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view m-toolbox/classes/@smodel/elementOp.m @ 0:f0afece42f48
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author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Wed, 23 Nov 2011 19:22:13 +0100 |
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% ELEMENTOP applies the given operator to the input smodels. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DESCRIPTION: ELEMENTOP applies the given operator to the input smodels. % % CALL: a = elementOp(callerIsMethod, 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 1.14 2011/05/10 20:43:09 mauro 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 && numel(fcnArgIn) ~= 3 error('### '); end mdl1 = fcnArgIn{1}; mdl2 = fcnArgIn{2}; %%%%%%%%%% Convert numbers into a symbolic model object %%%%%%%%%% if isnumeric(mdl1) || ischar(mdl1) expr = mdl1; varNames{1} = num2str(expr); % Create an array with the same size of the second input mdl1 = smodel.newarray(size(mdl2)); % Copy the object and replace the expression for ii = 1:numel(mdl2) mdl1(ii) = copy(mdl2(ii), true); mdl1(ii).yunits = ''; mdl1(ii).expr = msym(expr); % Do not duplicate yunits in case of product/division if ~strcmpi(op, 'times') && ~strcmpi(op, 'rdivide') mdl1(ii).yunits = mdl2(ii).yunits; end end end if isnumeric(mdl2) || ischar(mdl2) expr = mdl2; varNames{2} = num2str(expr); % Create an array with the same size of the first input mdl2 = smodel.newarray(size(mdl1)); % Copy the object and replace the expression for ii = 1:numel(mdl1) mdl2(ii) = copy(mdl1(ii), true); mdl2(ii).yunits = ''; mdl2(ii).expr = msym(expr); % Do not duplicate yunits in case of product/division if ~strcmpi(op, 'times') && ~strcmpi(op, 'rdivide') mdl2(ii).yunits = mdl1(ii).yunits; end end end % Convert cdata aos into a smodel object if isa(mdl2, 'ao') if isa(mdl2.data, 'cdata') && numel(mdl2.data.y) == 1 expr = mdl2.y; % Create an array with the same size of the first input mdl2 = smodel.newarray(size(mdl1)); % Copy the object and replace the expression for ii = 1:numel(mdl1) mdl2(ii) = copy(mdl1(ii), true); mdl2(ii).expr = msym(expr); end else error('### It is not possible to apply %s to the two objects!', opname); end end %%%%%%%%%% If the first or second input is only one object then %%%%%%%%%% %%%%%%%%%% resize the input to the size of the other object. %%%%%%%%%% if numel(mdl1) == 1 && numel(mdl1) ~= numel(mdl2) mdl1(1:numel(mdl2)) = mdl1; mdl1 = reshape(mdl1, size(mdl2)); end if numel(mdl2) == 1 && numel(mdl2) ~= numel(mdl1) mdl2(1:numel(mdl1)) = mdl2; mdl2 = reshape(mdl2, size(mdl1)); end if ~all(size(mdl1) == size(mdl2)) error('### The Input objects must have the same size. Size of model1 [%d %d], model2 [%d %d]', size(mdl1,1), size(mdl1,2), size(mdl2,1), size(mdl2,2)); end %%%%%%%%%% Add each element inside the array %%%%%%%%%% mdl = smodel.newarray(size(mdl1)); for kk = 1:numel(mdl1) switch opsym case {'.*', '*'} if any(strcmp(mdl1(kk).expr.s, {'0','(0)'})) || any(strcmp(mdl2(kk).expr.s, {'0','(0)'})) % 0*something = 0 mdl(kk).expr = msym(['0']); else mdl(kk).expr = msym(['(' mdl1(kk).expr.s ')' opsym '(' mdl2(kk).expr.s ')']); end case {'./', '/'} if any(strcmp(mdl1(kk).expr.s, {'0','(0)'})) % 0/something = 0 mdl(kk).expr = msym(['0']); else mdl(kk).expr = msym(['(' mdl1(kk).expr.s ')' opsym '(' mdl2(kk).expr.s ')']); end case '+' if any(strcmp(mdl1(kk).expr.s, {'0','(0)'})) % 0 + something = something mdl(kk).expr = msym([mdl2(kk).expr.s]); elseif any(strcmp(mdl2(kk).expr.s, {'0','(0)'})) % something + 0 = something mdl(kk).expr = msym([mdl1(kk).expr.s]); else mdl(kk).expr = msym(['(' mdl1(kk).expr.s ')' opsym '(' mdl2(kk).expr.s ')']); end otherwise mdl(kk).expr = msym(['(' mdl1(kk).expr.s ')' opsym '(' mdl2(kk).expr.s ')']); end mdl(kk).name = ['(' mdl1(kk).name ')' opsym '(' mdl2(kk).name ')']; % Merge parameters, alias, xvar, tran fields smodel.mergeFields(mdl1(kk), mdl2(kk), mdl(kk), 'params', 'values'); smodel.mergeFields(mdl1(kk), mdl2(kk), mdl(kk), 'aliasNames', 'aliasValues'); smodel.mergeFields(mdl1(kk), mdl2(kk), mdl(kk), 'xvar', 'xvals'); smodel.mergeFields(mdl1(kk), mdl2(kk), mdl(kk), 'xvar', 'xunits'); smodel.mergeFields(mdl1(kk), mdl2(kk), mdl(kk), 'xvar', 'trans'); % Take care of units if strcmpi(op,'times') mdl(kk).yunits = simplify(unit(unit(mdl1(kk).yunits).*unit(mdl2(kk).yunits))); elseif strcmpi(op,'rdivide') mdl(kk).yunits = simplify(unit(unit(mdl1(kk).yunits)./unit(mdl2(kk).yunits))); else mdl(kk).yunits = mdl1(kk).yunits; if mdl1(kk).yunits ~= mdl2(kk).yunits error('### Y units should be equal for %s', opname); end end % Add history if ~callerIsMethod inname1 = varNames{1}; inname2 = varNames{2}; if numel(fcnArgIn{1}) > 1 [ii, jj] = ind2sub(size(fcnArgIn{1}), kk); inname1 = sprintf('%s(%d,%d)', inname1, ii, jj); end if numel(fcnArgIn{2}) > 1 [ii, jj] = ind2sub(size(fcnArgIn{2}), kk); inname2 = sprintf('%s(%d,%d)', inname2, ii, jj); end mdl(kk).addHistory(infoObj, pl, {inname1, inname2}, [mdl1(kk).hist mdl2(kk).hist]); end end varargout{1} = mdl; end