ref: 75f242d49ab0f5da5f118a5aebc403f1eef74a9a
dir: /codec/common/x86/dct.asm/
;*! ;* \copy ;* Copyright (c) 2009-2013, Cisco Systems ;* All rights reserved. ;* ;* Redistribution and use in source and binary forms, with or without ;* modification, are permitted provided that the following conditions ;* are met: ;* ;* ?Redistributions of source code must retain the above copyright ;* notice, this list of conditions and the following disclaimer. ;* ;* ?Redistributions in binary form must reproduce the above copyright ;* notice, this list of conditions and the following disclaimer in ;* the documentation and/or other materials provided with the ;* distribution. ;* ;* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ;* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT ;* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ;* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE ;* COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ;* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, ;* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; ;* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER ;* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT ;* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ;* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ;* POSSIBILITY OF SUCH DAMAGE. ;* ;* ;* dct.asm ;* ;* History ;* 8/4/2009 Created ;* ;* ;*************************************************************************/ %include "asm_inc.asm" %macro LOAD_3_PARA_TO_5_PARA_IDCT 0 %ifdef X86_32 push r3 push r4 %assign push_num push_num+2 mov r0, [esp + push_num*4 + 4] mov r1, [esp + push_num*4 + 8] mov r4, [esp + push_num*4 + 12] %else mov r4, r2 %endif mov r2, r0 mov r3, r1 %endmacro %ifdef PREFIX %define prefixed(a) _ %+ a %else %define prefixed(a) a %endif SECTION .rodata align=32 ;*********************************************************************** ; Constant ;*********************************************************************** align 32 wels_shufb0312_movzxw_128: db 0, 80h, 3, 80h, 1, 80h, 2, 80h, 4, 80h, 7, 80h, 5, 80h, 6, 80h wels_shufb2301_128: db 2, 3, 0, 1, 6, 7, 4, 5, 10, 11, 8, 9, 14, 15, 12, 13 wels_shufb0231_128: db 0, 2, 3, 1, 4, 6, 7, 5, 8, 10, 11, 9, 12, 14, 15, 13 wels_dw32_128: times 8 dw 32 wels_p1m1p1m1w_256: times 8 dw 1, -1 wels_p1p2m1m2w_256: times 4 dw 1, 2, -1, -2 wels_p1p1m1m1w_256: times 4 dw 1, 1, -1, -1 wels_8xp1w_8xm1w: times 8 dw 1 times 8 dw -1 wels_4xp1w_4xm1w_256: times 4 dw 1 times 4 dw -1 times 4 dw 1 times 4 dw -1 wels_4xp1w_4xp2w_4xm1w_4xm2w: times 4 dw 1 times 4 dw 2 times 4 dw -1 times 4 dw -2 align 16 wels_p1m1p1m1w_128: times 4 dw 1, -1 wels_p1p2p1p2w_128: times 4 dw 1, 2 wels_p1m1m1p1w_128: times 2 dw 1, -1, -1, 1 wels_p0m8000p0m8000w_128: times 4 dw 0, -8000h wels_p1p1m1m1w_128: times 2 dw 1, 1, -1, -1 wels_4xp1w_4xp2w: times 4 dw 1 times 4 dw 2 wels_4xp0w_4xm8000w: times 4 dw 0 times 4 dw -8000h SECTION .text ;*********************************************************************** ; MMX functions ;*********************************************************************** %macro MMX_LoadDiff4P 5 movd %1, [%3] movd %2, [%4] punpcklbw %1, %5 punpcklbw %2, %5 psubw %1, %2 %endmacro %macro MMX_LoadDiff4x4P 10 ;d0, d1, d2, d3, pix1address, pix1stride, pix2address, pix2stride, tmp(mm), 0(mm) MMX_LoadDiff4P %1, %9, %5, %7, %10 MMX_LoadDiff4P %2, %9, %5+%6, %7+%8, %10 lea %5, [%5+2*%6] lea %7, [%7+2*%8] MMX_LoadDiff4P %3, %9, %5, %7, %10 MMX_LoadDiff4P %4, %9, %5+%6, %7+%8, %10 %endmacro %macro MMX_SumSubMul2 3 movq %3, %1 psllw %1, $01 paddw %1, %2 psllw %2, $01 psubw %3, %2 %endmacro %macro MMX_SumSubDiv2 3 movq %3, %2 psraw %3, $01 paddw %3, %1 psraw %1, $01 psubw %1, %2 %endmacro %macro MMX_SumSub 3 movq %3, %2 psubw %2, %1 paddw %1, %3 %endmacro %macro MMX_DCT 6 MMX_SumSub %4, %1, %6 MMX_SumSub %3, %2, %6 MMX_SumSub %3, %4, %6 MMX_SumSubMul2 %1, %2, %5 %endmacro %macro MMX_IDCT 6 MMX_SumSub %4, %5, %6 MMX_SumSubDiv2 %3, %2, %1 MMX_SumSub %1, %4, %6 MMX_SumSub %3, %5, %6 %endmacro %macro MMX_StoreDiff4P 6 movd %2, %6 punpcklbw %2, %4 paddw %1, %3 psraw %1, $06 paddsw %1, %2 packuswb %1, %2 movd %5, %1 %endmacro ;*********************************************************************** ; void WelsDctT4_mmx( int16_t *pDct[4], uint8_t *pix1, int32_t i_pix1, uint8_t *pix2, int32_t i_pix2 ) ;*********************************************************************** WELS_EXTERN WelsDctT4_mmx %assign push_num 0 LOAD_5_PARA SIGN_EXTENSION r2, r2d SIGN_EXTENSION r4, r4d WELS_Zero mm7 MMX_LoadDiff4x4P mm1, mm2, mm3, mm4, r1, r2, r3, r4, mm0, mm7 MMX_DCT mm1, mm2, mm3 ,mm4, mm5, mm6 MMX_Trans4x4W mm3, mm1, mm4, mm5, mm2 MMX_DCT mm3, mm5, mm2 ,mm4, mm1, mm6 MMX_Trans4x4W mm2, mm3, mm4, mm1, mm5 movq [r0+ 0], mm2 movq [r0+ 8], mm1 movq [r0+16], mm5 movq [r0+24], mm4 WELSEMMS LOAD_5_PARA_POP ret ;*********************************************************************** ; void IdctResAddPred_mmx(uint8_t* pPred, int32_t iStride, int16_t* pDct); ;*********************************************************************** WELS_EXTERN IdctResAddPred_mmx %assign push_num 0 LOAD_3_PARA_TO_5_PARA_IDCT jmp prefixed(WelsIDctT4Rec_mmx.begin) ;*********************************************************************** ; void WelsIDctT4Rec_mmx(uint8_t *rec, int32_t stride, uint8_t *pred, int32_t pred_stride, int16_t *rs) ;*********************************************************************** WELS_EXTERN WelsIDctT4Rec_mmx %assign push_num 0 LOAD_5_PARA .begin: SIGN_EXTENSION r1, r1d SIGN_EXTENSION r3, r3d movq mm0, [r4+ 0] movq mm1, [r4+ 8] movq mm2, [r4+16] movq mm3, [r4+24] MMX_Trans4x4W mm0, mm1, mm2, mm3, mm4 MMX_IDCT mm1, mm2, mm3, mm4, mm0, mm6 MMX_Trans4x4W mm1, mm3, mm0, mm4, mm2 MMX_IDCT mm3, mm0, mm4, mm2, mm1, mm6 WELS_Zero mm7 WELS_DW32 mm6 MMX_StoreDiff4P mm3, mm0, mm6, mm7, [r0], [r2] MMX_StoreDiff4P mm4, mm0, mm6, mm7, [r0+r1], [r2+r3] lea r0, [r0+2*r1] lea r2, [r2+2*r3] MMX_StoreDiff4P mm1, mm0, mm6, mm7, [r0], [r2] MMX_StoreDiff4P mm2, mm0, mm6, mm7, [r0+r1], [r2+r3] WELSEMMS LOAD_5_PARA_POP ret ;*********************************************************************** ; SSE2 functions ;*********************************************************************** %macro SSE2_Store4x8p 6 movlps [%1+0x00], %2 movhps [%1+0x20], %2 movlps [%1+0x08], %3 movhps [%1+0x28], %3 movlps [%1+0x10], %4 movhps [%1+0x30], %4 movlps [%1+0x18], %5 movhps [%1+0x38], %5 %endmacro %macro SSE2_Load4x8p 6 MOVDQ %2, [%1+0x00] MOVDQ %4, [%1+0x10] MOVDQ %6, [%1+0x20] MOVDQ %3, [%1+0x30] SSE2_XSawp qdq, %4, %3, %5 SSE2_XSawp qdq, %2, %6, %3 %endmacro %macro SSE2_SumSubMul2 3 movdqa %3, %1 psllw %1, 1 paddw %1, %2 psllw %2, 1 psubw %3, %2 %endmacro %macro SSE2_SumSubDiv2 4 movdqa %4, %1 movdqa %3, %2 psraw %2, $01 psraw %4, $01 paddw %1, %2 psubw %4, %3 %endmacro %macro SSE2_StoreDiff16p 9 paddw %1, %4 psraw %1, $06 movq %3, %7 punpcklbw %3, %5 paddsw %1, %3 paddw %2, %4 psraw %2, $06 movq %3, %9 punpcklbw %3, %5 paddsw %2, %3 packuswb %1, %2 movlps %6, %1 movhps %8, %1 %endmacro %macro SSE2_StoreDiff8p 5 movq %2, %5 punpcklbw %2, %3 paddsw %2, %1 packuswb %2, %2 movq %4, %2 %endmacro %macro SSE2_Load2x4P 2 MOVDQ %1, [%2] %endmacro %macro SSE2_Store2x4P 2 MOVDQ [%1], %2 %endmacro ; out=%1 pPixel1Line1=%2 pPixel1Line2=%3 pPixel2Line1=%4 pPixel2Line2=%5 zero=%6 clobber=%7,%8 %macro SSE2_LoadDiff2x4P 8 movd %1, [%2] movd %7, [%3] punpckldq %1, %7 punpcklbw %1, %6 movd %7, [%4] movd %8, [%5] punpckldq %7, %8 punpcklbw %7, %6 psubw %1, %7 %endmacro ; pRec1=%1 pRec2=%2 data=%3 pPred1=%4 pPred2=%5 dw32=%6 zero=%7 clobber=%8,%9 %macro SSE2_StoreDiff2x4P 9 paddw %3, %6 psraw %3, 6 movd %8, [%4] movd %9, [%5] punpckldq %8, %9 punpcklbw %8, %7 paddsw %3, %8 packuswb %3, %3 movd [%1], %3 psrlq %3, 32 movd [%2], %3 %endmacro %macro SSE2_Load8DC 6 movdqa %1, %6 ; %1 = dc0 dc1 paddw %1, %5 psraw %1, $06 ; (dc + 32) >> 6 movdqa %2, %1 psrldq %2, 4 punpcklwd %2, %2 punpckldq %2, %2 ; %2 = dc2 dc2 dc2 dc2 dc3 dc3 dc3 dc3 movdqa %3, %1 psrldq %3, 8 punpcklwd %3, %3 punpckldq %3, %3 ; %3 = dc4 dc4 dc4 dc4 dc5 dc5 dc5 dc5 movdqa %4, %1 psrldq %4, 12 punpcklwd %4, %4 punpckldq %4, %4 ; %4 = dc6 dc6 dc6 dc6 dc7 dc7 dc7 dc7 punpcklwd %1, %1 punpckldq %1, %1 ; %1 = dc0 dc0 dc0 dc0 dc1 dc1 dc1 dc1 %endmacro %macro SSE2_DCT 6 SSE2_SumSub %6, %3, %5 SSE2_SumSub %1, %2, %5 SSE2_SumSub %3, %2, %5 SSE2_SumSubMul2 %6, %1, %4 %endmacro %macro SSE2_IDCT 7 SSE2_SumSub %7, %2, %6 SSE2_SumSubDiv2 %1, %3, %5, %4 SSE2_SumSub %2, %1, %5 SSE2_SumSub %7, %4, %5 %endmacro ; Do 2 horizontal 4-pt DCTs in parallel packed as 8 words in an xmm register. ; out=%1 in=%1 clobber=%2 %macro SSE2_DCT_HORIZONTAL 2 pshuflw %2, %1, 1bh ; [x[3],x[2],x[1],x[0]] low qw %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xfffffff0 push 0xffff0001 ;wels_p1m1p1m1w_128 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0x0001ffff ;wels_p1m1m1p1w_128 push 0xffff0001 push 0x0001ffff push 0xffff0001 push 0x00020001 ;wels_p1p2p1p2w_128 push 0x00020001 push 0x00020001 push 0x00020001 pmullw %1, [esp+32] ; [x[0],-x[1],x[2],-x[3], ...] %else pmullw %1, [wels_p1m1p1m1w_128] ; [x[0],-x[1],x[2],-x[3], ...] %endif pshufhw %2, %2, 1bh ; [x[3],x[2],x[1],x[0]] high qw paddw %1, %2 ; s = [x[0]+x[3],-x[1]+x[2],x[2]+x[1],-x[3]+x[0], ...] pshufd %2, %1, 0b1h ; [s[2],s[3],s[0],s[1], ...] %ifdef X86_32_PICASM pmullw %1, [esp+16] ; [s[0],-s[1],-s[2],s[3], ...] pmullw %2, [esp] ; [s[2],2*s[3],s[0],2*s[1], ...]] mov esp, r0 pop r0 %else pmullw %1, [wels_p1m1m1p1w_128] ; [s[0],-s[1],-s[2],s[3], ...] pmullw %2, [wels_p1p2p1p2w_128] ; [s[2],2*s[3],s[0],2*s[1], ...]] %endif paddw %1, %2 ; y = [s[0]+s[2],-s[1]+2*s[3],-s[2]+s[0],s[3]+2*s[1], ...] %endmacro ; Do 2 horizontal 4-pt IDCTs in parallel packed as 8 words in an xmm register. ; ; Use a multiply by reciprocal to get -x>>1, and x+=-x>>1 to get x>>1, which ; avoids a cumbersome blend with SSE2 to get a vector with right-shifted odd ; elements. ; ; out=%1 in=%1 wels_p1m1m1p1w_128=%2 clobber=%3,%4 %macro SSE2_IDCT_HORIZONTAL 4 %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xfffffff0 push 0x80000000 ;wels_p0m8000p0m8000w_128 push 0x80000000 push 0x80000000 push 0x80000000 push 0xffffffff ;wels_p1p1m1m1w_128 push 0x00010001 push 0xffffffff push 0x00010001 movdqa %3, [esp+16] %else movdqa %3, [wels_p0m8000p0m8000w_128] %endif pmulhw %3, %1 ; x[0:7] * [0,-8000h,0,-8000h, ...] >> 16 pshufd %4, %1, 0b1h ; [x[2],x[3],x[0],x[1], ...] pmullw %4, %2 ; [x[2],-x[3],-x[0],x[1], ...] paddw %1, %3 ; [x[0]+0,x[1]+(-x[1]>>1),x[2]+0,x[3]+(-x[3]>>1), ...] paddw %1, %4 ; s = [x[0]+x[2],(x[1]>>1)-x[3],x[2]-x[0],(x[3]>>1)+x[1], ...] pshuflw %3, %1, 1bh ; [s[3],s[2],s[1],s[0]] low qw %ifdef X86_32_PICASM pmullw %1, [esp] ; [s[0],s[1],-s[2],-s[3], ...] mov esp, r0 pop r0 %else pmullw %1, [wels_p1p1m1m1w_128] ; [s[0],s[1],-s[2],-s[3], ...] %endif pshufhw %3, %3, 1bh ; [s[3],s[2],s[1],s[0]] high qw pmullw %3, %2 ; [s[3],-s[2],-s[1],s[0], ...] paddw %1, %3 ; y = [s[0]+s[3],s[1]-s[2],-s[2]-s[1],-s[3]+s[0], ...] %endmacro ; Do 4 vertical 4-pt DCTs in parallel packed as 16 words in 2 xmm registers. ; Uses scrambled input to save a negation. ; [y0,y1]=%1 [y2,y3]=%2 [x1,x0]=%1 [x2,x3]=%2 clobber=%3 %macro SSE2_DCT_4x4P 3 movdqa %3, %1 psubw %1, %2 ; [x1-x2,x0-x3] paddw %2, %3 ; [x1+x2,x0+x3] movdqa %3, %2 punpckhqdq %2, %1 ; s03 = [x0+x3,x0-x3] punpcklqdq %3, %1 ; s12 = [x1+x2,x1-x2] movdqa %1, %2 %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xfffffff0 push 0x00020002 ;wels_4xp1w_4xp2w push 0x00020002 push 0x00010001 push 0x00010001 pmullw %1, [esp] ; [s03[0],2*s03[1]] paddw %1, %3 ; [y0,y1] = [s03[0]+s12[0],2*s03[1]+s12[1]] pmullw %3, [esp] ; [s12[0],2*s12[1]] mov esp, r0 pop r0 %else pmullw %1, [wels_4xp1w_4xp2w] ; [s03[0],2*s03[1]] paddw %1, %3 ; [y0,y1] = [s03[0]+s12[0],2*s03[1]+s12[1]] pmullw %3, [wels_4xp1w_4xp2w] ; [s12[0],2*s12[1]] %endif psubw %2, %3 ; [y2,y3] = [s03[0]-s12[0],s03[1]-2*s12[1]] %endmacro ; Do 4 vertical 4-pt IDCTs in parallel packed as 16 words in 2 xmm registers. ; Output is scrambled to save a negation. ; [y1,y0]=%1 [y2,y3]=%2 [x0,x1]=%1 [x2,x3]=%2 clobber=%3,%4 %macro SSE2_IDCT_4x4P 4 %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xfffffff0 push 0x80008000 ;wels_4xp0w_4xm8000w push 0x80008000 push 0x00000000 push 0x00000000 movdqa %4, [esp] mov esp, r0 pop r0 %else movdqa %4, [wels_4xp0w_4xm8000w] %endif movdqa %3, %1 pmulhw %3, %4 ; x[0:1] * [0,-8000h] >> 16 pmulhw %4, %2 ; x[2:3] * [0,-8000h] >> 16 paddw %3, %1 ; [x[0],x[1]>>1] paddw %4, %2 ; [x[2],x[3]>>1] psubw %3, %2 ; [x[0]-x[2],(x[1]>>1)-x[3]] paddw %1, %4 ; [x[2]+x[0],(x[3]>>1)+x[1]] movdqa %2, %3 punpckhqdq %3, %1 ; s13 = [(x[1]>>1)-x[3],(x[3]>>1)+x[1]] punpcklqdq %2, %1 ; s02 = [x[0]-x[2], x[2]+x[0]] movdqa %1, %2 paddw %1, %3 ; [y1,y0] = [s02[0]+s13[0],s02[1]+s13[1]] psubw %2, %3 ; [y2,y3] = [s02[0]-s13[0],s02[1]-s13[1]] %endmacro ;*********************************************************************** ; void WelsDctFourT4_sse2(int16_t *pDct, uint8_t *pix1, int32_t i_pix1, uint8_t *pix2, int32_t i_pix2 ) ;*********************************************************************** WELS_EXTERN WelsDctFourT4_sse2 %assign push_num 0 LOAD_5_PARA PUSH_XMM 8 SIGN_EXTENSION r2, r2d SIGN_EXTENSION r4, r4d pxor xmm7, xmm7 ;Load 4x8 SSE2_LoadDiff8P xmm0, xmm6, xmm7, [r1], [r3] SSE2_LoadDiff8P xmm1, xmm6, xmm7, [r1+r2], [r3+r4] lea r1, [r1 + 2 * r2] lea r3, [r3 + 2 * r4] SSE2_LoadDiff8P xmm2, xmm6, xmm7, [r1], [r3] SSE2_LoadDiff8P xmm3, xmm6, xmm7, [r1+r2], [r3+r4] SSE2_DCT xmm1, xmm2, xmm3, xmm4, xmm5, xmm0 SSE2_DCT_HORIZONTAL xmm2, xmm5 SSE2_DCT_HORIZONTAL xmm0, xmm5 SSE2_DCT_HORIZONTAL xmm3, xmm5 SSE2_DCT_HORIZONTAL xmm4, xmm5 SSE2_Store4x8p r0, xmm2, xmm0, xmm3, xmm4, xmm1 lea r1, [r1 + 2 * r2] lea r3, [r3 + 2 * r4] ;Load 4x8 SSE2_LoadDiff8P xmm0, xmm6, xmm7, [r1 ], [r3 ] SSE2_LoadDiff8P xmm1, xmm6, xmm7, [r1+r2 ], [r3+r4] lea r1, [r1 + 2 * r2] lea r3, [r3 + 2 * r4] SSE2_LoadDiff8P xmm2, xmm6, xmm7, [r1], [r3] SSE2_LoadDiff8P xmm3, xmm6, xmm7, [r1+r2], [r3+r4] SSE2_DCT xmm1, xmm2, xmm3, xmm4, xmm5, xmm0 SSE2_DCT_HORIZONTAL xmm2, xmm5 SSE2_DCT_HORIZONTAL xmm0, xmm5 SSE2_DCT_HORIZONTAL xmm3, xmm5 SSE2_DCT_HORIZONTAL xmm4, xmm5 SSE2_Store4x8p r0+64, xmm2, xmm0, xmm3, xmm4, xmm1 POP_XMM LOAD_5_PARA_POP ret ;*********************************************************************** ; void WelsIDctFourT4Rec_sse2(uint8_t *rec, int32_t stride, uint8_t *pred, int32_t pred_stride, int16_t *rs); ;*********************************************************************** WELS_EXTERN WelsIDctFourT4Rec_sse2 %assign push_num 0 LOAD_5_PARA PUSH_XMM 8 SIGN_EXTENSION r1, r1d SIGN_EXTENSION r3, r3d ;Load 4x8 SSE2_Load4x8p r4, xmm0, xmm1, xmm4, xmm2, xmm5 %ifdef X86_32_PICASM push r5 mov r5, esp and esp, 0xffffffe0 push 0x0001ffff ;wels_p1m1m1p1w_128 push 0xffff0001 push 0x0001ffff push 0xffff0001 movdqa xmm7, [esp] %else movdqa xmm7, [wels_p1m1m1p1w_128] %endif SSE2_IDCT_HORIZONTAL xmm0, xmm7, xmm5, xmm6 SSE2_IDCT_HORIZONTAL xmm1, xmm7, xmm5, xmm6 SSE2_IDCT_HORIZONTAL xmm4, xmm7, xmm5, xmm6 SSE2_IDCT_HORIZONTAL xmm2, xmm7, xmm5, xmm6 SSE2_IDCT xmm1, xmm4, xmm2, xmm3, xmm5, xmm6, xmm0 WELS_Zero xmm7 WELS_DW32 xmm6 SSE2_StoreDiff16p xmm1, xmm3, xmm5, xmm6, xmm7, [r0], [r2], [r0 + r1], [r2 + r3] lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff16p xmm0, xmm4, xmm5, xmm6, xmm7, [r0], [r2], [r0 + r1], [r2 + r3] lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_Load4x8p r4+64, xmm0, xmm1, xmm4, xmm2, xmm5 %ifdef X86_32_PICASM movdqa xmm7, [esp] mov esp, r5 pop r5 %else movdqa xmm7, [wels_p1m1m1p1w_128] %endif SSE2_IDCT_HORIZONTAL xmm0, xmm7, xmm5, xmm6 SSE2_IDCT_HORIZONTAL xmm1, xmm7, xmm5, xmm6 SSE2_IDCT_HORIZONTAL xmm4, xmm7, xmm5, xmm6 SSE2_IDCT_HORIZONTAL xmm2, xmm7, xmm5, xmm6 SSE2_IDCT xmm1, xmm4, xmm2, xmm3, xmm5, xmm6, xmm0 WELS_Zero xmm7 WELS_DW32 xmm6 SSE2_StoreDiff16p xmm1, xmm3, xmm5, xmm6, xmm7, [r0], [r2], [r0 + r1], [r2 + r3] lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff16p xmm0, xmm4, xmm5, xmm6, xmm7, [r0], [r2], [r0 + r1], [r2 + r3] POP_XMM LOAD_5_PARA_POP ret ;*********************************************************************** ; void WelsDctT4_sse2(int16_t* pDct, uint8_t* pPixel1, int32_t iStride1, uint8_t* pPixel2, int32_t iStride2) ;*********************************************************************** WELS_EXTERN WelsDctT4_sse2 %assign push_num 0 LOAD_5_PARA PUSH_XMM 5 SIGN_EXTENSION r2, r2d SIGN_EXTENSION r4, r4d WELS_Zero xmm2 SSE2_LoadDiff2x4P xmm0, r1+r2, r1, r3+r4, r3, xmm2, xmm3, xmm4 add r1, r2 add r3, r4 SSE2_LoadDiff2x4P xmm1, r1+r2, r1+2*r2, r3+r4, r3+2*r4, xmm2, xmm3, xmm4 SSE2_DCT_HORIZONTAL xmm0, xmm3 SSE2_DCT_HORIZONTAL xmm1, xmm3 SSE2_DCT_4x4P xmm0, xmm1, xmm3 SSE2_Store2x4P r0, xmm0 SSE2_Store2x4P r0+16, xmm1 POP_XMM LOAD_5_PARA_POP ret ;*********************************************************************** ; void IdctResAddPred_sse2(uint8_t* pPred, int32_t iStride, int16_t* pDct); ;*********************************************************************** WELS_EXTERN IdctResAddPred_sse2 %assign push_num 0 LOAD_3_PARA_TO_5_PARA_IDCT jmp prefixed(WelsIDctT4Rec_sse2.begin) ;*********************************************************************** ; void WelsIDctT4Rec_sse2(uint8_t* pRec, int32_t iStride, uint8_t* pPred, int32_t iPredStride, int16_t* pDct); ;*********************************************************************** WELS_EXTERN WelsIDctT4Rec_sse2 %assign push_num 0 LOAD_5_PARA .begin: PUSH_XMM 6 SIGN_EXTENSION r1, r1d SIGN_EXTENSION r3, r3d SSE2_Load2x4P xmm0, r4 SSE2_Load2x4P xmm1, r4+16 %ifdef X86_32_PICASM push r5 mov r5, esp and esp, 0xfffffff0 push 0x0001ffff ;wels_p1m1m1p1w_128 push 0xffff0001 push 0x0001ffff push 0xffff0001 movdqa xmm4, [esp] mov esp, r5 pop r5 %else movdqa xmm4, [wels_p1m1m1p1w_128] %endif SSE2_IDCT_HORIZONTAL xmm0, xmm4, xmm2, xmm3 SSE2_IDCT_HORIZONTAL xmm1, xmm4, xmm2, xmm3 SSE2_IDCT_4x4P xmm0, xmm1, xmm2, xmm3 WELS_Zero xmm4 WELS_DW32 xmm5 SSE2_StoreDiff2x4P r0+r1, r0, xmm0, r2+r3, r2, xmm5, xmm4, xmm2, xmm3 add r0, r1 add r2, r3 SSE2_StoreDiff2x4P r0+r1, r0+2*r1, xmm1, r2+r3, r2+2*r3, xmm5, xmm4, xmm2, xmm3 POP_XMM LOAD_5_PARA_POP ret %macro SSE2_StoreDiff4x8p 8 SSE2_StoreDiff8p %1, %3, %4, [%5], [%6] SSE2_StoreDiff8p %1, %3, %4, [%5 + %7], [%6 + %8] SSE2_StoreDiff8p %2, %3, %4, [%5 + 8], [%6 + 8] SSE2_StoreDiff8p %2, %3, %4, [%5 + %7 + 8], [%6 + %8 + 8] %endmacro ;*********************************************************************** ; void WelsIDctRecI16x16Dc_sse2(uint8_t *rec, int32_t stride, uint8_t *pred, int32_t pred_stride, int16_t *dct_dc) ;*********************************************************************** WELS_EXTERN WelsIDctRecI16x16Dc_sse2 %assign push_num 0 LOAD_5_PARA PUSH_XMM 8 SIGN_EXTENSION r1, r1d SIGN_EXTENSION r3, r3d pxor xmm7, xmm7 WELS_DW32 xmm6 SSE2_Load8DC xmm0, xmm1, xmm2, xmm3, xmm6, [r4] SSE2_StoreDiff4x8p xmm0, xmm1, xmm5, xmm7, r0, r2, r1, r3 lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff4x8p xmm0, xmm1, xmm5, xmm7, r0, r2, r1, r3 lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff4x8p xmm2, xmm3, xmm5, xmm7, r0, r2, r1, r3 lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff4x8p xmm2, xmm3, xmm5, xmm7, r0, r2, r1, r3 SSE2_Load8DC xmm0, xmm1, xmm2, xmm3, xmm6, [r4 + 16] lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff4x8p xmm0, xmm1, xmm5, xmm7, r0, r2, r1, r3 lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff4x8p xmm0, xmm1, xmm5, xmm7, r0, r2, r1, r3 lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff4x8p xmm2, xmm3, xmm5, xmm7, r0, r2, r1, r3 lea r0, [r0 + 2 * r1] lea r2, [r2 + 2 * r3] SSE2_StoreDiff4x8p xmm2, xmm3, xmm5, xmm7, r0, r2, r1, r3 POP_XMM LOAD_5_PARA_POP ret ;*********************************************************************** ; AVX2 functions ;*********************************************************************** %ifdef HAVE_AVX2 ; out=%1 pPixel1=%2 iStride1=%3 pPixel2=%4 iStride2=%5 wels_shufb0312_movzxw=%6 clobber=%7,%8 %macro AVX2_LoadDiff16P 8 vmovq x%1, [%2 ] vpbroadcastq y%7, [%2 + 4 * %3] vpblendd y%1, y%1, y%7, 11110000b vpshufb y%1, y%1, y%6 vmovq x%7, [%4 ] vpbroadcastq y%8, [%4 + 4 * %5] vpblendd y%7, y%7, y%8, 11110000b vpshufb y%7, y%7, y%6 vpsubw y%1, y%1, y%7 %endmacro ; pRec=%1 iStride=%2 data=%3,%4 pPred=%5 iPredStride=%6 dw32=%7 wels_shufb0312_movzxw=%8 clobber=%9,%10 %macro AVX2_StoreDiff32P 10 vpaddw y%3, y%3, y%7 vpsraw y%3, y%3, 6 vmovq x%9, [%5 ] vpbroadcastq y%10, [%5 + 4 * %6] add %5, %6 vpblendd y%9, y%9, y%10, 11110000b vpshufb y%9, y%9, y%8 vpaddsw y%3, y%3, y%9 vpaddw y%4, y%4, y%7 vpsraw y%4, y%4, 6 vmovq x%9, [%5 ] vpbroadcastq y%10, [%5 + 4 * %6] vpblendd y%9, y%9, y%10, 11110000b vpshufb y%9, y%9, y%8 vpaddsw y%4, y%4, y%9 vpackuswb y%3, y%3, y%4 %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xffffffe0 push 0x0d0f0e0c ;wels_shufb0231_128 push 0x090b0a08 push 0x05070604 push 0x01030200 vbroadcasti128 y%4, [esp] mov esp, r0 pop r0 %else vbroadcasti128 y%4, [wels_shufb0231_128] %endif vpshufb y%3, y%3, y%4 vextracti128 x%4, y%3, 1 vmovlps [%1 ], x%3 vmovlps [%1 + 4 * %2], x%4 add %1, %2 vmovhps [%1 ], x%3 vmovhps [%1 + 4 * %2], x%4 %endmacro ; out=%1,%2,%3,%4 pDct=%5 clobber=%6 %macro AVX2_Load4x16P 6 vmovdqa x%2, [%5+0x00] vinserti128 y%2, y%2, [%5+0x40], 1 vmovdqa x%6, [%5+0x20] vinserti128 y%6, y%6, [%5+0x60], 1 vpunpcklqdq y%1, y%2, y%6 vpunpckhqdq y%2, y%2, y%6 vmovdqa x%4, [%5+0x10] vinserti128 y%4, y%4, [%5+0x50], 1 vmovdqa x%6, [%5+0x30] vinserti128 y%6, y%6, [%5+0x70], 1 vpunpcklqdq y%3, y%4, y%6 vpunpckhqdq y%4, y%4, y%6 %endmacro ; pDct=%1 data=%1,%2,%3,%4 clobber=%5 %macro AVX2_Store4x16P 6 vpunpcklqdq y%6, y%2, y%3 vmovdqa [%1+0x00], x%6 vextracti128 [%1+0x40], y%6, 1 vpunpckhqdq y%6, y%2, y%3 vmovdqa [%1+0x20], x%6 vextracti128 [%1+0x60], y%6, 1 vpunpcklqdq y%6, y%4, y%5 vmovdqa [%1+0x10], x%6 vextracti128 [%1+0x50], y%6, 1 vpunpckhqdq y%6, y%4, y%5 vmovdqa [%1+0x30], x%6 vextracti128 [%1+0x70], y%6, 1 %endmacro %macro AVX2_Load4x4P 2 vmovdqu y%1, [%2] %endmacro %macro AVX2_Store4x4P 2 vmovdqu [%1], y%2 %endmacro ; Load 4 lines of 4 pixels, shuffle and zero extend to 16-bit. ; out=%1 pPixel=%2 iStride=%3 [wels_shufb0312_movzxw]=%4 clobber=%5,%6 %macro AVX2_Loadzx4x4P 6 vmovd x%1, [%2 ] add %2, %3 vpbroadcastd x%5, [%2 + 2 * %3] vpblendd x%1, x%1, x%5, 1010b vpbroadcastd y%5, [%2 ] vpbroadcastd y%6, [%2 + %3] vpblendd y%5, y%5, y%6, 10101010b vpblendd y%1, y%1, y%5, 11110000b vpshufb y%1, y%1, %4 %endmacro ; out=%1 pPixel1=%2 iStride1=%3 pPixel2=%4 iStride2=%5 wels_shufb0312_movzxw=%6 clobber=%7,%8,%9 %macro AVX2_LoadDiff4x4P 9 AVX2_Loadzx4x4P %1, %2, %3, y%6, %7, %8 AVX2_Loadzx4x4P %7, %4, %5, y%6, %8, %9 vpsubw y%1, y%1, y%7 %endmacro ; pRec=%1 iStride=%2 data=%3 pPred=%4 iPredStride=%5 dw32=%6 wels_shufb0312_movzxw=%7 clobber=%8,%9,%10 %macro AVX2_StoreDiff4x4P 10 vpaddw y%3, y%3, y%6 vpsraw y%3, y%3, 6 AVX2_Loadzx4x4P %8, %4, %5, y%7, %9, %10 vpaddsw y%3, y%3, y%8 vpackuswb y%3, y%3, y%3 %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xffffffe0 push 0x0d0f0e0c ;wels_shufb0231_128 push 0x090b0a08 push 0x05070604 push 0x01030200 vbroadcasti128 y%8, [esp] mov esp, r0 pop r0 %else vbroadcasti128 y%8, [wels_shufb0231_128] %endif vpshufb y%3, y%3, y%8 vextracti128 x%8, y%3, 1 vmovd [%1 ], x%3 add %1, %2 vmovd [%1 ], x%8 vpsrlq x%8, x%8, 32 vmovd [%1 + %2], x%8 vpsrlq x%3, x%3, 32 vmovd [%1 + 2 * %2], x%3 %endmacro ; 4-pt DCT ; out=%1,%2,%3,%4 in=%1,%2,%3,%4 clobber=%5 %macro AVX2_DCT 5 vpsubw %5, %1, %4 ; s3 = x0 - x3 vpaddw %1, %1, %4 ; s0 = x0 + x3 vpsubw %4, %2, %3 ; s2 = x1 - x2 vpaddw %2, %2, %3 ; s1 = x1 + x2 vpsubw %3, %1, %2 ; y2 = s0 - s1 vpaddw %1, %1, %2 ; y0 = s0 + s1 vpsllw %2, %5, 1 vpaddw %2, %2, %4 ; y1 = 2 * s3 + s2 vpsllw %4, %4, 1 vpsubw %4, %5, %4 ; y3 = s3 - 2 * s2 %endmacro ; 4-pt IDCT ; out=%1,%2,%3,%4 in=%1,%2,%3,%4 clobber=%5 %macro AVX2_IDCT 5 vpsraw %5, %2, 1 vpsubw %5, %5, %4 ; t3 = (x1 >> 1) - x3 vpsraw %4, %4, 1 vpaddw %4, %2, %4 ; t2 = x1 + (x3 >> 1) vpaddw %2, %1, %3 ; t0 = x0 + x2 vpsubw %3, %1, %3 ; t1 = x0 - x2 vpaddw %1, %2, %4 ; y0 = t0 + t2 vpsubw %4, %2, %4 ; y3 = t0 - t2 vpaddw %2, %3, %5 ; y1 = t1 + t3 vpsubw %3, %3, %5 ; y2 = t1 - t3 %endmacro ; Do 4 horizontal 4-pt DCTs in parallel packed as 16 words in a ymm register. ; Uses scrambled input to save a negation. ; [y0,y1,y2,y3]=%1 [x0,x3,x1,x2]=%1 wels_shufb2301=%2 clobber=%3 %macro AVX2_DCT_HORIZONTAL 3 %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xffffffe0 push 0xffff0001 ;wels_p1m1p1m1w_256 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xfffeffff ;wels_p1m2m1m2w_256 push 0x00020001 push 0xfffeffff push 0x00020001 push 0xfffeffff push 0x00020001 push 0xfffeffff push 0x00020001 vpsignw %3, %1, [esp+32] ; [x0,-x3,x1,-x2] %else vpsignw %3, %1, [wels_p1m1p1m1w_256] ; [x0,-x3,x1,-x2] %endif vpshufb %1, %1, %2 ; [x3,x0,x2,x1] vpaddw %1, %1, %3 ; s = [x0+x3,-x3+x0,x1+x2,-x2+x1] %ifdef X86_32_PICASM vpmullw %3, %1, [esp] ; [s[0],2*s[1],-s[2],-2*s[3], ...] mov esp, r0 pop r0 %else vpmullw %3, %1, [wels_p1p2m1m2w_256] ; [s[0],2*s[1],-s[2],-2*s[3], ...] %endif vpshufd %1, %1, 0b1h ; [s[2],s[3],s[0],s[1], ...] vpaddw %1, %1, %3 ; [y0,y1,y2,y3] = [s[0]+s[2],2*s[1]+s[3],-s[2]+s[0],-2*s[3]+s[1], ...] %endmacro ; Do 4 horizontal 4-pt IDCTs in parallel packed as 16 words in a ymm register. ; Output is scrambled to save a negation. ; [y0,y3,y1,y2]=%1 [x0,x1,x2,x3]=%1 wels_shufb2301=%2 clobber=%3 %macro AVX2_IDCT_HORIZONTAL 3 vpsraw %3, %1, 1 ; [x0>>1,x1>>1,x2>>1,x3>>1] vpblendw %3, %1, %3, 10101010b ; [x0,x1>>1,x2,x3>>1] %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xffffffe0 push 0xffffffff ;wels_p1p1m1m1w_256 push 0x00010001 push 0xffffffff push 0x00010001 push 0xffffffff push 0x00010001 push 0xffffffff push 0x00010001 push 0xffff0001 ;wels_p1m1p1m1w_256 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xffff0001 push 0xffff0001 vpsignw %1, %1, [esp+32] ; [x0,x1,-x2,-x3] %else vpsignw %1, %1, [wels_p1p1m1m1w_256] ; [x0,x1,-x2,-x3] %endif vpshufd %3, %3, 0b1h ; [x2,x3>>1,x0,x1>>1] vpaddw %1, %3, %1 ; s = [x2+x0,(x3>>1)+x1,x0-x2,(x1>>1)-x3] vpshufb %3, %1, %2 ; [s[1],s[0],s[3],s[2], ...] %ifdef X86_32_PICASM vpsignw %1, %1, [esp] ; [s[0],-s[1],s[2],-s[3], ...] mov esp, r0 pop r0 %else vpsignw %1, %1, [wels_p1m1p1m1w_256] ; [s[0],-s[1],s[2],-s[3], ...] %endif vpaddw %1, %1, %3 ; [y0,y3,y1,y2] = [s[0]+s[1],-s[1]+s[0],s[2]+s[3],-s[3]+s[2], ...] %endmacro ; Do 4 vertical 4-pt DCTs in parallel packed as 16 words in a ymm register. ; Uses scrambled input to save a negation. ; [y0,y1,y2,y3]=%1 [x0,x3,x1,x2]=%1 clobber=%2 %macro AVX2_DCT_4x4P 2 %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xffffffe0 push 0xffffffff ;wels_4xp1w_4xm1w_256 push 0xffffffff push 0x00010001 push 0x00010001 push 0xffffffff push 0xffffffff push 0x00010001 push 0x00010001 push 0xfffefffe ;wels_4xp1w_4xp2w_4xm1w_4xm2w push 0xfffefffe push 0xffffffff push 0xffffffff push 0x00020002 push 0x00020002 push 0x00010001 push 0x00010001 vpsignw %2, %1, [esp+32] ; [x0,-x3,x1,-x2] %else vpsignw %2, %1, [wels_4xp1w_4xm1w_256] ; [x0,-x3,x1,-x2] %endif vpshufd %1, %1, 4eh ; [x3,x0,x2,x1] vpaddw %1, %1, %2 ; s = [x0+x3,-x3+x0,x1+x2,-x2+x1] %ifdef X86_32_PICASM vpmullw %2, %1, [esp] ; [s[0],2*s[1],-s[2],-2*s[3]] mov esp, r0 pop r0 %else vpmullw %2, %1, [wels_4xp1w_4xp2w_4xm1w_4xm2w] ; [s[0],2*s[1],-s[2],-2*s[3]] %endif vpermq %1, %1, 4eh ; [s[2],s[3],s[0],s[1]] vpaddw %1, %1, %2 ; [y0,y1,y2,y3] = [s[0]+s[2],2*s[1]+s[3],-s[2]+s[0],-2*s[3]+s[1]] %endmacro ; Do 4 vertical 4-pt IDCTs in parallel packed as 16 words in a ymm register. ; Output is scrambled to save a negation. ; [y0,y3,y1,y2]=%1 [x0,x1,x2,x3]=%1 clobber=%2 %macro AVX2_IDCT_4x4P 2 vpsraw %2, %1, 1 ; [x0>>1,x1>>1,x2>>1,x3>>1] vpblendw %2, %1, %2, 11110000b ; [x0,x1>>1,x2,x3>>1] %ifdef X86_32_PICASM push r0 mov r0, esp and esp, 0xffffffe0 push 0xffffffff ;wels_8xp1w_8xm1w push 0xffffffff push 0xffffffff push 0xffffffff push 0x00010001 push 0x00010001 push 0x00010001 push 0x00010001 push 0xffffffff ;wels_4xp1w_4xm1w_256 push 0xffffffff push 0x00010001 push 0x00010001 push 0xffffffff push 0xffffffff push 0x00010001 push 0x00010001 vpsignw %1, %1, [esp+32] ; [x0,x1,-x2,-x3] %else vpsignw %1, %1, [wels_8xp1w_8xm1w] ; [x0,x1,-x2,-x3] %endif vpermq %2, %2, 4eh ; [x2,x3>>1,x0,x1>>1] vpaddw %1, %2, %1 ; s = [x2+x0,(x3>>1)+x1,x0-x2,(x1>>1)-x3] vpshufd %2, %1, 4eh ; [s[1],s[0],s[3],s[2]] %ifdef X86_32_PICASM vpmullw %1, %1, [esp] ; [s[0],-s[1],s[2],-s[3], ...] mov esp, r0 pop r0 %else vpmullw %1, %1, [wels_4xp1w_4xm1w_256] ; [s[0],-s[1],s[2],-s[3], ...] %endif vpaddw %1, %1, %2 ; [y0,y3,y1,y2] = [s[0]+s[1],-s[1]+s[0],s[2]+s[3],-s[3]+s[2]] %endmacro ;*********************************************************************** ; void WelsDctFourT4_avx2(int16_t* pDct, uint8_t* pPixel1, int32_t iStride1, uint8_t* pPixel2, int32_t iStride2) ;*********************************************************************** WELS_EXTERN WelsDctFourT4_avx2 %assign push_num 0 LOAD_5_PARA PUSH_XMM 7 SIGN_EXTENSION r2, r2d SIGN_EXTENSION r4, r4d %ifdef X86_32_PICASM push r5 mov r5, esp and esp, 0xffffffe0 push 0x80068005 ;wels_shufb0312_movzxw_128 push 0x80078004 push 0x80028001 push 0x80038000 push 0x0d0c0f0e ;wels_shufb2301_128 push 0x09080b0a push 0x05040706 push 0x01000302 vbroadcasti128 ymm6, [esp+16] %else vbroadcasti128 ymm6, [wels_shufb0312_movzxw_128] %endif ;Load 4x16 AVX2_LoadDiff16P mm0, r1, r2, r3, r4, mm6, mm4, mm5 add r1, r2 add r3, r4 AVX2_LoadDiff16P mm1, r1, r2, r3, r4, mm6, mm4, mm5 add r1, r2 add r3, r4 AVX2_LoadDiff16P mm2, r1, r2, r3, r4, mm6, mm4, mm5 add r1, r2 add r3, r4 AVX2_LoadDiff16P mm3, r1, r2, r3, r4, mm6, mm4, mm5 AVX2_DCT ymm0, ymm1, ymm2, ymm3, ymm5 %ifdef X86_32_PICASM vbroadcasti128 ymm6, [esp] mov esp, r5 pop r5 %else vbroadcasti128 ymm6, [wels_shufb2301_128] %endif AVX2_DCT_HORIZONTAL ymm0, ymm6, ymm5 AVX2_DCT_HORIZONTAL ymm1, ymm6, ymm5 AVX2_DCT_HORIZONTAL ymm2, ymm6, ymm5 AVX2_DCT_HORIZONTAL ymm3, ymm6, ymm5 AVX2_Store4x16P r0, mm0, mm1, mm2, mm3, mm5 vzeroupper POP_XMM LOAD_5_PARA_POP ret ;*********************************************************************** ; void IdctFourResAddPred_avx2(uint8_t* pPred, int32_t iStride, const int16_t* pDct, const int8_t* pNzc); ;*********************************************************************** WELS_EXTERN IdctFourResAddPred_avx2 %assign push_num 0 LOAD_3_PARA_TO_5_PARA_IDCT jmp prefixed(WelsIDctFourT4Rec_avx2.begin) ;*********************************************************************** ; void WelsIDctFourT4Rec_avx2(uint8_t* pRec, int32_t iStride, uint8_t* pPred, int32_t iPredStride, int16_t* pDct); ;*********************************************************************** WELS_EXTERN WelsIDctFourT4Rec_avx2 %assign push_num 0 LOAD_5_PARA .begin: PUSH_XMM 8 SIGN_EXTENSION r1, r1d SIGN_EXTENSION r3, r3d AVX2_Load4x16P mm0, mm1, mm2, mm3, r4, mm5 %ifdef X86_32_PICASM push r5 mov r5, esp and esp, 0xffffffe0 push 0x0d0c0f0e ;wels_shufb2301_128 push 0x09080b0a push 0x05040706 push 0x01000302 push 0x80068005 ;wels_shufb0312_movzxw_128 push 0x80078004 push 0x80028001 push 0x80038000 push 0x00200020 ;wels_dw32_128 push 0x00200020 push 0x00200020 push 0x00200020 vbroadcasti128 ymm6, [esp+32] %else vbroadcasti128 ymm6, [wels_shufb2301_128] %endif AVX2_IDCT_HORIZONTAL ymm0, ymm6, ymm5 AVX2_IDCT_HORIZONTAL ymm1, ymm6, ymm5 AVX2_IDCT_HORIZONTAL ymm2, ymm6, ymm5 AVX2_IDCT_HORIZONTAL ymm3, ymm6, ymm5 AVX2_IDCT ymm0, ymm1, ymm2, ymm3, ymm5 %ifdef X86_32_PICASM vbroadcasti128 ymm6, [esp+16] vbroadcasti128 ymm7, [esp] mov esp, r5 pop r5 %else vbroadcasti128 ymm6, [wels_shufb0312_movzxw_128] vbroadcasti128 ymm7, [wels_dw32_128] %endif AVX2_StoreDiff32P r0, r1, mm0, mm1, r2, r3, mm7, mm6, mm5, mm4 add r2, r3 add r0, r1 AVX2_StoreDiff32P r0, r1, mm2, mm3, r2, r3, mm7, mm6, mm5, mm4 vzeroupper POP_XMM LOAD_5_PARA_POP ret ;*********************************************************************** ; void WelsDctT4_avx2(int16_t* pDct, uint8_t* pPixel1, int32_t iStride1, uint8_t* pPixel2, int32_t iStride2) ;*********************************************************************** WELS_EXTERN WelsDctT4_avx2 %assign push_num 0 LOAD_5_PARA PUSH_XMM 5 SIGN_EXTENSION r2, r2d SIGN_EXTENSION r4, r4d %ifdef X86_32_PICASM push r5 mov r5, esp and esp, 0xffffffe0 push 0x80068005 ;wels_shufb0312_movzxw_128 push 0x80078004 push 0x80028001 push 0x80038000 push 0x0d0c0f0e ;wels_shufb2301_128 push 0x09080b0a push 0x05040706 push 0x01000302 vbroadcasti128 ymm1, [esp+16] %else vbroadcasti128 ymm1, [wels_shufb0312_movzxw_128] %endif AVX2_LoadDiff4x4P mm0, r1, r2, r3, r4, mm1, mm2, mm3, mm4 AVX2_DCT_4x4P ymm0, ymm2 %ifdef X86_32_PICASM vbroadcasti128 ymm1, [esp] mov esp, r5 pop r5 %else vbroadcasti128 ymm1, [wels_shufb2301_128] %endif AVX2_DCT_HORIZONTAL ymm0, ymm1, ymm2 AVX2_Store4x4P r0, mm0 vzeroupper POP_XMM LOAD_5_PARA_POP ret ;*********************************************************************** ; void IdctResAddPred_avx2(uint8_t* pPred, int32_t iStride, int16_t* pDct); ;*********************************************************************** WELS_EXTERN IdctResAddPred_avx2 %assign push_num 0 LOAD_3_PARA_TO_5_PARA_IDCT jmp prefixed(WelsIDctT4Rec_avx2.begin) ;*********************************************************************** ; void WelsIDctT4Rec_avx2(uint8_t* pRec, int32_t iStride, uint8_t* pPred, int32_t iPredStride, int16_t* pDct); ;*********************************************************************** WELS_EXTERN WelsIDctT4Rec_avx2 %assign push_num 0 LOAD_5_PARA .begin: PUSH_XMM 6 SIGN_EXTENSION r1, r1d SIGN_EXTENSION r3, r3d AVX2_Load4x4P mm0, r4 %ifdef X86_32_PICASM push r5 mov r5, esp and esp, 0xffffffe0 push 0x0d0c0f0e ;wels_shufb2301_128 push 0x09080b0a push 0x05040706 push 0x01000302 push 0x80068005 ;wels_shufb0312_movzxw_128 push 0x80078004 push 0x80028001 push 0x80038000 push 0x00200020 ;wels_dw32_128 push 0x00200020 push 0x00200020 push 0x00200020 vbroadcasti128 ymm4, [esp+32] %else vbroadcasti128 ymm4, [wels_shufb2301_128] %endif AVX2_IDCT_HORIZONTAL ymm0, ymm4, ymm1 AVX2_IDCT_4x4P ymm0, ymm1 %ifdef X86_32_PICASM vbroadcasti128 ymm4, [esp+16] vbroadcasti128 ymm5, [esp] mov esp, r5 pop r5 %else vbroadcasti128 ymm4, [wels_shufb0312_movzxw_128] vbroadcasti128 ymm5, [wels_dw32_128] %endif AVX2_StoreDiff4x4P r0, r1, mm0, r2, r3, mm5, mm4, mm1, mm2, mm3 vzeroupper POP_XMM LOAD_5_PARA_POP ret %endif