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FFmpeg/libavcodec/x86/h264_idct_10bit.asm

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

  2. ;* MMX/SSE2/AVX-optimized 10-bit H.264 iDCT code

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

  4. ;* Copyright (C) 2005-2011 x264 project

  5. ;*

  6. ;* Authors: Daniel Kang <daniel.d.kang@gmail.com>

  7. ;*

  8. ;* This file is part of Libav.

  9. ;*

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

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

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

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

  14. ;*

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

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

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

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

  19. ;*

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

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

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

  23. ;******************************************************************************

  24. 

  25. %include "libavutil/x86/x86util.asm"

  26. 

  27. SECTION_RODATA

  28. 

  29. pw_pixel_max: times 8 dw ((1 << 10)-1)

  30. pd_32:        times 4 dd 32

  31. 

  32. SECTION .text

  33. 

  34. ;-----------------------------------------------------------------------------

  35. ; void h264_idct_add(pixel *dst, dctcoef *block, int stride)

  36. ;-----------------------------------------------------------------------------

  37. %macro STORE_DIFFx2 6

  38.     psrad       %1, 6

  39.     psrad       %2, 6

  40.     packssdw    %1, %2

  41.     movq        %3, [%5]

  42.     movhps      %3, [%5+%6]

  43.     paddsw      %1, %3

  44.     CLIPW       %1, %4, [pw_pixel_max]

  45.     movq      [%5], %1

  46.     movhps [%5+%6], %1

  47. %endmacro

  48. 

  49. %macro STORE_DIFF16 5

  50.     psrad       %1, 6

  51.     psrad       %2, 6

  52.     packssdw    %1, %2

  53.     paddsw      %1, [%5]

  54.     CLIPW       %1, %3, %4

  55.     mova      [%5], %1

  56. %endmacro

  57. 

  58. ;dst, in, stride

  59. %macro IDCT4_ADD_10 3

  60.     mova  m0, [%2+ 0]

  61.     mova  m1, [%2+16]

  62.     mova  m2, [%2+32]

  63.     mova  m3, [%2+48]

  64.     IDCT4_1D d,0,1,2,3,4,5

  65.     TRANSPOSE4x4D 0,1,2,3,4

  66.     paddd m0, [pd_32]

  67.     IDCT4_1D d,0,1,2,3,4,5

  68.     pxor  m5, m5

  69.     mova [%2+ 0], m5

  70.     mova [%2+16], m5

  71.     mova [%2+32], m5

  72.     mova [%2+48], m5

  73.     STORE_DIFFx2 m0, m1, m4, m5, %1, %3

  74.     lea   %1, [%1+%3*2]

  75.     STORE_DIFFx2 m2, m3, m4, m5, %1, %3

  76. %endmacro

  77. 

  78. %macro IDCT_ADD_10 0

  79. cglobal h264_idct_add_10, 3,3

  80.     IDCT4_ADD_10 r0, r1, r2

  81.     RET

  82. %endmacro

  83. 

  84. INIT_XMM sse2

  85. IDCT_ADD_10

  86. INIT_XMM avx

  87. IDCT_ADD_10

  88. 

  89. ;-----------------------------------------------------------------------------

  90. ; h264_idct_add16(pixel *dst, const int *block_offset, dctcoef *block, int stride, const uint8_t nnzc[6*8])

  91. ;-----------------------------------------------------------------------------

  92. ;;;;;;; NO FATE SAMPLES TRIGGER THIS

  93. %macro ADD4x4IDCT 0

  94. add4x4_idct %+ SUFFIX:

  95.     add   r5, r0

  96.     mova  m0, [r2+ 0]

  97.     mova  m1, [r2+16]

  98.     mova  m2, [r2+32]

  99.     mova  m3, [r2+48]

  100.     IDCT4_1D d,0,1,2,3,4,5

  101.     TRANSPOSE4x4D 0,1,2,3,4

  102.     paddd m0, [pd_32]

  103.     IDCT4_1D d,0,1,2,3,4,5

  104.     pxor  m5, m5

  105.     mova  [r2+ 0], m5

  106.     mova  [r2+16], m5

  107.     mova  [r2+32], m5

  108.     mova  [r2+48], m5

  109.     STORE_DIFFx2 m0, m1, m4, m5, r5, r3

  110.     lea   r5, [r5+r3*2]

  111.     STORE_DIFFx2 m2, m3, m4, m5, r5, r3

  112.     ret

  113. %endmacro

  114. 

  115. INIT_XMM sse2

  116. ALIGN 16

  117. ADD4x4IDCT

  118. INIT_XMM avx

  119. ALIGN 16

  120. ADD4x4IDCT

  121. 

  122. %macro ADD16_OP 2

  123.     cmp          byte [r4+%2], 0

  124.     jz .skipblock%1

  125.     mov         r5d, [r1+%1*4]

  126.     call add4x4_idct %+ SUFFIX

  127. .skipblock%1:

  128. %if %1<15

  129.     add          r2, 64

  130. %endif

  131. %endmacro

  132. 

  133. %macro IDCT_ADD16_10 0

  134. cglobal h264_idct_add16_10, 5,6

  135.     ADD16_OP 0, 4+1*8

  136.     ADD16_OP 1, 5+1*8

  137.     ADD16_OP 2, 4+2*8

  138.     ADD16_OP 3, 5+2*8

  139.     ADD16_OP 4, 6+1*8

  140.     ADD16_OP 5, 7+1*8

  141.     ADD16_OP 6, 6+2*8

  142.     ADD16_OP 7, 7+2*8

  143.     ADD16_OP 8, 4+3*8

  144.     ADD16_OP 9, 5+3*8

  145.     ADD16_OP 10, 4+4*8

  146.     ADD16_OP 11, 5+4*8

  147.     ADD16_OP 12, 6+3*8

  148.     ADD16_OP 13, 7+3*8

  149.     ADD16_OP 14, 6+4*8

  150.     ADD16_OP 15, 7+4*8

  151.     REP_RET

  152. %endmacro

  153. 

  154. INIT_XMM sse2

  155. IDCT_ADD16_10

  156. INIT_XMM avx

  157. IDCT_ADD16_10

  158. 

  159. ;-----------------------------------------------------------------------------

  160. ; void h264_idct_dc_add(pixel *dst, dctcoef *block, int stride)

  161. ;-----------------------------------------------------------------------------

  162. %macro IDCT_DC_ADD_OP_10 3

  163.     pxor      m5, m5

  164. %if avx_enabled

  165.     paddw     m1, m0, [%1+0   ]

  166.     paddw     m2, m0, [%1+%2  ]

  167.     paddw     m3, m0, [%1+%2*2]

  168.     paddw     m4, m0, [%1+%3  ]

  169. %else

  170.     mova      m1, [%1+0   ]

  171.     mova      m2, [%1+%2  ]

  172.     mova      m3, [%1+%2*2]

  173.     mova      m4, [%1+%3  ]

  174.     paddw     m1, m0

  175.     paddw     m2, m0

  176.     paddw     m3, m0

  177.     paddw     m4, m0

  178. %endif

  179.     CLIPW     m1, m5, m6

  180.     CLIPW     m2, m5, m6

  181.     CLIPW     m3, m5, m6

  182.     CLIPW     m4, m5, m6

  183.     mova [%1+0   ], m1

  184.     mova [%1+%2  ], m2

  185.     mova [%1+%2*2], m3

  186.     mova [%1+%3  ], m4

  187. %endmacro

  188. 

  189. INIT_MMX mmxext

  190. cglobal h264_idct_dc_add_10,3,3

  191.     movd      m0, [r1]

  192.     mov dword [r1], 0

  193.     paddd     m0, [pd_32]

  194.     psrad     m0, 6

  195.     lea       r1, [r2*3]

  196.     pshufw    m0, m0, 0

  197.     mova      m6, [pw_pixel_max]

  198.     IDCT_DC_ADD_OP_10 r0, r2, r1

  199.     RET

  200. 

  201. ;-----------------------------------------------------------------------------

  202. ; void h264_idct8_dc_add(pixel *dst, dctcoef *block, int stride)

  203. ;-----------------------------------------------------------------------------

  204. %macro IDCT8_DC_ADD 0

  205. cglobal h264_idct8_dc_add_10,3,4,7

  206.     movd      m0, [r1]

  207.     mov dword[r1], 0

  208.     paddd     m0, [pd_32]

  209.     psrad     m0, 6

  210.     lea       r1, [r2*3]

  211.     SPLATW    m0, m0, 0

  212.     mova      m6, [pw_pixel_max]

  213.     IDCT_DC_ADD_OP_10 r0, r2, r1

  214.     lea       r0, [r0+r2*4]

  215.     IDCT_DC_ADD_OP_10 r0, r2, r1

  216.     RET

  217. %endmacro

  218. 

  219. INIT_XMM sse2

  220. IDCT8_DC_ADD

  221. INIT_XMM avx

  222. IDCT8_DC_ADD

  223. 

  224. ;-----------------------------------------------------------------------------

  225. ; h264_idct_add16intra(pixel *dst, const int *block_offset, dctcoef *block, int stride, const uint8_t nnzc[6*8])

  226. ;-----------------------------------------------------------------------------

  227. %macro AC 1

  228. .ac%1:

  229.     mov  r5d, [r1+(%1+0)*4]

  230.     call add4x4_idct %+ SUFFIX

  231.     mov  r5d, [r1+(%1+1)*4]

  232.     add  r2, 64

  233.     call add4x4_idct %+ SUFFIX

  234.     add  r2, 64

  235.     jmp .skipadd%1

  236. %endmacro

  237. 

  238. %assign last_block 16

  239. %macro ADD16_OP_INTRA 2

  240.     cmp      word [r4+%2], 0

  241.     jnz .ac%1

  242.     mov      r5d, [r2+ 0]

  243.     or       r5d, [r2+64]

  244.     jz .skipblock%1

  245.     mov      r5d, [r1+(%1+0)*4]

  246.     call idct_dc_add %+ SUFFIX

  247. .skipblock%1:

  248. %if %1<last_block-2

  249.     add       r2, 128

  250. %endif

  251. .skipadd%1:

  252. %endmacro

  253. 

  254. %macro IDCT_ADD16INTRA_10 0

  255. idct_dc_add %+ SUFFIX:

  256.     add       r5, r0

  257.     movq      m0, [r2+ 0]

  258.     movhps    m0, [r2+64]

  259.     mov dword [r2+ 0], 0

  260.     mov dword [r2+64], 0

  261.     paddd     m0, [pd_32]

  262.     psrad     m0, 6

  263.     pshufhw   m0, m0, 0

  264.     pshuflw   m0, m0, 0

  265.     lea       r6, [r3*3]

  266.     mova      m6, [pw_pixel_max]

  267.     IDCT_DC_ADD_OP_10 r5, r3, r6

  268.     ret

  269. 

  270. cglobal h264_idct_add16intra_10,5,7,8

  271.     ADD16_OP_INTRA 0, 4+1*8

  272.     ADD16_OP_INTRA 2, 4+2*8

  273.     ADD16_OP_INTRA 4, 6+1*8

  274.     ADD16_OP_INTRA 6, 6+2*8

  275.     ADD16_OP_INTRA 8, 4+3*8

  276.     ADD16_OP_INTRA 10, 4+4*8

  277.     ADD16_OP_INTRA 12, 6+3*8

  278.     ADD16_OP_INTRA 14, 6+4*8

  279.     REP_RET

  280.     AC 8

  281.     AC 10

  282.     AC 12

  283.     AC 14

  284.     AC 0

  285.     AC 2

  286.     AC 4

  287.     AC 6

  288. %endmacro

  289. 

  290. INIT_XMM sse2

  291. IDCT_ADD16INTRA_10

  292. INIT_XMM avx

  293. IDCT_ADD16INTRA_10

  294. 

  295. %assign last_block 36

  296. ;-----------------------------------------------------------------------------

  297. ; h264_idct_add8(pixel **dst, const int *block_offset, dctcoef *block, int stride, const uint8_t nnzc[6*8])

  298. ;-----------------------------------------------------------------------------

  299. %macro IDCT_ADD8 0

  300. cglobal h264_idct_add8_10,5,8,7

  301. %if ARCH_X86_64

  302.     mov      r7, r0

  303. %endif

  304.     add      r2, 1024

  305.     mov      r0, [r0]

  306.     ADD16_OP_INTRA 16, 4+ 6*8

  307.     ADD16_OP_INTRA 18, 4+ 7*8

  308.     add      r2, 1024-128*2

  309. %if ARCH_X86_64

  310.     mov      r0, [r7+gprsize]

  311. %else

  312.     mov      r0, r0m

  313.     mov      r0, [r0+gprsize]

  314. %endif

  315.     ADD16_OP_INTRA 32, 4+11*8

  316.     ADD16_OP_INTRA 34, 4+12*8

  317.     REP_RET

  318.     AC 16

  319.     AC 18

  320.     AC 32

  321.     AC 34

  322. 

  323. %endmacro ; IDCT_ADD8

  324. 

  325. INIT_XMM sse2

  326. IDCT_ADD8

  327. INIT_XMM avx

  328. IDCT_ADD8

  329. 

  330. ;-----------------------------------------------------------------------------

  331. ; void h264_idct8_add(pixel *dst, dctcoef *block, int stride)

  332. ;-----------------------------------------------------------------------------

  333. %macro IDCT8_1D 2

  334.     SWAP      0, 1

  335.     psrad     m4, m5, 1

  336.     psrad     m1, m0, 1

  337.     paddd     m4, m5

  338.     paddd     m1, m0

  339.     paddd     m4, m7

  340.     paddd     m1, m5

  341.     psubd     m4, m0

  342.     paddd     m1, m3

  343. 

  344.     psubd     m0, m3

  345.     psubd     m5, m3

  346.     paddd     m0, m7

  347.     psubd     m5, m7

  348.     psrad     m3, 1

  349.     psrad     m7, 1

  350.     psubd     m0, m3

  351.     psubd     m5, m7

  352. 

  353.     SWAP      1, 7

  354.     psrad     m1, m7, 2

  355.     psrad     m3, m4, 2

  356.     paddd     m3, m0

  357.     psrad     m0, 2

  358.     paddd     m1, m5

  359.     psrad     m5, 2

  360.     psubd     m0, m4

  361.     psubd     m7, m5

  362. 

  363.     SWAP      5, 6

  364.     psrad     m4, m2, 1

  365.     psrad     m6, m5, 1

  366.     psubd     m4, m5

  367.     paddd     m6, m2

  368. 

  369.     mova      m2, %1

  370.     mova      m5, %2

  371.     SUMSUB_BA d, 5, 2

  372.     SUMSUB_BA d, 6, 5

  373.     SUMSUB_BA d, 4, 2

  374.     SUMSUB_BA d, 7, 6

  375.     SUMSUB_BA d, 0, 4

  376.     SUMSUB_BA d, 3, 2

  377.     SUMSUB_BA d, 1, 5

  378.     SWAP      7, 6, 4, 5, 2, 3, 1, 0 ; 70315246 -> 01234567

  379. %endmacro

  380. 

  381. %macro IDCT8_1D_FULL 1

  382.     mova         m7, [%1+112*2]

  383.     mova         m6, [%1+ 96*2]

  384.     mova         m5, [%1+ 80*2]

  385.     mova         m3, [%1+ 48*2]

  386.     mova         m2, [%1+ 32*2]

  387.     mova         m1, [%1+ 16*2]

  388.     IDCT8_1D   [%1], [%1+ 64*2]

  389. %endmacro

  390. 

  391. ; %1=int16_t *block, %2=int16_t *dstblock

  392. %macro IDCT8_ADD_SSE_START 2

  393.     IDCT8_1D_FULL %1

  394. %if ARCH_X86_64

  395.     TRANSPOSE4x4D  0,1,2,3,8

  396.     mova    [%2    ], m0

  397.     TRANSPOSE4x4D  4,5,6,7,8

  398.     mova    [%2+8*2], m4

  399. %else

  400.     mova         [%1], m7

  401.     TRANSPOSE4x4D   0,1,2,3,7

  402.     mova           m7, [%1]

  403.     mova    [%2     ], m0

  404.     mova    [%2+16*2], m1

  405.     mova    [%2+32*2], m2

  406.     mova    [%2+48*2], m3

  407.     TRANSPOSE4x4D   4,5,6,7,3

  408.     mova    [%2+ 8*2], m4

  409.     mova    [%2+24*2], m5

  410.     mova    [%2+40*2], m6

  411.     mova    [%2+56*2], m7

  412. %endif

  413. %endmacro

  414. 

  415. ; %1=uint8_t *dst, %2=int16_t *block, %3=int stride

  416. %macro IDCT8_ADD_SSE_END 3

  417.     IDCT8_1D_FULL %2

  418.     mova  [%2     ], m6

  419.     mova  [%2+16*2], m7

  420. 

  421.     pxor         m7, m7

  422.     STORE_DIFFx2 m0, m1, m6, m7, %1, %3

  423.     lea          %1, [%1+%3*2]

  424.     STORE_DIFFx2 m2, m3, m6, m7, %1, %3

  425.     mova         m0, [%2     ]

  426.     mova         m1, [%2+16*2]

  427.     lea          %1, [%1+%3*2]

  428.     STORE_DIFFx2 m4, m5, m6, m7, %1, %3

  429.     lea          %1, [%1+%3*2]

  430.     STORE_DIFFx2 m0, m1, m6, m7, %1, %3

  431. %endmacro

  432. 

  433. %macro IDCT8_ADD 0

  434. cglobal h264_idct8_add_10, 3,4,16

  435. %if UNIX64 == 0

  436.     %assign pad 16-gprsize-(stack_offset&15)

  437.     sub  rsp, pad

  438.     call h264_idct8_add1_10 %+ SUFFIX

  439.     add  rsp, pad

  440.     RET

  441. %endif

  442. 

  443. ALIGN 16

  444. ; TODO: does not need to use stack

  445. h264_idct8_add1_10 %+ SUFFIX:

  446. %assign pad 256+16-gprsize

  447.     sub          rsp, pad

  448.     add   dword [r1], 32

  449. 

  450. %if ARCH_X86_64

  451.     IDCT8_ADD_SSE_START r1, rsp

  452.     SWAP 1,  9

  453.     SWAP 2, 10

  454.     SWAP 3, 11

  455.     SWAP 5, 13

  456.     SWAP 6, 14

  457.     SWAP 7, 15

  458.     IDCT8_ADD_SSE_START r1+16, rsp+128

  459.     PERMUTE 1,9, 2,10, 3,11, 5,1, 6,2, 7,3, 9,13, 10,14, 11,15, 13,5, 14,6, 15,7

  460.     IDCT8_1D [rsp], [rsp+128]

  461.     SWAP 0,  8

  462.     SWAP 1,  9

  463.     SWAP 2, 10

  464.     SWAP 3, 11

  465.     SWAP 4, 12

  466.     SWAP 5, 13

  467.     SWAP 6, 14

  468.     SWAP 7, 15

  469.     IDCT8_1D [rsp+16], [rsp+144]

  470.     psrad         m8, 6

  471.     psrad         m0, 6

  472.     packssdw      m8, m0

  473.     paddsw        m8, [r0]

  474.     pxor          m0, m0

  475.     mova    [r1+  0], m0

  476.     mova    [r1+ 16], m0

  477.     mova    [r1+ 32], m0

  478.     mova    [r1+ 48], m0

  479.     mova    [r1+ 64], m0

  480.     mova    [r1+ 80], m0

  481.     mova    [r1+ 96], m0

  482.     mova    [r1+112], m0

  483.     mova    [r1+128], m0

  484.     mova    [r1+144], m0

  485.     mova    [r1+160], m0

  486.     mova    [r1+176], m0

  487.     mova    [r1+192], m0

  488.     mova    [r1+208], m0

  489.     mova    [r1+224], m0

  490.     mova    [r1+240], m0

  491.     CLIPW         m8, m0, [pw_pixel_max]

  492.     mova        [r0], m8

  493.     mova          m8, [pw_pixel_max]

  494.     STORE_DIFF16  m9, m1, m0, m8, r0+r2

  495.     lea           r0, [r0+r2*2]

  496.     STORE_DIFF16 m10, m2, m0, m8, r0

  497.     STORE_DIFF16 m11, m3, m0, m8, r0+r2

  498.     lea           r0, [r0+r2*2]

  499.     STORE_DIFF16 m12, m4, m0, m8, r0

  500.     STORE_DIFF16 m13, m5, m0, m8, r0+r2

  501.     lea           r0, [r0+r2*2]

  502.     STORE_DIFF16 m14, m6, m0, m8, r0

  503.     STORE_DIFF16 m15, m7, m0, m8, r0+r2

  504. %else

  505.     IDCT8_ADD_SSE_START r1,    rsp

  506.     IDCT8_ADD_SSE_START r1+16, rsp+128

  507.     lea           r3, [r0+8]

  508.     IDCT8_ADD_SSE_END r0, rsp,    r2

  509.     IDCT8_ADD_SSE_END r3, rsp+16, r2

  510.     mova    [r1+  0], m7

  511.     mova    [r1+ 16], m7

  512.     mova    [r1+ 32], m7

  513.     mova    [r1+ 48], m7

  514.     mova    [r1+ 64], m7

  515.     mova    [r1+ 80], m7

  516.     mova    [r1+ 96], m7

  517.     mova    [r1+112], m7

  518.     mova    [r1+128], m7

  519.     mova    [r1+144], m7

  520.     mova    [r1+160], m7

  521.     mova    [r1+176], m7

  522.     mova    [r1+192], m7

  523.     mova    [r1+208], m7

  524.     mova    [r1+224], m7

  525.     mova    [r1+240], m7

  526. %endif ; ARCH_X86_64

  527. 

  528.     add          rsp, pad

  529.     ret

  530. %endmacro

  531. 

  532. INIT_XMM sse2

  533. IDCT8_ADD

  534. INIT_XMM avx

  535. IDCT8_ADD

  536. 

  537. ;-----------------------------------------------------------------------------

  538. ; h264_idct8_add4(pixel **dst, const int *block_offset, dctcoef *block, int stride, const uint8_t nnzc[6*8])

  539. ;-----------------------------------------------------------------------------

  540. ;;;;;;; NO FATE SAMPLES TRIGGER THIS

  541. %macro IDCT8_ADD4_OP 2

  542.     cmp       byte [r4+%2], 0

  543.     jz .skipblock%1

  544.     mov      r0d, [r6+%1*4]

  545.     add       r0, r5

  546.     call h264_idct8_add1_10 %+ SUFFIX

  547. .skipblock%1:

  548. %if %1<12

  549.     add       r1, 256

  550. %endif

  551. %endmacro

  552. 

  553. %macro IDCT8_ADD4 0

  554. cglobal h264_idct8_add4_10, 0,7,16

  555.     %assign pad 16-gprsize-(stack_offset&15)

  556.     SUB      rsp, pad

  557.     mov       r5, r0mp

  558.     mov       r6, r1mp

  559.     mov       r1, r2mp

  560.     mov      r2d, r3m

  561.     movifnidn r4, r4mp

  562.     IDCT8_ADD4_OP  0, 4+1*8

  563.     IDCT8_ADD4_OP  4, 6+1*8

  564.     IDCT8_ADD4_OP  8, 4+3*8

  565.     IDCT8_ADD4_OP 12, 6+3*8

  566.     ADD       rsp, pad

  567.     RET

  568. %endmacro ; IDCT8_ADD4

  569. 

  570. INIT_XMM sse2

  571. IDCT8_ADD4

  572. INIT_XMM avx

  573. IDCT8_ADD4