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diff --git a/media/libjpeg/simd/i386/jquant-mmx.asm b/media/libjpeg/simd/i386/jquant-mmx.asm
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+;
+; jquant.asm - sample data conversion and quantization (MMX)
+;
+; Copyright 2009 Pierre Ossman <ossman@cendio.se> for Cendio AB
+; Copyright (C) 2016, D. R. Commander.
+;
+; Based on the x86 SIMD extension for IJG JPEG library
+; Copyright (C) 1999-2006, MIYASAKA Masaru.
+; For conditions of distribution and use, see copyright notice in jsimdext.inc
+;
+; This file should be assembled with NASM (Netwide Assembler),
+; can *not* be assembled with Microsoft's MASM or any compatible
+; assembler (including Borland's Turbo Assembler).
+; NASM is available from http://nasm.sourceforge.net/ or
+; http://sourceforge.net/project/showfiles.php?group_id=6208
+
+%include "jsimdext.inc"
+%include "jdct.inc"
+
+; --------------------------------------------------------------------------
+ SECTION SEG_TEXT
+ BITS 32
+;
+; Load data into workspace, applying unsigned->signed conversion
+;
+; GLOBAL(void)
+; jsimd_convsamp_mmx(JSAMPARRAY sample_data, JDIMENSION start_col,
+; DCTELEM *workspace);
+;
+
+%define sample_data ebp + 8 ; JSAMPARRAY sample_data
+%define start_col ebp + 12 ; JDIMENSION start_col
+%define workspace ebp + 16 ; DCTELEM *workspace
+
+ align 32
+ GLOBAL_FUNCTION(jsimd_convsamp_mmx)
+
+EXTN(jsimd_convsamp_mmx):
+ push ebp
+ mov ebp, esp
+ push ebx
+; push ecx ; need not be preserved
+; push edx ; need not be preserved
+ push esi
+ push edi
+
+ pxor mm6, mm6 ; mm6=(all 0's)
+ pcmpeqw mm7, mm7
+ psllw mm7, 7 ; mm7={0xFF80 0xFF80 0xFF80 0xFF80}
+
+ mov esi, JSAMPARRAY [sample_data] ; (JSAMPROW *)
+ mov eax, JDIMENSION [start_col]
+ mov edi, POINTER [workspace] ; (DCTELEM *)
+ mov ecx, DCTSIZE/4
+ alignx 16, 7
+.convloop:
+ mov ebx, JSAMPROW [esi+0*SIZEOF_JSAMPROW] ; (JSAMPLE *)
+ mov edx, JSAMPROW [esi+1*SIZEOF_JSAMPROW] ; (JSAMPLE *)
+
+ movq mm0, MMWORD [ebx+eax*SIZEOF_JSAMPLE] ; mm0=(01234567)
+ movq mm1, MMWORD [edx+eax*SIZEOF_JSAMPLE] ; mm1=(89ABCDEF)
+
+ mov ebx, JSAMPROW [esi+2*SIZEOF_JSAMPROW] ; (JSAMPLE *)
+ mov edx, JSAMPROW [esi+3*SIZEOF_JSAMPROW] ; (JSAMPLE *)
+
+ movq mm2, MMWORD [ebx+eax*SIZEOF_JSAMPLE] ; mm2=(GHIJKLMN)
+ movq mm3, MMWORD [edx+eax*SIZEOF_JSAMPLE] ; mm3=(OPQRSTUV)
+
+ movq mm4, mm0
+ punpcklbw mm0, mm6 ; mm0=(0123)
+ punpckhbw mm4, mm6 ; mm4=(4567)
+ movq mm5, mm1
+ punpcklbw mm1, mm6 ; mm1=(89AB)
+ punpckhbw mm5, mm6 ; mm5=(CDEF)
+
+ paddw mm0, mm7
+ paddw mm4, mm7
+ paddw mm1, mm7
+ paddw mm5, mm7
+
+ movq MMWORD [MMBLOCK(0,0,edi,SIZEOF_DCTELEM)], mm0
+ movq MMWORD [MMBLOCK(0,1,edi,SIZEOF_DCTELEM)], mm4
+ movq MMWORD [MMBLOCK(1,0,edi,SIZEOF_DCTELEM)], mm1
+ movq MMWORD [MMBLOCK(1,1,edi,SIZEOF_DCTELEM)], mm5
+
+ movq mm0, mm2
+ punpcklbw mm2, mm6 ; mm2=(GHIJ)
+ punpckhbw mm0, mm6 ; mm0=(KLMN)
+ movq mm4, mm3
+ punpcklbw mm3, mm6 ; mm3=(OPQR)
+ punpckhbw mm4, mm6 ; mm4=(STUV)
+
+ paddw mm2, mm7
+ paddw mm0, mm7
+ paddw mm3, mm7
+ paddw mm4, mm7
+
+ movq MMWORD [MMBLOCK(2,0,edi,SIZEOF_DCTELEM)], mm2
+ movq MMWORD [MMBLOCK(2,1,edi,SIZEOF_DCTELEM)], mm0
+ movq MMWORD [MMBLOCK(3,0,edi,SIZEOF_DCTELEM)], mm3
+ movq MMWORD [MMBLOCK(3,1,edi,SIZEOF_DCTELEM)], mm4
+
+ add esi, byte 4*SIZEOF_JSAMPROW
+ add edi, byte 4*DCTSIZE*SIZEOF_DCTELEM
+ dec ecx
+ jnz short .convloop
+
+ emms ; empty MMX state
+
+ pop edi
+ pop esi
+; pop edx ; need not be preserved
+; pop ecx ; need not be preserved
+ pop ebx
+ pop ebp
+ ret
+
+; --------------------------------------------------------------------------
+;
+; Quantize/descale the coefficients, and store into coef_block
+;
+; This implementation is based on an algorithm described in
+; "How to optimize for the Pentium family of microprocessors"
+; (http://www.agner.org/assem/).
+;
+; GLOBAL(void)
+; jsimd_quantize_mmx(JCOEFPTR coef_block, DCTELEM *divisors,
+; DCTELEM *workspace);
+;
+
+%define RECIPROCAL(m, n, b) \
+ MMBLOCK(DCTSIZE * 0 + (m), (n), (b), SIZEOF_DCTELEM)
+%define CORRECTION(m, n, b) \
+ MMBLOCK(DCTSIZE * 1 + (m), (n), (b), SIZEOF_DCTELEM)
+%define SCALE(m, n, b) \
+ MMBLOCK(DCTSIZE * 2 + (m), (n), (b), SIZEOF_DCTELEM)
+%define SHIFT(m, n, b) \
+ MMBLOCK(DCTSIZE * 3 + (m), (n), (b), SIZEOF_DCTELEM)
+
+%define coef_block ebp + 8 ; JCOEFPTR coef_block
+%define divisors ebp + 12 ; DCTELEM *divisors
+%define workspace ebp + 16 ; DCTELEM *workspace
+
+ align 32
+ GLOBAL_FUNCTION(jsimd_quantize_mmx)
+
+EXTN(jsimd_quantize_mmx):
+ push ebp
+ mov ebp, esp
+; push ebx ; unused
+; push ecx ; unused
+; push edx ; need not be preserved
+ push esi
+ push edi
+
+ mov esi, POINTER [workspace]
+ mov edx, POINTER [divisors]
+ mov edi, JCOEFPTR [coef_block]
+ mov ah, 2
+ alignx 16, 7
+.quantloop1:
+ mov al, DCTSIZE2/8/2
+ alignx 16, 7
+.quantloop2:
+ movq mm2, MMWORD [MMBLOCK(0,0,esi,SIZEOF_DCTELEM)]
+ movq mm3, MMWORD [MMBLOCK(0,1,esi,SIZEOF_DCTELEM)]
+
+ movq mm0, mm2
+ movq mm1, mm3
+
+ psraw mm2, (WORD_BIT-1) ; -1 if value < 0, 0 otherwise
+ psraw mm3, (WORD_BIT-1)
+
+ pxor mm0, mm2 ; val = -val
+ pxor mm1, mm3
+ psubw mm0, mm2
+ psubw mm1, mm3
+
+ ;
+ ; MMX is an annoyingly crappy instruction set. It has two
+ ; misfeatures that are causing problems here:
+ ;
+ ; - All multiplications are signed.
+ ;
+ ; - The second operand for the shifts is not treated as packed.
+ ;
+ ;
+ ; We work around the first problem by implementing this algorithm:
+ ;
+ ; unsigned long unsigned_multiply(unsigned short x, unsigned short y)
+ ; {
+ ; enum { SHORT_BIT = 16 };
+ ; signed short sx = (signed short)x;
+ ; signed short sy = (signed short)y;
+ ; signed long sz;
+ ;
+ ; sz = (long)sx * (long)sy; /* signed multiply */
+ ;
+ ; if (sx < 0) sz += (long)sy << SHORT_BIT;
+ ; if (sy < 0) sz += (long)sx << SHORT_BIT;
+ ;
+ ; return (unsigned long)sz;
+ ; }
+ ;
+ ; (note that a negative sx adds _sy_ and vice versa)
+ ;
+ ; For the second problem, we replace the shift by a multiplication.
+ ; Unfortunately that means we have to deal with the signed issue again.
+ ;
+
+ paddw mm0, MMWORD [CORRECTION(0,0,edx)] ; correction + roundfactor
+ paddw mm1, MMWORD [CORRECTION(0,1,edx)]
+
+ movq mm4, mm0 ; store current value for later
+ movq mm5, mm1
+ pmulhw mm0, MMWORD [RECIPROCAL(0,0,edx)] ; reciprocal
+ pmulhw mm1, MMWORD [RECIPROCAL(0,1,edx)]
+ paddw mm0, mm4 ; reciprocal is always negative (MSB=1),
+ paddw mm1, mm5 ; so we always need to add the initial value
+ ; (input value is never negative as we
+ ; inverted it at the start of this routine)
+
+ ; here it gets a bit tricky as both scale
+ ; and mm0/mm1 can be negative
+ movq mm6, MMWORD [SCALE(0,0,edx)] ; scale
+ movq mm7, MMWORD [SCALE(0,1,edx)]
+ movq mm4, mm0
+ movq mm5, mm1
+ pmulhw mm0, mm6
+ pmulhw mm1, mm7
+
+ psraw mm6, (WORD_BIT-1) ; determine if scale is negative
+ psraw mm7, (WORD_BIT-1)
+
+ pand mm6, mm4 ; and add input if it is
+ pand mm7, mm5
+ paddw mm0, mm6
+ paddw mm1, mm7
+
+ psraw mm4, (WORD_BIT-1) ; then check if negative input
+ psraw mm5, (WORD_BIT-1)
+
+ pand mm4, MMWORD [SCALE(0,0,edx)] ; and add scale if it is
+ pand mm5, MMWORD [SCALE(0,1,edx)]
+ paddw mm0, mm4
+ paddw mm1, mm5
+
+ pxor mm0, mm2 ; val = -val
+ pxor mm1, mm3
+ psubw mm0, mm2
+ psubw mm1, mm3
+
+ movq MMWORD [MMBLOCK(0,0,edi,SIZEOF_DCTELEM)], mm0
+ movq MMWORD [MMBLOCK(0,1,edi,SIZEOF_DCTELEM)], mm1
+
+ add esi, byte 8*SIZEOF_DCTELEM
+ add edx, byte 8*SIZEOF_DCTELEM
+ add edi, byte 8*SIZEOF_JCOEF
+ dec al
+ jnz near .quantloop2
+ dec ah
+ jnz near .quantloop1 ; to avoid branch misprediction
+
+ emms ; empty MMX state
+
+ pop edi
+ pop esi
+; pop edx ; need not be preserved
+; pop ecx ; unused
+; pop ebx ; unused
+ pop ebp
+ ret
+
+; For some reason, the OS X linker does not honor the request to align the
+; segment unless we do this.
+ align 32