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FFmpeg/postproc/rgb2rgb.c

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  1. /*

  2.  *

  3.  *  rgb2rgb.c, Software RGB to RGB convertor

  4.  *  pluralize by Software PAL8 to RGB convertor

  5.  *               Software YUV to YUV convertor

  6.  *               Software YUV to RGB convertor

  7.  *  Written by Nick Kurshev.

  8.  *  palette & yuv & runtime cpu stuff by Michael (michaelni@gmx.at) (under GPL)

  9.  */

  10. #include <inttypes.h>

  11. #include "../config.h"

  12. #include "rgb2rgb.h"

  13. #include "../cpudetect.h"

  14. #include "../mangle.h"

  15. #include "../bswap.h"

  16. #include "../libvo/fastmemcpy.h"

  17. 

  18. #ifdef ARCH_X86

  19. #define CAN_COMPILE_X86_ASM

  20. #endif

  21. 

  22. #define FAST_BGR2YV12 // use 7 bit coeffs instead of 15bit

  23. 

  24. #ifdef CAN_COMPILE_X86_ASM

  25. static const uint64_t mmx_null  __attribute__((aligned(8))) = 0x0000000000000000ULL;

  26. static const uint64_t mmx_one   __attribute__((aligned(8))) = 0xFFFFFFFFFFFFFFFFULL;

  27. static const uint64_t mask32b  __attribute__((aligned(8))) = 0x000000FF000000FFULL;

  28. static const uint64_t mask32g  __attribute__((aligned(8))) = 0x0000FF000000FF00ULL;

  29. static const uint64_t mask32r  __attribute__((aligned(8))) = 0x00FF000000FF0000ULL;

  30. static const uint64_t mask32   __attribute__((aligned(8))) = 0x00FFFFFF00FFFFFFULL;

  31. static const uint64_t mask24b  __attribute__((aligned(8))) = 0x00FF0000FF0000FFULL;

  32. static const uint64_t mask24g  __attribute__((aligned(8))) = 0xFF0000FF0000FF00ULL;

  33. static const uint64_t mask24r  __attribute__((aligned(8))) = 0x0000FF0000FF0000ULL;

  34. static const uint64_t mask24l  __attribute__((aligned(8))) = 0x0000000000FFFFFFULL;

  35. static const uint64_t mask24h  __attribute__((aligned(8))) = 0x0000FFFFFF000000ULL;

  36. static const uint64_t mask24hh  __attribute__((aligned(8))) = 0xffff000000000000ULL;

  37. static const uint64_t mask24hhh  __attribute__((aligned(8))) = 0xffffffff00000000ULL;

  38. static const uint64_t mask24hhhh  __attribute__((aligned(8))) = 0xffffffffffff0000ULL;

  39. static const uint64_t mask15b  __attribute__((aligned(8))) = 0x001F001F001F001FULL; /* 00000000 00011111  xxB */

  40. static const uint64_t mask15rg __attribute__((aligned(8))) = 0x7FE07FE07FE07FE0ULL; /* 01111111 11100000  RGx */

  41. static const uint64_t mask15s  __attribute__((aligned(8))) = 0xFFE0FFE0FFE0FFE0ULL;

  42. static const uint64_t mask15g  __attribute__((aligned(8))) = 0x03E003E003E003E0ULL;

  43. static const uint64_t mask15r  __attribute__((aligned(8))) = 0x7C007C007C007C00ULL;

  44. #define mask16b mask15b

  45. static const uint64_t mask16g  __attribute__((aligned(8))) = 0x07E007E007E007E0ULL;

  46. static const uint64_t mask16r  __attribute__((aligned(8))) = 0xF800F800F800F800ULL;

  47. static const uint64_t red_16mask  __attribute__((aligned(8))) = 0x0000f8000000f800ULL;

  48. static const uint64_t green_16mask __attribute__((aligned(8)))= 0x000007e0000007e0ULL;

  49. static const uint64_t blue_16mask __attribute__((aligned(8))) = 0x0000001f0000001fULL;

  50. static const uint64_t red_15mask  __attribute__((aligned(8))) = 0x00007c000000f800ULL;

  51. static const uint64_t green_15mask __attribute__((aligned(8)))= 0x000003e0000007e0ULL;

  52. static const uint64_t blue_15mask __attribute__((aligned(8))) = 0x0000001f0000001fULL;

  53. 

  54. #ifdef FAST_BGR2YV12

  55. static const uint64_t bgr2YCoeff  __attribute__((aligned(8))) = 0x000000210041000DULL;

  56. static const uint64_t bgr2UCoeff  __attribute__((aligned(8))) = 0x0000FFEEFFDC0038ULL;

  57. static const uint64_t bgr2VCoeff  __attribute__((aligned(8))) = 0x00000038FFD2FFF8ULL;

  58. #else

  59. static const uint64_t bgr2YCoeff  __attribute__((aligned(8))) = 0x000020E540830C8BULL;

  60. static const uint64_t bgr2UCoeff  __attribute__((aligned(8))) = 0x0000ED0FDAC23831ULL;

  61. static const uint64_t bgr2VCoeff  __attribute__((aligned(8))) = 0x00003831D0E6F6EAULL;

  62. #endif

  63. static const uint64_t bgr2YOffset __attribute__((aligned(8))) = 0x1010101010101010ULL;

  64. static const uint64_t bgr2UVOffset __attribute__((aligned(8)))= 0x8080808080808080ULL;

  65. static const uint64_t w1111       __attribute__((aligned(8))) = 0x0001000100010001ULL;

  66. 

  67. #if 0

  68. static volatile uint64_t __attribute__((aligned(8))) b5Dither;

  69. static volatile uint64_t __attribute__((aligned(8))) g5Dither;

  70. static volatile uint64_t __attribute__((aligned(8))) g6Dither;

  71. static volatile uint64_t __attribute__((aligned(8))) r5Dither;

  72. 

  73. static uint64_t __attribute__((aligned(8))) dither4[2]={

  74. 	0x0103010301030103LL,

  75. 	0x0200020002000200LL,};

  76. 

  77. static uint64_t __attribute__((aligned(8))) dither8[2]={

  78. 	0x0602060206020602LL,

  79. 	0x0004000400040004LL,};

  80. #endif

  81. #endif

  82. 

  83. #define RGB2YUV_SHIFT 8

  84. #define BY ((int)( 0.098*(1<<RGB2YUV_SHIFT)+0.5))

  85. #define BV ((int)(-0.071*(1<<RGB2YUV_SHIFT)+0.5))

  86. #define BU ((int)( 0.439*(1<<RGB2YUV_SHIFT)+0.5))

  87. #define GY ((int)( 0.504*(1<<RGB2YUV_SHIFT)+0.5))

  88. #define GV ((int)(-0.368*(1<<RGB2YUV_SHIFT)+0.5))

  89. #define GU ((int)(-0.291*(1<<RGB2YUV_SHIFT)+0.5))

  90. #define RY ((int)( 0.257*(1<<RGB2YUV_SHIFT)+0.5))

  91. #define RV ((int)( 0.439*(1<<RGB2YUV_SHIFT)+0.5))

  92. #define RU ((int)(-0.148*(1<<RGB2YUV_SHIFT)+0.5))

  93. 

  94. //Note: we have C, MMX, MMX2, 3DNOW version therse no 3DNOW+MMX2 one

  95. //Plain C versions

  96. #undef HAVE_MMX

  97. #undef HAVE_MMX2

  98. #undef HAVE_3DNOW

  99. #undef ARCH_X86

  100. #undef HAVE_SSE2

  101. #define RENAME(a) a ## _C

  102. #include "rgb2rgb_template.c"

  103. 

  104. #ifdef CAN_COMPILE_X86_ASM

  105. 

  106. //MMX versions

  107. #undef RENAME

  108. #define HAVE_MMX

  109. #undef HAVE_MMX2

  110. #undef HAVE_3DNOW

  111. #undef HAVE_SSE2

  112. #define ARCH_X86

  113. #define RENAME(a) a ## _MMX

  114. #include "rgb2rgb_template.c"

  115. 

  116. //MMX2 versions

  117. #undef RENAME

  118. #define HAVE_MMX

  119. #define HAVE_MMX2

  120. #undef HAVE_3DNOW

  121. #undef HAVE_SSE2

  122. #define ARCH_X86

  123. #define RENAME(a) a ## _MMX2

  124. #include "rgb2rgb_template.c"

  125. 

  126. //3DNOW versions

  127. #undef RENAME

  128. #define HAVE_MMX

  129. #undef HAVE_MMX2

  130. #define HAVE_3DNOW

  131. #undef HAVE_SSE2

  132. #define ARCH_X86

  133. #define RENAME(a) a ## _3DNow

  134. #include "rgb2rgb_template.c"

  135. 

  136. #endif //CAN_COMPILE_X86_ASM

  137. 

  138. void rgb24to32(const uint8_t *src,uint8_t *dst,unsigned src_size)

  139. {

  140. #ifdef CAN_COMPILE_X86_ASM

  141. 	// ordered per speed fasterst first

  142. 	if(gCpuCaps.hasMMX2)

  143. 		rgb24to32_MMX2(src, dst, src_size);

  144. 	else if(gCpuCaps.has3DNow)

  145. 		rgb24to32_3DNow(src, dst, src_size);

  146. 	else if(gCpuCaps.hasMMX)

  147. 		rgb24to32_MMX(src, dst, src_size);

  148. 	else

  149. #endif

  150. 		rgb24to32_C(src, dst, src_size);

  151. }

  152. 

  153. void rgb15to24(const uint8_t *src,uint8_t *dst,unsigned src_size)

  154. {

  155. #ifdef CAN_COMPILE_X86_ASM

  156. 	// ordered per speed fasterst first

  157. 	if(gCpuCaps.hasMMX2)

  158. 		rgb15to24_MMX2(src, dst, src_size);

  159. 	else if(gCpuCaps.has3DNow)

  160. 		rgb15to24_3DNow(src, dst, src_size);

  161. 	else if(gCpuCaps.hasMMX)

  162. 		rgb15to24_MMX(src, dst, src_size);

  163. 	else

  164. #endif

  165. 		rgb15to24_C(src, dst, src_size);

  166. }

  167. 

  168. void rgb16to24(const uint8_t *src,uint8_t *dst,unsigned src_size)

  169. {

  170. #ifdef CAN_COMPILE_X86_ASM

  171. 	// ordered per speed fasterst first

  172. 	if(gCpuCaps.hasMMX2)

  173. 		rgb16to24_MMX2(src, dst, src_size);

  174. 	else if(gCpuCaps.has3DNow)

  175. 		rgb16to24_3DNow(src, dst, src_size);

  176. 	else if(gCpuCaps.hasMMX)

  177. 		rgb16to24_MMX(src, dst, src_size);

  178. 	else

  179. #endif

  180. 		rgb16to24_C(src, dst, src_size);

  181. }

  182. 

  183. void rgb15to32(const uint8_t *src,uint8_t *dst,unsigned src_size)

  184. {

  185. #ifdef CAN_COMPILE_X86_ASM

  186. 	// ordered per speed fasterst first

  187. 	if(gCpuCaps.hasMMX2)

  188. 		rgb15to32_MMX2(src, dst, src_size);

  189. 	else if(gCpuCaps.has3DNow)

  190. 		rgb15to32_3DNow(src, dst, src_size);

  191. 	else if(gCpuCaps.hasMMX)

  192. 		rgb15to32_MMX(src, dst, src_size);

  193. 	else

  194. #endif

  195. 		rgb15to32_C(src, dst, src_size);

  196. }

  197. 

  198. void rgb16to32(const uint8_t *src,uint8_t *dst,unsigned src_size)

  199. {

  200. #ifdef CAN_COMPILE_X86_ASM

  201. 	// ordered per speed fasterst first

  202. 	if(gCpuCaps.hasMMX2)

  203. 		rgb16to32_MMX2(src, dst, src_size);

  204. 	else if(gCpuCaps.has3DNow)

  205. 		rgb16to32_3DNow(src, dst, src_size);

  206. 	else if(gCpuCaps.hasMMX)

  207. 		rgb16to32_MMX(src, dst, src_size);

  208. 	else

  209. #endif

  210. 		rgb16to32_C(src, dst, src_size);

  211. }

  212. 

  213. void rgb32to24(const uint8_t *src,uint8_t *dst,unsigned src_size)

  214. {

  215. #ifdef CAN_COMPILE_X86_ASM

  216. 	// ordered per speed fasterst first

  217. 	if(gCpuCaps.hasMMX2)

  218. 		rgb32to24_MMX2(src, dst, src_size);

  219. 	else if(gCpuCaps.has3DNow)

  220. 		rgb32to24_3DNow(src, dst, src_size);

  221. 	else if(gCpuCaps.hasMMX)

  222. 		rgb32to24_MMX(src, dst, src_size);

  223. 	else

  224. #endif

  225. 		rgb32to24_C(src, dst, src_size);

  226. }

  227. 

  228. /*

  229.  Original by Strepto/Astral

  230.  ported to gcc & bugfixed : A'rpi

  231.  MMX2, 3DNOW optimization by Nick Kurshev

  232.  32bit c version, and and&add trick by Michael Niedermayer

  233. */

  234. void rgb15to16(const uint8_t *src,uint8_t *dst,unsigned src_size)

  235. {

  236. #ifdef CAN_COMPILE_X86_ASM

  237. 	// ordered per speed fasterst first

  238. 	if(gCpuCaps.hasMMX2)

  239. 		rgb15to16_MMX2(src, dst, src_size);

  240. 	else if(gCpuCaps.has3DNow)

  241. 		rgb15to16_3DNow(src, dst, src_size);

  242. 	else if(gCpuCaps.hasMMX)

  243. 		rgb15to16_MMX(src, dst, src_size);

  244. 	else

  245. #endif

  246. 		rgb15to16_C(src, dst, src_size);

  247. }

  248. 

  249. void rgb16to15(const uint8_t *src,uint8_t *dst,unsigned src_size)

  250. {

  251. #ifdef CAN_COMPILE_X86_ASM

  252. 	// ordered per speed fasterst first

  253. 	if(gCpuCaps.hasMMX2)

  254. 		rgb16to15_MMX2(src, dst, src_size);

  255. 	else if(gCpuCaps.has3DNow)

  256. 		rgb16to15_3DNow(src, dst, src_size);

  257. 	else if(gCpuCaps.hasMMX)

  258. 		rgb16to15_MMX(src, dst, src_size);

  259. 	else

  260. #endif

  261. 		rgb16to15_C(src, dst, src_size);

  262. }

  263. /**

  264.  * Pallete is assumed to contain bgr32

  265.  */

  266. void palette8torgb32(const uint8_t *src, uint8_t *dst, unsigned num_pixels, const uint8_t *palette)

  267. {

  268. 	unsigned i;

  269. 

  270. /*

  271. 	for(i=0; i<num_pixels; i++)

  272. 		((unsigned *)dst)[i] = ((unsigned *)palette)[ src[i] ];

  273. */

  274. 

  275. 	for(i=0; i<num_pixels; i++)

  276. 	{

  277. 		//FIXME slow?

  278. 		dst[0]= palette[ src[i]*4+2 ];

  279. 		dst[1]= palette[ src[i]*4+1 ];

  280. 		dst[2]= palette[ src[i]*4+0 ];

  281. //		dst[3]= 0; /* do we need this cleansing? */

  282. 		dst+= 4;

  283. 	}

  284. }

  285. 

  286. void palette8tobgr32(const uint8_t *src, uint8_t *dst, unsigned num_pixels, const uint8_t *palette)

  287. {

  288. 	unsigned i;

  289. 	for(i=0; i<num_pixels; i++)

  290. 	{

  291. 		//FIXME slow?

  292. 		dst[0]= palette[ src[i]*4+0 ];

  293. 		dst[1]= palette[ src[i]*4+1 ];

  294. 		dst[2]= palette[ src[i]*4+2 ];

  295. //		dst[3]= 0; /* do we need this cleansing? */

  296. 		dst+= 4;

  297. 	}

  298. }

  299. 

  300. /**

  301.  * Pallete is assumed to contain bgr32

  302.  */

  303. void palette8torgb24(const uint8_t *src, uint8_t *dst, unsigned num_pixels, const uint8_t *palette)

  304. {

  305. 	unsigned i;

  306. /*

  307. 	writes 1 byte o much and might cause alignment issues on some architectures?

  308. 	for(i=0; i<num_pixels; i++)

  309. 		((unsigned *)(&dst[i*3])) = ((unsigned *)palette)[ src[i] ];

  310. */

  311. 	for(i=0; i<num_pixels; i++)

  312. 	{

  313. 		//FIXME slow?

  314. 		dst[0]= palette[ src[i]*4+2 ];

  315. 		dst[1]= palette[ src[i]*4+1 ];

  316. 		dst[2]= palette[ src[i]*4+0 ];

  317. 		dst+= 3;

  318. 	}

  319. }

  320. 

  321. void palette8tobgr24(const uint8_t *src, uint8_t *dst, unsigned num_pixels, const uint8_t *palette)

  322. {

  323. 	unsigned i;

  324. /*

  325. 	writes 1 byte o much and might cause alignment issues on some architectures?

  326. 	for(i=0; i<num_pixels; i++)

  327. 		((unsigned *)(&dst[i*3])) = ((unsigned *)palette)[ src[i] ];

  328. */

  329. 	for(i=0; i<num_pixels; i++)

  330. 	{

  331. 		//FIXME slow?

  332. 		dst[0]= palette[ src[i]*4+0 ];

  333. 		dst[1]= palette[ src[i]*4+1 ];

  334. 		dst[2]= palette[ src[i]*4+2 ];

  335. 		dst+= 3;

  336. 	}

  337. }

  338. 

  339. void bgr24torgb24(const uint8_t *src, uint8_t *dst, unsigned src_size)

  340. {

  341. #ifdef CAN_COMPILE_X86_ASM

  342. 	// ordered per speed fasterst first

  343. 	if(gCpuCaps.hasMMX2)

  344. 		bgr24torgb24_MMX2(src, dst, src_size);

  345. 	else if(gCpuCaps.has3DNow)

  346. 		bgr24torgb24_3DNow(src, dst, src_size);

  347. 	else if(gCpuCaps.hasMMX)

  348. 		bgr24torgb24_MMX(src, dst, src_size);

  349. 	else

  350. 		bgr24torgb24_C(src, dst, src_size);

  351. #else

  352. 		bgr24torgb24_C(src, dst, src_size);

  353. #endif

  354. }

  355. 

  356. void rgb32to16(const uint8_t *src, uint8_t *dst, unsigned src_size)

  357. {

  358. #ifdef CAN_COMPILE_X86_ASM

  359. 	// ordered per speed fasterst first

  360. 	if(gCpuCaps.hasMMX2)

  361. 		rgb32to16_MMX2(src, dst, src_size);

  362. 	else if(gCpuCaps.has3DNow)

  363. 		rgb32to16_3DNow(src, dst, src_size);

  364. 	else if(gCpuCaps.hasMMX)

  365. 		rgb32to16_MMX(src, dst, src_size);

  366. 	else

  367. #endif

  368. 		rgb32to16_C(src, dst, src_size);

  369. }

  370. 

  371. void rgb32to15(const uint8_t *src, uint8_t *dst, unsigned src_size)

  372. {

  373. #ifdef CAN_COMPILE_X86_ASM

  374. 	// ordered per speed fasterst first

  375. 	if(gCpuCaps.hasMMX2)

  376. 		rgb32to15_MMX2(src, dst, src_size);

  377. 	else if(gCpuCaps.has3DNow)

  378. 		rgb32to15_3DNow(src, dst, src_size);

  379. 	else if(gCpuCaps.hasMMX)

  380. 		rgb32to15_MMX(src, dst, src_size);

  381. 	else

  382. #endif

  383. 		rgb32to15_C(src, dst, src_size);

  384. }

  385. 

  386. void rgb24to16(const uint8_t *src, uint8_t *dst, unsigned src_size)

  387. {

  388. #ifdef CAN_COMPILE_X86_ASM

  389. 	// ordered per speed fasterst first

  390. 	if(gCpuCaps.hasMMX2)

  391. 		rgb24to16_MMX2(src, dst, src_size);

  392. 	else if(gCpuCaps.has3DNow)

  393. 		rgb24to16_3DNow(src, dst, src_size);

  394. 	else if(gCpuCaps.hasMMX)

  395. 		rgb24to16_MMX(src, dst, src_size);

  396. 	else

  397. #endif

  398. 		rgb24to16_C(src, dst, src_size);

  399. }

  400. 

  401. void rgb24to15(const uint8_t *src, uint8_t *dst, unsigned src_size)

  402. {

  403. #ifdef CAN_COMPILE_X86_ASM

  404. 	// ordered per speed fasterst first

  405. 	if(gCpuCaps.hasMMX2)

  406. 		rgb24to15_MMX2(src, dst, src_size);

  407. 	else if(gCpuCaps.has3DNow)

  408. 		rgb24to15_3DNow(src, dst, src_size);

  409. 	else if(gCpuCaps.hasMMX)

  410. 		rgb24to15_MMX(src, dst, src_size);

  411. 	else

  412. #endif

  413. 		rgb24to15_C(src, dst, src_size);

  414. }

  415. 

  416. /**

  417.  * Palette is assumed to contain bgr16, see rgb32to16 to convert the palette

  418.  */

  419. void palette8torgb16(const uint8_t *src, uint8_t *dst, unsigned num_pixels, const uint8_t *palette)

  420. {

  421. 	unsigned i;

  422. 	for(i=0; i<num_pixels; i++)

  423. 		((uint16_t *)dst)[i] = ((uint16_t *)palette)[ src[i] ];

  424. }

  425. void palette8tobgr16(const uint8_t *src, uint8_t *dst, unsigned num_pixels, const uint8_t *palette)

  426. {

  427. 	unsigned i;

  428. 	for(i=0; i<num_pixels; i++)

  429. 		((uint16_t *)dst)[i] = bswap_16(((uint16_t *)palette)[ src[i] ]);

  430. }

  431. 

  432. /**

  433.  * Pallete is assumed to contain bgr15, see rgb32to15 to convert the palette

  434.  */

  435. void palette8torgb15(const uint8_t *src, uint8_t *dst, unsigned num_pixels, const uint8_t *palette)

  436. {

  437. 	unsigned i;

  438. 	for(i=0; i<num_pixels; i++)

  439. 		((uint16_t *)dst)[i] = ((uint16_t *)palette)[ src[i] ];

  440. }

  441. void palette8tobgr15(const uint8_t *src, uint8_t *dst, unsigned num_pixels, const uint8_t *palette)

  442. {

  443. 	unsigned i;

  444. 	for(i=0; i<num_pixels; i++)

  445. 		((uint16_t *)dst)[i] = bswap_16(((uint16_t *)palette)[ src[i] ]);

  446. }

  447. 

  448. void rgb32tobgr32(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  449. {

  450. #ifdef CAN_COMPILE_X86_ASM

  451. 	// ordered per speed fasterst first

  452. 	if(gCpuCaps.hasMMX2)

  453. 		rgb32tobgr32_MMX2(src, dst, src_size);

  454. 	else if(gCpuCaps.has3DNow)

  455. 		rgb32tobgr32_3DNow(src, dst, src_size);

  456. 	else if(gCpuCaps.hasMMX)

  457. 		rgb32tobgr32_MMX(src, dst, src_size);

  458. 	else

  459. #endif

  460. 		rgb32tobgr32_C(src, dst, src_size);

  461. }

  462. 

  463. void rgb32tobgr24(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  464. {

  465. 	unsigned i;

  466. 	unsigned num_pixels = src_size >> 2;

  467. 	for(i=0; i<num_pixels; i++)

  468. 	{

  469. 		dst[3*i + 0] = src[4*i + 2];

  470. 		dst[3*i + 1] = src[4*i + 1];

  471. 		dst[3*i + 2] = src[4*i + 0];

  472. 	}

  473. }

  474. 

  475. void rgb32tobgr16(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  476. {

  477. #ifdef CAN_COMPILE_X86_ASM

  478. 	// ordered per speed fasterst first

  479. 	if(gCpuCaps.hasMMX2)

  480. 		rgb32tobgr16_MMX2(src, dst, src_size);

  481. 	else if(gCpuCaps.has3DNow)

  482. 		rgb32tobgr16_3DNow(src, dst, src_size);

  483. 	else if(gCpuCaps.hasMMX)

  484. 		rgb32tobgr16_MMX(src, dst, src_size);

  485. 	else

  486. #endif

  487. 		rgb32tobgr16_C(src, dst, src_size);

  488. }

  489. 

  490. void rgb32tobgr15(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  491. {

  492. #ifdef CAN_COMPILE_X86_ASM

  493. 	// ordered per speed fasterst first

  494. 	if(gCpuCaps.hasMMX2)

  495. 		rgb32tobgr15_MMX2(src, dst, src_size);

  496. 	else if(gCpuCaps.has3DNow)

  497. 		rgb32tobgr15_3DNow(src, dst, src_size);

  498. 	else if(gCpuCaps.hasMMX)

  499. 		rgb32tobgr15_MMX(src, dst, src_size);

  500. 	else

  501. #endif

  502. 		rgb32tobgr15_C(src, dst, src_size);

  503. }

  504. 

  505. void rgb24tobgr32(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  506. {

  507. 	unsigned i;

  508. 	for(i=0; 3*i<src_size; i++)

  509. 	{

  510. 		dst[4*i + 0] = src[3*i + 2];

  511. 		dst[4*i + 1] = src[3*i + 1];

  512. 		dst[4*i + 2] = src[3*i + 0];

  513. 		dst[4*i + 3] = 0;

  514. 	}

  515. }

  516. 

  517. void rgb24tobgr24(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  518. {

  519. #ifdef CAN_COMPILE_X86_ASM

  520. 	// ordered per speed fasterst first

  521. 	if(gCpuCaps.hasMMX2)

  522. 		rgb24tobgr24_MMX2(src, dst, src_size);

  523. 	else if(gCpuCaps.has3DNow)

  524. 		rgb24tobgr24_3DNow(src, dst, src_size);

  525. 	else if(gCpuCaps.hasMMX)

  526. 		rgb24tobgr24_MMX(src, dst, src_size);

  527. 	else

  528. #endif

  529. 		rgb24tobgr24_C(src, dst, src_size);

  530. }

  531. 

  532. void rgb24tobgr16(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  533. {

  534. #ifdef CAN_COMPILE_X86_ASM

  535. 	// ordered per speed fasterst first

  536. 	if(gCpuCaps.hasMMX2)

  537. 		rgb24tobgr16_MMX2(src, dst, src_size);

  538. 	else if(gCpuCaps.has3DNow)

  539. 		rgb24tobgr16_3DNow(src, dst, src_size);

  540. 	else if(gCpuCaps.hasMMX)

  541. 		rgb24tobgr16_MMX(src, dst, src_size);

  542. 	else

  543. #endif

  544. 		rgb24tobgr16_C(src, dst, src_size);

  545. }

  546. 

  547. void rgb24tobgr15(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  548. {

  549. #ifdef CAN_COMPILE_X86_ASM

  550. 	// ordered per speed fasterst first

  551. 	if(gCpuCaps.hasMMX2)

  552. 		rgb24tobgr15_MMX2(src, dst, src_size);

  553. 	else if(gCpuCaps.has3DNow)

  554. 		rgb24tobgr15_3DNow(src, dst, src_size);

  555. 	else if(gCpuCaps.hasMMX)

  556. 		rgb24tobgr15_MMX(src, dst, src_size);

  557. 	else

  558. #endif

  559. 		rgb24tobgr15_C(src, dst, src_size);

  560. }

  561. 

  562. void rgb16tobgr32(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  563. {

  564. 	const uint16_t *end;

  565. 	uint8_t *d = (uint8_t *)dst;

  566. 	const uint16_t *s = (uint16_t *)src;

  567. 	end = s + src_size/2;

  568. 	while(s < end)

  569. 	{

  570. 		register uint16_t bgr;

  571. 		bgr = *s++;

  572. 		*d++ = (bgr&0xF800)>>8;

  573. 		*d++ = (bgr&0x7E0)>>3;

  574. 		*d++ = (bgr&0x1F)<<3;

  575. 		*d++ = 0;

  576. 	}

  577. }

  578. 

  579. void rgb16tobgr24(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  580. {

  581. 	const uint16_t *end;

  582. 	uint8_t *d = (uint8_t *)dst;

  583. 	const uint16_t *s = (const uint16_t *)src;

  584. 	end = s + src_size/2;

  585. 	while(s < end)

  586. 	{

  587. 		register uint16_t bgr;

  588. 		bgr = *s++;

  589. 		*d++ = (bgr&0xF800)>>8;

  590. 		*d++ = (bgr&0x7E0)>>3;

  591. 		*d++ = (bgr&0x1F)<<3;

  592. 	}

  593. }

  594. 

  595. void rgb16tobgr16(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  596. {

  597. 	unsigned i;

  598. 	unsigned num_pixels = src_size >> 1;

  599. 	

  600. 	for(i=0; i<num_pixels; i++)

  601. 	{

  602. 	    unsigned b,g,r;

  603. 	    register uint16_t rgb;

  604. 	    rgb = src[2*i];

  605. 	    r = rgb&0x1F;

  606. 	    g = (rgb&0x7E0)>>5;

  607. 	    b = (rgb&0xF800)>>11;

  608. 	    dst[2*i] = (b&0x1F) | ((g&0x3F)<<5) | ((r&0x1F)<<11);

  609. 	}

  610. }

  611. 

  612. void rgb16tobgr15(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  613. {

  614. 	unsigned i;

  615. 	unsigned num_pixels = src_size >> 1;

  616. 	

  617. 	for(i=0; i<num_pixels; i++)

  618. 	{

  619. 	    unsigned b,g,r;

  620. 	    register uint16_t rgb;

  621. 	    rgb = src[2*i];

  622. 	    r = rgb&0x1F;

  623. 	    g = (rgb&0x7E0)>>5;

  624. 	    b = (rgb&0xF800)>>11;

  625. 	    dst[2*i] = (b&0x1F) | ((g&0x1F)<<5) | ((r&0x1F)<<10);

  626. 	}

  627. }

  628. 

  629. void rgb15tobgr32(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  630. {

  631. 	const uint16_t *end;

  632. 	uint8_t *d = (uint8_t *)dst;

  633. 	const uint16_t *s = (const uint16_t *)src;

  634. 	end = s + src_size/2;

  635. 	while(s < end)

  636. 	{

  637. 		register uint16_t bgr;

  638. 		bgr = *s++;

  639. 		*d++ = (bgr&0x7C00)>>7;

  640. 		*d++ = (bgr&0x3E0)>>2;

  641. 		*d++ = (bgr&0x1F)<<3;

  642. 		*d++ = 0;

  643. 	}

  644. }

  645. 

  646. void rgb15tobgr24(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  647. {

  648. 	const uint16_t *end;

  649. 	uint8_t *d = (uint8_t *)dst;

  650. 	const uint16_t *s = (uint16_t *)src;

  651. 	end = s + src_size/2;

  652. 	while(s < end)

  653. 	{

  654. 		register uint16_t bgr;

  655. 		bgr = *s++;

  656. 		*d++ = (bgr&0x7C00)>>7;

  657. 		*d++ = (bgr&0x3E0)>>2;

  658. 		*d++ = (bgr&0x1F)<<3;

  659. 	}

  660. }

  661. 

  662. void rgb15tobgr16(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  663. {

  664. 	unsigned i;

  665. 	unsigned num_pixels = src_size >> 1;

  666. 	

  667. 	for(i=0; i<num_pixels; i++)

  668. 	{

  669. 	    unsigned b,g,r;

  670. 	    register uint16_t rgb;

  671. 	    rgb = src[2*i];

  672. 	    r = rgb&0x1F;

  673. 	    g = (rgb&0x3E0)>>5;

  674. 	    b = (rgb&0x7C00)>>10;

  675. 	    dst[2*i] = (b&0x1F) | ((g&0x3F)<<5) | ((r&0x1F)<<11);

  676. 	}

  677. }

  678. 

  679. void rgb15tobgr15(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  680. {

  681. 	unsigned i;

  682. 	unsigned num_pixels = src_size >> 1;

  683. 	

  684. 	for(i=0; i<num_pixels; i++)

  685. 	{

  686. 	    unsigned b,g,r;

  687. 	    register uint16_t rgb;

  688. 	    rgb = src[2*i];

  689. 	    r = rgb&0x1F;

  690. 	    g = (rgb&0x3E0)>>5;

  691. 	    b = (rgb&0x7C00)>>10;

  692. 	    dst[2*i] = (b&0x1F) | ((g&0x1F)<<5) | ((r&0x1F)<<10);

  693. 	}

  694. }

  695. 

  696. void rgb8tobgr8(const uint8_t *src, uint8_t *dst, unsigned int src_size)

  697. {

  698. 	unsigned i;

  699. 	unsigned num_pixels = src_size;

  700. 	for(i=0; i<num_pixels; i++)

  701. 	{

  702. 	    unsigned b,g,r;

  703. 	    register uint8_t rgb;

  704. 	    rgb = src[i];

  705. 	    r = (rgb&0x07);

  706. 	    g = (rgb&0x38)>>3;

  707. 	    b = (rgb&0xC0)>>6;

  708. 	    dst[i] = ((b<<1)&0x07) | ((g&0x07)<<3) | ((r&0x03)<<6);

  709. 	}

  710. }

  711. 

  712. /**

  713.  *

  714.  * height should be a multiple of 2 and width should be a multiple of 16 (if this is a

  715.  * problem for anyone then tell me, and ill fix it)

  716.  */

  717. void yv12toyuy2(const uint8_t *ysrc, const uint8_t *usrc, const uint8_t *vsrc, uint8_t *dst,

  718. 	unsigned int width, unsigned int height,

  719. 	unsigned int lumStride, unsigned int chromStride, unsigned int dstStride)

  720. {

  721. #ifdef CAN_COMPILE_X86_ASM

  722. 	// ordered per speed fasterst first

  723. 	if(gCpuCaps.hasMMX2)

  724. 		yv12toyuy2_MMX2(ysrc, usrc, vsrc, dst, width, height, lumStride, chromStride, dstStride);

  725. 	else if(gCpuCaps.has3DNow)

  726. 		yv12toyuy2_3DNow(ysrc, usrc, vsrc, dst, width, height, lumStride, chromStride, dstStride);

  727. 	else if(gCpuCaps.hasMMX)

  728. 		yv12toyuy2_MMX(ysrc, usrc, vsrc, dst, width, height, lumStride, chromStride, dstStride);

  729. 	else

  730. #endif

  731. 		yv12toyuy2_C(ysrc, usrc, vsrc, dst, width, height, lumStride, chromStride, dstStride);

  732. }

  733. 

  734. /**

  735.  *

  736.  * width should be a multiple of 16

  737.  */

  738. void yuv422ptoyuy2(const uint8_t *ysrc, const uint8_t *usrc, const uint8_t *vsrc, uint8_t *dst,

  739. 	unsigned int width, unsigned int height,

  740. 	unsigned int lumStride, unsigned int chromStride, unsigned int dstStride)

  741. {

  742. #ifdef CAN_COMPILE_X86_ASM

  743. 	// ordered per speed fasterst first

  744. 	if(gCpuCaps.hasMMX2)

  745. 		yuv422ptoyuy2_MMX2(ysrc, usrc, vsrc, dst, width, height, lumStride, chromStride, dstStride);

  746. 	else if(gCpuCaps.has3DNow)

  747. 		yuv422ptoyuy2_3DNow(ysrc, usrc, vsrc, dst, width, height, lumStride, chromStride, dstStride);

  748. 	else if(gCpuCaps.hasMMX)

  749. 		yuv422ptoyuy2_MMX(ysrc, usrc, vsrc, dst, width, height, lumStride, chromStride, dstStride);

  750. 	else

  751. #endif

  752. 		yuv422ptoyuy2_C(ysrc, usrc, vsrc, dst, width, height, lumStride, chromStride, dstStride);

  753. }

  754. 

  755. /**

  756.  *

  757.  * height should be a multiple of 2 and width should be a multiple of 16 (if this is a

  758.  * problem for anyone then tell me, and ill fix it)

  759.  */

  760. void yuy2toyv12(const uint8_t *src, uint8_t *ydst, uint8_t *udst, uint8_t *vdst,

  761. 	unsigned int width, unsigned int height,

  762. 	unsigned int lumStride, unsigned int chromStride, unsigned int srcStride)

  763. {

  764. #ifdef CAN_COMPILE_X86_ASM

  765. 	// ordered per speed fasterst first

  766. 	if(gCpuCaps.hasMMX2)

  767. 		yuy2toyv12_MMX2(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  768. 	else if(gCpuCaps.has3DNow)

  769. 		yuy2toyv12_3DNow(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  770. 	else if(gCpuCaps.hasMMX)

  771. 		yuy2toyv12_MMX(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  772. 	else

  773. #endif

  774. 		yuy2toyv12_C(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  775. }

  776. 

  777. /**

  778.  *

  779.  * height should be a multiple of 2 and width should be a multiple of 16 (if this is a

  780.  * problem for anyone then tell me, and ill fix it)

  781.  * chrominance data is only taken from every secound line others are ignored FIXME write HQ version

  782.  */

  783. void uyvytoyv12(const uint8_t *src, uint8_t *ydst, uint8_t *udst, uint8_t *vdst,

  784. 	unsigned int width, unsigned int height,

  785. 	unsigned int lumStride, unsigned int chromStride, unsigned int srcStride)

  786. {

  787. #ifdef CAN_COMPILE_X86_ASM

  788. 	// ordered per speed fasterst first

  789. 	if(gCpuCaps.hasMMX2)

  790. 		uyvytoyv12_MMX2(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  791. 	else if(gCpuCaps.has3DNow)

  792. 		uyvytoyv12_3DNow(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  793. 	else if(gCpuCaps.hasMMX)

  794. 		uyvytoyv12_MMX(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  795. 	else

  796. 		uyvytoyv12_C(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  797. #else

  798. 		uyvytoyv12_C(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  799. #endif

  800. }

  801. 

  802. void yvu9toyv12(const uint8_t *ysrc, const uint8_t *usrc, const uint8_t *vsrc,

  803. 	uint8_t *ydst, uint8_t *udst, uint8_t *vdst,

  804. 	unsigned int width, unsigned int height,

  805. 	unsigned int lumStride, unsigned int chromStride)

  806. {

  807. #ifdef CAN_COMPILE_X86_ASM

  808. 	// ordered per speed fasterst first

  809. 	if(gCpuCaps.hasMMX2)

  810. 		yvu9toyv12_MMX2(ysrc, usrc, vsrc, ydst, udst, vdst, width, height, lumStride, chromStride);

  811. 	else if(gCpuCaps.has3DNow)

  812. 		yvu9toyv12_3DNow(ysrc, usrc, vsrc, ydst, udst, vdst, width, height, lumStride, chromStride);

  813. 	else if(gCpuCaps.hasMMX)

  814. 		yvu9toyv12_MMX(ysrc, usrc, vsrc, ydst, udst, vdst, width, height, lumStride, chromStride);

  815. 	else

  816. 		yvu9toyv12_C(ysrc, usrc, vsrc, ydst, udst, vdst, width, height, lumStride, chromStride);

  817. #else

  818. 		yvu9toyv12_C(ysrc, usrc, vsrc, ydst, udst, vdst, width, height, lumStride, chromStride);

  819. #endif

  820. }

  821. 

  822. void planar2x(const uint8_t *src, uint8_t *dst, int width, int height, int srcStride, int dstStride)

  823. {

  824. #ifdef CAN_COMPILE_X86_ASM

  825. 	// ordered per speed fasterst first

  826. 	if(gCpuCaps.hasMMX2)

  827. 		planar2x_MMX2(src, dst, width, height, srcStride, dstStride);

  828. 	else if(gCpuCaps.has3DNow)

  829. 		planar2x_3DNow(src, dst, width, height, srcStride, dstStride);

  830. 	else

  831. #endif

  832. 		planar2x_C(src, dst, width, height, srcStride, dstStride);

  833. }

  834. 

  835. /**

  836.  *

  837.  * height should be a multiple of 2 and width should be a multiple of 2 (if this is a

  838.  * problem for anyone then tell me, and ill fix it)

  839.  * chrominance data is only taken from every secound line others are ignored FIXME write HQ version

  840.  */

  841. void rgb24toyv12(const uint8_t *src, uint8_t *ydst, uint8_t *udst, uint8_t *vdst,

  842. 	unsigned int width, unsigned int height,

  843. 	unsigned int lumStride, unsigned int chromStride, unsigned int srcStride)

  844. {

  845. #ifdef CAN_COMPILE_X86_ASM

  846. 	// ordered per speed fasterst first

  847. 	if(gCpuCaps.hasMMX2)

  848. 		rgb24toyv12_MMX2(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  849. 	else if(gCpuCaps.has3DNow)

  850. 		rgb24toyv12_3DNow(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  851. 	else if(gCpuCaps.hasMMX)

  852. 		rgb24toyv12_MMX(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  853. 	else

  854. #endif

  855. 		rgb24toyv12_C(src, ydst, udst, vdst, width,  height, lumStride, chromStride, srcStride);

  856. }

  857. 

  858. void interleaveBytes(uint8_t *src1, uint8_t *src2, uint8_t *dst,

  859. 		     unsigned width, unsigned height, unsigned src1Stride,

  860. 		     unsigned src2Stride, unsigned dstStride)

  861. {

  862. #ifdef CAN_COMPILE_X86_ASM

  863. 	// ordered per speed fasterst first

  864. 	if(gCpuCaps.hasMMX2)

  865. 		interleaveBytes_MMX2(src1, src2, dst, width, height, src1Stride, src2Stride, dstStride);

  866. 	else if(gCpuCaps.has3DNow)

  867. 		interleaveBytes_3DNow(src1, src2, dst, width, height, src1Stride, src2Stride, dstStride);

  868. 	else if(gCpuCaps.hasMMX)

  869. 		interleaveBytes_MMX(src1, src2, dst, width, height, src1Stride, src2Stride, dstStride);

  870. 	else

  871. #endif

  872. 		interleaveBytes_C(src1, src2, dst, width, height, src1Stride, src2Stride, dstStride);

  873. }

  874. 

  875. void vu9_to_vu12(const uint8_t *src1, const uint8_t *src2,

  876. 		uint8_t *dst1, uint8_t *dst2,

  877. 		unsigned width, unsigned height,

  878. 		unsigned srcStride1, unsigned srcStride2,

  879. 		unsigned dstStride1, unsigned dstStride2)

  880. {

  881. #ifdef CAN_COMPILE_X86_ASM

  882. 	if(gCpuCaps.hasMMX2)

  883. 		vu9_to_vu12_MMX2(src1, src2, dst1, dst2, width, height, srcStride1, srcStride2, dstStride1, dstStride2);

  884. 	else if(gCpuCaps.has3DNow)

  885. 		vu9_to_vu12_3DNow(src1, src2, dst1, dst2, width, height, srcStride1, srcStride2, dstStride1, dstStride2);

  886. 	else if(gCpuCaps.hasMMX)

  887. 		vu9_to_vu12_MMX(src1, src2, dst1, dst2, width, height, srcStride1, srcStride2, dstStride1, dstStride2);

  888. 	else

  889. #endif

  890. 		vu9_to_vu12_C(src1, src2, dst1, dst2, width, height, srcStride1, srcStride2, dstStride1, dstStride2);

  891. }

  892. 

  893. void yvu9_to_yuy2(const uint8_t *src1, const uint8_t *src2, const uint8_t *src3,

  894. 		uint8_t *dst,

  895. 		unsigned width, unsigned height,

  896. 		unsigned srcStride1, unsigned srcStride2,

  897. 		unsigned srcStride3, unsigned dstStride)

  898. {

  899. #ifdef CAN_COMPILE_X86_ASM

  900. 	if(gCpuCaps.hasMMX2)

  901. 		yvu9_to_yuy2_MMX2(src1, src2, src3, dst, width, height, srcStride1, srcStride2, srcStride3, dstStride);

  902. 	else if(gCpuCaps.has3DNow)

  903. 		yvu9_to_yuy2_3DNow(src1, src2, src3, dst, width, height, srcStride1, srcStride2, srcStride3, dstStride);

  904. 	else if(gCpuCaps.hasMMX)

  905. 		yvu9_to_yuy2_MMX(src1, src2, src3, dst, width, height, srcStride1, srcStride2, srcStride3, dstStride);

  906. 	else

  907. #endif

  908. 		yvu9_to_yuy2_C(src1, src2, src3, dst, width, height, srcStride1, srcStride2, srcStride3, dstStride);

  909. }