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Quelle yuv_row_win.cpp Sprache: C |
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// Copyright (c) 2010 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "yuv_row.h" #include "mozilla/SSE.h" #define kCoefficientsRgbU kCoefficientsRgbY + 2048 #define kCoefficientsRgbV kCoefficientsRgbY + 4096 extern "C" { #if defined(MOZILLA_MAY_SUPPORT_SSE) && defined(_M_IX86) #if defined(__clang__) // clang-cl has a bug where it doesn't mangle names in inline asm // so let's do the mangling in the preprocessor (ugh) // (but we still need to declare a dummy extern for the parser) extern void* _kCoefficientsRgbY; #define kCoefficientsRgbY _kCoefficientsRgbY #endif __declspec(naked) void FastConvertYUVToRGB32Row_SSE(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width) { __asm { pushad mov edx, [esp + 32 + 4] // Y mov edi, [esp + 32 + 8] // U mov esi, [esp + 32 + 12] // V mov ebp, [esp + 32 + 16] // rgb mov ecx, [esp + 32 + 20] // width jmp convertend convertloop : movzx eax, byte ptr [edi] add edi, 1 movzx ebx, byte ptr [esi] add esi, 1 movq mm0, [kCoefficientsRgbU + 8 * eax] movzx eax, byte ptr [edx] paddsw mm0, [kCoefficientsRgbV + 8 * ebx] movzx ebx, byte ptr [edx + 1] movq mm1, [kCoefficientsRgbY + 8 * eax] add edx, 2 movq mm2, [kCoefficientsRgbY + 8 * ebx] paddsw mm1, mm0 paddsw mm2, mm0 psraw mm1, 6 psraw mm2, 6 packuswb mm1, mm2 movntq [ebp], mm1 add ebp, 8 convertend : sub ecx, 2 jns convertloop and ecx, 1 // odd number of pixels? jz convertdone movzx eax, byte ptr [edi] movq mm0, [kCoefficientsRgbU + 8 * eax] movzx eax, byte ptr [esi] paddsw mm0, [kCoefficientsRgbV + 8 * eax] movzx eax, byte ptr [edx] movq mm1, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 psraw mm1, 6 packuswb mm1, mm1 movd [ebp], mm1 convertdone : popad ret } } __declspec(naked) void ConvertYUVToRGB32Row_SSE(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width, int step) { __asm { pushad mov edx, [esp + 32 + 4] // Y mov edi, [esp + 32 + 8] // U mov esi, [esp + 32 + 12] // V mov ebp, [esp + 32 + 16] // rgb mov ecx, [esp + 32 + 20] // width mov ebx, [esp + 32 + 24] // step jmp wend wloop : movzx eax, byte ptr [edi] add edi, ebx movq mm0, [kCoefficientsRgbU + 8 * eax] movzx eax, byte ptr [esi] add esi, ebx paddsw mm0, [kCoefficientsRgbV + 8 * eax] movzx eax, byte ptr [edx] add edx, ebx movq mm1, [kCoefficientsRgbY + 8 * eax] movzx eax, byte ptr [edx] add edx, ebx movq mm2, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 paddsw mm2, mm0 psraw mm1, 6 psraw mm2, 6 packuswb mm1, mm2 movntq [ebp], mm1 add ebp, 8 wend : sub ecx, 2 jns wloop and ecx, 1 // odd number of pixels? jz wdone movzx eax, byte ptr [edi] movq mm0, [kCoefficientsRgbU + 8 * eax] movzx eax, byte ptr [esi] paddsw mm0, [kCoefficientsRgbV + 8 * eax] movzx eax, byte ptr [edx] movq mm1, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 psraw mm1, 6 packuswb mm1, mm1 movd [ebp], mm1 wdone : popad ret } } __declspec(naked) void RotateConvertYUVToRGB32Row_SSE(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width, int ystep, int uvstep) { __asm { pushad mov edx, [esp + 32 + 4] // Y mov edi, [esp + 32 + 8] // U mov esi, [esp + 32 + 12] // V mov ebp, [esp + 32 + 16] // rgb mov ecx, [esp + 32 + 20] // width jmp wend wloop : movzx eax, byte ptr [edi] mov ebx, [esp + 32 + 28] // uvstep add edi, ebx movq mm0, [kCoefficientsRgbU + 8 * eax] movzx eax, byte ptr [esi] add esi, ebx paddsw mm0, [kCoefficientsRgbV + 8 * eax] movzx eax, byte ptr [edx] mov ebx, [esp + 32 + 24] // ystep add edx, ebx movq mm1, [kCoefficientsRgbY + 8 * eax] movzx eax, byte ptr [edx] add edx, ebx movq mm2, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 paddsw mm2, mm0 psraw mm1, 6 psraw mm2, 6 packuswb mm1, mm2 movntq [ebp], mm1 add ebp, 8 wend : sub ecx, 2 jns wloop and ecx, 1 // odd number of pixels? jz wdone movzx eax, byte ptr [edi] movq mm0, [kCoefficientsRgbU + 8 * eax] movzx eax, byte ptr [esi] paddsw mm0, [kCoefficientsRgbV + 8 * eax] movzx eax, byte ptr [edx] movq mm1, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 psraw mm1, 6 packuswb mm1, mm1 movd [ebp], mm1 wdone : popad ret } } __declspec(naked) void DoubleYUVToRGB32Row_SSE(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width) { __asm { pushad mov edx, [esp + 32 + 4] // Y mov edi, [esp + 32 + 8] // U mov esi, [esp + 32 + 12] // V mov ebp, [esp + 32 + 16] // rgb mov ecx, [esp + 32 + 20] // width jmp wend wloop : movzx eax, byte ptr [edi] add edi, 1 movzx ebx, byte ptr [esi] add esi, 1 movq mm0, [kCoefficientsRgbU + 8 * eax] movzx eax, byte ptr [edx] paddsw mm0, [kCoefficientsRgbV + 8 * ebx] movq mm1, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 psraw mm1, 6 packuswb mm1, mm1 punpckldq mm1, mm1 movntq [ebp], mm1 movzx ebx, byte ptr [edx + 1] add edx, 2 paddsw mm0, [kCoefficientsRgbY + 8 * ebx] psraw mm0, 6 packuswb mm0, mm0 punpckldq mm0, mm0 movntq [ebp+8], mm0 add ebp, 16 wend : sub ecx, 4 jns wloop add ecx, 4 jz wdone movzx eax, byte ptr [edi] movq mm0, [kCoefficientsRgbU + 8 * eax] movzx eax, byte ptr [esi] paddsw mm0, [kCoefficientsRgbV + 8 * eax] movzx eax, byte ptr [edx] movq mm1, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 psraw mm1, 6 packuswb mm1, mm1 jmp wend1 wloop1 : movd [ebp], mm1 add ebp, 4 wend1 : sub ecx, 1 jns wloop1 wdone : popad ret } } // This version does general purpose scaling by any amount, up or down. // The only thing it cannot do is rotation by 90 or 270. // For performance the chroma is under-sampled, reducing cost of a 3x // 1080p scale from 8.4 ms to 5.4 ms. __declspec(naked) void ScaleYUVToRGB32Row_SSE(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width, int source_dx) { __asm { pushad mov edx, [esp + 32 + 4] // Y mov edi, [esp + 32 + 8] // U mov esi, [esp + 32 + 12] // V mov ebp, [esp + 32 + 16] // rgb mov ecx, [esp + 32 + 20] // width xor ebx, ebx // x jmp scaleend scaleloop : mov eax, ebx sar eax, 17 movzx eax, byte ptr [edi + eax] movq mm0, [kCoefficientsRgbU + 8 * eax] mov eax, ebx sar eax, 17 movzx eax, byte ptr [esi + eax] paddsw mm0, [kCoefficientsRgbV + 8 * eax] mov eax, ebx add ebx, [esp + 32 + 24] // x += source_dx sar eax, 16 movzx eax, byte ptr [edx + eax] movq mm1, [kCoefficientsRgbY + 8 * eax] mov eax, ebx add ebx, [esp + 32 + 24] // x += source_dx sar eax, 16 movzx eax, byte ptr [edx + eax] movq mm2, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 paddsw mm2, mm0 psraw mm1, 6 psraw mm2, 6 packuswb mm1, mm2 movntq [ebp], mm1 add ebp, 8 scaleend : sub ecx, 2 jns scaleloop and ecx, 1 // odd number of pixels? jz scaledone mov eax, ebx sar eax, 17 movzx eax, byte ptr [edi + eax] movq mm0, [kCoefficientsRgbU + 8 * eax] mov eax, ebx sar eax, 17 movzx eax, byte ptr [esi + eax] paddsw mm0, [kCoefficientsRgbV + 8 * eax] mov eax, ebx sar eax, 16 movzx eax, byte ptr [edx + eax] movq mm1, [kCoefficientsRgbY + 8 * eax] paddsw mm1, mm0 psraw mm1, 6 packuswb mm1, mm1 movd [ebp], mm1 scaledone : popad ret } } __declspec(naked) void LinearScaleYUVToRGB32Row_SSE(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width, int source_dx) { __asm { pushad mov edx, [esp + 32 + 4] // Y mov edi, [esp + 32 + 8] // U // [esp + 32 + 12] // V mov ebp, [esp + 32 + 16] // rgb mov ecx, [esp + 32 + 20] // width imul ecx, [esp + 32 + 24] // source_dx mov [esp + 32 + 20], ecx // source_width = width * source_dx mov ecx, [esp + 32 + 24] // source_dx xor ebx, ebx // x = 0 cmp ecx, 0x20000 jl lscaleend mov ebx, 0x8000 // x = 0.5 for 1/2 or less jmp lscaleend lscaleloop: mov eax, ebx sar eax, 0x11 movzx ecx, byte ptr [edi + eax] movzx esi, byte ptr [edi + eax + 1] mov eax, ebx and eax, 0x1fffe imul esi, eax xor eax, 0x1fffe imul ecx, eax add ecx, esi shr ecx, 17 movq mm0, [kCoefficientsRgbU + 8 * ecx] mov esi, [esp + 32 + 12] mov eax, ebx sar eax, 0x11 movzx ecx, byte ptr [esi + eax] movzx esi, byte ptr [esi + eax + 1] mov eax, ebx and eax, 0x1fffe imul esi, eax xor eax, 0x1fffe imul ecx, eax add ecx, esi shr ecx, 17 paddsw mm0, [kCoefficientsRgbV + 8 * ecx] mov eax, ebx sar eax, 0x10 movzx ecx, byte ptr [edx + eax] movzx esi, byte ptr [1 + edx + eax] mov eax, ebx add ebx, [esp + 32 + 24] and eax, 0xffff imul esi, eax xor eax, 0xffff imul ecx, eax add ecx, esi shr ecx, 16 movq mm1, [kCoefficientsRgbY + 8 * ecx] cmp ebx, [esp + 32 + 20] jge lscalelastpixel mov eax, ebx sar eax, 0x10 movzx ecx, byte ptr [edx + eax] movzx esi, byte ptr [edx + eax + 1] mov eax, ebx add ebx, [esp + 32 + 24] and eax, 0xffff imul esi, eax xor eax, 0xffff imul ecx, eax add ecx, esi shr ecx, 16 movq mm2, [kCoefficientsRgbY + 8 * ecx] paddsw mm1, mm0 paddsw mm2, mm0 psraw mm1, 0x6 psraw mm2, 0x6 packuswb mm1, mm2 movntq [ebp], mm1 add ebp, 0x8 lscaleend: cmp ebx, [esp + 32 + 20] jl lscaleloop popad ret lscalelastpixel: paddsw mm1, mm0 psraw mm1, 6 packuswb mm1, mm1 movd [ebp], mm1 popad ret }; } #endif // if defined(MOZILLA_MAY_SUPPORT_SSE) && defined(_M_IX86) void FastConvertYUVToRGB32Row(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width) { #if defined(MOZILLA_MAY_SUPPORT_SSE) && defined(_M_IX86) if (mozilla::supports_sse()) { FastConvertYUVToRGB32Row_SSE(y_buf, u_buf, v_buf, rgb_buf, width); return; } #endif FastConvertYUVToRGB32Row_C(y_buf, u_buf, v_buf, rgb_buf, width, 1); } void ScaleYUVToRGB32Row(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width, int source_dx) { #if defined(MOZILLA_MAY_SUPPORT_SSE) && defined(_M_IX86) if (mozilla::supports_sse()) { ScaleYUVToRGB32Row_SSE(y_buf, u_buf, v_buf, rgb_buf, width, source_dx); return; } #endif ScaleYUVToRGB32Row_C(y_buf, u_buf, v_buf, rgb_buf, width, source_dx); } void LinearScaleYUVToRGB32Row(const uint8_t* y_buf, const uint8_t* u_buf, const uint8_t* v_buf, uint8_t* rgb_buf, int width, int source_dx) { #if defined(MOZILLA_MAY_SUPPORT_SSE) && defined(_M_IX86) if (mozilla::supports_sse()) { LinearScaleYUVToRGB32Row_SSE(y_buf, u_buf, v_buf, rgb_buf, width, source_dx); return; } #endif LinearScaleYUVToRGB32Row_C(y_buf, u_buf, v_buf, rgb_buf, width, source_dx); } } // extern "C"
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2026-04-04