ref: f9eee0cfbe67bbe20cfa5b3c5627b1eec18eaed9
dir: /vp8/common/x86/idctllm_mmx.asm/
; ; Copyright (c) 2010 The WebM project authors. All Rights Reserved. ; ; Use of this source code is governed by a BSD-style license ; that can be found in the LICENSE file in the root of the source ; tree. An additional intellectual property rights grant can be found ; in the file PATENTS. All contributing project authors may ; be found in the AUTHORS file in the root of the source tree. ; %include "vpx_ports/x86_abi_support.asm" ; /**************************************************************************** ; * Notes: ; * ; * This implementation makes use of 16 bit fixed point version of two multiply ; * constants: ; * 1. sqrt(2) * cos (pi/8) ; * 2. sqrt(2) * sin (pi/8) ; * Because the first constant is bigger than 1, to maintain the same 16 bit ; * fixed point precision as the second one, we use a trick of ; * x * a = x + x*(a-1) ; * so ; * x * sqrt(2) * cos (pi/8) = x + x * (sqrt(2) *cos(pi/8)-1). ; * ; * For the second constant, because of the 16bit version is 35468, which ; * is bigger than 32768, in signed 16 bit multiply, it becomes a negative ; * number. ; * (x * (unsigned)35468 >> 16) = x * (signed)35468 >> 16 + x ; * ; **************************************************************************/ SECTION .text ;void vp8_short_idct4x4llm_mmx(short *input, unsigned char *pred, ;int pitch, unsigned char *dest,int stride) global sym(vp8_short_idct4x4llm_mmx) PRIVATE sym(vp8_short_idct4x4llm_mmx): push rbp mov rbp, rsp SHADOW_ARGS_TO_STACK 5 GET_GOT rbx push rsi push rdi ; end prolog mov rax, arg(0) ;input mov rsi, arg(1) ;pred movq mm0, [rax ] movq mm1, [rax+ 8] movq mm2, [rax+16] movq mm3, [rax+24] %if 0 pxor mm7, mm7 movq [rax], mm7 movq [rax+8], mm7 movq [rax+16],mm7 movq [rax+24],mm7 %endif movsxd rax, dword ptr arg(2) ;pitch mov rdx, arg(3) ;dest movsxd rdi, dword ptr arg(4) ;stride psubw mm0, mm2 ; b1= 0-2 paddw mm2, mm2 ; movq mm5, mm1 paddw mm2, mm0 ; a1 =0+2 pmulhw mm5, [GLOBAL(x_s1sqr2)]; paddw mm5, mm1 ; ip1 * sin(pi/8) * sqrt(2) movq mm7, mm3 ; pmulhw mm7, [GLOBAL(x_c1sqr2less1)]; paddw mm7, mm3 ; ip3 * cos(pi/8) * sqrt(2) psubw mm7, mm5 ; c1 movq mm5, mm1 movq mm4, mm3 pmulhw mm5, [GLOBAL(x_c1sqr2less1)] paddw mm5, mm1 pmulhw mm3, [GLOBAL(x_s1sqr2)] paddw mm3, mm4 paddw mm3, mm5 ; d1 movq mm6, mm2 ; a1 movq mm4, mm0 ; b1 paddw mm2, mm3 ;0 paddw mm4, mm7 ;1 psubw mm0, mm7 ;2 psubw mm6, mm3 ;3 movq mm1, mm2 ; 03 02 01 00 movq mm3, mm4 ; 23 22 21 20 punpcklwd mm1, mm0 ; 11 01 10 00 punpckhwd mm2, mm0 ; 13 03 12 02 punpcklwd mm3, mm6 ; 31 21 30 20 punpckhwd mm4, mm6 ; 33 23 32 22 movq mm0, mm1 ; 11 01 10 00 movq mm5, mm2 ; 13 03 12 02 punpckldq mm0, mm3 ; 30 20 10 00 punpckhdq mm1, mm3 ; 31 21 11 01 punpckldq mm2, mm4 ; 32 22 12 02 punpckhdq mm5, mm4 ; 33 23 13 03 movq mm3, mm5 ; 33 23 13 03 psubw mm0, mm2 ; b1= 0-2 paddw mm2, mm2 ; movq mm5, mm1 paddw mm2, mm0 ; a1 =0+2 pmulhw mm5, [GLOBAL(x_s1sqr2)]; paddw mm5, mm1 ; ip1 * sin(pi/8) * sqrt(2) movq mm7, mm3 ; pmulhw mm7, [GLOBAL(x_c1sqr2less1)]; paddw mm7, mm3 ; ip3 * cos(pi/8) * sqrt(2) psubw mm7, mm5 ; c1 movq mm5, mm1 movq mm4, mm3 pmulhw mm5, [GLOBAL(x_c1sqr2less1)] paddw mm5, mm1 pmulhw mm3, [GLOBAL(x_s1sqr2)] paddw mm3, mm4 paddw mm3, mm5 ; d1 paddw mm0, [GLOBAL(fours)] paddw mm2, [GLOBAL(fours)] movq mm6, mm2 ; a1 movq mm4, mm0 ; b1 paddw mm2, mm3 ;0 paddw mm4, mm7 ;1 psubw mm0, mm7 ;2 psubw mm6, mm3 ;3 psraw mm2, 3 psraw mm0, 3 psraw mm4, 3 psraw mm6, 3 movq mm1, mm2 ; 03 02 01 00 movq mm3, mm4 ; 23 22 21 20 punpcklwd mm1, mm0 ; 11 01 10 00 punpckhwd mm2, mm0 ; 13 03 12 02 punpcklwd mm3, mm6 ; 31 21 30 20 punpckhwd mm4, mm6 ; 33 23 32 22 movq mm0, mm1 ; 11 01 10 00 movq mm5, mm2 ; 13 03 12 02 punpckldq mm0, mm3 ; 30 20 10 00 punpckhdq mm1, mm3 ; 31 21 11 01 punpckldq mm2, mm4 ; 32 22 12 02 punpckhdq mm5, mm4 ; 33 23 13 03 pxor mm7, mm7 movd mm4, [rsi] punpcklbw mm4, mm7 paddsw mm0, mm4 packuswb mm0, mm7 movd [rdx], mm0 movd mm4, [rsi+rax] punpcklbw mm4, mm7 paddsw mm1, mm4 packuswb mm1, mm7 movd [rdx+rdi], mm1 movd mm4, [rsi+2*rax] punpcklbw mm4, mm7 paddsw mm2, mm4 packuswb mm2, mm7 movd [rdx+rdi*2], mm2 add rdx, rdi add rsi, rax movd mm4, [rsi+2*rax] punpcklbw mm4, mm7 paddsw mm5, mm4 packuswb mm5, mm7 movd [rdx+rdi*2], mm5 ; begin epilog pop rdi pop rsi RESTORE_GOT UNSHADOW_ARGS pop rbp ret ;void vp8_dc_only_idct_add_mmx( ;short input_dc, ;unsigned char *pred_ptr, ;int pred_stride, ;unsigned char *dst_ptr, ;int stride) global sym(vp8_dc_only_idct_add_mmx) PRIVATE sym(vp8_dc_only_idct_add_mmx): push rbp mov rbp, rsp SHADOW_ARGS_TO_STACK 5 GET_GOT rbx ; end prolog movd mm5, arg(0) ;input_dc mov rax, arg(1) ;pred_ptr movsxd rdx, dword ptr arg(2) ;pred_stride pxor mm0, mm0 paddw mm5, [GLOBAL(fours)] lea rcx, [rdx + rdx*2] psraw mm5, 3 punpcklwd mm5, mm5 punpckldq mm5, mm5 movd mm1, [rax] movd mm2, [rax+rdx] movd mm3, [rax+2*rdx] movd mm4, [rax+rcx] mov rax, arg(3) ;d -- destination movsxd rdx, dword ptr arg(4) ;dst_stride punpcklbw mm1, mm0 paddsw mm1, mm5 packuswb mm1, mm0 ; pack and unpack to saturate lea rcx, [rdx + rdx*2] punpcklbw mm2, mm0 paddsw mm2, mm5 packuswb mm2, mm0 ; pack and unpack to saturate punpcklbw mm3, mm0 paddsw mm3, mm5 packuswb mm3, mm0 ; pack and unpack to saturate punpcklbw mm4, mm0 paddsw mm4, mm5 packuswb mm4, mm0 ; pack and unpack to saturate movd [rax], mm1 movd [rax+rdx], mm2 movd [rax+2*rdx], mm3 movd [rax+rcx], mm4 ; begin epilog RESTORE_GOT UNSHADOW_ARGS pop rbp ret SECTION_RODATA align 16 x_s1sqr2: times 4 dw 0x8A8C align 16 x_c1sqr2less1: times 4 dw 0x4E7B align 16 fours: times 4 dw 0x0004