[x265] cleanup CUData::m_skipFlag
Deepthi Nandakumar
deepthi at multicorewareinc.com
Mon Nov 3 09:17:52 CET 2014
Thanks - looks good.
On Mon, Nov 3, 2014 at 1:35 PM, Satoshi Nakagawa <nakagawa424 at oki.com>
wrote:
> # HG changeset patch
> # User Satoshi Nakagawa <nakagawa424 at oki.com>
> # Date 1415001734 -32400
> # Mon Nov 03 17:02:14 2014 +0900
> # Node ID ef411645295a51cf276e7830d9a98ffe50d85f63
> # Parent eebb372eec893efc50e66806fcc19b1c1bd89683
> cleanup CUData::m_skipFlag
>
> diff -r eebb372eec89 -r ef411645295a source/common/cudata.cpp
> --- a/source/common/cudata.cpp Fri Oct 31 16:29:20 2014 -0500
> +++ b/source/common/cudata.cpp Mon Nov 03 17:02:14 2014 +0900
> @@ -230,13 +230,12 @@
> m_qp = (char*)charBuf; charBuf += m_numPartitions;
> m_log2CUSize = charBuf; charBuf += m_numPartitions;
> m_partSize = charBuf; charBuf += m_numPartitions;
> - m_predMode = charBuf; charBuf += m_numPartitions;
> m_lumaIntraDir = charBuf; charBuf += m_numPartitions;
> m_tqBypass = charBuf; charBuf += m_numPartitions;
> m_refIdx[0] = (char*)charBuf; charBuf += m_numPartitions;
> m_refIdx[1] = (char*)charBuf; charBuf += m_numPartitions;
> m_cuDepth = charBuf; charBuf += m_numPartitions;
> - m_skipFlag = charBuf; charBuf += m_numPartitions; /* the
> order up to here is important in initCTU() and initSubCU() */
> + m_predMode = charBuf; charBuf += m_numPartitions; /* the
> order up to here is important in initCTU() and initSubCU() */
> m_mergeFlag = charBuf; charBuf += m_numPartitions;
> m_interDir = charBuf; charBuf += m_numPartitions;
> m_mvpIdx[0] = charBuf; charBuf += m_numPartitions;
> @@ -279,7 +278,6 @@
> m_partSet((uint8_t*)m_qp, (uint8_t)qp);
> m_partSet(m_log2CUSize, (uint8_t)g_maxLog2CUSize);
> m_partSet(m_partSize, (uint8_t)SIZE_NONE);
> - m_partSet(m_predMode, (uint8_t)MODE_NONE);
> m_partSet(m_lumaIntraDir, (uint8_t)DC_IDX);
> m_partSet(m_tqBypass,
> (uint8_t)frame.m_encData->m_param->bLossless);
> if (m_slice->m_sliceType != I_SLICE)
> @@ -291,7 +289,7 @@
> X265_CHECK(!(frame.m_encData->m_param->bLossless &&
> !m_slice->m_pps->bTransquantBypassEnabled), "lossless enabled without
> TQbypass in PPS\n");
>
> /* initialize the remaining CU data in one memset */
> - memset(m_cuDepth, 0, (BytesPerPartition - 8) * m_numPartitions);
> + memset(m_cuDepth, 0, (BytesPerPartition - 7) * m_numPartitions);
>
> uint32_t widthInCU = m_slice->m_sps->numCuInWidth;
> m_cuLeft = (m_cuAddr % widthInCU) ? m_encData->getPicCTU(m_cuAddr -
> 1) : NULL;
> @@ -319,7 +317,6 @@
> m_partSet((uint8_t*)m_qp, (uint8_t)ctu.m_qp[0]);
> m_partSet(m_log2CUSize, (uint8_t)cuGeom.log2CUSize);
> m_partSet(m_partSize, (uint8_t)SIZE_NONE);
> - m_partSet(m_predMode, (uint8_t)MODE_NONE);
> m_partSet(m_lumaIntraDir, (uint8_t)DC_IDX);
> m_partSet(m_tqBypass, (uint8_t)m_encData->m_param->bLossless);
> m_partSet((uint8_t*)m_refIdx[0], (uint8_t)REF_NOT_VALID);
> @@ -327,7 +324,7 @@
> m_partSet(m_cuDepth, (uint8_t)cuGeom.depth);
>
> /* initialize the remaining CU data in one memset */
> - memset(m_skipFlag, 0, (BytesPerPartition - 9) * m_numPartitions);
> + memset(m_predMode, 0, (BytesPerPartition - 8) * m_numPartitions);
> }
>
> /* Copy the results of a sub-part (split) CU to the parent CU */
> @@ -340,13 +337,12 @@
> m_subPartCopy((uint8_t*)m_qp + offset, (uint8_t*)subCU.m_qp);
> m_subPartCopy(m_log2CUSize + offset, subCU.m_log2CUSize);
> m_subPartCopy(m_partSize + offset, subCU.m_partSize);
> - m_subPartCopy(m_predMode + offset, subCU.m_predMode);
> m_subPartCopy(m_lumaIntraDir + offset, subCU.m_lumaIntraDir);
> m_subPartCopy(m_tqBypass + offset, subCU.m_tqBypass);
> m_subPartCopy((uint8_t*)m_refIdx[0] + offset,
> (uint8_t*)subCU.m_refIdx[0]);
> m_subPartCopy((uint8_t*)m_refIdx[1] + offset,
> (uint8_t*)subCU.m_refIdx[1]);
> m_subPartCopy(m_cuDepth + offset, subCU.m_cuDepth);
> - m_subPartCopy(m_skipFlag + offset, subCU.m_skipFlag);
> + m_subPartCopy(m_predMode + offset, subCU.m_predMode);
> m_subPartCopy(m_mergeFlag + offset, subCU.m_mergeFlag);
> m_subPartCopy(m_interDir + offset, subCU.m_interDir);
> m_subPartCopy(m_mvpIdx[0] + offset, subCU.m_mvpIdx[0]);
> @@ -410,7 +406,7 @@
> m_partSet(m_tqBypass, true);
>
> /* clear residual coding flags */
> - m_partSet(m_skipFlag, 0);
> + m_partSet(m_predMode, cu.m_predMode[0] & (MODE_INTRA | MODE_INTER));
> m_partSet(m_tuDepth, 0);
> m_partSet(m_transformSkip[0], 0);
> m_partSet(m_transformSkip[1], 0);
> @@ -428,13 +424,12 @@
> m_partCopy((uint8_t*)ctu.m_qp + m_absIdxInCTU, (uint8_t*)m_qp);
> m_partCopy(ctu.m_log2CUSize + m_absIdxInCTU, m_log2CUSize);
> m_partCopy(ctu.m_partSize + m_absIdxInCTU, m_partSize);
> - m_partCopy(ctu.m_predMode + m_absIdxInCTU, m_predMode);
> m_partCopy(ctu.m_lumaIntraDir + m_absIdxInCTU, m_lumaIntraDir);
> m_partCopy(ctu.m_tqBypass + m_absIdxInCTU, m_tqBypass);
> m_partCopy((uint8_t*)ctu.m_refIdx[0] + m_absIdxInCTU,
> (uint8_t*)m_refIdx[0]);
> m_partCopy((uint8_t*)ctu.m_refIdx[1] + m_absIdxInCTU,
> (uint8_t*)m_refIdx[1]);
> m_partCopy(ctu.m_cuDepth + m_absIdxInCTU, m_cuDepth);
> - m_partCopy(ctu.m_skipFlag + m_absIdxInCTU, m_skipFlag);
> + m_partCopy(ctu.m_predMode + m_absIdxInCTU, m_predMode);
> m_partCopy(ctu.m_mergeFlag + m_absIdxInCTU, m_mergeFlag);
> m_partCopy(ctu.m_interDir + m_absIdxInCTU, m_interDir);
> m_partCopy(ctu.m_mvpIdx[0] + m_absIdxInCTU, m_mvpIdx[0]);
> @@ -478,7 +473,6 @@
> m_partCopy((uint8_t*)m_qp, (uint8_t*)ctu.m_qp + m_absIdxInCTU);
> m_partCopy(m_log2CUSize, ctu.m_log2CUSize + m_absIdxInCTU);
> m_partCopy(m_partSize, ctu.m_partSize + m_absIdxInCTU);
> - m_partCopy(m_predMode, ctu.m_predMode + m_absIdxInCTU);
> m_partCopy(m_lumaIntraDir, ctu.m_lumaIntraDir + m_absIdxInCTU);
> m_partCopy(m_tqBypass, ctu.m_tqBypass + m_absIdxInCTU);
> m_partCopy((uint8_t*)m_refIdx[0], (uint8_t*)ctu.m_refIdx[0] +
> m_absIdxInCTU);
> @@ -496,7 +490,7 @@
> memcpy(m_mvd[1], ctu.m_mvd[1] + m_absIdxInCTU, m_numPartitions *
> sizeof(MV));
>
> /* clear residual coding flags */
> - m_partSet(m_skipFlag, 0);
> + m_partSet(m_predMode, ctu.m_predMode[m_absIdxInCTU] & (MODE_INTRA |
> MODE_INTER));
> m_partSet(m_tuDepth, 0);
> m_partSet(m_transformSkip[0], 0);
> m_partSet(m_transformSkip[1], 0);
> @@ -515,7 +509,7 @@
> m_partCopy(ctu.m_transformSkip[0] + m_absIdxInCTU,
> m_transformSkip[0]);
> m_partCopy(ctu.m_transformSkip[1] + m_absIdxInCTU,
> m_transformSkip[1]);
> m_partCopy(ctu.m_transformSkip[2] + m_absIdxInCTU,
> m_transformSkip[2]);
> - m_partCopy(ctu.m_skipFlag + m_absIdxInCTU, m_skipFlag);
> + m_partCopy(ctu.m_predMode + m_absIdxInCTU, m_predMode);
> m_partCopy(ctu.m_tuDepth + m_absIdxInCTU, m_tuDepth);
> m_partCopy(ctu.m_cbf[0] + m_absIdxInCTU, m_cbf[0]);
> m_partCopy(ctu.m_cbf[1] + m_absIdxInCTU, m_cbf[1]);
> @@ -1441,7 +1435,7 @@
> bool isAvailableA1 = cuLeft &&
> cuLeft->isDiffMER(xP - 1, yP + nPSH - 1, xP, yP) &&
> !(puIdx == 1 && (curPS == SIZE_Nx2N || curPS == SIZE_nLx2N ||
> curPS == SIZE_nRx2N)) &&
> - !cuLeft->isIntra(leftPartIdx);
> + cuLeft->isInter(leftPartIdx);
> if (isAvailableA1)
> {
> // get Inter Dir
> @@ -1465,7 +1459,7 @@
> bool isAvailableB1 = cuAbove &&
> cuAbove->isDiffMER(xP + nPSW - 1, yP - 1, xP, yP) &&
> !(puIdx == 1 && (curPS == SIZE_2NxN || curPS == SIZE_2NxnU ||
> curPS == SIZE_2NxnD)) &&
> - !cuAbove->isIntra(abovePartIdx);
> + cuAbove->isInter(abovePartIdx);
> if (isAvailableB1 && (!isAvailableA1 ||
> !cuLeft->hasEqualMotion(leftPartIdx, *cuAbove, abovePartIdx)))
> {
> // get Inter Dir
> @@ -1486,7 +1480,7 @@
> const CUData* cuAboveRight = getPUAboveRight(aboveRightPartIdx,
> partIdxRT);
> bool isAvailableB0 = cuAboveRight &&
> cuAboveRight->isDiffMER(xP + nPSW, yP - 1, xP, yP) &&
> - !cuAboveRight->isIntra(aboveRightPartIdx);
> + cuAboveRight->isInter(aboveRightPartIdx);
> if (isAvailableB0 && (!isAvailableB1 ||
> !cuAbove->hasEqualMotion(abovePartIdx, *cuAboveRight, aboveRightPartIdx)))
> {
> // get Inter Dir
> @@ -1507,7 +1501,7 @@
> const CUData* cuLeftBottom = this->getPUBelowLeft(leftBottomPartIdx,
> partIdxLB);
> bool isAvailableA0 = cuLeftBottom &&
> cuLeftBottom->isDiffMER(xP - 1, yP + nPSH, xP, yP) &&
> - !cuLeftBottom->isIntra(leftBottomPartIdx);
> + cuLeftBottom->isInter(leftBottomPartIdx);
> if (isAvailableA0 && (!isAvailableA1 ||
> !cuLeft->hasEqualMotion(leftPartIdx, *cuLeftBottom, leftBottomPartIdx)))
> {
> // get Inter Dir
> @@ -1530,7 +1524,7 @@
> const CUData* cuAboveLeft = getPUAboveLeft(aboveLeftPartIdx,
> absPartAddr);
> bool isAvailableB2 = cuAboveLeft &&
> cuAboveLeft->isDiffMER(xP - 1, yP - 1, xP, yP) &&
> - !cuAboveLeft->isIntra(aboveLeftPartIdx);
> + cuAboveLeft->isInter(aboveLeftPartIdx);
> if (isAvailableB2 && (!isAvailableA1 ||
> !cuLeft->hasEqualMotion(leftPartIdx, *cuAboveLeft, aboveLeftPartIdx))
> && (!isAvailableB1 || !cuAbove->hasEqualMotion(abovePartIdx,
> *cuAboveLeft, aboveLeftPartIdx)))
> {
> @@ -1966,26 +1960,18 @@
>
> bool CUData::getColMVP(MV& outMV, int& outRefIdx, int picList, int
> cuAddr, int partUnitIdx) const
> {
> - uint32_t absPartAddr = partUnitIdx & TMVP_UNIT_MASK;
> -
> - int colRefPicList;
> - int colPOC, colRefPOC, curPOC, curRefPOC;
> - MV colmv;
> -
> - // use coldir.
> Frame *colPic = m_slice->m_refPicList[m_slice->isInterB() ? 1 -
> m_slice->m_colFromL0Flag : 0][m_slice->m_colRefIdx];
> CUData *colCU = colPic->m_encData->getPicCTU(cuAddr);
>
> if (colCU->m_partSize[partUnitIdx] == SIZE_NONE)
> return false;
>
> - curPOC = m_slice->m_poc;
> - colPOC = colCU->m_slice->m_poc;
> + uint32_t absPartAddr = partUnitIdx & TMVP_UNIT_MASK;
>
> if (colCU->isIntra(absPartAddr))
> return false;
>
> - colRefPicList = m_slice->m_bCheckLDC ? picList :
> m_slice->m_colFromL0Flag;
> + int colRefPicList = m_slice->m_bCheckLDC ? picList :
> m_slice->m_colFromL0Flag;
>
> int colRefIdx = colCU->m_refIdx[colRefPicList][absPartAddr];
>
> @@ -1999,9 +1985,12 @@
> }
>
> // Scale the vector
> - colRefPOC = colCU->m_slice->m_refPOCList[colRefPicList][colRefIdx];
> - colmv = colCU->m_mv[colRefPicList][absPartAddr];
> - curRefPOC = m_slice->m_refPOCList[picList][outRefIdx];
> + int colRefPOC =
> colCU->m_slice->m_refPOCList[colRefPicList][colRefIdx];
> + int colPOC = colCU->m_slice->m_poc;
> + MV colmv = colCU->m_mv[colRefPicList][absPartAddr];
> +
> + int curRefPOC = m_slice->m_refPOCList[picList][outRefIdx];
> + int curPOC = m_slice->m_poc;
>
> scaleMvByPOCDist(outMV, colmv, curPOC, curRefPOC, colPOC, colRefPOC);
> return true;
> diff -r eebb372eec89 -r ef411645295a source/common/cudata.h
> --- a/source/common/cudata.h Fri Oct 31 16:29:20 2014 -0500
> +++ b/source/common/cudata.h Mon Nov 03 17:02:14 2014 +0900
> @@ -51,9 +51,10 @@
>
> enum PredMode
> {
> - MODE_INTER,
> - MODE_INTRA,
> - MODE_NONE = 15
> + MODE_NONE = 0,
> + MODE_INTER = (1 << 0),
> + MODE_INTRA = (1 << 1),
> + MODE_SKIP = (1 << 2) | MODE_INTER
> };
>
> // motion vector predictor direction used in AMVP
> @@ -129,12 +130,11 @@
> char* m_qp; // array of QP values
> uint8_t* m_log2CUSize; // array of cu log2Size TODO: seems
> redundant to depth
> uint8_t* m_partSize; // array of partition sizes
> - uint8_t* m_predMode; // array of prediction modes
> uint8_t* m_lumaIntraDir; // array of intra directions (luma)
> uint8_t* m_tqBypass; // array of CU lossless flags
> char* m_refIdx[2]; // array of motion reference
> indices per list
> uint8_t* m_cuDepth; // array of depths
> - uint8_t* m_skipFlag; // array of skip flags
> + uint8_t* m_predMode; // array of prediction modes
> uint8_t* m_mergeFlag; // array of merge flags
> uint8_t* m_interDir; // array of inter directions
> uint8_t* m_mvpIdx[2]; // array of motion vector predictor
> candidates or merge candidate indices [0]
> @@ -142,7 +142,7 @@
> uint8_t* m_transformSkip[3]; // array of transform skipping
> flags per plane
> uint8_t* m_cbf[3]; // array of coded block flags (CBF)
> per plane
> uint8_t* m_chromaIntraDir; // array of intra directions
> (chroma)
> - enum { BytesPerPartition = 22 }; // combined sizeof() of all
> per-part data
> + enum { BytesPerPartition = 21 }; // combined sizeof() of all
> per-part data
>
> coeff_t* m_trCoeff[3]; // transformed coefficient buffer
> per plane
>
> @@ -173,7 +173,6 @@
> void updatePic(uint32_t depth) const;
>
> void setPartSizeSubParts(PartSize size) {
> m_partSet(m_partSize, (uint8_t)size); }
> - void setSkipFlagSubParts(uint8_t skipFlag) {
> m_partSet(m_skipFlag, skipFlag); }
> void setPredModeSubParts(PredMode mode) {
> m_partSet(m_predMode, (uint8_t)mode); }
> void clearCbf() { m_partSet(m_cbf[0],
> 0); m_partSet(m_cbf[1], 0); m_partSet(m_cbf[2], 0); }
>
> @@ -204,7 +203,8 @@
>
> uint32_t getNumPartInter() const { return
> nbPartsTable[(int)m_partSize[0]]; }
> bool isIntra(uint32_t absPartIdx) const { return
> m_predMode[absPartIdx] == MODE_INTRA; }
> - bool isSkipped(uint32_t absPartIdx) const { return
> !!m_skipFlag[absPartIdx]; }
> + bool isInter(uint32_t absPartIdx) const { return
> !!(m_predMode[absPartIdx] & MODE_INTER); }
> + bool isSkipped(uint32_t absPartIdx) const { return
> m_predMode[absPartIdx] == MODE_SKIP; }
> bool isBipredRestriction() const { return
> m_log2CUSize[0] == 3 && m_partSize[0] != SIZE_2Nx2N; }
>
> void getPartIndexAndSize(uint32_t puIdx, uint32_t& absPartIdx,
> int& puWidth, int& puHeight) const;
> diff -r eebb372eec89 -r ef411645295a source/common/quant.cpp
> --- a/source/common/quant.cpp Fri Oct 31 16:29:20 2014 -0500
> +++ b/source/common/quant.cpp Mon Nov 03 17:02:14 2014 +0900
> @@ -333,7 +333,6 @@
>
> bool isLuma = ttype == TEXT_LUMA;
> bool usePsy = m_psyRdoqScale && isLuma && !useTransformSkip;
> - bool isIntra = cu.m_predMode[absPartIdx] == MODE_INTRA;
> int transformShift = MAX_TR_DYNAMIC_RANGE - X265_DEPTH - log2TrSize;
> // Represents scaling through forward transform
> int trSize = 1 << log2TrSize;
>
> @@ -355,6 +354,7 @@
> }
> else
> {
> + bool isIntra = cu.isIntra(absPartIdx);
> const uint32_t sizeIdx = log2TrSize - 2;
> int useDST = !sizeIdx && isLuma && isIntra;
> int index = DCT_4x4 + sizeIdx - useDST;
> diff -r eebb372eec89 -r ef411645295a source/encoder/analysis.cpp
> --- a/source/encoder/analysis.cpp Fri Oct 31 16:29:20 2014 -0500
> +++ b/source/encoder/analysis.cpp Mon Nov 03 17:02:14 2014 +0900
> @@ -178,7 +178,7 @@
> if (!md.bestMode->distortion)
> /* already lossless */
> return;
> - else if (md.bestMode->cu.m_predMode[0] == MODE_INTRA)
> + else if (md.bestMode->cu.isIntra(0))
> {
> md.pred[PRED_LOSSLESS].cu.initLosslessCU(md.bestMode->cu, cuGeom);
> PartSize size = (PartSize)md.pred[PRED_LOSSLESS].cu.m_partSize[0];
> @@ -695,7 +695,7 @@
> bool bNoSplit = false;
> if (md.bestMode)
> {
> - bNoSplit = !!md.bestMode->cu.isSkipped(0);
> + bNoSplit = md.bestMode->cu.isSkipped(0);
> if (mightSplit && depth && depth >= minDepth && !bNoSplit &&
> m_param->rdLevel <= 4)
> bNoSplit = recursionDepthCheck(parentCTU, cuGeom,
> *md.bestMode);
> }
> @@ -741,7 +741,7 @@
> checkBestMode(*splitPred, depth);
> }
>
> - if (!depth || md.bestMode->cu.m_predMode[0] != MODE_INTRA)
> + if (!depth || md.bestMode->cu.isInter(0))
> {
> /* early-out statistics */
> FrameData& curEncData =
> const_cast<FrameData&>(*m_frame->m_encData);
> @@ -894,7 +894,7 @@
> /* prediction already generated for this CU, and if
> rd level
> * is not 0, it is already fully encoded */
> }
> - else if (md.bestMode->cu.m_predMode[0] == MODE_INTER)
> + else if (md.bestMode->cu.isInter(0))
> {
> for (uint32_t puIdx = 0; puIdx <
> md.bestMode->cu.getNumPartInter(); puIdx++)
> {
> @@ -920,7 +920,7 @@
> {
>
> md.bestMode->reconYuv.copyFromYuv(md.bestMode->predYuv);
> if (cu.m_mergeFlag[0] && cu.m_partSize[0] ==
> SIZE_2Nx2N)
> - cu.setSkipFlagSubParts(true);
> + cu.setPredModeSubParts(MODE_SKIP);
> }
> }
> }
> @@ -957,7 +957,7 @@
> bool bNoSplit = false;
> if (md.bestMode)
> {
> - bNoSplit = !!md.bestMode->cu.isSkipped(0);
> + bNoSplit = md.bestMode->cu.isSkipped(0);
> if (mightSplit && depth && depth >= minDepth && !bNoSplit)
> bNoSplit = recursionDepthCheck(parentCTU, cuGeom,
> *md.bestMode);
> }
> @@ -1014,7 +1014,7 @@
> md.bestMode = splitPred;
> }
>
> - if (!depth || md.bestMode->cu.m_predMode[0] != MODE_INTRA)
> + if (!depth || md.bestMode->cu.isInter(0))
> {
> /* early-out statistics */
> FrameData& curEncData =
> const_cast<FrameData&>(*m_frame->m_encData);
> @@ -1334,7 +1334,7 @@
> tempPred->cu.m_refIdx[0][0] =
> (char)mvFieldNeighbours[i][0].refIdx;
> tempPred->cu.m_mv[1][0] = mvFieldNeighbours[i][1].mv;
> tempPred->cu.m_refIdx[1][0] =
> (char)mvFieldNeighbours[i][1].refIdx;
> - tempPred->cu.setSkipFlagSubParts(false); /* must be cleared
> between encode iterations */
> + tempPred->cu.setPredModeSubParts(MODE_INTER); /* must be cleared
> between encode iterations */
>
> prepMotionCompensation(tempPred->cu, cuGeom, 0);
> motionCompensation(tempPred->predYuv, true, true);
> @@ -1367,7 +1367,7 @@
> tempPred->cu.m_refIdx[0][0] =
> (char)mvFieldNeighbours[i][0].refIdx;
> tempPred->cu.m_mv[1][0] = mvFieldNeighbours[i][1].mv;
> tempPred->cu.m_refIdx[1][0] =
> (char)mvFieldNeighbours[i][1].refIdx;
> - tempPred->cu.setSkipFlagSubParts(false);
> + tempPred->cu.setPredModeSubParts(MODE_INTER);
> tempPred->predYuv.copyFromYuv(bestPred->predYuv);
> }
>
> @@ -1457,7 +1457,7 @@
> cu.copyFromPic(ctu, cuGeom);
> m_quant.setQPforQuant(cu);
>
> - if (cu.m_predMode[0] == MODE_INTRA)
> + if (cu.isIntra(0))
> {
> uint32_t tuDepthRange[2];
> cu.getIntraTUQtDepthRange(tuDepthRange, 0);
> @@ -1467,9 +1467,9 @@
> getBestIntraModeChroma(*bestMode, cuGeom);
> residualQTIntraChroma(*bestMode, cuGeom, 0, 0);
> }
> - else if (cu.m_predMode[0] == MODE_INTER)
> + else if (cu.isInter(0))
> {
> - X265_CHECK(!ctu.m_skipFlag[absPartIdx], "skip not expected prior
> to transform\n");
> + X265_CHECK(!ctu.isSkipped(absPartIdx), "skip not expected prior
> to transform\n");
>
> /* Calculate residual for current CU part into depth sized
> resiYuv */
>
> @@ -1499,7 +1499,7 @@
> residualTransformQuantInter(*bestMode, cuGeom, 0, cuGeom.depth,
> tuDepthRange);
>
> if (cu.m_mergeFlag[0] && cu.m_partSize[0] == SIZE_2Nx2N &&
> !cu.getQtRootCbf(0))
> - cu.setSkipFlagSubParts(true);
> + cu.setPredModeSubParts(MODE_SKIP);
>
> PicYuv& reconPicYuv = *m_frame->m_reconPicYuv;
> if (cu.getQtRootCbf(0)) // TODO: split to each component
> diff -r eebb372eec89 -r ef411645295a source/encoder/entropy.cpp
> --- a/source/encoder/entropy.cpp Fri Oct 31 16:29:20 2014 -0500
> +++ b/source/encoder/entropy.cpp Mon Nov 03 17:02:14 2014 +0900
> @@ -557,18 +557,17 @@
> codeCUTransquantBypassFlag(cu.m_tqBypass[absPartIdx]);
>
> if (!slice->isIntra())
> + {
> codeSkipFlag(cu, absPartIdx);
> -
> - if (cu.isSkipped(absPartIdx))
> - {
> - codeMergeIndex(cu, absPartIdx);
> - finishCU(cu, absPartIdx, depth);
> - return;
> + if (cu.isSkipped(absPartIdx))
> + {
> + codeMergeIndex(cu, absPartIdx);
> + finishCU(cu, absPartIdx, depth);
> + return;
> + }
> + codePredMode(cu.m_predMode[absPartIdx]);
> }
>
> - if (!slice->isIntra())
> - codePredMode(cu.m_predMode[absPartIdx]);
> -
> codePartSize(cu, absPartIdx, depth);
>
> // prediction Info ( Intra : direction mode, Inter : Mv, reference
> idx )
> @@ -648,11 +647,11 @@
>
> /* in each of these conditions, the subdiv flag is implied and not
> signaled,
> * so we have checks to make sure the implied value matches our
> intentions */
> - if (cu.m_predMode[absPartIdx] == MODE_INTRA &&
> cu.m_partSize[absPartIdx] == SIZE_NxN && depth == cu.m_cuDepth[absPartIdx])
> + if (cu.isIntra(absPartIdx) && cu.m_partSize[absPartIdx] == SIZE_NxN
> && depth == cu.m_cuDepth[absPartIdx])
> {
> X265_CHECK(subdiv, "intra NxN requires TU depth below CU
> depth\n");
> }
> - else if (cu.m_predMode[absPartIdx] == MODE_INTER &&
> (cu.m_partSize[absPartIdx] != SIZE_2Nx2N) && depth ==
> cu.m_cuDepth[absPartIdx] &&
> + else if (cu.isInter(absPartIdx) && (cu.m_partSize[absPartIdx] !=
> SIZE_2Nx2N) && depth == cu.m_cuDepth[absPartIdx] &&
> cu.m_slice->m_sps->quadtreeTUMaxDepthInter == 1)
> {
> X265_CHECK(subdiv, "inter TU must be smaller than CU when not
> 2Nx2N part size: log2TrSize %d, depthRange[0] %d\n", log2TrSize,
> depthRange[0]);
> @@ -722,7 +721,7 @@
> }
> else
> {
> - if (cu.m_predMode[absPartIdx] != MODE_INTRA && depth ==
> cu.m_cuDepth[absPartIdx] && !cu.getCbf(absPartIdx, TEXT_CHROMA_U, 0) &&
> !cu.getCbf(absPartIdx, TEXT_CHROMA_V, 0))
> + if (cu.isInter(absPartIdx) && depth == cu.m_cuDepth[absPartIdx]
> && !cu.getCbf(absPartIdx, TEXT_CHROMA_U, 0) && !cu.getCbf(absPartIdx,
> TEXT_CHROMA_V, 0))
> {
> X265_CHECK(cu.getCbf(absPartIdx, TEXT_LUMA, 0), "CBF should
> have been set\n");
> }
> @@ -1202,7 +1201,7 @@
>
> void Entropy::codePredMode(int predMode)
> {
> - encodeBin(predMode == MODE_INTER ? 0 : 1,
> m_contextState[OFF_PRED_MODE_CTX]);
> + encodeBin(predMode == MODE_INTRA ? 1 : 0,
> m_contextState[OFF_PRED_MODE_CTX]);
> }
>
> void Entropy::codeCUTransquantBypassFlag(uint32_t symbol)
> diff -r eebb372eec89 -r ef411645295a source/encoder/frameencoder.cpp
> --- a/source/encoder/frameencoder.cpp Fri Oct 31 16:29:20 2014 -0500
> +++ b/source/encoder/frameencoder.cpp Mon Nov 03 17:02:14 2014 +0900
> @@ -1011,7 +1011,7 @@
> log->cntSkipCu[depth]++;
> log->qTreeSkipCnt[depth]++;
> }
> - else if (ctu.m_predMode[absPartIdx] == MODE_INTER)
> + else if (ctu.isInter(absPartIdx))
> {
> log->cntInter[depth]++;
> log->qTreeInterCnt[depth]++;
> @@ -1021,7 +1021,7 @@
> else
> log->cuInterDistribution[depth][AMP_ID]++;
> }
> - else if (ctu.m_predMode[absPartIdx] == MODE_INTRA)
> + else if (ctu.isIntra(absPartIdx))
> {
> log->cntIntra[depth]++;
> log->qTreeIntraCnt[depth]++;
> diff -r eebb372eec89 -r ef411645295a source/encoder/search.cpp
> --- a/source/encoder/search.cpp Fri Oct 31 16:29:20 2014 -0500
> +++ b/source/encoder/search.cpp Mon Nov 03 17:02:14 2014 +0900
> @@ -2366,7 +2366,7 @@
>
> // No residual coding : SKIP mode
>
> - cu.setSkipFlagSubParts(true);
> + cu.setPredModeSubParts(MODE_SKIP);
> cu.clearCbf();
> cu.setTUDepthSubParts(0, 0, depth);
>
> @@ -2466,7 +2466,7 @@
> uint32_t coeffBits, bits;
> if (cu.m_mergeFlag[0] && cu.m_partSize[0] == SIZE_2Nx2N &&
> !cu.getQtRootCbf(0))
> {
> - cu.setSkipFlagSubParts(true);
> + cu.setPredModeSubParts(MODE_SKIP);
>
> /* Merge/Skip */
> m_entropyCoder.resetBits();
> @@ -3233,7 +3233,7 @@
> void Search::encodeResidualQT(CUData& cu, uint32_t absPartIdx, const
> uint32_t depth, bool bSubdivAndCbf, TextType ttype, uint32_t depthRange[2])
> {
> X265_CHECK(cu.m_cuDepth[0] == cu.m_cuDepth[absPartIdx], "depth not
> matching\n");
> - X265_CHECK(cu.m_predMode[absPartIdx] != MODE_INTRA,
> "encodeResidualQT() with intra block\n");
> + X265_CHECK(cu.isInter(absPartIdx), "encodeResidualQT() with intra
> block\n");
>
> const uint32_t curTuDepth = depth - cu.m_cuDepth[0];
> const uint32_t tuDepth = cu.m_tuDepth[absPartIdx];
> _______________________________________________
> x265-devel mailing list
> x265-devel at videolan.org
> https://mailman.videolan.org/listinfo/x265-devel
>
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