Mercurial > hg > ltpda
view testing/utp_1.1/utp_fcns/get_test_objects_ao.m @ 51:9d5c88356247 database-connection-manager
Make unit tests database connection parameters configurable
| author | Daniele Nicolodi <nicolodi@science.unitn.it> |
|---|---|
| date | Wed, 07 Dec 2011 17:24:37 +0100 |
| parents | 409a22968d5e |
| children |
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% GET_TEST_OBJECTS_AO returns a set of AOs suitable for many of the UTPs % % CALL: [at1,at2,at3,at4,at5,at6,atvec,atmat] = get_test_objects_ao(); % % OUTPUTS: % at1 - a tsdata AO containing 2 seconds of a 1.23Hz sine wave sampled at 10Hz. % at2 - an fsdata AO containing 1000 samples of white noise % at3 - an xydata AO containing 100 data samples % at4 - a cdata AO containing a 3x3 matrix % at5 - a tsdata AO containing 30s of noise at 10Hz (data-vector = row vector) % at6 - a tsdata AO containing 30s of different noise at 10Hz (data-vector = column vector) % atvec - a vector of AOs containing [at1 at3 at3] % atmat - a matrix of AOs containing [at1 at2 at3; at4 at5 at6] % % M Hewitson 06-08-08 % % $Id: get_test_objects_ao.m,v 1.8 2011/04/01 08:07:25 mauro Exp $ % function [at1,at2,at3,at4,at5,at6,atvec,atmat] = get_test_objects_ao %% Single AO containing a sine wave fs = 10; pl1 = plist(); pl1.append('fs', fs); pl1.append('nsecs', 30); pl1.append('waveform', 'sine wave'); pl1.append('f', 1.23); pl1.append('phi', 30); at1 = ao(pl1); % Single AO containing an xydata object x = 1:100; y = exp(x.^.5/2); at3 = ao(x,y, plist('type', 'xydata')); %% Single AO with a matrix at4 = ao([1 -2 3; 4 5 -6; -7 8 9]); %% Single AO with 30s of noise at5 = ao(plist('tsfcn', 'randn(size(t))', 'nsecs', 30, 'fs', fs)); at5.setDy(at5.y*.1); %% Single AO with 30s of noise at6 = ao(plist('tsfcn', 'randn(size(t)).''', 'nsecs', 30, 'fs', fs)); %% Single AO containing some fsdata at2 = psd(at5); at2.setDy(at2.y*.1); %% Set AOs yunits % 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; % Set units by choosing a random prefix and a random unit at1.setYunits(... unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))])); at2.setYunits(... unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))])); at3.setYunits(... unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))])); at4.setYunits(... unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))])); at5.setYunits(... unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))])); at6.setYunits(... unit([cell2mat(utils.math.randelement(prefix_list,1)) cell2mat(utils.math.randelement(unit_list,1))])); %% Vector of AOs atvec = [at2 at5 at6]; %% Matrix of AOs atmat = [at1 at2 at3; at4 at5 at6]; %% Set AO names. % Don't remove the setting of the AO names and it must be at the last position. at1.setName; at2.setName; at3.setName; at4.setName; at5.setName; at6.setName; end