Mercurial > hg > ltpda
diff testing/utp_1.1/utps/ao/utp_ao_transpose.m @ 44:409a22968d5e default
Add unit tests
| author | Daniele Nicolodi <nicolodi@science.unitn.it> |
|---|---|
| date | Tue, 06 Dec 2011 18:42:11 +0100 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/testing/utp_1.1/utps/ao/utp_ao_transpose.m Tue Dec 06 18:42:11 2011 +0100 @@ -0,0 +1,588 @@ +% UTP_AO_TRANSPOSE a set of UTPs for the ao/transpose method +% +% M Hewitson 06-08-08 +% +% $Id: utp_ao_transpose.m,v 1.9 2011/04/17 15:45:09 ingo Exp $ +% + +% <MethodDescription> +% +% The transpose method of the ao class computes the transpose value of the y +% and/or x data. +% +% </MethodDescription> + +function results = utp_ao_transpose(varargin) + + % Check the inputs + if nargin == 0 + + % Some keywords + class = 'ao'; + mthd = 'transpose'; + + results = []; + disp('******************************************************'); + disp(['**** Running UTPs for ' class '/' mthd]); + disp('******************************************************'); + + % Test AOs + [at1,at2,at3,at4,at5,at6,atvec,atmat] = eval(['get_test_objects_' class]); + + % Exception list for the UTPs: + [ple1,ple2,ple3,ple4,ple5,ple6] = get_test_ples(); + + % Run the tests + results = [results utp_01]; % getInfo call + results = [results utp_02(mthd, atvec, @algo_test_y, [], ple3)]; % Vector input + results = [results utp_03(mthd, atmat, @algo_test_y, [], ple3)]; % Matrix input + results = [results utp_04(mthd, at1, at2, at3, @algo_test_y, [], ple3)]; % List input + results = [results utp_05(mthd, at1, atvec, atmat, @algo_test_y, [], ple3)]; % Test with mixed input + results = [results utp_06(mthd, at1, [], ple2)]; % Test history is working + results = [results utp_07]; % Test the modify call works + results = [results utp_09]; % Test input data shape == output data shape + + results = [results utp_10(mthd, at1, at2, ple2)]; % Test output of the data + results = [results utp_11(mthd, at1, ple1)]; % Test plotinfo doesn't disappear + + disp('Done.'); + disp('******************************************************'); + + elseif nargin == 1 % Check for UTP functions + if strcmp(varargin{1}, 'isutp') + results = 1; + else + results = 0; + end + else + error('### Incorrect inputs') + end + + function atest = algo_test_y(in, out, pli) + atest = true; + if ~isequal(transpose(in.data.y), out.data.y), atest = false; end + end + + %% UTP_01 + + % <TestDescription> + % + % Tests that the getInfo call works for this method. + % + % </TestDescription> + function result = utp_01 + + + % <SyntaxDescription> + % + % Test that the getInfo call works for no sets, all sets, and each set + % individually. + % + % </SyntaxDescription> + + try + % <SyntaxCode> + % Call for no sets + io(1) = eval([class '.getInfo(''' mthd ''', ''None'')']); + % Call for all sets + io(2) = eval([class '.getInfo(''' mthd ''')']); + % Call for each set + for kk=1:numel(io(2).sets) + io(kk+2) = eval([class '.getInfo(''' mthd ''', ''' io(2).sets{kk} ''')']); + end + % </SyntaxCode> + stest = true; + catch err + disp(err.message) + stest = false; + end + + % <AlgoDescription> + % + % 1) Check that getInfo call returned an minfo object in all cases. + % 2) Check that all plists have the correct parameters. + % + % </AlgoDescription> + + atest = true; + if stest + % <AlgoCode> + % check we have minfo objects + if isa(io, 'minfo') + %%% SET 'None' + if ~isempty(io(1).sets), atest = false; end + if ~isempty(io(1).plists), atest = false; end + %%% Check all Sets + if ~any(strcmpi(io(2).sets, 'Default')), atest = false; end + if numel(io(2).plists) ~= numel(io(2).sets), atest = false; end + %%%%%%%%%% SET 'Default' + if io(3).plists.nparams ~= 1, atest = false; end + % Check key + if ~io(3).plists.isparam('complex'), atest = false; end + % Check default value + if ~isequal(io(3).plists.find('complex'), false), atest = false; end + % Check options + if ~isequal(io(3).plists.getOptionsForParam('complex'), {false, true}), atest = false; end + end + % </AlgoCode> + else + atest = false; + end + + % Return a result structure + result = utp_prepare_result(atest, stest, dbstack, mfilename); + end % END UTP_01 + +% %% UTP_02 +% +% % <TestDescription> +% % +% % Tests that the transpose method works with a vector of AOs as input. +% % +% % </TestDescription> +% function result = utp_02 +% +% % <SyntaxDescription> +% % +% % Test that the transpose method works for a vector of AOs as input. +% % +% % </SyntaxDescription> +% +% try +% % <SyntaxCode> +% out1 = transpose(atvec); +% out2 = atvec.'; +% % </SyntaxCode> +% stest = true; +% catch err +% disp(err.message) +% stest = false; +% end +% +% % <AlgoDescription> +% % +% % 1) Check that the number of elements in 'out1' is the same as in 'atvec' +% % 2) Check that each output AO contains the correct data. +% % 3) Check that out1 and out2 are the same +% % +% % </AlgoDescription> +% +% atest = true; +% if stest +% % <AlgoCode> +% % Check we have the correct number of outputs +% if ~isequal(size(out1), size(atvec)), atest = false; end +% % Check each output against the transpose of the input +% for kk=1:numel(out1) +% if ~isequal(transpose(atvec(kk).data.y), out1(kk).data.y), atest = false; end +% if ~isequal(transpose(atvec(kk).data.x), out1(kk).data.x), atest = false; end +% end +% % Check that out1 and out2 are the same +% if ~eq(out1, out2, ple1), atest = false; end +% % </AlgoCode> +% else +% atest = false; +% end +% +% % Return a result structure +% result = utp_prepare_result(atest, stest, dbstack, mfilename); +% end % END UTP_02 +% +% %% UTP_03 +% +% % <TestDescription> +% % +% % Tests that the transpose method works with a matrix of AOs as input. +% % +% % </TestDescription> +% function result = utp_03 +% +% % <SyntaxDescription> +% % +% % Test that the transpose method works for a matrix of AOs as input. +% % +% % </SyntaxDescription> +% +% try +% % <SyntaxCode> +% out1 = transpose(atmat); +% out2 = atmat.'; +% % </SyntaxCode> +% stest = true; +% catch err +% disp(err.message) +% stest = false; +% end +% +% % <AlgoDescription> +% % +% % 1) Check that the number of elements in 'out1' is the same as in 'atmat' +% % 2) Check that each output AO contains the correct data. +% % 3) Check that out1 and out2 are the same +% % +% % </AlgoDescription> +% +% atest = true; +% if stest +% % <AlgoCode> +% % Check we have the correct number of outputs +% if ~isequal(size(out1), size(atmat)), atest = false; end +% % Check each output against the transpose of the input +% for kk=1:numel(out1) +% if ~isequal(transpose(atmat(kk).data.y), out1(kk).data.y), atest = false; end +% if ~isa(atmat(kk).data, 'cdata') +% if ~isequal(transpose(atmat(kk).data.x), out1(kk).data.x), atest = false; end +% end +% end +% % Check that out1 and out2 are the same +% if ~eq(out1, out2, ple1), atest = false; end +% % </AlgoCode> +% else +% atest = false; +% end +% +% % Return a result structure +% result = utp_prepare_result(atest, stest, dbstack, mfilename); +% end % END UTP_03 +% +% %% UTP_04 +% +% % <TestDescription> +% % +% % Tests that the transpose method works with a list of AOs as input. +% % +% % </TestDescription> +% function result = utp_04 +% +% % <SyntaxDescription> +% % +% % Test that the transpose method works for a list of AOs as input. +% % +% % </SyntaxDescription> +% +% try +% % <SyntaxCode> +% out = transpose(at1,at2,at3); +% % </SyntaxCode> +% stest = true; +% catch err +% disp(err.message) +% stest = false; +% end +% +% % <AlgoDescription> +% % +% % 1) Check that the number of elements in 'out' is the same as in +% % input. +% % 2) Check that each output AO contains the correct data. +% % +% % </AlgoDescription> +% +% atest = true; +% if stest +% % <AlgoCode> +% % Check we have the correct number of outputs +% if numel(out) ~= 3, atest = false; end +% % Check each output against the transpose of the input +% if ~isequal(transpose(at1.data.y), out(1).data.y), atest = false; end +% if ~isequal(transpose(at2.data.y), out(2).data.y), atest = false; end +% if ~isequal(transpose(at3.data.y), out(3).data.y), atest = false; end +% % </AlgoCode> +% else +% atest = false; +% end +% +% % Return a result structure +% result = utp_prepare_result(atest, stest, dbstack, mfilename); +% end % END UTP_04 +% +% %% UTP_05 +% +% % <TestDescription> +% % +% % Tests that the transpose method works with a mix of different shaped AOs as +% % input. +% % +% % </TestDescription> +% function result = utp_05 +% +% % <SyntaxDescription> +% % +% % Test that the transpose method works with an input of matrices and vectors +% % and single AOs. +% % +% % </SyntaxDescription> +% +% try +% % <SyntaxCode> +% out = transpose(at1,atvec,at2,atmat,at3); +% % </SyntaxCode> +% stest = true; +% catch err +% disp(err.message) +% stest = false; +% end +% +% % <AlgoDescription> +% % +% % 1) Check that the number of elements in 'out' is the same as in +% % input. +% % 2) Check that each output AO contains the correct data. +% % +% % </AlgoDescription> +% +% atest = true; +% if stest +% % <AlgoCode> +% % Check we have the correct number of outputs +% if numel(out) ~= (3+numel(atmat)+numel(atvec)), atest = false; end +% % Check the first input +% nout = 1; +% if ~isequal(transpose(at1.data.y), out(nout).data.y), atest = false; end +% nout = nout+1; +% % Check the elements of the input vector +% for jj=1:numel(atvec) +% if ~isequal(transpose(atvec(jj).data.y), out(nout).data.y), atest = false; end +% nout = nout+1; +% end +% % Check the 3rd input +% if ~isequal(transpose(at2.data.y), out(nout).data.y), atest = false; end +% nout = nout+1; +% % Check the elements of the input matrix +% for jj=1:numel(atmat) +% if ~isequal(transpose(atmat(jj).data.y), out(nout).data.y), atest = false; end +% nout = nout+1; +% end +% % Check the last input +% if ~isequal(transpose(at3.data.y), out(nout).data.y), atest = false; end +% % </AlgoCode> +% else +% atest = false; +% end +% +% % Return a result structure +% result = utp_prepare_result(atest, stest, dbstack, mfilename); +% end % END UTP_05 +% +% %% UTP_06 +% +% % <TestDescription> +% % +% % Tests that the transpose method properly applies history. +% % +% % </TestDescription> +% function result = utp_06 +% +% % <SyntaxDescription> +% % +% % Test that the result of applying the transpose method can be processed back +% % to an m-file. +% % +% % </SyntaxDescription> +% +% try +% % <SyntaxCode> +% out = transpose(at1); +% mout = rebuild(out); +% % </SyntaxCode> +% stest = true; +% catch err +% disp(err.message) +% stest = false; +% end +% +% % <AlgoDescription> +% % +% % 1) Check that the last entry in the history of 'out' corresponds to +% % 'transpose'. +% % 2) Check that the re-built object is the same object as 'out'. +% % +% % </AlgoDescription> +% +% atest = true; +% if stest +% % <AlgoCode> +% % Check the last step in the history of 'out' +% if ~strcmp(out.hist.methodInfo.mname, 'transpose'), atest = false; end +% % Check the re-built object +% if ~eq(mout, out, ple1), atest = false; end +% % </AlgoCode> +% else +% atest = false; +% end +% +% % Return a result structure +% result = utp_prepare_result(atest, stest, dbstack, mfilename); +% end % END UTP_06 + + %% UTP_07 + + % <TestDescription> + % + % Tests that the transpose method can modify the input AO. + % + % </TestDescription> + function result = utp_07 + + % <SyntaxDescription> + % + % Test that the transpose method can modify the input AO by calling with no + % output and that the method doesn't change the input of the function + % notation (with a equal sign). + % + % </SyntaxDescription> + + try + % <SyntaxCode> + % copy at1 to work with + ain = ao(at1); + % modify ain + aout = ain.transpose(); + ain.transpose(); + % </SyntaxCode> + stest = true; + catch err + disp(err.message) + stest = false; + end + + % <AlgoDescription> + % + % 1) Check that 'at1' and 'ain' are now different. + % 2) Check that 'ain' is transpose(at1). + % + % </AlgoDescription> + + atest = true; + if stest + % <AlgoCode> + % Check that transpose modified the input by comparing to the copy + if eq(ao(at1), ain, ple1), atest = false; end + % Check that transpose doesn't modified the input for the function notation + if ~eq(aout, ain, ple1), atest = false; end + % Check that the modified input is the transpose value of the copy + if ~isequal(transpose(at1.data.y), ain.data.y), atest = false; end + % </AlgoCode> + else + atest = false; + end + + % Return a result structure + result = utp_prepare_result(atest, stest, dbstack, mfilename); + end % END UTP_07 + + %% UTP_08 + + % <TestDescription> + % + % Control the method with a plist. + % + % </TestDescription> + function result = utp_08 + + % <SyntaxDescription> + % + % Test that the transpose method can modify the single axis controlled by the + % plist and the resuld can be processed back to an m-file. + % + % </SyntaxDescription> + + try + % <SyntaxCode> + plx = plist('axis', 'X'); + ply = plist('axis', 'Y'); + plxy = plist('axis', 'XY'); + out1 = transpose(at1, plx); + out2 = transpose(at1, ply); + out3 = transpose(at1, plxy); + mout1 = rebuild(out1); + mout2 = rebuild(out2); + mout3 = rebuild(out3); + % </SyntaxCode> + stest = true; + catch err + disp(err.message) + stest = false; + end + + % <AlgoDescription> + % + % 1) Check that the transpose method applies to both axes + % 2) Check that the transpose method applies to both axes + % 3) Check that the transpose method applies to both axes + % 4) Check that the re-built objects are the same object as 'out[1..3]'. + % + % </AlgoDescription> + + atest = true; + if stest + % <AlgoCode> + % Check each output against the transpose value of the input + if ~isequal(at1.data.y.', out1.data.y), atest = false; end + if ~isequal(at1.data.y.', out2.data.y), atest = false; end + if ~isequal(at1.data.y.', out3.data.y), atest = false; end + % Check the re-built object + if ~eq(mout1, out1, ple1), atest = false; end + if ~eq(mout2, out2, ple1), atest = false; end + if ~eq(mout3, out3, ple1), atest = false; end + % </AlgoCode> + else + atest = false; + end + + % Return a result structure + result = utp_prepare_result(atest, stest, dbstack, mfilename); + end % END UTP_08 + + %% UTP_09 + + % <TestDescription> + % + % Control the method with a plist. + % + % </TestDescription> + function result = utp_09 + + % <SyntaxDescription> + % + % Test that the abs method keeps the data shape of the input object. The + % input AO must be an AO with row data and an AO with column data. + % + % </SyntaxDescription> + + try + % <SyntaxCode> + out1 = abs(at5); + out2 = abs(at6); + % </SyntaxCode> + stest = true; + catch err + disp(err.message) + stest = false; + end + + % <AlgoDescription> + % + % 1) Check that the shpe of the data doesn't change. + % + % </AlgoDescription> + + atest = true; + if stest + % <AlgoCode> + % Check the shape of the output data + if size(out1.data.x) ~= size(at5.data.x), atest = false; end + if size(out1.data.y) ~= size(at5.data.y), atest = false; end + if size(out2.data.x) ~= size(at6.data.x), atest = false; end + if size(out2.data.y) ~= size(at6.data.y), atest = false; end + % </AlgoCode> + else + atest = false; + end + + % Return a result structure + result = utp_prepare_result(atest, stest, dbstack, mfilename); + end % END UTP_09 + + +end