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Cleanup
| author | Daniele Nicolodi <nicolodi@science.unitn.it> |
|---|---|
| date | Wed, 07 Dec 2011 17:24:36 +0100 |
| parents | 409a22968d5e |
| children |
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% UTP_AO_AVERAGE a set of UTPs for the ao/average method % % M Hueller 24-02-1 % % $Id: utp_ao_average.m,v 1.2 2011/04/17 15:46:21 ingo Exp $ % % <MethodDescription> % % The average method of the ao class averages aos point-by-point % % </MethodDescription> function results = utp_ao_average(varargin) % Check the inputs if nargin == 0 % Some keywords class = 'ao'; mthd = 'average'; 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(); % Set the same y-units for the test AOs at1.setYunits('uHz'); at2.setYunits('uHz'); at3.setYunits('uHz'); at4.setYunits('uHz'); at5.setYunits('uHz'); at6.setYunits('uHz'); % 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(mthd, at1, at5, ple2)]; % 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 results = [results utp_18]; % Test with single input 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 average method works with a vector of AOs as input. % % </TestDescription> function result = utp_02 % <SyntaxDescription> % % Tests that the average method works with a vector of AOs as input. % % </SyntaxDescription> try % <SyntaxCode> % Pick units and prefix from those supported unit_list = unit.supportedUnits; % remove the first empty unit '' from the list, because then is it % possible that we add a prefix to an empty unit unit_list = unit_list(2:end); prefix_list = unit.supportedPrefixes; u = unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))]); % tsdata: settings fs = 3; ts_pl = plist('fs', fs, 'nsecs', 30, 'waveform', 'sine wave', 'f', 10, 'yunits', u); ts_a1 = ao(ts_pl); ts_a2 = ao(ts_pl); ts_a3 = ao(ts_pl); ts_a1.setT0('14:00:00'); ts_a2.setT0('14:00:05'); ts_a3.setT0('14:00:10'); % tsdata: call the method with a vector of inputs ts_out = average([ts_a1, ts_a2, ts_a3]); % fsdata: settings fs_pl = plist('fsfcn', '1./f.^2', 'scale', 'lin', 'nf', 100, 'yunits', u); fs_a1 = ao(fs_pl); fs_a2 = 2*ao(fs_pl); % tsdata: call the method with a vector of inputs fs_out = average([fs_a1, fs_a2]); % xydata: settings xy_pl = plist('X', [1:50,52:2:100,110:10:1000], 'xyfcn', 'log(x)', 'yunits', u); xy_a1 = ao(xy_pl); xy_a2 = ao(xy_pl.pset('xyfcn', 'log10(x)')); xy_a3 = ao(xy_pl.pset('xyfcn', 'exp(-x)')); % xydata: call the method with a vector of inputs xy_out = average([xy_a1, xy_a2, xy_a3]); % cdata: settings c_pl = plist('yunits', u); c_a1 = ao([1 2 3], c_pl); c_a2 = ao([4 3 2], c_pl); c_a3 = ao([7 4 9], c_pl); c_a4 = ao([-4 -1 2], c_pl); % cdata: call the method with a vector of inputs c_out = average([c_a1, c_a2, c_a3, c_a4]); % Rebuild the objects ts_mout = rebuild(ts_out); fs_mout = rebuild(fs_out); xy_mout = rebuild(xy_out); c_mout = rebuild(c_out); % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the outputs have exactly one AO % 2) Check that the outputs have the correct data. % 3) Check the rebuilt objects % % </AlgoDescription> atest = true; if stest % <AlgoCode> % Check that the output is exactly one AO if numel(ts_out) ~= 1, atest = false; end if numel(fs_out) ~= 1, atest = false; end if numel(xy_out) ~= 1, atest = false; end if numel(c_out) ~= 1, atest = false; end if ~isa(ts_out, 'ao'), atest = false; end if ~isa(fs_out, 'ao'), atest = false; end if ~isa(xy_out, 'ao'), atest = false; end if ~isa(c_out, 'ao'), atest = false; end % Check output data: x if ~isequal(ts_out.x, ts_a1.x), atest = false; end if ~isequal(fs_out.x, fs_a1.x), atest = false; end if ~isequal(xy_out.x, xy_a1.x), atest = false; end % Check output data: t0 if ~isequal(ts_out.t0, ts_a1.t0), atest = false; end % Check output data: y ts_data_in = [ts_a1.y ts_a2.y ts_a3.y]; if ~isequal(ts_out.y, mean(ts_data_in, 2)), atest = false; end fs_data_in = [fs_a1.y fs_a2.y]; if ~isequal(fs_out.y, mean(fs_data_in, 2)), atest = false; end xy_data_in = [xy_a1.y xy_a2.y xy_a3.y]; if ~isequal(xy_out.y, mean(xy_data_in, 2)), atest = false; end c_data_in = [c_a1.y c_a2.y c_a3.y c_a4.y]; if ~isequal(c_out.y, mean(c_data_in, 2)), atest = false; end % Check output data: dy if ~isequal(ts_out.dy, std(ts_data_in, 0, 2)/sqrt(3)), atest = false; end if ~isequal(fs_out.dy, std(fs_data_in, 0, 2)/sqrt(2)), atest = false; end if ~isequal(xy_out.dy, std(xy_data_in, 0, 2)/sqrt(3)), atest = false; end if ~isequal(c_out.dy, std(c_data_in, 0, 2)/sqrt(4)), atest = false; end % Check output data: xunits if ~isequal(ts_out.xunits, ts_a1.xunits), atest = false; end if ~isequal(fs_out.xunits, fs_a1.xunits), atest = false; end if ~isequal(xy_out.xunits, xy_a1.xunits), atest = false; end % Check output data: yunits if ~isequal(ts_out.yunits, ts_a1.yunits), atest = false; end if ~isequal(fs_out.yunits, fs_a1.yunits), atest = false; end if ~isequal(xy_out.yunits, xy_a1.yunits), atest = false; end if ~isequal(c_out.yunits, c_a1.yunits), atest = false; end % Check the re-built objects if ~eq(ts_out, ts_mout, ple2), atest = false; end if ~eq(fs_out, fs_mout, ple2), atest = false; end if ~eq(xy_out, xy_mout, ple2), atest = false; end if ~eq(c_out, c_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_02 %% UTP_03 % <TestDescription> % % Tests that the average method works with a matrix of AOs as input. % % </TestDescription> function result = utp_03 % <SyntaxDescription> % % Tests that the average method works with a matrix of AOs as input. % % </SyntaxDescription> try % <SyntaxCode> % Pick units and prefix from those supported unit_list = unit.supportedUnits; % remove the first empty unit '' from the list, because then is it % possible that we add a prefix to an empty unit unit_list = unit_list(2:end); prefix_list = unit.supportedPrefixes; u = unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))]); % tsdata: settings fs = 3; ts_pl = plist('fs', fs, 'nsecs', 30, 'waveform', 'sine wave', 'f', 10, 'yunits', u); ts_a1 = ao(ts_pl); ts_a2 = ao(ts_pl); ts_a3 = ao(ts_pl); ts_a1.setT0('14:00:00'); ts_a2.setT0('14:00:05'); ts_a3.setT0('14:00:10'); % tsdata: call the method with a list of inputs ts_out = average([ts_a1, ts_a2, ts_a3; ts_a1, ts_a2, ts_a3]); % tsdata: settings fs_pl = plist('fsfcn', '1./f.^2', 'scale', 'lin', 'nf', 100, 'yunits', u); fs_a1 = ao(fs_pl); fs_a2 = 2*ao(fs_pl); % fsdata: call the method with a list of inputs fs_out = average([fs_a1, fs_a2; fs_a1, fs_a2]); % xydata: settings xy_pl = plist('X', [1:50,52:2:100,110:10:1000], 'xyfcn', 'log(x)', 'yunits', u); xy_a1 = ao(xy_pl); xy_a2 = ao(xy_pl.pset('xyfcn', 'log10(x)')); xy_a3 = ao(xy_pl.pset('xyfcn', 'exp(-x)')); % xydata: call the method with a list of inputs xy_out = average([xy_a1, xy_a2, xy_a3; xy_a1, xy_a2, xy_a3]); % cdata: settings c_pl = plist('yunits', u); c_a1 = ao([1 2 3], c_pl); c_a2 = ao([4 3 2], c_pl); c_a3 = ao([7 4 9], c_pl); c_a4 = ao([-4 -1 2], c_pl); % cdata: call the method with a list of inputs c_out = average([c_a1, c_a2, c_a3, c_a4; c_a1, c_a2, c_a3, c_a4]); % Rebuild the objects ts_mout = rebuild(ts_out); fs_mout = rebuild(fs_out); xy_mout = rebuild(xy_out); c_mout = rebuild(c_out); % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the outputs have exactly one AO % 2) Check that the outputs have the correct data. % 3) Check the rebuilt objects % % </AlgoDescription> TOL = 1e-15; atest = true; if stest % <AlgoCode> % Check that the output is exactly one AO if numel(ts_out) ~= 1, atest = false; end if numel(fs_out) ~= 1, atest = false; end if numel(xy_out) ~= 1, atest = false; end if numel(c_out) ~= 1, atest = false; end if ~isa(ts_out, 'ao'), atest = false; end if ~isa(fs_out, 'ao'), atest = false; end if ~isa(xy_out, 'ao'), atest = false; end if ~isa(c_out, 'ao'), atest = false; end % Check output data: x if ~isequal(ts_out.x, ts_a1.x), atest = false; end if ~isequal(fs_out.x, fs_a1.x), atest = false; end if ~isequal(xy_out.x, xy_a1.x), atest = false; end % Check output data: t0 if ~isequal(ts_out.t0, ts_a1.t0), atest = false; end % Check output data: y ts_data_in = [ts_a1.y ts_a2.y ts_a3.y ts_a1.y ts_a2.y ts_a3.y]; if ~isequal(ts_out.y, mean(ts_data_in, 2)), atest = false; end fs_data_in = [fs_a1.y fs_a2.y fs_a1.y fs_a2.y]; if ~isequal(fs_out.y, mean(fs_data_in, 2)), atest = false; end xy_data_in = [xy_a1.y xy_a2.y xy_a3.y xy_a1.y xy_a2.y xy_a3.y]; if any(abs(xy_out.y - mean(xy_data_in, 2)) > TOL), atest = false; end c_data_in = [c_a1.y c_a2.y c_a3.y c_a4.y c_a1.y c_a2.y c_a3.y c_a4.y]; if ~isequal(c_out.y, mean(c_data_in, 2)), atest = false; end % Check output data: dy if ~isequal(ts_out.dy, std(ts_data_in, 0, 2)/sqrt(6)), atest = false; end if any(abs(fs_out.dy - std(fs_data_in, 0, 2)/sqrt(4)) > TOL), atest = false; end if any(abs(xy_out.dy - std(xy_data_in, 0, 2)/sqrt(6)) > TOL), atest = false; end if ~isequal(c_out.dy, std(c_data_in, 0, 2)/sqrt(8)), atest = false; end % Check output data: xunits if ~isequal(ts_out.xunits, ts_a1.xunits), atest = false; end if ~isequal(fs_out.xunits, fs_a1.xunits), atest = false; end if ~isequal(xy_out.xunits, xy_a1.xunits), atest = false; end % Check output data: yunits if ~isequal(ts_out.yunits, ts_a1.yunits), atest = false; end if ~isequal(fs_out.yunits, fs_a1.yunits), atest = false; end if ~isequal(xy_out.yunits, xy_a1.yunits), atest = false; end if ~isequal(c_out.yunits, c_a1.yunits), atest = false; end % Check the re-built objects if ~eq(ts_out, ts_mout, ple2), atest = false; end if ~eq(fs_out, fs_mout, ple2), atest = false; end if ~eq(xy_out, xy_mout, ple2), atest = false; end if ~eq(c_out, c_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_03 %% UTP_04 % <TestDescription> % % Tests that the average method works with a list of AOs as input. % % </TestDescription> function result = utp_04 % <SyntaxDescription> % % Tests that the average method works with a list of AOs as input. % % </SyntaxDescription> try % <SyntaxCode> % Pick units and prefix from those supported unit_list = unit.supportedUnits; % remove the first empty unit '' from the list, because then is it % possible that we add a prefix to an empty unit unit_list = unit_list(2:end); prefix_list = unit.supportedPrefixes; u = unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))]); % tsdata: settings fs = 3; ts_pl = plist('fs', fs, 'nsecs', 30, 'waveform', 'sine wave', 'f', 10, 'yunits', u); ts_a1 = ao(ts_pl); ts_a2 = ao(ts_pl); ts_a3 = ao(ts_pl); ts_a1.setT0('14:00:00'); ts_a2.setT0('14:00:05'); ts_a3.setT0('14:00:10'); % tsdata: call the method with a list of inputs ts_out = average(ts_a1, ts_a2, ts_a3); % fsdata: settings fs_pl = plist('fsfcn', '1./f.^2', 'scale', 'lin', 'nf', 100, 'yunits', u); fs_a1 = ao(fs_pl); fs_a2 = 2*ao(fs_pl); % fsdata: call the method with a list of inputs fs_out = average(fs_a1, fs_a2); % xydata: settings xy_pl = plist('X', [1:50,52:2:100,110:10:1000], 'xyfcn', 'log(x)', 'yunits', u); xy_a1 = ao(xy_pl); xy_a2 = ao(xy_pl.pset('xyfcn', 'log10(x)')); xy_a3 = ao(xy_pl.pset('xyfcn', 'exp(-x)')); % xydata: call the method with a list of inputs xy_out = average(xy_a1, xy_a2, xy_a3); % cdata: settings c_pl = plist('yunits', u); c_a1 = ao([1 2 3], c_pl); c_a2 = ao([4 3 2], c_pl); c_a3 = ao([7 4 9], c_pl); c_a4 = ao([-4 -1 2], c_pl); % cdata: call the method with a list of inputs c_out = average(c_a1, c_a2, c_a3, c_a4); % Rebuild the objects ts_mout = rebuild(ts_out); fs_mout = rebuild(fs_out); xy_mout = rebuild(xy_out); c_mout = rebuild(c_out); % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the outputs have exactly one AO % 2) Check that the outputs have the correct data. % 3) Check the rebuilt objects % % </AlgoDescription> atest = true; if stest % <AlgoCode> % Check that the output is exactly one AO if numel(ts_out) ~= 1, atest = false; end if numel(fs_out) ~= 1, atest = false; end if numel(xy_out) ~= 1, atest = false; end if numel(c_out) ~= 1, atest = false; end if ~isa(ts_out, 'ao'), atest = false; end if ~isa(fs_out, 'ao'), atest = false; end if ~isa(xy_out, 'ao'), atest = false; end if ~isa(c_out, 'ao'), atest = false; end % Check output data: x if ~isequal(ts_out.x, ts_a1.x), atest = false; end if ~isequal(fs_out.x, fs_a1.x), atest = false; end if ~isequal(xy_out.x, xy_a1.x), atest = false; end % Check output data: t0 if ~isequal(ts_out.t0, ts_a1.t0), atest = false; end % Check output data: y ts_data_in = [ts_a1.y ts_a2.y ts_a3.y]; if ~isequal(ts_out.y, mean(ts_data_in, 2)), atest = false; end fs_data_in = [fs_a1.y fs_a2.y]; if ~isequal(fs_out.y, mean(fs_data_in, 2)), atest = false; end xy_data_in = [xy_a1.y xy_a2.y xy_a3.y]; if ~isequal(xy_out.y, mean(xy_data_in, 2)), atest = false; end c_data_in = [c_a1.y c_a2.y c_a3.y c_a4.y]; if ~isequal(c_out.y, mean(c_data_in, 2)), atest = false; end % Check output data: dy if ~isequal(ts_out.dy, std(ts_data_in, 0, 2)/sqrt(3)), atest = false; end if ~isequal(fs_out.dy, std(fs_data_in, 0, 2)/sqrt(2)), atest = false; end if ~isequal(xy_out.dy, std(xy_data_in, 0, 2)/sqrt(3)), atest = false; end if ~isequal(c_out.dy, std(c_data_in, 0, 2)/sqrt(4)), atest = false; end % Check output data: xunits if ~isequal(ts_out.xunits, ts_a1.xunits), atest = false; end if ~isequal(fs_out.xunits, fs_a1.xunits), atest = false; end if ~isequal(xy_out.xunits, xy_a1.xunits), atest = false; end % Check output data: yunits if ~isequal(ts_out.yunits, ts_a1.yunits), atest = false; end if ~isequal(fs_out.yunits, fs_a1.yunits), atest = false; end if ~isequal(xy_out.yunits, xy_a1.yunits), atest = false; end if ~isequal(c_out.yunits, c_a1.yunits), atest = false; end % Check the re-built objects if ~eq(ts_out, ts_mout, ple2), atest = false; end if ~eq(fs_out, fs_mout, ple2), atest = false; end if ~eq(xy_out, xy_mout, ple2), atest = false; end if ~eq(c_out, c_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_04 %% UTP_05 % <TestDescription> % % Tests that the average method works with a mix of different shaped AOs as % input. % % </TestDescription> function result = utp_05 % <SyntaxDescription> % % Tests that the average method works with a mix of different shaped AOs as % input. % % </SyntaxDescription> try % <SyntaxCode> fs = .3; pl = plist('fs', fs, 'nsecs', 300, 'waveform', 'sine wave', 'f', .1); a1 = ao(pl); a2 = ao(pl); a3 = ao(pl); a4 = ao(pl); a5 = ao(pl); a6 = ao(pl); a1.setT0('14:00:20'); a2.setT0('14:01:40'); a3.setT0('14:02:00'); a4.setT0('14:00:00'); a5.setT0('14:01:20'); a6.setT0('14:00:40'); out = average(a1, [a2, a3; a4, a5], [a6;a1]); % Rebuild the object mout = rebuild(out); % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the output is exact one AO % 2) Check that the output have the correct data. % % </AlgoDescription> atest = true; aoin = [a1, reshape([a2, a3; a4, a5], 1, []), a6, a1]; if stest % <AlgoCode> % Check that the output is exact one AO if numel(out) ~= 1, atest = false; end if ~isa(out, 'ao'), atest = false; end % Check output data: x if ~isequal(out.x, a1.x), atest = false; end % Check output data: t0 if ~isequal(out.t0, a1.t0), atest = false; end % Check output data: y data_in = [aoin(:).y]; if ~isequal(out.y, mean(data_in, 2)), atest = false; end % Check output data: dy if ~isequal(out.dy, std(data_in, 0, 2)/sqrt(7)), atest = false; end % Check output data: xunits if ~isequal(out.xunits, a1.xunits), atest = false; end % Check output data: yunits if ~isequal(out.yunits, a1.yunits), atest = false; end % Check the re-built object if ~eq(out, 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_05 %% UTP_07 % <TestDescription> % % Tests that the average method cannot modify the input AO. % The method must throw an error for the modifier call. % % </TestDescription> function result = utp_07 % <SyntaxDescription> % % Test that the average method cannot modify the input AO by calling with % no output % % </SyntaxDescription> try % <SyntaxCode> % prepare one ao to work with fs = 3; pl = plist('fs', fs, 'nsecs', 30, 'waveform', 'sine wave', 'f', 10); a1 = ao(pl); a2 = ao(pl); % modify a1 a1.average(a2); % </SyntaxCode> stest = false; catch stest = true; end % <AlgoDescription> % % 1) Nothing to check. % % </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. % % </TestDescription> function result = utp_08 % <SyntaxDescription> % % Test that the average 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> fs = 3; pl = plist('fs', fs, 'nsecs', 30, 'waveform', 'sine wave', 'f', 10); a1 = ao(pl); a2 = ao(pl); a2 = a2.'; a1.setT0('14:00:05'); a2.setT0('14:00:00'); out1 = average(a1, a2); out2 = average(a2, a1); % </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.y,1) == 1, atest = false; end if size(out2.data.y,2) == 1, atest = false; end % Check the output data: y values if out1.data.y ~= out2.data.y', atest = false; end % Check the output data: y uncertanties if out1.data.dy ~= out2.data.dy', 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_18 % <TestDescription> % % Tests that the average method works with a single AO as input. % % </TestDescription> function result = utp_18 % <SyntaxDescription> % % Tests that the average method works with a single AO as input. % % </SyntaxDescription> try % <SyntaxCode> % Pick units and prefix from those supported unit_list = unit.supportedUnits; % remove the first empty unit '' from the list, because then is it % possible that we add a prefix to an empty unit unit_list = unit_list(2:end); prefix_list = unit.supportedPrefixes; u = unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))]); % tsdata: settings fs = 3; ts_pl = plist('fs', fs, 'nsecs', 30, 'waveform', 'sine wave', 'f', 10, 'yunits', u); ts_a1 = ao(ts_pl); ts_a1.setT0('14:00:00'); % tsdata: call the method with a list of inputs ts_out = average(ts_a1); % fsdata: settings fs_pl = plist('fsfcn', '1./f.^2', 'scale', 'lin', 'nf', 100, 'yunits', u); fs_a1 = ao(fs_pl); % fsdata: call the method with a list of inputs fs_out = average(fs_a1); % xydata: settings xy_pl = plist('X', [1:50,52:2:100,110:10:1000], 'xyfcn', 'log(x)', 'yunits', u); xy_a1 = ao(xy_pl); % xydata: call the method with a list of inputs xy_out = average(xy_a1); % cdata: settings c_pl = plist('yunits', u); c_a1 = ao([1 2 3], c_pl); % cdata: call the method with a list of inputs c_out = average(c_a1); % Rebuild the objects ts_mout = rebuild(ts_out); fs_mout = rebuild(fs_out); xy_mout = rebuild(xy_out); c_mout = rebuild(c_out); % </SyntaxCode> stest = true; catch err disp(err.message) stest = false; end % <AlgoDescription> % % 1) Check that the outputs have exactly one AO % 2) Check that the outputs have the correct data. % 3) Check the rebuilt objects % % </AlgoDescription> atest = true; if stest % <AlgoCode> % Check that the output is exactly one AO if numel(ts_out) ~= 1, atest = false; end if numel(fs_out) ~= 1, atest = false; end if numel(xy_out) ~= 1, atest = false; end if numel(c_out) ~= 1, atest = false; end if ~isa(ts_out, 'ao'), atest = false; end if ~isa(fs_out, 'ao'), atest = false; end if ~isa(xy_out, 'ao'), atest = false; end if ~isa(c_out, 'ao'), atest = false; end % Check output data: x if ~isequal(ts_out.x, ts_a1.x), atest = false; end if ~isequal(fs_out.x, fs_a1.x), atest = false; end if ~isequal(xy_out.x, xy_a1.x), atest = false; end % Check output data: t0 if ~isequal(ts_out.t0, ts_a1.t0), atest = false; end % Check output data: y if ~isequal(ts_out.y, ts_a1.y), atest = false; end if ~isequal(fs_out.y, fs_a1.y), atest = false; end if ~isequal(xy_out.y, xy_a1.y), atest = false; end if ~isequal(c_out.y, c_a1.y), atest = false; end % Check output data: dy if ~isequal(ts_out.dy, ts_a1.dy), atest = false; end if ~isequal(fs_out.dy, fs_a1.dy), atest = false; end if ~isequal(xy_out.dy, xy_a1.dy), atest = false; end if ~isequal(c_out.dy, c_a1.dy), atest = false; end % Check output data: xunits if ~isequal(ts_out.xunits, ts_a1.xunits), atest = false; end if ~isequal(fs_out.xunits, fs_a1.xunits), atest = false; end if ~isequal(xy_out.xunits, xy_a1.xunits), atest = false; end % Check output data: yunits if ~isequal(ts_out.yunits, ts_a1.yunits), atest = false; end if ~isequal(fs_out.yunits, fs_a1.yunits), atest = false; end if ~isequal(xy_out.yunits, xy_a1.yunits), atest = false; end if ~isequal(c_out.yunits, c_a1.yunits), atest = false; end % Check the re-built objects if ~eq(ts_out, ts_mout, ple2), atest = false; end if ~eq(fs_out, fs_mout, ple2), atest = false; end if ~eq(xy_out, xy_mout, ple2), atest = false; end if ~eq(c_out, c_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_18 end