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663 lines
18 KiB
663 lines
18 KiB
;
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; jcphuff-sse2.asm - prepare data for progressive Huffman encoding (SSE2)
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;
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; Copyright (C) 2016, 2018, Matthieu Darbois
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;
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; Based on the x86 SIMD extension for IJG JPEG library
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; Copyright (C) 1999-2006, MIYASAKA Masaru.
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; For conditions of distribution and use, see copyright notice in jsimdext.inc
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;
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; This file should be assembled with NASM (Netwide Assembler),
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; can *not* be assembled with Microsoft's MASM or any compatible
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; assembler (including Borland's Turbo Assembler).
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; NASM is available from http://nasm.sourceforge.net/ or
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; http://sourceforge.net/project/showfiles.php?group_id=6208
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;
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; This file contains an SSE2 implementation of data preparation for progressive
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; Huffman encoding. See jcphuff.c for more details.
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%include "jsimdext.inc"
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; --------------------------------------------------------------------------
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SECTION SEG_TEXT
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BITS 32
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; --------------------------------------------------------------------------
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; Macros to load data for jsimd_encode_mcu_AC_first_prepare_sse2() and
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; jsimd_encode_mcu_AC_refine_prepare_sse2()
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%macro LOAD16 0
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pxor N0, N0
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pxor N1, N1
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mov T0, INT [LUT + 0*SIZEOF_INT]
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mov T1, INT [LUT + 8*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 0
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pinsrw X1, word [BLOCK + T1 * 2], 0
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mov T0, INT [LUT + 1*SIZEOF_INT]
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mov T1, INT [LUT + 9*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 1
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pinsrw X1, word [BLOCK + T1 * 2], 1
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mov T0, INT [LUT + 2*SIZEOF_INT]
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mov T1, INT [LUT + 10*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 2
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pinsrw X1, word [BLOCK + T1 * 2], 2
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mov T0, INT [LUT + 3*SIZEOF_INT]
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mov T1, INT [LUT + 11*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 3
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pinsrw X1, word [BLOCK + T1 * 2], 3
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mov T0, INT [LUT + 4*SIZEOF_INT]
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mov T1, INT [LUT + 12*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 4
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pinsrw X1, word [BLOCK + T1 * 2], 4
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mov T0, INT [LUT + 5*SIZEOF_INT]
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mov T1, INT [LUT + 13*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 5
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pinsrw X1, word [BLOCK + T1 * 2], 5
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mov T0, INT [LUT + 6*SIZEOF_INT]
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mov T1, INT [LUT + 14*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 6
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pinsrw X1, word [BLOCK + T1 * 2], 6
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mov T0, INT [LUT + 7*SIZEOF_INT]
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mov T1, INT [LUT + 15*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 7
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pinsrw X1, word [BLOCK + T1 * 2], 7
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%endmacro
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%macro LOAD15 0
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pxor N0, N0
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pxor N1, N1
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pxor X1, X1
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mov T0, INT [LUT + 0*SIZEOF_INT]
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mov T1, INT [LUT + 8*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 0
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pinsrw X1, word [BLOCK + T1 * 2], 0
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mov T0, INT [LUT + 1*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 1
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mov T0, INT [LUT + 2*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 2
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mov T0, INT [LUT + 3*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 3
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mov T0, INT [LUT + 4*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 4
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mov T0, INT [LUT + 5*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 5
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mov T0, INT [LUT + 6*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 6
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mov T0, INT [LUT + 7*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 7
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cmp LENEND, 2
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jl %%.ELOAD15
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mov T1, INT [LUT + 9*SIZEOF_INT]
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pinsrw X1, word [BLOCK + T1 * 2], 1
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cmp LENEND, 3
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jl %%.ELOAD15
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mov T1, INT [LUT + 10*SIZEOF_INT]
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pinsrw X1, word [BLOCK + T1 * 2], 2
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cmp LENEND, 4
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jl %%.ELOAD15
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mov T1, INT [LUT + 11*SIZEOF_INT]
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pinsrw X1, word [BLOCK + T1 * 2], 3
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cmp LENEND, 5
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jl %%.ELOAD15
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mov T1, INT [LUT + 12*SIZEOF_INT]
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pinsrw X1, word [BLOCK + T1 * 2], 4
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cmp LENEND, 6
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jl %%.ELOAD15
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mov T1, INT [LUT + 13*SIZEOF_INT]
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pinsrw X1, word [BLOCK + T1 * 2], 5
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cmp LENEND, 7
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jl %%.ELOAD15
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mov T1, INT [LUT + 14*SIZEOF_INT]
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pinsrw X1, word [BLOCK + T1 * 2], 6
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%%.ELOAD15:
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%endmacro
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%macro LOAD8 0
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pxor N0, N0
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mov T0, INT [LUT + 0*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 0
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mov T0, INT [LUT + 1*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 1
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mov T0, INT [LUT + 2*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 2
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mov T0, INT [LUT + 3*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 3
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mov T0, INT [LUT + 4*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 4
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mov T0, INT [LUT + 5*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 5
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mov T0, INT [LUT + 6*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 6
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mov T0, INT [LUT + 7*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T0 * 2], 7
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%endmacro
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%macro LOAD7 0
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pxor N0, N0
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pxor X0, X0
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mov T1, INT [LUT + 0*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T1 * 2], 0
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cmp LENEND, 2
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jl %%.ELOAD7
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mov T1, INT [LUT + 1*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T1 * 2], 1
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cmp LENEND, 3
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jl %%.ELOAD7
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mov T1, INT [LUT + 2*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T1 * 2], 2
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cmp LENEND, 4
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jl %%.ELOAD7
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mov T1, INT [LUT + 3*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T1 * 2], 3
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cmp LENEND, 5
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jl %%.ELOAD7
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mov T1, INT [LUT + 4*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T1 * 2], 4
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cmp LENEND, 6
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jl %%.ELOAD7
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mov T1, INT [LUT + 5*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T1 * 2], 5
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cmp LENEND, 7
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jl %%.ELOAD7
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mov T1, INT [LUT + 6*SIZEOF_INT]
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pinsrw X0, word [BLOCK + T1 * 2], 6
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%%.ELOAD7:
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%endmacro
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%macro REDUCE0 0
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movdqa xmm0, XMMWORD [VALUES + ( 0*2)]
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movdqa xmm1, XMMWORD [VALUES + ( 8*2)]
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movdqa xmm2, XMMWORD [VALUES + (16*2)]
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movdqa xmm3, XMMWORD [VALUES + (24*2)]
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movdqa xmm4, XMMWORD [VALUES + (32*2)]
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movdqa xmm5, XMMWORD [VALUES + (40*2)]
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movdqa xmm6, XMMWORD [VALUES + (48*2)]
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pcmpeqw xmm0, ZERO
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pcmpeqw xmm1, ZERO
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pcmpeqw xmm2, ZERO
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pcmpeqw xmm3, ZERO
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pcmpeqw xmm4, ZERO
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pcmpeqw xmm5, ZERO
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pcmpeqw xmm6, ZERO
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pcmpeqw xmm7, XMMWORD [VALUES + (56*2)]
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packsswb xmm0, xmm1
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packsswb xmm2, xmm3
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packsswb xmm4, xmm5
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packsswb xmm6, xmm7
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pmovmskb eax, xmm0
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pmovmskb ecx, xmm2
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pmovmskb edx, xmm4
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pmovmskb esi, xmm6
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shl ecx, 16
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shl esi, 16
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or eax, ecx
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or edx, esi
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not eax
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not edx
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mov edi, ZEROBITS
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mov INT [edi], eax
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mov INT [edi+SIZEOF_INT], edx
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%endmacro
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;
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; Prepare data for jsimd_encode_mcu_AC_first().
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;
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; GLOBAL(void)
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; jsimd_encode_mcu_AC_first_prepare_sse2(const JCOEF *block,
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; const int *jpeg_natural_order_start,
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; int Sl, int Al, JCOEF *values,
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; size_t *zerobits)
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;
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; eax + 8 = const JCOEF *block
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; eax + 12 = const int *jpeg_natural_order_start
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; eax + 16 = int Sl
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; eax + 20 = int Al
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; eax + 24 = JCOEF *values
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; eax + 28 = size_t *zerobits
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%define ZERO xmm7
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%define X0 xmm0
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%define X1 xmm1
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%define N0 xmm2
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%define N1 xmm3
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%define AL xmm4
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%define K eax
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%define LENEND eax
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%define LUT ebx
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%define T0 ecx
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%define T1 edx
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%define BLOCK esi
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%define VALUES edi
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%define LEN ebp
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%define ZEROBITS INT [esp + 5 * 4]
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align 32
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GLOBAL_FUNCTION(jsimd_encode_mcu_AC_first_prepare_sse2)
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EXTN(jsimd_encode_mcu_AC_first_prepare_sse2):
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push ebp
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mov eax, esp ; eax = original ebp
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sub esp, byte 4
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and esp, byte (-SIZEOF_XMMWORD) ; align to 128 bits
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mov [esp], eax
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mov ebp, esp ; ebp = aligned ebp
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sub esp, 4
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push ebx
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push ecx
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; push edx ; need not be preserved
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push esi
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push edi
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push ebp
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mov BLOCK, INT [eax + 8]
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mov LUT, INT [eax + 12]
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mov VALUES, INT [eax + 24]
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movd AL, INT [eax + 20]
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mov T0, INT [eax + 28]
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mov ZEROBITS, T0
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mov LEN, INT [eax + 16]
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pxor ZERO, ZERO
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mov K, LEN
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and K, -16
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shr K, 4
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jz .ELOOP16
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.BLOOP16:
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LOAD16
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pcmpgtw N0, X0
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pcmpgtw N1, X1
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paddw X0, N0
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paddw X1, N1
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pxor X0, N0
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pxor X1, N1
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psrlw X0, AL
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psrlw X1, AL
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pxor N0, X0
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pxor N1, X1
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movdqa XMMWORD [VALUES + (0) * 2], X0
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movdqa XMMWORD [VALUES + (8) * 2], X1
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movdqa XMMWORD [VALUES + (0 + DCTSIZE2) * 2], N0
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movdqa XMMWORD [VALUES + (8 + DCTSIZE2) * 2], N1
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add VALUES, 16*2
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add LUT, 16*SIZEOF_INT
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dec K
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jnz .BLOOP16
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test LEN, 15
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je .PADDING
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.ELOOP16:
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mov LENEND, LEN
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and LENEND, 7
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test LEN, 8
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jz .TRY7
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test LEN, 7
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jz .TRY8
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LOAD15
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pcmpgtw N0, X0
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pcmpgtw N1, X1
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paddw X0, N0
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paddw X1, N1
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pxor X0, N0
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pxor X1, N1
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psrlw X0, AL
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psrlw X1, AL
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pxor N0, X0
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pxor N1, X1
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movdqa XMMWORD [VALUES + (0) * 2], X0
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movdqa XMMWORD [VALUES + (8) * 2], X1
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movdqa XMMWORD [VALUES + (0 + DCTSIZE2) * 2], N0
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movdqa XMMWORD [VALUES + (8 + DCTSIZE2) * 2], N1
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add VALUES, 16*2
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jmp .PADDING
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.TRY8:
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LOAD8
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pcmpgtw N0, X0
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paddw X0, N0
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pxor X0, N0
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psrlw X0, AL
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pxor N0, X0
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movdqa XMMWORD [VALUES + (0) * 2], X0
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movdqa XMMWORD [VALUES + (0 + DCTSIZE2) * 2], N0
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add VALUES, 8*2
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jmp .PADDING
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.TRY7:
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LOAD7
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pcmpgtw N0, X0
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paddw X0, N0
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pxor X0, N0
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psrlw X0, AL
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pxor N0, X0
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movdqa XMMWORD [VALUES + (0) * 2], X0
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movdqa XMMWORD [VALUES + (0 + DCTSIZE2) * 2], N0
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add VALUES, 8*2
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.PADDING:
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mov K, LEN
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add K, 7
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and K, -8
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shr K, 3
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sub K, DCTSIZE2/8
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jz .EPADDING
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align 16
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.ZEROLOOP:
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movdqa XMMWORD [VALUES + 0], ZERO
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add VALUES, 8*2
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inc K
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jnz .ZEROLOOP
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.EPADDING:
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sub VALUES, DCTSIZE2*2
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REDUCE0
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pop ebp
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pop edi
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pop esi
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; pop edx ; need not be preserved
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pop ecx
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pop ebx
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mov esp, ebp ; esp <- aligned ebp
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pop esp ; esp <- original ebp
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pop ebp
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ret
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%undef ZERO
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%undef X0
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%undef X1
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%undef N0
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%undef N1
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%undef AL
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%undef K
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%undef LUT
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%undef T0
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%undef T1
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%undef BLOCK
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%undef VALUES
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%undef LEN
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;
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; Prepare data for jsimd_encode_mcu_AC_refine().
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;
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; GLOBAL(int)
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; jsimd_encode_mcu_AC_refine_prepare_sse2(const JCOEF *block,
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; const int *jpeg_natural_order_start,
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; int Sl, int Al, JCOEF *absvalues,
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; size_t *bits)
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;
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; eax + 8 = const JCOEF *block
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; eax + 12 = const int *jpeg_natural_order_start
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; eax + 16 = int Sl
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; eax + 20 = int Al
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; eax + 24 = JCOEF *values
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; eax + 28 = size_t *bits
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%define ZERO xmm7
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%define ONE xmm5
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%define X0 xmm0
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%define X1 xmm1
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%define N0 xmm2
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%define N1 xmm3
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%define AL xmm4
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%define K eax
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%define LENEND eax
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%define LUT ebx
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%define T0 ecx
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%define T0w cx
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%define T1 edx
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%define BLOCK esi
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%define VALUES edi
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%define KK ebp
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%define ZEROBITS INT [esp + 5 * 4]
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%define EOB INT [esp + 5 * 4 + 4]
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%define LEN INT [esp + 5 * 4 + 8]
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align 32
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GLOBAL_FUNCTION(jsimd_encode_mcu_AC_refine_prepare_sse2)
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EXTN(jsimd_encode_mcu_AC_refine_prepare_sse2):
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push ebp
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mov eax, esp ; eax = original ebp
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sub esp, byte 4
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and esp, byte (-SIZEOF_XMMWORD) ; align to 128 bits
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mov [esp], eax
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mov ebp, esp ; ebp = aligned ebp
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sub esp, 16
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push ebx
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push ecx
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; push edx ; need not be preserved
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push esi
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push edi
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push ebp
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pcmpeqw ONE, ONE
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psrlw ONE, 15
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mov BLOCK, INT [eax + 8]
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mov LUT, INT [eax + 12]
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mov VALUES, INT [eax + 24]
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movd AL, INT [eax + 20]
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mov T0, INT [eax + 28]
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mov K, INT [eax + 16]
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mov INT [T0 + 2 * SIZEOF_INT], -1
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mov INT [T0 + 3 * SIZEOF_INT], -1
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mov ZEROBITS, T0
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mov LEN, K
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pxor ZERO, ZERO
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and K, -16
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mov EOB, 0
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xor KK, KK
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shr K, 4
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jz .ELOOPR16
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.BLOOPR16:
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LOAD16
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pcmpgtw N0, X0
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pcmpgtw N1, X1
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paddw X0, N0
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paddw X1, N1
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pxor X0, N0
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pxor X1, N1
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psrlw X0, AL
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psrlw X1, AL
|
|
movdqa XMMWORD [VALUES + (0) * 2], X0
|
|
movdqa XMMWORD [VALUES + (8) * 2], X1
|
|
pcmpeqw X0, ONE
|
|
pcmpeqw X1, ONE
|
|
packsswb N0, N1
|
|
packsswb X0, X1
|
|
pmovmskb T0, N0 ; lsignbits.val16u[k>>4] = _mm_movemask_epi8(neg);
|
|
mov T1, ZEROBITS
|
|
not T0
|
|
mov word [T1 + 2 * SIZEOF_INT + KK], T0w
|
|
pmovmskb T1, X0 ; idx = _mm_movemask_epi8(x1);
|
|
bsr T1, T1 ; idx = 16 - (__builtin_clz(idx)>>1);
|
|
jz .CONTINUER16 ; if (idx) {
|
|
lea T1, [T1+KK*8]
|
|
mov EOB, T1 ; EOB = k + idx;
|
|
.CONTINUER16:
|
|
add VALUES, 16*2
|
|
add LUT, 16*SIZEOF_INT
|
|
add KK, 2
|
|
dec K
|
|
jnz .BLOOPR16
|
|
test LEN, 15
|
|
je .PADDINGR
|
|
.ELOOPR16:
|
|
mov LENEND, LEN
|
|
|
|
test LENEND, 8
|
|
jz .TRYR7
|
|
test LENEND, 7
|
|
jz .TRYR8
|
|
|
|
and LENEND, 7
|
|
LOAD15
|
|
pcmpgtw N0, X0
|
|
pcmpgtw N1, X1
|
|
paddw X0, N0
|
|
paddw X1, N1
|
|
pxor X0, N0
|
|
pxor X1, N1
|
|
psrlw X0, AL
|
|
psrlw X1, AL
|
|
movdqa XMMWORD [VALUES + (0) * 2], X0
|
|
movdqa XMMWORD [VALUES + (8) * 2], X1
|
|
pcmpeqw X0, ONE
|
|
pcmpeqw X1, ONE
|
|
packsswb N0, N1
|
|
packsswb X0, X1
|
|
pmovmskb T0, N0 ; lsignbits.val16u[k>>4] = _mm_movemask_epi8(neg);
|
|
mov T1, ZEROBITS
|
|
not T0
|
|
mov word [T1 + 2 * SIZEOF_INT + KK], T0w
|
|
pmovmskb T1, X0 ; idx = _mm_movemask_epi8(x1);
|
|
bsr T1, T1 ; idx = 16 - (__builtin_clz(idx)>>1);
|
|
jz .CONTINUER15 ; if (idx) {
|
|
lea T1, [T1+KK*8]
|
|
mov EOB, T1 ; EOB = k + idx;
|
|
.CONTINUER15:
|
|
add VALUES, 16*2
|
|
jmp .PADDINGR
|
|
.TRYR8:
|
|
LOAD8
|
|
|
|
pcmpgtw N0, X0
|
|
paddw X0, N0
|
|
pxor X0, N0
|
|
psrlw X0, AL
|
|
movdqa XMMWORD [VALUES + (0) * 2], X0
|
|
pcmpeqw X0, ONE
|
|
packsswb N0, ZERO
|
|
packsswb X0, ZERO
|
|
pmovmskb T0, N0 ; lsignbits.val16u[k>>4] = _mm_movemask_epi8(neg);
|
|
mov T1, ZEROBITS
|
|
not T0
|
|
mov word [T1 + 2 * SIZEOF_INT + KK], T0w
|
|
pmovmskb T1, X0 ; idx = _mm_movemask_epi8(x1);
|
|
bsr T1, T1 ; idx = 16 - (__builtin_clz(idx)>>1);
|
|
jz .CONTINUER8 ; if (idx) {
|
|
lea T1, [T1+KK*8]
|
|
mov EOB, T1 ; EOB = k + idx;
|
|
.CONTINUER8:
|
|
add VALUES, 8*2
|
|
jmp .PADDINGR
|
|
.TRYR7:
|
|
and LENEND, 7
|
|
LOAD7
|
|
|
|
pcmpgtw N0, X0
|
|
paddw X0, N0
|
|
pxor X0, N0
|
|
psrlw X0, AL
|
|
movdqa XMMWORD [VALUES + (0) * 2], X0
|
|
pcmpeqw X0, ONE
|
|
packsswb N0, ZERO
|
|
packsswb X0, ZERO
|
|
pmovmskb T0, N0 ; lsignbits.val16u[k>>4] = _mm_movemask_epi8(neg);
|
|
mov T1, ZEROBITS
|
|
not T0
|
|
mov word [T1 + 2 * SIZEOF_INT + KK], T0w
|
|
pmovmskb T1, X0 ; idx = _mm_movemask_epi8(x1);
|
|
bsr T1, T1 ; idx = 16 - (__builtin_clz(idx)>>1);
|
|
jz .CONTINUER7 ; if (idx) {
|
|
lea T1, [T1+KK*8]
|
|
mov EOB, T1 ; EOB = k + idx;
|
|
.CONTINUER7:
|
|
add VALUES, 8*2
|
|
.PADDINGR:
|
|
mov K, LEN
|
|
add K, 7
|
|
and K, -8
|
|
shr K, 3
|
|
sub K, DCTSIZE2/8
|
|
jz .EPADDINGR
|
|
align 16
|
|
.ZEROLOOPR:
|
|
movdqa XMMWORD [VALUES + 0], ZERO
|
|
add VALUES, 8*2
|
|
inc K
|
|
jnz .ZEROLOOPR
|
|
.EPADDINGR:
|
|
sub VALUES, DCTSIZE2*2
|
|
|
|
REDUCE0
|
|
|
|
mov eax, EOB
|
|
|
|
pop ebp
|
|
pop edi
|
|
pop esi
|
|
; pop edx ; need not be preserved
|
|
pop ecx
|
|
pop ebx
|
|
mov esp, ebp ; esp <- aligned ebp
|
|
pop esp ; esp <- original ebp
|
|
pop ebp
|
|
ret
|
|
|
|
%undef ZERO
|
|
%undef ONE
|
|
%undef X0
|
|
%undef X1
|
|
%undef N0
|
|
%undef N1
|
|
%undef AL
|
|
%undef K
|
|
%undef KK
|
|
%undef EOB
|
|
%undef SIGN
|
|
%undef LUT
|
|
%undef T0
|
|
%undef T1
|
|
%undef BLOCK
|
|
%undef VALUES
|
|
%undef LEN
|
|
%undef LENEND
|
|
|
|
; For some reason, the OS X linker does not honor the request to align the
|
|
; segment unless we do this.
|
|
align 32
|