📄 wmtsa_ismatrix_tcase.m
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function tc = wmtsa_ismatrix_tcase% modwt_case -- munit test case for wmtsa_ismatrix.%%****f* wmtsa.Tests.utils/wmtsa_ismatrix_tcase%% NAME% wmtsa_ismatrix_tcase -- munit test case for wmtsa_ismatrix.%% USAGE% run_tcase('wmtsa_ismatrix_tcase')%% INPUTS% (none)%% OUTPUTS% * tc -- tcase case struct (tcase_s)%% AUTHOR% Charlie Cornish%% CREATION DATE% 2004-Apr-25%% COPYRIGHT% (c) Charles R. Cornish 2005%% CREDITS%%% REVISION% $Revision: 612 $%%***% $Id: wmtsa_ismatrix_tcase.m 612 2005-10-28 21:42:24Z ccornish $ tc = MU_tcase_new(mfilename);tc = MU_tcase_add_test(tc, @test_normal_type_not_specified);tc = MU_tcase_add_test(tc, @test_type_option);tc = MU_tcase_add_test(tc, @test_no_arg);returnfunction test_normal_type_not_specified(varargin)% test_normal_type_not_specified -- normal execution, type argument not specified. %% x is a scalar -- Result is true expected_tf = 1; x = 1; [tf] = wmtsa_ismatrix(x); MU_assert_isequal(expected_tf, tf); %% x is a vector -- Result is true expected_tf = 1; x = [1:10]; [tf] = wmtsa_ismatrix(x); MU_assert_isequal(expected_tf, tf); %% x is a matrix -- Result is true expected_tf = 1; x = [1:10; 1:10]; [tf] = wmtsa_ismatrix(x); MU_assert_isequal(expected_tf, tf); %% x is a array, dim > 2 -- Result is false expected_tf = 0; x = zeros([2 4 4]); [tf] = wmtsa_ismatrix(x); MU_assert_isequal(expected_tf, tf);return function test_type_option(varargin)% test_type_option -- type argument specified. %% x is a scalar, type is point. -- Result is true expected_tf = 1; x = 1; [tf] = wmtsa_ismatrix(x, 'point'); MU_assert_isequal(expected_tf, tf); %% x is a scalar, type is truevector. -- Result is false expected_tf = 0; x = 1; [tf] = wmtsa_ismatrix(x, 'truevector'); MU_assert_isequal(expected_tf, tf); %% x is a scalar, type is truematrix. -- Result is false expected_tf = 0; x = 1; [tf] = wmtsa_ismatrix(x, 'truematrix'); MU_assert_isequal(expected_tf, tf); %% x is a vector, type is point. -- Result is false expected_tf = 0; x = [1:10]; [tf] = wmtsa_ismatrix(x, 'point'); MU_assert_isequal(expected_tf, tf); %% x is a vector, type is truevector. -- Result is true expected_tf = 1; x = [1:10]; [tf] = wmtsa_ismatrix(x, 'truevector'); MU_assert_isequal(expected_tf, tf); %% x is a vector, type is truematrix. -- Result is false expected_tf = 0; x = [1:10]; [tf] = wmtsa_ismatrix(x, 'truematrix'); MU_assert_isequal(expected_tf, tf); %% x is a matrix, type is point. -- Result is false expected_tf = 0; x = [1:10; 1:10]; [tf] = wmtsa_ismatrix(x, 'point'); MU_assert_isequal(expected_tf, tf); %% x is a matrix, type is truevector. -- Result is false expected_tf = 0; x = [1:10; 1:10]; [tf] = wmtsa_ismatrix(x, 'truevector'); MU_assert_isequal(expected_tf, tf); %% x is a matrix, type is truematrix. -- Result is true expected_tf = 1; x = [1:10; 1:10]; [tf] = wmtsa_ismatrix(x, 'truematrix'); MU_assert_isequal(expected_tf, tf); %% x is a array, dim > 2, type is point -- Result is false expected_tf = 0; x = zeros([2 4 4]); [tf] = wmtsa_ismatrix(x, 'point'); MU_assert_isequal(expected_tf, tf); %% x is a array, dim > 2, type is truevector -- Result is false expected_tf = 0; x = zeros([2 4 4]); [tf] = wmtsa_ismatrix(x, 'truevector'); MU_assert_isequal(expected_tf, tf); %% x is a array, dim > 2, type is truematrix -- Result is false expected_tf = 0; x = zeros([2 4 4]); [tf] = wmtsa_ismatrix(x, 'truematrix'); MU_assert_isequal(expected_tf, tf); returnfunction test_no_arg(mode)% test_no_arg -- Expected error: WMTSA:InvalidNumArguments try wmtsa_ismatrix; catch [errmsg, msg_id] = lasterr; MU_assert_error('MATLAB:nargchk:notEnoughInputs', msg_id); endreturn⌨️ 快捷键说明
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