/* AUTOMATICALLY GENERATED FILE - DO NOT EDIT! Please change MatrixNxN.py and re-run it */ /* Generated with ./MatrixNxN.py n = 2, TYPE = unsigned int */ #include "ZUnitTest.hpp" #include #include #include #include #include #include static const char* testSST_Math_Mat22uAdd(); static const char* testSST_Math_Mat22uAddLocal(); static const char* testSST_Math_Mat22uSubtract(); static const char* testSST_Math_Mat22uSubtractLocal(); static const char* testSST_Math_Mat22uMultiplyElementwise(); static const char* testSST_Math_Mat22uMultiplyElementwiseLocal(); static const char* testSST_Math_Mat22uMultiplyScalar(); static const char* testSST_Math_Mat22uMultiplyScalarLocal(); static const char* testSST_Math_Mat22uMultiplyMatrix(); static const char* testSST_Math_Mat22uMultiplyMatrixLocal(); static const char* testSST_Math_Mat22uMultiplyVector(); static const char* testSST_Math_Mat22uMultiplyVectorLocal(); static const char* testSST_Math_Mat22uTranspose(); static const char* testSST_Math_Mat22uTransposeLocal(); // List of unit tests ZUnitTest SST_Math_Mat22uUnitTests[] = { { "testSST_Math_Mat22uAdd " , testSST_Math_Mat22uAdd }, { "testSST_Math_Mat22uAddLocal " , testSST_Math_Mat22uAddLocal }, { "testSST_Math_Mat22uSubtract " , testSST_Math_Mat22uSubtract }, { "testSST_Math_Mat22uSubtractLocal " , testSST_Math_Mat22uSubtractLocal }, { "testSST_Math_Mat22uMultiplyElementwise " , testSST_Math_Mat22uMultiplyElementwise }, { "testSST_Math_Mat22uMultiplyElementwiseLocal " , testSST_Math_Mat22uMultiplyElementwiseLocal }, { "testSST_Math_Mat22uMultiplyScalar " , testSST_Math_Mat22uMultiplyScalar }, { "testSST_Math_Mat22uMultiplyScalarLocal " , testSST_Math_Mat22uMultiplyScalarLocal }, { "testSST_Math_Mat22uMultiplyMatrix " , testSST_Math_Mat22uMultiplyMatrix }, { "testSST_Math_Mat22uMultiplyMatrixLocal " , testSST_Math_Mat22uMultiplyMatrixLocal }, { "testSST_Math_Mat22uMultiplyVector " , testSST_Math_Mat22uMultiplyVector }, { "testSST_Math_Mat22uMultiplyVectorLocal " , testSST_Math_Mat22uMultiplyVectorLocal }, { "testSST_Math_Mat22uTranspose " , testSST_Math_Mat22uTranspose }, { "testSST_Math_Mat22uTransposeLocal " , testSST_Math_Mat22uTransposeLocal } }; DECLARE_ZTESTBLOCK(SST_Math_Mat22u) /******************************************************************************/ static const char* testSST_Math_Mat22uAdd(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u Y; /* 2 x 2 matrix */ SST_Mat22u A; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 36; X.v[1] = 5; X.v[2] = 15; X.v[3] = 7; Y.v[0] = 36; Y.v[1] = 7; Y.v[2] = 31; Y.v[3] = 33; /* [[36 15] [ 5 7]] [[36 31] [ 7 33]] [[72 46] [12 40]] */ SST_Math_Mat22uAdd(&X,&Y,&A); TASSERT((A.v[0])==(72),"Entry _a11 failed!"); TASSERT((A.v[2])==(46),"Entry _a12 failed!"); TASSERT((A.v[1])==(12),"Entry _a21 failed!"); TASSERT((A.v[3])==(40),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uAddLocal(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u Y; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 23; X.v[1] = 38; X.v[2] = 10; X.v[3] = 27; Y.v[0] = 16; Y.v[1] = 5; Y.v[2] = 21; Y.v[3] = 11; /* [[23 10] [38 27]] [[16 21] [ 5 11]] [[39 31] [43 38]] */ SST_Math_Mat22uAddLocal(&X,&Y); /* for accuracy */ TASSERT((X.v[0])==(39),"Entry _a11 failed!"); TASSERT((X.v[2])==(31),"Entry _a12 failed!"); TASSERT((X.v[1])==(43),"Entry _a21 failed!"); TASSERT((X.v[3])==(38),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uSubtract(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u Y; /* 2 x 2 matrix */ SST_Mat22u A; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 16; X.v[1] = 26; X.v[2] = 12; X.v[3] = 28; Y.v[0] = 0; Y.v[1] = 23; Y.v[2] = 19; Y.v[3] = 36; /* [[16 12] [26 28]] [[ 0 19] [23 36]] [[ 16 4294967289] [ 3 4294967288]] */ SST_Math_Mat22uSubtract(&X,&Y,&A); TASSERT((A.v[0])==(16),"Entry _a11 failed!"); TASSERT((A.v[2])==(4294967289),"Entry _a12 failed!"); TASSERT((A.v[1])==(3),"Entry _a21 failed!"); TASSERT((A.v[3])==(4294967288),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uSubtractLocal(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u Y; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 10; X.v[1] = 13; X.v[2] = 29; X.v[3] = 24; Y.v[0] = 21; Y.v[1] = 30; Y.v[2] = 18; Y.v[3] = 7; /* [[10 29] [13 24]] [[21 18] [30 7]] [[4294967285 11] [4294967279 17]] */ SST_Math_Mat22uSubtractLocal(&X,&Y); /* for accuracy */ TASSERT((X.v[0])==(4294967285),"Entry _a11 failed!"); TASSERT((X.v[2])==(11),"Entry _a12 failed!"); TASSERT((X.v[1])==(4294967279),"Entry _a21 failed!"); TASSERT((X.v[3])==(17),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uMultiplyElementwise(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u Y; /* 2 x 2 matrix */ SST_Mat22u A; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 6; X.v[1] = 9; X.v[2] = 36; X.v[3] = 17; Y.v[0] = 0; Y.v[1] = 19; Y.v[2] = 38; Y.v[3] = 19; /* [[ 6 36] [ 9 17]] [[ 0 38] [19 19]] [[ 0 1368] [ 171 323]] */ SST_Math_Mat22uMultiplyElementwise(&X, &Y, &A); TASSERT((A.v[0])==(0),"Entry _a11 failed!"); TASSERT((A.v[2])==(1368),"Entry _a12 failed!"); TASSERT((A.v[1])==(171),"Entry _a21 failed!"); TASSERT((A.v[3])==(323),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uMultiplyElementwiseLocal(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u Y; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 24; X.v[1] = 20; X.v[2] = 28; X.v[3] = 37; Y.v[0] = 25; Y.v[1] = 9; Y.v[2] = 21; Y.v[3] = 38; /* [[24 28] [20 37]] [[25 21] [ 9 38]] [[ 600 588] [ 180 1406]] */ SST_Math_Mat22uMultiplyElementwiseLocal(&X,&Y); TASSERT((X.v[0])==(600),"Entry _a11 failed!"); TASSERT((X.v[2])==(588),"Entry _a12 failed!"); TASSERT((X.v[1])==(180),"Entry _a21 failed!"); TASSERT((X.v[3])==(1406),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uMultiplyScalar(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u A; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 33; X.v[1] = 2; X.v[2] = 24; X.v[3] = 39; /* [[33 24] [ 2 39]] [[66 48] [ 4 78]] */ SST_Math_Mat22uMultiplyScalar(&X,2,&A); TASSERT((A.v[0])==(66),"Entry _a11 failed!"); TASSERT((A.v[2])==(48),"Entry _a12 failed!"); TASSERT((A.v[1])==(4),"Entry _a21 failed!"); TASSERT((A.v[3])==(78),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uMultiplyScalarLocal(){ SST_Mat22u X; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 11; X.v[1] = 22; X.v[2] = 3; X.v[3] = 13; /* [[11 3] [22 13]] [[22 6] [44 26]] */ SST_Math_Mat22uMultiplyScalarLocal(&X,2); TASSERT((X.v[0])==(22),"Entry _a11 failed!"); TASSERT((X.v[2])==(6),"Entry _a12 failed!"); TASSERT((X.v[1])==(44),"Entry _a21 failed!"); TASSERT((X.v[3])==(26),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uMultiplyMatrix(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u Y; /* 2 x 2 matrix */ SST_Mat22u A; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 36; X.v[1] = 18; X.v[2] = 29; X.v[3] = 14; Y.v[0] = 6; Y.v[1] = 17; Y.v[2] = 31; Y.v[3] = 8; /* X [[36 29] [18 14]] Y [[ 6 31] [17 8]] [[ 709 1348] [ 346 670]] */ SST_Math_Mat22uMultiplyMatrix(&X,&Y,&A); TASSERT((A.v[0])==(709),"Entry _a11 failed!"); TASSERT((A.v[2])==(1348),"Entry _a12 failed!"); TASSERT((A.v[1])==(346),"Entry _a21 failed!"); TASSERT((A.v[3])==(670),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uMultiplyMatrixLocal(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u Y; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 30; X.v[1] = 6; X.v[2] = 13; X.v[3] = 33; Y.v[0] = 20; Y.v[1] = 24; Y.v[2] = 2; Y.v[3] = 2; /* X [[30 13] [ 6 33]] Y [[20 2] [24 2]] X [[912 86] [912 78]] */ SST_Math_Mat22uMultiplyMatrixLocal(&X,&Y); TASSERT((X.v[0])==(912),"Entry _a11 failed!"); TASSERT((X.v[2])==(86),"Entry _a12 failed!"); TASSERT((X.v[1])==(912),"Entry _a21 failed!"); TASSERT((X.v[3])==(78),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uMultiplyVector(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Vec2u v; /* 2 vector */ SST_Vec2u w; /* 2 vector */ /* Resetting test vectors / mats */ v.v[0] = 21; v.v[1] = 34; X.v[0] = 34; X.v[1] = 39; X.v[2] = 28; X.v[3] = 7; /* X [[34 28] [39 7]] v [21 34] w [1666 1057] */ SST_Math_Mat22uMultiplyVector(&X,&v,&w); TASSERT((w.v[0])==(1666),"Entry .v[0] failed!"); TASSERT((w.v[1])==(1057),"Entry .v[1] failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uMultiplyVectorLocal(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Vec2u v; /* 2 vector */ /* Resetting test vectors / mats */ v.v[0] = 9; v.v[1] = 29; X.v[0] = 35; X.v[1] = 4; X.v[2] = 30; X.v[3] = 22; /* X [[35 30] [ 4 22]] v [ 9 29] v [1185 674] */ SST_Math_Mat22uMultiplyVectorLocal(&X,&v); TASSERT((v.v[0])==(1185),"Entry .v[0] failed!"); TASSERT((v.v[1])==(674),"Entry .v[1] failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uTranspose(){ SST_Mat22u X; /* 2 x 2 matrix */ SST_Mat22u A; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 19; X.v[1] = 39; X.v[2] = 14; X.v[3] = 38; SST_Math_Mat22uTranspose(&X,&A); TASSERT((A.v[0])==(19),"Entry _a11 failed!"); TASSERT((A.v[2])==(39),"Entry _a12 failed!"); TASSERT((A.v[1])==(14),"Entry _a21 failed!"); TASSERT((A.v[3])==(38),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Mat22uTransposeLocal(){ SST_Mat22u X; /* 2 x 2 matrix */ /* Resetting test vectors / mats */ X.v[0] = 34; X.v[1] = 36; X.v[2] = 12; X.v[3] = 8; SST_Math_Mat22uTransposeLocal(&X); TASSERT((X.v[0])==(34),"Entry _a11 failed!"); TASSERT((X.v[2])==(36),"Entry _a12 failed!"); TASSERT((X.v[1])==(12),"Entry _a21 failed!"); TASSERT((X.v[3])==(8),"Entry _a22 failed!"); return ZTEST_SUCCESS; } /******************************************************************************/