ref: 719a61a653646e781b2024da890c7c6b378a6f1e
dir: /codec/processing/src/complexityanalysis/ComplexityAnalysis.cpp/
/*! * \copy * Copyright (c) 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. * */ #include "ComplexityAnalysis.h" #include "cpu.h" #include "macros.h" #include "intra_pred_common.h" WELSVP_NAMESPACE_BEGIN /////////////////////////////////////////////////////////////////////////////////////////////////////////////// CComplexityAnalysis::CComplexityAnalysis (int32_t iCpuFlag) { m_eMethod = METHOD_COMPLEXITY_ANALYSIS; m_pfGomSad = NULL; WelsMemset (&m_sComplexityAnalysisParam, 0, sizeof (m_sComplexityAnalysisParam)); } CComplexityAnalysis::~CComplexityAnalysis() { } EResult CComplexityAnalysis::Process (int32_t iType, SPixMap* pSrcPixMap, SPixMap* pRefPixMap) { EResult eReturn = RET_SUCCESS; switch (m_sComplexityAnalysisParam.iComplexityAnalysisMode) { case FRAME_SAD: AnalyzeFrameComplexityViaSad (pSrcPixMap, pRefPixMap); break; case GOM_SAD: AnalyzeGomComplexityViaSad (pSrcPixMap, pRefPixMap); break; case GOM_VAR: AnalyzeGomComplexityViaVar (pSrcPixMap, pRefPixMap); break; default: eReturn = RET_INVALIDPARAM; break; } return eReturn; } EResult CComplexityAnalysis::Set (int32_t iType, void* pParam) { if (pParam == NULL) { return RET_INVALIDPARAM; } m_sComplexityAnalysisParam = * (SComplexityAnalysisParam*)pParam; return RET_SUCCESS; } EResult CComplexityAnalysis::Get (int32_t iType, void* pParam) { if (pParam == NULL) { return RET_INVALIDPARAM; } SComplexityAnalysisParam* sComplexityAnalysisParam = (SComplexityAnalysisParam*)pParam; sComplexityAnalysisParam->iFrameComplexity = m_sComplexityAnalysisParam.iFrameComplexity; return RET_SUCCESS; } /////////////////////////////////////////////////////////////////////////////////////////////// void CComplexityAnalysis::AnalyzeFrameComplexityViaSad (SPixMap* pSrcPixMap, SPixMap* pRefPixMap) { SVAACalcResult* pVaaCalcResults = NULL; pVaaCalcResults = m_sComplexityAnalysisParam.pCalcResult; m_sComplexityAnalysisParam.iFrameComplexity = pVaaCalcResults->iFrameSad; if (m_sComplexityAnalysisParam.iCalcBgd) { //BGD control m_sComplexityAnalysisParam.iFrameComplexity = GetFrameSadExcludeBackground (pSrcPixMap, pRefPixMap); } } int32_t CComplexityAnalysis::GetFrameSadExcludeBackground (SPixMap* pSrcPixMap, SPixMap* pRefPixMap) { int32_t iWidth = pSrcPixMap->sRect.iRectWidth; int32_t iHeight = pSrcPixMap->sRect.iRectHeight; int32_t iMbWidth = iWidth >> 4; int32_t iMbHeight = iHeight >> 4; int32_t iMbNum = iMbWidth * iMbHeight; int32_t iMbNumInGom = m_sComplexityAnalysisParam.iMbNumInGom; int32_t iGomMbNum = (iMbNum + iMbNumInGom - 1) / iMbNumInGom; int32_t iGomMbStartIndex = 0, iGomMbEndIndex = 0; uint8_t* pBackgroundMbFlag = (uint8_t*)m_sComplexityAnalysisParam.pBackgroundMbFlag; uint32_t* uiRefMbType = (uint32_t*)m_sComplexityAnalysisParam.uiRefMbType; SVAACalcResult* pVaaCalcResults = m_sComplexityAnalysisParam.pCalcResult; int32_t* pGomForegroundBlockNum = m_sComplexityAnalysisParam.pGomForegroundBlockNum; uint32_t uiFrameSad = 0; for (int32_t j = 0; j < iGomMbNum; j ++) { iGomMbStartIndex = j * iMbNumInGom; iGomMbEndIndex = WELS_MIN ((j + 1) * iMbNumInGom, iMbNum); for (int32_t i = iGomMbStartIndex; i < iGomMbEndIndex; i ++) { if (pBackgroundMbFlag[i] == 0 || IS_INTRA (uiRefMbType[i])) { pGomForegroundBlockNum[j]++; uiFrameSad += pVaaCalcResults->pSad8x8[i][0]; uiFrameSad += pVaaCalcResults->pSad8x8[i][1]; uiFrameSad += pVaaCalcResults->pSad8x8[i][2]; uiFrameSad += pVaaCalcResults->pSad8x8[i][3]; } } } return (uiFrameSad); } void InitGomSadFunc (PGOMSadFunc& pfGomSad, uint8_t iCalcBgd) { pfGomSad = GomSampleSad; if (iCalcBgd) { pfGomSad = GomSampleSadExceptBackground; } } void GomSampleSad (uint32_t* pGomSad, int32_t* pGomForegroundBlockNum, int32_t* pSad8x8, uint8_t pBackgroundMbFlag) { (*pGomForegroundBlockNum) ++; *pGomSad += pSad8x8[0]; *pGomSad += pSad8x8[1]; *pGomSad += pSad8x8[2]; *pGomSad += pSad8x8[3]; } void GomSampleSadExceptBackground (uint32_t* pGomSad, int32_t* pGomForegroundBlockNum, int32_t* pSad8x8, uint8_t pBackgroundMbFlag) { if (pBackgroundMbFlag == 0) { (*pGomForegroundBlockNum) ++; *pGomSad += pSad8x8[0]; *pGomSad += pSad8x8[1]; *pGomSad += pSad8x8[2]; *pGomSad += pSad8x8[3]; } } void CComplexityAnalysis::AnalyzeGomComplexityViaSad (SPixMap* pSrcPixMap, SPixMap* pRefPixMap) { int32_t iWidth = pSrcPixMap->sRect.iRectWidth; int32_t iHeight = pSrcPixMap->sRect.iRectHeight; int32_t iMbWidth = iWidth >> 4; int32_t iMbHeight = iHeight >> 4; int32_t iMbNum = iMbWidth * iMbHeight; int32_t iMbNumInGom = m_sComplexityAnalysisParam.iMbNumInGom; int32_t iGomMbNum = (iMbNum + iMbNumInGom - 1) / iMbNumInGom; int32_t iGomMbStartIndex = 0, iGomMbEndIndex = 0, iGomMbRowNum = 0; int32_t iMbStartIndex = 0, iMbEndIndex = 0; uint8_t* pBackgroundMbFlag = (uint8_t*)m_sComplexityAnalysisParam.pBackgroundMbFlag; uint32_t* uiRefMbType = (uint32_t*)m_sComplexityAnalysisParam.uiRefMbType; SVAACalcResult* pVaaCalcResults = m_sComplexityAnalysisParam.pCalcResult; int32_t* pGomForegroundBlockNum = (int32_t*)m_sComplexityAnalysisParam.pGomForegroundBlockNum; int32_t* pGomComplexity = (int32_t*)m_sComplexityAnalysisParam.pGomComplexity; uint32_t uiGomSad = 0, uiFrameSad = 0; InitGomSadFunc (m_pfGomSad, m_sComplexityAnalysisParam.iCalcBgd); for (int32_t j = 0; j < iGomMbNum; j ++) { uiGomSad = 0; iGomMbStartIndex = j * iMbNumInGom; iGomMbEndIndex = WELS_MIN ((j + 1) * iMbNumInGom, iMbNum); iGomMbRowNum = (iGomMbEndIndex + iMbWidth - 1) / iMbWidth - iGomMbStartIndex / iMbWidth; iMbStartIndex = iGomMbStartIndex; iMbEndIndex = WELS_MIN ((iMbStartIndex / iMbWidth + 1) * iMbWidth, iGomMbEndIndex); do { for (int32_t i = iMbStartIndex; i < iMbEndIndex; i ++) { m_pfGomSad (&uiGomSad, pGomForegroundBlockNum + j, pVaaCalcResults->pSad8x8[i], pBackgroundMbFlag[i] && !IS_INTRA (uiRefMbType[i])); } iMbStartIndex = iMbEndIndex; iMbEndIndex = WELS_MIN (iMbEndIndex + iMbWidth , iGomMbEndIndex); } while (--iGomMbRowNum); pGomComplexity[j] = uiGomSad; uiFrameSad += pGomComplexity[j]; } m_sComplexityAnalysisParam.iFrameComplexity = uiFrameSad; } void CComplexityAnalysis::AnalyzeGomComplexityViaVar (SPixMap* pSrcPixMap, SPixMap* pRefPixMap) { int32_t iWidth = pSrcPixMap->sRect.iRectWidth; int32_t iHeight = pSrcPixMap->sRect.iRectHeight; int32_t iMbWidth = iWidth >> 4; int32_t iMbHeight = iHeight >> 4; int32_t iMbNum = iMbWidth * iMbHeight; int32_t iMbNumInGom = m_sComplexityAnalysisParam.iMbNumInGom; int32_t iGomMbNum = (iMbNum + iMbNumInGom - 1) / iMbNumInGom; int32_t iGomSampleNum = 0; int32_t iGomMbStartIndex = 0, iGomMbEndIndex = 0, iGomMbRowNum = 0; int32_t iMbStartIndex = 0, iMbEndIndex = 0; SVAACalcResult* pVaaCalcResults = m_sComplexityAnalysisParam.pCalcResult; int32_t* pGomComplexity = (int32_t*)m_sComplexityAnalysisParam.pGomComplexity; uint32_t uiFrameSad = 0; uint32_t uiSampleSum = 0, uiSquareSum = 0; for (int32_t j = 0; j < iGomMbNum; j ++) { uiSampleSum = 0; uiSquareSum = 0; iGomMbStartIndex = j * iMbNumInGom; iGomMbEndIndex = WELS_MIN ((j + 1) * iMbNumInGom, iMbNum); iGomMbRowNum = (iGomMbEndIndex + iMbWidth - 1) / iMbWidth - iGomMbStartIndex / iMbWidth; iMbStartIndex = iGomMbStartIndex; iMbEndIndex = WELS_MIN ((iMbStartIndex / iMbWidth + 1) * iMbWidth, iGomMbEndIndex); iGomSampleNum = (iMbEndIndex - iMbStartIndex) * MB_WIDTH_LUMA * MB_WIDTH_LUMA; do { for (int32_t i = iMbStartIndex; i < iMbEndIndex; i ++) { uiSampleSum += pVaaCalcResults->pSum16x16[i]; uiSquareSum += pVaaCalcResults->pSumOfSquare16x16[i]; } iMbStartIndex = iMbEndIndex; iMbEndIndex = WELS_MIN (iMbEndIndex + iMbWidth, iGomMbEndIndex); } while (--iGomMbRowNum); pGomComplexity[j] = uiSquareSum - (uiSampleSum * uiSampleSum / iGomSampleNum); uiFrameSad += pGomComplexity[j]; } m_sComplexityAnalysisParam.iFrameComplexity = uiFrameSad; } CComplexityAnalysisScreen::CComplexityAnalysisScreen (int32_t iCpuFlag) { m_eMethod = METHOD_COMPLEXITY_ANALYSIS_SCREEN; WelsMemset (&m_ComplexityAnalysisParam, 0, sizeof (m_ComplexityAnalysisParam)); m_pSadFunc = WelsSampleSad16x16_c; m_pIntraFunc[0] = WelsI16x16LumaPredV_c; m_pIntraFunc[1] = WelsI16x16LumaPredH_c; #ifdef X86_ASM if (iCpuFlag & WELS_CPU_SSE2) { m_pSadFunc = WelsSampleSad16x16_sse2; m_pIntraFunc[0] = WelsI16x16LumaPredV_sse2; m_pIntraFunc[1] = WelsI16x16LumaPredH_sse2; } #endif #if defined (HAVE_NEON) if (iCpuFlag & WELS_CPU_NEON) { m_pSadFunc = WelsSampleSad16x16_neon; m_pIntraFunc[0] = WelsI16x16LumaPredV_neon; m_pIntraFunc[1] = WelsI16x16LumaPredH_neon; } #endif #if defined (HAVE_NEON_AARCH64) if (iCpuFlag & WELS_CPU_NEON) { m_pSadFunc = WelsSampleSad16x16_AArch64_neon; m_pIntraFunc[0] = WelsI16x16LumaPredV_AArch64_neon; m_pIntraFunc[1] = WelsI16x16LumaPredH_AArch64_neon; } #endif } CComplexityAnalysisScreen::~CComplexityAnalysisScreen() { } EResult CComplexityAnalysisScreen::Process (int32_t nType, SPixMap* pSrc, SPixMap* pRef) { bool bScrollFlag = m_ComplexityAnalysisParam.sScrollResult.bScrollDetectFlag; int32_t iIdrFlag = m_ComplexityAnalysisParam.iIdrFlag; int32_t iScrollMvX = m_ComplexityAnalysisParam.sScrollResult.iScrollMvX; int32_t iScrollMvY = m_ComplexityAnalysisParam.sScrollResult.iScrollMvY; if (m_ComplexityAnalysisParam.iMbRowInGom <= 0) return RET_INVALIDPARAM; if (!iIdrFlag && pRef == NULL) return RET_INVALIDPARAM; if (iIdrFlag || pRef == NULL) { GomComplexityAnalysisIntra (pSrc); } else if (!bScrollFlag || ((iScrollMvX == 0) && (iScrollMvY == 0))) { GomComplexityAnalysisInter (pSrc, pRef, 0); } else { GomComplexityAnalysisInter (pSrc, pRef, 1); } return RET_SUCCESS; } EResult CComplexityAnalysisScreen::Set (int32_t nType, void* pParam) { if (pParam == NULL) return RET_INVALIDPARAM; m_ComplexityAnalysisParam = * (SComplexityAnalysisScreenParam*)pParam; return RET_SUCCESS; } EResult CComplexityAnalysisScreen::Get (int32_t nType, void* pParam) { if (pParam == NULL) return RET_INVALIDPARAM; * (SComplexityAnalysisScreenParam*)pParam = m_ComplexityAnalysisParam; return RET_SUCCESS; } void CComplexityAnalysisScreen::GomComplexityAnalysisIntra (SPixMap* pSrc) { int32_t iWidth = pSrc->sRect.iRectWidth; int32_t iHeight = pSrc->sRect.iRectHeight; int32_t iBlockWidth = iWidth >> 4; int32_t iBlockHeight = iHeight >> 4; int32_t iBlockSadH, iBlockSadV, iGomSad = 0; int32_t iIdx = 0; uint8_t* pPtrY = NULL; int32_t iStrideY = 0; int32_t iRowStrideY = 0; uint8_t* pTmpCur = NULL; ENFORCE_STACK_ALIGN_1D (uint8_t, iMemPredMb, 256, 16) pPtrY = (uint8_t*)pSrc->pPixel[0]; iStrideY = pSrc->iStride[0]; iRowStrideY = iStrideY << 4; m_ComplexityAnalysisParam.iFrameComplexity = 0; for (int32_t j = 0; j < iBlockHeight; j ++) { pTmpCur = pPtrY; for (int32_t i = 0; i < iBlockWidth; i++) { iBlockSadH = iBlockSadV = 0x7fffffff; // INT_MAX if (j > 0) { m_pIntraFunc[0] (iMemPredMb, pTmpCur, iStrideY); iBlockSadH = m_pSadFunc (pTmpCur, iStrideY, iMemPredMb, 16); } if (i > 0) { m_pIntraFunc[1] (iMemPredMb, pTmpCur, iStrideY); iBlockSadV = m_pSadFunc (pTmpCur, iStrideY, iMemPredMb, 16); } if (i || j) iGomSad += WELS_MIN (iBlockSadH, iBlockSadV); pTmpCur += 16; if (i == iBlockWidth - 1 && ((j + 1) % m_ComplexityAnalysisParam.iMbRowInGom == 0 || j == iBlockHeight - 1)) { m_ComplexityAnalysisParam.pGomComplexity[iIdx] = iGomSad; m_ComplexityAnalysisParam.iFrameComplexity += iGomSad; iIdx++; iGomSad = 0; } } pPtrY += iRowStrideY; } m_ComplexityAnalysisParam.iGomNumInFrame = iIdx; } void CComplexityAnalysisScreen::GomComplexityAnalysisInter (SPixMap* pSrc, SPixMap* pRef, bool bScrollFlag) { int32_t iWidth = pSrc->sRect.iRectWidth; int32_t iHeight = pSrc->sRect.iRectHeight; int32_t iBlockWidth = iWidth >> 4; int32_t iBlockHeight = iHeight >> 4; int32_t iInterSad, iScrollSad, iBlockSadH, iBlockSadV, iGomSad = 0; int32_t iIdx = 0; int32_t iScrollMvX = m_ComplexityAnalysisParam.sScrollResult.iScrollMvX; int32_t iScrollMvY = m_ComplexityAnalysisParam.sScrollResult.iScrollMvY; uint8_t* pPtrX = NULL, *pPtrY = NULL; int32_t iStrideX = 0, iStrideY = 0; int32_t iRowStrideX = 0, iRowStrideY = 0; uint8_t* pTmpRef = NULL, *pTmpCur = NULL, *pTmpRefScroll = NULL; ENFORCE_STACK_ALIGN_1D (uint8_t, iMemPredMb, 256, 16) pPtrX = (uint8_t*)pRef->pPixel[0]; pPtrY = (uint8_t*)pSrc->pPixel[0]; iStrideX = pRef->iStride[0]; iStrideY = pSrc->iStride[0]; iRowStrideX = pRef->iStride[0] << 4; iRowStrideY = pSrc->iStride[0] << 4; m_ComplexityAnalysisParam.iFrameComplexity = 0; for (int32_t j = 0; j < iBlockHeight; j ++) { pTmpRef = pPtrX; pTmpCur = pPtrY; for (int32_t i = 0; i < iBlockWidth; i++) { int32_t iBlockPointX = i << 4; int32_t iBlockPointY = j << 4; iInterSad = m_pSadFunc (pTmpCur, iStrideY, pTmpRef, iStrideX); if (bScrollFlag) { if ((iInterSad != 0) && (iBlockPointX + iScrollMvX >= 0) && (iBlockPointX + iScrollMvX <= iWidth - 8) && (iBlockPointY + iScrollMvY >= 0) && (iBlockPointY + iScrollMvY <= iHeight - 8)) { pTmpRefScroll = pTmpRef - iScrollMvY * iStrideX + iScrollMvX; iScrollSad = m_pSadFunc (pTmpCur, iStrideY, pTmpRefScroll, iStrideX); if (iScrollSad < iInterSad) { iInterSad = iScrollSad; } } } iBlockSadH = iBlockSadV = 0x7fffffff; // INT_MAX if (j > 0) { m_pIntraFunc[0] (iMemPredMb, pTmpCur, iStrideY); iBlockSadH = m_pSadFunc (pTmpCur, iStrideY, iMemPredMb, 16); } if (i > 0) { m_pIntraFunc[1] (iMemPredMb, pTmpCur, iStrideY); iBlockSadV = m_pSadFunc (pTmpCur, iStrideY, iMemPredMb, 16); } iGomSad += WELS_MIN (WELS_MIN (iBlockSadH, iBlockSadV), iInterSad); if (i == iBlockWidth - 1 && ((j + 1) % m_ComplexityAnalysisParam.iMbRowInGom == 0 || j == iBlockHeight - 1)) { m_ComplexityAnalysisParam.pGomComplexity[iIdx] = iGomSad; m_ComplexityAnalysisParam.iFrameComplexity += iGomSad; iIdx++; iGomSad = 0; } pTmpRef += 16; pTmpCur += 16; } pPtrX += iRowStrideX; pPtrY += iRowStrideY; } m_ComplexityAnalysisParam.iGomNumInFrame = iIdx; } WELSVP_NAMESPACE_END