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| author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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| date | Tue, 06 Dec 2011 18:42:11 +0100 |
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% UTP_PZMODEL_TIMES a set of UTPs for the pzmodel/times method % % M Hewitson 06-08-08 % % $Id: utp_pzmodel_times.m,v 1.2 2009/07/23 18:56:38 ingo Exp $ % % <MethodDescription> % % The times method of the pzmodel class overloads the multiplication % operator for PZMODELs. % % </MethodDescription> function results = utp_pzmodel_times(varargin) % Check the inputs if nargin == 0 % Some keywords class = 'pzmodel'; mthd = 'times'; results = []; disp('******************************************************'); disp(['**** Running UTPs for ' class '/' mthd]); disp('******************************************************'); % 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]; % Vector input results = [results utp_03]; % Matrix input results = [results utp_04]; % List input results = [results utp_05]; % Test with mixed input results = [results utp_06]; % Test history is working results = [results utp_07]; % Test the I-/O-units 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 %% 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 ~= 0, atest = false; end % Check key % Check default value % Check options 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 times method works with a vector of PZMODELs as input. % % </TestDescription> function result = utp_02 % <SyntaxDescription> % % Test that the times method works for a vector of PZMODELs as input. % % </SyntaxDescription> try % <SyntaxCode> pz1 = pzmodel(2, pz(1), pz(-4)); pz2 = pzmodel(3, pz(2), pz(-3)); pz3 = pzmodel(4, pz(3), pz(-2)); pz4 = pzmodel(5, pz(4), pz(-1)); out1 = times(pz1, [pz2, pz3, pz4 pz1]); out2 = pz1 .* [pz2, pz3, pz4 pz1]; % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the output is exact one PZMODEL object. % 2) Check the gain of the output % 3) Check the poles of the output % 4) Check the zeros of the output % % </AlgoDescription> atest = true; if stest % <AlgoCode> if numel(out1) ~= 1, atest = false; end if numel(out2) ~= 1, atest = false; end % Check 'gain' if out1.gain ~= (2 * 3 * 4 * 5 * 2), atest = false; end if out2.gain ~= (2 * 3 * 4 * 5 * 2), atest = false; end % Check 'poles' if ~eq(out1.poles, [pz(1), pz(2), pz(3), pz(4), pz(1)]), atest = false; end if ~eq(out2.poles, [pz(1), pz(2), pz(3), pz(4), pz(1)]), atest = false; end % Check 'zeros' if ~eq(out1.zeros, [pz(-4), pz(-3), pz(-2), pz(-1), pz(-4)]), atest = false; end if ~eq(out2.zeros, [pz(-4), pz(-3), pz(-2), pz(-1), pz(-4)]), 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 times method works with a matrix of PZMODELs as input. % % </TestDescription> function result = utp_03 % <SyntaxDescription> % % Tests that the times method works with a matrix of PZMODELs as input. % % </SyntaxDescription> try % <SyntaxCode> pz1 = pzmodel(2, pz(1), pz(-4)); pz2 = pzmodel(3, pz(2), pz(-3)); pz3 = pzmodel(4, pz(3), pz(-2)); pz4 = pzmodel(5, pz(4), pz(-1)); out1 = times(pz1, [pz4, pz3, pz2; pz1 pz4 pz3]); out2 = pz1 .* [pz4, pz3, pz2; pz1 pz4 pz3]; % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the output is exact one PZMODEL object. % 2) Check the gain of the output % 3) Check the poles of the output % 4) Check the zeros of the output % % </AlgoDescription> atest = true; if stest % <AlgoCode> if numel(out1) ~= 1, atest = false; end if numel(out2) ~= 1, atest = false; end % Check 'gain' if out1.gain ~= (2 * 5 * 2 * 4 * 5 * 3 * 4), atest = false; end if out2.gain ~= (2 * 5 * 2 * 4 * 5 * 3 * 4), atest = false; end % Check 'poles' if ~eq(out1.poles, [pz(1), pz(4), pz(1), pz(3), pz(4), pz(2), pz(3)]), atest = false; end if ~eq(out2.poles, [pz(1), pz(4), pz(1), pz(3), pz(4), pz(2), pz(3)]), atest = false; end % Check 'zeros' if ~eq(out1.zeros, [pz(-4), pz(-1), pz(-4), pz(-2), pz(-1), pz(-3), pz(-2), ]), atest = false; end if ~eq(out2.zeros, [pz(-4), pz(-1), pz(-4), pz(-2), pz(-1), pz(-3), pz(-2), ]), 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 times method works with a list of PZMODELs as input. % % </TestDescription> function result = utp_04 % <SyntaxDescription> % % Tests that the times method works with a list of PZMODELs as input. % % </SyntaxDescription> try % <SyntaxCode> pz1 = pzmodel(2, pz(1), pz(-4)); pz2 = pzmodel(3, pz(2), pz(-3)); pz3 = pzmodel(4, pz(3), pz(-2)); out1 = times(pz1, pz2, pz3); out2 = pz1 .* pz2 .* pz3; % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the output is exact one PZMODEL object. % 2) Check the gain of the output % 3) Check the poles of the output % 4) Check the zeros of the output % % </AlgoDescription> atest = true; if stest % <AlgoCode> if numel(out1) ~= 1, atest = false; end if numel(out2) ~= 1, atest = false; end % Check 'gain' if out1.gain ~= (2 * 3 * 4), atest = false; end if out2.gain ~= (2 * 3 * 4), atest = false; end % Check 'poles' if ~eq(out1.poles, [pz(1), pz(2), pz(3)]), atest = false; end if ~eq(out2.poles, [pz(1), pz(2), pz(3)]), atest = false; end % Check 'zeros' if ~eq(out1.zeros, [pz(-4), pz(-3), pz(-2)]), atest = false; end if ~eq(out2.zeros, [pz(-4), pz(-3), pz(-2)]), 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 times method works with a mix of different shaped % PZMODELs as input. % % </TestDescription> function result = utp_05 % <SyntaxDescription> % % Tests that the times method works with a mix of different shaped % PZMODELs as input. % % </SyntaxDescription> try % <SyntaxCode> pz1 = pzmodel(2, pz(1), pz(-4)); pz2 = pzmodel(3, pz(2), pz(-3)); pz3 = pzmodel(4, pz(3), pz(-2)); pz4 = pzmodel(5, pz(4), pz(-1)); out1 = times(pz1, [pz2 pz3], pz4); out2 = pz1 .* [pz2 pz3] .* pz4; mout = rebuild(out2); % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the output is exact one PZMODEL object. % 2) Check the gain of the output % 3) Check the poles of the output % 4) Check the zeros of the output % 5) Check the rebuilt object % % </AlgoDescription> atest = true; if stest % <AlgoCode> if numel(out1) ~= 1, atest = false; end if numel(out2) ~= 1, atest = false; end % Check 'gain' if out1.gain ~= (2 * 3 * 4 * 5), atest = false; end if out2.gain ~= (2 * 3 * 4 * 5), atest = false; end % Check 'poles' if ~eq(out1.poles, [pz(1), pz(2), pz(3), pz(4)]), atest = false; end if ~eq(out2.poles, [pz(1), pz(2), pz(3), pz(4)]), atest = false; end % Check 'zeros' if ~eq(out1.zeros, [pz(-4), pz(-3), pz(-2), pz(-1)]), atest = false; end if ~eq(out2.zeros, [pz(-4), pz(-3), pz(-2), pz(-1)]), atest = false; end % Check the rebuilt object if ~eq(mout, out2, ple2), 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 times method properly applies history. % % </TestDescription> function result = utp_06 % <SyntaxDescription> % % Test that the result of applying the times method can be processed % back. % % </SyntaxDescription> try % <SyntaxCode> pz1 = pzmodel(2, pz(1), pz(-4)); pz2 = pzmodel(3, pz(2), pz(-3)); out = times(pz1, pz2); 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 % 'times'. % 2) Check that re-built object is the same object as the input. % % </AlgoDescription> atest = true; if stest % <AlgoCode> % Check the last step in the history of 'out' if ~strcmp(out.hist.methodInfo.mname, 'times'), atest = false; end % The rebuilt object must be the same as 'out' if ~eq(mout, out, ple2), 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> % % Check that the times method only multiply PZMODELs with the same output % units. % % </TestDescription> function result = utp_07 % <SyntaxDescription> % % Check that the times method only multiply PZMODELs with the same % output units. Check also the negative case. % % </SyntaxDescription> try % <SyntaxCode> pz1 = pzmodel(2, pz(1), pz(-3)); pz2 = pzmodel(3, pz(2), pz(-2)); pz3 = pzmodel(4, pz(3), pz(-1)); pz1.setOunits('Hz Hz^-1/2'); pz2.setOunits('Hz Hz^-1/2'); pz3.setOunits('Hz Hz^-1/2'); pz1.setIunits('m'); pz2.setIunits('Hz Hz^-1/2'); pz3.setIunits('Hz Hz^-1/2'); out = pz1 .* pz2 .* pz3; mout = rebuild(out); % Negative case pz2.setIunits('m'); try out = pz1 .* pz2; stest = false; catch stest = true; end % </SyntaxCode> catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check the I-/O-units % % </AlgoDescription> atest = true; if stest % <AlgoCode> % Check the I-/O-units if ~eq(out.iunits, unit('m')), atest = false; end if ~eq(out.ounits, unit('Hz Hz^-1/2')), atest = false; end % Check the re-built object. if ~eq(mout, mout, ple2), atest = false; end % </AlgoCode> else atest = false; end % Return a result structure result = utp_prepare_result(atest, stest, dbstack, mfilename); end % END UTP_07 end