Mercurial > hg > ltpda
view m-toolbox/classes/@matrix/elementOp.m @ 42:f90d4f666cc7 database-connection-manager
Cleanup
author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Mon, 05 Dec 2011 18:04:34 +0100 |
parents | f0afece42f48 |
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% ELEMENTOP applies the given operator to the input matrices. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DESCRIPTION: ELEMENTOP applies the given operator to the input matrices. % % CALL: a = elementOp(op, opname, opsym, infoObj, pl, fcnArgIn, varNames) % % PARAMETERS: op - MATLAB operation name % opname - Name for displaying % opsym - Operation symbol % infoObj - minfo object % pl - default plist % fcnArgIn - Input argument list of the calling fcn. % varNames - Variable names of the input % % VERSION: $Id: elementOp.m,v 1.10 2011/02/11 12:30:29 hewitson Exp $ % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function varargout = elementOp(varargin) import utils.const.* % Settings callerIsMethod = varargin{1}; op = varargin{2}; opname = varargin{3}; opsym = varargin{4}; infoObj = varargin{5}; pl = varargin{6}; fcnArgIn = varargin{7}; varNames = varargin{8}; if numel(fcnArgIn) ~=2 error('### The operator %s can only operate on two inputs', op); end mat1 = fcnArgIn{1}; mat2 = fcnArgIn{2}; if isnumeric(mat1) || ischar(mat1) if ischar(mat1) mat1 = eval(mat1); end nums = mat1; varNames{1} = utils.helper.mat2str(nums); % build a numeric/char object of the same size of mat2 mat1 = copy(mat2,1); for ii=1:numel(mat1.objs) if numel(nums) == numel(mat1.objs) expr = nums(ii); else expr = nums; end mat1.objs(ii) = feval(class(mat2.objs), expr); mat1.objs(ii).setName(num2str(expr)); if isprop(mat2.objs(ii), 'xunits') || (isa(mat2.objs(ii), 'ao') && ... isprop(mat2.objs(ii).data, 'xunits')) mat1.objs(ii).setXunits(mat2.objs(ii).xunits); end end end if isnumeric(mat2) || ischar(mat2) if ischar(mat2) mat2 = eval(mat2); end nums = mat2; varNames{2} = utils.helper.mat2str(nums); % build a numeric/char object of the same size of mat1 mat2 = copy(mat1,1); for ii=1:numel(mat2.objs) if numel(nums) == numel(mat2.objs) expr = nums(ii); else expr = nums; end mat2.objs(ii) = feval(class(mat1.objs), expr); mat2.objs(ii).setName(utils.helper.num2str(expr)); if isprop(mat2.objs(ii), 'xunits') || (isa(mat2.objs(ii), 'ao') && ... isprop(mat2.objs(ii).data, 'xunits')) mat2.objs(ii).setXunits(mat1.objs(ii).xunits); end end end % matrix objects must all contain the same class if ~strcmp(class(mat1.objs), class(mat2.objs)) error('### The %s operator can only apply to matrix objects containing the same class of objects. [%s .* %s]', op, class(mat1.objs), class(mat2.objs)); end % init output mat = copy(mat1,1); %%%%%%%%%% If the first or second input is only one object then %%%%%%%%%% %%%%%%%%%% resize the input to the size of the other object. %%%%%%%%%% if numel(mat1.objs) == 1 && numel(mat1.objs) ~= numel(mat2.objs) h1 = mat1.hist; obj1 = mat1.objs; obj1(1:numel(mat2.objs)) = obj1; obj1 = reshape(obj1, size(mat2.objs)); mat1 = matrix(obj1); mat1.name = varNames{1}; mat1.hist = h1; end if numel(mat2.objs) == 1 && numel(mat2.objs) ~= numel(mat1.objs) h2 = mat2.hist; obj2 = mat2.objs; obj2(1:numel(mat1.objs)) = obj2; obj2 = reshape(obj2, size(mat1.objs)); mat2 = matrix(obj2); mat2.name = varNames{2}; mat2.hist = h2; end if ~all(size(mat1.objs) == size(mat2.objs)) error('### The Input objects must have the same size. Size of mat1 [%d %d], mat2 [%d %d]', size(mat1.objs,1), size(mat1.objs,2), size(mat2.objs,1), size(mat2.objs,2)); end % switch between operations switch lower(op) case 'plus' % plus operation for kk = 1:numel(mat1.objs) mat.objs(kk) = mat1.objs(kk) + mat2.objs(kk); end case 'minus' % minus operation for kk = 1:numel(mat1.objs) mat.objs(kk) = mat1.objs(kk) - mat2.objs(kk); end case 'times' % times operation for kk = 1:numel(mat1.objs) mat.objs(kk) = mat1.objs(kk) .* mat2.objs(kk); end case 'rdivide' % rdivide operation for kk = 1:numel(mat1.objs) mat.objs(kk) = mat1.objs(kk) ./ mat2.objs(kk); end end if ~callerIsMethod mat.name = [varNames{1} opsym varNames{2}]; mat.addHistory(infoObj, pl, varNames, [mat1.hist mat2.hist]); end varargout{1} = mat; end