mirror of
https://github.com/xenia-project/FFmpeg.git
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7c00e9d8ae
The function requires increasing the fuzz factor for the ac3/eac3 encode tests and even so makes fate fail. It only provides a slight encoding speedup for legacy CPUs that do not support SS2. Thus its benefit is not worth the trouble it creates and fixing it would be a waste of time.
422 lines
11 KiB
NASM
422 lines
11 KiB
NASM
;*****************************************************************************
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;* x86-optimized AC-3 DSP utils
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;* Copyright (c) 2011 Justin Ruggles
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;*
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;* This file is part of Libav.
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;*
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;* Libav is free software; you can redistribute it and/or
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;* modify it under the terms of the GNU Lesser General Public
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;* License as published by the Free Software Foundation; either
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;* version 2.1 of the License, or (at your option) any later version.
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;*
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;* Libav is distributed in the hope that it will be useful,
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;* but WITHOUT ANY WARRANTY; without even the implied warranty of
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;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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;* Lesser General Public License for more details.
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;*
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;* You should have received a copy of the GNU Lesser General Public
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;* License along with Libav; if not, write to the Free Software
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;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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;******************************************************************************
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%include "libavutil/x86/x86util.asm"
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SECTION_RODATA
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; 16777216.0f - used in ff_float_to_fixed24()
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pf_1_24: times 4 dd 0x4B800000
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; used in ff_ac3_compute_mantissa_size()
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cextern ac3_bap_bits
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pw_bap_mul1: dw 21846, 21846, 0, 32768, 21846, 21846, 0, 32768
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pw_bap_mul2: dw 5, 7, 0, 7, 5, 7, 0, 7
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; used in ff_ac3_extract_exponents()
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pd_1: times 4 dd 1
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pd_151: times 4 dd 151
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SECTION .text
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;-----------------------------------------------------------------------------
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; void ff_ac3_exponent_min(uint8_t *exp, int num_reuse_blocks, int nb_coefs)
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;-----------------------------------------------------------------------------
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%macro AC3_EXPONENT_MIN 0
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cglobal ac3_exponent_min, 3, 4, 2, exp, reuse_blks, expn, offset
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shl reuse_blksq, 8
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jz .end
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LOOP_ALIGN
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.nextexp:
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mov offsetq, reuse_blksq
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mova m0, [expq+offsetq]
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sub offsetq, 256
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LOOP_ALIGN
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.nextblk:
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PMINUB m0, [expq+offsetq], m1
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sub offsetq, 256
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jae .nextblk
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mova [expq], m0
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add expq, mmsize
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sub expnq, mmsize
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jg .nextexp
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.end:
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REP_RET
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%endmacro
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%define LOOP_ALIGN
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INIT_MMX mmx
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AC3_EXPONENT_MIN
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%if HAVE_MMXEXT_EXTERNAL
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%define LOOP_ALIGN ALIGN 16
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INIT_MMX mmxext
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AC3_EXPONENT_MIN
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%endif
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%if HAVE_SSE2_EXTERNAL
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INIT_XMM sse2
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AC3_EXPONENT_MIN
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%endif
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%undef LOOP_ALIGN
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;-----------------------------------------------------------------------------
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; int ff_ac3_max_msb_abs_int16(const int16_t *src, int len)
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;
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; This function uses 2 different methods to calculate a valid result.
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; 1) logical 'or' of abs of each element
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; This is used for ssse3 because of the pabsw instruction.
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; It is also used for mmx because of the lack of min/max instructions.
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; 2) calculate min/max for the array, then or(abs(min),abs(max))
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; This is used for mmxext and sse2 because they have pminsw/pmaxsw.
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;-----------------------------------------------------------------------------
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; logical 'or' of 4 or 8 words in an mmx or xmm register into the low word
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%macro OR_WORDS_HORIZ 2 ; src, tmp
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%if cpuflag(sse2)
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movhlps %2, %1
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por %1, %2
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pshuflw %2, %1, q0032
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por %1, %2
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pshuflw %2, %1, q0001
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por %1, %2
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%elif cpuflag(mmxext)
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pshufw %2, %1, q0032
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por %1, %2
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pshufw %2, %1, q0001
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por %1, %2
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%else ; mmx
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movq %2, %1
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psrlq %2, 32
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por %1, %2
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movq %2, %1
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psrlq %2, 16
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por %1, %2
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%endif
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%endmacro
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%macro AC3_MAX_MSB_ABS_INT16 1
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cglobal ac3_max_msb_abs_int16, 2,2,5, src, len
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pxor m2, m2
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pxor m3, m3
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.loop:
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%ifidn %1, min_max
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mova m0, [srcq]
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mova m1, [srcq+mmsize]
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pminsw m2, m0
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pminsw m2, m1
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pmaxsw m3, m0
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pmaxsw m3, m1
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%else ; or_abs
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%if notcpuflag(ssse3)
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mova m0, [srcq]
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mova m1, [srcq+mmsize]
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ABS2 m0, m1, m3, m4
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%else ; ssse3
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; using memory args is faster for ssse3
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pabsw m0, [srcq]
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pabsw m1, [srcq+mmsize]
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%endif
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por m2, m0
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por m2, m1
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%endif
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add srcq, mmsize*2
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sub lend, mmsize
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ja .loop
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%ifidn %1, min_max
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ABS2 m2, m3, m0, m1
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por m2, m3
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%endif
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OR_WORDS_HORIZ m2, m0
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movd eax, m2
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and eax, 0xFFFF
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RET
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%endmacro
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INIT_MMX mmx
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AC3_MAX_MSB_ABS_INT16 or_abs
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INIT_MMX mmxext
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AC3_MAX_MSB_ABS_INT16 min_max
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INIT_XMM sse2
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AC3_MAX_MSB_ABS_INT16 min_max
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INIT_XMM ssse3
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AC3_MAX_MSB_ABS_INT16 or_abs
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;-----------------------------------------------------------------------------
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; macro used for ff_ac3_lshift_int16() and ff_ac3_rshift_int32()
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;-----------------------------------------------------------------------------
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%macro AC3_SHIFT 3 ; l/r, 16/32, shift instruction, instruction set
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cglobal ac3_%1shift_int%2, 3, 3, 5, src, len, shift
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movd m0, shiftd
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.loop:
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mova m1, [srcq ]
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mova m2, [srcq+mmsize ]
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mova m3, [srcq+mmsize*2]
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mova m4, [srcq+mmsize*3]
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%3 m1, m0
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%3 m2, m0
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%3 m3, m0
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%3 m4, m0
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mova [srcq ], m1
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mova [srcq+mmsize ], m2
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mova [srcq+mmsize*2], m3
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mova [srcq+mmsize*3], m4
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add srcq, mmsize*4
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sub lend, mmsize*32/%2
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ja .loop
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.end:
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REP_RET
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%endmacro
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;-----------------------------------------------------------------------------
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; void ff_ac3_lshift_int16(int16_t *src, unsigned int len, unsigned int shift)
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;-----------------------------------------------------------------------------
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INIT_MMX mmx
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AC3_SHIFT l, 16, psllw
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INIT_XMM sse2
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AC3_SHIFT l, 16, psllw
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;-----------------------------------------------------------------------------
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; void ff_ac3_rshift_int32(int32_t *src, unsigned int len, unsigned int shift)
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;-----------------------------------------------------------------------------
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INIT_MMX mmx
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AC3_SHIFT r, 32, psrad
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INIT_XMM sse2
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AC3_SHIFT r, 32, psrad
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;-----------------------------------------------------------------------------
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; void ff_float_to_fixed24(int32_t *dst, const float *src, unsigned int len)
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;-----------------------------------------------------------------------------
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; The 3DNow! version is not bit-identical because pf2id uses truncation rather
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; than round-to-nearest.
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INIT_MMX 3dnow
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cglobal float_to_fixed24, 3, 3, 0, dst, src, len
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movq m0, [pf_1_24]
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.loop:
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movq m1, [srcq ]
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movq m2, [srcq+8 ]
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movq m3, [srcq+16]
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movq m4, [srcq+24]
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pfmul m1, m0
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pfmul m2, m0
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pfmul m3, m0
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pfmul m4, m0
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pf2id m1, m1
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pf2id m2, m2
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pf2id m3, m3
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pf2id m4, m4
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movq [dstq ], m1
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movq [dstq+8 ], m2
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movq [dstq+16], m3
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movq [dstq+24], m4
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add srcq, 32
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add dstq, 32
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sub lend, 8
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ja .loop
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femms
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RET
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INIT_XMM sse
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cglobal float_to_fixed24, 3, 3, 3, dst, src, len
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movaps m0, [pf_1_24]
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.loop:
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movaps m1, [srcq ]
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movaps m2, [srcq+16]
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mulps m1, m0
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mulps m2, m0
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cvtps2pi mm0, m1
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movhlps m1, m1
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cvtps2pi mm1, m1
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cvtps2pi mm2, m2
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movhlps m2, m2
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cvtps2pi mm3, m2
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movq [dstq ], mm0
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movq [dstq+ 8], mm1
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movq [dstq+16], mm2
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movq [dstq+24], mm3
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add srcq, 32
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add dstq, 32
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sub lend, 8
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ja .loop
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emms
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RET
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INIT_XMM sse2
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cglobal float_to_fixed24, 3, 3, 9, dst, src, len
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movaps m0, [pf_1_24]
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.loop:
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movaps m1, [srcq ]
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movaps m2, [srcq+16 ]
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movaps m3, [srcq+32 ]
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movaps m4, [srcq+48 ]
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%ifdef m8
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movaps m5, [srcq+64 ]
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movaps m6, [srcq+80 ]
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movaps m7, [srcq+96 ]
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movaps m8, [srcq+112]
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%endif
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mulps m1, m0
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mulps m2, m0
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mulps m3, m0
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mulps m4, m0
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%ifdef m8
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mulps m5, m0
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mulps m6, m0
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mulps m7, m0
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mulps m8, m0
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%endif
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cvtps2dq m1, m1
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cvtps2dq m2, m2
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cvtps2dq m3, m3
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cvtps2dq m4, m4
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%ifdef m8
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cvtps2dq m5, m5
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cvtps2dq m6, m6
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cvtps2dq m7, m7
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cvtps2dq m8, m8
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%endif
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movdqa [dstq ], m1
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movdqa [dstq+16 ], m2
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movdqa [dstq+32 ], m3
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movdqa [dstq+48 ], m4
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%ifdef m8
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movdqa [dstq+64 ], m5
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movdqa [dstq+80 ], m6
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movdqa [dstq+96 ], m7
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movdqa [dstq+112], m8
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add srcq, 128
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add dstq, 128
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sub lenq, 32
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%else
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add srcq, 64
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add dstq, 64
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sub lenq, 16
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%endif
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ja .loop
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REP_RET
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;------------------------------------------------------------------------------
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; int ff_ac3_compute_mantissa_size(uint16_t mant_cnt[6][16])
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;------------------------------------------------------------------------------
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%macro PHADDD4 2 ; xmm src, xmm tmp
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movhlps %2, %1
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paddd %1, %2
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pshufd %2, %1, 0x1
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paddd %1, %2
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%endmacro
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INIT_XMM sse2
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cglobal ac3_compute_mantissa_size, 1, 2, 4, mant_cnt, sum
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movdqa m0, [mant_cntq ]
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movdqa m1, [mant_cntq+ 1*16]
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paddw m0, [mant_cntq+ 2*16]
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paddw m1, [mant_cntq+ 3*16]
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paddw m0, [mant_cntq+ 4*16]
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paddw m1, [mant_cntq+ 5*16]
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paddw m0, [mant_cntq+ 6*16]
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paddw m1, [mant_cntq+ 7*16]
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paddw m0, [mant_cntq+ 8*16]
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paddw m1, [mant_cntq+ 9*16]
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paddw m0, [mant_cntq+10*16]
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paddw m1, [mant_cntq+11*16]
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pmaddwd m0, [ac3_bap_bits ]
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pmaddwd m1, [ac3_bap_bits+16]
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paddd m0, m1
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PHADDD4 m0, m1
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movd sumd, m0
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movdqa m3, [pw_bap_mul1]
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movhpd m0, [mant_cntq +2]
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movlpd m0, [mant_cntq+1*32+2]
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movhpd m1, [mant_cntq+2*32+2]
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movlpd m1, [mant_cntq+3*32+2]
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movhpd m2, [mant_cntq+4*32+2]
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movlpd m2, [mant_cntq+5*32+2]
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pmulhuw m0, m3
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pmulhuw m1, m3
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pmulhuw m2, m3
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paddusw m0, m1
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paddusw m0, m2
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pmaddwd m0, [pw_bap_mul2]
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PHADDD4 m0, m1
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movd eax, m0
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add eax, sumd
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RET
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;------------------------------------------------------------------------------
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; void ff_ac3_extract_exponents(uint8_t *exp, int32_t *coef, int nb_coefs)
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;------------------------------------------------------------------------------
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%macro PABSD 1-2 ; src/dst, unused
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%if cpuflag(ssse3)
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pabsd %1, %1
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%else ; src/dst, tmp
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pxor %2, %2
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pcmpgtd %2, %1
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pxor %1, %2
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psubd %1, %2
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%endif
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%endmacro
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%macro AC3_EXTRACT_EXPONENTS 0
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cglobal ac3_extract_exponents, 3, 3, 4, exp, coef, len
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add expq, lenq
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lea coefq, [coefq+4*lenq]
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neg lenq
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mova m2, [pd_1]
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mova m3, [pd_151]
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.loop:
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; move 4 32-bit coefs to xmm0
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mova m0, [coefq+4*lenq]
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; absolute value
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PABSD m0, m1
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; convert to float and extract exponents
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pslld m0, 1
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por m0, m2
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cvtdq2ps m1, m0
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psrld m1, 23
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mova m0, m3
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psubd m0, m1
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; move the lowest byte in each of 4 dwords to the low dword
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; NOTE: We cannot just extract the low bytes with pshufb because the dword
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; result for 16777215 is -1 due to float inaccuracy. Using packuswb
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; clips this to 0, which is the correct exponent.
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packssdw m0, m0
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packuswb m0, m0
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movd [expq+lenq], m0
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add lenq, 4
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jl .loop
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REP_RET
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%endmacro
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%if HAVE_SSE2_EXTERNAL
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INIT_XMM sse2
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AC3_EXTRACT_EXPONENTS
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%endif
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%if HAVE_SSSE3_EXTERNAL
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INIT_XMM ssse3
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AC3_EXTRACT_EXPONENTS
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%endif
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