2 * Copyright 2007 David Adam
4 * This library is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU Lesser General Public
6 * License as published by the Free Software Foundation; either
7 * version 2.1 of the License, or (at your option) any later version.
9 * This library is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * Lesser General Public License for more details.
14 * You should have received a copy of the GNU Lesser General Public
15 * License along with this library; if not, write to the Free Software
16 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
24 #define NONAMELESSUNION
29 #include "d3dx8_private.h"
31 #include "wine/debug.h"
33 WINE_DEFAULT_DEBUG_CHANNEL(d3dx8
);
35 static const ID3DXMatrixStackVtbl ID3DXMatrixStack_Vtbl
;
37 /*_________________D3DXColor____________________*/
39 D3DXCOLOR
* WINAPI
D3DXColorAdjustContrast(D3DXCOLOR
*pout
, CONST D3DXCOLOR
*pc
, FLOAT s
)
41 pout
->r
= 0.5f
+ s
* (pc
->r
- 0.5f
);
42 pout
->g
= 0.5f
+ s
* (pc
->g
- 0.5f
);
43 pout
->b
= 0.5f
+ s
* (pc
->b
- 0.5f
);
48 D3DXCOLOR
* WINAPI
D3DXColorAdjustSaturation(D3DXCOLOR
*pout
, CONST D3DXCOLOR
*pc
, FLOAT s
)
52 grey
= pc
->r
* 0.2125f
+ pc
->g
* 0.7154f
+ pc
->b
* 0.0721f
;
53 pout
->r
= grey
+ s
* (pc
->r
- grey
);
54 pout
->g
= grey
+ s
* (pc
->g
- grey
);
55 pout
->b
= grey
+ s
* (pc
->b
- grey
);
60 /*_________________D3DXMatrix____________________*/
62 D3DXMATRIX
* WINAPI
D3DXMatrixAffineTransformation(D3DXMATRIX
*pout
, FLOAT scaling
, CONST D3DXVECTOR3
*rotationcenter
, CONST D3DXQUATERNION
*rotation
, CONST D3DXVECTOR3
*translation
)
64 D3DXMATRIX m1
, m2
, m3
, m4
, m5
;
66 D3DXMatrixScaling(&m1
, scaling
, scaling
, scaling
);
67 if ( !rotationcenter
)
69 D3DXMatrixIdentity(&m2
);
70 D3DXMatrixIdentity(&m4
);
74 D3DXMatrixTranslation(&m2
, -rotationcenter
->x
, -rotationcenter
->y
, -rotationcenter
->z
);
75 D3DXMatrixTranslation(&m4
, rotationcenter
->x
, rotationcenter
->y
, rotationcenter
->z
);
79 D3DXMatrixIdentity(&m3
);
83 D3DXMatrixRotationQuaternion(&m3
, rotation
);
87 D3DXMatrixIdentity(&m5
);
91 D3DXMatrixTranslation(&m5
, translation
->x
, translation
->y
, translation
->z
);
93 D3DXMatrixMultiply(&m1
, &m1
, &m2
);
94 D3DXMatrixMultiply(&m1
, &m1
, &m3
);
95 D3DXMatrixMultiply(&m1
, &m1
, &m4
);
96 D3DXMatrixMultiply(pout
, &m1
, &m5
);
100 FLOAT WINAPI
D3DXMatrixfDeterminant(CONST D3DXMATRIX
*pm
)
102 D3DXVECTOR4 minor
, v1
, v2
, v3
;
105 v1
.x
= pm
->u
.m
[0][0]; v1
.y
= pm
->u
.m
[1][0]; v1
.z
= pm
->u
.m
[2][0]; v1
.w
= pm
->u
.m
[3][0];
106 v2
.x
= pm
->u
.m
[0][1]; v2
.y
= pm
->u
.m
[1][1]; v2
.z
= pm
->u
.m
[2][1]; v2
.w
= pm
->u
.m
[3][1];
107 v3
.x
= pm
->u
.m
[0][2]; v3
.y
= pm
->u
.m
[1][2]; v3
.z
= pm
->u
.m
[2][2]; v3
.w
= pm
->u
.m
[3][2];
108 D3DXVec4Cross(&minor
, &v1
, &v2
, &v3
);
109 det
= - (pm
->u
.m
[0][3] * minor
.x
+ pm
->u
.m
[1][3] * minor
.y
+ pm
->u
.m
[2][3] * minor
.z
+ pm
->u
.m
[3][3] * minor
.w
);
113 D3DXMATRIX
* WINAPI
D3DXMatrixInverse(D3DXMATRIX
*pout
, FLOAT
*pdeterminant
, CONST D3DXMATRIX
*pm
)
116 D3DXVECTOR4 v
, vec
[3];
119 det
= D3DXMatrixfDeterminant(pm
);
120 if ( !det
) return NULL
;
121 if ( pdeterminant
) *pdeterminant
= det
;
129 if ( j
> i
) a
= a
-1;
130 vec
[a
].x
= pm
->u
.m
[j
][0];
131 vec
[a
].y
= pm
->u
.m
[j
][1];
132 vec
[a
].z
= pm
->u
.m
[j
][2];
133 vec
[a
].w
= pm
->u
.m
[j
][3];
136 D3DXVec4Cross(&v
, &vec
[0], &vec
[1], &vec
[2]);
137 pout
->u
.m
[0][i
] = pow(-1.0f
, i
) * v
.x
/ det
;
138 pout
->u
.m
[1][i
] = pow(-1.0f
, i
) * v
.y
/ det
;
139 pout
->u
.m
[2][i
] = pow(-1.0f
, i
) * v
.z
/ det
;
140 pout
->u
.m
[3][i
] = pow(-1.0f
, i
) * v
.w
/ det
;
145 D3DXMATRIX
* WINAPI
D3DXMatrixLookAtLH(D3DXMATRIX
*pout
, CONST D3DXVECTOR3
*peye
, CONST D3DXVECTOR3
*pat
, CONST D3DXVECTOR3
*pup
)
147 D3DXVECTOR3 right
, rightn
, up
, upn
, vec
, vec2
;
149 D3DXVec3Subtract(&vec2
, pat
, peye
);
150 D3DXVec3Normalize(&vec
, &vec2
);
151 D3DXVec3Cross(&right
, pup
, &vec
);
152 D3DXVec3Cross(&up
, &vec
, &right
);
153 D3DXVec3Normalize(&rightn
, &right
);
154 D3DXVec3Normalize(&upn
, &up
);
155 pout
->u
.m
[0][0] = rightn
.x
;
156 pout
->u
.m
[1][0] = rightn
.y
;
157 pout
->u
.m
[2][0] = rightn
.z
;
158 pout
->u
.m
[3][0] = -D3DXVec3Dot(&rightn
,peye
);
159 pout
->u
.m
[0][1] = upn
.x
;
160 pout
->u
.m
[1][1] = upn
.y
;
161 pout
->u
.m
[2][1] = upn
.z
;
162 pout
->u
.m
[3][1] = -D3DXVec3Dot(&upn
, peye
);
163 pout
->u
.m
[0][2] = vec
.x
;
164 pout
->u
.m
[1][2] = vec
.y
;
165 pout
->u
.m
[2][2] = vec
.z
;
166 pout
->u
.m
[3][2] = -D3DXVec3Dot(&vec
, peye
);
167 pout
->u
.m
[0][3] = 0.0f
;
168 pout
->u
.m
[1][3] = 0.0f
;
169 pout
->u
.m
[2][3] = 0.0f
;
170 pout
->u
.m
[3][3] = 1.0f
;
174 D3DXMATRIX
* WINAPI
D3DXMatrixLookAtRH(D3DXMATRIX
*pout
, CONST D3DXVECTOR3
*peye
, CONST D3DXVECTOR3
*pat
, CONST D3DXVECTOR3
*pup
)
176 D3DXVECTOR3 right
, rightn
, up
, upn
, vec
, vec2
;
178 D3DXVec3Subtract(&vec2
, pat
, peye
);
179 D3DXVec3Normalize(&vec
, &vec2
);
180 D3DXVec3Cross(&right
, pup
, &vec
);
181 D3DXVec3Cross(&up
, &vec
, &right
);
182 D3DXVec3Normalize(&rightn
, &right
);
183 D3DXVec3Normalize(&upn
, &up
);
184 pout
->u
.m
[0][0] = -rightn
.x
;
185 pout
->u
.m
[1][0] = -rightn
.y
;
186 pout
->u
.m
[2][0] = -rightn
.z
;
187 pout
->u
.m
[3][0] = D3DXVec3Dot(&rightn
,peye
);
188 pout
->u
.m
[0][1] = upn
.x
;
189 pout
->u
.m
[1][1] = upn
.y
;
190 pout
->u
.m
[2][1] = upn
.z
;
191 pout
->u
.m
[3][1] = -D3DXVec3Dot(&upn
, peye
);
192 pout
->u
.m
[0][2] = -vec
.x
;
193 pout
->u
.m
[1][2] = -vec
.y
;
194 pout
->u
.m
[2][2] = -vec
.z
;
195 pout
->u
.m
[3][2] = D3DXVec3Dot(&vec
, peye
);
196 pout
->u
.m
[0][3] = 0.0f
;
197 pout
->u
.m
[1][3] = 0.0f
;
198 pout
->u
.m
[2][3] = 0.0f
;
199 pout
->u
.m
[3][3] = 1.0f
;
203 D3DXMATRIX
* WINAPI
D3DXMatrixMultiply(D3DXMATRIX
*pout
, CONST D3DXMATRIX
*pm1
, CONST D3DXMATRIX
*pm2
)
212 out
.u
.m
[i
][j
] = pm1
->u
.m
[i
][0] * pm2
->u
.m
[0][j
] + pm1
->u
.m
[i
][1] * pm2
->u
.m
[1][j
] + pm1
->u
.m
[i
][2] * pm2
->u
.m
[2][j
] + pm1
->u
.m
[i
][3] * pm2
->u
.m
[3][j
];
219 D3DXMATRIX
* WINAPI
D3DXMatrixMultiplyTranspose(D3DXMATRIX
*pout
, CONST D3DXMATRIX
*pm1
, CONST D3DXMATRIX
*pm2
)
221 D3DXMatrixMultiply(pout
, pm1
, pm2
);
222 D3DXMatrixTranspose(pout
, pout
);
226 D3DXMATRIX
* WINAPI
D3DXMatrixOrthoLH(D3DXMATRIX
*pout
, FLOAT w
, FLOAT h
, FLOAT zn
, FLOAT zf
)
228 D3DXMatrixIdentity(pout
);
229 pout
->u
.m
[0][0] = 2.0f
/ w
;
230 pout
->u
.m
[1][1] = 2.0f
/ h
;
231 pout
->u
.m
[2][2] = 1.0f
/ (zf
- zn
);
232 pout
->u
.m
[3][2] = zn
/ (zn
- zf
);
236 D3DXMATRIX
* WINAPI
D3DXMatrixOrthoOffCenterLH(D3DXMATRIX
*pout
, FLOAT l
, FLOAT r
, FLOAT b
, FLOAT t
, FLOAT zn
, FLOAT zf
)
238 D3DXMatrixIdentity(pout
);
239 pout
->u
.m
[0][0] = 2.0f
/ (r
- l
);
240 pout
->u
.m
[1][1] = 2.0f
/ (t
- b
);
241 pout
->u
.m
[2][2] = 1.0f
/ (zf
-zn
);
242 pout
->u
.m
[3][0] = -1.0f
-2.0f
*l
/ (r
- l
);
243 pout
->u
.m
[3][1] = 1.0f
+ 2.0f
* t
/ (b
- t
);
244 pout
->u
.m
[3][2] = zn
/ (zn
-zf
);
248 D3DXMATRIX
* WINAPI
D3DXMatrixOrthoOffCenterRH(D3DXMATRIX
*pout
, FLOAT l
, FLOAT r
, FLOAT b
, FLOAT t
, FLOAT zn
, FLOAT zf
)
250 D3DXMatrixIdentity(pout
);
251 pout
->u
.m
[0][0] = 2.0f
/ (r
- l
);
252 pout
->u
.m
[1][1] = 2.0f
/ (t
- b
);
253 pout
->u
.m
[2][2] = 1.0f
/ (zn
-zf
);
254 pout
->u
.m
[3][0] = -1.0f
-2.0f
*l
/ (r
- l
);
255 pout
->u
.m
[3][1] = 1.0f
+ 2.0f
* t
/ (b
- t
);
256 pout
->u
.m
[3][2] = zn
/ (zn
-zf
);
260 D3DXMATRIX
* WINAPI
D3DXMatrixOrthoRH(D3DXMATRIX
*pout
, FLOAT w
, FLOAT h
, FLOAT zn
, FLOAT zf
)
262 D3DXMatrixIdentity(pout
);
263 pout
->u
.m
[0][0] = 2.0f
/ w
;
264 pout
->u
.m
[1][1] = 2.0f
/ h
;
265 pout
->u
.m
[2][2] = 1.0f
/ (zn
- zf
);
266 pout
->u
.m
[3][2] = zn
/ (zn
- zf
);
270 D3DXMATRIX
* WINAPI
D3DXMatrixPerspectiveFovLH(D3DXMATRIX
*pout
, FLOAT fovy
, FLOAT aspect
, FLOAT zn
, FLOAT zf
)
272 D3DXMatrixIdentity(pout
);
273 pout
->u
.m
[0][0] = 1.0f
/ (aspect
* tan(fovy
/2.0f
));
274 pout
->u
.m
[1][1] = 1.0f
/ tan(fovy
/2.0f
);
275 pout
->u
.m
[2][2] = zf
/ (zf
- zn
);
276 pout
->u
.m
[2][3] = 1.0f
;
277 pout
->u
.m
[3][2] = (zf
* zn
) / (zn
- zf
);
278 pout
->u
.m
[3][3] = 0.0f
;
282 D3DXMATRIX
* WINAPI
D3DXMatrixPerspectiveFovRH(D3DXMATRIX
*pout
, FLOAT fovy
, FLOAT aspect
, FLOAT zn
, FLOAT zf
)
284 D3DXMatrixIdentity(pout
);
285 pout
->u
.m
[0][0] = 1.0f
/ (aspect
* tan(fovy
/2.0f
));
286 pout
->u
.m
[1][1] = 1.0f
/ tan(fovy
/2.0f
);
287 pout
->u
.m
[2][2] = zf
/ (zn
- zf
);
288 pout
->u
.m
[2][3] = -1.0f
;
289 pout
->u
.m
[3][2] = (zf
* zn
) / (zn
- zf
);
290 pout
->u
.m
[3][3] = 0.0f
;
294 D3DXMATRIX
* WINAPI
D3DXMatrixPerspectiveLH(D3DXMATRIX
*pout
, FLOAT w
, FLOAT h
, FLOAT zn
, FLOAT zf
)
296 D3DXMatrixIdentity(pout
);
297 pout
->u
.m
[0][0] = 2.0f
* zn
/ w
;
298 pout
->u
.m
[1][1] = 2.0f
* zn
/ h
;
299 pout
->u
.m
[2][2] = zf
/ (zf
- zn
);
300 pout
->u
.m
[3][2] = (zn
* zf
) / (zn
- zf
);
301 pout
->u
.m
[2][3] = 1.0f
;
302 pout
->u
.m
[3][3] = 0.0f
;
306 D3DXMATRIX
* WINAPI
D3DXMatrixPerspectiveOffCenterLH(D3DXMATRIX
*pout
, FLOAT l
, FLOAT r
, FLOAT b
, FLOAT t
, FLOAT zn
, FLOAT zf
)
308 D3DXMatrixIdentity(pout
);
309 pout
->u
.m
[0][0] = 2.0f
* zn
/ (r
- l
);
310 pout
->u
.m
[1][1] = -2.0f
* zn
/ (b
- t
);
311 pout
->u
.m
[2][0] = -1.0f
- 2.0f
* l
/ (r
- l
);
312 pout
->u
.m
[2][1] = 1.0f
+ 2.0f
* t
/ (b
- t
);
313 pout
->u
.m
[2][2] = - zf
/ (zn
- zf
);
314 pout
->u
.m
[3][2] = (zn
* zf
) / (zn
-zf
);
315 pout
->u
.m
[2][3] = 1.0f
;
316 pout
->u
.m
[3][3] = 0.0f
;
320 D3DXMATRIX
* WINAPI
D3DXMatrixPerspectiveOffCenterRH(D3DXMATRIX
*pout
, FLOAT l
, FLOAT r
, FLOAT b
, FLOAT t
, FLOAT zn
, FLOAT zf
)
322 D3DXMatrixIdentity(pout
);
323 pout
->u
.m
[0][0] = 2.0f
* zn
/ (r
- l
);
324 pout
->u
.m
[1][1] = -2.0f
* zn
/ (b
- t
);
325 pout
->u
.m
[2][0] = 1.0f
+ 2.0f
* l
/ (r
- l
);
326 pout
->u
.m
[2][1] = -1.0f
-2.0f
* t
/ (b
- t
);
327 pout
->u
.m
[2][2] = zf
/ (zn
- zf
);
328 pout
->u
.m
[3][2] = (zn
* zf
) / (zn
-zf
);
329 pout
->u
.m
[2][3] = -1.0f
;
330 pout
->u
.m
[3][3] = 0.0f
;
334 D3DXMATRIX
* WINAPI
D3DXMatrixPerspectiveRH(D3DXMATRIX
*pout
, FLOAT w
, FLOAT h
, FLOAT zn
, FLOAT zf
)
336 D3DXMatrixIdentity(pout
);
337 pout
->u
.m
[0][0] = 2.0f
* zn
/ w
;
338 pout
->u
.m
[1][1] = 2.0f
* zn
/ h
;
339 pout
->u
.m
[2][2] = zf
/ (zn
- zf
);
340 pout
->u
.m
[3][2] = (zn
* zf
) / (zn
- zf
);
341 pout
->u
.m
[2][3] = -1.0f
;
342 pout
->u
.m
[3][3] = 0.0f
;
346 D3DXMATRIX
* WINAPI
D3DXMatrixReflect(D3DXMATRIX
*pout
, CONST D3DXPLANE
*pplane
)
350 D3DXPlaneNormalize(&Nplane
, pplane
);
351 D3DXMatrixIdentity(pout
);
352 pout
->u
.m
[0][0] = 1.0f
- 2.0f
* Nplane
.a
* Nplane
.a
;
353 pout
->u
.m
[0][1] = -2.0f
* Nplane
.a
* Nplane
.b
;
354 pout
->u
.m
[0][2] = -2.0f
* Nplane
.a
* Nplane
.c
;
355 pout
->u
.m
[1][0] = -2.0f
* Nplane
.a
* Nplane
.b
;
356 pout
->u
.m
[1][1] = 1.0f
- 2.0f
* Nplane
.b
* Nplane
.b
;
357 pout
->u
.m
[1][2] = -2.0f
* Nplane
.b
* Nplane
.c
;
358 pout
->u
.m
[2][0] = -2.0f
* Nplane
.c
* Nplane
.a
;
359 pout
->u
.m
[2][1] = -2.0f
* Nplane
.c
* Nplane
.b
;
360 pout
->u
.m
[2][2] = 1.0f
- 2.0f
* Nplane
.c
* Nplane
.c
;
361 pout
->u
.m
[3][0] = -2.0f
* Nplane
.d
* Nplane
.a
;
362 pout
->u
.m
[3][1] = -2.0f
* Nplane
.d
* Nplane
.b
;
363 pout
->u
.m
[3][2] = -2.0f
* Nplane
.d
* Nplane
.c
;
367 D3DXMATRIX
* WINAPI
D3DXMatrixRotationAxis(D3DXMATRIX
*pout
, CONST D3DXVECTOR3
*pv
, FLOAT angle
)
371 D3DXVec3Normalize(&v
,pv
);
372 D3DXMatrixIdentity(pout
);
373 pout
->u
.m
[0][0] = (1.0f
- cos(angle
)) * v
.x
* v
.x
+ cos(angle
);
374 pout
->u
.m
[1][0] = (1.0f
- cos(angle
)) * v
.x
* v
.y
- sin(angle
) * v
.z
;
375 pout
->u
.m
[2][0] = (1.0f
- cos(angle
)) * v
.x
* v
.z
+ sin(angle
) * v
.y
;
376 pout
->u
.m
[0][1] = (1.0f
- cos(angle
)) * v
.y
* v
.x
+ sin(angle
) * v
.z
;
377 pout
->u
.m
[1][1] = (1.0f
- cos(angle
)) * v
.y
* v
.y
+ cos(angle
);
378 pout
->u
.m
[2][1] = (1.0f
- cos(angle
)) * v
.y
* v
.z
- sin(angle
) * v
.x
;
379 pout
->u
.m
[0][2] = (1.0f
- cos(angle
)) * v
.z
* v
.x
- sin(angle
) * v
.y
;
380 pout
->u
.m
[1][2] = (1.0f
- cos(angle
)) * v
.z
* v
.y
+ sin(angle
) * v
.x
;
381 pout
->u
.m
[2][2] = (1.0f
- cos(angle
)) * v
.z
* v
.z
+ cos(angle
);
385 D3DXMATRIX
* WINAPI
D3DXMatrixRotationQuaternion(D3DXMATRIX
*pout
, CONST D3DXQUATERNION
*pq
)
387 D3DXMatrixIdentity(pout
);
388 pout
->u
.m
[0][0] = 1.0f
- 2.0f
* (pq
->y
* pq
->y
+ pq
->z
* pq
->z
);
389 pout
->u
.m
[0][1] = 2.0f
* (pq
->x
*pq
->y
+ pq
->z
* pq
->w
);
390 pout
->u
.m
[0][2] = 2.0f
* (pq
->x
* pq
->z
- pq
->y
* pq
->w
);
391 pout
->u
.m
[1][0] = 2.0f
* (pq
->x
* pq
->y
- pq
->z
* pq
->w
);
392 pout
->u
.m
[1][1] = 1.0f
- 2.0f
* (pq
->x
* pq
->x
+ pq
->z
* pq
->z
);
393 pout
->u
.m
[1][2] = 2.0f
* (pq
->y
*pq
->z
+ pq
->x
*pq
->w
);
394 pout
->u
.m
[2][0] = 2.0f
* (pq
->x
* pq
->z
+ pq
->y
* pq
->w
);
395 pout
->u
.m
[2][1] = 2.0f
* (pq
->y
*pq
->z
- pq
->x
*pq
->w
);
396 pout
->u
.m
[2][2] = 1.0f
- 2.0f
* (pq
->x
* pq
->x
+ pq
->y
* pq
->y
);
400 D3DXMATRIX
* WINAPI
D3DXMatrixRotationX(D3DXMATRIX
*pout
, FLOAT angle
)
402 D3DXMatrixIdentity(pout
);
403 pout
->u
.m
[1][1] = cos(angle
);
404 pout
->u
.m
[2][2] = cos(angle
);
405 pout
->u
.m
[1][2] = sin(angle
);
406 pout
->u
.m
[2][1] = -sin(angle
);
410 D3DXMATRIX
* WINAPI
D3DXMatrixRotationY(D3DXMATRIX
*pout
, FLOAT angle
)
412 D3DXMatrixIdentity(pout
);
413 pout
->u
.m
[0][0] = cos(angle
);
414 pout
->u
.m
[2][2] = cos(angle
);
415 pout
->u
.m
[0][2] = -sin(angle
);
416 pout
->u
.m
[2][0] = sin(angle
);
420 D3DXMATRIX
* WINAPI
D3DXMatrixRotationYawPitchRoll(D3DXMATRIX
*pout
, FLOAT yaw
, FLOAT pitch
, FLOAT roll
)
424 D3DXMatrixIdentity(pout
);
425 D3DXMatrixRotationZ(&m
, roll
);
426 D3DXMatrixMultiply(pout
, pout
, &m
);
427 D3DXMatrixRotationX(&m
, pitch
);
428 D3DXMatrixMultiply(pout
, pout
, &m
);
429 D3DXMatrixRotationY(&m
, yaw
);
430 D3DXMatrixMultiply(pout
, pout
, &m
);
433 D3DXMATRIX
* WINAPI
D3DXMatrixRotationZ(D3DXMATRIX
*pout
, FLOAT angle
)
435 D3DXMatrixIdentity(pout
);
436 pout
->u
.m
[0][0] = cos(angle
);
437 pout
->u
.m
[1][1] = cos(angle
);
438 pout
->u
.m
[0][1] = sin(angle
);
439 pout
->u
.m
[1][0] = -sin(angle
);
443 D3DXMATRIX
* WINAPI
D3DXMatrixScaling(D3DXMATRIX
*pout
, FLOAT sx
, FLOAT sy
, FLOAT sz
)
445 D3DXMatrixIdentity(pout
);
446 pout
->u
.m
[0][0] = sx
;
447 pout
->u
.m
[1][1] = sy
;
448 pout
->u
.m
[2][2] = sz
;
452 D3DXMATRIX
* WINAPI
D3DXMatrixShadow(D3DXMATRIX
*pout
, CONST D3DXVECTOR4
*plight
, CONST D3DXPLANE
*pplane
)
457 D3DXPlaneNormalize(&Nplane
, pplane
);
458 dot
= D3DXPlaneDot(&Nplane
, plight
);
459 pout
->u
.m
[0][0] = dot
- Nplane
.a
* plight
->x
;
460 pout
->u
.m
[0][1] = -Nplane
.a
* plight
->y
;
461 pout
->u
.m
[0][2] = -Nplane
.a
* plight
->z
;
462 pout
->u
.m
[0][3] = -Nplane
.a
* plight
->w
;
463 pout
->u
.m
[1][0] = -Nplane
.b
* plight
->x
;
464 pout
->u
.m
[1][1] = dot
- Nplane
.b
* plight
->y
;
465 pout
->u
.m
[1][2] = -Nplane
.b
* plight
->z
;
466 pout
->u
.m
[1][3] = -Nplane
.b
* plight
->w
;
467 pout
->u
.m
[2][0] = -Nplane
.c
* plight
->x
;
468 pout
->u
.m
[2][1] = -Nplane
.c
* plight
->y
;
469 pout
->u
.m
[2][2] = dot
- Nplane
.c
* plight
->z
;
470 pout
->u
.m
[2][3] = -Nplane
.c
* plight
->w
;
471 pout
->u
.m
[3][0] = -Nplane
.d
* plight
->x
;
472 pout
->u
.m
[3][1] = -Nplane
.d
* plight
->y
;
473 pout
->u
.m
[3][2] = -Nplane
.d
* plight
->z
;
474 pout
->u
.m
[3][3] = dot
- Nplane
.d
* plight
->w
;
478 D3DXMATRIX
* WINAPI
D3DXMatrixTransformation(D3DXMATRIX
*pout
, CONST D3DXVECTOR3
*pscalingcenter
, CONST D3DXQUATERNION
*pscalingrotation
, CONST D3DXVECTOR3
*pscaling
, CONST D3DXVECTOR3
*protationcenter
, CONST D3DXQUATERNION
*protation
, CONST D3DXVECTOR3
*ptranslation
)
480 D3DXMATRIX m1
, m2
, m3
, m4
, m5
, m6
, m7
;
484 if ( !pscalingcenter
)
492 psc
.x
= pscalingcenter
->x
;
493 psc
.y
= pscalingcenter
->y
;
494 psc
.z
= pscalingcenter
->z
;
496 if ( !protationcenter
)
504 prc
.x
= protationcenter
->x
;
505 prc
.y
= protationcenter
->y
;
506 prc
.z
= protationcenter
->z
;
516 pt
.x
= ptranslation
->x
;
517 pt
.y
= ptranslation
->y
;
518 pt
.z
= ptranslation
->z
;
520 D3DXMatrixTranslation(&m1
, -psc
.x
, -psc
.y
, -psc
.z
);
521 if ( !pscalingrotation
)
523 D3DXMatrixIdentity(&m2
);
524 D3DXMatrixIdentity(&m4
);
528 D3DXMatrixRotationQuaternion(&m4
, pscalingrotation
);
529 D3DXMatrixInverse(&m2
, NULL
, &m4
);
533 D3DXMatrixIdentity(&m3
);
537 D3DXMatrixScaling(&m3
, pscaling
->x
, pscaling
->y
, pscaling
->z
);
541 D3DXMatrixIdentity(&m6
);
545 D3DXMatrixRotationQuaternion(&m6
, protation
);
547 D3DXMatrixTranslation(&m5
, psc
.x
- prc
.x
, psc
.y
- prc
.y
, psc
.z
- prc
.z
);
548 D3DXMatrixTranslation(&m7
, prc
.x
+ pt
.x
, prc
.y
+ pt
.y
, prc
.z
+ pt
.z
);
549 D3DXMatrixMultiply(&m1
, &m1
, &m2
);
550 D3DXMatrixMultiply(&m1
, &m1
, &m3
);
551 D3DXMatrixMultiply(&m1
, &m1
, &m4
);
552 D3DXMatrixMultiply(&m1
, &m1
, &m5
);
553 D3DXMatrixMultiply(&m1
, &m1
, &m6
);
554 D3DXMatrixMultiply(pout
, &m1
, &m7
);
558 D3DXMATRIX
* WINAPI
D3DXMatrixTranslation(D3DXMATRIX
*pout
, FLOAT x
, FLOAT y
, FLOAT z
)
560 D3DXMatrixIdentity(pout
);
567 D3DXMATRIX
* WINAPI
D3DXMatrixTranspose(D3DXMATRIX
*pout
, CONST D3DXMATRIX
*pm
)
569 CONST D3DXMATRIX m
= *pm
;
576 pout
->u
.m
[i
][j
] = m
.u
.m
[j
][i
];
582 /*_________________D3DXMatrixStack____________________*/
584 static const unsigned int INITIAL_STACK_SIZE
= 32;
586 HRESULT WINAPI
D3DXCreateMatrixStack(DWORD flags
, LPD3DXMATRIXSTACK
* ppstack
)
588 ID3DXMatrixStackImpl
* object
;
590 TRACE("flags %#x, ppstack %p\n", flags
, ppstack
);
592 object
= HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY
, sizeof(ID3DXMatrixStackImpl
));
593 if ( object
== NULL
)
596 return E_OUTOFMEMORY
;
598 object
->lpVtbl
= &ID3DXMatrixStack_Vtbl
;
601 object
->stack
= HeapAlloc(GetProcessHeap(), 0, INITIAL_STACK_SIZE
* sizeof(D3DXMATRIX
));
604 HeapFree(GetProcessHeap(), 0, object
);
606 return E_OUTOFMEMORY
;
610 object
->stack_size
= INITIAL_STACK_SIZE
;
611 D3DXMatrixIdentity(&object
->stack
[0]);
613 TRACE("Created matrix stack %p\n", object
);
615 *ppstack
= (LPD3DXMATRIXSTACK
)object
;
619 static HRESULT WINAPI
ID3DXMatrixStackImpl_QueryInterface(ID3DXMatrixStack
*iface
, REFIID riid
, void **ppobj
)
621 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
622 if (IsEqualGUID(riid
, &IID_IUnknown
) || IsEqualGUID(riid
, &IID_ID3DXMatrixStack
))
624 ID3DXMatrixStack_AddRef(iface
);
629 ERR("(%p)->(%s,%p),not found\n",This
,debugstr_guid(riid
),ppobj
);
630 return E_NOINTERFACE
;
633 static ULONG WINAPI
ID3DXMatrixStackImpl_AddRef(ID3DXMatrixStack
*iface
)
635 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
636 ULONG ref
= InterlockedIncrement(&This
->ref
);
637 TRACE("(%p) : AddRef from %d\n", This
, ref
- 1);
641 static ULONG WINAPI
ID3DXMatrixStackImpl_Release(ID3DXMatrixStack
* iface
)
643 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
644 ULONG ref
= InterlockedDecrement(&This
->ref
);
647 HeapFree(GetProcessHeap(), 0, This
->stack
);
648 HeapFree(GetProcessHeap(), 0, This
);
650 TRACE("(%p) : ReleaseRef to %d\n", This
, ref
);
654 static D3DXMATRIX
* WINAPI
ID3DXMatrixStackImpl_GetTop(ID3DXMatrixStack
*iface
)
656 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
658 TRACE("iface %p\n", iface
);
660 return &This
->stack
[This
->current
];
663 static HRESULT WINAPI
ID3DXMatrixStackImpl_LoadIdentity(ID3DXMatrixStack
*iface
)
665 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
667 TRACE("iface %p\n", iface
);
669 D3DXMatrixIdentity(&This
->stack
[This
->current
]);
674 static HRESULT WINAPI
ID3DXMatrixStackImpl_LoadMatrix(ID3DXMatrixStack
*iface
, CONST D3DXMATRIX
*pm
)
676 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
678 TRACE("iface %p\n", iface
);
680 if (!pm
) return D3DERR_INVALIDCALL
;
681 This
->stack
[This
->current
] = *pm
;
686 static HRESULT WINAPI
ID3DXMatrixStackImpl_MultMatrix(ID3DXMatrixStack
*iface
, CONST D3DXMATRIX
*pm
)
688 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
689 FIXME("(%p) : stub\n",This
);
693 static HRESULT WINAPI
ID3DXMatrixStackImpl_MultMatrixLocal(ID3DXMatrixStack
*iface
, CONST D3DXMATRIX
*pm
)
695 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
696 FIXME("(%p) : stub\n",This
);
700 static HRESULT WINAPI
ID3DXMatrixStackImpl_Pop(ID3DXMatrixStack
*iface
)
702 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
704 TRACE("iface %p\n", iface
);
706 /* Popping the last element on the stack returns D3D_OK, but does nothing. */
707 if (!This
->current
) return D3D_OK
;
709 if (This
->current
<= This
->stack_size
/ 4 && This
->stack_size
>= INITIAL_STACK_SIZE
* 2)
711 unsigned int new_size
;
712 D3DXMATRIX
*new_stack
;
714 new_size
= This
->stack_size
/ 2;
715 new_stack
= HeapReAlloc(GetProcessHeap(), 0, This
->stack
, new_size
* sizeof(D3DXMATRIX
));
718 This
->stack_size
= new_size
;
719 This
->stack
= new_stack
;
728 static HRESULT WINAPI
ID3DXMatrixStackImpl_Push(ID3DXMatrixStack
*iface
)
730 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
732 TRACE("iface %p\n", iface
);
734 if (This
->current
== This
->stack_size
- 1)
736 unsigned int new_size
;
737 D3DXMATRIX
*new_stack
;
739 if (This
->stack_size
> UINT_MAX
/ 2) return E_OUTOFMEMORY
;
741 new_size
= This
->stack_size
* 2;
742 new_stack
= HeapReAlloc(GetProcessHeap(), 0, This
->stack
, new_size
* sizeof(D3DXMATRIX
));
743 if (!new_stack
) return E_OUTOFMEMORY
;
745 This
->stack_size
= new_size
;
746 This
->stack
= new_stack
;
750 This
->stack
[This
->current
] = This
->stack
[This
->current
- 1];
755 static HRESULT WINAPI
ID3DXMatrixStackImpl_RotateAxis(ID3DXMatrixStack
*iface
, CONST D3DXVECTOR3
*pv
, FLOAT angle
)
757 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
758 FIXME("(%p) : stub\n",This
);
762 static HRESULT WINAPI
ID3DXMatrixStackImpl_RotateAxisLocal(ID3DXMatrixStack
*iface
, CONST D3DXVECTOR3
*pv
, FLOAT angle
)
764 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
765 FIXME("(%p) : stub\n",This
);
769 static HRESULT WINAPI
ID3DXMatrixStackImpl_RotateYawPitchRoll(ID3DXMatrixStack
*iface
, FLOAT x
, FLOAT y
, FLOAT z
)
771 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
772 FIXME("(%p) : stub\n",This
);
776 static HRESULT WINAPI
ID3DXMatrixStackImpl_RotateYawPitchRollLocal(ID3DXMatrixStack
*iface
, FLOAT x
, FLOAT y
, FLOAT z
)
778 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
779 FIXME("(%p) : stub\n",This
);
783 static HRESULT WINAPI
ID3DXMatrixStackImpl_Scale(ID3DXMatrixStack
*iface
, FLOAT x
, FLOAT y
, FLOAT z
)
785 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
786 FIXME("(%p) : stub\n",This
);
790 static HRESULT WINAPI
ID3DXMatrixStackImpl_ScaleLocal(ID3DXMatrixStack
*iface
, FLOAT x
, FLOAT y
, FLOAT z
)
792 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
793 FIXME("(%p) : stub\n",This
);
797 static HRESULT WINAPI
ID3DXMatrixStackImpl_Translate(ID3DXMatrixStack
*iface
, FLOAT x
, FLOAT y
, FLOAT z
)
799 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
800 FIXME("(%p) : stub\n",This
);
804 static HRESULT WINAPI
ID3DXMatrixStackImpl_TranslateLocal(ID3DXMatrixStack
*iface
, FLOAT x
, FLOAT y
, FLOAT z
)
806 ID3DXMatrixStackImpl
*This
= (ID3DXMatrixStackImpl
*)iface
;
807 FIXME("(%p) : stub\n",This
);
811 static const ID3DXMatrixStackVtbl ID3DXMatrixStack_Vtbl
=
813 ID3DXMatrixStackImpl_QueryInterface
,
814 ID3DXMatrixStackImpl_AddRef
,
815 ID3DXMatrixStackImpl_Release
,
816 ID3DXMatrixStackImpl_Pop
,
817 ID3DXMatrixStackImpl_Push
,
818 ID3DXMatrixStackImpl_LoadIdentity
,
819 ID3DXMatrixStackImpl_LoadMatrix
,
820 ID3DXMatrixStackImpl_MultMatrix
,
821 ID3DXMatrixStackImpl_MultMatrixLocal
,
822 ID3DXMatrixStackImpl_RotateAxis
,
823 ID3DXMatrixStackImpl_RotateAxisLocal
,
824 ID3DXMatrixStackImpl_RotateYawPitchRoll
,
825 ID3DXMatrixStackImpl_RotateYawPitchRollLocal
,
826 ID3DXMatrixStackImpl_Scale
,
827 ID3DXMatrixStackImpl_ScaleLocal
,
828 ID3DXMatrixStackImpl_Translate
,
829 ID3DXMatrixStackImpl_TranslateLocal
,
830 ID3DXMatrixStackImpl_GetTop
833 /*_________________D3DXPLANE________________*/
835 D3DXPLANE
* WINAPI
D3DXPlaneFromPointNormal(D3DXPLANE
*pout
, CONST D3DXVECTOR3
*pvpoint
, CONST D3DXVECTOR3
*pvnormal
)
837 pout
->a
= pvnormal
->x
;
838 pout
->b
= pvnormal
->y
;
839 pout
->c
= pvnormal
->z
;
840 pout
->d
= -D3DXVec3Dot(pvpoint
, pvnormal
);
844 D3DXPLANE
* WINAPI
D3DXPlaneFromPoints(D3DXPLANE
*pout
, CONST D3DXVECTOR3
*pv1
, CONST D3DXVECTOR3
*pv2
, CONST D3DXVECTOR3
*pv3
)
846 D3DXVECTOR3 edge1
, edge2
, normal
, Nnormal
;
848 edge1
.x
= 0.0f
; edge1
.y
= 0.0f
; edge1
.z
= 0.0f
;
849 edge2
.x
= 0.0f
; edge2
.y
= 0.0f
; edge2
.z
= 0.0f
;
850 D3DXVec3Subtract(&edge1
, pv2
, pv1
);
851 D3DXVec3Subtract(&edge2
, pv3
, pv1
);
852 D3DXVec3Cross(&normal
, &edge1
, &edge2
);
853 D3DXVec3Normalize(&Nnormal
, &normal
);
854 D3DXPlaneFromPointNormal(pout
, pv1
, &Nnormal
);
858 D3DXVECTOR3
* WINAPI
D3DXPlaneIntersectLine(D3DXVECTOR3
*pout
, CONST D3DXPLANE
*pp
, CONST D3DXVECTOR3
*pv1
, CONST D3DXVECTOR3
*pv2
)
860 D3DXVECTOR3 direction
, normal
;
866 direction
.x
= pv2
->x
- pv1
->x
;
867 direction
.y
= pv2
->y
- pv1
->y
;
868 direction
.z
= pv2
->z
- pv1
->z
;
869 dot
= D3DXVec3Dot(&normal
, &direction
);
870 if ( !dot
) return NULL
;
871 temp
= ( pp
->d
+ D3DXVec3Dot(&normal
, pv1
) ) / dot
;
872 pout
->x
= pv1
->x
- temp
* direction
.x
;
873 pout
->y
= pv1
->y
- temp
* direction
.y
;
874 pout
->z
= pv1
->z
- temp
* direction
.z
;
878 D3DXPLANE
* WINAPI
D3DXPlaneNormalize(D3DXPLANE
*pout
, CONST D3DXPLANE
*pp
)
882 norm
= sqrt(pp
->a
* pp
->a
+ pp
->b
* pp
->b
+ pp
->c
* pp
->c
);
885 pout
->a
= pp
->a
/ norm
;
886 pout
->b
= pp
->b
/ norm
;
887 pout
->c
= pp
->c
/ norm
;
888 pout
->d
= pp
->d
/ norm
;
900 D3DXPLANE
* WINAPI
D3DXPlaneTransform(D3DXPLANE
*pout
, CONST D3DXPLANE
*pplane
, CONST D3DXMATRIX
*pm
)
902 CONST D3DXPLANE plane
= *pplane
;
903 pout
->a
= pm
->u
.m
[0][0] * plane
.a
+ pm
->u
.m
[1][0] * plane
.b
+ pm
->u
.m
[2][0] * plane
.c
+ pm
->u
.m
[3][0] * plane
.d
;
904 pout
->b
= pm
->u
.m
[0][1] * plane
.a
+ pm
->u
.m
[1][1] * plane
.b
+ pm
->u
.m
[2][1] * plane
.c
+ pm
->u
.m
[3][1] * plane
.d
;
905 pout
->c
= pm
->u
.m
[0][2] * plane
.a
+ pm
->u
.m
[1][2] * plane
.b
+ pm
->u
.m
[2][2] * plane
.c
+ pm
->u
.m
[3][2] * plane
.d
;
906 pout
->d
= pm
->u
.m
[0][3] * plane
.a
+ pm
->u
.m
[1][3] * plane
.b
+ pm
->u
.m
[2][3] * plane
.c
+ pm
->u
.m
[3][3] * plane
.d
;
910 /*_________________D3DXQUATERNION________________*/
912 D3DXQUATERNION
* WINAPI
D3DXQuaternionBaryCentric(D3DXQUATERNION
*pout
, CONST D3DXQUATERNION
*pq1
, CONST D3DXQUATERNION
*pq2
, CONST D3DXQUATERNION
*pq3
, FLOAT f
, FLOAT g
)
914 D3DXQUATERNION temp1
, temp2
;
915 D3DXQuaternionSlerp(pout
, D3DXQuaternionSlerp(&temp1
, pq1
, pq2
, f
+ g
), D3DXQuaternionSlerp(&temp2
, pq1
, pq3
, f
+g
), g
/ (f
+ g
));
919 D3DXQUATERNION
* WINAPI
D3DXQuaternionExp(D3DXQUATERNION
*pout
, CONST D3DXQUATERNION
*pq
)
923 norm
= sqrt(pq
->x
* pq
->x
+ pq
->y
* pq
->y
+ pq
->z
* pq
->z
);
926 pout
->x
= sin(norm
) * pq
->x
/ norm
;
927 pout
->y
= sin(norm
) * pq
->y
/ norm
;
928 pout
->z
= sin(norm
) * pq
->z
/ norm
;
941 D3DXQUATERNION
* WINAPI
D3DXQuaternionInverse(D3DXQUATERNION
*pout
, CONST D3DXQUATERNION
*pq
)
951 norm
= D3DXQuaternionLengthSq(pq
);
961 D3DXQuaternionConjugate(&temp
, pq
);
962 pout
->x
= temp
.x
/ norm
;
963 pout
->y
= temp
.y
/ norm
;
964 pout
->z
= temp
.z
/ norm
;
965 pout
->w
= temp
.w
/ norm
;
970 D3DXQUATERNION
* WINAPI
D3DXQuaternionLn(D3DXQUATERNION
*pout
, CONST D3DXQUATERNION
*pq
)
972 FLOAT norm
, normvec
, theta
;
974 norm
= D3DXQuaternionLengthSq(pq
);
975 if ( norm
> 1.0001f
)
982 else if( norm
> 0.99999f
)
984 normvec
= sqrt( pq
->x
* pq
->x
+ pq
->y
* pq
->y
+ pq
->z
* pq
->z
);
985 theta
= atan2(normvec
, pq
->w
) / normvec
;
986 pout
->x
= theta
* pq
->x
;
987 pout
->y
= theta
* pq
->y
;
988 pout
->z
= theta
* pq
->z
;
993 FIXME("The quaternion (%f, %f, %f, %f) has a norm <1. This should not happen. Windows returns a result anyway. This case is not implemented yet.\n", pq
->x
, pq
->y
, pq
->z
, pq
->w
);
998 D3DXQUATERNION
* WINAPI
D3DXQuaternionMultiply(D3DXQUATERNION
*pout
, CONST D3DXQUATERNION
*pq1
, CONST D3DXQUATERNION
*pq2
)
1001 out
.x
= pq2
->w
* pq1
->x
+ pq2
->x
* pq1
->w
+ pq2
->y
* pq1
->z
- pq2
->z
* pq1
->y
;
1002 out
.y
= pq2
->w
* pq1
->y
- pq2
->x
* pq1
->z
+ pq2
->y
* pq1
->w
+ pq2
->z
* pq1
->x
;
1003 out
.z
= pq2
->w
* pq1
->z
+ pq2
->x
* pq1
->y
- pq2
->y
* pq1
->x
+ pq2
->z
* pq1
->w
;
1004 out
.w
= pq2
->w
* pq1
->w
- pq2
->x
* pq1
->x
- pq2
->y
* pq1
->y
- pq2
->z
* pq1
->z
;
1009 D3DXQUATERNION
* WINAPI
D3DXQuaternionNormalize(D3DXQUATERNION
*pout
, CONST D3DXQUATERNION
*pq
)
1013 norm
= D3DXQuaternionLength(pq
);
1023 pout
->x
= pq
->x
/ norm
;
1024 pout
->y
= pq
->y
/ norm
;
1025 pout
->z
= pq
->z
/ norm
;
1026 pout
->w
= pq
->w
/ norm
;
1031 D3DXQUATERNION
* WINAPI
D3DXQuaternionRotationAxis(D3DXQUATERNION
*pout
, CONST D3DXVECTOR3
*pv
, FLOAT angle
)
1035 D3DXVec3Normalize(&temp
, pv
);
1036 pout
->x
= sin( angle
/ 2.0f
) * temp
.x
;
1037 pout
->y
= sin( angle
/ 2.0f
) * temp
.y
;
1038 pout
->z
= sin( angle
/ 2.0f
) * temp
.z
;
1039 pout
->w
= cos( angle
/ 2.0f
);
1043 D3DXQUATERNION
* WINAPI
D3DXQuaternionRotationMatrix(D3DXQUATERNION
*pout
, CONST D3DXMATRIX
*pm
)
1046 FLOAT maxdiag
, S
, trace
;
1048 trace
= pm
->u
.m
[0][0] + pm
->u
.m
[1][1] + pm
->u
.m
[2][2] + 1.0f
;
1051 pout
->x
= ( pm
->u
.m
[1][2] - pm
->u
.m
[2][1] ) / ( 2.0f
* sqrt(trace
) );
1052 pout
->y
= ( pm
->u
.m
[2][0] - pm
->u
.m
[0][2] ) / ( 2.0f
* sqrt(trace
) );
1053 pout
->z
= ( pm
->u
.m
[0][1] - pm
->u
.m
[1][0] ) / ( 2.0f
* sqrt(trace
) );
1054 pout
->w
= sqrt(trace
) / 2.0f
;
1058 maxdiag
= pm
->u
.m
[0][0];
1061 if ( pm
->u
.m
[i
][i
] > maxdiag
)
1064 maxdiag
= pm
->u
.m
[i
][i
];
1070 S
= 2.0f
* sqrt(1.0f
+ pm
->u
.m
[0][0] - pm
->u
.m
[1][1] - pm
->u
.m
[2][2]);
1071 pout
->x
= 0.25f
* S
;
1072 pout
->y
= ( pm
->u
.m
[0][1] + pm
->u
.m
[1][0] ) / S
;
1073 pout
->z
= ( pm
->u
.m
[0][2] + pm
->u
.m
[2][0] ) / S
;
1074 pout
->w
= ( pm
->u
.m
[1][2] - pm
->u
.m
[2][1] ) / S
;
1077 S
= 2.0f
* sqrt(1.0f
+ pm
->u
.m
[1][1] - pm
->u
.m
[0][0] - pm
->u
.m
[2][2]);
1078 pout
->x
= ( pm
->u
.m
[0][1] + pm
->u
.m
[1][0] ) / S
;
1079 pout
->y
= 0.25f
* S
;
1080 pout
->z
= ( pm
->u
.m
[1][2] + pm
->u
.m
[2][1] ) / S
;
1081 pout
->w
= ( pm
->u
.m
[2][0] - pm
->u
.m
[0][2] ) / S
;
1084 S
= 2.0f
* sqrt(1.0f
+ pm
->u
.m
[2][2] - pm
->u
.m
[0][0] - pm
->u
.m
[1][1]);
1085 pout
->x
= ( pm
->u
.m
[0][2] + pm
->u
.m
[2][0] ) / S
;
1086 pout
->y
= ( pm
->u
.m
[1][2] + pm
->u
.m
[2][1] ) / S
;
1087 pout
->z
= 0.25f
* S
;
1088 pout
->w
= ( pm
->u
.m
[0][1] - pm
->u
.m
[1][0] ) / S
;
1094 D3DXQUATERNION
* WINAPI
D3DXQuaternionRotationYawPitchRoll(D3DXQUATERNION
*pout
, FLOAT yaw
, FLOAT pitch
, FLOAT roll
)
1096 pout
->x
= sin( yaw
/ 2.0f
) * cos(pitch
/ 2.0f
) * sin(roll
/ 2.0f
) + cos(yaw
/ 2.0f
) * sin(pitch
/ 2.0f
) * cos(roll
/ 2.0f
);
1097 pout
->y
= sin( yaw
/ 2.0f
) * cos(pitch
/ 2.0f
) * cos(roll
/ 2.0f
) - cos(yaw
/ 2.0f
) * sin(pitch
/ 2.0f
) * sin(roll
/ 2.0f
);
1098 pout
->z
= cos(yaw
/ 2.0f
) * cos(pitch
/ 2.0f
) * sin(roll
/ 2.0f
) - sin( yaw
/ 2.0f
) * sin(pitch
/ 2.0f
) * cos(roll
/ 2.0f
);
1099 pout
->w
= cos( yaw
/ 2.0f
) * cos(pitch
/ 2.0f
) * cos(roll
/ 2.0f
) + sin(yaw
/ 2.0f
) * sin(pitch
/ 2.0f
) * sin(roll
/ 2.0f
);
1103 D3DXQUATERNION
* WINAPI
D3DXQuaternionSlerp(D3DXQUATERNION
*pout
, CONST D3DXQUATERNION
*pq1
, CONST D3DXQUATERNION
*pq2
, FLOAT t
)
1108 dot
= D3DXQuaternionDot(pq1
, pq2
);
1109 if ( dot
< 0.0f
) epsilon
= -1.0f
;
1110 pout
->x
= (1.0f
- t
) * pq1
->x
+ epsilon
* t
* pq2
->x
;
1111 pout
->y
= (1.0f
- t
) * pq1
->y
+ epsilon
* t
* pq2
->y
;
1112 pout
->z
= (1.0f
- t
) * pq1
->z
+ epsilon
* t
* pq2
->z
;
1113 pout
->w
= (1.0f
- t
) * pq1
->w
+ epsilon
* t
* pq2
->w
;
1117 D3DXQUATERNION
* WINAPI
D3DXQuaternionSquad(D3DXQUATERNION
*pout
, CONST D3DXQUATERNION
*pq1
, CONST D3DXQUATERNION
*pq2
, CONST D3DXQUATERNION
*pq3
, CONST D3DXQUATERNION
*pq4
, FLOAT t
)
1119 D3DXQUATERNION temp1
, temp2
;
1121 D3DXQuaternionSlerp(pout
, D3DXQuaternionSlerp(&temp1
, pq1
, pq4
, t
), D3DXQuaternionSlerp(&temp2
, pq2
, pq3
, t
), 2.0f
* t
* (1.0f
- t
));
1125 void WINAPI
D3DXQuaternionToAxisAngle(CONST D3DXQUATERNION
*pq
, D3DXVECTOR3
*paxis
, FLOAT
*pangle
)
1130 norm
= D3DXQuaternionLength(pq
);
1133 paxis
->x
= pq
->x
/ norm
;
1134 paxis
->y
= pq
->y
/ norm
;
1135 paxis
->z
= pq
->z
/ norm
;
1136 if ( fabs( pq
->w
) <= 1.0f
) *pangle
= 2.0f
* acos(pq
->w
);
1146 /*_________________D3DXVec2_____________________*/
1148 D3DXVECTOR2
* WINAPI
D3DXVec2BaryCentric(D3DXVECTOR2
*pout
, CONST D3DXVECTOR2
*pv1
, CONST D3DXVECTOR2
*pv2
, CONST D3DXVECTOR2
*pv3
, FLOAT f
, FLOAT g
)
1150 pout
->x
= (1.0f
-f
-g
) * (pv1
->x
) + f
* (pv2
->x
) + g
* (pv3
->x
);
1151 pout
->y
= (1.0f
-f
-g
) * (pv1
->y
) + f
* (pv2
->y
) + g
* (pv3
->y
);
1155 D3DXVECTOR2
* WINAPI
D3DXVec2CatmullRom(D3DXVECTOR2
*pout
, CONST D3DXVECTOR2
*pv0
, CONST D3DXVECTOR2
*pv1
, CONST D3DXVECTOR2
*pv2
, CONST D3DXVECTOR2
*pv3
, FLOAT s
)
1157 pout
->x
= 0.5f
* (2.0f
* pv1
->x
+ (pv2
->x
- pv0
->x
) *s
+ (2.0f
*pv0
->x
- 5.0f
* pv1
->x
+ 4.0f
* pv2
->x
- pv3
->x
) * s
* s
+ (pv3
->x
-3.0f
* pv2
->x
+ 3.0f
* pv1
->x
- pv0
->x
) * s
* s
* s
);
1158 pout
->y
= 0.5f
* (2.0f
* pv1
->y
+ (pv2
->y
- pv0
->y
) *s
+ (2.0f
*pv0
->y
- 5.0f
* pv1
->y
+ 4.0f
* pv2
->y
- pv3
->y
) * s
* s
+ (pv3
->y
-3.0f
* pv2
->y
+ 3.0f
* pv1
->y
- pv0
->y
) * s
* s
* s
);
1162 D3DXVECTOR2
* WINAPI
D3DXVec2Hermite(D3DXVECTOR2
*pout
, CONST D3DXVECTOR2
*pv1
, CONST D3DXVECTOR2
*pt1
, CONST D3DXVECTOR2
*pv2
, CONST D3DXVECTOR2
*pt2
, FLOAT s
)
1164 FLOAT h1
, h2
, h3
, h4
;
1166 h1
= 2.0f
* s
* s
* s
- 3.0f
* s
* s
+ 1.0f
;
1167 h2
= s
* s
* s
- 2.0f
* s
* s
+ s
;
1168 h3
= -2.0f
* s
* s
* s
+ 3.0f
* s
* s
;
1169 h4
= s
* s
* s
- s
* s
;
1171 pout
->x
= h1
* (pv1
->x
) + h2
* (pt1
->x
) + h3
* (pv2
->x
) + h4
* (pt2
->x
);
1172 pout
->y
= h1
* (pv1
->y
) + h2
* (pt1
->y
) + h3
* (pv2
->y
) + h4
* (pt2
->y
);
1176 D3DXVECTOR2
* WINAPI
D3DXVec2Normalize(D3DXVECTOR2
*pout
, CONST D3DXVECTOR2
*pv
)
1180 norm
= D3DXVec2Length(pv
);
1188 pout
->x
= pv
->x
/ norm
;
1189 pout
->y
= pv
->y
/ norm
;
1194 D3DXVECTOR4
* WINAPI
D3DXVec2Transform(D3DXVECTOR4
*pout
, CONST D3DXVECTOR2
*pv
, CONST D3DXMATRIX
*pm
)
1196 pout
->x
= pm
->u
.m
[0][0] * pv
->x
+ pm
->u
.m
[1][0] * pv
->y
+ pm
->u
.m
[3][0];
1197 pout
->y
= pm
->u
.m
[0][1] * pv
->x
+ pm
->u
.m
[1][1] * pv
->y
+ pm
->u
.m
[3][1];
1198 pout
->z
= pm
->u
.m
[0][2] * pv
->x
+ pm
->u
.m
[1][2] * pv
->y
+ pm
->u
.m
[3][2];
1199 pout
->w
= pm
->u
.m
[0][3] * pv
->x
+ pm
->u
.m
[1][3] * pv
->y
+ pm
->u
.m
[3][3];
1203 D3DXVECTOR2
* WINAPI
D3DXVec2TransformCoord(D3DXVECTOR2
*pout
, CONST D3DXVECTOR2
*pv
, CONST D3DXMATRIX
*pm
)
1207 norm
= pm
->u
.m
[0][3] * pv
->x
+ pm
->u
.m
[1][3] * pv
->y
+ pm
->u
.m
[3][3];
1210 CONST D3DXVECTOR2 v
= *pv
;
1211 pout
->x
= (pm
->u
.m
[0][0] * v
.x
+ pm
->u
.m
[1][0] * v
.y
+ pm
->u
.m
[3][0]) / norm
;
1212 pout
->y
= (pm
->u
.m
[0][1] * v
.x
+ pm
->u
.m
[1][1] * v
.y
+ pm
->u
.m
[3][1]) / norm
;
1222 D3DXVECTOR2
* WINAPI
D3DXVec2TransformNormal(D3DXVECTOR2
*pout
, CONST D3DXVECTOR2
*pv
, CONST D3DXMATRIX
*pm
)
1224 CONST D3DXVECTOR2 v
= *pv
;
1225 pout
->x
= pm
->u
.m
[0][0] * v
.x
+ pm
->u
.m
[1][0] * v
.y
;
1226 pout
->y
= pm
->u
.m
[0][1] * v
.x
+ pm
->u
.m
[1][1] * v
.y
;
1230 /*_________________D3DXVec3_____________________*/
1232 D3DXVECTOR3
* WINAPI
D3DXVec3BaryCentric(D3DXVECTOR3
*pout
, CONST D3DXVECTOR3
*pv1
, CONST D3DXVECTOR3
*pv2
, CONST D3DXVECTOR3
*pv3
, FLOAT f
, FLOAT g
)
1234 pout
->x
= (1.0f
-f
-g
) * (pv1
->x
) + f
* (pv2
->x
) + g
* (pv3
->x
);
1235 pout
->y
= (1.0f
-f
-g
) * (pv1
->y
) + f
* (pv2
->y
) + g
* (pv3
->y
);
1236 pout
->z
= (1.0f
-f
-g
) * (pv1
->z
) + f
* (pv2
->z
) + g
* (pv3
->z
);
1240 D3DXVECTOR3
* WINAPI
D3DXVec3CatmullRom( D3DXVECTOR3
*pout
, CONST D3DXVECTOR3
*pv0
, CONST D3DXVECTOR3
*pv1
, CONST D3DXVECTOR3
*pv2
, CONST D3DXVECTOR3
*pv3
, FLOAT s
)
1242 pout
->x
= 0.5f
* (2.0f
* pv1
->x
+ (pv2
->x
- pv0
->x
) *s
+ (2.0f
*pv0
->x
- 5.0f
* pv1
->x
+ 4.0f
* pv2
->x
- pv3
->x
) * s
* s
+ (pv3
->x
-3.0f
* pv2
->x
+ 3.0f
* pv1
->x
- pv0
->x
) * s
* s
* s
);
1243 pout
->y
= 0.5f
* (2.0f
* pv1
->y
+ (pv2
->y
- pv0
->y
) *s
+ (2.0f
*pv0
->y
- 5.0f
* pv1
->y
+ 4.0f
* pv2
->y
- pv3
->y
) * s
* s
+ (pv3
->y
-3.0f
* pv2
->y
+ 3.0f
* pv1
->y
- pv0
->y
) * s
* s
* s
);
1244 pout
->z
= 0.5f
* (2.0f
* pv1
->z
+ (pv2
->z
- pv0
->z
) *s
+ (2.0f
*pv0
->z
- 5.0f
* pv1
->z
+ 4.0f
* pv2
->z
- pv3
->z
) * s
* s
+ (pv3
->z
-3.0f
* pv2
->z
+ 3.0f
* pv1
->z
- pv0
->z
) * s
* s
* s
);
1248 D3DXVECTOR3
* WINAPI
D3DXVec3Hermite(D3DXVECTOR3
*pout
, CONST D3DXVECTOR3
*pv1
, CONST D3DXVECTOR3
*pt1
, CONST D3DXVECTOR3
*pv2
, CONST D3DXVECTOR3
*pt2
, FLOAT s
)
1250 FLOAT h1
, h2
, h3
, h4
;
1252 h1
= 2.0f
* s
* s
* s
- 3.0f
* s
* s
+ 1.0f
;
1253 h2
= s
* s
* s
- 2.0f
* s
* s
+ s
;
1254 h3
= -2.0f
* s
* s
* s
+ 3.0f
* s
* s
;
1255 h4
= s
* s
* s
- s
* s
;
1257 pout
->x
= h1
* (pv1
->x
) + h2
* (pt1
->x
) + h3
* (pv2
->x
) + h4
* (pt2
->x
);
1258 pout
->y
= h1
* (pv1
->y
) + h2
* (pt1
->y
) + h3
* (pv2
->y
) + h4
* (pt2
->y
);
1259 pout
->z
= h1
* (pv1
->z
) + h2
* (pt1
->z
) + h3
* (pv2
->z
) + h4
* (pt2
->z
);
1263 D3DXVECTOR3
* WINAPI
D3DXVec3Normalize(D3DXVECTOR3
*pout
, CONST D3DXVECTOR3
*pv
)
1267 norm
= D3DXVec3Length(pv
);
1276 pout
->x
= pv
->x
/ norm
;
1277 pout
->y
= pv
->y
/ norm
;
1278 pout
->z
= pv
->z
/ norm
;
1283 D3DXVECTOR3
* WINAPI
D3DXVec3Project(D3DXVECTOR3
*pout
, CONST D3DXVECTOR3
*pv
, CONST D3DVIEWPORT8
*pviewport
, CONST D3DXMATRIX
*pprojection
, CONST D3DXMATRIX
*pview
, CONST D3DXMATRIX
*pworld
)
1288 D3DXMatrixMultiply(&m1
, pworld
, pview
);
1289 D3DXMatrixMultiply(&m2
, &m1
, pprojection
);
1290 D3DXVec3TransformCoord(&vec
, pv
, &m2
);
1291 pout
->x
= pviewport
->X
+ ( 1.0f
+ vec
.x
) * pviewport
->Width
/ 2.0f
;
1292 pout
->y
= pviewport
->Y
+ ( 1.0f
- vec
.y
) * pviewport
->Height
/ 2.0f
;
1293 pout
->z
= pviewport
->MinZ
+ vec
.z
* ( pviewport
->MaxZ
- pviewport
->MinZ
);
1297 D3DXVECTOR4
* WINAPI
D3DXVec3Transform(D3DXVECTOR4
*pout
, CONST D3DXVECTOR3
*pv
, CONST D3DXMATRIX
*pm
)
1299 pout
->x
= pm
->u
.m
[0][0] * pv
->x
+ pm
->u
.m
[1][0] * pv
->y
+ pm
->u
.m
[2][0] * pv
->z
+ pm
->u
.m
[3][0];
1300 pout
->y
= pm
->u
.m
[0][1] * pv
->x
+ pm
->u
.m
[1][1] * pv
->y
+ pm
->u
.m
[2][1] * pv
->z
+ pm
->u
.m
[3][1];
1301 pout
->z
= pm
->u
.m
[0][2] * pv
->x
+ pm
->u
.m
[1][2] * pv
->y
+ pm
->u
.m
[2][2] * pv
->z
+ pm
->u
.m
[3][2];
1302 pout
->w
= pm
->u
.m
[0][3] * pv
->x
+ pm
->u
.m
[1][3] * pv
->y
+ pm
->u
.m
[2][3] * pv
->z
+ pm
->u
.m
[3][3];
1306 D3DXVECTOR3
* WINAPI
D3DXVec3TransformCoord(D3DXVECTOR3
*pout
, CONST D3DXVECTOR3
*pv
, CONST D3DXMATRIX
*pm
)
1310 norm
= pm
->u
.m
[0][3] * pv
->x
+ pm
->u
.m
[1][3] * pv
->y
+ pm
->u
.m
[2][3] *pv
->z
+ pm
->u
.m
[3][3];
1314 CONST D3DXVECTOR3 v
= *pv
;
1315 pout
->x
= (pm
->u
.m
[0][0] * v
.x
+ pm
->u
.m
[1][0] * v
.y
+ pm
->u
.m
[2][0] * v
.z
+ pm
->u
.m
[3][0]) / norm
;
1316 pout
->y
= (pm
->u
.m
[0][1] * v
.x
+ pm
->u
.m
[1][1] * v
.y
+ pm
->u
.m
[2][1] * v
.z
+ pm
->u
.m
[3][1]) / norm
;
1317 pout
->z
= (pm
->u
.m
[0][2] * v
.x
+ pm
->u
.m
[1][2] * v
.y
+ pm
->u
.m
[2][2] * v
.z
+ pm
->u
.m
[3][2]) / norm
;
1328 D3DXVECTOR3
* WINAPI
D3DXVec3TransformNormal(D3DXVECTOR3
*pout
, CONST D3DXVECTOR3
*pv
, CONST D3DXMATRIX
*pm
)
1330 CONST D3DXVECTOR3 v
= *pv
;
1331 pout
->x
= pm
->u
.m
[0][0] * v
.x
+ pm
->u
.m
[1][0] * v
.y
+ pm
->u
.m
[2][0] * v
.z
;
1332 pout
->y
= pm
->u
.m
[0][1] * v
.x
+ pm
->u
.m
[1][1] * v
.y
+ pm
->u
.m
[2][1] * v
.z
;
1333 pout
->z
= pm
->u
.m
[0][2] * v
.x
+ pm
->u
.m
[1][2] * v
.y
+ pm
->u
.m
[2][2] * v
.z
;
1338 D3DXVECTOR3
* WINAPI
D3DXVec3Unproject(D3DXVECTOR3
*pout
, CONST D3DXVECTOR3
*pv
, CONST D3DVIEWPORT8
*pviewport
, CONST D3DXMATRIX
*pprojection
, CONST D3DXMATRIX
*pview
, CONST D3DXMATRIX
*pworld
)
1340 D3DXMATRIX m1
, m2
, m3
;
1343 D3DXMatrixMultiply(&m1
, pworld
, pview
);
1344 D3DXMatrixMultiply(&m2
, &m1
, pprojection
);
1345 D3DXMatrixInverse(&m3
, NULL
, &m2
);
1346 vec
.x
= 2.0f
* ( pv
->x
- pviewport
->X
) / pviewport
->Width
- 1.0f
;
1347 vec
.y
= 1.0f
- 2.0f
* ( pv
->y
- pviewport
->Y
) / pviewport
->Height
;
1348 vec
.z
= ( pv
->z
- pviewport
->MinZ
) / ( pviewport
->MaxZ
- pviewport
->MinZ
);
1349 D3DXVec3TransformCoord(pout
, &vec
, &m3
);
1353 /*_________________D3DXVec4_____________________*/
1355 D3DXVECTOR4
* WINAPI
D3DXVec4BaryCentric(D3DXVECTOR4
*pout
, CONST D3DXVECTOR4
*pv1
, CONST D3DXVECTOR4
*pv2
, CONST D3DXVECTOR4
*pv3
, FLOAT f
, FLOAT g
)
1357 pout
->x
= (1.0f
-f
-g
) * (pv1
->x
) + f
* (pv2
->x
) + g
* (pv3
->x
);
1358 pout
->y
= (1.0f
-f
-g
) * (pv1
->y
) + f
* (pv2
->y
) + g
* (pv3
->y
);
1359 pout
->z
= (1.0f
-f
-g
) * (pv1
->z
) + f
* (pv2
->z
) + g
* (pv3
->z
);
1360 pout
->w
= (1.0f
-f
-g
) * (pv1
->w
) + f
* (pv2
->w
) + g
* (pv3
->w
);
1364 D3DXVECTOR4
* WINAPI
D3DXVec4CatmullRom(D3DXVECTOR4
*pout
, CONST D3DXVECTOR4
*pv0
, CONST D3DXVECTOR4
*pv1
, CONST D3DXVECTOR4
*pv2
, CONST D3DXVECTOR4
*pv3
, FLOAT s
)
1366 pout
->x
= 0.5f
* (2.0f
* pv1
->x
+ (pv2
->x
- pv0
->x
) *s
+ (2.0f
*pv0
->x
- 5.0f
* pv1
->x
+ 4.0f
* pv2
->x
- pv3
->x
) * s
* s
+ (pv3
->x
-3.0f
* pv2
->x
+ 3.0f
* pv1
->x
- pv0
->x
) * s
* s
* s
);
1367 pout
->y
= 0.5f
* (2.0f
* pv1
->y
+ (pv2
->y
- pv0
->y
) *s
+ (2.0f
*pv0
->y
- 5.0f
* pv1
->y
+ 4.0f
* pv2
->y
- pv3
->y
) * s
* s
+ (pv3
->y
-3.0f
* pv2
->y
+ 3.0f
* pv1
->y
- pv0
->y
) * s
* s
* s
);
1368 pout
->z
= 0.5f
* (2.0f
* pv1
->z
+ (pv2
->z
- pv0
->z
) *s
+ (2.0f
*pv0
->z
- 5.0f
* pv1
->z
+ 4.0f
* pv2
->z
- pv3
->z
) * s
* s
+ (pv3
->z
-3.0f
* pv2
->z
+ 3.0f
* pv1
->z
- pv0
->z
) * s
* s
* s
);
1369 pout
->w
= 0.5f
* (2.0f
* pv1
->w
+ (pv2
->w
- pv0
->w
) *s
+ (2.0f
*pv0
->w
- 5.0f
* pv1
->w
+ 4.0f
* pv2
->w
- pv3
->w
) * s
* s
+ (pv3
->w
-3.0f
* pv2
->w
+ 3.0f
* pv1
->w
- pv0
->w
) * s
* s
* s
);
1373 D3DXVECTOR4
* WINAPI
D3DXVec4Cross(D3DXVECTOR4
*pout
, CONST D3DXVECTOR4
*pv1
, CONST D3DXVECTOR4
*pv2
, CONST D3DXVECTOR4
*pv3
)
1376 out
.x
= pv1
->y
* (pv2
->z
* pv3
->w
- pv3
->z
* pv2
->w
) - pv1
->z
* (pv2
->y
* pv3
->w
- pv3
->y
* pv2
->w
) + pv1
->w
* (pv2
->y
* pv3
->z
- pv2
->z
*pv3
->y
);
1377 out
.y
= -(pv1
->x
* (pv2
->z
* pv3
->w
- pv3
->z
* pv2
->w
) - pv1
->z
* (pv2
->x
* pv3
->w
- pv3
->x
* pv2
->w
) + pv1
->w
* (pv2
->x
* pv3
->z
- pv3
->x
* pv2
->z
));
1378 out
.z
= pv1
->x
* (pv2
->y
* pv3
->w
- pv3
->y
* pv2
->w
) - pv1
->y
* (pv2
->x
*pv3
->w
- pv3
->x
* pv2
->w
) + pv1
->w
* (pv2
->x
* pv3
->y
- pv3
->x
* pv2
->y
);
1379 out
.w
= -(pv1
->x
* (pv2
->y
* pv3
->z
- pv3
->y
* pv2
->z
) - pv1
->y
* (pv2
->x
* pv3
->z
- pv3
->x
*pv2
->z
) + pv1
->z
* (pv2
->x
* pv3
->y
- pv3
->x
* pv2
->y
));
1384 D3DXVECTOR4
* WINAPI
D3DXVec4Hermite(D3DXVECTOR4
*pout
, CONST D3DXVECTOR4
*pv1
, CONST D3DXVECTOR4
*pt1
, CONST D3DXVECTOR4
*pv2
, CONST D3DXVECTOR4
*pt2
, FLOAT s
)
1386 FLOAT h1
, h2
, h3
, h4
;
1388 h1
= 2.0f
* s
* s
* s
- 3.0f
* s
* s
+ 1.0f
;
1389 h2
= s
* s
* s
- 2.0f
* s
* s
+ s
;
1390 h3
= -2.0f
* s
* s
* s
+ 3.0f
* s
* s
;
1391 h4
= s
* s
* s
- s
* s
;
1393 pout
->x
= h1
* (pv1
->x
) + h2
* (pt1
->x
) + h3
* (pv2
->x
) + h4
* (pt2
->x
);
1394 pout
->y
= h1
* (pv1
->y
) + h2
* (pt1
->y
) + h3
* (pv2
->y
) + h4
* (pt2
->y
);
1395 pout
->z
= h1
* (pv1
->z
) + h2
* (pt1
->z
) + h3
* (pv2
->z
) + h4
* (pt2
->z
);
1396 pout
->w
= h1
* (pv1
->w
) + h2
* (pt1
->w
) + h3
* (pv2
->w
) + h4
* (pt2
->w
);
1400 D3DXVECTOR4
* WINAPI
D3DXVec4Normalize(D3DXVECTOR4
*pout
, CONST D3DXVECTOR4
*pv
)
1404 norm
= D3DXVec4Length(pv
);
1414 pout
->x
= pv
->x
/ norm
;
1415 pout
->y
= pv
->y
/ norm
;
1416 pout
->z
= pv
->z
/ norm
;
1417 pout
->w
= pv
->w
/ norm
;
1422 D3DXVECTOR4
* WINAPI
D3DXVec4Transform(D3DXVECTOR4
*pout
, CONST D3DXVECTOR4
*pv
, CONST D3DXMATRIX
*pm
)
1425 out
.x
= pm
->u
.m
[0][0] * pv
->x
+ pm
->u
.m
[1][0] * pv
->y
+ pm
->u
.m
[2][0] * pv
->z
+ pm
->u
.m
[3][0] * pv
->w
;
1426 out
.y
= pm
->u
.m
[0][1] * pv
->x
+ pm
->u
.m
[1][1] * pv
->y
+ pm
->u
.m
[2][1] * pv
->z
+ pm
->u
.m
[3][1] * pv
->w
;
1427 out
.z
= pm
->u
.m
[0][2] * pv
->x
+ pm
->u
.m
[1][2] * pv
->y
+ pm
->u
.m
[2][2] * pv
->z
+ pm
->u
.m
[3][2] * pv
->w
;
1428 out
.w
= pm
->u
.m
[0][3] * pv
->x
+ pm
->u
.m
[1][3] * pv
->y
+ pm
->u
.m
[2][3] * pv
->z
+ pm
->u
.m
[3][3] * pv
->w
;