Mercurial > hg > smallbox
diff util/sparco utils/completeOps.m @ 77:62f20b91d870
add routines from sparco problems privite folder to {root}\util
some changes to ksvd vs rlsdla image denoising example
author | Ivan <ivan.damnjanovic@eecs.qmul.ac.uk> |
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date | Fri, 25 Mar 2011 14:01:50 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/util/sparco utils/completeOps.m Fri Mar 25 14:01:50 2011 +0000 @@ -0,0 +1,78 @@ +function data = completeOps(data) + +% Copyright 2008, Ewout van den Berg and Michael P. Friedlander +% http://www.cs.ubc.ca/labs/scl/sparco +% $Id: completeOps.m 1040 2008-06-26 20:29:02Z ewout78 $ + +operators = {}; +flagM = 0; if isfield(data,'M'), flagM = 1; end; +flagB = 0; if isfield(data,'B'), flagB = 1; end; + +if (~flagM) && (~flagB) + error('At least one of the operators M or B has be to given.'); +end + +% Define measurement matrix if needed +if ~flagM + info = data.B([],0); + data.M = opDirac(info{1}); +else + operators{end+1} = data.M; +end + +% Define sparsity basis if needed +if ~flagB + info = data.M([],0); + data.B = opDirac(info{2}); +else + operators{end+1} = data.B; +end + +% Define operator A if needed +if ~isfield(data,'A') + if (length(operators) > 1) + data.A = opFoG(operators{:}); + else + data.A = operators{1}; + end +end + +% Define empty solution if needed +if ~isfield(data,'x0') + data.x0 = []; +end + +% Define the operator size and string +opInfo = data.A([],0); +data.sizeA = [opInfo{1},opInfo{2}]; +opInfo = data.B([],0); +data.sizeB = [opInfo{1},opInfo{2}]; +opInfo = data.M([],0); +data.sizeM = [opInfo{1},opInfo{2}]; +data.op.strA = opToString(data.A); +data.op.strB = opToString(data.B); +data.op.strM = opToString(data.M); + +% Get the size of the desired signal +if ~isfield(data,'signalSize') + if ~isfield(data,'signal') + error(['At least one of the fields signal ', ... + 'or signalSize must be given.']); + end + data.signalSize = size(data.signal); +end + +% Reconstruct signal from sparse coefficients +if ~isfield(data,'reconstruct') + data.reconstruct = @(x) reshape(data.B(x,1),data.signalSize); +end + +% Reorder the fields (sort alphabetically) +m = fieldnames(data); +m = sort(m); +dataReorder = struct(); +for i=1:length(m) + eval(sprintf('dataReorder.%s = data.%s;',m{i},m{i})); +end + +data = dataReorder;