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FFmpeg/libswresample/x86/audio_convert.asm

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

  2. ;* Copyright (c) 2012 Michael Niedermayer

  3. ;*

  4. ;* This file is part of FFmpeg.

  5. ;*

  6. ;* FFmpeg is free software; you can redistribute it and/or

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

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

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

  10. ;*

  11. ;* FFmpeg is distributed in the hope that it will be useful,

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

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

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

  15. ;*

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

  17. ;* License along with FFmpeg; if not, write to the Free Software

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

  19. ;******************************************************************************

  20. 

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

  22. 

  23. SECTION_RODATA

  24. align 32

  25. flt2pm31: times 8 dd 4.6566129e-10

  26. flt2p31 : times 8 dd 2147483648.0

  27. flt2p15 : times 8 dd 32768.0

  28. 

  29. word_unpack_shuf : db  0, 1, 4, 5, 8, 9,12,13, 2, 3, 6, 7,10,11,14,15

  30. 

  31. SECTION .text

  32. 

  33. 

  34. ;to, from, a/u, log2_outsize, log_intsize, const

  35. %macro PACK_2CH 5-7

  36. cglobal pack_2ch_%2_to_%1_%3, 3, 4, 6, dst, src, len, src2

  37.     mov src2q   , [srcq+gprsize]

  38.     mov srcq    , [srcq]

  39.     mov dstq    , [dstq]

  40. %ifidn %3, a

  41.     test dstq, mmsize-1

  42.         jne pack_2ch_%2_to_%1_u_int %+ SUFFIX

  43.     test srcq, mmsize-1

  44.         jne pack_2ch_%2_to_%1_u_int %+ SUFFIX

  45.     test src2q, mmsize-1

  46.         jne pack_2ch_%2_to_%1_u_int %+ SUFFIX

  47. %else

  48. pack_2ch_%2_to_%1_u_int %+ SUFFIX

  49. %endif

  50.     lea     srcq , [srcq  + (1<<%5)*lenq]

  51.     lea     src2q, [src2q + (1<<%5)*lenq]

  52.     lea     dstq , [dstq  + (2<<%4)*lenq]

  53.     neg     lenq

  54.     %7 m0,m1,m2,m3,m4,m5

  55. .next:

  56. %if %4 >= %5

  57.     mov%3     m0, [         srcq +(1<<%5)*lenq]

  58.     mova      m1, m0

  59.     mov%3     m2, [         src2q+(1<<%5)*lenq]

  60. %if %5 == 1

  61.     punpcklwd m0, m2

  62.     punpckhwd m1, m2

  63. %else

  64.     punpckldq m0, m2

  65.     punpckhdq m1, m2

  66. %endif

  67.     %6 m0,m1,m2,m3,m4,m5

  68. %else

  69.     mov%3     m0, [         srcq +(1<<%5)*lenq]

  70.     mov%3     m1, [mmsize + srcq +(1<<%5)*lenq]

  71.     mov%3     m2, [         src2q+(1<<%5)*lenq]

  72.     mov%3     m3, [mmsize + src2q+(1<<%5)*lenq]

  73.     %6 m0,m1,m2,m3,m4,m5

  74.     mova      m2, m0

  75.     punpcklwd m0, m1

  76.     punpckhwd m2, m1

  77.     SWAP 1,2

  78. %endif

  79.     mov%3 [           dstq+(2<<%4)*lenq], m0

  80.     mov%3 [  mmsize + dstq+(2<<%4)*lenq], m1

  81. %if %4 > %5

  82.     mov%3 [2*mmsize + dstq+(2<<%4)*lenq], m2

  83.     mov%3 [3*mmsize + dstq+(2<<%4)*lenq], m3

  84.     add lenq, 4*mmsize/(2<<%4)

  85. %else

  86.     add lenq, 2*mmsize/(2<<%4)

  87. %endif

  88.         jl .next

  89.     REP_RET

  90. %endmacro

  91. 

  92. %macro UNPACK_2CH 5-7

  93. cglobal unpack_2ch_%2_to_%1_%3, 3, 4, 7, dst, src, len, dst2

  94.     mov dst2q   , [dstq+gprsize]

  95.     mov srcq    , [srcq]

  96.     mov dstq    , [dstq]

  97. %ifidn %3, a

  98.     test dstq, mmsize-1

  99.         jne unpack_2ch_%2_to_%1_u_int %+ SUFFIX

  100.     test srcq, mmsize-1

  101.         jne unpack_2ch_%2_to_%1_u_int %+ SUFFIX

  102.     test dst2q, mmsize-1

  103.         jne unpack_2ch_%2_to_%1_u_int %+ SUFFIX

  104. %else

  105. unpack_2ch_%2_to_%1_u_int %+ SUFFIX

  106. %endif

  107.     lea     srcq , [srcq  + (2<<%5)*lenq]

  108.     lea     dstq , [dstq  + (1<<%4)*lenq]

  109.     lea     dst2q, [dst2q + (1<<%4)*lenq]

  110.     neg     lenq

  111.     %7 m0,m1,m2,m3,m4,m5

  112.     mova      m6, [word_unpack_shuf]

  113. .next:

  114.     mov%3     m0, [           srcq +(2<<%5)*lenq]

  115.     mov%3     m2, [  mmsize + srcq +(2<<%5)*lenq]

  116. %if %5 == 1

  117. %ifidn SUFFIX, _ssse3

  118.     pshufb    m0, m6

  119.     mova      m1, m0

  120.     pshufb    m2, m6

  121.     punpcklqdq m0,m2

  122.     punpckhqdq m1,m2

  123. %else

  124.     mova      m1, m0

  125.     punpcklwd m0,m2

  126.     punpckhwd m1,m2

  127. 

  128.     mova      m2, m0

  129.     punpcklwd m0,m1

  130.     punpckhwd m2,m1

  131. 

  132.     mova      m1, m0

  133.     punpcklwd m0,m2

  134.     punpckhwd m1,m2

  135. %endif

  136. %else

  137.     mova      m1, m0

  138.     shufps    m0, m2, 10001000b

  139.     shufps    m1, m2, 11011101b

  140. %endif

  141. %if %4 < %5

  142.     mov%3     m2, [2*mmsize + srcq +(2<<%5)*lenq]

  143.     mova      m3, m2

  144.     mov%3     m4, [3*mmsize + srcq +(2<<%5)*lenq]

  145.     shufps    m2, m4, 10001000b

  146.     shufps    m3, m4, 11011101b

  147.     SWAP 1,2

  148. %endif

  149.     %6 m0,m1,m2,m3,m4,m5

  150.     mov%3 [           dstq+(1<<%4)*lenq], m0

  151. %if %4 > %5

  152.     mov%3 [          dst2q+(1<<%4)*lenq], m2

  153.     mov%3 [ mmsize +  dstq+(1<<%4)*lenq], m1

  154.     mov%3 [ mmsize + dst2q+(1<<%4)*lenq], m3

  155.     add lenq, 2*mmsize/(1<<%4)

  156. %else

  157.     mov%3 [          dst2q+(1<<%4)*lenq], m1

  158.     add lenq, mmsize/(1<<%4)

  159. %endif

  160.         jl .next

  161.     REP_RET

  162. %endmacro

  163. 

  164. %macro CONV 5-7

  165. cglobal %2_to_%1_%3, 3, 3, 6, dst, src, len

  166.     mov srcq    , [srcq]

  167.     mov dstq    , [dstq]

  168. %ifidn %3, a

  169.     test dstq, mmsize-1

  170.         jne %2_to_%1_u_int %+ SUFFIX

  171.     test srcq, mmsize-1

  172.         jne %2_to_%1_u_int %+ SUFFIX

  173. %else

  174. %2_to_%1_u_int %+ SUFFIX

  175. %endif

  176.     lea     srcq , [srcq  + (1<<%5)*lenq]

  177.     lea     dstq , [dstq  + (1<<%4)*lenq]

  178.     neg     lenq

  179.     %7 m0,m1,m2,m3,m4,m5

  180. .next:

  181.     mov%3     m0, [           srcq +(1<<%5)*lenq]

  182.     mov%3     m1, [  mmsize + srcq +(1<<%5)*lenq]

  183. %if %4 < %5

  184.     mov%3     m2, [2*mmsize + srcq +(1<<%5)*lenq]

  185.     mov%3     m3, [3*mmsize + srcq +(1<<%5)*lenq]

  186. %endif

  187.     %6 m0,m1,m2,m3,m4,m5

  188.     mov%3 [           dstq+(1<<%4)*lenq], m0

  189.     mov%3 [  mmsize + dstq+(1<<%4)*lenq], m1

  190. %if %4 > %5

  191.     mov%3 [2*mmsize + dstq+(1<<%4)*lenq], m2

  192.     mov%3 [3*mmsize + dstq+(1<<%4)*lenq], m3

  193.     add lenq, 4*mmsize/(1<<%4)

  194. %else

  195.     add lenq, 2*mmsize/(1<<%4)

  196. %endif

  197.         jl .next

  198. %if mmsize == 8

  199.     emms

  200.     RET

  201. %else

  202.     REP_RET

  203. %endif

  204. %endmacro

  205. 

  206. %macro PACK_6CH 5-7

  207. cglobal pack_6ch_%2_to_%1_%3, 2,8,7, dst, src, src1, src2, src3, src4, src5, len

  208. %if ARCH_X86_64

  209.     mov     lend, r2d

  210. %else

  211.     %define lend dword r2m

  212. %endif

  213.     mov    src1q, [srcq+1*gprsize]

  214.     mov    src2q, [srcq+2*gprsize]

  215.     mov    src3q, [srcq+3*gprsize]

  216.     mov    src4q, [srcq+4*gprsize]

  217.     mov    src5q, [srcq+5*gprsize]

  218.     mov     srcq, [srcq]

  219.     mov     dstq, [dstq]

  220. %ifidn %3, a

  221.     test dstq, mmsize-1

  222.         jne pack_6ch_%2_to_%1_u_int %+ SUFFIX

  223.     test srcq, mmsize-1

  224.         jne pack_6ch_%2_to_%1_u_int %+ SUFFIX

  225.     test src2q, mmsize-1

  226.         jne pack_6ch_%2_to_%1_u_int %+ SUFFIX

  227.     test src3q, mmsize-1

  228.         jne pack_6ch_%2_to_%1_u_int %+ SUFFIX

  229.     test src4q, mmsize-1

  230.         jne pack_6ch_%2_to_%1_u_int %+ SUFFIX

  231.     test src5q, mmsize-1

  232.         jne pack_6ch_%2_to_%1_u_int %+ SUFFIX

  233. %else

  234. pack_6ch_%2_to_%1_u_int %+ SUFFIX

  235. %endif

  236.     sub    src1q, srcq

  237.     sub    src2q, srcq

  238.     sub    src3q, srcq

  239.     sub    src4q, srcq

  240.     sub    src5q, srcq

  241. .loop:

  242.     mov%3     m0, [srcq      ]

  243.     mov%3     m1, [srcq+src1q]

  244.     mov%3     m2, [srcq+src2q]

  245.     mov%3     m3, [srcq+src3q]

  246.     mov%3     m4, [srcq+src4q]

  247.     mov%3     m5, [srcq+src5q]

  248.     %7 x,x,x,x,m7,x

  249. %if cpuflag(sse4)

  250.     SBUTTERFLYPS 0, 1, 6

  251.     SBUTTERFLYPS 2, 3, 6

  252.     SBUTTERFLYPS 4, 5, 6

  253. 

  254.     blendps   m6, m4, m0, 1100b

  255.     movlhps   m0, m2

  256.     movhlps   m4, m2

  257.     blendps   m2, m5, m1, 1100b

  258.     movlhps   m1, m3

  259.     movhlps   m5, m3

  260. 

  261.     %6 m0,m6,x,x,m7,m3

  262.     %6 m4,m1,x,x,m7,m3

  263.     %6 m2,m5,x,x,m7,m3

  264. 

  265.     mov %+ %3 %+ ps [dstq   ], m0

  266.     mov %+ %3 %+ ps [dstq+16], m6

  267.     mov %+ %3 %+ ps [dstq+32], m4

  268.     mov %+ %3 %+ ps [dstq+48], m1

  269.     mov %+ %3 %+ ps [dstq+64], m2

  270.     mov %+ %3 %+ ps [dstq+80], m5

  271. %else ; mmx

  272.     SBUTTERFLY dq, 0, 1, 6

  273.     SBUTTERFLY dq, 2, 3, 6

  274.     SBUTTERFLY dq, 4, 5, 6

  275. 

  276.     movq   [dstq   ], m0

  277.     movq   [dstq+ 8], m2

  278.     movq   [dstq+16], m4

  279.     movq   [dstq+24], m1

  280.     movq   [dstq+32], m3

  281.     movq   [dstq+40], m5

  282. %endif

  283.     add      srcq, mmsize

  284.     add      dstq, mmsize*6

  285.     sub      lend, mmsize/4

  286.     jg .loop

  287. %if mmsize == 8

  288.     emms

  289.     RET

  290. %else

  291.     REP_RET

  292. %endif

  293. %endmacro

  294. 

  295. %macro INT16_TO_INT32_N 6

  296.     pxor      m2, m2

  297.     pxor      m3, m3

  298.     punpcklwd m2, m1

  299.     punpckhwd m3, m1

  300.     SWAP 4,0

  301.     pxor      m0, m0

  302.     pxor      m1, m1

  303.     punpcklwd m0, m4

  304.     punpckhwd m1, m4

  305. %endmacro

  306. 

  307. %macro INT32_TO_INT16_N 6

  308.     psrad     m0, 16

  309.     psrad     m1, 16

  310.     psrad     m2, 16

  311.     psrad     m3, 16

  312.     packssdw  m0, m1

  313.     packssdw  m2, m3

  314.     SWAP 1,2

  315. %endmacro

  316. 

  317. %macro INT32_TO_FLOAT_INIT 6

  318.     mova      %5, [flt2pm31]

  319. %endmacro

  320. %macro INT32_TO_FLOAT_N 6

  321.     cvtdq2ps  %1, %1

  322.     cvtdq2ps  %2, %2

  323.     mulps %1, %1, %5

  324.     mulps %2, %2, %5

  325. %endmacro

  326. 

  327. %macro FLOAT_TO_INT32_INIT 6

  328.     mova      %5, [flt2p31]

  329. %endmacro

  330. %macro FLOAT_TO_INT32_N 6

  331.     mulps %1, %5

  332.     mulps %2, %5

  333.     cvtps2dq  %6, %1

  334.     cmpnltps %1, %5

  335.     paddd %1, %6

  336.     cvtps2dq  %6, %2

  337.     cmpnltps %2, %5

  338.     paddd %2, %6

  339. %endmacro

  340. 

  341. %macro INT16_TO_FLOAT_INIT 6

  342.     mova      m5, [flt2pm31]

  343. %endmacro

  344. %macro INT16_TO_FLOAT_N 6

  345.     INT16_TO_INT32_N %1,%2,%3,%4,%5,%6

  346.     cvtdq2ps  m0, m0

  347.     cvtdq2ps  m1, m1

  348.     cvtdq2ps  m2, m2

  349.     cvtdq2ps  m3, m3

  350.     mulps m0, m0, m5

  351.     mulps m1, m1, m5

  352.     mulps m2, m2, m5

  353.     mulps m3, m3, m5

  354. %endmacro

  355. 

  356. %macro FLOAT_TO_INT16_INIT 6

  357.     mova      m5, [flt2p15]

  358. %endmacro

  359. %macro FLOAT_TO_INT16_N 6

  360.     mulps m0, m5

  361.     mulps m1, m5

  362.     mulps m2, m5

  363.     mulps m3, m5

  364.     cvtps2dq  m0, m0

  365.     cvtps2dq  m1, m1

  366.     packssdw  m0, m1

  367.     cvtps2dq  m1, m2

  368.     cvtps2dq  m3, m3

  369.     packssdw  m1, m3

  370. %endmacro

  371. 

  372. %macro NOP_N 0-6

  373. %endmacro

  374. 

  375. INIT_MMX mmx

  376. CONV int32, int16, u, 2, 1, INT16_TO_INT32_N, NOP_N

  377. CONV int32, int16, a, 2, 1, INT16_TO_INT32_N, NOP_N

  378. CONV int16, int32, u, 1, 2, INT32_TO_INT16_N, NOP_N

  379. CONV int16, int32, a, 1, 2, INT32_TO_INT16_N, NOP_N

  380. 

  381. PACK_6CH float, float, u, 2, 2, NOP_N, NOP_N

  382. PACK_6CH float, float, a, 2, 2, NOP_N, NOP_N

  383. 

  384. INIT_XMM sse2

  385. CONV int32, int16, u, 2, 1, INT16_TO_INT32_N, NOP_N

  386. CONV int32, int16, a, 2, 1, INT16_TO_INT32_N, NOP_N

  387. CONV int16, int32, u, 1, 2, INT32_TO_INT16_N, NOP_N

  388. CONV int16, int32, a, 1, 2, INT32_TO_INT16_N, NOP_N

  389. 

  390. PACK_2CH int16, int16, u, 1, 1, NOP_N, NOP_N

  391. PACK_2CH int16, int16, a, 1, 1, NOP_N, NOP_N

  392. PACK_2CH int32, int32, u, 2, 2, NOP_N, NOP_N

  393. PACK_2CH int32, int32, a, 2, 2, NOP_N, NOP_N

  394. PACK_2CH int32, int16, u, 2, 1, INT16_TO_INT32_N, NOP_N

  395. PACK_2CH int32, int16, a, 2, 1, INT16_TO_INT32_N, NOP_N

  396. PACK_2CH int16, int32, u, 1, 2, INT32_TO_INT16_N, NOP_N

  397. PACK_2CH int16, int32, a, 1, 2, INT32_TO_INT16_N, NOP_N

  398. 

  399. UNPACK_2CH int16, int16, u, 1, 1, NOP_N, NOP_N

  400. UNPACK_2CH int16, int16, a, 1, 1, NOP_N, NOP_N

  401. UNPACK_2CH int32, int32, u, 2, 2, NOP_N, NOP_N

  402. UNPACK_2CH int32, int32, a, 2, 2, NOP_N, NOP_N

  403. UNPACK_2CH int32, int16, u, 2, 1, INT16_TO_INT32_N, NOP_N

  404. UNPACK_2CH int32, int16, a, 2, 1, INT16_TO_INT32_N, NOP_N

  405. UNPACK_2CH int16, int32, u, 1, 2, INT32_TO_INT16_N, NOP_N

  406. UNPACK_2CH int16, int32, a, 1, 2, INT32_TO_INT16_N, NOP_N

  407. 

  408. CONV float, int32, u, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  409. CONV float, int32, a, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  410. CONV int32, float, u, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  411. CONV int32, float, a, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  412. CONV float, int16, u, 2, 1, INT16_TO_FLOAT_N, INT16_TO_FLOAT_INIT

  413. CONV float, int16, a, 2, 1, INT16_TO_FLOAT_N, INT16_TO_FLOAT_INIT

  414. CONV int16, float, u, 1, 2, FLOAT_TO_INT16_N, FLOAT_TO_INT16_INIT

  415. CONV int16, float, a, 1, 2, FLOAT_TO_INT16_N, FLOAT_TO_INT16_INIT

  416. 

  417. PACK_2CH float, int32, u, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  418. PACK_2CH float, int32, a, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  419. PACK_2CH int32, float, u, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  420. PACK_2CH int32, float, a, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  421. PACK_2CH float, int16, u, 2, 1, INT16_TO_FLOAT_N, INT16_TO_FLOAT_INIT

  422. PACK_2CH float, int16, a, 2, 1, INT16_TO_FLOAT_N, INT16_TO_FLOAT_INIT

  423. PACK_2CH int16, float, u, 1, 2, FLOAT_TO_INT16_N, FLOAT_TO_INT16_INIT

  424. PACK_2CH int16, float, a, 1, 2, FLOAT_TO_INT16_N, FLOAT_TO_INT16_INIT

  425. 

  426. UNPACK_2CH float, int32, u, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  427. UNPACK_2CH float, int32, a, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  428. UNPACK_2CH int32, float, u, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  429. UNPACK_2CH int32, float, a, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  430. UNPACK_2CH float, int16, u, 2, 1, INT16_TO_FLOAT_N, INT16_TO_FLOAT_INIT

  431. UNPACK_2CH float, int16, a, 2, 1, INT16_TO_FLOAT_N, INT16_TO_FLOAT_INIT

  432. UNPACK_2CH int16, float, u, 1, 2, FLOAT_TO_INT16_N, FLOAT_TO_INT16_INIT

  433. UNPACK_2CH int16, float, a, 1, 2, FLOAT_TO_INT16_N, FLOAT_TO_INT16_INIT

  434. 

  435. 

  436. INIT_XMM ssse3

  437. UNPACK_2CH int16, int16, u, 1, 1, NOP_N, NOP_N

  438. UNPACK_2CH int16, int16, a, 1, 1, NOP_N, NOP_N

  439. UNPACK_2CH int32, int16, u, 2, 1, INT16_TO_INT32_N, NOP_N

  440. UNPACK_2CH int32, int16, a, 2, 1, INT16_TO_INT32_N, NOP_N

  441. UNPACK_2CH float, int16, u, 2, 1, INT16_TO_FLOAT_N, INT16_TO_FLOAT_INIT

  442. UNPACK_2CH float, int16, a, 2, 1, INT16_TO_FLOAT_N, INT16_TO_FLOAT_INIT

  443. 

  444. INIT_XMM sse4

  445. PACK_6CH float, float, u, 2, 2, NOP_N, NOP_N

  446. PACK_6CH float, float, a, 2, 2, NOP_N, NOP_N

  447. 

  448. PACK_6CH float, int32, u, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  449. PACK_6CH float, int32, a, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  450. PACK_6CH int32, float, u, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  451. PACK_6CH int32, float, a, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  452. 

  453. %if HAVE_AVX_EXTERNAL

  454. INIT_XMM avx

  455. PACK_6CH float, float, u, 2, 2, NOP_N, NOP_N

  456. PACK_6CH float, float, a, 2, 2, NOP_N, NOP_N

  457. 

  458. PACK_6CH float, int32, u, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  459. PACK_6CH float, int32, a, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  460. PACK_6CH int32, float, u, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  461. PACK_6CH int32, float, a, 2, 2, FLOAT_TO_INT32_N, FLOAT_TO_INT32_INIT

  462. 

  463. INIT_YMM avx

  464. CONV float, int32, u, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  465. CONV float, int32, a, 2, 2, INT32_TO_FLOAT_N, INT32_TO_FLOAT_INIT

  466. %endif