ref: 12046fba2e6c95902323905630c6d139f0d9190f
dir: /codec/encoder/core/src/wels_preprocess.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 "wels_preprocess.h" #include "picture_handle.h" #include "encoder_context.h" #include "utils.h" #include "encoder.h" namespace WelsEnc { //***** entry API declaration ************************************************************************// int32_t WelsInitScaledPic (SWelsSvcCodingParam* pParam, Scaled_Picture* pScaledPic, CMemoryAlign* pMemoryAlign); bool JudgeNeedOfScaling (SWelsSvcCodingParam* pParam, Scaled_Picture* pScaledPic); void FreeScaledPic (Scaled_Picture* pScaledPic, CMemoryAlign* pMemoryAlign); void WelsMoveMemory_c (uint8_t* pDstY, uint8_t* pDstU, uint8_t* pDstV, int32_t iDstStrideY, int32_t iDstStrideUV, uint8_t* pSrcY, uint8_t* pSrcU, uint8_t* pSrcV, int32_t iSrcStrideY, int32_t iSrcStrideUV, int32_t iWidth, int32_t iHeight); //******* table definition ***********************************************************************// const uint8_t g_kuiRefTemporalIdx[MAX_TEMPORAL_LEVEL][MAX_GOP_SIZE] = { { 0, }, // 0 { 0, 0, }, // 1 { 0, 0, 0, 1, }, // 2 { 0, 0, 0, 2, 0, 1, 1, 2, }, // 3 }; const int32_t g_kiPixMapSizeInBits = sizeof (uint8_t) * 8; inline void WelsUpdateSpatialIdxMap (sWelsEncCtx* pEncCtx, int32_t iPos, SPicture* pPic, int32_t iDidx) { pEncCtx->sSpatialIndexMap[iPos].pSrc = pPic; pEncCtx->sSpatialIndexMap[iPos].iDid = iDidx; } /*************************************************************************** * * implement of the interface * ***************************************************************************/ CWelsPreProcess::CWelsPreProcess (sWelsEncCtx* pEncCtx) { m_pInterfaceVp = NULL; m_bInitDone = false; m_pEncCtx = pEncCtx; memset (&m_sScaledPicture, 0, sizeof (m_sScaledPicture)); memset (m_pSpatialPic, 0, sizeof (m_pSpatialPic)); memset (m_uiSpatialLayersInTemporal, 0, sizeof (m_uiSpatialLayersInTemporal)); memset (m_uiSpatialPicNum, 0, sizeof (m_uiSpatialPicNum)); } CWelsPreProcess::~CWelsPreProcess() { FreeScaledPic (&m_sScaledPicture, m_pEncCtx->pMemAlign); WelsPreprocessDestroy(); } int32_t CWelsPreProcess::WelsPreprocessCreate() { if (m_pInterfaceVp == NULL) { WelsCreateVpInterface ((void**) &m_pInterfaceVp, WELSVP_INTERFACE_VERION); if (!m_pInterfaceVp) goto exit; } else goto exit; return 0; exit: WelsPreprocessDestroy(); return 1; } int32_t CWelsPreProcess::WelsPreprocessDestroy() { WelsDestroyVpInterface (m_pInterfaceVp, WELSVP_INTERFACE_VERION); m_pInterfaceVp = NULL; return 0; } int32_t CWelsPreProcess::WelsPreprocessReset (sWelsEncCtx* pCtx) { int32_t iRet = -1; if (pCtx) { FreeScaledPic (&m_sScaledPicture, pCtx->pMemAlign); iRet = InitLastSpatialPictures (pCtx); iRet = WelsInitScaledPic (pCtx->pSvcParam, &m_sScaledPicture, pCtx->pMemAlign); } return iRet; } int32_t CWelsPreProcess::AllocSpatialPictures (sWelsEncCtx* pCtx, SWelsSvcCodingParam* pParam) { CMemoryAlign* pMa = pCtx->pMemAlign; const int32_t kiDlayerCount = pParam->iSpatialLayerNum; int32_t iDlayerIndex = 0; // spatial pictures iDlayerIndex = 0; do { const int32_t kiPicWidth = pParam->sSpatialLayers[iDlayerIndex].iVideoWidth; const int32_t kiPicHeight = pParam->sSpatialLayers[iDlayerIndex].iVideoHeight; const uint8_t kuiLayerInTemporal = 2 + WELS_MAX (pParam->sDependencyLayers[iDlayerIndex].iHighestTemporalId, 1); const uint8_t kuiRefNumInTemporal = kuiLayerInTemporal + pParam->iLTRRefNum; uint8_t i = 0; do { SPicture* pPic = AllocPicture (pMa, kiPicWidth, kiPicHeight, false, 0); WELS_VERIFY_RETURN_IF (1, (NULL == pPic)) m_pSpatialPic[iDlayerIndex][i] = pPic; ++ i; } while (i < kuiRefNumInTemporal); if (pParam->iUsageType == SCREEN_CONTENT_REAL_TIME) m_uiSpatialLayersInTemporal[iDlayerIndex] = 1; else m_uiSpatialLayersInTemporal[iDlayerIndex] = kuiLayerInTemporal; m_uiSpatialPicNum[iDlayerIndex] = kuiRefNumInTemporal; ++ iDlayerIndex; } while (iDlayerIndex < kiDlayerCount); return 0; } void CWelsPreProcess::FreeSpatialPictures (sWelsEncCtx* pCtx) { CMemoryAlign* pMa = pCtx->pMemAlign; int32_t j = 0; while (j < pCtx->pSvcParam->iSpatialLayerNum) { uint8_t i = 0; uint8_t uiRefNumInTemporal = m_uiSpatialPicNum[j]; while (i < uiRefNumInTemporal) { if (NULL != m_pSpatialPic[j][i]) { FreePicture (pMa, &m_pSpatialPic[j][i]); } ++ i; } m_uiSpatialLayersInTemporal[j] = 0; ++ j; } } int32_t CWelsPreProcess::BuildSpatialPicList (sWelsEncCtx* pCtx, const SSourcePicture* kpSrcPic) { SWelsSvcCodingParam* pSvcParam = pCtx->pSvcParam; int32_t iSpatialNum = 0; if (!m_bInitDone) { if (WelsPreprocessCreate() != 0) return -1; //init source width and height pSvcParam->SUsedPicRect.iLeft = 0; pSvcParam->SUsedPicRect.iTop = 0; pSvcParam->SUsedPicRect.iWidth = ((kpSrcPic->iPicWidth >> 1) << 1); pSvcParam->SUsedPicRect.iHeight = ((kpSrcPic->iPicHeight >> 1) << 1); if (WelsPreprocessReset (pCtx) != 0) return -1; m_iAvaliableRefInSpatialPicList = pSvcParam->iNumRefFrame; m_bInitDone = true; } if (m_pInterfaceVp == NULL) return -1; pCtx->pVaa->bSceneChangeFlag = pCtx->pVaa->bIdrPeriodFlag = false; if (pSvcParam->uiIntraPeriod) pCtx->pVaa->bIdrPeriodFlag = (1 + pCtx->iFrameIndex >= (int32_t)pSvcParam->uiIntraPeriod) ? true : false; iSpatialNum = SingleLayerPreprocess (pCtx, kpSrcPic, &m_sScaledPicture); return iSpatialNum; } int32_t CWelsPreProcess::AnalyzeSpatialPic (sWelsEncCtx* pCtx, const int32_t kiDidx) { SWelsSvcCodingParam* pSvcParam = pCtx->pSvcParam; bool bNeededMbAq = (pSvcParam->bEnableAdaptiveQuant && (pCtx->eSliceType == P_SLICE)); bool bCalculateBGD = (pCtx->eSliceType == P_SLICE && pSvcParam->bEnableBackgroundDetection); int32_t iCurTemporalIdx = m_uiSpatialLayersInTemporal[kiDidx] - 1; int32_t iRefTemporalIdx = (int32_t)g_kuiRefTemporalIdx[pSvcParam->iDecompStages][pCtx->iCodingIndex & (pSvcParam->uiGopSize - 1)]; if (pCtx->uiTemporalId == 0 && pCtx->pLtr[pCtx->uiDependencyId].bReceivedT0LostFlag) iRefTemporalIdx = m_uiSpatialLayersInTemporal[kiDidx] + pCtx->pVaa->uiValidLongTermPicIdx; SPicture* pCurPic = m_pSpatialPic[kiDidx][iCurTemporalIdx]; bool bCalculateVar = (pSvcParam->iRCMode >= RC_BITRATE_MODE && pCtx->eSliceType == I_SLICE); if (pSvcParam->iUsageType == SCREEN_CONTENT_REAL_TIME) { SVAAFrameInfoExt* pVaaExt = static_cast<SVAAFrameInfoExt*> (m_pEncCtx->pVaa); SRefInfoParam* BestRefCandidateParam = (pCtx->bCurFrameMarkedAsSceneLtr) ? (& (pVaaExt->sVaaLtrBestRefCandidate[0])) : (& (pVaaExt->sVaaStrBestRefCandidate[0])); SPicture* pRefPic = m_pSpatialPic[0][BestRefCandidateParam->iSrcListIdx]; VaaCalculation (pCtx->pVaa, pCurPic, pRefPic, false, bCalculateVar, bCalculateBGD); if (pSvcParam->bEnableBackgroundDetection) { BackgroundDetection (pCtx->pVaa, pCurPic, pRefPic, bCalculateBGD && pRefPic->iPictureType != I_SLICE); } if (bNeededMbAq) { AdaptiveQuantCalculation (pCtx->pVaa, pCurPic, pRefPic); } } else { SPicture* pRefPic = m_pSpatialPic[kiDidx][iRefTemporalIdx]; SPicture* pLastPic = m_pLastSpatialPicture[kiDidx][0]; bool bCalculateSQDiff = ((pLastPic->pData[0] == pRefPic->pData[0]) && bNeededMbAq); bool bCalculateVar = (pSvcParam->iRCMode >= RC_BITRATE_MODE && pCtx->eSliceType == I_SLICE); VaaCalculation (pCtx->pVaa, pCurPic, pRefPic, bCalculateSQDiff, bCalculateVar, bCalculateBGD); if (pSvcParam->bEnableBackgroundDetection) { BackgroundDetection (pCtx->pVaa, pCurPic, pRefPic, bCalculateBGD && pRefPic->iPictureType != I_SLICE); } if (bNeededMbAq) { SPicture* pCurPic = m_pLastSpatialPicture[kiDidx][1]; SPicture* pRefPic = m_pLastSpatialPicture[kiDidx][0]; AdaptiveQuantCalculation (pCtx->pVaa, pCurPic, pRefPic); } WelsExchangeSpatialPictures (&m_pLastSpatialPicture[kiDidx][1], &m_pLastSpatialPicture[kiDidx][0]); } return 0; } int32_t CWelsPreProcess::GetCurPicPosition(const int32_t kiDidx) { return (m_uiSpatialLayersInTemporal[kiDidx] - 1); } int32_t CWelsPreProcess::UpdateSpatialPictures (sWelsEncCtx* pCtx, SWelsSvcCodingParam* pParam, const int8_t iCurTid, const int32_t kiDidx) { if (pCtx->pSvcParam->iUsageType == SCREEN_CONTENT_REAL_TIME) return 0; const int32_t kiCurPos = GetCurPicPosition(kiDidx); if (iCurTid < kiCurPos || pParam->iDecompStages == 0) { if ((iCurTid >= MAX_TEMPORAL_LEVEL) || (kiCurPos > MAX_TEMPORAL_LEVEL)) { InitLastSpatialPictures (pCtx); return 1; } if (pCtx->bRefOfCurTidIsLtr[kiDidx][iCurTid]) { const int32_t kiAvailableLtrPos = m_uiSpatialLayersInTemporal[kiDidx] + pCtx->pVaa->uiMarkLongTermPicIdx; WelsExchangeSpatialPictures (&m_pSpatialPic[kiDidx][kiAvailableLtrPos], &m_pSpatialPic[kiDidx][iCurTid]); pCtx->bRefOfCurTidIsLtr[kiDidx][iCurTid] = false; } WelsExchangeSpatialPictures (&m_pSpatialPic[kiDidx][kiCurPos], &m_pSpatialPic[kiDidx][iCurTid]); } return 0; } /* * SingleLayerPreprocess: down sampling if applicable * @return: exact number of spatial layers need to encoder indeed */ int32_t CWelsPreProcess::SingleLayerPreprocess (sWelsEncCtx* pCtx, const SSourcePicture* kpSrc, Scaled_Picture* pScaledPicture) { SWelsSvcCodingParam* pSvcParam = pCtx->pSvcParam; int8_t iDependencyId = pSvcParam->iSpatialLayerNum - 1; int32_t iPicturePos = m_uiSpatialLayersInTemporal[iDependencyId] - 1; SPicture* pSrcPic = NULL; // large SPicture* pDstPic = NULL; // small SSpatialLayerConfig* pDlayerParam = NULL; SSpatialLayerInternal* pDlayerParamInternal = NULL; int32_t iSpatialNum = 0; int32_t iSrcWidth = 0; int32_t iSrcHeight = 0; int32_t iTargetWidth = 0; int32_t iTargetHeight = 0; int32_t iTemporalId = 0; int32_t iActualSpatialLayerNum = 0; pDlayerParamInternal = &pSvcParam->sDependencyLayers[iDependencyId]; pDlayerParam = &pSvcParam->sSpatialLayers[iDependencyId]; iTargetWidth = pDlayerParam->iVideoWidth; iTargetHeight = pDlayerParam->iVideoHeight; iTemporalId = pDlayerParamInternal->uiCodingIdx2TemporalId[pCtx->iCodingIndex & (pSvcParam->uiGopSize - 1)]; iSrcWidth = pSvcParam->SUsedPicRect.iWidth; iSrcHeight = pSvcParam->SUsedPicRect.iHeight; pSrcPic = pScaledPicture->pScaledInputPicture ? pScaledPicture->pScaledInputPicture : m_pSpatialPic[iDependencyId][iPicturePos]; WelsMoveMemoryWrapper (pSvcParam, pSrcPic, kpSrc, iSrcWidth, iSrcHeight); if (pSvcParam->bEnableDenoise) BilateralDenoising (pSrcPic, iSrcWidth, iSrcHeight); // different scaling in between input picture and dst highest spatial picture. int32_t iShrinkWidth = iSrcWidth; int32_t iShrinkHeight = iSrcHeight; pDstPic = pSrcPic; if (pScaledPicture->pScaledInputPicture) { // for highest downsampling pDstPic = m_pSpatialPic[iDependencyId][iPicturePos]; iShrinkWidth = pScaledPicture->iScaledWidth[iDependencyId]; iShrinkHeight = pScaledPicture->iScaledHeight[iDependencyId]; } DownsamplePadding (pSrcPic, pDstPic, iSrcWidth, iSrcHeight, iShrinkWidth, iShrinkHeight, iTargetWidth, iTargetHeight, false); if (pSvcParam->bEnableSceneChangeDetect && !pCtx->pVaa->bIdrPeriodFlag) { if (pSvcParam->iUsageType == SCREEN_CONTENT_REAL_TIME) { pCtx->pVaa->eSceneChangeIdc = (pCtx->bEncCurFrmAsIdrFlag ? LARGE_CHANGED_SCENE : DetectSceneChangeScreen (pCtx, pDstPic)); pCtx->pVaa->bSceneChangeFlag = (LARGE_CHANGED_SCENE == pCtx->pVaa->eSceneChangeIdc); } else { if ((!pCtx->bEncCurFrmAsIdrFlag) && ! (pCtx->iCodingIndex & (pSvcParam->uiGopSize - 1))) { SPicture* pRefPic = pCtx->pLtr[iDependencyId].bReceivedT0LostFlag ? m_pSpatialPic[iDependencyId][m_uiSpatialLayersInTemporal[iDependencyId] + pCtx->pVaa->uiValidLongTermPicIdx] : m_pLastSpatialPicture[iDependencyId][0]; pCtx->pVaa->bSceneChangeFlag = DetectSceneChange (pDstPic, pRefPic); } } } for (int32_t i = 0; i < pSvcParam->iSpatialLayerNum; i++) { if (pSvcParam->sDependencyLayers[i].uiCodingIdx2TemporalId[pCtx->iCodingIndex & (pSvcParam->uiGopSize - 1)] != INVALID_TEMPORAL_ID) { ++ iActualSpatialLayerNum; } } if (iTemporalId != INVALID_TEMPORAL_ID) { WelsUpdateSpatialIdxMap (pCtx, iActualSpatialLayerNum - 1, pDstPic, iDependencyId); ++ iSpatialNum; -- iActualSpatialLayerNum; } m_pLastSpatialPicture[iDependencyId][1] = m_pSpatialPic[iDependencyId][iPicturePos]; -- iDependencyId; // generate other spacial layer // pSrc is // -- padded input pic, if downsample should be applied to generate highest layer, [if] block above // -- highest layer, if no downsampling, [else] block above if (pSvcParam->iSpatialLayerNum > 1) { while (iDependencyId >= 0) { pDlayerParamInternal = &pSvcParam->sDependencyLayers[iDependencyId]; pDlayerParam = &pSvcParam->sSpatialLayers[iDependencyId]; iTargetWidth = pDlayerParam->iVideoWidth; iTargetHeight = pDlayerParam->iVideoHeight; iTemporalId = pDlayerParamInternal->uiCodingIdx2TemporalId[pCtx->iCodingIndex & (pSvcParam->uiGopSize - 1)]; iPicturePos = m_uiSpatialLayersInTemporal[iDependencyId] - 1; // NOT work for CGS, FIXME // spatial layer is able to encode indeed if ((iTemporalId != INVALID_TEMPORAL_ID)) { // down sampling performed pDstPic = m_pSpatialPic[iDependencyId][iPicturePos]; // small iShrinkWidth = pScaledPicture->iScaledWidth[iDependencyId]; iShrinkHeight = pScaledPicture->iScaledHeight[iDependencyId]; DownsamplePadding (pSrcPic, pDstPic, iSrcWidth, iSrcHeight, iShrinkWidth, iShrinkHeight, iTargetWidth, iTargetHeight, true); WelsUpdateSpatialIdxMap (pCtx, iActualSpatialLayerNum - 1, pDstPic, iDependencyId); -- iActualSpatialLayerNum; ++ iSpatialNum; m_pLastSpatialPicture[iDependencyId][1] = m_pSpatialPic[iDependencyId][iPicturePos]; } -- iDependencyId; } } return iSpatialNum; } /*! * \brief Whether input picture need be scaled? */ bool JudgeNeedOfScaling (SWelsSvcCodingParam* pParam, Scaled_Picture* pScaledPicture) { const int32_t kiInputPicWidth = pParam->SUsedPicRect.iWidth; const int32_t kiInputPicHeight = pParam->SUsedPicRect.iHeight; const int32_t kiDstPicWidth = pParam->sDependencyLayers[pParam->iSpatialLayerNum - 1].iActualWidth; const int32_t kiDstPicHeight = pParam->sDependencyLayers[pParam->iSpatialLayerNum - 1].iActualHeight; bool bNeedDownsampling = true; int32_t iSpatialIdx = pParam->iSpatialLayerNum - 1; if (kiDstPicWidth >= kiInputPicWidth && kiDstPicHeight >= kiInputPicHeight) { iSpatialIdx --; // highest D layer do not need downsampling bNeedDownsampling = false; } for (; iSpatialIdx >= 0; iSpatialIdx --) { SSpatialLayerInternal* pCurLayer = &pParam->sDependencyLayers[iSpatialIdx]; int32_t iCurDstWidth = pCurLayer->iActualWidth; int32_t iCurDstHeight = pCurLayer->iActualHeight; int32_t iInputWidthXDstHeight = kiInputPicWidth * iCurDstHeight; int32_t iInputHeightXDstWidth = kiInputPicHeight * iCurDstWidth; if (iInputWidthXDstHeight > iInputHeightXDstWidth) { pScaledPicture->iScaledWidth[iSpatialIdx] = iCurDstWidth; pScaledPicture->iScaledHeight[iSpatialIdx] = WELS_MAX (iInputHeightXDstWidth / kiInputPicWidth, 4); } else { pScaledPicture->iScaledWidth[iSpatialIdx] = WELS_MAX (iInputWidthXDstHeight / kiInputPicHeight, 4); pScaledPicture->iScaledHeight[iSpatialIdx] = iCurDstHeight; } } return bNeedDownsampling; } int32_t WelsInitScaledPic (SWelsSvcCodingParam* pParam, Scaled_Picture* pScaledPicture, CMemoryAlign* pMemoryAlign) { bool bInputPicNeedScaling = JudgeNeedOfScaling (pParam, pScaledPicture); if (bInputPicNeedScaling) { pScaledPicture->pScaledInputPicture = AllocPicture (pMemoryAlign, pParam->SUsedPicRect.iWidth, pParam->SUsedPicRect.iHeight, false, 0); if (pScaledPicture->pScaledInputPicture == NULL) return -1; } return 0; } void FreeScaledPic (Scaled_Picture* pScaledPicture, CMemoryAlign* pMemoryAlign) { if (pScaledPicture->pScaledInputPicture) { FreePicture (pMemoryAlign, &pScaledPicture->pScaledInputPicture); pScaledPicture->pScaledInputPicture = NULL; } } int32_t CWelsPreProcess::InitLastSpatialPictures (sWelsEncCtx* pCtx) { SWelsSvcCodingParam* pParam = pCtx->pSvcParam; const int32_t kiDlayerCount = pParam->iSpatialLayerNum; int32_t iDlayerIndex = 0; if (pParam->iUsageType == SCREEN_CONTENT_REAL_TIME) { for (; iDlayerIndex < MAX_DEPENDENCY_LAYER; iDlayerIndex++) { m_pLastSpatialPicture[iDlayerIndex][0] = m_pLastSpatialPicture[iDlayerIndex][1] = NULL; } } else { for (; iDlayerIndex < kiDlayerCount; iDlayerIndex++) { const int32_t kiLayerInTemporal = m_uiSpatialLayersInTemporal[iDlayerIndex]; m_pLastSpatialPicture[iDlayerIndex][0] = m_pSpatialPic[iDlayerIndex][kiLayerInTemporal - 2]; m_pLastSpatialPicture[iDlayerIndex][1] = NULL; } for (; iDlayerIndex < MAX_DEPENDENCY_LAYER; iDlayerIndex++) { m_pLastSpatialPicture[iDlayerIndex][0] = m_pLastSpatialPicture[iDlayerIndex][1] = NULL; } } return 0; } //*********************************************************************************************************/ int32_t CWelsPreProcess::ColorspaceConvert (SWelsSvcCodingParam* pSvcParam, SPicture* pDstPic, const SSourcePicture* kpSrc, const int32_t kiWidth, const int32_t kiHeight) { return 1; //not support yet } void CWelsPreProcess::BilateralDenoising (SPicture* pSrc, const int32_t kiWidth, const int32_t kiHeight) { int32_t iMethodIdx = METHOD_DENOISE; SPixMap sSrcPixMap; memset (&sSrcPixMap, 0, sizeof (sSrcPixMap)); sSrcPixMap.pPixel[0] = pSrc->pData[0]; sSrcPixMap.pPixel[1] = pSrc->pData[1]; sSrcPixMap.pPixel[2] = pSrc->pData[2]; sSrcPixMap.iSizeInBits = g_kiPixMapSizeInBits; sSrcPixMap.sRect.iRectWidth = kiWidth; sSrcPixMap.sRect.iRectHeight = kiHeight; sSrcPixMap.iStride[0] = pSrc->iLineSize[0]; sSrcPixMap.iStride[1] = pSrc->iLineSize[1]; sSrcPixMap.iStride[2] = pSrc->iLineSize[2]; sSrcPixMap.eFormat = VIDEO_FORMAT_I420; m_pInterfaceVp->Process (iMethodIdx, &sSrcPixMap, NULL); } bool CWelsPreProcess::DetectSceneChange (SPicture* pCurPicture, SPicture* pRefPicture) { bool bSceneChangeFlag = false; int32_t iMethodIdx = METHOD_SCENE_CHANGE_DETECTION_VIDEO; SSceneChangeResult sSceneChangeDetectResult = { SIMILAR_SCENE }; SPixMap sSrcPixMap; SPixMap sRefPixMap; memset (&sSrcPixMap, 0, sizeof (sSrcPixMap)); memset (&sRefPixMap, 0, sizeof (sRefPixMap)); sSrcPixMap.pPixel[0] = pCurPicture->pData[0]; sSrcPixMap.iSizeInBits = g_kiPixMapSizeInBits; sSrcPixMap.iStride[0] = pCurPicture->iLineSize[0]; sSrcPixMap.sRect.iRectWidth = pCurPicture->iWidthInPixel; sSrcPixMap.sRect.iRectHeight = pCurPicture->iHeightInPixel; sSrcPixMap.eFormat = VIDEO_FORMAT_I420; sRefPixMap.pPixel[0] = pRefPicture->pData[0]; sRefPixMap.iSizeInBits = g_kiPixMapSizeInBits; sRefPixMap.iStride[0] = pRefPicture->iLineSize[0]; sRefPixMap.sRect.iRectWidth = pRefPicture->iWidthInPixel; sRefPixMap.sRect.iRectHeight = pRefPicture->iHeightInPixel; sRefPixMap.eFormat = VIDEO_FORMAT_I420; int32_t iRet = m_pInterfaceVp->Process (iMethodIdx, &sSrcPixMap, &sRefPixMap); if (iRet == 0) { m_pInterfaceVp->Get (iMethodIdx, (void*)&sSceneChangeDetectResult); bSceneChangeFlag = (sSceneChangeDetectResult.eSceneChangeIdc == LARGE_CHANGED_SCENE) ? true : false; } return bSceneChangeFlag; } int32_t CWelsPreProcess::DownsamplePadding (SPicture* pSrc, SPicture* pDstPic, int32_t iSrcWidth, int32_t iSrcHeight, int32_t iShrinkWidth, int32_t iShrinkHeight, int32_t iTargetWidth, int32_t iTargetHeight, bool bForceCopy) { int32_t iRet = 0; SPixMap sSrcPixMap; SPixMap sDstPicMap; memset (&sSrcPixMap, 0, sizeof (sSrcPixMap)); memset (&sDstPicMap, 0, sizeof (sDstPicMap)); sSrcPixMap.pPixel[0] = pSrc->pData[0]; sSrcPixMap.pPixel[1] = pSrc->pData[1]; sSrcPixMap.pPixel[2] = pSrc->pData[2]; sSrcPixMap.iSizeInBits = g_kiPixMapSizeInBits; sSrcPixMap.sRect.iRectWidth = iSrcWidth; sSrcPixMap.sRect.iRectHeight = iSrcHeight; sSrcPixMap.iStride[0] = pSrc->iLineSize[0]; sSrcPixMap.iStride[1] = pSrc->iLineSize[1]; sSrcPixMap.iStride[2] = pSrc->iLineSize[2]; sSrcPixMap.eFormat = VIDEO_FORMAT_I420; if (iSrcWidth != iShrinkWidth || iSrcHeight != iShrinkHeight || bForceCopy) { int32_t iMethodIdx = METHOD_DOWNSAMPLE; sDstPicMap.pPixel[0] = pDstPic->pData[0]; sDstPicMap.pPixel[1] = pDstPic->pData[1]; sDstPicMap.pPixel[2] = pDstPic->pData[2]; sDstPicMap.iSizeInBits = g_kiPixMapSizeInBits; sDstPicMap.sRect.iRectWidth = iShrinkWidth; sDstPicMap.sRect.iRectHeight = iShrinkHeight; sDstPicMap.iStride[0] = pDstPic->iLineSize[0]; sDstPicMap.iStride[1] = pDstPic->iLineSize[1]; sDstPicMap.iStride[2] = pDstPic->iLineSize[2]; sDstPicMap.eFormat = VIDEO_FORMAT_I420; if (iSrcWidth != iShrinkWidth || iSrcHeight != iShrinkHeight) { iRet = m_pInterfaceVp->Process (iMethodIdx, &sSrcPixMap, &sDstPicMap); } else { WelsMoveMemory_c (pDstPic->pData[0], pDstPic->pData[1], pDstPic->pData[2], pDstPic->iLineSize[0], pDstPic->iLineSize[1], pSrc->pData[0], pSrc->pData[1], pSrc->pData[2], pSrc->iLineSize[0], pSrc->iLineSize[1], iSrcWidth, iSrcHeight); } } else { memcpy (&sDstPicMap, &sSrcPixMap, sizeof (sDstPicMap)); // confirmed_safe_unsafe_usage } // get rid of odd line iShrinkWidth -= (iShrinkWidth & 1); iShrinkHeight -= (iShrinkHeight & 1); Padding ((uint8_t*)sDstPicMap.pPixel[0], (uint8_t*)sDstPicMap.pPixel[1], (uint8_t*)sDstPicMap.pPixel[2], sDstPicMap.iStride[0], sDstPicMap.iStride[1], iShrinkWidth, iTargetWidth, iShrinkHeight, iTargetHeight); return iRet; } //*********************************************************************************************************/ void CWelsPreProcess::VaaCalculation (SVAAFrameInfo* pVaaInfo, SPicture* pCurPicture, SPicture* pRefPicture, bool bCalculateSQDiff, bool bCalculateVar, bool bCalculateBGD) { pVaaInfo->sVaaCalcInfo.pCurY = pCurPicture->pData[0]; pVaaInfo->sVaaCalcInfo.pRefY = pRefPicture->pData[0]; { int32_t iMethodIdx = METHOD_VAA_STATISTICS; SPixMap sCurPixMap; SPixMap sRefPixMap; memset (&sCurPixMap, 0, sizeof (sCurPixMap)); memset (&sRefPixMap, 0, sizeof (sRefPixMap)); SVAACalcParam calc_param = {0}; sCurPixMap.pPixel[0] = pCurPicture->pData[0]; sCurPixMap.iSizeInBits = g_kiPixMapSizeInBits; sCurPixMap.sRect.iRectWidth = pCurPicture->iWidthInPixel; sCurPixMap.sRect.iRectHeight = pCurPicture->iHeightInPixel; sCurPixMap.iStride[0] = pCurPicture->iLineSize[0]; sCurPixMap.eFormat = VIDEO_FORMAT_I420; sRefPixMap.pPixel[0] = pRefPicture->pData[0]; sRefPixMap.iSizeInBits = g_kiPixMapSizeInBits; sRefPixMap.sRect.iRectWidth = pRefPicture->iWidthInPixel; sRefPixMap.sRect.iRectHeight = pRefPicture->iHeightInPixel; sRefPixMap.iStride[0] = pRefPicture->iLineSize[0]; sRefPixMap.eFormat = VIDEO_FORMAT_I420; calc_param.iCalcVar = bCalculateVar; calc_param.iCalcBgd = bCalculateBGD; calc_param.iCalcSsd = bCalculateSQDiff; calc_param.pCalcResult = &pVaaInfo->sVaaCalcInfo; m_pInterfaceVp->Set (iMethodIdx, &calc_param); m_pInterfaceVp->Process (iMethodIdx, &sCurPixMap, &sRefPixMap); } } void CWelsPreProcess::BackgroundDetection (SVAAFrameInfo* pVaaInfo, SPicture* pCurPicture, SPicture* pRefPicture, bool bDetectFlag) { if (bDetectFlag) { pVaaInfo->iPicWidth = pCurPicture->iWidthInPixel; pVaaInfo->iPicHeight = pCurPicture->iHeightInPixel; pVaaInfo->iPicStride = pCurPicture->iLineSize[0]; pVaaInfo->iPicStrideUV = pCurPicture->iLineSize[1]; pVaaInfo->pCurY = pCurPicture->pData[0]; pVaaInfo->pRefY = pRefPicture->pData[0]; pVaaInfo->pCurU = pCurPicture->pData[1]; pVaaInfo->pRefU = pRefPicture->pData[1]; pVaaInfo->pCurV = pCurPicture->pData[2]; pVaaInfo->pRefV = pRefPicture->pData[2]; int32_t iMethodIdx = METHOD_BACKGROUND_DETECTION; SPixMap sSrcPixMap; SPixMap sRefPixMap; memset (&sSrcPixMap, 0, sizeof (sSrcPixMap)); memset (&sRefPixMap, 0, sizeof (sRefPixMap)); SBGDInterface BGDParam = {0}; sSrcPixMap.pPixel[0] = pCurPicture->pData[0]; sSrcPixMap.pPixel[1] = pCurPicture->pData[1]; sSrcPixMap.pPixel[2] = pCurPicture->pData[2]; sSrcPixMap.iSizeInBits = g_kiPixMapSizeInBits; sSrcPixMap.iStride[0] = pCurPicture->iLineSize[0]; sSrcPixMap.iStride[1] = pCurPicture->iLineSize[1]; sSrcPixMap.iStride[2] = pCurPicture->iLineSize[2]; sSrcPixMap.sRect.iRectWidth = pCurPicture->iWidthInPixel; sSrcPixMap.sRect.iRectHeight = pCurPicture->iHeightInPixel; sSrcPixMap.eFormat = VIDEO_FORMAT_I420; sRefPixMap.pPixel[0] = pRefPicture->pData[0]; sRefPixMap.pPixel[1] = pRefPicture->pData[1]; sRefPixMap.pPixel[2] = pRefPicture->pData[2]; sRefPixMap.iSizeInBits = g_kiPixMapSizeInBits; sRefPixMap.iStride[0] = pRefPicture->iLineSize[0]; sRefPixMap.iStride[1] = pRefPicture->iLineSize[1]; sRefPixMap.iStride[2] = pRefPicture->iLineSize[2]; sRefPixMap.sRect.iRectWidth = pRefPicture->iWidthInPixel; sRefPixMap.sRect.iRectHeight = pRefPicture->iHeightInPixel; sRefPixMap.eFormat = VIDEO_FORMAT_I420; BGDParam.pBackgroundMbFlag = pVaaInfo->pVaaBackgroundMbFlag; BGDParam.pCalcRes = & (pVaaInfo->sVaaCalcInfo); m_pInterfaceVp->Set (iMethodIdx, (void*)&BGDParam); m_pInterfaceVp->Process (iMethodIdx, &sSrcPixMap, &sRefPixMap); } else { int32_t iPicWidthInMb = (pCurPicture->iWidthInPixel + 15) >> 4; int32_t iPicHeightInMb = (pCurPicture->iHeightInPixel + 15) >> 4; memset (pVaaInfo->pVaaBackgroundMbFlag, 0, iPicWidthInMb * iPicHeightInMb); } } void CWelsPreProcess::AdaptiveQuantCalculation (SVAAFrameInfo* pVaaInfo, SPicture* pCurPicture, SPicture* pRefPicture) { pVaaInfo->sAdaptiveQuantParam.pCalcResult = & (pVaaInfo->sVaaCalcInfo); pVaaInfo->sAdaptiveQuantParam.iAverMotionTextureIndexToDeltaQp = 0; { int32_t iMethodIdx = METHOD_ADAPTIVE_QUANT; SPixMap pSrc; SPixMap pRef; memset (&pSrc, 0, sizeof (pSrc)); memset (&pRef, 0, sizeof (pRef)); int32_t iRet = 0; pSrc.pPixel[0] = pCurPicture->pData[0]; pSrc.iSizeInBits = g_kiPixMapSizeInBits; pSrc.iStride[0] = pCurPicture->iLineSize[0]; pSrc.sRect.iRectWidth = pCurPicture->iWidthInPixel; pSrc.sRect.iRectHeight = pCurPicture->iHeightInPixel; pSrc.eFormat = VIDEO_FORMAT_I420; pRef.pPixel[0] = pRefPicture->pData[0]; pRef.iSizeInBits = g_kiPixMapSizeInBits; pRef.iStride[0] = pRefPicture->iLineSize[0]; pRef.sRect.iRectWidth = pRefPicture->iWidthInPixel; pRef.sRect.iRectHeight = pRefPicture->iHeightInPixel; pRef.eFormat = VIDEO_FORMAT_I420; iRet = m_pInterfaceVp->Set (iMethodIdx, (void*) & (pVaaInfo->sAdaptiveQuantParam)); iRet = m_pInterfaceVp->Process (iMethodIdx, &pSrc, &pRef); if (iRet == 0) m_pInterfaceVp->Get (iMethodIdx, (void*) & (pVaaInfo->sAdaptiveQuantParam)); } } void CWelsPreProcess::SetRefMbType (sWelsEncCtx* pCtx, uint32_t** pRefMbTypeArray, int32_t iRefPicType) { const uint8_t uiTid = pCtx->uiTemporalId; const uint8_t uiDid = pCtx->uiDependencyId; SRefList* pRefPicLlist = pCtx->ppRefPicListExt[uiDid]; SLTRState* pLtr = &pCtx->pLtr[uiDid]; uint8_t i = 0; if (pCtx->pSvcParam->bEnableLongTermReference && pLtr->bReceivedT0LostFlag && uiTid == 0) { for (i = 0; i < pRefPicLlist->uiLongRefCount; i++) { SPicture* pRef = pRefPicLlist->pLongRefList[i]; if (pRef != NULL && pRef->uiRecieveConfirmed == 1/*RECIEVE_SUCCESS*/) { *pRefMbTypeArray = pRef->uiRefMbType; break; } } } else { for (i = 0; i < pRefPicLlist->uiShortRefCount; i++) { SPicture* pRef = pRefPicLlist->pShortRefList[i]; if (pRef != NULL && pRef->bUsedAsRef && pRef->iFramePoc >= 0 && pRef->uiTemporalId <= uiTid) { *pRefMbTypeArray = pRef->uiRefMbType; break; } } } } void CWelsPreProcess::AnalyzePictureComplexity (sWelsEncCtx* pCtx, SPicture* pCurPicture, SPicture* pRefPicture, const int32_t kiDependencyId, const bool bCalculateBGD) { SWelsSvcCodingParam* pSvcParam = pCtx->pSvcParam; int32_t iComplexityAnalysisMode = 0; if (pSvcParam->iUsageType == SCREEN_CONTENT_REAL_TIME) { SVAAFrameInfoExt* pVaaExt = static_cast<SVAAFrameInfoExt*> (pCtx->pVaa); SComplexityAnalysisScreenParam* sComplexityAnalysisParam = &pVaaExt->sComplexityScreenParam; SWelsSvcRc* pWelsSvcRc = &pCtx->pWelsSvcRc[kiDependencyId]; if (pCtx->eSliceType == P_SLICE) iComplexityAnalysisMode = GOM_SAD; else if (pCtx->eSliceType == I_SLICE) iComplexityAnalysisMode = GOM_VAR; else return; memset (pWelsSvcRc->pGomForegroundBlockNum, 0, pWelsSvcRc->iGomSize * sizeof (int32_t)); memset (pWelsSvcRc->pCurrentFrameGomSad, 0, pWelsSvcRc->iGomSize * sizeof (int32_t)); sComplexityAnalysisParam->iFrameComplexity = 0; sComplexityAnalysisParam->pGomComplexity = pWelsSvcRc->pCurrentFrameGomSad; sComplexityAnalysisParam->iGomNumInFrame = pWelsSvcRc->iGomSize; sComplexityAnalysisParam->iIdrFlag = (pCtx->eSliceType == I_SLICE); sComplexityAnalysisParam->iMbRowInGom = GOM_H_SCC; sComplexityAnalysisParam->sScrollResult.bScrollDetectFlag = false; sComplexityAnalysisParam->sScrollResult.iScrollMvX = 0; sComplexityAnalysisParam->sScrollResult.iScrollMvY = 0; const int32_t iMethodIdx = METHOD_COMPLEXITY_ANALYSIS_SCREEN; SPixMap sSrcPixMap; SPixMap sRefPixMap; memset (&sSrcPixMap, 0, sizeof (SPixMap)); memset (&sRefPixMap, 0, sizeof (SPixMap)); int32_t iRet = 0; sSrcPixMap.pPixel[0] = pCurPicture->pData[0]; sSrcPixMap.iSizeInBits = g_kiPixMapSizeInBits; sSrcPixMap.iStride[0] = pCurPicture->iLineSize[0]; sSrcPixMap.sRect.iRectWidth = pCurPicture->iWidthInPixel; sSrcPixMap.sRect.iRectHeight = pCurPicture->iHeightInPixel; sSrcPixMap.eFormat = VIDEO_FORMAT_I420; if (pRefPicture != NULL) { sRefPixMap.pPixel[0] = pRefPicture->pData[0]; sRefPixMap.iSizeInBits = g_kiPixMapSizeInBits; sRefPixMap.iStride[0] = pRefPicture->iLineSize[0]; sRefPixMap.sRect.iRectWidth = pRefPicture->iWidthInPixel; sRefPixMap.sRect.iRectHeight = pRefPicture->iHeightInPixel; sRefPixMap.eFormat = VIDEO_FORMAT_I420; } iRet = m_pInterfaceVp->Set (iMethodIdx, (void*)sComplexityAnalysisParam); iRet = m_pInterfaceVp->Process (iMethodIdx, &sSrcPixMap, &sRefPixMap); if (iRet == 0) m_pInterfaceVp->Get (iMethodIdx, (void*)sComplexityAnalysisParam); } else { SVAAFrameInfo* pVaaInfo = pCtx->pVaa; SComplexityAnalysisParam* sComplexityAnalysisParam = & (pVaaInfo->sComplexityAnalysisParam); SWelsSvcRc* SWelsSvcRc = &pCtx->pWelsSvcRc[kiDependencyId]; if (pSvcParam->iRCMode == RC_QUALITY_MODE && pCtx->eSliceType == P_SLICE) { iComplexityAnalysisMode = FRAME_SAD; } else if (((pSvcParam->iRCMode == RC_BITRATE_MODE) || (pSvcParam->iRCMode == RC_TIMESTAMP_MODE)) && pCtx->eSliceType == P_SLICE) { iComplexityAnalysisMode = GOM_SAD; } else if (((pSvcParam->iRCMode == RC_BITRATE_MODE) || (pSvcParam->iRCMode == RC_TIMESTAMP_MODE)) && pCtx->eSliceType == I_SLICE) { iComplexityAnalysisMode = GOM_VAR; } else { return; } sComplexityAnalysisParam->iComplexityAnalysisMode = iComplexityAnalysisMode; sComplexityAnalysisParam->pCalcResult = & (pVaaInfo->sVaaCalcInfo); sComplexityAnalysisParam->pBackgroundMbFlag = pVaaInfo->pVaaBackgroundMbFlag; if (pRefPicture) SetRefMbType (pCtx, & (sComplexityAnalysisParam->uiRefMbType), pRefPicture->iPictureType); sComplexityAnalysisParam->iCalcBgd = bCalculateBGD; sComplexityAnalysisParam->iFrameComplexity = 0; memset (SWelsSvcRc->pGomForegroundBlockNum, 0, SWelsSvcRc->iGomSize * sizeof (int32_t)); if (iComplexityAnalysisMode != FRAME_SAD) memset (SWelsSvcRc->pCurrentFrameGomSad, 0, SWelsSvcRc->iGomSize * sizeof (int32_t)); sComplexityAnalysisParam->pGomComplexity = SWelsSvcRc->pCurrentFrameGomSad; sComplexityAnalysisParam->pGomForegroundBlockNum = SWelsSvcRc->pGomForegroundBlockNum; sComplexityAnalysisParam->iMbNumInGom = SWelsSvcRc->iNumberMbGom; { int32_t iMethodIdx = METHOD_COMPLEXITY_ANALYSIS; SPixMap sSrcPixMap; SPixMap sRefPixMap; memset (&sSrcPixMap, 0, sizeof (SPixMap)); memset (&sRefPixMap, 0, sizeof (SPixMap)); int32_t iRet = 0; sSrcPixMap.pPixel[0] = pCurPicture->pData[0]; sSrcPixMap.iSizeInBits = g_kiPixMapSizeInBits; sSrcPixMap.iStride[0] = pCurPicture->iLineSize[0]; sSrcPixMap.sRect.iRectWidth = pCurPicture->iWidthInPixel; sSrcPixMap.sRect.iRectHeight = pCurPicture->iHeightInPixel; sSrcPixMap.eFormat = VIDEO_FORMAT_I420; if (pRefPicture) { sRefPixMap.pPixel[0] = pRefPicture->pData[0]; sRefPixMap.iSizeInBits = g_kiPixMapSizeInBits; sRefPixMap.iStride[0] = pRefPicture->iLineSize[0]; sRefPixMap.sRect.iRectWidth = pRefPicture->iWidthInPixel; sRefPixMap.sRect.iRectHeight = pRefPicture->iHeightInPixel; } sRefPixMap.eFormat = VIDEO_FORMAT_I420; iRet = m_pInterfaceVp->Set (iMethodIdx, (void*)sComplexityAnalysisParam); iRet = m_pInterfaceVp->Process (iMethodIdx, &sSrcPixMap, &sRefPixMap); if (iRet == 0) m_pInterfaceVp->Get (iMethodIdx, (void*)sComplexityAnalysisParam); } } } void CWelsPreProcess::InitPixMap (const SPicture* pPicture, SPixMap* pPixMap) { pPixMap->pPixel[0] = pPicture->pData[0]; pPixMap->pPixel[1] = pPicture->pData[1]; pPixMap->pPixel[2] = pPicture->pData[2]; pPixMap->iSizeInBits = sizeof (uint8_t); pPixMap->iStride[0] = pPicture->iLineSize[0]; pPixMap->iStride[1] = pPicture->iLineSize[1]; pPixMap->sRect.iRectWidth = pPicture->iWidthInPixel; pPixMap->sRect.iRectHeight = pPicture->iHeightInPixel; pPixMap->eFormat = VIDEO_FORMAT_I420; } void CWelsPreProcess::GetAvailableRefListLosslessScreenRefSelection (SPicture** pSrcPicList, uint8_t iCurTid, const int32_t iClosestLtrFrameNum, SRefInfoParam* pAvailableRefList, int32_t& iAvailableRefNum, int32_t& iAvailableSceneRefNum) { const int32_t iSourcePicNum = m_iAvaliableRefInSpatialPicList; if (0 >= iSourcePicNum) { iAvailableRefNum = 0; iAvailableSceneRefNum = 0; return ; } const bool bCurFrameMarkedAsSceneLtr = m_pEncCtx->bCurFrameMarkedAsSceneLtr; SPicture* pRefPic = NULL; uint8_t uiRefTid = 0; bool bRefRealLtr = false; iAvailableRefNum = 1; //zero is left for the closest frame iAvailableSceneRefNum = 0; //the saving order will be depend on pSrcPicList //TODO: use a frame_idx to find the closer ref in time distance, and correctly sort the ref list for (int32_t i = iSourcePicNum - 1; i >= 0; --i) { pRefPic = pSrcPicList[i]; if (NULL == pRefPic || !pRefPic->bUsedAsRef || !pRefPic->bIsLongRef || (bCurFrameMarkedAsSceneLtr && (!pRefPic->bIsSceneLTR))) { continue; } uiRefTid = pRefPic->uiTemporalId; bRefRealLtr = pRefPic->bIsSceneLTR; if (bRefRealLtr || (0 == iCurTid && 0 == uiRefTid) || (uiRefTid < iCurTid)) { int32_t idx = (pRefPic->iLongTermPicNum == iClosestLtrFrameNum) ? (0) : (iAvailableRefNum++); pAvailableRefList[idx].pRefPicture = pRefPic; pAvailableRefList[idx].iSrcListIdx = i + 1; //in SrcList, the idx 0 is reserved for CurPic iAvailableSceneRefNum += bRefRealLtr; } } if (pAvailableRefList[0].pRefPicture == NULL) { for (int32_t i = 1; i < iAvailableRefNum ; ++i) { pAvailableRefList[i - 1].pRefPicture = pAvailableRefList[i].pRefPicture; pAvailableRefList[i - 1].iSrcListIdx = pAvailableRefList[i].iSrcListIdx; } pAvailableRefList[iAvailableRefNum - 1].pRefPicture = NULL; pAvailableRefList[iAvailableRefNum - 1].iSrcListIdx = 0; --iAvailableRefNum; } } void CWelsPreProcess::GetAvailableRefList (SPicture** pSrcPicList, uint8_t iCurTid, const int32_t iClosestLtrFrameNum, SRefInfoParam* pAvailableRefList, int32_t& iAvailableRefNum, int32_t& iAvailableSceneRefNum) { const int32_t iSourcePicNum = m_iAvaliableRefInSpatialPicList; if (0 >= iSourcePicNum) { iAvailableRefNum = 0; iAvailableSceneRefNum = 0; return ; } SPicture* pRefPic = NULL; uint8_t uiRefTid = 0; iAvailableRefNum = 0; iAvailableSceneRefNum = 0; //the saving order will be depend on pSrcPicList //TODO: use a frame_idx to find the closer ref in time distance, and correctly sort the ref list for (int32_t i = iSourcePicNum - 1; i >= 0; --i) { pRefPic = pSrcPicList[i]; if (NULL == pRefPic || !pRefPic->bUsedAsRef) { continue; } uiRefTid = pRefPic->uiTemporalId; if (uiRefTid <= iCurTid) { pAvailableRefList[iAvailableRefNum].pRefPicture = pRefPic; pAvailableRefList[iAvailableRefNum].iSrcListIdx = i + 1; //in SrcList, the idx 0 is reserved for CurPic iAvailableRefNum ++; } } } void CWelsPreProcess::InitRefJudgement (SRefJudgement* pRefJudgement) { pRefJudgement->iMinFrameComplexity = INT_MAX; pRefJudgement->iMinFrameComplexity08 = INT_MAX; pRefJudgement->iMinFrameComplexity11 = INT_MAX; pRefJudgement->iMinFrameNumGap = INT_MAX; pRefJudgement->iMinFrameQp = INT_MAX; } bool CWelsPreProcess::JudgeBestRef (SPicture* pRefPic, const SRefJudgement& sRefJudgement, const int64_t iFrameComplexity, const bool bIsClosestLtrFrame) { return (bIsClosestLtrFrame ? (iFrameComplexity < sRefJudgement.iMinFrameComplexity11) : ((iFrameComplexity < sRefJudgement.iMinFrameComplexity08) || ((iFrameComplexity <= sRefJudgement.iMinFrameComplexity11) && (pRefPic->iFrameAverageQp < sRefJudgement.iMinFrameQp)))); } void CWelsPreProcess::SaveBestRefToJudgement (const int32_t iRefPictureAvQP, const int64_t iComplexity, SRefJudgement* pRefJudgement) { pRefJudgement->iMinFrameQp = iRefPictureAvQP; pRefJudgement->iMinFrameComplexity = iComplexity; pRefJudgement->iMinFrameComplexity08 = static_cast<int32_t> (iComplexity * 0.8); pRefJudgement->iMinFrameComplexity11 = static_cast<int32_t> (iComplexity * 1.1); } void CWelsPreProcess::SaveBestRefToLocal (SRefInfoParam* pRefPicInfo, const SSceneChangeResult& sSceneChangeResult, SRefInfoParam* pRefSaved) { memcpy (pRefSaved, pRefPicInfo, sizeof (SRefInfoParam)); pRefSaved->pBestBlockStaticIdc = sSceneChangeResult.pStaticBlockIdc; } void CWelsPreProcess::SaveBestRefToVaa (SRefInfoParam& sRefSaved, SRefInfoParam* pVaaBestRef) { (*pVaaBestRef) = sRefSaved; } ESceneChangeIdc CWelsPreProcess::DetectSceneChangeScreen (sWelsEncCtx* pCtx, SPicture* pCurPicture) { #define STATIC_SCENE_MOTION_RATIO 0.01f SWelsSvcCodingParam* pSvcParam = pCtx->pSvcParam; SVAAFrameInfoExt* pVaaExt = static_cast<SVAAFrameInfoExt*> (pCtx->pVaa); if (NULL == pCtx || NULL == pVaaExt || NULL == pCurPicture) { return LARGE_CHANGED_SCENE; } const int32_t iTargetDid = pSvcParam->iSpatialLayerNum - 1; if (0 != iTargetDid) { return LARGE_CHANGED_SCENE; } ESceneChangeIdc iVaaFrameSceneChangeIdc = LARGE_CHANGED_SCENE; SPicture** pSrcPicList = &m_pSpatialPic[iTargetDid][1]; if (NULL == pSrcPicList) { return LARGE_CHANGED_SCENE; } SRefInfoParam sAvailableRefList[MAX_REF_PIC_COUNT] = { { 0 } }; int32_t iAvailableRefNum = 0; int32_t iAvailableSceneRefNum = 0; int32_t iSceneChangeMethodIdx = METHOD_SCENE_CHANGE_DETECTION_SCREEN; SSceneChangeResult sSceneChangeResult = {SIMILAR_SCENE, 0, 0, NULL}; SPixMap sSrcMap = { { 0 } }; SPixMap sRefMap = { { 0 } }; SRefJudgement sLtrJudgement; SRefJudgement sSceneLtrJudgement; SRefInfoParam sLtrSaved = {0}; SRefInfoParam sSceneLtrSaved = {0}; int32_t iNumOfLargeChange = 0, iNumOfMediumChangeToLtr = 0; bool bIsClosestLtrFrame = false; int32_t ret = 1, iScdIdx = 0; SPicture* pRefPic = NULL; SRefInfoParam* pRefPicInfo = NULL; uint8_t* pCurBlockStaticPointer = NULL; SLogContext* pLogCtx = & (pCtx->sLogCtx); const int32_t iNegligibleMotionBlocks = (static_cast<int32_t> ((pCurPicture->iWidthInPixel >> 3) * (pCurPicture->iHeightInPixel >> 3) * STATIC_SCENE_MOTION_RATIO)); const uint8_t iCurTid = GetTemporalLevel (&pSvcParam->sDependencyLayers[m_pEncCtx->sSpatialIndexMap[0].iDid], m_pEncCtx->iCodingIndex, pSvcParam->uiGopSize); const int32_t iClosestLtrFrameNum = pCtx->pLtr[iTargetDid].iLastLtrIdx[iCurTid];//TBD if (pSvcParam->bEnableLongTermReference) { GetAvailableRefListLosslessScreenRefSelection (pSrcPicList, iCurTid, iClosestLtrFrameNum, &sAvailableRefList[0], iAvailableRefNum, iAvailableSceneRefNum); } else { GetAvailableRefList (pSrcPicList, iCurTid, iClosestLtrFrameNum, &sAvailableRefList[0], iAvailableRefNum, iAvailableSceneRefNum); } //after this build, pAvailableRefList[idx].iSrcListIdx is the idx of the ref in h->spatial_pic if (0 == iAvailableRefNum) { WelsLog (pLogCtx, WELS_LOG_ERROR, "SceneChangeDetect() iAvailableRefNum=0 but not I."); return LARGE_CHANGED_SCENE; } InitPixMap (pCurPicture, &sSrcMap); InitRefJudgement (&sLtrJudgement); InitRefJudgement (&sSceneLtrJudgement); for (iScdIdx = 0; iScdIdx < iAvailableRefNum; iScdIdx ++) { pCurBlockStaticPointer = pVaaExt->pVaaBlockStaticIdc[iScdIdx]; sSceneChangeResult.eSceneChangeIdc = SIMILAR_SCENE; sSceneChangeResult.pStaticBlockIdc = pCurBlockStaticPointer; sSceneChangeResult.sScrollResult.bScrollDetectFlag = false; pRefPicInfo = & (sAvailableRefList[iScdIdx]); assert (NULL != pRefPicInfo); pRefPic = pRefPicInfo->pRefPicture; InitPixMap (pRefPic, &sRefMap); bIsClosestLtrFrame = (pRefPic->iLongTermPicNum == iClosestLtrFrameNum); if (0 == iScdIdx) { int32_t ret = 1; SScrollDetectionParam* pScrollDetectInfo = & (pVaaExt->sScrollDetectInfo); memset (pScrollDetectInfo, 0, sizeof (SScrollDetectionParam)); int32_t iMethodIdx = METHOD_SCROLL_DETECTION; m_pInterfaceVp->Set (iMethodIdx, (void*) (pScrollDetectInfo)); ret = m_pInterfaceVp->Process (iMethodIdx, &sSrcMap, &sRefMap); if (ret == 0) { m_pInterfaceVp->Get (iMethodIdx, (void*) (pScrollDetectInfo)); } sSceneChangeResult.sScrollResult = pVaaExt->sScrollDetectInfo; } m_pInterfaceVp->Set (iSceneChangeMethodIdx, (void*) (&sSceneChangeResult)); ret = m_pInterfaceVp->Process (iSceneChangeMethodIdx, &sSrcMap, &sRefMap); if (ret == 0) { m_pInterfaceVp->Get (iSceneChangeMethodIdx, (void*)&sSceneChangeResult); const int64_t iFrameComplexity = sSceneChangeResult.iFrameComplexity; const int32_t iSceneDetectIdc = sSceneChangeResult.eSceneChangeIdc; const int32_t iMotionBlockNum = sSceneChangeResult.iMotionBlockNum; const bool bCurRefIsSceneLtr = pRefPic->bIsSceneLTR; const int32_t iRefPicAvQP = pRefPic->iFrameAverageQp; //for scene change detection iNumOfLargeChange += (static_cast<int32_t> (LARGE_CHANGED_SCENE == iSceneDetectIdc)); iNumOfMediumChangeToLtr += (static_cast<int32_t> ((bCurRefIsSceneLtr) && (iSceneDetectIdc != SIMILAR_SCENE))); //for reference selection //this judge can only be saved when iAvailableRefNum==1, which is very limit //when LTR is OFF, it can still judge from all available STR if (JudgeBestRef (pRefPic, sLtrJudgement, iFrameComplexity, bIsClosestLtrFrame)) { SaveBestRefToJudgement (iRefPicAvQP, iFrameComplexity, &sLtrJudgement); SaveBestRefToLocal (pRefPicInfo, sSceneChangeResult, &sLtrSaved); } if (bCurRefIsSceneLtr && JudgeBestRef (pRefPic, sSceneLtrJudgement, iFrameComplexity, bIsClosestLtrFrame)) { SaveBestRefToJudgement (iRefPicAvQP, iFrameComplexity, &sSceneLtrJudgement); SaveBestRefToLocal (pRefPicInfo, sSceneChangeResult, &sSceneLtrSaved); } if (iMotionBlockNum <= iNegligibleMotionBlocks) { break; } } } if (iNumOfLargeChange == iAvailableRefNum) { iVaaFrameSceneChangeIdc = LARGE_CHANGED_SCENE; } else if ((iNumOfMediumChangeToLtr == iAvailableSceneRefNum) && (0 != iAvailableSceneRefNum)) { iVaaFrameSceneChangeIdc = MEDIUM_CHANGED_SCENE; } else { iVaaFrameSceneChangeIdc = SIMILAR_SCENE; } WelsLog (pLogCtx, WELS_LOG_DEBUG, "iVaaFrameSceneChangeIdc = %d,codingIdx = %d", iVaaFrameSceneChangeIdc, pCtx->iCodingIndex); SaveBestRefToVaa (sLtrSaved, & (pVaaExt->sVaaStrBestRefCandidate[0])); pVaaExt->iVaaBestRefFrameNum = sLtrSaved.pRefPicture->iFrameNum; pVaaExt->pVaaBestBlockStaticIdc = sLtrSaved.pBestBlockStaticIdc; if (0 < iAvailableSceneRefNum) { SaveBestRefToVaa (sSceneLtrSaved, & (pVaaExt->sVaaLtrBestRefCandidate[0])); } pVaaExt->iNumOfAvailableRef = 1; return static_cast<ESceneChangeIdc> (iVaaFrameSceneChangeIdc); } int32_t CWelsPreProcess::GetRefFrameInfo (int32_t iRefIdx, bool bCurrentFrameIsSceneLtr, SPicture*& pRefOri) { const int32_t iTargetDid = m_pEncCtx->pSvcParam->iSpatialLayerNum - 1; SVAAFrameInfoExt* pVaaExt = static_cast<SVAAFrameInfoExt*> (m_pEncCtx->pVaa); SRefInfoParam* pBestRefCandidateParam = (bCurrentFrameIsSceneLtr) ? (& (pVaaExt->sVaaLtrBestRefCandidate[iRefIdx])) : (& (pVaaExt->sVaaStrBestRefCandidate[iRefIdx])); pRefOri = m_pSpatialPic[iTargetDid][pBestRefCandidateParam->iSrcListIdx]; return (m_pSpatialPic[iTargetDid][pBestRefCandidateParam->iSrcListIdx]->iLongTermPicNum); } void CWelsPreProcess::Padding (uint8_t* pSrcY, uint8_t* pSrcU, uint8_t* pSrcV, int32_t iStrideY, int32_t iStrideUV, int32_t iActualWidth, int32_t iPaddingWidth, int32_t iActualHeight, int32_t iPaddingHeight) { int32_t i; if (iPaddingHeight > iActualHeight) { for (i = iActualHeight; i < iPaddingHeight; i++) { memset (pSrcY + i * iStrideY, 0, iActualWidth); if (! (i & 1)) { memset (pSrcU + i / 2 * iStrideUV, 0x80, iActualWidth / 2); memset (pSrcV + i / 2 * iStrideUV, 0x80, iActualWidth / 2); } } } if (iPaddingWidth > iActualWidth) { for (i = 0; i < iPaddingHeight; i++) { memset (pSrcY + i * iStrideY + iActualWidth, 0, iPaddingWidth - iActualWidth); if (! (i & 1)) { memset (pSrcU + i / 2 * iStrideUV + iActualWidth / 2, 0x80, (iPaddingWidth - iActualWidth) / 2); memset (pSrcV + i / 2 * iStrideUV + iActualWidth / 2, 0x80, (iPaddingWidth - iActualWidth) / 2); } } } } int32_t CWelsPreProcess::UpdateBlockIdcForScreen (uint8_t* pCurBlockStaticPointer, const SPicture* kpRefPic, const SPicture* kpSrcPic) { int32_t iSceneChangeMethodIdx = METHOD_SCENE_CHANGE_DETECTION_SCREEN; SSceneChangeResult sSceneChangeResult = {SIMILAR_SCENE, 0, 0, NULL}; sSceneChangeResult.pStaticBlockIdc = pCurBlockStaticPointer; sSceneChangeResult.sScrollResult.bScrollDetectFlag = false; SPixMap sSrcMap = { { 0 } }; SPixMap sRefMap = { { 0 } }; InitPixMap (kpSrcPic, &sSrcMap); InitPixMap (kpRefPic, &sRefMap); m_pInterfaceVp->Set (iSceneChangeMethodIdx, (void*) (&sSceneChangeResult)); int32_t iRet = m_pInterfaceVp->Process (iSceneChangeMethodIdx, &sSrcMap, &sRefMap); if (iRet == 0) { m_pInterfaceVp->Get (iSceneChangeMethodIdx, (void*)&sSceneChangeResult); return 0; } return iRet; } /*! * \brief exchange two picture pData planes * \param ppPic1 picture pointer to picture 1 * \param ppPic2 picture pointer to picture 2 * \return none */ void CWelsPreProcess::WelsExchangeSpatialPictures (SPicture** ppPic1, SPicture** ppPic2) { SPicture* tmp = *ppPic1; assert (*ppPic1 != *ppPic2); *ppPic1 = *ppPic2; *ppPic2 = tmp; } void CWelsPreProcess::UpdateSrcListLosslessScreenRefSelectionWithLtr (SPicture* pCurPicture, const int32_t kiCurDid, const int32_t kuiMarkLongTermPicIdx, SPicture** pLongRefList) { SPicture** pLongRefSrcList = &m_pSpatialPic[kiCurDid][0]; for (int32_t i = 0; i < MAX_REF_PIC_COUNT; ++i) { if (NULL == pLongRefSrcList[i + 1] || (NULL != pLongRefList[i] && pLongRefList[i]->bUsedAsRef && pLongRefList[i]->bIsLongRef)) { continue; } else { pLongRefSrcList[i + 1]->SetUnref(); } } WelsExchangeSpatialPictures (&m_pSpatialPic[kiCurDid][0], &m_pSpatialPic[kiCurDid][1 + kuiMarkLongTermPicIdx]); m_iAvaliableRefInSpatialPicList = MAX_REF_PIC_COUNT; (GetCurrentFrameFromOrigList (kiCurDid))->SetUnref(); } void CWelsPreProcess::UpdateSrcList (SPicture* pCurPicture, const int32_t kiCurDid, SPicture** pShortRefList, const uint32_t kuiShortRefCount) { SPicture** pRefSrcList = &m_pSpatialPic[kiCurDid][0]; //pRefSrcList[0] is for current frame if (pCurPicture->bUsedAsRef || pCurPicture->bIsLongRef) { if (pCurPicture->iPictureType == P_SLICE && pCurPicture->uiTemporalId != 0) { for (int iRefIdx = kuiShortRefCount - 1; iRefIdx >= 0; --iRefIdx) { WelsExchangeSpatialPictures (&pRefSrcList[iRefIdx + 1], &pRefSrcList[iRefIdx]); } m_iAvaliableRefInSpatialPicList = kuiShortRefCount; } else { WelsExchangeSpatialPictures (&pRefSrcList[0], &pRefSrcList[1]); for (int32_t i = MAX_SHORT_REF_COUNT - 1; i > 0 ; --i) { if (pRefSrcList[i + 1] != NULL) { pRefSrcList[i + 1]->SetUnref(); } } m_iAvaliableRefInSpatialPicList = 1; } } (GetCurrentFrameFromOrigList (kiCurDid))->SetUnref(); } //TODO: may opti later //TODO: not use this func? void* WelsMemcpy (void* dst, const void* kpSrc, uint32_t uiSize) { return ::memcpy (dst, kpSrc, uiSize); } void* WelsMemset (void* p, int32_t val, uint32_t uiSize) { return ::memset (p, val, uiSize); } //i420_to_i420_c void WelsMoveMemory_c (uint8_t* pDstY, uint8_t* pDstU, uint8_t* pDstV, int32_t iDstStrideY, int32_t iDstStrideUV, uint8_t* pSrcY, uint8_t* pSrcU, uint8_t* pSrcV, int32_t iSrcStrideY, int32_t iSrcStrideUV, int32_t iWidth, int32_t iHeight) { int32_t iWidth2 = iWidth >> 1; int32_t iHeight2 = iHeight >> 1; int32_t j; for (j = iHeight; j; j--) { WelsMemcpy (pDstY, pSrcY, iWidth); pDstY += iDstStrideY; pSrcY += iSrcStrideY; } for (j = iHeight2; j; j--) { WelsMemcpy (pDstU, pSrcU, iWidth2); WelsMemcpy (pDstV, pSrcV, iWidth2); pDstU += iDstStrideUV; pDstV += iDstStrideUV; pSrcU += iSrcStrideUV; pSrcV += iSrcStrideUV; } } void CWelsPreProcess::WelsMoveMemoryWrapper (SWelsSvcCodingParam* pSvcParam, SPicture* pDstPic, const SSourcePicture* kpSrc, const int32_t kiTargetWidth, const int32_t kiTargetHeight) { if (VIDEO_FORMAT_I420 != (kpSrc->iColorFormat & (~VIDEO_FORMAT_VFlip))) return; int32_t iSrcWidth = kpSrc->iPicWidth; int32_t iSrcHeight = kpSrc->iPicHeight; if (iSrcHeight > kiTargetHeight) iSrcHeight = kiTargetHeight; if (iSrcWidth > kiTargetWidth) iSrcWidth = kiTargetWidth; // copy from fr26 to fix the odd uiSize failed issue if (iSrcWidth & 0x1) -- iSrcWidth; if (iSrcHeight & 0x1) -- iSrcHeight; const int32_t kiSrcTopOffsetY = pSvcParam->SUsedPicRect.iTop; const int32_t kiSrcTopOffsetUV = (kiSrcTopOffsetY >> 1); const int32_t kiSrcLeftOffsetY = pSvcParam->SUsedPicRect.iLeft; const int32_t kiSrcLeftOffsetUV = (kiSrcLeftOffsetY >> 1); int32_t iSrcOffset[3] = {0, 0, 0}; iSrcOffset[0] = kpSrc->iStride[0] * kiSrcTopOffsetY + kiSrcLeftOffsetY; iSrcOffset[1] = kpSrc->iStride[1] * kiSrcTopOffsetUV + kiSrcLeftOffsetUV ; iSrcOffset[2] = kpSrc->iStride[2] * kiSrcTopOffsetUV + kiSrcLeftOffsetUV; uint8_t* pSrcY = kpSrc->pData[0] + iSrcOffset[0]; uint8_t* pSrcU = kpSrc->pData[1] + iSrcOffset[1]; uint8_t* pSrcV = kpSrc->pData[2] + iSrcOffset[2]; const int32_t kiSrcStrideY = kpSrc->iStride[0]; const int32_t kiSrcStrideUV = kpSrc->iStride[1]; uint8_t* pDstY = pDstPic->pData[0]; uint8_t* pDstU = pDstPic->pData[1]; uint8_t* pDstV = pDstPic->pData[2]; const int32_t kiDstStrideY = pDstPic->iLineSize[0]; const int32_t kiDstStrideUV = pDstPic->iLineSize[1]; if (pSrcY) { if (iSrcWidth <= 0 || iSrcWidth > MAX_WIDTH || iSrcHeight <= 0 || iSrcHeight > MAX_HEIGHT) return; if (kiSrcTopOffsetY >= iSrcHeight || kiSrcLeftOffsetY >= iSrcWidth || iSrcWidth > kiSrcStrideY) return; } if (pDstY) { if (kiTargetWidth <= 0 || kiTargetWidth > MAX_WIDTH || kiTargetHeight <= 0 || kiTargetHeight > MAX_HEIGHT) return; if (kiTargetWidth > kiDstStrideY) return; } if (pSrcY == NULL || pSrcU == NULL || pSrcV == NULL || pDstY == NULL || pDstU == NULL || pDstV == NULL || (iSrcWidth & 1) || (iSrcHeight & 1)) { } else { //i420_to_i420_c WelsMoveMemory_c (pDstY, pDstU, pDstV, kiDstStrideY, kiDstStrideUV, pSrcY, pSrcU, pSrcV, kiSrcStrideY, kiSrcStrideUV, iSrcWidth, iSrcHeight); //in VP Process if (kiTargetWidth > iSrcWidth || kiTargetHeight > iSrcHeight) { Padding (pDstY, pDstU, pDstV, kiDstStrideY, kiDstStrideUV, iSrcWidth, kiTargetWidth, iSrcHeight, kiTargetHeight); } } } //*********************************************************************************************************/ } // namespace WelsEnc