/* AUTOMATICALLY GENERATED FILE - DO NOT EDIT! Please change MatrixNxN.py and re-run it */ /* Generated with ./VectorN.py n = 2, TYPE = unsigned int */ #include "ZUnitTest.hpp" #include #include #include #include #include static const char* testSST_Math_Vec2uAdd(); static const char* testSST_Math_Vec2uAddLocal(); static const char* testSST_Math_Vec2uSubtract(); static const char* testSST_Math_Vec2uSubtractLocal(); static const char* testSST_Math_Vec2uMultiply(); static const char* testSST_Math_Vec2uMultiplyLocal(); static const char* testSST_Math_Vec2uScale(); static const char* testSST_Math_Vec2uScaleLocal(); static const char* testSST_Math_Vec2uDivide(); static const char* testSST_Math_Vec2uDivideLocal(); static const char* testSST_Math_Vec2uMagnitudeSquared(); static const char* testSST_Math_Vec2uDot(); // List of unit tests ZUnitTest SST_Math_Vec2uUnitTests[] = { { "testSST_Math_Vec2uAdd " , testSST_Math_Vec2uAdd }, { "testSST_Math_Vec2uAddLocal " , testSST_Math_Vec2uAddLocal }, { "testSST_Math_Vec2uSubtract " , testSST_Math_Vec2uSubtract }, { "testSST_Math_Vec2uSubtractLocal " , testSST_Math_Vec2uSubtractLocal }, { "testSST_Math_Vec2uMultiply " , testSST_Math_Vec2uMultiply }, { "testSST_Math_Vec2uMultiplyLocal " , testSST_Math_Vec2uMultiplyLocal }, { "testSST_Math_Vec2uScale " , testSST_Math_Vec2uScale }, { "testSST_Math_Vec2uScaleLocal " , testSST_Math_Vec2uScaleLocal }, { "testSST_Math_Vec2uDivide " , testSST_Math_Vec2uDivide }, { "testSST_Math_Vec2uDivideLocal " , testSST_Math_Vec2uDivideLocal }, { "testSST_Math_Vec2uMagnitudeSquared " , testSST_Math_Vec2uMagnitudeSquared }, { "testSST_Math_Vec2uDot " , testSST_Math_Vec2uDot } }; DECLARE_ZTESTBLOCK(SST_Math_Vec2u) /******************************************************************************/ static const char* testSST_Math_Vec2uAdd() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ SST_Vec2u w; /* 2 vector */ /* Resetting test vectors */ x.v[0] = 35; x.v[1] = 32; y.v[0] = 4; y.v[1] = 17; w.v[0] = 0; w.v[1] = 0; /* [35 32] [ 4 17] [39 49] */ SST_Math_Vec2uAdd(&x,&y,&w); TASSERT((w.v[0])==(39),"Entry _x failed!"); TASSERT((w.v[1])==(49),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uAddLocal() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ /* Resetting test vectors */ x.v[0] = 10; x.v[1] = 35; y.v[0] = 6; y.v[1] = 39; /* [10 35] [ 6 39] [16 74] */ SST_Math_Vec2uAddLocal(&x,&y); /* for accuracy */ TASSERT((x.v[0])==(16),"Entry _x failed!"); TASSERT((x.v[1])==(74),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uSubtract() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ SST_Vec2u w; /* 2 vector */ /* Resetting test vectors */ x.v[0] = 36; x.v[1] = 37; y.v[0] = 39; y.v[1] = 33; w.v[0] = 0; w.v[1] = 0; /* [36 37] [39 33] [4294967293 4] */ SST_Math_Vec2uSubtract(&x,&y,&w); TASSERT((w.v[0])==(4294967293),"Entry _x failed!"); TASSERT((w.v[1])==(4),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uSubtractLocal() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ /* Resetting test vectors */ x.v[0] = 16; x.v[1] = 26; y.v[0] = 29; y.v[1] = 29; /* [16 26] [29 29] [4294967283 4294967293] */ SST_Math_Vec2uSubtractLocal(&x,&y); /* for accuracy */ TASSERT((x.v[0])==(4294967283),"Entry _x failed!"); TASSERT((x.v[1])==(4294967293),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uMultiply() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ SST_Vec2u w; /* 2 vector */ /* Resetting test vectors */ x.v[0] = 25; x.v[1] = 37; y.v[0] = 26; y.v[1] = 17; w.v[0] = 0; w.v[1] = 0; /* [25 37] [26 17] [650 629] */ SST_Math_Vec2uMultiply(&x,&y,&w); TASSERT((w.v[0])==(650),"Entry _x failed!"); TASSERT((w.v[1])==(629),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uMultiplyLocal() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ /* Resetting test vectors */ x.v[0] = 38; x.v[1] = 39; y.v[0] = 10; y.v[1] = 10; /* [38 39] [10 10] [380 390] */ SST_Math_Vec2uMultiplyLocal(&x,&y); /* for accuracy */ TASSERT((x.v[0])==(380),"Entry _x failed!"); TASSERT((x.v[1])==(390),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uDivide() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ SST_Vec2u w; /* 2 vector */ /* Resetting test vectors */ x.v[0] = 13; x.v[1] = 12; y.v[0] = 34; y.v[1] = 8; w.v[0] = 0; w.v[1] = 0; /* [13 12] [34 8] [0 1] */ SST_Math_Vec2uDivide(&x,&y,&w); TASSERT((w.v[0])==(0),"Entry _x failed!"); TASSERT((w.v[1])==(1),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uDivideLocal() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ /* Resetting test vectors */ x.v[0] = 12; x.v[1] = 11; y.v[0] = 24; y.v[1] = 22; /* [12 11] [24 22] [0 0] */ SST_Math_Vec2uDivideLocal(&x,&y); /* for accuracy */ TASSERT((x.v[0])==(0),"Entry _x failed!"); TASSERT((x.v[1])==(0),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uScale() { SST_Vec2u x; /* 2 vector */ SST_Vec2u w; /* 2 vector */ unsigned int a; /* scalar */ /* Resetting test vectors */ x.v[0] = 7; x.v[1] = 31; w.v[0] = 0; w.v[1] = 0; a = 2; /* [ 7 31] [14 62] */ SST_Math_Vec2uScale(&x,a,&w); TASSERT((w.v[0])==(14),"Entry _x failed!"); TASSERT((w.v[1])==(62),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uScaleLocal() { SST_Vec2u x; /* 2 vector */ unsigned int a; /* scalar */ /* Resetting test vectors */ x.v[0] = 15; x.v[1] = 39; a = 2; /* [15 39] [30 78] */ SST_Math_Vec2uScaleLocal(&x,a); /* for accuracy */ TASSERT((x.v[0])==(30),"Entry _x failed!"); TASSERT((x.v[1])==(78),"Entry _y failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uMagnitudeSquared() { SST_Vec2u x; /* 2 vector */ unsigned int a; /* scalar */ /* Resetting test vectors */ x.v[0] = 37; x.v[1] = 27; /* [37 27] 2098 */ a = SST_Math_Vec2uMagnitudeSquared(&x); TASSERT((a)==(2098),"MagnitudeSquared failed!"); return ZTEST_SUCCESS; } /******************************************************************************/ static const char* testSST_Math_Vec2uDot() { SST_Vec2u x; /* 2 vector */ SST_Vec2u y; /* 2 vector */ unsigned int a; /* scalar */ /* Resetting test vectors */ x.v[0] = 10; x.v[1] = 5; y.v[0] = 2; y.v[1] = 11; /* [10 5] 75 */ a = SST_Math_Vec2uDot(&x,&y); TASSERT((a)==(75),"Dot failed!"); return ZTEST_SUCCESS; } /******************************************************************************/