libsst/ZTestSuite/Test-SST_Vec3u.cpp

/*
	AUTOMATICALLY GENERATED FILE - DO NOT EDIT!
	Please change MatrixNxN.py and re-run it
*/
/* Generated with ./VectorN.py n = 3, TYPE = unsigned int */

#include "ZUnitTest.hpp"
#include <float.h>
#include <math.h>
#include <stdlib.h>
#include <stdio.h>
#include <SST/SST_Vec3.h>




static const char* testSST_Math_Vec3uAdd();
static const char* testSST_Math_Vec3uAddLocal();
static const char* testSST_Math_Vec3uSubtract();
static const char* testSST_Math_Vec3uSubtractLocal();
static const char* testSST_Math_Vec3uMultiply();
static const char* testSST_Math_Vec3uMultiplyLocal();
static const char* testSST_Math_Vec3uScale();
static const char* testSST_Math_Vec3uScaleLocal();
static const char* testSST_Math_Vec3uDivide();
static const char* testSST_Math_Vec3uDivideLocal();
static const char* testSST_Math_Vec3uMagnitudeSquared();
static const char* testSST_Math_Vec3uDot();
// List of unit tests 
ZUnitTest SST_Math_Vec3uUnitTests[] = 
{
{ "testSST_Math_Vec3uAdd                        " , testSST_Math_Vec3uAdd                         },
{ "testSST_Math_Vec3uAddLocal                   " , testSST_Math_Vec3uAddLocal                    },
{ "testSST_Math_Vec3uSubtract                   " , testSST_Math_Vec3uSubtract                    },
{ "testSST_Math_Vec3uSubtractLocal              " , testSST_Math_Vec3uSubtractLocal               },
{ "testSST_Math_Vec3uMultiply                   " , testSST_Math_Vec3uMultiply                    },
{ "testSST_Math_Vec3uMultiplyLocal              " , testSST_Math_Vec3uMultiplyLocal               },
{ "testSST_Math_Vec3uScale                      " , testSST_Math_Vec3uScale                       },
{ "testSST_Math_Vec3uScaleLocal                 " , testSST_Math_Vec3uScaleLocal                  },
{ "testSST_Math_Vec3uDivide                     " , testSST_Math_Vec3uDivide                      },
{ "testSST_Math_Vec3uDivideLocal                " , testSST_Math_Vec3uDivideLocal                 },
{ "testSST_Math_Vec3uMagnitudeSquared           " , testSST_Math_Vec3uMagnitudeSquared            },
{ "testSST_Math_Vec3uDot                        " , testSST_Math_Vec3uDot                         }
};
DECLARE_ZTESTBLOCK(SST_Math_Vec3u)

/******************************************************************************/

static const char* testSST_Math_Vec3uAdd()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
    SST_Vec3u w; /* 3 vector */
/* Resetting test vectors */
    x.v[0] = 24;
    x.v[1] = 38;
    x.v[2] = 8;
    y.v[0] = 37;
    y.v[1] = 3;
    y.v[2] = 25;
    w.v[0] = 0;
    w.v[1] = 0;
    w.v[2] = 0;
/*
[24 38  8]
[37  3 25]
[61 41 33]
*/
    SST_Math_Vec3uAdd(&x,&y,&w);
    TASSERT((w.v[0])==(61),"Entry _x failed!");
    TASSERT((w.v[1])==(41),"Entry _y failed!");
    TASSERT((w.v[2])==(33),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uAddLocal()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
/* Resetting test vectors */
    x.v[0] = 24;
    x.v[1] = 8;
    x.v[2] = 24;
    y.v[0] = 33;
    y.v[1] = 28;
    y.v[2] = 25;
/*
[24  8 24]
[33 28 25]
[57 36 49]
*/
    SST_Math_Vec3uAddLocal(&x,&y); /* for accuracy */
    TASSERT((x.v[0])==(57),"Entry _x failed!");
    TASSERT((x.v[1])==(36),"Entry _y failed!");
    TASSERT((x.v[2])==(49),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uSubtract()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
    SST_Vec3u w; /* 3 vector */
/* Resetting test vectors */
    x.v[0] = 18;
    x.v[1] = 29;
    x.v[2] = 32;
    y.v[0] = 38;
    y.v[1] = 30;
    y.v[2] = 6;
    w.v[0] = 0;
    w.v[1] = 0;
    w.v[2] = 0;
/*
[18 29 32]
[38 30  6]
[4294967276 4294967295         26]
*/
    SST_Math_Vec3uSubtract(&x,&y,&w);
    TASSERT((w.v[0])==(4294967276),"Entry _x failed!");
    TASSERT((w.v[1])==(4294967295),"Entry _y failed!");
    TASSERT((w.v[2])==(26),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uSubtractLocal()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
/* Resetting test vectors */
    x.v[0] = 5;
    x.v[1] = 15;
    x.v[2] = 11;
    y.v[0] = 13;
    y.v[1] = 7;
    y.v[2] = 24;
/*
[ 5 15 11]
[13  7 24]
[4294967288          8 4294967283]
*/
    SST_Math_Vec3uSubtractLocal(&x,&y); /* for accuracy */
    TASSERT((x.v[0])==(4294967288),"Entry _x failed!");
    TASSERT((x.v[1])==(8),"Entry _y failed!");
    TASSERT((x.v[2])==(4294967283),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uMultiply()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
    SST_Vec3u w; /* 3 vector */
/* Resetting test vectors */
    x.v[0] = 22;
    x.v[1] = 9;
    x.v[2] = 9;
    y.v[0] = 29;
    y.v[1] = 16;
    y.v[2] = 24;
    w.v[0] = 0;
    w.v[1] = 0;
    w.v[2] = 0;
/*
[22  9  9]
[29 16 24]
[638 144 216]
*/
    SST_Math_Vec3uMultiply(&x,&y,&w);
    TASSERT((w.v[0])==(638),"Entry _x failed!");
    TASSERT((w.v[1])==(144),"Entry _y failed!");
    TASSERT((w.v[2])==(216),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uMultiplyLocal()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
/* Resetting test vectors */
    x.v[0] = 32;
    x.v[1] = 27;
    x.v[2] = 34;
    y.v[0] = 33;
    y.v[1] = 16;
    y.v[2] = 36;
/*
[32 27 34]
[33 16 36]
[1056  432 1224]
*/
    SST_Math_Vec3uMultiplyLocal(&x,&y); /* for accuracy */
    TASSERT((x.v[0])==(1056),"Entry _x failed!");
    TASSERT((x.v[1])==(432),"Entry _y failed!");
    TASSERT((x.v[2])==(1224),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uDivide()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
    SST_Vec3u w; /* 3 vector */
/* Resetting test vectors */
    x.v[0] = 36;
    x.v[1] = 14;
    x.v[2] = 10;
    y.v[0] = 30;
    y.v[1] = 35;
    y.v[2] = 27;
    w.v[0] = 0;
    w.v[1] = 0;
    w.v[2] = 0;
/*
[36 14 10]
[30 35 27]
[1 0 0]
*/
    SST_Math_Vec3uDivide(&x,&y,&w);
    TASSERT((w.v[0])==(1),"Entry _x failed!");
    TASSERT((w.v[1])==(0),"Entry _y failed!");
    TASSERT((w.v[2])==(0),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uDivideLocal()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
/* Resetting test vectors */
    x.v[0] = 21;
    x.v[1] = 5;
    x.v[2] = 36;
    y.v[0] = 14;
    y.v[1] = 13;
    y.v[2] = 6;
/*
[21  5 36]
[14 13  6]
[1 0 6]
*/
    SST_Math_Vec3uDivideLocal(&x,&y); /* for accuracy */
    TASSERT((x.v[0])==(1),"Entry _x failed!");
    TASSERT((x.v[1])==(0),"Entry _y failed!");
    TASSERT((x.v[2])==(6),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uScale()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u w; /* 3 vector */
    unsigned int a; /* scalar */
/* Resetting test vectors */
    x.v[0] = 30;
    x.v[1] = 18;
    x.v[2] = 37;
    w.v[0] = 0;
    w.v[1] = 0;
    w.v[2] = 0;
    a = 2;
/*
[30 18 37]
[60 36 74]
*/
    SST_Math_Vec3uScale(&x,a,&w);
    TASSERT((w.v[0])==(60),"Entry _x failed!");
    TASSERT((w.v[1])==(36),"Entry _y failed!");
    TASSERT((w.v[2])==(74),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uScaleLocal()
{
    SST_Vec3u x; /* 3 vector */
    unsigned int a; /* scalar */
/* Resetting test vectors */
    x.v[0] = 26;
    x.v[1] = 26;
    x.v[2] = 28;
    a = 2;
/*
[26 26 28]
[52 52 56]
*/
    SST_Math_Vec3uScaleLocal(&x,a); /* for accuracy */
    TASSERT((x.v[0])==(52),"Entry _x failed!");
    TASSERT((x.v[1])==(52),"Entry _y failed!");
    TASSERT((x.v[2])==(56),"Entry _z failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uMagnitudeSquared()
{
    SST_Vec3u x; /* 3 vector */
    unsigned int a; /* scalar */
/* Resetting test vectors */
    x.v[0] = 28;
    x.v[1] = 36;
    x.v[2] = 39;
/*
[28 36 39]
3601
*/
    a = SST_Math_Vec3uMagnitudeSquared(&x);
    TASSERT((a)==(3601),"MagnitudeSquared failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/

static const char* testSST_Math_Vec3uDot()
{
    SST_Vec3u x; /* 3 vector */
    SST_Vec3u y; /* 3 vector */
    unsigned int a; /* scalar */
/* Resetting test vectors */
    x.v[0] = 0;
    x.v[1] = 26;
    x.v[2] = 4;
    y.v[0] = 16;
    y.v[1] = 24;
    y.v[2] = 31;
/*
[ 0 26  4]
748
*/
    a = SST_Math_Vec3uDot(&x,&y);
    TASSERT((a)==(748),"Dot failed!");
    return ZTEST_SUCCESS;
}

/******************************************************************************/