Sweden-Number/dlls/d3drm/tests/vector.c

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/*
* Copyright 2007 Vijay Kiran Kamuju
* Copyright 2007 David Adam
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <assert.h>
#include "d3drmdef.h"
#include <math.h>
#include "wine/test.h"
#define PI (4.0f*atanf(1.0f))
#define admit_error 0.000001f
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#define expect_mat( expectedmat, gotmat)\
{ \
int i,j,equal=1; \
for (i=0; i<4; i++)\
{\
for (j=0; j<4; j++)\
{\
if (fabs(expectedmat[i][j]-gotmat[i][j])>admit_error)\
{\
equal=0;\
}\
}\
}\
ok(equal, "Expected matrix=\n(%f,%f,%f,%f\n %f,%f,%f,%f\n %f,%f,%f,%f\n %f,%f,%f,%f\n)\n\n" \
"Got matrix=\n(%f,%f,%f,%f\n %f,%f,%f,%f\n %f,%f,%f,%f\n %f,%f,%f,%f)\n", \
expectedmat[0][0],expectedmat[0][1],expectedmat[0][2],expectedmat[0][3], \
expectedmat[1][0],expectedmat[1][1],expectedmat[1][2],expectedmat[1][3], \
expectedmat[2][0],expectedmat[2][1],expectedmat[2][2],expectedmat[2][3], \
expectedmat[3][0],expectedmat[3][1],expectedmat[3][2],expectedmat[3][3], \
gotmat[0][0],gotmat[0][1],gotmat[0][2],gotmat[0][3], \
gotmat[1][0],gotmat[1][1],gotmat[1][2],gotmat[1][3], \
gotmat[2][0],gotmat[2][1],gotmat[2][2],gotmat[2][3], \
gotmat[3][0],gotmat[3][1],gotmat[3][2],gotmat[3][3] ); \
}
#define expect_quat(expectedquat,gotquat) \
ok( (fabs(U1(expectedquat.v).x-U1(gotquat.v).x)<admit_error) && \
(fabs(U2(expectedquat.v).y-U2(gotquat.v).y)<admit_error) && \
(fabs(U3(expectedquat.v).z-U3(gotquat.v).z)<admit_error) && \
(fabs(expectedquat.s-gotquat.s)<admit_error), \
"Expected Quaternion %f %f %f %f , Got Quaternion %f %f %f %f\n", \
expectedquat.s,U1(expectedquat.v).x,U2(expectedquat.v).y,U3(expectedquat.v).z, \
gotquat.s,U1(gotquat.v).x,U2(gotquat.v).y,U3(gotquat.v).z);
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#define expect_vec(expectedvec,gotvec) \
ok( ((fabs(U1(expectedvec).x-U1(gotvec).x)<admit_error)&&(fabs(U2(expectedvec).y-U2(gotvec).y)<admit_error)&&(fabs(U3(expectedvec).z-U3(gotvec).z)<admit_error)), \
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"Expected Vector= (%f, %f, %f)\n , Got Vector= (%f, %f, %f)\n", \
U1(expectedvec).x,U2(expectedvec).y,U3(expectedvec).z, U1(gotvec).x, U2(gotvec).y, U3(gotvec).z);
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static HMODULE d3drm_handle = 0;
static void (WINAPI * pD3DRMMatrixFromQuaternion)(D3DRMMATRIX4D, LPD3DRMQUATERNION);
static LPD3DVECTOR (WINAPI* pD3DRMVectorAdd)(LPD3DVECTOR, LPD3DVECTOR, LPD3DVECTOR);
static LPD3DVECTOR (WINAPI* pD3DRMVectorCrossProduct)(LPD3DVECTOR, LPD3DVECTOR, LPD3DVECTOR);
static D3DVALUE (WINAPI* pD3DRMVectorDotProduct)(LPD3DVECTOR, LPD3DVECTOR);
static D3DVALUE (WINAPI* pD3DRMVectorModulus)(LPD3DVECTOR);
static LPD3DVECTOR (WINAPI * pD3DRMVectorNormalize)(LPD3DVECTOR);
static LPD3DVECTOR (WINAPI * pD3DRMVectorReflect)(LPD3DVECTOR, LPD3DVECTOR, LPD3DVECTOR);
static LPD3DVECTOR (WINAPI * pD3DRMVectorRotate)(LPD3DVECTOR, LPD3DVECTOR, LPD3DVECTOR, D3DVALUE);
static LPD3DVECTOR (WINAPI * pD3DRMVectorScale)(LPD3DVECTOR, LPD3DVECTOR, D3DVALUE);
static LPD3DVECTOR (WINAPI * pD3DRMVectorSubtract)(LPD3DVECTOR, LPD3DVECTOR, LPD3DVECTOR);
static LPD3DRMQUATERNION (WINAPI * pD3DRMQuaternionFromRotation)(LPD3DRMQUATERNION, LPD3DVECTOR, D3DVALUE);
static LPD3DRMQUATERNION (WINAPI * pD3DRMQuaternionSlerp)(LPD3DRMQUATERNION, LPD3DRMQUATERNION, LPD3DRMQUATERNION, D3DVALUE);
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static D3DCOLOR (WINAPI * pD3DRMCreateColorRGB)(D3DVALUE, D3DVALUE, D3DVALUE);
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static D3DCOLOR (WINAPI * pD3DRMCreateColorRGBA)(D3DVALUE, D3DVALUE, D3DVALUE, D3DVALUE);
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static D3DVALUE (WINAPI * pD3DRMColorGetAlpha)(D3DCOLOR);
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static D3DVALUE (WINAPI * pD3DRMColorGetBlue)(D3DCOLOR);
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static D3DVALUE (WINAPI * pD3DRMColorGetGreen)(D3DCOLOR);
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static D3DVALUE (WINAPI * pD3DRMColorGetRed)(D3DCOLOR);
#define D3DRM_GET_PROC(func) \
p ## func = (void*)GetProcAddress(d3drm_handle, #func); \
if(!p ## func) { \
trace("GetProcAddress(%s) failed\n", #func); \
FreeLibrary(d3drm_handle); \
return FALSE; \
}
static BOOL InitFunctionPtrs(void)
{
d3drm_handle = LoadLibraryA("d3drm.dll");
if(!d3drm_handle)
{
skip("Could not load d3drm.dll\n");
return FALSE;
}
D3DRM_GET_PROC(D3DRMMatrixFromQuaternion)
D3DRM_GET_PROC(D3DRMVectorAdd)
D3DRM_GET_PROC(D3DRMVectorCrossProduct)
D3DRM_GET_PROC(D3DRMVectorDotProduct)
D3DRM_GET_PROC(D3DRMVectorModulus)
D3DRM_GET_PROC(D3DRMVectorNormalize)
D3DRM_GET_PROC(D3DRMVectorReflect)
D3DRM_GET_PROC(D3DRMVectorRotate)
D3DRM_GET_PROC(D3DRMVectorScale)
D3DRM_GET_PROC(D3DRMVectorSubtract)
D3DRM_GET_PROC(D3DRMQuaternionFromRotation)
D3DRM_GET_PROC(D3DRMQuaternionSlerp)
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D3DRM_GET_PROC(D3DRMCreateColorRGB)
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D3DRM_GET_PROC(D3DRMCreateColorRGBA)
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D3DRM_GET_PROC(D3DRMColorGetAlpha)
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D3DRM_GET_PROC(D3DRMColorGetBlue)
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D3DRM_GET_PROC(D3DRMColorGetGreen)
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D3DRM_GET_PROC(D3DRMColorGetRed)
return TRUE;
}
static void VectorTest(void)
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{
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D3DVALUE mod,par,theta;
D3DVECTOR e,r,u,v,w,axis,casnul,norm,ray,self;
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U1(u).x=2.0f; U2(u).y=2.0f; U3(u).z=1.0f;
U1(v).x=4.0f; U2(v).y=4.0f; U3(v).z=0.0f;
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/*______________________VectorAdd_________________________________*/
pD3DRMVectorAdd(&r,&u,&v);
U1(e).x=6.0f; U2(e).y=6.0f; U3(e).z=1.0f;
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expect_vec(e,r);
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U1(self).x=9.0f; U1(self).y=18.0f; U3(self).z=27.0f;
pD3DRMVectorAdd(&self,&self,&u);
U1(e).x=11.0f; U2(e).y=20.0f; U3(e).z=28.0f;
expect_vec(e,self);
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/*_______________________VectorSubtract__________________________*/
pD3DRMVectorSubtract(&r,&u,&v);
U1(e).x=-2.0f; U2(e).y=-2.0f; U3(e).z=1.0f;
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expect_vec(e,r);
U1(self).x=9.0f; U1(self).y=18.0f; U3(self).z=27.0f;
pD3DRMVectorSubtract(&self,&self,&u);
U1(e).x=7.0f; U2(e).y=16.0f; U3(e).z=26.0f;
expect_vec(e,self);
/*_______________________VectorCrossProduct_______________________*/
pD3DRMVectorCrossProduct(&r,&u,&v);
U1(e).x=-4.0f; U2(e).y=4.0f; U3(e).z=0.0f;
expect_vec(e,r);
U1(self).x=9.0f; U1(self).y=18.0f; U3(self).z=27.0f;
pD3DRMVectorCrossProduct(&self,&self,&u);
U1(e).x=-36.0f; U2(e).y=45.0f; U3(e).z=-18.0f;
expect_vec(e,self);
/*_______________________VectorDotProduct__________________________*/
mod=pD3DRMVectorDotProduct(&u,&v);
ok((mod == 16.0f), "Expected 16.0f, Got %f\n", mod);
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/*_______________________VectorModulus_____________________________*/
mod=pD3DRMVectorModulus(&u);
ok((mod == 3.0f), "Expected 3.0f, Got %f\n", mod);
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/*_______________________VectorNormalize___________________________*/
pD3DRMVectorNormalize(&u);
U1(e).x=2.0f/3.0f; U2(e).y=2.0f/3.0f; U3(e).z=1.0f/3.0f;
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expect_vec(e,u);
/* If u is the NULL vector, MSDN says that the return vector is NULL. In fact, the returned vector is (1,0,0). The following test case prove it. */
U1(casnul).x=0.0f; U2(casnul).y=0.0f; U3(casnul).z=0.0f;
pD3DRMVectorNormalize(&casnul);
U1(e).x=1.0f; U2(e).y=0.0f; U3(e).z=0.0f;
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expect_vec(e,casnul);
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/*____________________VectorReflect_________________________________*/
U1(ray).x=3.0f; U2(ray).y=-4.0f; U3(ray).z=5.0f;
U1(norm).x=1.0f; U2(norm).y=-2.0f; U3(norm).z=6.0f;
U1(e).x=79.0f; U2(e).y=-160.0f; U3(e).z=487.0f;
pD3DRMVectorReflect(&r,&ray,&norm);
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expect_vec(e,r);
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/*_______________________VectorRotate_______________________________*/
U1(w).x=3.0f; U2(w).y=4.0f; U3(w).z=0.0f;
U1(axis).x=0.0f; U2(axis).y=0.0f; U3(axis).z=1.0f;
theta=2.0f*PI/3.0f;
pD3DRMVectorRotate(&r,&w,&axis,theta);
U1(e).x=-0.3f-0.4f*sqrtf(3.0f); U2(e).y=0.3f*sqrtf(3.0f)-0.4f; U3(e).z=0.0f;
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expect_vec(e,r);
/* The same formula gives D3DRMVectorRotate, for theta in [-PI/2;+PI/2] or not. The following test proves this fact.*/
theta=-PI/4.0f;
pD3DRMVectorRotate(&r,&w,&axis,theta);
U1(e).x=1.4f/sqrtf(2.0f); U2(e).y=0.2f/sqrtf(2.0f); U3(e).z=0.0f;
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expect_vec(e,r);
theta=PI/8.0f;
pD3DRMVectorRotate(&self,&self,&axis,theta);
U1(e).x=0.989950; U2(e).y=0.141421f; U3(e).z=0.0f;
expect_vec(e,r);
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/*_______________________VectorScale__________________________*/
par=2.5f;
pD3DRMVectorScale(&r,&v,par);
U1(e).x=10.0f; U2(e).y=10.0f; U3(e).z=0.0f;
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expect_vec(e,r);
U1(self).x=9.0f; U1(self).y=18.0f; U3(self).z=27.0f;
pD3DRMVectorScale(&self,&self,2);
U1(e).x=18.0f; U2(e).y=36.0f; U3(e).z=54.0f;
expect_vec(e,self);
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}
static void MatrixTest(void)
{
D3DRMQUATERNION q;
D3DRMMATRIX4D exp,mat;
exp[0][0]=-49.0f; exp[0][1]=4.0f; exp[0][2]=22.0f; exp[0][3]=0.0f;
exp[1][0]=20.0f; exp[1][1]=-39.0f; exp[1][2]=20.0f; exp[1][3]=0.0f;
exp[2][0]=10.0f; exp[2][1]=28.0f; exp[2][2]=-25.0f; exp[2][3]=0.0f;
exp[3][0]=0.0f; exp[3][1]=0.0f; exp[3][2]=0.0f; exp[3][3]=1.0f;
q.s=1.0f; U1(q.v).x=2.0f; U2(q.v).y=3.0f; U3(q.v).z=4.0f;
pD3DRMMatrixFromQuaternion(mat,&q);
expect_mat(exp,mat);
}
static void QuaternionTest(void)
{
D3DVECTOR axis;
D3DVALUE par,theta;
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D3DRMQUATERNION q,q1,q2,r;
/*_________________QuaternionFromRotation___________________*/
U1(axis).x=1.0f; U2(axis).y=1.0f; U3(axis).z=1.0f;
theta=2.0f*PI/3.0f;
pD3DRMQuaternionFromRotation(&r,&axis,theta);
q.s=0.5f; U1(q.v).x=0.5f; U2(q.v).y=0.5f; U3(q.v).z=0.5f;
expect_quat(q,r);
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/*_________________QuaternionSlerp_________________________*/
/* If the angle of the two quaternions is in ]PI/2;3PI/2[, QuaternionSlerp
* interpolates between the first quaternion and the opposite of the second one.
* The test proves this fact. */
par=0.31f;
q1.s=1.0f; U1(q1.v).x=2.0f; U2(q1.v).y=3.0f; U3(q1.v).z=50.0f;
q2.s=-4.0f; U1(q2.v).x=6.0f; U2(q2.v).y=7.0f; U3(q2.v).z=8.0f;
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/* The angle between q1 and q2 is in [-PI/2,PI/2]. So, one interpolates between q1 and q2. */
q.s = -0.55f; U1(q.v).x=3.24f; U2(q.v).y=4.24f; U3(q.v).z=36.98f;
pD3DRMQuaternionSlerp(&r,&q1,&q2,par);
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expect_quat(q,r);
q1.s=1.0f; U1(q1.v).x=2.0f; U2(q1.v).y=3.0f; U3(q1.v).z=50.0f;
q2.s=-94.0f; U1(q2.v).x=6.0f; U2(q2.v).y=7.0f; U3(q2.v).z=-8.0f;
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/* The angle between q1 and q2 is not in [-PI/2,PI/2]. So, one interpolates between q1 and -q2. */
q.s=29.83f; U1(q.v).x=-0.48f; U2(q.v).y=-0.10f; U3(q.v).z=36.98f;
pD3DRMQuaternionSlerp(&r,&q1,&q2,par);
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expect_quat(q,r);
/* Test the spherical interpolation part */
q1.s=0.1f; U1(q1.v).x=0.2f; U2(q1.v).y=0.3f; U3(q1.v).z=0.4f;
q2.s=0.5f; U1(q2.v).x=0.6f; U2(q2.v).y=0.7f; U3(q2.v).z=0.8f;
q.s = 0.243943f; U1(q.v).x = 0.351172f; U2(q.v).y = 0.458401f; U3(q.v).z = 0.565629f;
pD3DRMQuaternionSlerp(&r,&q1,&q2,par);
expect_quat(q,r);
}
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static void ColorTest(void)
{
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D3DCOLOR color, expected_color, got_color;
D3DVALUE expected, got, red, green, blue, alpha;
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/*___________D3DRMCreateColorRGB_________________________*/
red=0.8f;
green=0.3f;
blue=0.55f;
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expected_color=0xffcc4c8c;
got_color=pD3DRMCreateColorRGB(red,green,blue);
ok((expected_color==got_color),"Expected color=%x, Got color=%x\n",expected_color,got_color);
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/*___________D3DRMCreateColorRGBA________________________*/
red=0.1f;
green=0.4f;
blue=0.7f;
alpha=0.58f;
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expected_color=0x931966b2;
got_color=pD3DRMCreateColorRGBA(red,green,blue,alpha);
ok((expected_color==got_color),"Expected color=%x, Got color=%x\n",expected_color,got_color);
/* if a component is <0 then, then one considers this component as 0. The following test proves this fact (test only with the red component). */
red=-0.88f;
green=0.4f;
blue=0.6f;
alpha=0.41f;
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expected_color=0x68006699;
got_color=pD3DRMCreateColorRGBA(red,green,blue,alpha);
ok((expected_color==got_color),"Expected color=%x, Got color=%x\n",expected_color,got_color);
/* if a component is >1 then, then one considers this component as 1. The following test proves this fact (test only with the red component). */
red=2.37f;
green=0.4f;
blue=0.6f;
alpha=0.41f;
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expected_color=0x68ff6699;
got_color=pD3DRMCreateColorRGBA(red,green,blue,alpha);
ok((expected_color==got_color),"Expected color=%x, Got color=%x\n",expected_color,got_color);
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/*___________D3DRMColorGetAlpha_________________________*/
color=0x0e4921bf;
expected=14.0f/255.0f;
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got=pD3DRMColorGetAlpha(color);
ok((fabs(expected-got)<admit_error),"Expected=%f, Got=%f\n",expected,got);
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/*___________D3DRMColorGetBlue__________________________*/
color=0xc82a1455;
expected=1.0f/3.0f;
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got=pD3DRMColorGetBlue(color);
ok((fabs(expected-got)<admit_error),"Expected=%f, Got=%f\n",expected,got);
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/*___________D3DRMColorGetGreen_________________________*/
color=0xad971203;
expected=6.0f/85.0f;
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got=pD3DRMColorGetGreen(color);
ok((fabs(expected-got)<admit_error),"Expected=%f, Got=%f\n",expected,got);
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/*___________D3DRMColorGetRed__________________________*/
color=0xb62d7a1c;
expected=3.0f/17.0f;
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got=pD3DRMColorGetRed(color);
ok((fabs(expected-got)<admit_error),"Expected=%f, Got=%f\n",expected,got);
}
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START_TEST(vector)
{
if(!InitFunctionPtrs())
return;
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VectorTest();
MatrixTest();
QuaternionTest();
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ColorTest();
FreeLibrary(d3drm_handle);
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}