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FFmpeg/libavcodec/x86/h264_weight.asm

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  1. ;*****************************************************************************

  2. ;* SSE2-optimized weighted prediction code

  3. ;*****************************************************************************

  4. ;* Copyright (c) 2004-2005 Michael Niedermayer, Loren Merritt

  5. ;* Copyright (C) 2010 Eli Friedman <eli.friedman@gmail.com>

  6. ;*

  7. ;* This file is part of Libav.

  8. ;*

  9. ;* Libav is free software; you can redistribute it and/or

  10. ;* modify it under the terms of the GNU Lesser General Public

  11. ;* License as published by the Free Software Foundation; either

  12. ;* version 2.1 of the License, or (at your option) any later version.

  13. ;*

  14. ;* Libav is distributed in the hope that it will be useful,

  15. ;* but WITHOUT ANY WARRANTY; without even the implied warranty of

  16. ;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  17. ;* Lesser General Public License for more details.

  18. ;*

  19. ;* You should have received a copy of the GNU Lesser General Public

  20. ;* License along with Libav; if not, write to the Free Software

  21. ;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA

  22. ;******************************************************************************

  23. 

  24. %include "x86inc.asm"

  25. 

  26. SECTION .text

  27. 

  28. ;-----------------------------------------------------------------------------

  29. ; biweight pred:

  30. ;

  31. ; void h264_biweight_16_sse2(uint8_t *dst, uint8_t *src, int stride,

  32. ;                            int height, int log2_denom, int weightd,

  33. ;                            int weights, int offset);

  34. ; and

  35. ; void h264_weight_16_sse2(uint8_t *dst, int stride, int height,

  36. ;                          int log2_denom, int weight, int offset);

  37. ;-----------------------------------------------------------------------------

  38. 

  39. %macro WEIGHT_SETUP 0

  40.     add        r5, r5

  41.     inc        r5

  42.     movd       m3, r4d

  43.     movd       m5, r5d

  44.     movd       m6, r3d

  45.     pslld      m5, m6

  46.     psrld      m5, 1

  47. %if mmsize == 16

  48.     pshuflw    m3, m3, 0

  49.     pshuflw    m5, m5, 0

  50.     punpcklqdq m3, m3

  51.     punpcklqdq m5, m5

  52. %else

  53.     pshufw     m3, m3, 0

  54.     pshufw     m5, m5, 0

  55. %endif

  56.     pxor       m7, m7

  57. %endmacro

  58. 

  59. %macro WEIGHT_OP 2

  60.     movh          m0, [r0+%1]

  61.     movh          m1, [r0+%2]

  62.     punpcklbw     m0, m7

  63.     punpcklbw     m1, m7

  64.     pmullw        m0, m3

  65.     pmullw        m1, m3

  66.     paddsw        m0, m5

  67.     paddsw        m1, m5

  68.     psraw         m0, m6

  69.     psraw         m1, m6

  70.     packuswb      m0, m1

  71. %endmacro

  72. 

  73. INIT_MMX

  74. cglobal h264_weight_16_mmx2, 6, 6, 0

  75.     WEIGHT_SETUP

  76. .nextrow:

  77.     WEIGHT_OP 0,  4

  78.     mova     [r0  ], m0

  79.     WEIGHT_OP 8, 12

  80.     mova     [r0+8], m0

  81.     add        r0, r1

  82.     dec        r2d

  83.     jnz .nextrow

  84.     REP_RET

  85. 

  86. %macro WEIGHT_FUNC_MM 3

  87. cglobal h264_weight_%1_%3, 6, 6, %2

  88.     WEIGHT_SETUP

  89. .nextrow:

  90.     WEIGHT_OP 0, mmsize/2

  91.     mova     [r0], m0

  92.     add        r0, r1

  93.     dec        r2d

  94.     jnz .nextrow

  95.     REP_RET

  96. %endmacro

  97. 

  98. INIT_MMX

  99. WEIGHT_FUNC_MM  8, 0, mmx2

  100. INIT_XMM

  101. WEIGHT_FUNC_MM 16, 8, sse2

  102. 

  103. %macro WEIGHT_FUNC_HALF_MM 3

  104. cglobal h264_weight_%1_%3, 6, 6, %2

  105.     WEIGHT_SETUP

  106.     sar       r2d, 1

  107.     lea        r3, [r1*2]

  108. .nextrow:

  109.     WEIGHT_OP 0, r1

  110.     movh     [r0], m0

  111. %if mmsize == 16

  112.     movhps   [r0+r1], m0

  113. %else

  114.     psrlq      m0, 32

  115.     movh     [r0+r1], m0

  116. %endif

  117.     add        r0, r3

  118.     dec        r2d

  119.     jnz .nextrow

  120.     REP_RET

  121. %endmacro

  122. 

  123. INIT_MMX

  124. WEIGHT_FUNC_HALF_MM 4, 0, mmx2

  125. INIT_XMM

  126. WEIGHT_FUNC_HALF_MM 8, 8, sse2

  127. 

  128. %macro BIWEIGHT_SETUP 0

  129. %if ARCH_X86_64

  130. %define off_regd r7d

  131. %else

  132. %define off_regd r3d

  133. %endif

  134.     mov  off_regd, r7m

  135.     add  off_regd, 1

  136.     or   off_regd, 1

  137.     add        r4, 1

  138.     movd       m3, r5d

  139.     movd       m4, r6d

  140.     movd       m5, off_regd

  141.     movd       m6, r4d

  142.     pslld      m5, m6

  143.     psrld      m5, 1

  144. %if mmsize == 16

  145.     pshuflw    m3, m3, 0

  146.     pshuflw    m4, m4, 0

  147.     pshuflw    m5, m5, 0

  148.     punpcklqdq m3, m3

  149.     punpcklqdq m4, m4

  150.     punpcklqdq m5, m5

  151. %else

  152.     pshufw     m3, m3, 0

  153.     pshufw     m4, m4, 0

  154.     pshufw     m5, m5, 0

  155. %endif

  156.     pxor       m7, m7

  157. %endmacro

  158. 

  159. %macro BIWEIGHT_STEPA 3

  160.     movh       m%1, [r0+%3]

  161.     movh       m%2, [r1+%3]

  162.     punpcklbw  m%1, m7

  163.     punpcklbw  m%2, m7

  164.     pmullw     m%1, m3

  165.     pmullw     m%2, m4

  166.     paddsw     m%1, m%2

  167. %endmacro

  168. 

  169. %macro BIWEIGHT_STEPB 0

  170.     paddsw     m0, m5

  171.     paddsw     m1, m5

  172.     psraw      m0, m6

  173.     psraw      m1, m6

  174.     packuswb   m0, m1

  175. %endmacro

  176. 

  177. INIT_MMX

  178. cglobal h264_biweight_16_mmx2, 7, 8, 0

  179.     BIWEIGHT_SETUP

  180.     movifnidn r3d, r3m

  181. .nextrow:

  182.     BIWEIGHT_STEPA 0, 1, 0

  183.     BIWEIGHT_STEPA 1, 2, 4

  184.     BIWEIGHT_STEPB

  185.     mova       [r0], m0

  186.     BIWEIGHT_STEPA 0, 1, 8

  187.     BIWEIGHT_STEPA 1, 2, 12

  188.     BIWEIGHT_STEPB

  189.     mova     [r0+8], m0

  190.     add        r0, r2

  191.     add        r1, r2

  192.     dec        r3d

  193.     jnz .nextrow

  194.     REP_RET

  195. 

  196. %macro BIWEIGHT_FUNC_MM 3

  197. cglobal h264_biweight_%1_%3, 7, 8, %2

  198.     BIWEIGHT_SETUP

  199.     movifnidn r3d, r3m

  200. .nextrow:

  201.     BIWEIGHT_STEPA 0, 1, 0

  202.     BIWEIGHT_STEPA 1, 2, mmsize/2

  203.     BIWEIGHT_STEPB

  204.     mova       [r0], m0

  205.     add        r0, r2

  206.     add        r1, r2

  207.     dec        r3d

  208.     jnz .nextrow

  209.     REP_RET

  210. %endmacro

  211. 

  212. INIT_MMX

  213. BIWEIGHT_FUNC_MM  8, 0, mmx2

  214. INIT_XMM

  215. BIWEIGHT_FUNC_MM 16, 8, sse2

  216. 

  217. %macro BIWEIGHT_FUNC_HALF_MM 3

  218. cglobal h264_biweight_%1_%3, 7, 8, %2

  219.     BIWEIGHT_SETUP

  220.     movifnidn r3d, r3m

  221.     sar        r3, 1

  222.     lea        r4, [r2*2]

  223. .nextrow:

  224.     BIWEIGHT_STEPA 0, 1, 0

  225.     BIWEIGHT_STEPA 1, 2, r2

  226.     BIWEIGHT_STEPB

  227.     movh       [r0], m0

  228. %if mmsize == 16

  229.     movhps     [r0+r2], m0

  230. %else

  231.     psrlq      m0, 32

  232.     movh       [r0+r2], m0

  233. %endif

  234.     add        r0, r4

  235.     add        r1, r4

  236.     dec        r3d

  237.     jnz .nextrow

  238.     REP_RET

  239. %endmacro

  240. 

  241. INIT_MMX

  242. BIWEIGHT_FUNC_HALF_MM 4, 0, mmx2

  243. INIT_XMM

  244. BIWEIGHT_FUNC_HALF_MM 8, 8, sse2

  245. 

  246. %macro BIWEIGHT_SSSE3_SETUP 0

  247. %if ARCH_X86_64

  248. %define off_regd r7d

  249. %else

  250. %define off_regd r3d

  251. %endif

  252.     mov  off_regd, r7m

  253.     add  off_regd, 1

  254.     or   off_regd, 1

  255.     add        r4, 1

  256.     movd       m4, r5d

  257.     movd       m0, r6d

  258.     movd       m5, off_regd

  259.     movd       m6, r4d

  260.     pslld      m5, m6

  261.     psrld      m5, 1

  262.     punpcklbw  m4, m0

  263.     pshuflw    m4, m4, 0

  264.     pshuflw    m5, m5, 0

  265.     punpcklqdq m4, m4

  266.     punpcklqdq m5, m5

  267. %endmacro

  268. 

  269. %macro BIWEIGHT_SSSE3_OP 0

  270.     pmaddubsw  m0, m4

  271.     pmaddubsw  m2, m4

  272.     paddsw     m0, m5

  273.     paddsw     m2, m5

  274.     psraw      m0, m6

  275.     psraw      m2, m6

  276.     packuswb   m0, m2

  277. %endmacro

  278. 

  279. INIT_XMM

  280. cglobal h264_biweight_16_ssse3, 7, 8, 8

  281.     BIWEIGHT_SSSE3_SETUP

  282.     movifnidn r3d, r3m

  283. 

  284. .nextrow:

  285.     movh       m0, [r0]

  286.     movh       m2, [r0+8]

  287.     movh       m3, [r1+8]

  288.     punpcklbw  m0, [r1]

  289.     punpcklbw  m2, m3

  290.     BIWEIGHT_SSSE3_OP

  291.     mova       [r0], m0

  292.     add        r0, r2

  293.     add        r1, r2

  294.     dec        r3d

  295.     jnz .nextrow

  296.     REP_RET

  297. 

  298. INIT_XMM

  299. cglobal h264_biweight_8_ssse3, 7, 8, 8

  300.     BIWEIGHT_SSSE3_SETUP

  301.     movifnidn r3d, r3m

  302.     sar        r3, 1

  303.     lea        r4, [r2*2]

  304. 

  305. .nextrow:

  306.     movh       m0, [r0]

  307.     movh       m1, [r1]

  308.     movh       m2, [r0+r2]

  309.     movh       m3, [r1+r2]

  310.     punpcklbw  m0, m1

  311.     punpcklbw  m2, m3

  312.     BIWEIGHT_SSSE3_OP

  313.     movh       [r0], m0

  314.     movhps     [r0+r2], m0

  315.     add        r0, r4

  316.     add        r1, r4

  317.     dec        r3d

  318.     jnz .nextrow

  319.     REP_RET