# HG changeset patch # User Santhoshini Sekar <santhosh...@multicorewareinc.com> # Date 1411363378 -19800 # Mon Sep 22 10:52:58 2014 +0530 # Node ID 4e2c1f5c77939374a68550333c6791ef4033fff9 # Parent 2c2309bbc7ca84a8e16f7db5fa42b8ba1c252206 TComDataCU: replace getZorderIdxInCU() with encodeIdx of CU structure
diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/Lib/TLibCommon/TComDataCU.cpp --- a/source/Lib/TLibCommon/TComDataCU.cpp Mon Sep 22 10:07:01 2014 +0530 +++ b/source/Lib/TLibCommon/TComDataCU.cpp Mon Sep 22 10:52:58 2014 +0530 @@ -387,7 +387,7 @@ } // initialize Sub partition -void TComDataCU::initSubCU(TComDataCU* cu, uint32_t partUnitIdx, uint32_t depth, int qp) +void TComDataCU::initSubCU(TComDataCU* cu, uint32_t partUnitIdx, uint32_t depth, int qp, CU* cuData) { X265_CHECK(partUnitIdx < 4, "part unit should be less than 4\n"); uint8_t log2CUSize = g_maxLog2CUSize - depth; @@ -396,7 +396,7 @@ m_pic = cu->m_pic; m_slice = cu->m_slice; m_cuAddr = cu->getAddr(); - m_absIdxInLCU = cu->getZorderIdxInCU() + partOffset; + m_absIdxInLCU = cuData->encodeIdx * 4 + partOffset; m_cuPelX = cu->getCUPelX() + ((partUnitIdx & 1) << log2CUSize); m_cuPelY = cu->getCUPelY() + ((partUnitIdx >> 1) << log2CUSize); @@ -453,7 +453,7 @@ m_cuAboveRight = cu->getCUAboveRight(); } -void TComDataCU::copyToSubCU(TComDataCU* cu, uint32_t partUnitIdx, uint32_t depth) +void TComDataCU::copyToSubCU(TComDataCU* cu, uint32_t partUnitIdx, uint32_t depth, CU* cuData) { X265_CHECK(partUnitIdx < 4, "part unit should be less than 4\n"); @@ -462,7 +462,7 @@ m_pic = cu->m_pic; m_slice = cu->m_slice; m_cuAddr = cu->getAddr(); - m_absIdxInLCU = cu->getZorderIdxInCU() + partOffset; + m_absIdxInLCU = cuData->encodeIdx * 4 + partOffset; m_cuPelX = cu->getCUPelX() + ((partUnitIdx & 1) << (g_maxLog2CUSize - depth)); m_cuPelY = cu->getCUPelY() + ((partUnitIdx >> 1) << (g_maxLog2CUSize - depth)); @@ -1067,9 +1067,9 @@ } else { - if (getZorderIdxInCU() > 0) + if (m_CULocalData->encodeIdx *4 > 0) { - return m_pic->getCU(getAddr())->getLastCodedQP(getZorderIdxInCU()); + return m_pic->getCU(getAddr())->getLastCodedQP(m_CULocalData->encodeIdx *4); } else if (getAddr() > 0 && !(m_slice->m_pps->bEntropyCodingSyncEnabled && getAddr() % m_pic->getFrameWidthInCU() == 0)) diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/Lib/TLibCommon/TComDataCU.h --- a/source/Lib/TLibCommon/TComDataCU.h Mon Sep 22 10:07:01 2014 +0530 +++ b/source/Lib/TLibCommon/TComDataCU.h Mon Sep 22 10:52:58 2014 +0530 @@ -273,9 +273,9 @@ void initCU(Frame* pic, uint32_t cuAddr); void initEstData(); - void initSubCU(TComDataCU* cu, uint32_t partUnitIdx, uint32_t depth, int qp); + void initSubCU(TComDataCU* cu, uint32_t partUnitIdx, uint32_t depth, int qp, CU* cuData); - void copyToSubCU(TComDataCU* lcu, uint32_t partUnitIdx, uint32_t depth); + void copyToSubCU(TComDataCU* lcu, uint32_t partUnitIdx, uint32_t depth, CU* cuData); void copyPartFrom(TComDataCU* cu, uint32_t partUnitIdx, uint32_t depth, bool isRDObasedAnalysis = true); void copyToPic(uint32_t depth); @@ -288,8 +288,6 @@ uint32_t& getAddr() { return m_cuAddr; } - uint32_t& getZorderIdxInCU() { return m_absIdxInLCU; } - uint32_t getSCUAddr() const { return (m_cuAddr << g_maxFullDepth * 2) + m_absIdxInLCU; } diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/Lib/TLibCommon/TComPattern.cpp --- a/source/Lib/TLibCommon/TComPattern.cpp Mon Sep 22 10:07:01 2014 +0530 +++ b/source/Lib/TLibCommon/TComPattern.cpp Mon Sep 22 10:52:58 2014 +0530 @@ -50,7 +50,7 @@ // ==================================================================================================================== void TComPattern::initAdiPattern(TComDataCU* cu, uint32_t zOrderIdxInPart, uint32_t partDepth, pixel* adiBuf, - pixel* refAbove, pixel* refLeft, pixel* refAboveFlt, pixel* refLeftFlt, int dirMode) + pixel* refAbove, pixel* refLeft, pixel* refAboveFlt, pixel* refLeftFlt, int dirMode, CU* cuData) { pixel* roiOrigin; pixel* adiTemp; @@ -63,7 +63,7 @@ uint32_t tuSize = intraNeighbors.tuSize; uint32_t tuSize2 = tuSize << 1; - roiOrigin = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), cu->getZorderIdxInCU() + zOrderIdxInPart); + roiOrigin = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), cuData->encodeIdx * 4 + zOrderIdxInPart); adiTemp = adiBuf; fillReferenceSamples(roiOrigin, picStride, adiTemp, intraNeighbors); @@ -163,7 +163,7 @@ } } -void TComPattern::initAdiPatternChroma(TComDataCU* cu, uint32_t zOrderIdxInPart, uint32_t partDepth, pixel* adiBuf, uint32_t chromaId) +void TComPattern::initAdiPatternChroma(TComDataCU* cu, uint32_t zOrderIdxInPart, uint32_t partDepth, pixel* adiBuf, uint32_t chromaId, CU* cuData) { pixel* roiOrigin; pixel* adiTemp; @@ -175,7 +175,7 @@ initIntraNeighbors(cu, zOrderIdxInPart, partDepth, false, &intraNeighbors); uint32_t tuSize = intraNeighbors.tuSize; - roiOrigin = cu->m_pic->getPicYuvRec()->getChromaAddr(chromaId, cu->getAddr(), cu->getZorderIdxInCU() + zOrderIdxInPart); + roiOrigin = cu->m_pic->getPicYuvRec()->getChromaAddr(chromaId, cu->getAddr(), cuData->encodeIdx * 4 + zOrderIdxInPart); adiTemp = getAdiChromaBuf(chromaId, tuSize, adiBuf); fillReferenceSamples(roiOrigin, picStride, adiTemp, intraNeighbors); diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/Lib/TLibCommon/TComPattern.h --- a/source/Lib/TLibCommon/TComPattern.h Mon Sep 22 10:07:01 2014 +0530 +++ b/source/Lib/TLibCommon/TComPattern.h Mon Sep 22 10:52:58 2014 +0530 @@ -53,6 +53,7 @@ class TComDataCU; +struct CU; struct IntraNeighbors { int numIntraNeighbor; @@ -84,11 +85,12 @@ /// set parameters from pixel buffers for accessing neighboring pixels static void initAdiPattern(TComDataCU* cu, uint32_t zOrderIdxInPart, uint32_t partDepth, pixel* adiBuf, pixel* refAbove, pixel* refLeft, - pixel* refAboveFlt, pixel* refLeftFlt, int dirMode); + pixel* refAboveFlt, pixel* refLeftFlt, int dirMode, + CU* cuData); /// set chroma parameters from CU data for accessing ADI data static void initAdiPatternChroma(TComDataCU* cu, uint32_t zOrderIdxInPart, uint32_t partDepth, - pixel* adiBuf, uint32_t chromaId); + pixel* adiBuf, uint32_t chromaId, CU* cuData); static void initIntraNeighbors(TComDataCU* cu, uint32_t zOrderIdxInPart, uint32_t partDepth, bool isLuma, IntraNeighbors *IntraNeighbors); diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/encoder/analysis.cpp --- a/source/encoder/analysis.cpp Mon Sep 22 10:07:01 2014 +0530 +++ b/source/encoder/analysis.cpp Mon Sep 22 10:52:58 2014 +0530 @@ -424,7 +424,7 @@ //PPAScopeEvent(CompressIntraCU + depth); Frame* pic = outBestCU->m_pic; uint32_t cuAddr = outBestCU->getAddr(); - uint32_t absPartIdx = outBestCU->getZorderIdxInCU(); + uint32_t absPartIdx = cu->encodeIdx * 4; if (depth == 0) // get original YUV data from picture @@ -474,10 +474,10 @@ { CU *child_cu = pic->getCU(cuAddr)->m_CULocalData + cu->childIdx + partUnitIdx; int qp = outTempCU->getQP(0); - subBestPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp); // clear sub partition datas or init. + subBestPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp, cu); // clear sub partition datas or init. if (child_cu->flags & CU::PRESENT) { - subTempPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp); // clear sub partition datas or init. + subTempPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp, cu); // clear sub partition datas or init. if (0 == partUnitIdx) //initialize RD with previous depth buffer m_rdEntropyCoders[nextDepth][CI_CURR_BEST].load(m_rdEntropyCoders[depth][CI_CURR_BEST]); else @@ -566,15 +566,15 @@ int32_t ctuToDepthIndex = g_maxCUDepth - 1; if (depth) - m_origYuv[0]->copyPartToYuv(m_origYuv[depth], outBestCU->getZorderIdxInCU()); + m_origYuv[0]->copyPartToYuv(m_origYuv[depth], cu->encodeIdx * 4); else - m_origYuv[depth]->copyFromPicYuv(pic->getPicYuvOrg(), outBestCU->getAddr(), outBestCU->getZorderIdxInCU()); + m_origYuv[depth]->copyFromPicYuv(pic->getPicYuvOrg(), outBestCU->getAddr(), cu->encodeIdx * 4); Slice* slice = outTempCU->m_slice; int32_t cu_split_flag = !(cu->flags & CU::LEAF); int32_t cu_unsplit_flag = !(cu->flags & CU::SPLIT_MANDATORY); - if (cu_unsplit_flag && ((zOrder == outBestCU->getZorderIdxInCU()) && (depth == sharedDepth[zOrder]))) + if (cu_unsplit_flag && ((zOrder == cu->encodeIdx * 4) && (depth == sharedDepth[zOrder]))) { m_quant.setQPforQuant(outTempCU); checkIntra(outTempCU, (PartSize)sharedPartSizes[zOrder], cu, &sharedModes[zOrder]); @@ -609,10 +609,10 @@ { CU *child_cu = pic->getCU(outTempCU->getAddr())->m_CULocalData + cu->childIdx + partUnitIdx; int qp = outTempCU->getQP(0); - subBestPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp); // clear sub partition datas or init. + subBestPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp, cu); // clear sub partition datas or init. if (child_cu->flags & CU::PRESENT) { - subTempPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp); // clear sub partition datas or init. + subTempPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp, cu); // clear sub partition datas or init. if (partUnitIdx) // initialize RD with previous depth buffer m_rdEntropyCoders[nextDepth][CI_CURR_BEST].load(m_rdEntropyCoders[nextDepth][CI_NEXT_BEST]); @@ -675,7 +675,7 @@ outBestCU->copyToPic(depth); if (!cu_unsplit_flag) return; - m_bestRecoYuv[depth]->copyToPicYuv(pic->getPicYuvRec(), outBestCU->getAddr(), outBestCU->getZorderIdxInCU()); + m_bestRecoYuv[depth]->copyToPicYuv(pic->getPicYuvRec(), outBestCU->getAddr(), cu->encodeIdx * 4); #if CHECKED_BUILD || _DEBUG X265_CHECK(outBestCU->getPartitionSize(0) != SIZE_NONE, "no best partition size\n"); @@ -703,11 +703,11 @@ outTempCU->getQuadtreeTULog2MinSizeInCU(tuDepthRange, 0); if (sharedModes) - sharedEstIntraPredQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], tuDepthRange, sharedModes); + sharedEstIntraPredQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], tuDepthRange, sharedModes, cu); else - estIntraPredQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], tuDepthRange); + estIntraPredQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], tuDepthRange, cu); - estIntraPredChromaQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth]); + estIntraPredChromaQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], cu); m_entropyCoder->resetBits(); if (outTempCU->m_slice->m_pps->bTransquantBypassEnabled) @@ -743,7 +743,7 @@ { Frame* pic = outTempCU->m_pic; uint32_t cuAddr = outTempCU->getAddr(); - uint32_t absPartIdx = outTempCU->getZorderIdxInCU(); + uint32_t absPartIdx = cu->encodeIdx * 4; if (depth == 0) // get original YUV data from picture @@ -818,16 +818,16 @@ } else { - m_interCU_2Nx2N[depth]->initSubCU(parentCU, PartitionIndex, depth, qp); - m_interCU_2NxN[depth]->initSubCU(parentCU, PartitionIndex, depth, qp); - m_interCU_Nx2N[depth]->initSubCU(parentCU, PartitionIndex, depth, qp); - m_intraInInterCU[depth]->initSubCU(parentCU, PartitionIndex, depth, qp); - m_mergeCU[depth]->initSubCU(parentCU, PartitionIndex, depth, qp); - m_bestMergeCU[depth]->initSubCU(parentCU, PartitionIndex, depth, qp); + m_interCU_2Nx2N[depth]->initSubCU(parentCU, PartitionIndex, depth, qp, cu); + m_interCU_2NxN[depth]->initSubCU(parentCU, PartitionIndex, depth, qp, cu); + m_interCU_Nx2N[depth]->initSubCU(parentCU, PartitionIndex, depth, qp, cu); + m_intraInInterCU[depth]->initSubCU(parentCU, PartitionIndex, depth, qp, cu); + m_mergeCU[depth]->initSubCU(parentCU, PartitionIndex, depth, qp, cu); + m_bestMergeCU[depth]->initSubCU(parentCU, PartitionIndex, depth, qp, cu); } /* Compute Merge Cost */ - checkMerge2Nx2N_rd0_4(m_bestMergeCU[depth], m_mergeCU[depth], m_modePredYuv[3][depth], m_bestMergeRecoYuv[depth]); + checkMerge2Nx2N_rd0_4(m_bestMergeCU[depth], m_mergeCU[depth], m_modePredYuv[3][depth], m_bestMergeRecoYuv[depth], cu); bool earlyskip = false; if (m_param->rdLevel >= 1) earlyskip = (m_param->bEnableEarlySkip && m_bestMergeCU[depth]->isSkipped(0)); @@ -836,7 +836,7 @@ { /* Compute 2Nx2N mode costs */ { - checkInter_rd0_4(m_interCU_2Nx2N[depth], m_modePredYuv[0][depth], SIZE_2Nx2N); + checkInter_rd0_4(m_interCU_2Nx2N[depth], m_modePredYuv[0][depth], SIZE_2Nx2N, cu); /* Choose best mode; initialise outBestCU to 2Nx2N */ outBestCU = m_interCU_2Nx2N[depth]; std::swap(m_bestPredYuv[depth], m_modePredYuv[0][depth]); @@ -845,8 +845,8 @@ /* Compute Rect costs */ if (m_param->bEnableRectInter) { - checkInter_rd0_4(m_interCU_Nx2N[depth], m_modePredYuv[1][depth], SIZE_Nx2N); - checkInter_rd0_4(m_interCU_2NxN[depth], m_modePredYuv[2][depth], SIZE_2NxN); + checkInter_rd0_4(m_interCU_Nx2N[depth], m_modePredYuv[1][depth], SIZE_Nx2N, cu); + checkInter_rd0_4(m_interCU_2NxN[depth], m_modePredYuv[2][depth], SIZE_2NxN, cu); if (m_interCU_Nx2N[depth]->m_sa8dCost < outBestCU->m_sa8dCost) { outBestCU = m_interCU_Nx2N[depth]; @@ -865,12 +865,12 @@ int numPart = outBestCU->getNumPartInter(); for (int partIdx = 0; partIdx < numPart; partIdx++) { - prepMotionCompensation(outBestCU, partIdx); + prepMotionCompensation(outBestCU, partIdx, cu); motionCompensation(outBestCU, m_bestPredYuv[depth], REF_PIC_LIST_X, false, true); } encodeResAndCalcRdInterCU(outBestCU, m_origYuv[depth], m_bestPredYuv[depth], m_tmpResiYuv[depth], - m_bestResiYuv[depth], m_bestRecoYuv[depth]); + m_bestResiYuv[depth], m_bestRecoYuv[depth], cu); uint64_t bestMergeCost = m_rdCost.m_psyRd ? m_bestMergeCU[depth]->m_totalPsyCost : m_bestMergeCU[depth]->m_totalRDCost; uint64_t bestCost = m_rdCost.m_psyRd ? outBestCU->m_totalPsyCost : outBestCU->m_totalRDCost; if (bestMergeCost < bestCost) @@ -898,12 +898,12 @@ } if (bdoIntra) { - checkIntraInInter_rd0_4(m_intraInInterCU[depth], SIZE_2Nx2N); + checkIntraInInter_rd0_4(m_intraInInterCU[depth], SIZE_2Nx2N, cu); uint64_t intraInInterCost, bestCost; if (m_param->rdLevel > 2) { encodeIntraInInter(m_intraInInterCU[depth], m_origYuv[depth], m_modePredYuv[5][depth], - m_tmpResiYuv[depth], m_tmpRecoYuv[depth]); + m_tmpResiYuv[depth], m_tmpRecoYuv[depth], cu); intraInInterCost = m_rdCost.m_psyRd ? m_intraInInterCU[depth]->m_totalPsyCost : m_intraInInterCU[depth]->m_totalRDCost; bestCost = m_rdCost.m_psyRd ? outBestCU->m_totalPsyCost : outBestCU->m_totalRDCost; } @@ -935,17 +935,17 @@ int numPart = outBestCU->getNumPartInter(); for (int partIdx = 0; partIdx < numPart; partIdx++) { - prepMotionCompensation(outBestCU, partIdx); + prepMotionCompensation(outBestCU, partIdx, cu); motionCompensation(outBestCU, m_bestPredYuv[depth], REF_PIC_LIST_X, false, true); } encodeResAndCalcRdInterCU(outBestCU, m_origYuv[depth], m_bestPredYuv[depth], m_tmpResiYuv[depth], - m_bestResiYuv[depth], m_bestRecoYuv[depth]); + m_bestResiYuv[depth], m_bestRecoYuv[depth], cu); m_rdEntropyCoders[depth][CI_TEMP_BEST].store(m_rdEntropyCoders[depth][CI_NEXT_BEST]); } else if (outBestCU->getPredictionMode(0) == MODE_INTRA) { - encodeIntraInInter(outBestCU, m_origYuv[depth], m_bestPredYuv[depth], m_tmpResiYuv[depth], m_bestRecoYuv[depth]); + encodeIntraInInter(outBestCU, m_origYuv[depth], m_bestPredYuv[depth], m_tmpResiYuv[depth], m_bestRecoYuv[depth], cu); m_rdEntropyCoders[depth][CI_TEMP_BEST].store(m_rdEntropyCoders[depth][CI_NEXT_BEST]); } } @@ -962,15 +962,15 @@ int numPart = outBestCU->getNumPartInter(); for (int partIdx = 0; partIdx < numPart; partIdx++) { - prepMotionCompensation(outBestCU, partIdx); + prepMotionCompensation(outBestCU, partIdx, cu); motionCompensation(outBestCU, m_bestPredYuv[depth], REF_PIC_LIST_X, false, true); } m_tmpResiYuv[depth]->subtract(m_origYuv[depth], m_bestPredYuv[depth], outBestCU->getLog2CUSize(0)); - generateCoeffRecon(outBestCU, m_origYuv[depth], m_bestPredYuv[depth], m_tmpResiYuv[depth], m_bestRecoYuv[depth]); + generateCoeffRecon(outBestCU, m_origYuv[depth], m_bestPredYuv[depth], m_tmpResiYuv[depth], m_bestRecoYuv[depth], cu); } else - generateCoeffRecon(outBestCU, m_origYuv[depth], m_bestPredYuv[depth], m_tmpResiYuv[depth], m_bestRecoYuv[depth]); + generateCoeffRecon(outBestCU, m_origYuv[depth], m_bestPredYuv[depth], m_tmpResiYuv[depth], m_bestRecoYuv[depth], cu); } else if (m_param->rdLevel == 0) { @@ -979,7 +979,7 @@ int numPart = outBestCU->getNumPartInter(); for (int partIdx = 0; partIdx < numPart; partIdx++) { - prepMotionCompensation(outBestCU, partIdx); + prepMotionCompensation(outBestCU, partIdx, cu); motionCompensation(outBestCU, m_bestPredYuv[depth], REF_PIC_LIST_X, false, true); } } @@ -1092,7 +1092,7 @@ CU *child_cu = pic->getCU(cuAddr)->m_CULocalData + cu->childIdx + partUnitIdx; TComDataCU* subBestPartCU = NULL; - subTempPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp); // clear sub partition datas or init. + subTempPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp, cu); // clear sub partition datas or init. if (child_cu->flags & CU::PRESENT) { @@ -1210,7 +1210,7 @@ outBestCU->copyToPic(depth); if (m_param->rdLevel == 0 && depth == 0) - encodeResidue(outBestCU, outBestCU, 0, 0); + encodeResidue(outBestCU, outBestCU, 0, 0, cu); else if (m_param->rdLevel != 0) { /* Copy Yuv data to picture Yuv */ @@ -1252,7 +1252,7 @@ Frame* pic = outBestCU->m_pic; uint32_t cuAddr = outBestCU->getAddr(); - uint32_t absPartIdx = outBestCU->getZorderIdxInCU(); + uint32_t absPartIdx = cu->encodeIdx * 4; if (depth == 0) // get original YUV data from picture @@ -1278,14 +1278,14 @@ if (slice->m_sliceType != I_SLICE) { // by Merge for inter_2Nx2N - checkMerge2Nx2N_rd5_6(outBestCU, outTempCU, &earlyDetectionSkipMode, m_bestPredYuv[depth], m_bestRecoYuv[depth]); + checkMerge2Nx2N_rd5_6(outBestCU, outTempCU, &earlyDetectionSkipMode, m_bestPredYuv[depth], m_bestRecoYuv[depth], cu); outTempCU->initEstData(); if (!m_param->bEnableEarlySkip) { // 2Nx2N, NxN - checkInter_rd5_6(outBestCU, outTempCU, SIZE_2Nx2N); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_2Nx2N, cu); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; @@ -1304,7 +1304,7 @@ { if (depth == g_maxCUDepth && doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_NxN); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_NxN, cu); outTempCU->initEstData(); } } @@ -1314,14 +1314,14 @@ // 2NxN, Nx2N if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_Nx2N); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_Nx2N, cu); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode && outBestCU->getPartitionSize(0) == SIZE_Nx2N) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; } if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxN); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxN, cu); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode && outBestCU->getPartitionSize(0) == SIZE_2NxN) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; @@ -1341,14 +1341,14 @@ { if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxnU); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxnU, cu); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode && outBestCU->getPartitionSize(0) == SIZE_2NxnU) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; } if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxnD); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxnD, cu); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode && outBestCU->getPartitionSize(0) == SIZE_2NxnD) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; @@ -1358,14 +1358,14 @@ { if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxnU, true); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxnU, cu, true); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode && outBestCU->getPartitionSize(0) == SIZE_2NxnU) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; } if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxnD, true); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_2NxnD, cu, true); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode && outBestCU->getPartitionSize(0) == SIZE_2NxnD) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; @@ -1377,14 +1377,14 @@ { if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_nLx2N); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_nLx2N, cu); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode && outBestCU->getPartitionSize(0) == SIZE_nLx2N) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; } if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_nRx2N); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_nRx2N, cu); outTempCU->initEstData(); } } @@ -1392,14 +1392,14 @@ { if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_nLx2N, true); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_nLx2N, cu, true); outTempCU->initEstData(); if (m_param->bEnableCbfFastMode && outBestCU->getPartitionSize(0) == SIZE_nLx2N) doNotBlockPu = outBestCU->getQtRootCbf(0) != 0; } if (doNotBlockPu) { - checkInter_rd5_6(outBestCU, outTempCU, SIZE_nRx2N, true); + checkInter_rd5_6(outBestCU, outTempCU, SIZE_nRx2N, cu, true); outTempCU->initEstData(); } } @@ -1412,14 +1412,14 @@ outBestCU->getCbf(0, TEXT_CHROMA_U) != 0 || outBestCU->getCbf(0, TEXT_CHROMA_V) != 0) && doIntra) { - checkIntraInInter_rd5_6(outBestCU, outTempCU, SIZE_2Nx2N); + checkIntraInInter_rd5_6(outBestCU, outTempCU, SIZE_2Nx2N, cu); outTempCU->initEstData(); if (depth == g_maxCUDepth) { if (cu->log2CUSize > slice->m_sps->quadtreeTULog2MinSize) { - checkIntraInInter_rd5_6(outBestCU, outTempCU, SIZE_NxN); + checkIntraInInter_rd5_6(outBestCU, outTempCU, SIZE_NxN, cu); outTempCU->initEstData(); } } @@ -1453,11 +1453,11 @@ CU *child_cu = pic->getCU(cuAddr)->m_CULocalData + cu->childIdx + partUnitIdx; int qp = outTempCU->getQP(0); - subBestPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp); // clear sub partition datas or init. + subBestPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp, cu); // clear sub partition datas or init. if (child_cu->flags & CU::PRESENT) { - subTempPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp); // clear sub partition datas or init. + subTempPartCU->initSubCU(outTempCU, partUnitIdx, nextDepth, qp, cu); // clear sub partition datas or init. if (0 == partUnitIdx) //initialize RD with previous depth buffer m_rdEntropyCoders[nextDepth][CI_CURR_BEST].load(m_rdEntropyCoders[depth][CI_CURR_BEST]); @@ -1533,7 +1533,7 @@ #endif } -void Analysis::checkMerge2Nx2N_rd0_4(TComDataCU*& outBestCU, TComDataCU*& outTempCU, TComYuv*& bestPredYuv, TComYuv*& yuvReconBest) +void Analysis::checkMerge2Nx2N_rd0_4(TComDataCU*& outBestCU, TComDataCU*& outTempCU, TComYuv*& bestPredYuv, TComYuv*& yuvReconBest, CU* cuData) { X265_CHECK(outTempCU->m_slice->m_sliceType != I_SLICE, "Evaluating merge in I slice\n"); TComMvField mvFieldNeighbours[MRG_MAX_NUM_CANDS][2]; // double length for mv of both lists @@ -1569,7 +1569,7 @@ // do MC only for Luma part /* Set CU parameters for motion compensation */ - prepMotionCompensation(outTempCU, 0); + prepMotionCompensation(outTempCU, 0, cuData); motionCompensation(outTempCU, m_tmpPredYuv[depth], REF_PIC_LIST_X, true, false); uint32_t bitsCand = getTUBits(mergeCand, maxNumMergeCand); outTempCU->m_totalBits = bitsCand; @@ -1608,7 +1608,7 @@ int numPart = outBestCU->getNumPartInter(); for (int partIdx = 0; partIdx < numPart; partIdx++) { - prepMotionCompensation(outBestCU, partIdx); + prepMotionCompensation(outBestCU, partIdx, cuData); motionCompensation(outBestCU, bestPredYuv, REF_PIC_LIST_X, false, true); } @@ -1623,7 +1623,7 @@ } // Encode with residue - encodeResAndCalcRdInterCU(outTempCU, m_origYuv[depth], bestPredYuv, m_tmpResiYuv[depth], m_bestResiYuv[depth], m_tmpRecoYuv[depth]); + encodeResAndCalcRdInterCU(outTempCU, m_origYuv[depth], bestPredYuv, m_tmpResiYuv[depth], m_bestResiYuv[depth], m_tmpRecoYuv[depth], cuData); uint64_t tempCost = m_rdCost.m_psyRd ? outTempCU->m_totalPsyCost : outTempCU->m_totalRDCost; uint64_t bestCost = m_rdCost.m_psyRd ? outBestCU->m_totalPsyCost : outBestCU->m_totalRDCost; @@ -1637,7 +1637,7 @@ } } -void Analysis::checkMerge2Nx2N_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, bool *earlyDetectionSkipMode, TComYuv*& outBestPredYuv, TComYuv*& rpcYuvReconBest) +void Analysis::checkMerge2Nx2N_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, bool *earlyDetectionSkipMode, TComYuv*& outBestPredYuv, TComYuv*& rpcYuvReconBest, CU* cuData) { X265_CHECK(outTempCU->m_slice->m_sliceType != I_SLICE, "I slice not expected\n"); TComMvField mvFieldNeighbours[MRG_MAX_NUM_CANDS][2]; // double length for mv of both lists @@ -1682,7 +1682,7 @@ outTempCU->getCUMvField(REF_PIC_LIST_1)->setAllMvField(mvFieldNeighbours[mergeCand][1], SIZE_2Nx2N, 0, 0); // interprets depth relative to outTempCU level // do MC - prepMotionCompensation(outTempCU, 0); + prepMotionCompensation(outTempCU, 0, cuData); motionCompensation(outTempCU, m_tmpPredYuv[depth], REF_PIC_LIST_X, true, true); // estimate residual and encode everything if (noResidual) @@ -1696,7 +1696,8 @@ m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_bestResiYuv[depth], - m_tmpRecoYuv[depth]); + m_tmpRecoYuv[depth], + cuData); /* Todo: Fix the satd cost estimates. Why is merge being chosen in high motion areas: estimated distortion is too low? */ @@ -1741,7 +1742,7 @@ } } -void Analysis::checkInter_rd0_4(TComDataCU* outTempCU, TComYuv* outPredYuv, PartSize partSize, bool bUseMRG) +void Analysis::checkInter_rd0_4(TComDataCU* outTempCU, TComYuv* outPredYuv, PartSize partSize, CU* cuData, bool bUseMRG) { uint32_t depth = outTempCU->getDepth(0); @@ -1751,7 +1752,7 @@ // do motion compensation only for Luma since luma cost alone is calculated outTempCU->m_totalBits = 0; - if (predInterSearch(outTempCU, outPredYuv, bUseMRG, false)) + if (predInterSearch(outTempCU, outPredYuv, bUseMRG, false, cuData)) { int sizeIdx = outTempCU->getLog2CUSize(0) - 2; uint32_t distortion = primitives.sa8d[sizeIdx](m_origYuv[depth]->getLumaAddr(), m_origYuv[depth]->getStride(), @@ -1766,7 +1767,7 @@ } } -void Analysis::checkInter_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, PartSize partSize, bool bUseMRG) +void Analysis::checkInter_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, PartSize partSize, CU* cuData, bool bUseMRG) { uint32_t depth = outTempCU->getDepth(0); @@ -1775,15 +1776,15 @@ outTempCU->setPredModeSubParts(MODE_INTER, 0, depth); outTempCU->setCUTransquantBypassSubParts(!!m_param->bLossless, 0, depth); - if (predInterSearch(outTempCU, m_tmpPredYuv[depth], bUseMRG, true)) + if (predInterSearch(outTempCU, m_tmpPredYuv[depth], bUseMRG, true, cuData)) { - encodeResAndCalcRdInterCU(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_bestResiYuv[depth], m_tmpRecoYuv[depth]); + encodeResAndCalcRdInterCU(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_bestResiYuv[depth], m_tmpRecoYuv[depth], cuData); checkDQP(outTempCU); checkBestMode(outBestCU, outTempCU, depth); } } -void Analysis::checkIntraInInter_rd0_4(TComDataCU* cu, PartSize partSize) +void Analysis::checkIntraInInter_rd0_4(TComDataCU* cu, PartSize partSize, CU* cuData) { uint32_t depth = cu->getDepth(0); @@ -1797,7 +1798,7 @@ const uint32_t partOffset = 0; // Reference sample smoothing - TComPattern::initAdiPattern(cu, partOffset, initTrDepth, m_predBuf, m_refAbove, m_refLeft, m_refAboveFlt, m_refLeftFlt, ALL_IDX); + TComPattern::initAdiPattern(cu, partOffset, initTrDepth, m_predBuf, m_refAbove, m_refLeft, m_refAboveFlt, m_refLeftFlt, ALL_IDX, cuData); pixel* fenc = m_origYuv[depth]->getLumaAddr(); uint32_t stride = m_modePredYuv[5][depth]->getStride(); @@ -1949,7 +1950,7 @@ cu->setLumaIntraDirSubParts(bmode, partOffset, depth + initTrDepth); } -void Analysis::checkIntraInInter_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, PartSize partSize) +void Analysis::checkIntraInInter_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, PartSize partSize, CU* cuData) { uint32_t depth = outTempCU->getDepth(0); @@ -1964,9 +1965,9 @@ uint32_t tuDepthRange[2]; outTempCU->getQuadtreeTULog2MinSizeInCU(tuDepthRange, 0); - estIntraPredQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], tuDepthRange); + estIntraPredQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], tuDepthRange, cuData); - estIntraPredChromaQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth]); + estIntraPredChromaQT(outTempCU, m_origYuv[depth], m_tmpPredYuv[depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], cuData); m_entropyCoder->resetBits(); if (outTempCU->m_slice->m_pps->bTransquantBypassEnabled) @@ -2002,7 +2003,7 @@ checkBestMode(outBestCU, outTempCU, depth); } -void Analysis::encodeIntraInInter(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* outResiYuv, TComYuv* outReconYuv) +void Analysis::encodeIntraInInter(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* outResiYuv, TComYuv* outReconYuv, CU* cuData) { uint64_t puCost = 0; uint32_t puBits = 0; @@ -2018,7 +2019,7 @@ uint32_t tuDepthRange[2]; cu->getQuadtreeTULog2MinSizeInCU(tuDepthRange, 0); - uint32_t puDistY = xRecurIntraCodingQT(cu, initTrDepth, 0, fencYuv, predYuv, outResiYuv, false, puCost, puBits, psyEnergy, tuDepthRange); + uint32_t puDistY = xRecurIntraCodingQT(cu, initTrDepth, 0, fencYuv, predYuv, outResiYuv, false, puCost, puBits, psyEnergy, tuDepthRange, cuData); xSetIntraResultQT(cu, initTrDepth, 0, outReconYuv); //=== update PU data ==== @@ -2027,7 +2028,7 @@ //===== set distortion (rate and r-d costs are determined later) ===== cu->m_totalDistortion = puDistY; - estIntraPredChromaQT(cu, fencYuv, predYuv, outResiYuv, outReconYuv); + estIntraPredChromaQT(cu, fencYuv, predYuv, outResiYuv, outReconYuv, cuData); m_entropyCoder->resetBits(); if (cu->m_slice->m_pps->bTransquantBypassEnabled) m_entropyCoder->codeCUTransquantBypassFlag(cu->getCUTransquantBypass(0)); @@ -2059,7 +2060,7 @@ cu->m_totalRDCost = m_rdCost.calcRdCost(cu->m_totalDistortion, cu->m_totalBits); } -void Analysis::encodeResidue(TComDataCU* lcu, TComDataCU* cu, uint32_t absPartIdx, uint32_t depth) +void Analysis::encodeResidue(TComDataCU* lcu, TComDataCU* cu, uint32_t absPartIdx, uint32_t depth, CU* cuData) { Frame* pic = cu->m_pic; @@ -2072,10 +2073,11 @@ uint32_t xmax = slice->m_sps->picWidthInLumaSamples - lcu->getCUPelX(); uint32_t ymax = slice->m_sps->picHeightInLumaSamples - lcu->getCUPelY(); for (uint32_t partUnitIdx = 0; partUnitIdx < 4; partUnitIdx++, absPartIdx += qNumParts) { + CU *child_cu = cu->m_CULocalData + cuData->childIdx + partUnitIdx; if (g_zscanToPelX[absPartIdx] < xmax && g_zscanToPelY[absPartIdx] < ymax) { - subTempPartCU->copyToSubCU(cu, partUnitIdx, nextDepth); - encodeResidue(lcu, subTempPartCU, absPartIdx, nextDepth); + subTempPartCU->copyToSubCU(cu, partUnitIdx, nextDepth, child_cu); + encodeResidue(lcu, subTempPartCU, absPartIdx, nextDepth, child_cu); } } @@ -2117,7 +2119,7 @@ uint32_t tuDepthRange[2]; cu->getQuadtreeTULog2MinSizeInCU(tuDepthRange, 0); // Residual encoding - residualTransformQuantInter(cu, 0, m_origYuv[0], m_tmpResiYuv[depth], cu->getDepth(0), tuDepthRange); + residualTransformQuantInter(cu, 0, m_origYuv[0], m_tmpResiYuv[depth], cu->getDepth(0), tuDepthRange, cuData); checkDQP(cu); if (lcu->getMergeFlag(absPartIdx) && cu->getPartitionSize(0) == SIZE_2Nx2N && !cu->getQtRootCbf(0)) @@ -2177,7 +2179,7 @@ else { m_origYuv[0]->copyPartToYuv(m_origYuv[depth], absPartIdx); - generateCoeffRecon(cu, m_origYuv[depth], m_modePredYuv[5][depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth]); + generateCoeffRecon(cu, m_origYuv[depth], m_modePredYuv[5][depth], m_tmpResiYuv[depth], m_tmpRecoYuv[depth], cuData); checkDQP(cu); m_tmpRecoYuv[depth]->copyToPicYuv(pic->getPicYuvRec(), cuAddr, absPartIdx); cu->copyCodedToPic(depth); diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/encoder/analysis.h --- a/source/encoder/analysis.h Mon Sep 22 10:07:01 2014 +0530 +++ b/source/encoder/analysis.h Mon Sep 22 10:52:58 2014 +0530 @@ -117,17 +117,17 @@ int bInsidePicture, uint32_t partitionIndex, uint32_t minDepth); void compressInterCU_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, uint32_t depth, CU *cu, PartSize parentSize = SIZE_NONE); - void checkMerge2Nx2N_rd0_4(TComDataCU*& outBestCU, TComDataCU*& outTempCU, TComYuv*& bestPredYuv, TComYuv*& tmpPredYuv); + void checkMerge2Nx2N_rd0_4(TComDataCU*& outBestCU, TComDataCU*& outTempCU, TComYuv*& bestPredYuv, TComYuv*& tmpPredYuv, CU* cu); void checkMerge2Nx2N_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, bool *earlyDetectionSkipMode, - TComYuv*& outBestPredYuv, TComYuv*& rpcYuvReconBest); - void checkInter_rd0_4(TComDataCU* outTempCU, TComYuv* outPredYUV, PartSize partSize, bool bUseMRG = false); - void checkInter_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, PartSize partSize, bool bUseMRG = false); - void checkIntraInInter_rd0_4(TComDataCU* cu, PartSize partSize); - void checkIntraInInter_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, PartSize partSize); + TComYuv*& outBestPredYuv, TComYuv*& rpcYuvReconBest, CU* cu); + void checkInter_rd0_4(TComDataCU* outTempCU, TComYuv* outPredYUV, PartSize partSize, CU* cu, bool bUseMRG = false); + void checkInter_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, PartSize partSize, CU* cu, bool bUseMRG = false); + void checkIntraInInter_rd0_4(TComDataCU* cu, PartSize partSize, CU* cuData); + void checkIntraInInter_rd5_6(TComDataCU*& outBestCU, TComDataCU*& outTempCU, PartSize partSize, CU* cu); void checkBestMode(TComDataCU*& outBestCU, TComDataCU*& outTempCU, uint32_t depth); - void encodeIntraInInter(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* outResiYuv, TComYuv* outReconYuv); - void encodeResidue(TComDataCU* lcu, TComDataCU* cu, uint32_t absPartIdx, uint32_t depth); + void encodeIntraInInter(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* outResiYuv, TComYuv* outReconYuv, CU* cuData); + void encodeResidue(TComDataCU* lcu, TComDataCU* cu, uint32_t absPartIdx, uint32_t depth, CU* cuData); void checkDQP(TComDataCU* cu); void deriveTestModeAMP(TComDataCU* bestCU, PartSize parentSize, bool &bTestAMP_Hor, bool &bTestAMP_Ver, bool &bTestMergeAMP_Hor, bool &bTestMergeAMP_Ver); diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/encoder/predict.cpp --- a/source/encoder/predict.cpp Mon Sep 22 10:07:01 2014 +0530 +++ b/source/encoder/predict.cpp Mon Sep 22 10:52:58 2014 +0530 @@ -170,12 +170,12 @@ return false; } -void Predict::prepMotionCompensation(TComDataCU* cu, int partIdx) +void Predict::prepMotionCompensation(TComDataCU* cu, int partIdx, CU* cuData) { m_slice = cu->m_slice; cu->getPartIndexAndSize(partIdx, m_partAddr, m_width, m_height); m_cuAddr = cu->getAddr(); - m_zOrderIdxinCU = cu->getZorderIdxInCU(); + m_zOrderIdxinCU = cuData->encodeIdx * 4; m_mvField[0] = cu->getCUMvField(REF_PIC_LIST_0); m_mvField[1] = cu->getCUMvField(REF_PIC_LIST_1); diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/encoder/predict.h --- a/source/encoder/predict.h Mon Sep 22 10:07:01 2014 +0530 +++ b/source/encoder/predict.h Mon Sep 22 10:52:58 2014 +0530 @@ -88,7 +88,7 @@ void initTempBuff(int csp); // prepMotionCompensation needs to be called to prepare MC with CU-relevant data */ - void prepMotionCompensation(TComDataCU* cu, int partIdx); + void prepMotionCompensation(TComDataCU* cu, int partIdx, CU* cuData); void motionCompensation(TComDataCU* cu, TComYuv* predYuv, int picList, bool bLuma, bool bChroma); // Angular Intra diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/encoder/search.cpp --- a/source/encoder/search.cpp Mon Sep 22 10:07:01 2014 +0530 +++ b/source/encoder/search.cpp Mon Sep 22 10:52:58 2014 +0530 @@ -288,14 +288,13 @@ /* returns distortion */ uint32_t Search::xIntraCodingLumaBlk(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSize, TComYuv* fencYuv, TComYuv* predYuv, - ShortYuv* resiYuv, int16_t* reconQt, uint32_t reconQtStride, coeff_t* coeff, uint32_t& cbf) + ShortYuv* resiYuv, int16_t* reconQt, uint32_t reconQtStride, coeff_t* coeff, uint32_t& cbf, CU* cuData) { uint32_t stride = fencYuv->getStride(); pixel* fenc = fencYuv->getLumaAddr(absPartIdx); pixel* pred = predYuv->getLumaAddr(absPartIdx); int16_t* residual = resiYuv->getLumaAddr(absPartIdx); - - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getStride(); bool useTransformSkip = !!cu->getTransformSkip(absPartIdx, TEXT_LUMA); @@ -338,7 +337,7 @@ } uint32_t Search::xIntraCodingChromaBlk(TComDataCU* cu, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, int16_t* reconQt, - uint32_t reconQtStride, coeff_t* coeff, uint32_t& cbf, uint32_t chromaId, uint32_t log2TrSizeC) + uint32_t reconQtStride, coeff_t* coeff, uint32_t& cbf, uint32_t chromaId, uint32_t log2TrSizeC, CU* cuData) { TextType ttype = (TextType)chromaId; uint32_t stride = fencYuv->getCStride(); @@ -346,7 +345,7 @@ pixel* pred = predYuv->getChromaAddr(chromaId, absPartIdx); int16_t* residual = resiYuv->getChromaAddr(chromaId, absPartIdx); - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getChromaAddr(chromaId, cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getCStride(); bool useTransformSkipC = !!cu->getTransformSkip(absPartIdx, ttype); @@ -394,7 +393,7 @@ /* returns distortion. TODO reorder params */ uint32_t Search::xRecurIntraCodingQT(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, - bool bAllowRQTSplit, uint64_t& rdCost, uint32_t& rdBits, uint32_t& psyEnergy, uint32_t depthRange[2]) + bool bAllowRQTSplit, uint64_t& rdCost, uint32_t& rdBits, uint32_t& psyEnergy, uint32_t depthRange[2],CU* cuData) { uint32_t fullDepth = cu->getDepth(0) + trDepth; uint32_t log2TrSize = g_maxLog2CUSize - fullDepth; @@ -454,7 +453,7 @@ // init availability pattern uint32_t lumaPredMode = cu->getLumaIntraDir(absPartIdx); - TComPattern::initAdiPattern(cu, absPartIdx, trDepth, m_predBuf, m_refAbove, m_refLeft, m_refAboveFlt, m_refLeftFlt, lumaPredMode); + TComPattern::initAdiPattern(cu, absPartIdx, trDepth, m_predBuf, m_refAbove, m_refLeft, m_refAboveFlt, m_refLeftFlt, lumaPredMode, cuData); // get prediction signal predIntraLumaAng(lumaPredMode, pred, stride, log2TrSize); @@ -496,11 +495,11 @@ cu->setCUTransquantBypassSubParts(bIsLossLess, absPartIdx, fullDepth); // code luma block with given intra prediction mode and store Cbf - singleDistYTmp = xIntraCodingLumaBlk(cu, absPartIdx, log2TrSize, fencYuv, predYuv, resiYuv, recon, reconStride, coeff, singleCbfYTmp); + singleDistYTmp = xIntraCodingLumaBlk(cu, absPartIdx, log2TrSize, fencYuv, predYuv, resiYuv, recon, reconStride, coeff, singleCbfYTmp, cuData); singlePsyEnergyYTmp = 0; if (m_rdCost.m_psyRd) { - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; singlePsyEnergyYTmp = m_rdCost.psyCost(log2TrSize - 2, fencYuv->getLumaAddr(absPartIdx), fencYuv->getStride(), cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder), cu->m_pic->getPicYuvRec()->getStride()); } @@ -540,7 +539,7 @@ if (bestModeId == firstCheckId) { - xLoadIntraResultQT(cu, absPartIdx, log2TrSize, reconQt, reconQtStride); + xLoadIntraResultQT(cu, absPartIdx, log2TrSize, reconQt, reconQtStride, cuData); cu->setCbfSubParts(singleCbfY << trDepth, TEXT_LUMA, absPartIdx, fullDepth); m_entropyCoder->load(m_rdEntropyCoders[fullDepth][CI_TEMP_BEST]); } @@ -557,10 +556,10 @@ // code luma block with given intra prediction mode and store Cbf cu->setTransformSkipSubParts(0, TEXT_LUMA, absPartIdx, fullDepth); - singleDistY = xIntraCodingLumaBlk(cu, absPartIdx, log2TrSize, fencYuv, predYuv, resiYuv, reconQt, reconQtStride, coeffY, singleCbfY); + singleDistY = xIntraCodingLumaBlk(cu, absPartIdx, log2TrSize, fencYuv, predYuv, resiYuv, reconQt, reconQtStride, coeffY, singleCbfY, cuData); if (m_rdCost.m_psyRd) { - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; singlePsyEnergyY = m_rdCost.psyCost(log2TrSize - 2, fencYuv->getLumaAddr(absPartIdx), fencYuv->getStride(), cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder), cu->m_pic->getPicYuvRec()->getStride()); } @@ -600,7 +599,7 @@ for (uint32_t part = 0; part < 4; part++, absPartIdxSub += qPartsDiv) { splitDistY += xRecurIntraCodingQT(cu, trDepth + 1, absPartIdxSub, fencYuv, predYuv, resiYuv, bAllowRQTSplit, splitCost, splitBits, - splitPsyEnergyY, depthRange); + splitPsyEnergyY, depthRange, cuData); splitCbfY |= cu->getCbf(absPartIdxSub, TEXT_LUMA, trDepth + 1); } @@ -638,7 +637,7 @@ // set reconstruction for next intra prediction blocks uint32_t qtLayer = log2TrSize - 2; - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; int16_t* reconQt = m_qtTempShortYuv[qtLayer].getLumaAddr(absPartIdx); X265_CHECK(m_qtTempShortYuv[qtLayer].m_width == MAX_CU_SIZE, "width is not max CU size\n"); const uint32_t reconQtStride = MAX_CU_SIZE; @@ -656,7 +655,7 @@ } void Search::residualTransformQuantIntra(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, - ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2]) + ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2], CU* cuData) { uint32_t fullDepth = cu->getDepth(0) + trDepth; uint32_t log2TrSize = g_maxLog2CUSize - fullDepth; @@ -686,14 +685,14 @@ uint32_t coeffOffsetY = absPartIdx << LOG2_UNIT_SIZE * 2; coeff_t* coeff = cu->getCoeffY() + coeffOffsetY; - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getStride(); bool useTransformSkip = !!cu->getTransformSkip(absPartIdx, TEXT_LUMA); // init availability pattern - TComPattern::initAdiPattern(cu, absPartIdx, trDepth, m_predBuf, m_refAbove, m_refLeft, m_refAboveFlt, m_refLeftFlt, lumaPredMode); + TComPattern::initAdiPattern(cu, absPartIdx, trDepth, m_predBuf, m_refAbove, m_refLeft, m_refAboveFlt, m_refLeftFlt, lumaPredMode, cuData); // get prediction signal predIntraLumaAng(lumaPredMode, pred, stride, log2TrSize); @@ -742,7 +741,7 @@ for (uint32_t part = 0; part < 4; part++, absPartIdxSub += qPartsDiv) { - residualTransformQuantIntra(cu, trDepth + 1, absPartIdxSub, fencYuv, predYuv, resiYuv, reconYuv, depthRange); + residualTransformQuantIntra(cu, trDepth + 1, absPartIdxSub, fencYuv, predYuv, resiYuv, reconYuv, depthRange, cuData); splitCbfY |= cu->getCbf(absPartIdxSub, TEXT_LUMA, trDepth + 1); } @@ -778,24 +777,24 @@ } } -void Search::xLoadIntraResultQT(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSize, int16_t* reconQt, uint32_t reconQtStride) +void Search::xLoadIntraResultQT(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSize, int16_t* reconQt, uint32_t reconQtStride, CU* cuData) { // copy reconstruction int sizeIdx = log2TrSize - 2; - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getStride(); primitives.square_copy_sp[sizeIdx](reconIPred, reconIPredStride, reconQt, reconQtStride); } void Search::xLoadIntraResultChromaQT(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSizeC, uint32_t chromaId, - int16_t* reconQt, uint32_t reconQtStride) + int16_t* reconQt, uint32_t reconQtStride, CU* cuData) { X265_CHECK(chromaId == 1 || chromaId == 2, "invalid chroma id"); // copy reconstruction int sizeIdxC = log2TrSizeC - 2; - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getChromaAddr(chromaId, cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getCStride(); primitives.square_copy_sp[sizeIdxC](reconIPred, reconIPredStride, reconQt, reconQtStride); @@ -839,7 +838,7 @@ /* returns distortion */ uint32_t Search::xRecurIntraChromaCodingQT(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, - uint32_t& psyEnergy) + uint32_t& psyEnergy,CU* cuData) { uint32_t fullDepth = cu->getDepth(0) + trDepth; uint32_t trMode = cu->getTransformIdx(absPartIdx); @@ -897,7 +896,7 @@ pixel* pred = predYuv->getChromaAddr(chromaId, absPartIdxC); // init availability pattern - TComPattern::initAdiPatternChroma(cu, absPartIdxC, trDepthC, m_predBuf, chromaId); + TComPattern::initAdiPatternChroma(cu, absPartIdxC, trDepthC, m_predBuf, chromaId, cuData); pixel* chromaPred = TComPattern::getAdiChromaBuf(chromaId, tuSize, m_predBuf); uint32_t chromaPredMode = cu->getChromaIntraDir(absPartIdxC); @@ -941,7 +940,7 @@ cu->setTransformSkipPartRange(chromaModeId, (TextType)chromaId, absPartIdxC, tuIterator.absPartIdxStep); - singleDistCTmp = xIntraCodingChromaBlk(cu, absPartIdxC, fencYuv, predYuv, resiYuv, recon, reconStride, coeff, singleCbfCTmp, chromaId, log2TrSizeC); + singleDistCTmp = xIntraCodingChromaBlk(cu, absPartIdxC, fencYuv, predYuv, resiYuv, recon, reconStride, coeff, singleCbfCTmp, chromaId, log2TrSizeC, cuData); cu->setCbfPartRange(singleCbfCTmp << trDepth, (TextType)chromaId, absPartIdxC, tuIterator.absPartIdxStep); if (chromaModeId == 1 && !singleCbfCTmp) @@ -952,7 +951,7 @@ uint32_t bitsTmp = singleCbfCTmp ? xGetIntraBitsChroma(cu, absPartIdxC, log2TrSizeC, chromaId, coeff) : 0; if (m_rdCost.m_psyRd) { - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdxC; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdxC; singlePsyEnergyTmp = m_rdCost.psyCost(log2TrSizeC - 2, fencYuv->getChromaAddr(chromaId, absPartIdxC), fencYuv->getCStride(), cu->m_pic->getPicYuvRec()->getChromaAddr(chromaId, cu->getAddr(), zorder), cu->m_pic->getPicYuvRec()->getCStride()); singleCostTmp = m_rdCost.calcPsyRdCost(singleDistCTmp, bitsTmp, singlePsyEnergyTmp); @@ -977,7 +976,7 @@ if (bestModeId == firstCheckId) { - xLoadIntraResultChromaQT(cu, absPartIdxC, log2TrSizeC, chromaId, reconQt, reconQtStride); + xLoadIntraResultChromaQT(cu, absPartIdxC, log2TrSizeC, chromaId, reconQt, reconQtStride, cuData); cu->setCbfPartRange(singleCbfC << trDepth, (TextType)chromaId, absPartIdxC, tuIterator.absPartIdxStep); m_entropyCoder->load(m_rdEntropyCoders[fullDepth][CI_TEMP_BEST]); } @@ -998,10 +997,10 @@ else { cu->setTransformSkipPartRange(0, (TextType)chromaId, absPartIdxC, tuIterator.absPartIdxStep); - outDist += xIntraCodingChromaBlk(cu, absPartIdxC, fencYuv, predYuv, resiYuv, reconQt, reconQtStride, coeffC, singleCbfC, chromaId, log2TrSizeC); + outDist += xIntraCodingChromaBlk(cu, absPartIdxC, fencYuv, predYuv, resiYuv, reconQt, reconQtStride, coeffC, singleCbfC, chromaId, log2TrSizeC, cuData); if (m_rdCost.m_psyRd) { - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdxC; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdxC; singlePsyEnergyTmp = m_rdCost.psyCost(log2TrSizeC - 2, fencYuv->getChromaAddr(chromaId, absPartIdxC), fencYuv->getCStride(), cu->m_pic->getPicYuvRec()->getChromaAddr(chromaId, cu->getAddr(), zorder), cu->m_pic->getPicYuvRec()->getCStride()); } @@ -1026,7 +1025,7 @@ for (uint32_t part = 0; part < 4; part++, absPartIdxSub += qPartsDiv) { uint32_t psyEnergyTemp = 0; - outDist += xRecurIntraChromaCodingQT(cu, trDepth + 1, absPartIdxSub, fencYuv, predYuv, resiYuv, psyEnergyTemp); + outDist += xRecurIntraChromaCodingQT(cu, trDepth + 1, absPartIdxSub, fencYuv, predYuv, resiYuv, psyEnergyTemp, cuData); splitPsyEnergy += psyEnergyTemp; splitCbfU |= cu->getCbf(absPartIdxSub, TEXT_CHROMA_U, trDepth + 1); splitCbfV |= cu->getCbf(absPartIdxSub, TEXT_CHROMA_V, trDepth + 1); @@ -1090,7 +1089,7 @@ } void Search::residualQTIntraChroma(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, - TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv) + TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, CU* cuData) { uint32_t fullDepth = cu->getDepth(0) + trDepth; uint32_t trMode = cu->getTransformIdx(absPartIdx); @@ -1134,7 +1133,7 @@ pixel* recon = reconYuv->getChromaAddr(chromaId, absPartIdxC); uint32_t coeffOffsetC = absPartIdxC << (LOG2_UNIT_SIZE * 2 - (hChromaShift + vChromaShift)); coeff_t* coeff = cu->getCoeff(ttype) + coeffOffsetC; - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdxC; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdxC; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getChromaAddr(chromaId, cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getCStride(); @@ -1148,7 +1147,7 @@ chromaPredMode = cu->getLumaIntraDir((m_csp == X265_CSP_I444) ? absPartIdxC : 0); chromaPredMode = (m_csp == X265_CSP_I422) ? g_chroma422IntraAngleMappingTable[chromaPredMode] : chromaPredMode; // init availability pattern - TComPattern::initAdiPatternChroma(cu, absPartIdxC, trDepthC, m_predBuf, chromaId); + TComPattern::initAdiPatternChroma(cu, absPartIdxC, trDepthC, m_predBuf, chromaId, cuData); pixel* chromaPred = TComPattern::getAdiChromaBuf(chromaId, tuSize, m_predBuf); // get prediction signal @@ -1196,7 +1195,7 @@ uint32_t absPartIdxSub = absPartIdx; for (uint32_t part = 0; part < 4; part++, absPartIdxSub += qPartsDiv) { - residualQTIntraChroma(cu, trDepth + 1, absPartIdxSub, fencYuv, predYuv, resiYuv, reconYuv); + residualQTIntraChroma(cu, trDepth + 1, absPartIdxSub, fencYuv, predYuv, resiYuv, reconYuv, cuData); splitCbfU |= cu->getCbf(absPartIdxSub, TEXT_CHROMA_U, trDepth + 1); splitCbfV |= cu->getCbf(absPartIdxSub, TEXT_CHROMA_V, trDepth + 1); } @@ -1209,7 +1208,7 @@ } } -void Search::estIntraPredQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2]) +void Search::estIntraPredQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2], CU* cuData) { uint32_t depth = cu->getDepth(0); uint32_t initTrDepth = cu->getPartitionSize(0) == SIZE_2Nx2N ? 0 : 1; @@ -1226,7 +1225,7 @@ for (uint32_t pu = 0; pu < numPU; pu++, partOffset += qNumParts) { // Reference sample smoothing - TComPattern::initAdiPattern(cu, partOffset, initTrDepth, m_predBuf, m_refAbove, m_refLeft, m_refAboveFlt, m_refLeftFlt, ALL_IDX); + TComPattern::initAdiPattern(cu, partOffset, initTrDepth, m_predBuf, m_refAbove, m_refLeft, m_refAboveFlt, m_refLeftFlt, ALL_IDX, cuData); // determine set of modes to be tested (using prediction signal only) pixel* fenc = fencYuv->getLumaAddr(partOffset); @@ -1346,7 +1345,7 @@ cu->setLumaIntraDirSubParts(rdModeList[i], partOffset, depth + initTrDepth); cost = bits = 0; uint32_t psyEnergy = 0; - xRecurIntraCodingQT(cu, initTrDepth, partOffset, fencYuv, predYuv, resiYuv, false, cost, bits, psyEnergy, depthRange); + xRecurIntraCodingQT(cu, initTrDepth, partOffset, fencYuv, predYuv, resiYuv, false, cost, bits, psyEnergy, depthRange, cuData); COPY2_IF_LT(bcost, cost, bmode, rdModeList[i]); } @@ -1356,14 +1355,14 @@ uint32_t psyEnergy = 0; // update distortion (rate and r-d costs are determined later) - cu->m_totalDistortion += xRecurIntraCodingQT(cu, initTrDepth, partOffset, fencYuv, predYuv, resiYuv, true, cost, bits, psyEnergy, depthRange); + cu->m_totalDistortion += xRecurIntraCodingQT(cu, initTrDepth, partOffset, fencYuv, predYuv, resiYuv, true, cost, bits, psyEnergy, depthRange, cuData); xSetIntraResultQT(cu, initTrDepth, partOffset, reconYuv); // set reconstruction for next intra prediction blocks if (pu != numPU - 1) { - uint32_t zorder = cu->getZorderIdxInCU() + partOffset; + uint32_t zorder = cuData->encodeIdx * 4 + partOffset; pixel* dst = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder); pixel* src = reconYuv->getLumaAddr(partOffset); primitives.square_copy_pp[log2TrSize - 2](dst, dststride, src, srcstride); @@ -1387,7 +1386,7 @@ x265_emms(); } -void Search::sharedEstIntraPredQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2], uint8_t* sharedModes) +void Search::sharedEstIntraPredQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2], uint8_t* sharedModes, CU* cuData) { uint32_t depth = cu->getDepth(0); uint32_t initTrDepth = cu->getPartitionSize(0) == SIZE_2Nx2N ? 0 : 1; @@ -1411,12 +1410,12 @@ uint32_t psyEnergy = 0; // update overall distortion (rate and r-d costs are determined later) - cu->m_totalDistortion += xRecurIntraCodingQT(cu, initTrDepth, partOffset, fencYuv, predYuv, resiYuv, true, puCost, bits, psyEnergy, depthRange); + cu->m_totalDistortion += xRecurIntraCodingQT(cu, initTrDepth, partOffset, fencYuv, predYuv, resiYuv, true, puCost, bits, psyEnergy, depthRange, cuData); xSetIntraResultQT(cu, initTrDepth, partOffset, reconYuv); if (pu != numPU - 1) { - uint32_t zorder = cu->getZorderIdxInCU() + partOffset; + uint32_t zorder = cuData->encodeIdx * 4 + partOffset; pixel* dst = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder); pixel* src = reconYuv->getLumaAddr(partOffset); primitives.luma_copy_pp[log2TrSize - 2](dst, dststride, src, srcstride); @@ -1443,7 +1442,7 @@ m_entropyCoder->load(m_rdEntropyCoders[depth][CI_CURR_BEST]); } -void Search::getBestIntraModeChroma(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv) +void Search::getBestIntraModeChroma(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, CU* cuData) { uint32_t bestMode = 0; uint64_t bestCost = MAX_INT64; @@ -1463,8 +1462,8 @@ int32_t sizeIdx = log2TrSizeC - 2; pixelcmp_t sa8d = primitives.sa8d[sizeIdx]; - TComPattern::initAdiPatternChroma(cu, 0, 0, m_predBuf, 1); - TComPattern::initAdiPatternChroma(cu, 0, 0, m_predBuf, 2); + TComPattern::initAdiPatternChroma(cu, 0, 0, m_predBuf, 1, cuData); + TComPattern::initAdiPatternChroma(cu, 0, 0, m_predBuf, 2, cuData); cu->getAllowedChromaDir(0, modeList); // check chroma modes @@ -1496,7 +1495,7 @@ cu->setChromIntraDirSubParts(bestMode, 0, cu->getDepth(0)); } -void Search::estIntraPredChromaQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv) +void Search::estIntraPredChromaQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv,CU* cuData) { uint32_t depth = cu->getDepth(0); uint32_t initTrDepth = (cu->getPartitionSize(0) != SIZE_2Nx2N) && (cu->getChromaFormat() == X265_CSP_I444 ? 1 : 0); @@ -1532,7 +1531,7 @@ cu->setChromIntraDirSubParts(modeList[mode], absPartIdxC, depth + initTrDepth); uint32_t psyEnergy = 0; - uint32_t dist = xRecurIntraChromaCodingQT(cu, initTrDepth, absPartIdxC, fencYuv, predYuv, resiYuv, psyEnergy); + uint32_t dist = xRecurIntraChromaCodingQT(cu, initTrDepth, absPartIdxC, fencYuv, predYuv, resiYuv, psyEnergy, cuData); if (cu->m_slice->m_pps->bTransformSkipEnabled) m_entropyCoder->load(m_rdEntropyCoders[depth][CI_CURR_BEST]); @@ -1559,7 +1558,7 @@ if (!tuIterator.isLastSection()) { - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdxC; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdxC; uint32_t dststride = cu->m_pic->getPicYuvRec()->getCStride(); uint32_t srcstride = reconYuv->getCStride(); pixel *src, *dst; @@ -1605,7 +1604,7 @@ } /* estimation of best merge coding */ -uint32_t Search::mergeEstimation(TComDataCU* cu, int puIdx, MergeData& m) +uint32_t Search::mergeEstimation(TComDataCU* cu, int puIdx, MergeData& m, CU* cuData) { X265_CHECK(cu->getPartitionSize(0) != SIZE_2Nx2N, "merge tested on non-2Nx2N partition\n"); @@ -1639,7 +1638,7 @@ cu->getCUMvField(REF_PIC_LIST_1)->m_mv[m.absPartIdx] = m.mvFieldNeighbours[mergeCand][1].mv; cu->getCUMvField(REF_PIC_LIST_1)->m_refIdx[m.absPartIdx] = (char)m.mvFieldNeighbours[mergeCand][1].refIdx; - prepMotionCompensation(cu, puIdx); + prepMotionCompensation(cu, puIdx, cuData); motionCompensation(cu, &m_predTempYuv, REF_PIC_LIST_X, true, false); uint32_t costCand = m_me.bufSATD(m_predTempYuv.getLumaAddr(m.absPartIdx), m_predTempYuv.getStride()); uint32_t bitsCand = getTUBits(mergeCand, m.maxNumMergeCand); @@ -1661,7 +1660,7 @@ /* search of the best candidate for inter prediction * returns true if predYuv was filled with a motion compensated prediction */ -bool Search::predInterSearch(TComDataCU* cu, TComYuv* predYuv, bool bMergeOnly, bool bChroma) +bool Search::predInterSearch(TComDataCU* cu, TComYuv* predYuv, bool bMergeOnly, bool bChroma, CU* cuData) { MV amvpCand[2][MAX_NUM_REF][AMVP_NUM_CANDS]; MV mvc[(MD_ABOVE_LEFT + 1) * 2 + 1]; @@ -1690,7 +1689,7 @@ int roiWidth, roiHeight; cu->getPartIndexAndSize(partIdx, partAddr, roiWidth, roiHeight); - pixel* pu = fenc->getLumaAddr(cu->getAddr(), cu->getZorderIdxInCU() + partAddr); + pixel* pu = fenc->getLumaAddr(cu->getAddr(), cuData->encodeIdx * 4 + partAddr); m_me.setSourcePU(pu - fenc->getLumaAddr(), roiWidth, roiHeight); uint32_t mrgCost = MAX_UINT; @@ -1701,7 +1700,7 @@ merge.absPartIdx = partAddr; merge.width = roiWidth; merge.height = roiHeight; - mrgCost = mergeEstimation(cu, partIdx, merge); + mrgCost = mergeEstimation(cu, partIdx, merge, cuData); if (bMergeOnly && cu->getLog2CUSize(0) > 3) { @@ -1719,7 +1718,7 @@ cu->getCUMvField(REF_PIC_LIST_1)->setAllMvField(merge.mvField[1], partSize, partAddr, 0, partIdx); totalmebits += merge.bits; - prepMotionCompensation(cu, partIdx); + prepMotionCompensation(cu, partIdx, cuData); motionCompensation(cu, predYuv, REF_PIC_LIST_X, true, bChroma); continue; } @@ -1761,7 +1760,7 @@ cu->clipMv(mvCand); - prepMotionCompensation(cu, partIdx); + prepMotionCompensation(cu, partIdx, cuData); predInterLumaBlk(slice->m_refPicList[l][ref]->getPicYuvRec(), &m_predTempYuv, &mvCand); uint32_t cost = m_me.bufSAD(m_predTempYuv.getLumaAddr(partAddr), m_predTempYuv.getStride()); cost = (uint32_t)m_rdCost.calcRdSADCost(cost, MVP_IDX_BITS); @@ -1809,7 +1808,7 @@ TComPicYuv *refPic0 = slice->m_refPicList[0][list[0].ref]->getPicYuvRec(); TComPicYuv *refPic1 = slice->m_refPicList[1][list[1].ref]->getPicYuvRec(); - prepMotionCompensation(cu, partIdx); + prepMotionCompensation(cu, partIdx, cuData); predInterLumaBlk(refPic0, &m_predYuv[0], &list[0].mv); predInterLumaBlk(refPic1, &m_predYuv[1], &list[1].mv); @@ -1935,7 +1934,7 @@ totalmebits += list[1].bits; } - prepMotionCompensation(cu, partIdx); + prepMotionCompensation(cu, partIdx, cuData); motionCompensation(cu, predYuv, REF_PIC_LIST_X, true, bChroma); } @@ -2095,7 +2094,7 @@ /** encode residual and calculate rate-distortion for a CU block */ void Search::encodeResAndCalcRdInterCU(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* outResiYuv, - ShortYuv* outBestResiYuv, TComYuv* outReconYuv) + ShortYuv* outBestResiYuv, TComYuv* outReconYuv, CU* cuData) { X265_CHECK(!cu->isIntra(0), "intra CU not expected\n"); @@ -2138,7 +2137,7 @@ uint64_t cost = 0; uint32_t zeroDistortion = 0; uint32_t bits = 0; - uint32_t distortion = xEstimateResidualQT(cu, 0, fencYuv, predYuv, outResiYuv, depth, cost, bits, &zeroDistortion, tuDepthRange); + uint32_t distortion = xEstimateResidualQT(cu, 0, fencYuv, predYuv, outResiYuv, depth, cost, bits, &zeroDistortion, tuDepthRange, cuData); m_entropyCoder->resetBits(); m_entropyCoder->codeQtRootCbfZero(); @@ -2208,7 +2207,7 @@ m_entropyCoder->load(m_rdEntropyCoders[depth][CI_CURR_BEST]); uint64_t cost = 0; uint32_t bits = 0; - xEstimateResidualQT(cu, 0, fencYuv, predYuv, outResiYuv, depth, cost, bits, NULL, tuDepthRange); + xEstimateResidualQT(cu, 0, fencYuv, predYuv, outResiYuv, depth, cost, bits, NULL, tuDepthRange, cuData); xSetResidualQTData(cu, 0, NULL, depth, false); m_entropyCoder->store(m_rdEntropyCoders[depth][CI_TEMP_BEST]); } @@ -2243,7 +2242,7 @@ cu->clearCbf(0, depth); } -void Search::generateCoeffRecon(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv) +void Search::generateCoeffRecon(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, CU* cuData) { m_quant.setQPforQuant(cu); @@ -2252,7 +2251,7 @@ if (cu->getPredictionMode(0) == MODE_INTER) { - residualTransformQuantInter(cu, 0, fencYuv, resiYuv, cu->getDepth(0), tuDepthRange); + residualTransformQuantInter(cu, 0, fencYuv, resiYuv, cu->getDepth(0), tuDepthRange, cuData); if (cu->getQtRootCbf(0)) reconYuv->addClip(predYuv, resiYuv, cu->getLog2CUSize(0)); else @@ -2265,14 +2264,14 @@ else if (cu->getPredictionMode(0) == MODE_INTRA) { uint32_t initTrDepth = cu->getPartitionSize(0) == SIZE_2Nx2N ? 0 : 1; - residualTransformQuantIntra(cu, initTrDepth, 0, fencYuv, predYuv, resiYuv, reconYuv, tuDepthRange); - getBestIntraModeChroma(cu, fencYuv, predYuv); - residualQTIntraChroma(cu, 0, 0, fencYuv, predYuv, resiYuv, reconYuv); + residualTransformQuantIntra(cu, initTrDepth, 0, fencYuv, predYuv, resiYuv, reconYuv, tuDepthRange, cuData); + getBestIntraModeChroma(cu, fencYuv, predYuv, cuData); + residualQTIntraChroma(cu, 0, 0, fencYuv, predYuv, resiYuv, reconYuv, cuData); } } void Search::residualTransformQuantInter(TComDataCU* cu, uint32_t absPartIdx, TComYuv* fencYuv, ShortYuv* resiYuv, - const uint32_t depth, uint32_t depthRange[2]) + const uint32_t depth, uint32_t depthRange[2], CU* cuData) { X265_CHECK(cu->getDepth(0) == cu->getDepth(absPartIdx), "invalid depth\n"); const uint32_t trMode = depth - cu->getDepth(0); @@ -2382,7 +2381,9 @@ { const uint32_t qPartNumSubdiv = NUM_CU_PARTITIONS >> ((depth + 1) << 1); for (uint32_t i = 0; i < 4; ++i) - residualTransformQuantInter(cu, absPartIdx + i * qPartNumSubdiv, fencYuv, resiYuv, depth + 1, depthRange); + { + residualTransformQuantInter(cu, absPartIdx + i * qPartNumSubdiv, fencYuv, resiYuv, depth + 1, depthRange, cuData); + } uint32_t ycbf = 0; uint32_t ucbf = 0; @@ -2404,7 +2405,7 @@ } uint32_t Search::xEstimateResidualQT(TComDataCU* cu, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, - uint32_t depth, uint64_t& rdCost, uint32_t& outBits, uint32_t* outZeroDist, uint32_t depthRange[2]) + uint32_t depth, uint64_t& rdCost, uint32_t& outBits, uint32_t* outZeroDist, uint32_t depthRange[2], CU* cuData) { X265_CHECK(cu->getDepth(0) == cu->getDepth(absPartIdx), "depth not matching\n"); const uint32_t trMode = depth - cu->getDepth(0); @@ -2571,7 +2572,7 @@ if (m_rdCost.m_psyRd) { pixel* pred = predYuv->getLumaAddr(absPartIdx); - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getStride(); uint32_t stride = fencYuv->getStride(); @@ -2670,7 +2671,7 @@ if (m_rdCost.m_psyRd) { pixel* pred = predYuv->getCbAddr(absPartIdxC); - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdxC; + uint32_t zorder = cuData->encodeIdx * 4+ absPartIdxC; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getCbAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getCStride(); uint32_t stride = fencYuv->getCStride(); @@ -2752,7 +2753,7 @@ if (m_rdCost.m_psyRd) { pixel* pred = predYuv->getCrAddr(absPartIdxC); - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdxC; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdxC; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getCrAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getCStride(); uint32_t stride = fencYuv->getCStride(); @@ -2858,7 +2859,7 @@ if (m_rdCost.m_psyRd) { pixel* pred = predYuv->getLumaAddr(absPartIdx); - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdx; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdx; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getLumaAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getStride(); uint32_t stride = fencYuv->getStride(); @@ -2946,7 +2947,7 @@ if (m_rdCost.m_psyRd) { pixel* pred = predYuv->getCbAddr(absPartIdxC); - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdxC; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdxC; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getCbAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getCStride(); uint32_t stride = fencYuv->getCStride(); @@ -2987,7 +2988,7 @@ if (m_rdCost.m_psyRd) { pixel* pred = predYuv->getCrAddr(absPartIdxC); - uint32_t zorder = cu->getZorderIdxInCU() + absPartIdxC; + uint32_t zorder = cuData->encodeIdx * 4 + absPartIdxC; pixel* reconIPred = cu->m_pic->getPicYuvRec()->getCrAddr(cu->getAddr(), zorder); uint32_t reconIPredStride = cu->m_pic->getPicYuvRec()->getCStride(); uint32_t stride = fencYuv->getCStride(); @@ -3130,7 +3131,7 @@ for (uint32_t i = 0; i < 4; ++i) { cu->m_psyEnergy = 0; - subdivDist += xEstimateResidualQT(cu, absPartIdx + i * qPartNumSubdiv, fencYuv, predYuv, resiYuv, depth + 1, subDivCost, subdivBits, bCheckFull ? NULL : outZeroDist, depthRange); + subdivDist += xEstimateResidualQT(cu, absPartIdx + i * qPartNumSubdiv, fencYuv, predYuv, resiYuv, depth + 1, subDivCost, subdivBits, bCheckFull ? NULL : outZeroDist, depthRange, cuData); subDivPsyEnergy += cu->m_psyEnergy; } diff -r 2c2309bbc7ca -r 4e2c1f5c7793 source/encoder/search.h --- a/source/encoder/search.h Mon Sep 22 10:07:01 2014 +0530 +++ b/source/encoder/search.h Mon Sep 22 10:52:58 2014 +0530 @@ -79,19 +79,19 @@ bool initSearch(x265_param *param, ScalingList& scalingList); - void estIntraPredQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2]); - void sharedEstIntraPredQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2], uint8_t* sharedModes); - void estIntraPredChromaQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv); + void estIntraPredQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2], CU* cuData); + void sharedEstIntraPredQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2], uint8_t* sharedModes, CU* cuData); + void estIntraPredChromaQT(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, CU* cuData); // estimation inter prediction (non-skip) - bool predInterSearch(TComDataCU* cu, TComYuv* predYuv, bool bMergeOnly, bool bChroma); + bool predInterSearch(TComDataCU* cu, TComYuv* predYuv, bool bMergeOnly, bool bChroma, CU* cuData); // encode residual and compute rd-cost for inter mode - void encodeResAndCalcRdInterCU(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, ShortYuv* bestResiYuv, TComYuv* reconYuv); + void encodeResAndCalcRdInterCU(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, ShortYuv* bestResiYuv, TComYuv* reconYuv, CU* cuData); void encodeResAndCalcRdSkipCU(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, TComYuv* reconYuv); - void generateCoeffRecon(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv); - void residualTransformQuantInter(TComDataCU* cu, uint32_t absPartIdx, TComYuv* fencYuv, ShortYuv* resiYuv, uint32_t depth, uint32_t depthRange[2]); + void generateCoeffRecon(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, CU* cuData); + void residualTransformQuantInter(TComDataCU* cu, uint32_t absPartIdx, TComYuv* fencYuv, ShortYuv* resiYuv, uint32_t depth, uint32_t depthRange[2], CU* cuData); uint32_t getIntraModeBits(TComDataCU* cu, uint32_t mode, uint32_t partOffset, uint32_t depth); uint32_t getIntraRemModeBits(TComDataCU * cu, uint32_t partOffset, uint32_t depth, uint32_t preds[3], uint64_t& mpms); @@ -110,31 +110,31 @@ uint32_t xGetIntraBitsLuma(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, uint32_t log2TrSize, coeff_t* coeff, uint32_t depthRange[2]); uint32_t xGetIntraBitsChroma(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSizeC, uint32_t chromaId, coeff_t* coeff); uint32_t xIntraCodingLumaBlk(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSize, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, - int16_t* reconQt, uint32_t reconQtStride, coeff_t* coeff, uint32_t& cbf); + int16_t* reconQt, uint32_t reconQtStride, coeff_t* coeff, uint32_t& cbf, CU* cuData); uint32_t xEstimateResidualQT(TComDataCU* cu, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, uint32_t depth, - uint64_t &rdCost, uint32_t &outBits, uint32_t *zeroDist, uint32_t tuDepthRange[2]); + uint64_t &rdCost, uint32_t &outBits, uint32_t *zeroDist, uint32_t tuDepthRange[2], CU* cuData); uint32_t xRecurIntraCodingQT(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, - ShortYuv* resiYuv, bool bAllowRQTSplit, uint64_t& dRDCost, uint32_t& puBits, uint32_t& psyEnergy, uint32_t depthRange[2]); + ShortYuv* resiYuv, bool bAllowRQTSplit, uint64_t& dRDCost, uint32_t& puBits, uint32_t& psyEnergy, uint32_t depthRange[2], CU* cuData); uint32_t xRecurIntraChromaCodingQT(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, - uint32_t& psyEnergy); + uint32_t& psyEnergy, CU* cuData); uint32_t xIntraCodingChromaBlk(TComDataCU* cu, uint32_t absPartIdx, TComYuv* fencYuv, TComYuv* predYuv, ShortYuv* resiYuv, - int16_t* reconQt, uint32_t reconQtStride, coeff_t* coeff, uint32_t& cbf, uint32_t chromaId, uint32_t log2TrSizeC); + int16_t* reconQt, uint32_t reconQtStride, coeff_t* coeff, uint32_t& cbf, uint32_t chromaId, uint32_t log2TrSizeC, CU* cuData); void residualTransformQuantIntra(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, TComYuv* fencYuv, - TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2]); + TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, uint32_t depthRange[2], CU* cuData); void residualQTIntraChroma(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, TComYuv* fencYuv, - TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv); + TComYuv* predYuv, ShortYuv* resiYuv, TComYuv* reconYuv, CU* cuData); void xEncodeResidualQT(TComDataCU* cu, uint32_t absPartIdx, uint32_t depth, bool bSubdivAndCbf, TextType ttype, uint32_t depthRange[2]); void xSetIntraResultChromaQT(TComDataCU* cu, uint32_t trDepth, uint32_t absPartIdx, TComYuv* reconYuv); - void xLoadIntraResultQT(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSize, int16_t* reconQt, uint32_t reconQtStride); - void xLoadIntraResultChromaQT(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSizeC, uint32_t chromaId, int16_t* reconQt, uint32_t reconQtStride); + void xLoadIntraResultQT(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSize, int16_t* reconQt, uint32_t reconQtStride, CU* cuData); + void xLoadIntraResultChromaQT(TComDataCU* cu, uint32_t absPartIdx, uint32_t log2TrSizeC, uint32_t chromaId, int16_t* reconQt, uint32_t reconQtStride, CU* cuData); void offsetSubTUCBFs(TComDataCU* cu, TextType ttype, uint32_t trDepth, uint32_t absPartIdx); @@ -171,13 +171,13 @@ void checkBestMVP(MV* amvpCand, MV cMv, MV& mvPred, int& mvpIdx, uint32_t& outBits, uint32_t& outCost); void getBlkBits(PartSize cuMode, bool bPSlice, int partIdx, uint32_t lastMode, uint32_t blockBit[3]); uint32_t getInterSymbolBits(TComDataCU* cu, uint32_t depthRange[2]); - uint32_t mergeEstimation(TComDataCU* cu, int partIdx, MergeData& m); + uint32_t mergeEstimation(TComDataCU* cu, int partIdx, MergeData& m, CU* cuData); void setSearchRange(TComDataCU* cu, MV mvp, int merange, MV& mvmin, MV& mvmax); /* intra helper functions */ enum { MAX_RD_INTRA_MODES = 16 }; void updateCandList(uint32_t mode, uint64_t cost, int maxCandCount, uint32_t* candModeList, uint64_t* candCostList); - void getBestIntraModeChroma(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv); + void getBestIntraModeChroma(TComDataCU* cu, TComYuv* fencYuv, TComYuv* predYuv, CU* cuData); }; } _______________________________________________ x265-devel mailing list x265-devel@videolan.org https://mailman.videolan.org/listinfo/x265-devel