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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_AO_ZDOMAINFIT a set of UTPs for the ao/zDomainFit method % % M Hewitson 06-08-08 % % $Id: utp_ao_zDomainFit.m,v 1.8 2010/01/27 18:10:25 luigi Exp $ % % <MethodDescription> % % The zDomainFit method of the ao class fit a model (miir filter) to % fsdata. % % </MethodDescription> function results = utp_ao_zDomainFit(varargin) % Check the inputs if nargin == 0 % Some keywords class = 'ao'; mthd = 'zDomainFit'; results = []; disp('******************************************************'); disp(['**** Running UTPs for ' class '/' mthd]); disp('******************************************************'); % Test AOs % [at1,at2,at3,at4,at5,at6,atvec,atmat] = get_test_objects_ao; % Exception list for the UTPs: [ple1,ple2,ple3,ple4,ple5,ple6] = get_test_ples(); % Build test objects pl_data1 = plist('fsfcn', '0.01./(0.01+f)', 'f1', 1e-6, 'f2', 5, 'nf', 100); a1 = ao(pl_data1); pl_data2 = plist('fsfcn', '0.001./(0.1+f)', 'f1', 1e-6, 'f2', 5, 'nf', 100); a2 = ao(pl_data2); pl_data3 = plist('fsfcn', '(1e-3./(f).^2 + 1e3./(0.001+f)).*1e-9', 'f1', 1e-6, 'f2', 5, 'nf', 100); a3 = ao(pl_data3); pl_data4 = plist('fsfcn', '(1e-4./(f).^2 + 1e3./(0.01+f)).*1e-10', 'f1', 1e-6, 'f2', 5, 'nf', 100); a4 = ao(pl_data4); pl_data5 = plist('fsfcn', '(1e5.*f.^2 + 1e3./(0.01+f)).*1e-8', 'f1', 1e-6, 'f2', 5, 'nf', 100); a5 = ao(pl_data5); a1.setName; a2.setName; a3.setName; a4.setName; a5.setName; av = [a1 a2 a3]; am = [a1 a2; a3 a4]; % ----- Building a simple test model f = logspace(-6,log10(5),30); fs = 10; res = [0.7 0.2+0.01i 0.2-0.01i]; poles = [0.5 0.1+0.07i 0.1-0.07i]; tmod(3,1) = miir; for ii = 1:3 tmod(ii,1) = miir(res(ii),[1 -poles(ii)],fs); end rtmod = resp(tmod,plist('bank','parallel','f',f.')); % ----- Buildin a standard plist fs = 10; tol = 1e-3; plstd = plist('FS',fs,... 'AutoSearch','on',... 'StartPoles',[],... 'StartPolesOpt','clin',... 'maxiter',60,... 'minorder',3,... 'maxorder',45,... 'weights',[],... 'weightparam','abs',... 'CONDTYPE','MSE',... 'FITTOL',1e-3,... 'MSEVARTOL',1e-2,... 'Plot','off',... 'ForceStability','off',... 'CheckProgress','off'); % 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 modify call does not work % results = [results utp_08]; % Test input data shape == output data % shape does not apply results = [results utp_09]; % Test output of the data results = [results utp_10]; % Test the fit give the correct coefficients 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 ~= 14, atest = false; end % Check key if ~io(3).plists.isparam('autosearch'), atest = false; end if ~io(3).plists.isparam('startpoles'), atest = false; end if ~io(3).plists.isparam('startpolesopt'), atest = false; end if ~io(3).plists.isparam('maxiter'), atest = false; end if ~io(3).plists.isparam('minorder'), atest = false; end if ~io(3).plists.isparam('maxorder'), atest = false; end if ~io(3).plists.isparam('weights'), atest = false; end if ~io(3).plists.isparam('weightparam'), atest = false; end if ~io(3).plists.isparam('condtype'), atest = false; end if ~io(3).plists.isparam('fittol'), atest = false; end if ~io(3).plists.isparam('msevartol'), atest = false; end if ~io(3).plists.isparam('plot'), atest = false; end if ~io(3).plists.isparam('forcestability'), atest = false; end if ~io(3).plists.isparam('checkprogress'), atest = false; end % Check default value if ~isequal(io(3).plists.find('autosearch'), 'on'), atest = false; end if ~isEmptyDouble(io(3).plists.find('startpoles')), atest = false; end if ~isequal(io(3).plists.find('startpolesopt'), 'clog'), atest = false; end if ~isequal(io(3).plists.find('maxiter'), 50), atest = false; end if ~isequal(io(3).plists.find('minorder'), 2), atest = false; end if ~isequal(io(3).plists.find('maxorder'), 20), atest = false; end if ~isEmptyDouble(io(3).plists.find('weights')), atest = false; end if ~isequal(io(3).plists.find('weightparam'), 'abs'), atest = false; end if ~isequal(io(3).plists.find('condtype'), 'MSE'), atest = false; end if ~isequal(io(3).plists.find('fittol'), .001), atest = false; end if ~isequal(io(3).plists.find('msevartol'), .01), atest = false; end if ~isequal(io(3).plists.find('plot'), 'off'), atest = false; end if ~isequal(io(3).plists.find('forcestability'), 'off'), atest = false; end if ~isequal(io(3).plists.find('checkprogress'), 'off'), atest = false; end % Check options if ~isequal(io(3).plists.getOptionsForParam('autosearch'), {'on', 'off'}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('startpoles'), {[]}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('startpolesopt'), {'real', 'clog', 'clin'}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('maxiter'), {50}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('minorder'), {2}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('maxorder'), {20}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('weights'), {[]}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('weightparam'), {'ones', 'abs', 'sqrt'}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('condtype'), {'MSE', 'RLD', 'RSF'}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('fittol'), {.001}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('msevartol'), {.01}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('plot'), {'on', 'off'}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('forcestability'), {'on', 'off'}), atest = false; end if ~isequal(io(3).plists.getOptionsForParam('checkprogress'), {'on', 'off'}), 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 zDomainFit method works with a vector of AOs as input. % % </TestDescription> function result = utp_02 % <SyntaxDescription> % % Test that the zDomainFit method works for a vector of AOs as input. % % </SyntaxDescription> try % <SyntaxCode> out = zDomainFit(av, plstd); % </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 'av' % 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 ~isequal(numel(out.objs), numel(av)), atest = false; end % Check each output against the absolute value of the input for kk=1:numel(out.objs) % Check the fitted ao(fsdata) objects if isa(av(kk).data, 'fsdata') % check that the output data responses are accurate to the % prescribed accuracy mse = out.objs(kk).procinfo.find('FIT_MSE'); if mse.y>tol, atest = false; end else % Check the other objects (they must be empty) if ~isempty([out.objs(kk).filters.a]), atest = false; end if ~isempty([out.objs(kk).filters.b]), atest = false; end end 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 zDomainFit method works with a matrix of AOs as input. % % </TestDescription> function result = utp_03 % <SyntaxDescription> % % Test that the zDomainFit method works for a matrix of AOs as input. % % </SyntaxDescription> try % <SyntaxCode> out = zDomainFit(am, plstd); % </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 'am' % 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 ~isequal(numel(out.objs), numel(am)), atest = false; end % Check each output against the absolute value of the input for kk=1:numel(out.objs) % Check the fitted ao(fsdata) objects if isa(am(kk).data, 'fsdata') % check that the output data responses are accurate to the % prescribed accuracy mse = out.objs(kk).procinfo.find('FIT_MSE'); if mse(end)>tol, atest = false; end else % Check the other objects (they must be empty) if ~isempty([out.objs(kk).filters.a]), atest = false; end if ~isempty([out.objs(kk).filters.b]), atest = false; end end 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 zDomainFit method works with a list of AOs as input. % % </TestDescription> function result = utp_04 % <SyntaxDescription> % % Test that the zDomainFit method works for a list of AOs as input. % % </SyntaxDescription> try % <SyntaxCode> out = zDomainFit(a1,a2,a3, plstd); % </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; aoin = [a1,a2,a3]; if stest % <AlgoCode> % Check we have the correct number of outputs if ~isequal(numel(out.objs), numel(aoin)), atest = false; end % Check each output against the absolute value of the input for kk=1:numel(out.objs) % Check the fitted ao(fsdata) objects if isa(aoin(kk).data, 'fsdata') % check that the output data responses are accurate to the % prescribed accuracy mse = out.objs(kk).procinfo.find('FIT_MSE'); if mse(end)>tol, atest = false; end else % Check the other objects (they must be empty) if ~isempty([out.objs(kk).filters.a]), atest = false; end if ~isempty([out.objs(kk).filters.b]), atest = false; end end 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 zDomainFit method works with a mix of different shaped AOs as % input. % % </TestDescription> function result = utp_05 % <SyntaxDescription> % % Test that the zDomainFit method works with an input of matrices and vectors % and single AOs. % % </SyntaxDescription> try % <SyntaxCode> out = zDomainFit(a5,[a1 a2;a3 a4],plstd); % </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; aoin = [a5,reshape([a1 a2;a3 a4],1,[])]; if stest % <AlgoCode> % Check we have the correct number of outputs if ~isequal(numel(out.objs), numel(aoin)), atest = false; end % Check each output against the absolute value of the input for kk=1:numel(out.objs) % Check the fitted ao(fsdata) objects if isa(aoin(kk).data, 'fsdata') % check that the output data responses are accurate to the % prescribed accuracy mse = out.objs(kk).procinfo.find('FIT_MSE'); if mse(end)>tol, atest = false; end else % Check the other objects (they must be empty) if ~isempty([out.objs(kk).filters.a]), atest = false; end if ~isempty([out.objs(kk).filters.b]), atest = false; end end 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 zDomainFit method properly applies history. % % </TestDescription> function result = utp_06 % <SyntaxDescription> % % Test that the result of applying the zDomainFit method can be processed back. % % </SyntaxDescription> try % <SyntaxCode> out = zDomainFit(a1,plstd); 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 % 'zDomainFit'. % 2) Check that the 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, 'zDomainFit'), atest = false; end % Check the re-built object 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> % % zDomainFit cannot modify the input AO. % % </TestDescription> function result = utp_07 % <SyntaxDescription> % % Test that the sDomainFit 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 a3 to work with amodi = ao(a3); aeq = ao(a3); amodi.zDomainFit(plstd); out = aeq.zDomainFit(plstd); % </SyntaxCode> stest = false; catch err disp(err.message) stest = true; end % <AlgoDescription> % % 1) Nothing to do. % % </AlgoDescription> atest = true; if stest % <AlgoCode> % </AlgoCode> else atest = false; end % Return a result structure result = utp_prepare_result(atest, stest, dbstack, mfilename); end % END UTP_07 % %% UTP_08 % % % <TestDescription> % % % % Test the shape of the output. - Does not make sense for zDomainFit % % becauses the output are miir filters % % % % </TestDescription> % function result = utp_08 % % % <SyntaxDescription> % % % % Test that the zDomainFit 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 = zDomainFit(a2,plstd); % out2 = zDomainFit(a1,plstd); % % </SyntaxCode> % stest = true; % catch err % disp(err.message) % stest = false; % end % % % <AlgoDescription> % % % % 1) Check that the shape 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_08 %% UTP_09 % <TestDescription> % % Check that the zDomainFit method pass back the output objects to a % single variable correctly. % % </TestDescription> function result = utp_09 % <SyntaxDescription> % % Call the method with a list of output variables and with a single output % variable. Additionaly check that the rebuild method works on the output. % % </SyntaxDescription> try % <SyntaxCode> % [o1, o2] = zDomainFit(a1, a2, plstd); o3 = zDomainFit(a1, a2, plstd); % mout1 = rebuild(o1); % mout2 = rebuild(o2); mout3 = rebuild(o3); % o31 = o3(1:size(o3,1),1); % o32 = o3(1:size(o3,1),2); % mout31 = rebuild(o31); % mout32 = rebuild(o32); % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the output contains the right number of objects % 2) Check that the 'rebuild' method produces the same object as 'out'. % % </AlgoDescription> atest = true; if stest % <AlgoCode> % Check the number of outputs % if numel(o1) ~=1, atest = false; end % if numel(o2) ~=1, atest = false; end % if numel(o3) ~=2, atest = false; end % Check the rebuilding of the object % if ~eq(o1, mout1, ple2), atest = false; end % if ~eq(o2, mout2, ple2), atest = false; end % if ~eq(o3(1), mout3(1), ple2), atest = false; end % if ~eq(o3(2), mout3(2), ple2), atest = false; end % if ~eq(o3(:,1), mout3(:,1), ple2), atest = false; end % if ~eq(o3(:,2), mout3(:,2), ple2), atest = false; end if ~eq(o3, mout3, ple2), atest = false; end % </AlgoCode> else atest = false; end % Return a result structure result = utp_prepare_result(atest, stest, dbstack, mfilename); end % END UTP_09 %% UTP_10 % <TestDescription> % % Tests that the zDomainFit method return the correct coefficients % % </TestDescription> function result = utp_10 % <SyntaxDescription> % % Test that the zDomainFit method works with an input of matrices and vectors % and single AOs. % % </SyntaxDescription> try % <SyntaxCode> fs = 10; tol = 0.5; plstd2 = plist('FS',fs,... 'AutoSearch','off',... 'StartPoles',[],... 'StartPolesOpt','clin',... 'maxiter',60,... 'minorder',3,... 'maxorder',3,... 'weights',[],... 'weightparam','abs',... 'CONDTYPE','MSE',... 'FITTOL',1e-3,... 'MSEVARTOL',1e-2,... 'Plot','off',... 'ForceStability','off',... 'CheckProgress','off'); out = zDomainFit(rtmod,plstd2); % </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 output contains the correct coefficients. % % </AlgoDescription> atest = true; if stest % <AlgoCode> % Check we have the correct number of outputs if ~isequal(numel(out), numel(rtmod)), atest = false; end % Check each output against the absolute value of the input for kk=1:numel(out.filters) % Check the fitted ao(fsdata) objects if isa(rtmod.data, 'fsdata') % check that fit coefficients corresponds to real coefficients % within a tolerance if any(abs(tmod(kk).a - out.filters(kk).a)>1e-4), atest = false; end if any(abs(tmod(kk).b - out.filters(kk).b)>1e-4), atest = false; end else % Check the other objects (they must be empty) if ~isempty(out.filters(kk).a), atest = false; end if ~isempty(out.filters(kk).b), atest = false; end end end % </AlgoCode> else atest = false; end % Return a result structure result = utp_prepare_result(atest, stest, dbstack, mfilename); end % END UTP_10 end