📄 colorspace_mmx.asm
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;/**************************************************************************; *; * XVID MPEG-4 VIDEO CODEC; * mmx colorspace conversions; *; * This program is an implementation of a part of one or more MPEG-4; * Video tools as specified in ISO/IEC 14496-2 standard. Those intending; * to use this software module in hardware or software products are; * advised that its use may infringe existing patents or copyrights, and; * any such use would be at such party's own risk. The original; * developer of this software module and his/her company, and subsequent; * editors and their companies, will have no liability for use of this; * software or modifications or derivatives thereof.; *; * This program is free software; you can redistribute it and/or modify; * it under the terms of the GNU General Public License as published by; * the Free Software Foundation; either version 2 of the License, or; * (at your option) any later version.; *; * This program is distributed in the hope that it will be useful,; * but WITHOUT ANY WARRANTY; without even the implied warranty of; * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the; * GNU General Public License for more details.; *; * You should have received a copy of the GNU General Public License; * along with this program; if not, write to the Free Software; * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.; *; *************************************************************************/;/**************************************************************************; *; * History:; *; * 24.11.2001 added cglobal macro (Isibaar); * 23.11.2001 initial version; (c)2001 peter ross <pross@cs.rmit.edu.au>; *; *************************************************************************/bits 32section .data%macro cglobal 1 %ifdef PREFIX global _%1 %define %1 _%1 %else global %1 %endif%endmacroalign 16;===========================================================================; yuv constants;===========================================================================%define Y_R 0.257%define Y_G 0.504%define Y_B 0.098%define Y_ADD 16%define U_R 0.148%define U_G 0.291%define U_B 0.439%define U_ADD 128%define V_R 0.439%define V_G 0.368%define V_B 0.071%define V_ADD 128;===========================================================================; multiplication matrices;===========================================================================; %define SCALEBITS 8y_mul dw 25 ; FIX(Y_B) dw 129 ; FIX(Y_G) dw 66 ; FIX(Y_R) dw 0u_mul dw 112 ; FIX(U_B) dw -74 ; FIX(U_G) dw -38 ; FIX(U_R) dw 0v_mul dw -18 ; FIX(V_B) dw -94 ; FIX(V_G) dw 112 ; FIX(V_R) dw 0section .text;===========================================================================;; void yuyv_to_rgb24_mmx(uint8_t * const y_out,; uint8_t * const u_out,; uint8_t * const v_out,; const uint8_t * const src,; const uint32_t width,; const uint32_t height,; const uint32_t stride);; always flips;;===========================================================================align 16cglobal rgb24_to_yuv_mmxrgb24_to_yuv_mmx push ebx push ecx push esi push edi push ebp ; STACK BASE = 20 ; global consants mov eax, [esp + 20 + 28] ; stride mov ecx, [esp + 20 + 20] ; width mov ebx, eax sub ebx, ecx shr ebx, 1 ; ebx = (stride-width) / 2; push ebx ; [esp + 20] = uv_dif ; STACK BASE = 24 add eax, eax sub eax, ecx ; eax = 2*stride - width push eax ; [esp + 16] = y_dif ; STACK BASE = 28 mov ebx, ecx ; shr ebx, 1 ; push ebx ; [esp + 12] = width/2 ; STACK BASE = 32 mov edx, ecx add ecx, edx add ecx, edx ; ecx = 3*width (use 4 for rgb32) push ecx ; [esp + 8] = width3 ; STACK BASE = 36 mov edx, ecx add edx, ecx add edx, ecx ; edx = 3*width3 push edx ; [esp + 4] = src_dif ; STACK BASE = 40 mov esi, [esp + 40 + 16] ; src mov ebp, [esp + 40 + 24] ; eax = height mov eax, ebp sub eax, 2 mul ecx add esi, eax ; src += (height-2) * width3 mov edi, [esp + 40 + 4] ; y_out mov ecx, [esp + 40 + 8] ; u_out mov edx, [esp + 40 + 12] ; v_out movq mm7, [y_mul] shr ebp, 1 ; ebp = height / 2 push ebp ; [esp+0] = tmp ; STACK BASE = 44.yloop mov ebp, [esp + 12] ; ebp = width /2 .xloop ; y_out mov ebx, [esp + 8] ; ebx = width3 pxor mm4, mm4 pxor mm5, mm5 movd mm0, [esi] ; src[0...] movd mm2, [esi+ebx] ; src[width3...] punpcklbw mm0, mm4 ; [ |b |g |r ] punpcklbw mm2, mm5 ; [ |b |g |r ] movq mm6, mm0 ; = [ |b4|g4|r4] paddw mm6, mm2 ; +[ |b4|g4|r4] pmaddwd mm0, mm7 ; *= Y_MUL pmaddwd mm2, mm7 ; *= Y_MUL movq mm4, mm0 ; [r] movq mm5, mm2 ; [r] psrlq mm4, 32 ; +[g] psrlq mm5, 32 ; +[g] paddd mm0, mm4 ; +[b] paddd mm2, mm5 ; +[b] pxor mm4, mm4 pxor mm5, mm5 movd mm1, [esi+3] ; src[4...] movd mm3, [esi+ebx+3] ; src[width3+4...] punpcklbw mm1, mm4 ; [ |b |g |r ] punpcklbw mm3, mm5 ; [ |b |g |r ] paddw mm6, mm1 ; +[ |b4|g4|r4] paddw mm6, mm3 ; +[ |b4|g4|r4] pmaddwd mm1, mm7 ; *= Y_MUL pmaddwd mm3, mm7 ; *= Y_MUL movq mm4, mm1 ; [r] movq mm5, mm3 ; [r] psrlq mm4, 32 ; +[g] psrlq mm5, 32 ; +[g] paddd mm1, mm4 ; +[b] paddd mm3, mm5 ; +[b] mov ebx, [esp + 44 + 28] ; stride movd eax, mm0 shr eax, 8 add eax, Y_ADD mov [edi + ebx], al movd eax, mm1 shr eax, 8 add eax, Y_ADD mov [edi + ebx + 1], al movd eax, mm2 shr eax, 8 add eax, Y_ADD mov [edi], al movd eax, mm3 shr eax, 8 add eax, Y_ADD mov [edi + 1], al ; u_out, v_out movq mm0, mm6 ; = [ |b4|g4|r4] pmaddwd mm6, [v_mul] ; *= V_MUL pmaddwd mm0, [u_mul] ; *= U_MUL movq mm1, mm0 movq mm2, mm6 psrlq mm1, 32 psrlq mm2, 32 paddd mm0, mm1 paddd mm2, mm6 movd eax, mm0 shr eax, 10 add eax, U_ADD mov [ecx], al movd eax, mm2 shr eax, 10 add eax, V_ADD mov [edx], al add esi, 2 * 3 ; (use 4 for rgb32) add edi, 2 inc ecx inc edx dec ebp jnz near .xloop sub esi, [esp + 4] ; src -= src_dif add edi, [esp + 16] ; y_out += y_dif add ecx, [esp + 20] ; u_out += uv_dif add edx, [esp + 20] ; v_out += uv_dif dec dword [esp+0] jnz near .yloop emms add esp, 24 pop ebp pop edi pop esi pop ecx pop ebx ret;===========================================================================;; void yuyv_to_rgb32_mmx(uint8_t * const y_out,; uint8_t * const u_out,; uint8_t * const v_out,; const uint8_t * const src,; const uint32_t width,; const uint32_t height,; const uint32_t stride);; always flips;;===========================================================================align 16cglobal rgb32_to_yuv_mmxrgb32_to_yuv_mmx push ebx push ecx push esi push edi push ebp ; STACK BASE = 20 ; global consants mov eax, [esp + 20 + 28] ; stride mov ecx, [esp + 20 + 20] ; width mov ebx, eax sub ebx, ecx shr ebx, 1 ; ebx = (stride-width) / 2; push ebx ; [esp + 20] = uv_dif ; STACK BASE = 24 add eax, eax sub eax, ecx ; eax = 2*stride - width push eax ; [esp + 16] = y_dif ; STACK BASE = 28 mov ebx, ecx ; shr ebx, 1 ; push ebx ; [esp + 12] = width/2 ; STACK BASE = 32 mov edx, ecx shl ecx, 2 ; ecx = 4*width (use 4 for rgb32) push ecx ; [esp + 8] = width4 ; STACK BASE = 36 mov edx, ecx add edx, ecx add edx, ecx ; edx = 3*width4 push edx ; [esp + 4] = src_dif ; STACK BASE = 40 mov esi, [esp + 40 + 16] ; src mov ebp, [esp + 40 + 24] ; eax = height mov eax, ebp sub eax, 2 mul ecx add esi, eax ; src += (height-2) * width4 mov edi, [esp + 40 + 4] ; y_out mov ecx, [esp + 40 + 8] ; u_out mov edx, [esp + 40 + 12] ; v_out movq mm7, [y_mul] shr ebp, 1 ; ebp = height / 2 push ebp ; [esp+0] = tmp ; STACK BASE = 44.yloop mov ebp, [esp + 12] ; ebp = width /2 .xloop ; y_out mov ebx, [esp + 8] ; ebx = width4 pxor mm4, mm4 movq mm0, [esi] ; src[4... |0... ] movq mm2, [esi+ebx] ; src[width4+4...|width4...] movq mm1, mm0 movq mm3, mm2 punpcklbw mm0, mm4 ; [ |b |g |r ] punpcklbw mm2, mm4 ; [ |b |g |r ] punpckhbw mm1, mm4 ; [ |b |g |r ] punpckhbw mm3, mm4 ; [ |b |g |r ] movq mm6, mm0 ; = [ |b4|g4|r4] paddw mm6, mm2 ; +[ |b4|g4|r4] pmaddwd mm0, mm7 ; *= Y_MUL pmaddwd mm2, mm7 ; *= Y_MUL movq mm4, mm0 ; [r] movq mm5, mm2 ; [r] psrlq mm4, 32 ; +[g] psrlq mm5, 32 ; +[g] paddd mm0, mm4 ; +[b] paddd mm2, mm5 ; +[b] paddw mm6, mm1 ; +[ |b4|g4|r4] paddw mm6, mm3 ; +[ |b4|g4|r4] pmaddwd mm1, mm7 ; *= Y_MUL pmaddwd mm3, mm7 ; *= Y_MUL movq mm4, mm1 ; [r] movq mm5, mm3 ; [r] psrlq mm4, 32 ; +[g] psrlq mm5, 32 ; +[g] paddd mm1, mm4 ; +[b] paddd mm3, mm5 ; +[b] mov ebx, [esp + 44 + 28] ; stride movd eax, mm0 shr eax, 8 add eax, Y_ADD mov [edi + ebx], al movd eax, mm1 shr eax, 8 add eax, Y_ADD mov [edi + ebx + 1], al movd eax, mm2 shr eax, 8 add eax, Y_ADD mov [edi], al movd eax, mm3 shr eax, 8 add eax, Y_ADD mov [edi + 1], al ; u_out, v_out movq mm0, mm6 ; = [ |b4|g4|r4] pmaddwd mm6, [v_mul] ; *= V_MUL pmaddwd mm0, [u_mul] ; *= U_MUL movq mm1, mm0 movq mm2, mm6 psrlq mm1, 32 psrlq mm2, 32 paddd mm0, mm1 paddd mm2, mm6 movd eax, mm0 shr eax, 10 add eax, U_ADD mov [ecx], al movd eax, mm2 shr eax, 10 add eax, V_ADD mov [edx], al add esi, 2 * 4 ; (use 4 for rgb32) add edi, 2 inc ecx inc edx dec ebp jnz near .xloop sub esi, [esp + 4] ; src -= src_dif add edi, [esp + 16] ; y_out += y_dif add ecx, [esp + 20] ; u_out += uv_dif add edx, [esp + 20] ; v_out += uv_dif dec dword [esp+0] jnz near .yloop emms add esp, 24 pop ebp pop edi pop esi pop ecx pop ebx ret⌨️ 快捷键说明
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