UnitTools.cpp

          else if ( posInCtu.x + 4 < pcv.maxCUWidth ) // is not at the last column of CTU But is last row of CTU
          {
            posC0 = posRB.offset( 4, 4 );
            // in the reference the CTU address is not set - thus probably resulting in no using this C0 possibility
          }
          else if ( posInCtu.y + 4 < pcv.maxCUHeight ) // is not at the last row of CTU But is last column of CTU
          {
            posC0 = posRB.offset( 4, 4 );
            C0Avail = true;
          }
          else //is the right bottom corner of CTU
          {
            posC0 = posRB.offset( 4, 4 );
            // same as for last column but not last row
          }
        }

        Mv        cColMv;
        int       refIdx = 0;
        bool      bExistMV = C0Avail && getColocatedMVP( pu, REF_PIC_LIST_0, posC0, cColMv, refIdx );
        if ( bExistMV )
        {
          mi[3].mv[0] = cColMv;
#if !REMOVE_MV_ADAPT_PREC
          mi[3].mv[0].setHighPrec();
#endif
          mi[3].refIdx[0] = refIdx;
          mi[3].interDir = 1;
          isAvailable[3] = true;
        }

        if ( slice.isInterB() )
        {
          bExistMV = C0Avail && getColocatedMVP( pu, REF_PIC_LIST_1, posC0, cColMv, refIdx );
          if ( bExistMV )
          {
            mi[3].mv[1] = cColMv;
#if !REMOVE_MV_ADAPT_PREC
            mi[3].mv[1].setHighPrec();
#endif
            mi[3].refIdx[1] = refIdx;
            mi[3].interDir |= 2;
            isAvailable[3] = true;
          }
        }
      }

      //-------------------  insert model  -------------------//
      int order[6] = { 0, 1, 2, 3, 4, 5 };
      int modelNum = 6;
      int model[6][4] = {
        { 0, 1, 2 },          // 0:  LT, RT, LB
        { 0, 1, 3 },          // 1:  LT, RT, RB
        { 0, 2, 3 },          // 2:  LT, LB, RB
        { 1, 2, 3 },          // 3:  RT, LB, RB
        { 0, 1 },             // 4:  LT, RT
        { 0, 2 },             // 5:  LT, LB
      };

      int verNum[6] = { 3, 3, 3, 3, 2, 2 };
      int startIdx = pu.cs->sps->getSpsNext().getUseAffineType() ? 0 : 4;
      for ( int idx = startIdx; idx < modelNum; idx++ )
      {
        int modelIdx = order[idx];
        getAffineControlPointCand( pu, mi, isAvailable, model[modelIdx], modelIdx, verNum[modelIdx], affMrgCtx );
        if ( affMrgCtx.numValidMergeCand != 0 && affMrgCtx.numValidMergeCand - 1 == mrgCandIdx )
        {
          return;
        }

        // early termination
        if ( affMrgCtx.numValidMergeCand == maxNumAffineMergeCand )
        {
          return;
        }
      }
    }
    ///> End: Constructed affine candidates
#if JVET_L0369_SUBBLOCK_MERGE
  }
#endif

  ///> zero padding
  int cnt = affMrgCtx.numValidMergeCand;
  while ( cnt < maxNumAffineMergeCand )
  {
    for ( int mvNum = 0; mvNum < 3; mvNum++ )
    {
      affMrgCtx.mvFieldNeighbours[(cnt << 1) + 0][mvNum].setMvField( Mv( 0, 0 ), 0 );
    }
    affMrgCtx.interDirNeighbours[cnt] = 1;

    if ( slice.isInterB() )
    {
      for ( int mvNum = 0; mvNum < 3; mvNum++ )
      {
        affMrgCtx.mvFieldNeighbours[(cnt << 1) + 1][mvNum].setMvField( Mv( 0, 0 ), 0 );
      }
      affMrgCtx.interDirNeighbours[cnt] = 3;
    }
    affMrgCtx.affineType[cnt] = AFFINEMODEL_4PARAM;
    cnt++;

    if ( cnt == maxNumAffineMergeCand )
    {
      return;
    }
  }
}
#else
const PredictionUnit* getFirstAvailableAffineNeighbour( const PredictionUnit &pu )
{
  const Position posLT = pu.Y().topLeft();
  const Position posRT = pu.Y().topRight();
  const Position posLB = pu.Y().bottomLeft();

  const PredictionUnit* puLeft = pu.cs->getPURestricted( posLB.offset( -1, 0 ), pu, pu.chType );
  if( puLeft && puLeft->cu->affine )
  {
    return puLeft;
  }
  const PredictionUnit* puAbove = pu.cs->getPURestricted( posRT.offset( 0, -1 ), pu, pu.chType );
  if( puAbove && puAbove->cu->affine )
  {
    return puAbove;
  }
  const PredictionUnit* puAboveRight = pu.cs->getPURestricted( posRT.offset( 1, -1 ), pu, pu.chType );
  if( puAboveRight && puAboveRight->cu->affine )
  {
    return puAboveRight;
  }
  const PredictionUnit *puLeftBottom = pu.cs->getPURestricted( posLB.offset( -1, 1 ), pu, pu.chType );
  if( puLeftBottom && puLeftBottom->cu->affine )
  {
    return puLeftBottom;
  }
  const PredictionUnit *puAboveLeft = pu.cs->getPURestricted( posLT.offset( -1, -1 ), pu, pu.chType );
  if( puAboveLeft && puAboveLeft->cu->affine )
  {
    return puAboveLeft;
  }
  return nullptr;
}

bool PU::isAffineMrgFlagCoded( const PredictionUnit &pu )
{
  if ( pu.cu->lumaSize().width < 8 || pu.cu->lumaSize().height < 8 )
  {
    return false;
  }
  return getFirstAvailableAffineNeighbour( pu ) != nullptr;
}
#if JVET_L0646_GBI
void PU::getAffineMergeCand( const PredictionUnit &pu, MvField(*mvFieldNeighbours)[3], unsigned char &interDirNeighbours, unsigned char &gbiIdx, int &numValidMergeCand )
#else
void PU::getAffineMergeCand( const PredictionUnit &pu, MvField (*mvFieldNeighbours)[3], unsigned char &interDirNeighbours, int &numValidMergeCand )
#endif
{
  for ( int mvNum = 0; mvNum < 3; mvNum++ )
  {
    mvFieldNeighbours[0][mvNum].setMvField( Mv(), -1 );
    mvFieldNeighbours[1][mvNum].setMvField( Mv(), -1 );
  }

  const PredictionUnit* puFirstNeighbour = getFirstAvailableAffineNeighbour( pu );
  if( puFirstNeighbour == nullptr )
  {
    numValidMergeCand = -1;
#if JVET_L0646_GBI
    gbiIdx = GBI_DEFAULT;
#endif
    return;
  }
  else
  {
    numValidMergeCand = 1;
  }

  // get Inter Dir
  interDirNeighbours = puFirstNeighbour->getMotionInfo().interDir;

  pu.cu->affineType = puFirstNeighbour->cu->affineType;

  // derive Mv from neighbor affine block
  Mv cMv[3];
  if ( interDirNeighbours != 2 )
  {
    xInheritedAffineMv( pu, puFirstNeighbour, REF_PIC_LIST_0, cMv );
    for ( int mvNum = 0; mvNum < 3; mvNum++ )
    {
      mvFieldNeighbours[0][mvNum].setMvField( cMv[mvNum], puFirstNeighbour->refIdx[0] );
    }
  }

  if ( pu.cs->slice->isInterB() )
  {
    if ( interDirNeighbours != 1 )
    {
      xInheritedAffineMv( pu, puFirstNeighbour, REF_PIC_LIST_1, cMv );
      for ( int mvNum = 0; mvNum < 3; mvNum++ )
      {
        mvFieldNeighbours[1][mvNum].setMvField( cMv[mvNum], puFirstNeighbour->refIdx[1] );
      }
    }
  }
#if JVET_L0646_GBI
  gbiIdx = puFirstNeighbour->cu->GBiIdx;
#endif
}
#endif

void PU::setAllAffineMvField( PredictionUnit &pu, MvField *mvField, RefPicList eRefList )
{
  // Set Mv
  Mv mv[3];
  for ( int i = 0; i < 3; i++ )
  {
    mv[i] = mvField[i].mv;
  }
  setAllAffineMv( pu, mv[0], mv[1], mv[2], eRefList );

  // Set RefIdx
  CHECK( mvField[0].refIdx != mvField[1].refIdx || mvField[0].refIdx != mvField[2].refIdx, "Affine mv corners don't have the same refIdx." );
  pu.refIdx[eRefList] = mvField[0].refIdx;
}

void PU::setAllAffineMv( PredictionUnit& pu, Mv affLT, Mv affRT, Mv affLB, RefPicList eRefList 
#if REMOVE_MV_ADAPT_PREC
  , bool setHighPrec
#endif
)
{
  int width  = pu.Y().width;
  int shift = MAX_CU_DEPTH;
#if REMOVE_MV_ADAPT_PREC
  if (setHighPrec)
  {
    affLT.hor = affLT.hor << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
    affLT.ver = affLT.ver << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
    affRT.hor = affRT.hor << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
    affRT.ver = affRT.ver << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
    affLB.hor = affLB.hor << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
    affLB.ver = affLB.ver << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
  }
#else
  affLT.setHighPrec();
  affRT.setHighPrec();
  affLB.setHighPrec();
#endif
  int deltaMvHorX, deltaMvHorY, deltaMvVerX, deltaMvVerY;
  deltaMvHorX = (affRT - affLT).getHor() << (shift - g_aucLog2[width]);
  deltaMvHorY = (affRT - affLT).getVer() << (shift - g_aucLog2[width]);
  int height = pu.Y().height;
  if ( pu.cu->affineType == AFFINEMODEL_6PARAM )
  {
    deltaMvVerX = (affLB - affLT).getHor() << (shift - g_aucLog2[height]);
    deltaMvVerY = (affLB - affLT).getVer() << (shift - g_aucLog2[height]);
  }
  else
  {
    deltaMvVerX = -deltaMvHorY;
    deltaMvVerY = deltaMvHorX;
  }

  int mvScaleHor = affLT.getHor() << shift;
  int mvScaleVer = affLT.getVer() << shift;

  int blockWidth = AFFINE_MIN_BLOCK_SIZE;
  int blockHeight = AFFINE_MIN_BLOCK_SIZE;
  const int halfBW = blockWidth >> 1;
  const int halfBH = blockHeight >> 1;

  MotionBuf mb = pu.getMotionBuf();
  int mvScaleTmpHor, mvScaleTmpVer;
  for ( int h = 0; h < pu.Y().height; h += blockHeight )
  {
    for ( int w = 0; w < pu.Y().width; w += blockWidth )
    {
      mvScaleTmpHor = mvScaleHor + deltaMvHorX * (halfBW + w) + deltaMvVerX * (halfBH + h);
      mvScaleTmpVer = mvScaleVer + deltaMvHorY * (halfBW + w) + deltaMvVerY * (halfBH + h);
      roundAffineMv( mvScaleTmpHor, mvScaleTmpVer, shift );

      for ( int y = (h >> MIN_CU_LOG2); y < ((h + blockHeight) >> MIN_CU_LOG2); y++ )
      {
        for ( int x = (w >> MIN_CU_LOG2); x < ((w + blockHeight) >> MIN_CU_LOG2); x++ )
        {
#if REMOVE_MV_ADAPT_PREC
          mb.at(x, y).mv[eRefList].hor = mvScaleTmpHor;
          mb.at(x, y).mv[eRefList].ver = mvScaleTmpVer;
#else
          mb.at(x, y).mv[eRefList] = Mv(mvScaleTmpHor, mvScaleTmpVer, true);
#endif
        }
      }
    }
  }

#if JVET_L0694_AFFINE_LINEBUFFER_CLEANUP
  pu.mvAffi[eRefList][0] = affLT;
  pu.mvAffi[eRefList][1] = affRT;
  pu.mvAffi[eRefList][2] = affLB;
#else
  // Set AffineMvField for affine motion compensation LT, RT, LB and RB
  mb.at(            0,             0 ).mv[eRefList] = affLT;
  mb.at( mb.width - 1,             0 ).mv[eRefList] = affRT;

  if ( pu.cu->affineType == AFFINEMODEL_6PARAM )
  {
    mb.at( 0, mb.height - 1 ).mv[eRefList] = affLB;
  }
#endif
}

static bool deriveScaledMotionTemporal( const Slice&      slice,
                                        const Position&   colPos,
                                        const Picture*    pColPic,
                                        const RefPicList  eCurrRefPicList,
                                        Mv&         cColMv,
                                        const RefPicList  eFetchRefPicList)
{
  const MotionInfo &mi = pColPic->cs->getMotionInfo(colPos);
  const Slice *pColSlice = nullptr;

  for (const auto &pSlice : pColPic->slices)
  {
    if (pSlice->getIndependentSliceIdx() == mi.sliceIdx)
    {
      pColSlice = pSlice;
      break;
    }
  }

  CHECK(pColSlice == nullptr, "Couldn't find the colocated slice");

  int iColPOC, iColRefPOC, iCurrPOC, iCurrRefPOC, iScale;
  bool bAllowMirrorMV = true;
  RefPicList eColRefPicList = slice.getCheckLDC() ? eCurrRefPicList : RefPicList(1 - eFetchRefPicList);
  if (pColPic == slice.getRefPic(RefPicList(slice.isInterB() ? 1 - slice.getColFromL0Flag() : 0), slice.getColRefIdx()))
  {
    eColRefPicList = eCurrRefPicList;   //67 -> disable, 64 -> enable
    bAllowMirrorMV = false;
  }

  // Although it might make sense to keep the unavailable motion field per direction still be unavailable, I made the MV prediction the same way as in TMVP
  // So there is an interaction between MV0 and MV1 of the corresponding blocks identified by TV.

  // Grab motion and do necessary scaling.{{
  iCurrPOC = slice.getPOC();

  int iColRefIdx = mi.refIdx[eColRefPicList];

  if (iColRefIdx < 0 && (slice.getCheckLDC() || bAllowMirrorMV))
  {
    eColRefPicList = RefPicList(1 - eColRefPicList);
    iColRefIdx = mi.refIdx[eColRefPicList];

    if (iColRefIdx < 0)
    {
      return false;
    }
  }

  if (iColRefIdx >= 0 && slice.getNumRefIdx(eCurrRefPicList) > 0)
  {
    iColPOC = pColSlice->getPOC();
    iColRefPOC = pColSlice->getRefPOC(eColRefPicList, iColRefIdx);
    ///////////////////////////////////////////////////////////////
    // Set the target reference index to 0, may be changed later //
    ///////////////////////////////////////////////////////////////
    iCurrRefPOC = slice.getRefPic(eCurrRefPicList, 0)->getPOC();
    // Scale the vector.
    cColMv = mi.mv[eColRefPicList];
    //pcMvFieldSP[2*iPartition + eCurrRefPicList].getMv();
    // Assume always short-term for now
    iScale = xGetDistScaleFactor(iCurrPOC, iCurrRefPOC, iColPOC, iColRefPOC);

    if (iScale != 4096)
    {
#if !REMOVE_MV_ADAPT_PREC
      if (slice.getSPS()->getSpsNext().getUseHighPrecMv())
      {
        cColMv.setHighPrec();
      }
#endif

      cColMv = cColMv.scaleMv(iScale);
    }

    return true;
  }
  return false;
}

#if JVET_L0257_ATMVP_COLBLK_CLIP
void clipColPos(int& posX, int& posY, const PredictionUnit& pu)
{
  Position puPos = pu.lumaPos();
  int log2CtuSize = g_aucLog2[pu.cs->sps->getSpsNext().getCTUSize()];
  int ctuX = ((puPos.x >> log2CtuSize) << log2CtuSize);
  int ctuY = ((puPos.y >> log2CtuSize) << log2CtuSize);

  int horMax = std::min((int)pu.cs->sps->getPicWidthInLumaSamples() - 1, ctuX + (int)pu.cs->sps->getSpsNext().getCTUSize() + 3);
  int horMin = std::max((int)0, ctuX);
  int verMax = std::min((int)pu.cs->sps->getPicHeightInLumaSamples() - 1, ctuY + (int)pu.cs->sps->getSpsNext().getCTUSize() - 1);
  int verMin = std::max((int)0, ctuY);

  posX = std::min(horMax, std::max(horMin, posX));
  posY = std::min(verMax, std::max(verMin, posY));
}
#else
void clipColBlkMv(int& mvX, int& mvY, const PredictionUnit& pu)
{
  Position puPos = pu.lumaPos();
  Size     puSize = pu.lumaSize();

  int ctuSize = pu.cs->sps->getSpsNext().getCTUSize();
  int ctuX = puPos.x / ctuSize*ctuSize;
  int ctuY = puPos.y / ctuSize*ctuSize;

  int horMax = std::min((int)pu.cs->sps->getPicWidthInLumaSamples(), ctuX + ctuSize + 4) - puSize.width;
  int horMin = std::max((int)0, ctuX);
  int verMax = std::min((int)pu.cs->sps->getPicHeightInLumaSamples(), ctuY + ctuSize) - puSize.height;
  int verMin = std::min((int)0, ctuY);

  horMax = horMax - puPos.x;
  horMin = horMin - puPos.x;
  verMax = verMax - puPos.y;
  verMin = verMin - puPos.y;

  mvX = std::min(horMax, std::max(horMin, mvX));
  mvY = std::min(verMax, std::max(verMin, mvY));
}
#endif

bool PU::getInterMergeSubPuMvpCand(const PredictionUnit &pu, MergeCtx& mrgCtx, bool& LICFlag, const int count
#if JVET_L0054_MMVD
  , int mmvdList
#endif
)
{
  const Slice   &slice = *pu.cs->slice;
  const unsigned scale = 4 * std::max<int>(1, 4 * AMVP_DECIMATION_FACTOR / 4);
  const unsigned mask = ~(scale - 1);

  const Picture *pColPic = slice.getRefPic(RefPicList(slice.isInterB() ? 1 - slice.getColFromL0Flag() : 0), slice.getColRefIdx());
  Mv cTMv;
  RefPicList fetchRefPicList = RefPicList(slice.isInterB() ? 1 - slice.getColFromL0Flag() : 0);

  bool terminate = false;
  for (unsigned currRefListId = 0; currRefListId < (slice.getSliceType() == B_SLICE ? 2 : 1) && !terminate; currRefListId++)
  {
    for (int uiN = 0; uiN < count && !terminate; uiN++)
    {
      RefPicList currRefPicList = RefPicList(slice.getCheckLDC() ? (slice.getColFromL0Flag() ? currRefListId : 1 - currRefListId) : currRefListId);

      if ((mrgCtx.interDirNeighbours[uiN] & (1 << currRefPicList)) && slice.getRefPic(currRefPicList, mrgCtx.mvFieldNeighbours[uiN * 2 + currRefPicList].refIdx) == pColPic)
      {
        cTMv = mrgCtx.mvFieldNeighbours[uiN * 2 + currRefPicList].mv;
        terminate = true;
        fetchRefPicList = currRefPicList;
        break;
      }
    }
  }

  ///////////////////////////////////////////////////////////////////////
  ////////          GET Initial Temporal Vector                  ////////
  ///////////////////////////////////////////////////////////////////////
  int mvPrec = 2;
#if !REMOVE_MV_ADAPT_PREC
  if (pu.cs->sps->getSpsNext().getUseHighPrecMv())
  {
    cTMv.setHighPrec();
#endif
    mvPrec += VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
#if !REMOVE_MV_ADAPT_PREC
  }
#endif
#if !JVET_L0257_ATMVP_COLBLK_CLIP
  int mvRndOffs = (1 << mvPrec) >> 1;
#endif

  Mv cTempVector = cTMv;
  bool  tempLICFlag = false;

  // compute the location of the current PU
  Position puPos = pu.lumaPos();
  Size puSize = pu.lumaSize();
  int numPartLine = std::max(puSize.width >> slice.getSubPuMvpSubblkLog2Size(), 1u);
  int numPartCol = std::max(puSize.height >> slice.getSubPuMvpSubblkLog2Size(), 1u);
  int puHeight = numPartCol == 1 ? puSize.height : 1 << slice.getSubPuMvpSubblkLog2Size();
  int puWidth = numPartLine == 1 ? puSize.width : 1 << slice.getSubPuMvpSubblkLog2Size();

  Mv cColMv;
  // use coldir.
  bool     bBSlice = slice.isInterB();

  Position centerPos;

  bool found = false;
  cTempVector = cTMv;
#if JVET_L0257_ATMVP_COLBLK_CLIP
  int tempX = cTempVector.getHor() >> mvPrec;
  int tempY = cTempVector.getVer() >> mvPrec;

  centerPos.x = puPos.x + (puSize.width >> 1) + tempX;
  centerPos.y = puPos.y + (puSize.height >> 1) + tempY;

  clipColPos(centerPos.x, centerPos.y, pu);
#else
  int tempX = ((cTempVector.getHor() + mvRndOffs) >> mvPrec);
  int tempY = ((cTempVector.getVer() + mvRndOffs) >> mvPrec);
  clipColBlkMv(tempX, tempY, pu);

  if (puSize.width == puWidth && puSize.height == puHeight)
  {
    centerPos.x = puPos.x + (puSize.width >> 1) + tempX;
    centerPos.y = puPos.y + (puSize.height >> 1) + tempY;
  }
  else
  {
    centerPos.x = puPos.x + ((puSize.width / puWidth) >> 1)   * puWidth + (puWidth >> 1) + tempX;
    centerPos.y = puPos.y + ((puSize.height / puHeight) >> 1) * puHeight + (puHeight >> 1) + tempY;
  }

  centerPos.x = Clip3(0, (int)pColPic->lwidth() - 1, centerPos.x);
  centerPos.y = Clip3(0, (int)pColPic->lheight() - 1, centerPos.y);
#endif

  centerPos = Position{ PosType(centerPos.x & mask), PosType(centerPos.y & mask) };

  // derivation of center motion parameters from the collocated CU
  const MotionInfo &mi = pColPic->cs->getMotionInfo(centerPos);

  if (mi.isInter)
  {
    for (unsigned currRefListId = 0; currRefListId < (bBSlice ? 2 : 1); currRefListId++)
    {
      RefPicList  currRefPicList = RefPicList(currRefListId);

      if (deriveScaledMotionTemporal(slice, centerPos, pColPic, currRefPicList, cColMv, fetchRefPicList))
      {
        // set as default, for further motion vector field spanning
        mrgCtx.mvFieldNeighbours[(count << 1) + currRefListId].setMvField(cColMv, 0);
        mrgCtx.interDirNeighbours[count] |= (1 << currRefListId);
        LICFlag = tempLICFlag;
#if JVET_L0646_GBI
        mrgCtx.GBiIdx[count] = GBI_DEFAULT;
#endif
        found = true;
      }
      else
      {
        mrgCtx.mvFieldNeighbours[(count << 1) + currRefListId].setMvField(Mv(), NOT_VALID);
        mrgCtx.interDirNeighbours[count] &= ~(1 << currRefListId);
      }
    }
  }

  if (!found)
  {
    return false;
  }
#if JVET_L0054_MMVD
  if (mmvdList != 1)
  {
#endif
#if JVET_L0257_ATMVP_COLBLK_CLIP
  int xOff = (puWidth >> 1) + tempX;
  int yOff = (puHeight >> 1) + tempY;
#else
  int xOff = puWidth / 2;
  int yOff = puHeight / 2;

  // compute the location of the current PU
  xOff += tempX;
  yOff += tempY;

  int iPicWidth = pColPic->lwidth() - 1;
  int iPicHeight = pColPic->lheight() - 1;
#endif

  MotionBuf& mb = mrgCtx.subPuMvpMiBuf;

  const bool isBiPred = isBipredRestriction(pu);

  for (int y = puPos.y; y < puPos.y + puSize.height; y += puHeight)
  {
    for (int x = puPos.x; x < puPos.x + puSize.width; x += puWidth)
    {
      Position colPos{ x + xOff, y + yOff };

#if JVET_L0257_ATMVP_COLBLK_CLIP
      clipColPos(colPos.x, colPos.y, pu);
#else
      colPos.x = Clip3(0, iPicWidth, colPos.x);
      colPos.y = Clip3(0, iPicHeight, colPos.y);
#endif

      colPos = Position{ PosType(colPos.x & mask), PosType(colPos.y & mask) };

      const MotionInfo &colMi = pColPic->cs->getMotionInfo(colPos);

      MotionInfo mi;

      mi.isInter = true;
      mi.sliceIdx = slice.getIndependentSliceIdx();

      if (colMi.isInter)
      {
        for (unsigned currRefListId = 0; currRefListId < (bBSlice ? 2 : 1); currRefListId++)
        {
          RefPicList currRefPicList = RefPicList(currRefListId);
          if (deriveScaledMotionTemporal(slice, colPos, pColPic, currRefPicList, cColMv, fetchRefPicList))
          {
            mi.refIdx[currRefListId] = 0;
            mi.mv[currRefListId] = cColMv;
          }
        }
        }
      else
      {
        // intra coded, in this case, no motion vector is available for list 0 or list 1, so use default
        mi.mv[0] = mrgCtx.mvFieldNeighbours[(count << 1) + 0].mv;
        mi.mv[1] = mrgCtx.mvFieldNeighbours[(count << 1) + 1].mv;
        mi.refIdx[0] = mrgCtx.mvFieldNeighbours[(count << 1) + 0].refIdx;
        mi.refIdx[1] = mrgCtx.mvFieldNeighbours[(count << 1) + 1].refIdx;
      }

      mi.interDir = (mi.refIdx[0] != -1 ? 1 : 0) + (mi.refIdx[1] != -1 ? 2 : 0);

      if (isBiPred && mi.interDir == 3)
      {
        mi.interDir = 1;
        mi.mv[1] = Mv();
        mi.refIdx[1] = NOT_VALID;
      }

      mb.subBuf(g_miScaling.scale(Position{ x, y } -pu.lumaPos()), g_miScaling.scale(Size(puWidth, puHeight))).fill(mi);
      }
    }
#if JVET_L0054_MMVD
  }
#endif
  return true;
  }

void PU::spanMotionInfo( PredictionUnit &pu, const MergeCtx &mrgCtx )
{
  MotionBuf mb = pu.getMotionBuf();

  if( !pu.mergeFlag || pu.mergeType == MRG_TYPE_DEFAULT_N )
  {
    MotionInfo mi;

    mi.isInter  = CU::isInter( *pu.cu );
    mi.sliceIdx = pu.cu->slice->getIndependentSliceIdx();

    if( mi.isInter )
    {
      mi.interDir = pu.interDir;

      for( int i = 0; i < NUM_REF_PIC_LIST_01; i++ )
      {
        mi.mv[i]     = pu.mv[i];
        mi.refIdx[i] = pu.refIdx[i];
      }
    }

    if( pu.cu->affine )
    {
      for( int y = 0; y < mb.height; y++ )
      {
        for( int x = 0; x < mb.width; x++ )
        {
          MotionInfo &dest = mb.at( x, y );
          dest.isInter  = mi.isInter;
          dest.interDir = mi.interDir;
          dest.sliceIdx = mi.sliceIdx;
          for( int i = 0; i < NUM_REF_PIC_LIST_01; i++ )
          {
            if( mi.refIdx[i] == -1 )
            {
              dest.mv[i] = Mv();
            }
            dest.refIdx[i] = mi.refIdx[i];
          }
        }
      }
    }
    else
    {
      mb.fill( mi );
    }
  }
  else if (pu.mergeType == MRG_TYPE_SUBPU_ATMVP)
  {
    CHECK(mrgCtx.subPuMvpMiBuf.area() == 0 || !mrgCtx.subPuMvpMiBuf.buf, "Buffer not initialized");
    mb.copyFrom(mrgCtx.subPuMvpMiBuf);
  }
  else
  {

    if( isBipredRestriction( pu ) )
    {
      for( int y = 0; y < mb.height; y++ )
      {
        for( int x = 0; x < mb.width; x++ )
        {
          MotionInfo &mi = mb.at( x, y );
          if( mi.interDir == 3 )
          {
            mi.interDir  = 1;
            mi.mv    [1] = Mv();
            mi.refIdx[1] = NOT_VALID;
          }
        }
      }
    }
  }
}

void PU::applyImv( PredictionUnit& pu, MergeCtx &mrgCtx, InterPrediction *interPred )
{
  if( !pu.mergeFlag )
  {
    unsigned imvShift = pu.cu->imv << 1;
    if( pu.interDir != 2 /* PRED_L1 */ )
    {
      if (pu.cu->imv)
      {
#if !REMOVE_MV_ADAPT_PREC
        CHECK(pu.mvd[0].highPrec, "Motion vector difference should never be high precision");
#endif
        pu.mvd[0] = Mv( pu.mvd[0].hor << imvShift, pu.mvd[0].ver << imvShift );
      }
      unsigned mvp_idx = pu.mvpIdx[0];
      AMVPInfo amvpInfo;
      PU::fillMvpCand(pu, REF_PIC_LIST_0, pu.refIdx[0], amvpInfo);
      pu.mvpNum[0] = amvpInfo.numCand;
      pu.mvpIdx[0] = mvp_idx;
      pu.mv    [0] = amvpInfo.mvCand[mvp_idx] + pu.mvd[0];
#if REMOVE_MV_ADAPT_PREC
      pu.mv[0].hor = pu.mv[0].hor << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
      pu.mv[0].ver = pu.mv[0].ver << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
#endif
    }

    if (pu.interDir != 1 /* PRED_L0 */)
    {
      if( !( pu.cu->cs->slice->getMvdL1ZeroFlag() && pu.interDir == 3 ) && pu.cu->imv )/* PRED_BI */
      {
#if !REMOVE_MV_ADAPT_PREC
        CHECK(pu.mvd[1].highPrec, "Motion vector difference should never be high precision");
#endif
        pu.mvd[1] = Mv( pu.mvd[1].hor << imvShift, pu.mvd[1].ver << imvShift );
      }
      unsigned mvp_idx = pu.mvpIdx[1];
      AMVPInfo amvpInfo;
      PU::fillMvpCand(pu, REF_PIC_LIST_1, pu.refIdx[1], amvpInfo);
      pu.mvpNum[1] = amvpInfo.numCand;
      pu.mvpIdx[1] = mvp_idx;
      pu.mv    [1] = amvpInfo.mvCand[mvp_idx] + pu.mvd[1];
#if REMOVE_MV_ADAPT_PREC
      pu.mv[1].hor = pu.mv[1].hor << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
      pu.mv[1].ver = pu.mv[1].ver << VCEG_AZ07_MV_ADD_PRECISION_BIT_FOR_STORE;
#endif
    }
  }
  else
  {
    // this function is never called for merge
    THROW("unexpected");
    PU::getInterMergeCandidates ( pu, mrgCtx 
#if JVET_L0054_MMVD
      , 0
#endif
    );
    PU::restrictBiPredMergeCands( pu, mrgCtx );

    mrgCtx.setMergeInfo( pu, pu.mergeIdx );
  }

  PU::spanMotionInfo( pu, mrgCtx );
}

bool PU::isBiPredFromDifferentDir( const PredictionUnit& pu )
{
  if ( pu.refIdx[0] >= 0 && pu.refIdx[1] >= 0 )
  {
    const int iPOC0 = pu.cu->slice->getRefPOC( REF_PIC_LIST_0, pu.refIdx[0] );
    const int iPOC1 = pu.cu->slice->getRefPOC( REF_PIC_LIST_1, pu.refIdx[1] );
    const int iPOC  = pu.cu->slice->getPOC();
    if ( (iPOC - iPOC0)*(iPOC - iPOC1) < 0 )
    {
      return true;
    }
  }

  return false;
}

void PU::restrictBiPredMergeCands( const PredictionUnit &pu, MergeCtx& mergeCtx )
{
  if( PU::isBipredRestriction( pu ) )
  {
    for( uint32_t mergeCand = 0; mergeCand < mergeCtx.numValidMergeCand; ++mergeCand )
    {
      if( mergeCtx.interDirNeighbours[ mergeCand ] == 3 )
      {
        mergeCtx.interDirNeighbours[ mergeCand ] = 1;
        mergeCtx.mvFieldNeighbours[( mergeCand << 1 ) + 1].setMvField( Mv( 0, 0 ), -1 );
#if JVET_L0646_GBI
        mergeCtx.GBiIdx[mergeCand] = GBI_DEFAULT;
#endif
      }
    }
  }
}

void CU::resetMVDandMV2Int( CodingUnit& cu, InterPrediction *interPred )
{
  for( auto &pu : CU::traversePUs( cu ) )
  {
    MergeCtx mrgCtx;

    if( !pu.mergeFlag )
    {
      unsigned imvShift = cu.imv << 1;
      if( pu.interDir != 2 /* PRED_L1 */ )
      {
        Mv mv        = pu.mv[0];
        Mv mvPred;
        AMVPInfo amvpInfo;
        PU::fillMvpCand(pu, REF_PIC_LIST_0, pu.refIdx[0], amvpInfo);
        pu.mvpNum[0] = amvpInfo.numCand;

        mvPred       = amvpInfo.mvCand[pu.mvpIdx[0]];
        roundMV      ( mv, imvShift );
        pu.mv[0]     = mv;
        Mv mvDiff    = mv - mvPred;
        pu.mvd[0]    = mvDiff;
      }
      if( pu.interDir != 1 /* PRED_L0 */ )
      {
        Mv mv        = pu.mv[1];
        Mv mvPred;
        AMVPInfo amvpInfo;
        PU::fillMvpCand(pu, REF_PIC_LIST_1, pu.refIdx[1], amvpInfo);
        pu.mvpNum[1] = amvpInfo.numCand;

        mvPred       = amvpInfo.mvCand[pu.mvpIdx[1]];
        roundMV      ( mv, imvShift );
        Mv mvDiff    = mv - mvPred;

        if( pu.cu->cs->slice->getMvdL1ZeroFlag() && pu.interDir == 3 /* PRED_BI */ )
        {
          pu.mvd[1] = Mv();
          mv = mvPred;
        }
        else
        {
          pu.mvd[1] = mvDiff;
        }
        pu.mv[1] = mv;
      }

    }
    else
    {
        PU::getInterMergeCandidates ( pu, mrgCtx 
#if JVET_L0054_MMVD
          , 0
#endif
        );
        PU::restrictBiPredMergeCands( pu, mrgCtx );

        mrgCtx.setMergeInfo( pu, pu.mergeIdx );
    }

    PU::spanMotionInfo( pu, mrgCtx );
  }
}

bool CU::hasSubCUNonZeroMVd( const CodingUnit& cu )
{
  bool bNonZeroMvd = false;

  for( const auto &pu : CU::traversePUs( cu ) )
  {
    if( ( !pu.mergeFlag ) && ( !cu.skip ) )
    {
      if( pu.interDir != 2 /* PRED_L1 */ )
      {
        bNonZeroMvd |= pu.mvd[REF_PIC_LIST_0].getHor() != 0;
        bNonZeroMvd |= pu.mvd[REF_PIC_LIST_0].getVer() != 0;
      }
      if( pu.interDir != 1 /* PRED_L0 */ )
      {
        if( !pu.cu->cs->slice->getMvdL1ZeroFlag() || pu.interDir != 3 /* PRED_BI */ )
        {
          bNonZeroMvd |= pu.mvd[REF_PIC_LIST_1].getHor() != 0;
          bNonZeroMvd |= pu.mvd[REF_PIC_LIST_1].getVer() != 0;
        }
      }
    }
  }

  return bNonZeroMvd;
}

int CU::getMaxNeighboriMVCandNum( const CodingStructure& cs, const Position& pos )
{
  const int  numDefault     = 0;
  int        maxImvNumCand  = 0;

  // Get BCBP of left PU
#if HEVC_TILES_WPP
  const CodingUnit *cuLeft  = cs.getCURestricted( pos.offset( -1, 0 ), cs.slice->getIndependentSliceIdx(), cs.picture->tileMap->getTileIdxMap( pos ), CH_L );
#else
  const CodingUnit *cuLeft  = cs.getCURestricted( pos.offset( -1, 0 ), cs.slice->getIndependentSliceIdx(), CH_L );
#endif
  maxImvNumCand = ( cuLeft ) ? cuLeft->imvNumCand : numDefault;

  // Get BCBP of above PU
#if HEVC_TILES_WPP
  const CodingUnit *cuAbove = cs.getCURestricted( pos.offset( 0, -1 ), cs.slice->getIndependentSliceIdx(), cs.picture->tileMap->getTileIdxMap( pos ), CH_L );
#else
  const CodingUnit *cuAbove = cs.getCURestricted( pos.offset( 0, -1 ), cs.slice->getIndependentSliceIdx(), CH_L );
#endif
  maxImvNumCand = std::max( maxImvNumCand, ( cuAbove ) ? cuAbove->imvNumCand : numDefault );

  return maxImvNumCand;
}

#if JVET_L0646_GBI
bool CU::isGBiIdxCoded( const CodingUnit &cu )
{
  if( cu.cs->sps->getSpsNext().getUseGBi() == false )
  {
    CHECK(cu.GBiIdx != GBI_DEFAULT, "Error: cu.GBiIdx != GBI_DEFAULT");
    return false;
  }

  if( cu.predMode == MODE_INTRA || cu.cs->slice->isInterP() )
  {
    return false;
  }

  if( cu.lwidth() * cu.lheight() < GBI_SIZE_CONSTRAINT )
  {
    return false;
  }

  if( cu.firstPU->interDir == 3 && !cu.firstPU->mergeFlag )
  {
    return true;
  }

  return false;
}

uint8_t CU::getValidGbiIdx( const CodingUnit &cu )
{
  if( cu.firstPU->interDir == 3 && !cu.firstPU->mergeFlag )
  {
    return cu.GBiIdx;
  }
  else if( cu.firstPU->interDir == 3 && cu.firstPU->mergeFlag && cu.firstPU->mergeType == MRG_TYPE_DEFAULT_N )
  {
    // This is intended to do nothing here.
  }
  else if( cu.firstPU->mergeFlag && cu.firstPU->mergeType == MRG_TYPE_SUBPU_ATMVP )
  {
    CHECK(cu.GBiIdx != GBI_DEFAULT, " cu.GBiIdx != GBI_DEFAULT ");
  }
  else
  {
    CHECK(cu.GBiIdx != GBI_DEFAULT, " cu.GBiIdx != GBI_DEFAULT ");
  }

  return GBI_DEFAULT;
}

void CU::setGbiIdx( CodingUnit &cu, uint8_t uh )
{
  int8_t uhCnt = 0;

  if( cu.firstPU->interDir == 3 && !cu.firstPU->mergeFlag )
  {
    cu.GBiIdx = uh;
    ++uhCnt;
  }
  else if( cu.firstPU->interDir == 3 && cu.firstPU->mergeFlag && cu.firstPU->mergeType == MRG_TYPE_DEFAULT_N )
  {
    // This is intended to do nothing here.
  }
  else if( cu.firstPU->mergeFlag && cu.firstPU->mergeType == MRG_TYPE_SUBPU_ATMVP )
  {
    cu.GBiIdx = GBI_DEFAULT;