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FFmpeg/libavcodec/x86/ac3dsp.asm

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

  2. ;* x86-optimized AC-3 DSP utils

  3. ;* Copyright (c) 2011 Justin Ruggles

  4. ;*

  5. ;* This file is part of Libav.

  6. ;*

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

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

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

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

  11. ;*

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

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

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

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

  16. ;*

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

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

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

  20. ;******************************************************************************

  21. 

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

  23. 

  24. SECTION_RODATA

  25. 

  26. ; 16777216.0f - used in ff_float_to_fixed24()

  27. pf_1_24: times 4 dd 0x4B800000

  28. 

  29. ; used in ff_ac3_compute_mantissa_size()

  30. cextern ac3_bap_bits

  31. pw_bap_mul1: dw 21846, 21846, 0, 32768, 21846, 21846, 0, 32768

  32. pw_bap_mul2: dw 5, 7, 0, 7, 5, 7, 0, 7

  33. 

  34. ; used in ff_ac3_extract_exponents()

  35. pd_1:   times 4 dd 1

  36. pd_151: times 4 dd 151

  37. 

  38. SECTION .text

  39. 

  40. ;-----------------------------------------------------------------------------

  41. ; void ff_ac3_exponent_min(uint8_t *exp, int num_reuse_blocks, int nb_coefs)

  42. ;-----------------------------------------------------------------------------

  43. 

  44. %macro AC3_EXPONENT_MIN 0

  45. cglobal ac3_exponent_min, 3, 4, 2, exp, reuse_blks, expn, offset

  46.     shl  reuse_blksq, 8

  47.     jz .end

  48.     LOOP_ALIGN

  49. .nextexp:

  50.     mov      offsetq, reuse_blksq

  51.     mova          m0, [expq+offsetq]

  52.     sub      offsetq, 256

  53.     LOOP_ALIGN

  54. .nextblk:

  55.     PMINUB        m0, [expq+offsetq], m1

  56.     sub      offsetq, 256

  57.     jae .nextblk

  58.     mova      [expq], m0

  59.     add         expq, mmsize

  60.     sub        expnq, mmsize

  61.     jg .nextexp

  62. .end:

  63.     REP_RET

  64. %endmacro

  65. 

  66. %define PMINUB PMINUB_MMX

  67. %define LOOP_ALIGN

  68. INIT_MMX mmx

  69. AC3_EXPONENT_MIN

  70. %if HAVE_MMXEXT

  71. %define PMINUB PMINUB_MMXEXT

  72. %define LOOP_ALIGN ALIGN 16

  73. INIT_MMX mmxext

  74. AC3_EXPONENT_MIN

  75. %endif

  76. %if HAVE_SSE2_EXTERNAL

  77. INIT_XMM sse2

  78. AC3_EXPONENT_MIN

  79. %endif

  80. %undef PMINUB

  81. %undef LOOP_ALIGN

  82. 

  83. ;-----------------------------------------------------------------------------

  84. ; int ff_ac3_max_msb_abs_int16(const int16_t *src, int len)

  85. ;

  86. ; This function uses 2 different methods to calculate a valid result.

  87. ; 1) logical 'or' of abs of each element

  88. ;        This is used for ssse3 because of the pabsw instruction.

  89. ;        It is also used for mmx because of the lack of min/max instructions.

  90. ; 2) calculate min/max for the array, then or(abs(min),abs(max))

  91. ;        This is used for mmxext and sse2 because they have pminsw/pmaxsw.

  92. ;-----------------------------------------------------------------------------

  93. 

  94. ; logical 'or' of 4 or 8 words in an mmx or xmm register into the low word

  95. %macro OR_WORDS_HORIZ 2 ; src, tmp

  96. %if cpuflag(sse2)

  97.     movhlps     %2, %1

  98.     por         %1, %2

  99.     pshuflw     %2, %1, q0032

  100.     por         %1, %2

  101.     pshuflw     %2, %1, q0001

  102.     por         %1, %2

  103. %elif cpuflag(mmx2)

  104.     pshufw      %2, %1, q0032

  105.     por         %1, %2

  106.     pshufw      %2, %1, q0001

  107.     por         %1, %2

  108. %else ; mmx

  109.     movq        %2, %1

  110.     psrlq       %2, 32

  111.     por         %1, %2

  112.     movq        %2, %1

  113.     psrlq       %2, 16

  114.     por         %1, %2

  115. %endif

  116. %endmacro

  117. 

  118. %macro AC3_MAX_MSB_ABS_INT16 1

  119. cglobal ac3_max_msb_abs_int16, 2,2,5, src, len

  120.     pxor        m2, m2

  121.     pxor        m3, m3

  122. .loop:

  123. %ifidn %1, min_max

  124.     mova        m0, [srcq]

  125.     mova        m1, [srcq+mmsize]

  126.     pminsw      m2, m0

  127.     pminsw      m2, m1

  128.     pmaxsw      m3, m0

  129.     pmaxsw      m3, m1

  130. %else ; or_abs

  131. %if notcpuflag(ssse3)

  132.     mova        m0, [srcq]

  133.     mova        m1, [srcq+mmsize]

  134.     ABS2        m0, m1, m3, m4

  135. %else ; ssse3

  136.     ; using memory args is faster for ssse3

  137.     pabsw       m0, [srcq]

  138.     pabsw       m1, [srcq+mmsize]

  139. %endif

  140.     por         m2, m0

  141.     por         m2, m1

  142. %endif

  143.     add       srcq, mmsize*2

  144.     sub       lend, mmsize

  145.     ja .loop

  146. %ifidn %1, min_max

  147.     ABS2        m2, m3, m0, m1

  148.     por         m2, m3

  149. %endif

  150.     OR_WORDS_HORIZ m2, m0

  151.     movd       eax, m2

  152.     and        eax, 0xFFFF

  153.     RET

  154. %endmacro

  155. 

  156. INIT_MMX mmx

  157. %define ABS2 ABS2_MMX

  158. AC3_MAX_MSB_ABS_INT16 or_abs

  159. INIT_MMX mmx2

  160. %define ABS2 ABS2_MMXEXT

  161. AC3_MAX_MSB_ABS_INT16 min_max

  162. INIT_XMM sse2

  163. AC3_MAX_MSB_ABS_INT16 min_max

  164. INIT_XMM ssse3

  165. %define ABS2 ABS2_SSSE3

  166. AC3_MAX_MSB_ABS_INT16 or_abs

  167. 

  168. ;-----------------------------------------------------------------------------

  169. ; macro used for ff_ac3_lshift_int16() and ff_ac3_rshift_int32()

  170. ;-----------------------------------------------------------------------------

  171. 

  172. %macro AC3_SHIFT 3 ; l/r, 16/32, shift instruction, instruction set

  173. cglobal ac3_%1shift_int%2, 3, 3, 5, src, len, shift

  174.     movd      m0, shiftd

  175. .loop:

  176.     mova      m1, [srcq         ]

  177.     mova      m2, [srcq+mmsize  ]

  178.     mova      m3, [srcq+mmsize*2]

  179.     mova      m4, [srcq+mmsize*3]

  180.     %3        m1, m0

  181.     %3        m2, m0

  182.     %3        m3, m0

  183.     %3        m4, m0

  184.     mova  [srcq         ], m1

  185.     mova  [srcq+mmsize  ], m2

  186.     mova  [srcq+mmsize*2], m3

  187.     mova  [srcq+mmsize*3], m4

  188.     add     srcq, mmsize*4

  189.     sub     lend, mmsize*32/%2

  190.     ja .loop

  191. .end:

  192.     REP_RET

  193. %endmacro

  194. 

  195. ;-----------------------------------------------------------------------------

  196. ; void ff_ac3_lshift_int16(int16_t *src, unsigned int len, unsigned int shift)

  197. ;-----------------------------------------------------------------------------

  198. 

  199. INIT_MMX mmx

  200. AC3_SHIFT l, 16, psllw

  201. INIT_XMM sse2

  202. AC3_SHIFT l, 16, psllw

  203. 

  204. ;-----------------------------------------------------------------------------

  205. ; void ff_ac3_rshift_int32(int32_t *src, unsigned int len, unsigned int shift)

  206. ;-----------------------------------------------------------------------------

  207. 

  208. INIT_MMX mmx

  209. AC3_SHIFT r, 32, psrad

  210. INIT_XMM sse2

  211. AC3_SHIFT r, 32, psrad

  212. 

  213. ;-----------------------------------------------------------------------------

  214. ; void ff_float_to_fixed24(int32_t *dst, const float *src, unsigned int len)

  215. ;-----------------------------------------------------------------------------

  216. 

  217. ; The 3DNow! version is not bit-identical because pf2id uses truncation rather

  218. ; than round-to-nearest.

  219. INIT_MMX 3dnow

  220. cglobal float_to_fixed24, 3, 3, 0, dst, src, len

  221.     movq   m0, [pf_1_24]

  222. .loop:

  223.     movq   m1, [srcq   ]

  224.     movq   m2, [srcq+8 ]

  225.     movq   m3, [srcq+16]

  226.     movq   m4, [srcq+24]

  227.     pfmul  m1, m0

  228.     pfmul  m2, m0

  229.     pfmul  m3, m0

  230.     pfmul  m4, m0

  231.     pf2id  m1, m1

  232.     pf2id  m2, m2

  233.     pf2id  m3, m3

  234.     pf2id  m4, m4

  235.     movq  [dstq   ], m1

  236.     movq  [dstq+8 ], m2

  237.     movq  [dstq+16], m3

  238.     movq  [dstq+24], m4

  239.     add  srcq, 32

  240.     add  dstq, 32

  241.     sub  lend, 8

  242.     ja .loop

  243.     femms

  244.     RET

  245. 

  246. INIT_XMM sse

  247. cglobal float_to_fixed24, 3, 3, 3, dst, src, len

  248.     movaps     m0, [pf_1_24]

  249. .loop:

  250.     movaps     m1, [srcq   ]

  251.     movaps     m2, [srcq+16]

  252.     mulps      m1, m0

  253.     mulps      m2, m0

  254.     cvtps2pi  mm0, m1

  255.     movhlps    m1, m1

  256.     cvtps2pi  mm1, m1

  257.     cvtps2pi  mm2, m2

  258.     movhlps    m2, m2

  259.     cvtps2pi  mm3, m2

  260.     movq  [dstq   ], mm0

  261.     movq  [dstq+ 8], mm1

  262.     movq  [dstq+16], mm2

  263.     movq  [dstq+24], mm3

  264.     add      srcq, 32

  265.     add      dstq, 32

  266.     sub      lend, 8

  267.     ja .loop

  268.     emms

  269.     RET

  270. 

  271. INIT_XMM sse2

  272. cglobal float_to_fixed24, 3, 3, 9, dst, src, len

  273.     movaps     m0, [pf_1_24]

  274. .loop:

  275.     movaps     m1, [srcq    ]

  276.     movaps     m2, [srcq+16 ]

  277.     movaps     m3, [srcq+32 ]

  278.     movaps     m4, [srcq+48 ]

  279. %ifdef m8

  280.     movaps     m5, [srcq+64 ]

  281.     movaps     m6, [srcq+80 ]

  282.     movaps     m7, [srcq+96 ]

  283.     movaps     m8, [srcq+112]

  284. %endif

  285.     mulps      m1, m0

  286.     mulps      m2, m0

  287.     mulps      m3, m0

  288.     mulps      m4, m0

  289. %ifdef m8

  290.     mulps      m5, m0

  291.     mulps      m6, m0

  292.     mulps      m7, m0

  293.     mulps      m8, m0

  294. %endif

  295.     cvtps2dq   m1, m1

  296.     cvtps2dq   m2, m2

  297.     cvtps2dq   m3, m3

  298.     cvtps2dq   m4, m4

  299. %ifdef m8

  300.     cvtps2dq   m5, m5

  301.     cvtps2dq   m6, m6

  302.     cvtps2dq   m7, m7

  303.     cvtps2dq   m8, m8

  304. %endif

  305.     movdqa  [dstq    ], m1

  306.     movdqa  [dstq+16 ], m2

  307.     movdqa  [dstq+32 ], m3

  308.     movdqa  [dstq+48 ], m4

  309. %ifdef m8

  310.     movdqa  [dstq+64 ], m5

  311.     movdqa  [dstq+80 ], m6

  312.     movdqa  [dstq+96 ], m7

  313.     movdqa  [dstq+112], m8

  314.     add      srcq, 128

  315.     add      dstq, 128

  316.     sub      lenq, 32

  317. %else

  318.     add      srcq, 64

  319.     add      dstq, 64

  320.     sub      lenq, 16

  321. %endif

  322.     ja .loop

  323.     REP_RET

  324. 

  325. ;------------------------------------------------------------------------------

  326. ; int ff_ac3_compute_mantissa_size(uint16_t mant_cnt[6][16])

  327. ;------------------------------------------------------------------------------

  328. 

  329. %macro PHADDD4 2 ; xmm src, xmm tmp

  330.     movhlps  %2, %1

  331.     paddd    %1, %2

  332.     pshufd   %2, %1, 0x1

  333.     paddd    %1, %2

  334. %endmacro

  335. 

  336. INIT_XMM sse2

  337. cglobal ac3_compute_mantissa_size, 1, 2, 4, mant_cnt, sum

  338.     movdqa      m0, [mant_cntq      ]

  339.     movdqa      m1, [mant_cntq+ 1*16]

  340.     paddw       m0, [mant_cntq+ 2*16]

  341.     paddw       m1, [mant_cntq+ 3*16]

  342.     paddw       m0, [mant_cntq+ 4*16]

  343.     paddw       m1, [mant_cntq+ 5*16]

  344.     paddw       m0, [mant_cntq+ 6*16]

  345.     paddw       m1, [mant_cntq+ 7*16]

  346.     paddw       m0, [mant_cntq+ 8*16]

  347.     paddw       m1, [mant_cntq+ 9*16]

  348.     paddw       m0, [mant_cntq+10*16]

  349.     paddw       m1, [mant_cntq+11*16]

  350.     pmaddwd     m0, [ac3_bap_bits   ]

  351.     pmaddwd     m1, [ac3_bap_bits+16]

  352.     paddd       m0, m1

  353.     PHADDD4     m0, m1

  354.     movd      sumd, m0

  355.     movdqa      m3, [pw_bap_mul1]

  356.     movhpd      m0, [mant_cntq     +2]

  357.     movlpd      m0, [mant_cntq+1*32+2]

  358.     movhpd      m1, [mant_cntq+2*32+2]

  359.     movlpd      m1, [mant_cntq+3*32+2]

  360.     movhpd      m2, [mant_cntq+4*32+2]

  361.     movlpd      m2, [mant_cntq+5*32+2]

  362.     pmulhuw     m0, m3

  363.     pmulhuw     m1, m3

  364.     pmulhuw     m2, m3

  365.     paddusw     m0, m1

  366.     paddusw     m0, m2

  367.     pmaddwd     m0, [pw_bap_mul2]

  368.     PHADDD4     m0, m1

  369.     movd       eax, m0

  370.     add        eax, sumd

  371.     RET

  372. 

  373. ;------------------------------------------------------------------------------

  374. ; void ff_ac3_extract_exponents(uint8_t *exp, int32_t *coef, int nb_coefs)

  375. ;------------------------------------------------------------------------------

  376. 

  377. %macro PABSD 1-2 ; src/dst, unused

  378. %if cpuflag(ssse3)

  379.     pabsd    %1, %1

  380. %else ; src/dst, tmp

  381.     pxor     %2, %2

  382.     pcmpgtd  %2, %1

  383.     pxor     %1, %2

  384.     psubd    %1, %2

  385. %endif

  386. %endmacro

  387. 

  388. %if HAVE_AMD3DNOW_EXTERNAL

  389. INIT_MMX 3dnow

  390. cglobal ac3_extract_exponents, 3, 3, 0, exp, coef, len

  391.     add      expq, lenq

  392.     lea     coefq, [coefq+4*lenq]

  393.     neg      lenq

  394.     movq       m3, [pd_1]

  395.     movq       m4, [pd_151]

  396. .loop:

  397.     movq       m0, [coefq+4*lenq  ]

  398.     movq       m1, [coefq+4*lenq+8]

  399.     PABSD      m0, m2

  400.     PABSD      m1, m2

  401.     pslld      m0, 1

  402.     por        m0, m3

  403.     pi2fd      m2, m0

  404.     psrld      m2, 23

  405.     movq       m0, m4

  406.     psubd      m0, m2

  407.     pslld      m1, 1

  408.     por        m1, m3

  409.     pi2fd      m2, m1

  410.     psrld      m2, 23

  411.     movq       m1, m4

  412.     psubd      m1, m2

  413.     packssdw   m0, m0

  414.     packuswb   m0, m0

  415.     packssdw   m1, m1

  416.     packuswb   m1, m1

  417.     punpcklwd  m0, m1

  418.     movd  [expq+lenq], m0

  419.     add      lenq, 4

  420.     jl .loop

  421.     REP_RET

  422. %endif

  423. 

  424. %macro AC3_EXTRACT_EXPONENTS 0

  425. cglobal ac3_extract_exponents, 3, 3, 4, exp, coef, len

  426.     add     expq, lenq

  427.     lea    coefq, [coefq+4*lenq]

  428.     neg     lenq

  429.     mova      m2, [pd_1]

  430.     mova      m3, [pd_151]

  431. .loop:

  432.     ; move 4 32-bit coefs to xmm0

  433.     mova      m0, [coefq+4*lenq]

  434.     ; absolute value

  435.     PABSD     m0, m1

  436.     ; convert to float and extract exponents

  437.     pslld     m0, 1

  438.     por       m0, m2

  439.     cvtdq2ps  m1, m0

  440.     psrld     m1, 23

  441.     mova      m0, m3

  442.     psubd     m0, m1

  443.     ; move the lowest byte in each of 4 dwords to the low dword

  444.     ; NOTE: We cannot just extract the low bytes with pshufb because the dword

  445.     ;       result for 16777215 is -1 due to float inaccuracy. Using packuswb

  446.     ;       clips this to 0, which is the correct exponent.

  447.     packssdw  m0, m0

  448.     packuswb  m0, m0

  449.     movd  [expq+lenq], m0

  450. 

  451.     add     lenq, 4

  452.     jl .loop

  453.     REP_RET

  454. %endmacro

  455. 

  456. %if HAVE_SSE2_EXTERNAL

  457. INIT_XMM sse2

  458. AC3_EXTRACT_EXPONENTS

  459. %endif

  460. %if HAVE_SSSE3_EXTERNAL

  461. INIT_XMM ssse3

  462. AC3_EXTRACT_EXPONENTS

  463. %endif