = 'numeric';
else
error('litekmeans:InvalidStart', ...
'The ''Start'' parameter value must be a string or a numeric matrix or array.');
end
% The maximum iteration number is default 100
if isempty(maxit)
maxit = 100;
end
% The maximum iteration number for preliminary clustering phase on random
% 10% subsamples is default 10
if isempty(clustermaxit)
clustermaxit = 10;
end
% Assume one replicate
if isempty(reps) || ~isempty(center)
reps = 1;
end
if ~(isscalar(k) && isnumeric(k) && isreal(k) && k > 0 && (round(k)==k))
error('litekmeans:InvalidK', ...
'X must be a positive integer value.');
elseif n < k
error('litekmeans:TooManyClusters', ...
'X must have more rows than the number of clusters.');
end
bestlabel = [];
sumD = zeros(1,k);
bCon = false;
for t=1:reps
switch start
case 'sample'
center = X(randsample(n,k),:);
case 'cluster'
Xsubset = X(randsample(n,floor(.1*n)),:);
[dump, center] = litekmeans(Xsubset, k, varargin{:}, 'start','sample', 'replicates',1 ,'MaxIter',clustermaxit);
case 'numeric'
end
last = 0;label=1;
it=0;
switch distance
case 'sqeuclidean'
while any(label ~= last) && it<maxit
last = label;
bb = full(sum(center.*center,2)');
ab = full(X*center');
D = bb(ones(1,n),:) - 2*ab;
[val,label] = min(D,[],2); % assign samples to the nearest centers
ll = unique(label);
if length(ll) < k
%disp([num2str(k-length(ll)),' clusters dropped at iter ',num2str(it)]);
missCluster = 1:k;
missCluster(ll) = [];
missNum = length(missCluster);
aa = sum(X.*X,2);
val = aa + val;
[dump,idx] = sort(val,1,'descend');
label(idx(1:missNum)) = missCluster;
end
E = sparse(1:n,label,1,n,k,n); % transform label into indicator matrix
center = full((E*spdiags(1./sum(E,1)',0,k,k))'*X); % compute center of each cluster
it=it+1;
end
if it<maxit
bCon = true;
end
if isempty(bestlabel)
bestlabel = label;
bestcenter = center;
if reps>1
if it>=maxit
aa = full(sum(X.*X,2));
bb = full(sum(center.*center,2));
ab = full(X*center');
D = bsxfun(@plus,aa,bb') - 2*ab;
D(D<0) = 0;
else
aa = full(sum(X.*X,2));
D = aa(:,ones(1,k)) + D;
D(D<0) = 0;
end
D = sqrt(D);
for j = 1:k
sumD(j) = sum(D(label==j,j));
end
bestsumD = sumD;
bestD = D;
end
else
if it>=maxit
aa = full(sum(X.*X,2));
bb = full(sum(center.*center,2));
ab = full(X*center');
D = bsxfun(@plus,aa,bb') - 2*ab;
D(D<0) = 0;
else
aa = full(sum(X.*X,2));
D = aa(:,ones(1,k)) + D;
D(D<0) = 0;
end
D = sqrt(D);
for j = 1:k
sumD(j) = sum(D(label==j,j));
end
if sum(sumD) < sum(bestsumD)
bestlabel = label;
bestcenter = center;
bestsumD = sumD;
bestD = D;
end
end
case 'cosine'
while any(label ~= last) && it<maxit
last = label;
W=full(X*center');
[val,label] = max(W,[],2); % assign samples to the nearest centers
ll = unique(label);
if length(ll) < k
missCluster = 1:k;
missCluster(ll) = [];
missNum = length(missCluster);
[dump,idx] = sort(val);
label(idx(1:missNum)) = missCluster;
end
E = sparse(1:n,label,1,n,k,n); % transform label into indicator matrix
center = full((E*spdiags(1./sum(E,1)',0,k,k))'*X); % compute center of each cluster
centernorm = sqrt(sum(center.^2, 2));
center = center ./ centernorm(:,ones(1,p));
it=it+1;
end
if it<maxit
bCon = true;
end
if isempty(bestlabel)
bestlabel = label;
bestcenter = center;
if reps>1
if any(label ~= last)
W=full(X*center');
end
D = 1-W;
for j = 1:k
sumD(j) = sum(D(label==j,j));
end
bestsumD = sumD;
bestD = D;
end
else
if any(label ~= last)
W=full(X*center');
end
D = 1-W;
for j = 1:k
sumD(j) = sum(D(label==j,j));
end
if sum(sumD) < sum(bestsumD)
bestlabel = label;
bestcenter = center;
bestsumD = sumD;
bestD = D;
end
end
end
end
label = bestlabel;
center = bestcenter;
if reps>1
sumD = bestsumD;
D = bestD;
elseif nargout > 3
switch distance
case 'sqeuclidean'
if it>=maxit
aa = full(sum(X.*X,2));
bb = full(sum(center.*center,2));
ab = full(X*center');
D = bsxfun(@plus,aa,bb') - 2*ab;
D(D<0) = 0;
else
aa = full(sum(X.*X,2));
D = aa(:,ones(1,k)) + D;
D(D<0) = 0;
end
D = sqrt(D);
case 'cosine'
if it>=maxit
W=full(X*center');
end
D = 1-W;
end
for j = 1:k
sumD(j) = sum(D(label==j,j));
end
end
function [eid,emsg,varargout]=getargs(pnames,dflts,varargin)
%GETARGS Process parameter name/value pairs
% [EID,EMSG,A,B,...]=GETARGS(PNAMES,DFLTS,'NAME1',VAL1,'NAME2',VAL2,...)
% accepts a cell array PNAMES of valid parameter names, a cell array
% DFLTS of default values for the parameters named in PNAMES, and
% additional parameter name/value pairs. Returns parameter values A,B,...
% in the same order as the names in PNAMES. Outputs corresponding to
% entries in PNAMES that are not specified in the name/value pairs are
% set to the corresponding value from DFLTS. If nargout is equal to
% length(PNAMES)+1, then unrecognized name/value pairs are an error. If
% nargout is equal to length(PNAMES)+2, then all unrecognized name/value
% pairs are returned in a single cell array following any other outputs.
%
% EID and EMSG are empty if the arguments are valid. If an error occurs,
% EMSG is the text of an error message and EID is the final component
% of an error message id. GETARGS does not actually throw any errors,
% but rather returns EID and EMSG so that the caller may throw the error.
% Outputs will be partially processed after an error occurs.
%
% This utility can be used for processing name/value pair arguments.
%
% Example:
% pnames = {'color' 'linestyle', 'linewidth'}
% dflts = { 'r' '_' '1'}
% varargin = {{'linew' 2 'nonesuch' [1 2 3] 'linestyle' ':'}
% [eid,emsg,c,ls,lw] = statgetargs(pnames,dflts,varargin{:}) % error
% [eid,emsg,c,ls,lw,ur] = statgetargs(pnames,dflts,varargin{:}) % ok
% We always create (nparams+2) outputs:
% one each for emsg and eid
% nparams varargs for values corresponding to names in pnames
% If they ask for one more (nargout == nparams+3), it's for unrecognized
% names/values
% Original Copyright 1993-2008 The MathWorks, Inc.
% Modified by Deng Cai (dengcai@gmail.com) 2011.11.27
% Initialize some variables
emsg = '';
eid = '';
nparams = length(pnames);
varargout = dflts;
unrecog = {};
nargs = length(varargin);
% Must have name/value pairs
if mod(nargs,2)~=0
eid = 'WrongNumberArgs';
emsg = 'Wrong number of arguments.';
else
% Process name/value pairs
for j=1:2:nargs
pname = varargin{j};
if ~ischar(pname)
eid = 'BadParamName';
emsg = 'Parameter name must be text.';
break;
end
i = strcmpi(pname,pnames);
i = find(i);
if isempty(i)
% if they've asked to get back unrecognized names/values, add this
% one to the list
if nargout > nparams+2
unrecog((end+1):(end+2)) = {varargin{j} varargin{j+1}};
% otherwise, it's an error
else
eid = 'BadParamName';
emsg = sprintf('Invalid parameter name: %s.',pname);
break;
end
elseif length(i)>1
eid = 'BadParamName';
emsg = sprintf('Ambiguous parameter name: %s.',pname);
break;
else
varargout{i} = varargin{j+1};
end
end
end
varargout{nparams+1} = unrecog;