ref: d75c539407217dc55d06c53a0cead8febdcba593
dir: /test/encoder/EncUT_MotionCompensation.cpp/
#include <gtest/gtest.h> #include "codec_def.h" #include "macros.h" #include "mc.h" #include "cpu.h" using namespace WelsCommon; #define MC_BUFF_SRC_STRIDE 32 #define MC_BUFF_DST_STRIDE 32 #define MC_BUFF_HEIGHT 30 /**********************MC Unit Test Anchor Code Begin******************************/ static bool bQpelNeeded[4][4] = { { false, true, false, true }, { true, true, true, true }, { false, true, false, true }, { true, true, true, true } }; static int32_t iHpelRef0Array[4][4] = { { 0, 1, 1, 1 }, { 0, 1, 1, 1 }, { 2, 3, 3, 3 }, { 0, 1, 1, 1 } }; static int32_t iHpelRef1Array[4][4] = { { 0, 0, 0, 0 }, { 2, 2, 3, 2 }, { 2, 2, 3, 2 }, { 2, 2, 3, 2 } }; #define FILTER6TAP(pPixBuff, x, iStride) ((pPixBuff)[x-2*iStride] + (pPixBuff)[x+3*iStride] - 5*((pPixBuff)[x-iStride] + (pPixBuff)[x+2*iStride]) + 20*((pPixBuff)[x] + (pPixBuff)[x+iStride])) static inline uint8_t Clip255 (int32_t x) { return ((x & ~255) ? (-x) >> 31 & 255 : x); } static void MCCopyAnchor (uint8_t* pSrc, int32_t iSrcStride, uint8_t* pDst, int32_t iDstStride, int32_t iWidth, int32_t iHeight) { for (int32_t y = 0; y < iHeight; y++) { memcpy (pDst, pSrc, iWidth * sizeof (uint8_t)); pSrc += iSrcStride; pDst += iDstStride; } } static void MCHalfPelFilterAnchor (uint8_t* pDstH, uint8_t* pDstV, uint8_t* pDstHV, uint8_t* pSrc, int32_t iStride, int32_t iWidth, int32_t iHeight, int16_t* pBuf) { for (int32_t y = 0; y < iHeight; y++) { for (int32_t x = 0; x < iWidth; x++) pDstH[x] = Clip255 ((FILTER6TAP (pSrc, x, 1) + 16) >> 5); for (int32_t x = -2; x < iWidth + 3; x++) { int32_t v = FILTER6TAP (pSrc, x, iStride); if (x >= 0 && x < iWidth) pDstV[x] = Clip255 ((v + 16) >> 5); pBuf[x + 2] = v; } for (int32_t x = 0; x < iWidth; x++) pDstHV[x] = Clip255 ((FILTER6TAP (pBuf + 2, x, 1) + 512) >> 10); pDstH += iStride; pDstV += iStride; pDstHV += iStride; pSrc += iStride; } } static void PixelAvgAnchor (uint8_t* pDst, int32_t iDstStride, uint8_t* pSrc1, int32_t iSrc1Stride, uint8_t* pSrc2, int32_t iSrc2Stride, int32_t iWidth, int32_t iHeight) { for (int32_t y = 0; y < iHeight; y++) { for (int32_t x = 0; x < iWidth; x++) pDst[x] = (pSrc1[x] + pSrc2[x] + 1) >> 1; pDst += iDstStride; pSrc1 += iSrc1Stride; pSrc2 += iSrc2Stride; } } static void MCLumaAnchor (uint8_t* pDst, int32_t iDstStride, uint8_t* pSrc[4], int32_t iSrcStride, int32_t iMvX, int32_t iMvY, int32_t iWidth, int32_t iHeight) { int32_t iMvXIdx = iMvX & 3; int32_t iMvYIdx = iMvY & 3; int32_t iOffset = (iMvY >> 2) * iSrcStride + (iMvX >> 2); uint8_t* pSrc1 = pSrc[iHpelRef0Array[iMvYIdx][iMvXIdx]] + iOffset + ((iMvYIdx) == 3) * iSrcStride; if (bQpelNeeded[iMvYIdx][iMvXIdx]) { uint8_t* pSrc2 = pSrc[iHpelRef1Array[iMvYIdx][iMvXIdx]] + iOffset + ((iMvXIdx) == 3); PixelAvgAnchor (pDst, iDstStride, pSrc1, iSrcStride, pSrc2, iSrcStride, iWidth, iHeight); } else { MCCopyAnchor (pSrc1, iSrcStride, pDst, iDstStride, iWidth, iHeight); } } static void MCChromaAnchor (uint8_t* pDstU, uint8_t* pDstV, int32_t iDstStride, uint8_t* pSrc, int32_t iSrcStride, int32_t iMvX, int32_t iMvY, int32_t iWidth, int32_t iHeight) { uint8_t* pSrcTmp; pSrc += (iMvY >> 3) * iSrcStride + (iMvX >> 3) * 2; pSrcTmp = &pSrc[iSrcStride]; int32_t iMvXIdx = iMvX & 0x07; int32_t iMvYIdx = iMvY & 0x07; int32_t iBiPara0 = (8 - iMvXIdx) * (8 - iMvYIdx); int32_t iBiPara1 = iMvXIdx * (8 - iMvYIdx); int32_t iBiPara2 = (8 - iMvXIdx) * iMvYIdx; int32_t iBiPara3 = iMvXIdx * iMvYIdx; for (int32_t y = 0; y < iHeight; y++) { for (int32_t x = 0; x < iWidth; x++) { pDstU[x] = (iBiPara0 * pSrc[2 * x] + iBiPara1 * pSrc[2 * x + 2] + iBiPara2 * pSrcTmp[2 * x] + iBiPara3 * pSrcTmp[2 * x + 2] + 32) >> 6; pDstV[x] = (iBiPara0 * pSrc[2 * x + 1] + iBiPara1 * pSrc[2 * x + 3] + iBiPara2 * pSrcTmp[2 * x + 1] + iBiPara3 * pSrcTmp[2 * x + 3] + 32) >> 6; } pSrc = pSrcTmp; pSrcTmp += iSrcStride; pDstU += iDstStride; pDstV += iDstStride; } } /**********************MC Unit Test OPENH264 Code Begin******************************/ #define DEF_MCCOPYTEST(iW,iH) \ TEST(McCopy_c,iW##x##iH) \ { \ SMcFunc sMcFunc; \ int32_t iCpuCores = 1; \ uint32_t uiCpuFlag;\ for(int32_t k =0; k<2; k++)\ {\ if(k==0)\ {\ uiCpuFlag = 0;\ }else \ {\ uiCpuFlag = WelsCPUFeatureDetect (&iCpuCores); \ }\ InitMcFunc(&sMcFunc, uiCpuFlag); \ uint8_t uSrcAnchor[MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; \ uint8_t uSrcTest[MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; \ ENFORCE_STACK_ALIGN_2D(uint8_t, uDstAnchor, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); \ ENFORCE_STACK_ALIGN_2D(uint8_t, uDstTest, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); \ for(int32_t j=0;j<MC_BUFF_HEIGHT;j++) \ { \ for(int32_t i=0;i<MC_BUFF_SRC_STRIDE;i++) \ { \ uSrcAnchor[j][i] = uSrcTest[j][i] = rand()%256; \ } \ } \ memset(uDstAnchor,0,sizeof(uint8_t)*MC_BUFF_HEIGHT*MC_BUFF_DST_STRIDE);\ memset(uDstTest,0,sizeof(uint8_t)*MC_BUFF_HEIGHT*MC_BUFF_DST_STRIDE); \ MCCopyAnchor(uSrcAnchor[0],MC_BUFF_SRC_STRIDE,uDstAnchor[0],MC_BUFF_DST_STRIDE,iW,iH); \ sMcFunc.pMcLumaFunc(uSrcTest[0],MC_BUFF_SRC_STRIDE,uDstTest[0],MC_BUFF_DST_STRIDE,0,0,iW,iH); \ for(int32_t j=0;j<MC_BUFF_HEIGHT;j++) \ { \ for(int32_t i=0;i<MC_BUFF_DST_STRIDE;i++) \ { \ ASSERT_EQ(uDstAnchor[j][i],uDstTest[j][i]); \ } \ } \ }\ } DEF_MCCOPYTEST (2, 2) DEF_MCCOPYTEST (2, 4) DEF_MCCOPYTEST (4, 2) DEF_MCCOPYTEST (4, 4) DEF_MCCOPYTEST (4, 8) DEF_MCCOPYTEST (8, 4) DEF_MCCOPYTEST (8, 8) DEF_MCCOPYTEST (16, 8) DEF_MCCOPYTEST (8, 16) DEF_MCCOPYTEST (16, 16) #define DEF_LUMA_MCTEST(iW, iH, cpu_flags, name_suffix) \ TEST(McHorVer, iW##x##iH##_##name_suffix) \ { \ for (int32_t a = 0; a < 4; a++) { \ for (int32_t b = 0; b < 4; b++) { \ SMcFunc sMcFunc; \ uint8_t uSrcAnchor[4][MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; \ uint8_t uSrcTest[MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; \ ENFORCE_STACK_ALIGN_2D(uint8_t, uDstAnchor, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); \ ENFORCE_STACK_ALIGN_2D(uint8_t, uDstTest, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); \ uint8_t* uSrcInputAnchor[4]; \ int16_t pBuf[MC_BUFF_DST_STRIDE]; \ uSrcInputAnchor[0] = &uSrcAnchor[0][4][4]; \ uSrcInputAnchor[1] = &uSrcAnchor[1][4][4]; \ uSrcInputAnchor[2] = &uSrcAnchor[2][4][4]; \ uSrcInputAnchor[3] = &uSrcAnchor[3][4][4]; \ for(int32_t j=0;j<MC_BUFF_HEIGHT;j++) \ {\ for(int32_t i=0;i<MC_BUFF_SRC_STRIDE;i++) \ {\ uSrcAnchor[0][j][i] = uSrcTest[j][i] = rand()%256; \ }\ }\ InitMcFunc(&sMcFunc, WelsCPUFeatureDetect (0) & (cpu_flags)); \ memset(uDstAnchor,0,sizeof(uint8_t)*MC_BUFF_HEIGHT*MC_BUFF_DST_STRIDE); \ memset(uDstTest,0,sizeof(uint8_t)*MC_BUFF_HEIGHT*MC_BUFF_DST_STRIDE); \ MCHalfPelFilterAnchor(uSrcInputAnchor[1],uSrcInputAnchor[2],uSrcInputAnchor[3],uSrcInputAnchor[0],MC_BUFF_SRC_STRIDE,iW+1,iH+1,pBuf+4); \ MCLumaAnchor(uDstAnchor[0],MC_BUFF_DST_STRIDE,uSrcInputAnchor,MC_BUFF_SRC_STRIDE,a,b,iW,iH); \ sMcFunc.pMcLumaFunc(&uSrcTest[4][4],MC_BUFF_SRC_STRIDE,uDstTest[0],MC_BUFF_DST_STRIDE,a,b,iW,iH);\ for(int32_t j=0;j<MC_BUFF_HEIGHT;j++) \ { \ for(int32_t i=0;i<MC_BUFF_DST_STRIDE;i++) \ { \ ASSERT_EQ(uDstAnchor[j][i],uDstTest[j][i]); \ } \ } \ }\ }\ } #define DEF_LUMA_MCTESTS(cpu_flags, name_suffix) \ DEF_LUMA_MCTEST ( 4, 4, cpu_flags, name_suffix) \ DEF_LUMA_MCTEST ( 4, 8, cpu_flags, name_suffix) \ DEF_LUMA_MCTEST ( 8, 4, cpu_flags, name_suffix) \ DEF_LUMA_MCTEST ( 8, 8, cpu_flags, name_suffix) \ DEF_LUMA_MCTEST (16, 8, cpu_flags, name_suffix) \ DEF_LUMA_MCTEST ( 8, 16, cpu_flags, name_suffix) \ DEF_LUMA_MCTEST (16, 16, cpu_flags, name_suffix) DEF_LUMA_MCTESTS(0, c) DEF_LUMA_MCTESTS(~0, native) #ifdef X86_ASM DEF_LUMA_MCTESTS(WELS_CPU_SSE2, sse2) DEF_LUMA_MCTESTS(WELS_CPU_SSE2 | WELS_CPU_SSSE3, ssse3) #ifdef HAVE_AVX2 DEF_LUMA_MCTESTS(WELS_CPU_SSE2 | WELS_CPU_SSSE3 | WELS_CPU_AVX2, avx2) #endif #endif #define DEF_CHROMA_MCTEST(iW,iH) \ TEST(McChroma,iW##x##iH) \ { \ for (int32_t a = 0; a < 8; a++) { \ for (int32_t b = 0; b < 8; b++) { \ SMcFunc sMcFunc; \ uint8_t uSrcAnchor[MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE*2]; \ uint8_t uSrcTest[MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; \ ENFORCE_STACK_ALIGN_2D(uint8_t, uDstAnchor1, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); \ ENFORCE_STACK_ALIGN_2D(uint8_t, uDstAnchor2, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); \ ENFORCE_STACK_ALIGN_2D(uint8_t, uDstTest, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); \ for(int32_t j=0;j<MC_BUFF_HEIGHT;j++) \ {\ for(int32_t i=0;i<MC_BUFF_SRC_STRIDE;i++) \ {\ uSrcAnchor[j][i*2] = uSrcTest[j][i] = rand()%256; \ }\ }\ int32_t iCpuCores = 1; \ uint32_t uiCpuFlag;\ for(int32_t k =0; k<2; k++)\ {\ if(k==0)\ {\ uiCpuFlag = 0;\ }else \ {\ uiCpuFlag = WelsCPUFeatureDetect (&iCpuCores); \ }\ InitMcFunc(&sMcFunc,uiCpuFlag);\ memset(uDstAnchor1,0,sizeof(uint8_t)*MC_BUFF_HEIGHT*MC_BUFF_DST_STRIDE); \ memset(uDstAnchor2,0,sizeof(uint8_t)*MC_BUFF_HEIGHT*MC_BUFF_DST_STRIDE); \ memset(uDstTest,0,sizeof(uint8_t)*MC_BUFF_HEIGHT*MC_BUFF_DST_STRIDE); \ MCChromaAnchor(uDstAnchor1[0],uDstAnchor2[0],MC_BUFF_DST_STRIDE,uSrcAnchor[0],MC_BUFF_SRC_STRIDE*2,a,b,iW,iH); \ sMcFunc.pMcChromaFunc(uSrcTest[0],MC_BUFF_SRC_STRIDE,uDstTest[0],MC_BUFF_DST_STRIDE,a,b,iW,iH);\ for(int32_t j=0;j<MC_BUFF_HEIGHT;j++) \ { \ for(int32_t i=0;i<MC_BUFF_DST_STRIDE;i++) \ { \ ASSERT_EQ(uDstAnchor1[j][i],uDstTest[j][i]); \ } \ } \ }\ }\ }\ } DEF_CHROMA_MCTEST (2, 2) DEF_CHROMA_MCTEST (2, 4) DEF_CHROMA_MCTEST (4, 2) DEF_CHROMA_MCTEST (4, 4) DEF_CHROMA_MCTEST (4, 8) DEF_CHROMA_MCTEST (8, 4) DEF_CHROMA_MCTEST (8, 8) TEST (EncMcAvg, PixelAvg) { SMcFunc sMcFunc; for (int32_t k = 0; k < 2; k++) { for (int32_t w = 0; w < 2; w++) { int32_t width = 8 << w; int32_t height = 16; uint32_t uiCpuFlag = k == 0 ? 0 : WelsCPUFeatureDetect (NULL); InitMcFunc (&sMcFunc, uiCpuFlag); uint8_t uSrc1[MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; uint8_t uSrc2[MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; ENFORCE_STACK_ALIGN_2D (uint8_t, uDstAnchor, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); ENFORCE_STACK_ALIGN_2D (uint8_t, uDstTest, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); for (int32_t j = 0; j < MC_BUFF_HEIGHT; j++) { for (int32_t i = 0; i < MC_BUFF_SRC_STRIDE; i++) { uSrc1[j][i] = rand() % 256; uSrc2[j][i] = rand() % 256; } } PixelAvgAnchor (uDstAnchor[0], MC_BUFF_DST_STRIDE, uSrc1[0], MC_BUFF_SRC_STRIDE, uSrc2[0], MC_BUFF_SRC_STRIDE, width, height); sMcFunc.pfSampleAveraging (uDstTest[0], MC_BUFF_DST_STRIDE, uSrc1[0], MC_BUFF_SRC_STRIDE, uSrc2[0], MC_BUFF_SRC_STRIDE, width, height); for (int32_t j = 0; j < height; j++) { for (int32_t i = 0; i < width; i++) { ASSERT_EQ (uDstAnchor[j][i], uDstTest[j][i]); } } } } } #define DEF_HALFPEL_MCTEST(iW, iH, cpu_flags, name_suffix) \ TEST (EncMcHalfpel, iW##x##iH##_##name_suffix) { \ SMcFunc sMcFunc; \ for (int32_t w = 0; w < 2; w++) { \ int32_t width = iW ; \ int32_t height = iH; \ uint8_t uAnchor[4][MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; \ uint8_t uSrcTest[MC_BUFF_HEIGHT][MC_BUFF_SRC_STRIDE]; \ uint8_t uRand[MC_BUFF_HEIGHT][MC_BUFF_DST_STRIDE]; \ ENFORCE_STACK_ALIGN_2D (uint8_t, uDstTest, MC_BUFF_HEIGHT, MC_BUFF_DST_STRIDE, 16); \ uint8_t* uAnchors[4]; \ int16_t pBuf[MC_BUFF_DST_STRIDE]; \ uAnchors[0] = &uAnchor[0][4][4]; \ uAnchors[1] = &uAnchor[1][4][4]; \ uAnchors[2] = &uAnchor[2][4][4]; \ uAnchors[3] = &uAnchor[3][4][4]; \ \ memset (uAnchor, 0, 4 * sizeof (uint8_t)*MC_BUFF_HEIGHT * MC_BUFF_SRC_STRIDE); \ memset (uDstTest, 0, sizeof (uint8_t)*MC_BUFF_HEIGHT * MC_BUFF_DST_STRIDE); \ for (int32_t j = 0; j < MC_BUFF_HEIGHT; j++) { \ for (int32_t i = 0; i < MC_BUFF_SRC_STRIDE; i++) { \ uAnchor[0][j][i] = uSrcTest[j][i] = rand() % 256; \ uRand[j][i] = rand() % 256; \ } \ } \ \ InitMcFunc (&sMcFunc, WelsCPUFeatureDetect (0) & (cpu_flags)); \ \ MCHalfPelFilterAnchor (uAnchors[1], uAnchors[2], uAnchors[3], uAnchors[0], MC_BUFF_SRC_STRIDE, width + 1, height + 1, pBuf + 4); \ memcpy (&uDstTest[0][0], &uRand[0][0], sizeof uRand); \ sMcFunc.pfLumaHalfpelHor (&uSrcTest[4][4], MC_BUFF_SRC_STRIDE, uDstTest[0], MC_BUFF_DST_STRIDE, width + 1, height); \ for (int32_t j = 0; j < height; j++) { \ for (int32_t i = 0; i < width + 1; i++) { \ ASSERT_EQ (uAnchor[1][4 + j][4 + i], uDstTest[j][i]); \ } \ } \ for (int32_t j = 0; j < MC_BUFF_HEIGHT; j++) { \ for (int32_t i = j < height ? width + 1 : 0; i < MC_BUFF_DST_STRIDE; i++) { \ ASSERT_EQ (uRand[j][i], uDstTest[j][i]); \ } \ } \ memcpy (&uDstTest[0][0], &uRand[0][0], sizeof uRand); \ sMcFunc.pfLumaHalfpelVer (&uSrcTest[4][4], MC_BUFF_SRC_STRIDE, uDstTest[0], MC_BUFF_DST_STRIDE, width, height + 1); \ for (int32_t j = 0; j < height + 1; j++) { \ for (int32_t i = 0; i < width; i++) { \ ASSERT_EQ (uAnchor[2][4 + j][4 + i], uDstTest[j][i]); \ } \ } \ for (int32_t j = 0; j < MC_BUFF_HEIGHT; j++) { \ for (int32_t i = j < height + 1 ? width : 0; i < MC_BUFF_DST_STRIDE; i++) { \ ASSERT_EQ (uRand[j][i], uDstTest[j][i]); \ } \ } \ memcpy (&uDstTest[0][0], &uRand[0][0], sizeof uRand); \ sMcFunc.pfLumaHalfpelCen (&uSrcTest[4][4], MC_BUFF_SRC_STRIDE, uDstTest[0], MC_BUFF_DST_STRIDE, width + 1, height + 1); \ for (int32_t j = 0; j < height + 1; j++) { \ for (int32_t i = 0; i < width + 1; i++) { \ ASSERT_EQ (uAnchor[3][4 + j][4 + i], uDstTest[j][i]); \ } \ } \ for (int32_t j = 0; j < MC_BUFF_HEIGHT; j++) { \ for (int32_t i = j < height + 1 ? width + 1 : 0; i < MC_BUFF_DST_STRIDE; i++) { \ ASSERT_EQ (uRand[j][i], uDstTest[j][i]); \ } \ } \ } \ } #define DEF_HALFPEL_MCTESTS(cpu_flags, name_suffix) \ DEF_HALFPEL_MCTEST( 4 , 4, cpu_flags, name_suffix) \ DEF_HALFPEL_MCTEST( 4, 8, cpu_flags, name_suffix) \ DEF_HALFPEL_MCTEST( 8, 4, cpu_flags, name_suffix) \ DEF_HALFPEL_MCTEST( 8, 8, cpu_flags, name_suffix) \ DEF_HALFPEL_MCTEST( 8, 16, cpu_flags, name_suffix) \ DEF_HALFPEL_MCTEST(16, 8, cpu_flags, name_suffix) \ DEF_HALFPEL_MCTEST(16, 16, cpu_flags, name_suffix) DEF_HALFPEL_MCTESTS(0, c) DEF_HALFPEL_MCTESTS(~0, native) #ifdef X86_ASM DEF_HALFPEL_MCTESTS(WELS_CPU_SSE2, sse2) DEF_HALFPEL_MCTESTS(WELS_CPU_SSE2 | WELS_CPU_SSSE3, ssse3) #ifdef HAVE_AVX2 DEF_HALFPEL_MCTESTS(WELS_CPU_SSE2 | WELS_CPU_SSSE3 | WELS_CPU_AVX2, avx2) #endif #endif