ref: 17eed992af381d05e0a3af811aa4320d5b2cbbda
dir: /codec/decoder/core/src/rec_mb.cpp/
/*! * \copy * Copyright (c) 2009-2013, Cisco Systems * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * * \file rec_mb.c * * \brief implementation for all macroblock decoding process after mb syntax parsing and residual decoding with cavlc. * * \date 3/18/2009 Created * ************************************************************************************* */ #include "rec_mb.h" #include "decode_slice.h" namespace WelsDec { void WelsFillRecNeededMbInfo (PWelsDecoderContext pCtx, bool bOutput, PDqLayer pCurLayer) { PPicture pCurPic = pCtx->pDec; int32_t iLumaStride = pCurPic->iLinesize[0]; int32_t iChromaStride = pCurPic->iLinesize[1]; int32_t iMbX = pCurLayer->iMbX; int32_t iMbY = pCurLayer->iMbY; pCurLayer->iLumaStride = iLumaStride; pCurLayer->iChromaStride = iChromaStride; if (bOutput) { pCurLayer->pPred[0] = pCurPic->pData[0] + ((iMbY * iLumaStride + iMbX) << 4); pCurLayer->pPred[1] = pCurPic->pData[1] + ((iMbY * iChromaStride + iMbX) << 3); pCurLayer->pPred[2] = pCurPic->pData[2] + ((iMbY * iChromaStride + iMbX) << 3); } } int32_t RecI8x8Mb (int32_t iMbXy, PWelsDecoderContext pCtx, int16_t* pScoeffLevel, PDqLayer pDqLayer) { RecI8x8Luma (iMbXy, pCtx, pScoeffLevel, pDqLayer); RecI4x4Chroma (iMbXy, pCtx, pScoeffLevel, pDqLayer); return ERR_NONE; } int32_t RecI8x8Luma (int32_t iMbXy, PWelsDecoderContext pCtx, int16_t* pScoeffLevel, PDqLayer pDqLayer) { /*****get local variable from outer variable********/ /*prediction info*/ uint8_t* pPred = pDqLayer->pPred[0]; int32_t iLumaStride = pDqLayer->iLumaStride; int32_t* pBlockOffset = pCtx->iDecBlockOffsetArray; PGetIntraPred8x8Func* pGetI8x8LumaPredFunc = pCtx->pGetI8x8LumaPredFunc; int8_t* pIntra8x8PredMode = pDqLayer->pIntra4x4FinalMode[iMbXy]; // I_NxN int16_t* pRS = pScoeffLevel; /*itransform info*/ PIdctResAddPredFunc pIdctResAddPredFunc = pCtx->pIdctResAddPredFunc8x8; /*************local variable********************/ uint8_t i = 0; bool bTLAvail[4], bTRAvail[4]; // Top-Right : Left : Top-Left : Top bTLAvail[0] = !! (pDqLayer->pIntraNxNAvailFlag[iMbXy] & 0x02); bTLAvail[1] = !! (pDqLayer->pIntraNxNAvailFlag[iMbXy] & 0x01); bTLAvail[2] = !! (pDqLayer->pIntraNxNAvailFlag[iMbXy] & 0x04); bTLAvail[3] = true; bTRAvail[0] = !! (pDqLayer->pIntraNxNAvailFlag[iMbXy] & 0x01); bTRAvail[1] = !! (pDqLayer->pIntraNxNAvailFlag[iMbXy] & 0x08); bTRAvail[2] = true; bTRAvail[3] = false; /*************real process*********************/ for (i = 0; i < 4; i++) { uint8_t* pPredI8x8 = pPred + pBlockOffset[i << 2]; uint8_t uiMode = pIntra8x8PredMode[g_kuiScan4[i << 2]]; pGetI8x8LumaPredFunc[uiMode] (pPredI8x8, iLumaStride, bTLAvail[i], bTRAvail[i]); int32_t iIndex = g_kuiMbCountScan4Idx[i << 2]; if (pDqLayer->pNzc[iMbXy][iIndex] || pDqLayer->pNzc[iMbXy][iIndex + 1] || pDqLayer->pNzc[iMbXy][iIndex + 4] || pDqLayer->pNzc[iMbXy][iIndex + 5]) { int16_t* pRSI8x8 = &pRS[i << 6]; pIdctResAddPredFunc (pPredI8x8, iLumaStride, pRSI8x8); } } return ERR_NONE; } int32_t RecI4x4Mb (int32_t iMBXY, PWelsDecoderContext pCtx, int16_t* pScoeffLevel, PDqLayer pDqLayer) { RecI4x4Luma (iMBXY, pCtx, pScoeffLevel, pDqLayer); RecI4x4Chroma (iMBXY, pCtx, pScoeffLevel, pDqLayer); return ERR_NONE; } int32_t RecI4x4Luma (int32_t iMBXY, PWelsDecoderContext pCtx, int16_t* pScoeffLevel, PDqLayer pDqLayer) { /*****get local variable from outer variable********/ /*prediction info*/ uint8_t* pPred = pDqLayer->pPred[0]; int32_t iLumaStride = pDqLayer->iLumaStride; int32_t* pBlockOffset = pCtx->iDecBlockOffsetArray; PGetIntraPredFunc* pGetI4x4LumaPredFunc = pCtx->pGetI4x4LumaPredFunc; int8_t* pIntra4x4PredMode = pDqLayer->pIntra4x4FinalMode[iMBXY]; int16_t* pRS = pScoeffLevel; /*itransform info*/ PIdctResAddPredFunc pIdctResAddPredFunc = pCtx->pIdctResAddPredFunc; /*************local variable********************/ uint8_t i = 0; /*************real process*********************/ for (i = 0; i < 16; i++) { uint8_t* pPredI4x4 = pPred + pBlockOffset[i]; uint8_t uiMode = pIntra4x4PredMode[g_kuiScan4[i]]; pGetI4x4LumaPredFunc[uiMode] (pPredI4x4, iLumaStride); if (pDqLayer->pNzc[iMBXY][g_kuiMbCountScan4Idx[i]]) { int16_t* pRSI4x4 = &pRS[i << 4]; pIdctResAddPredFunc (pPredI4x4, iLumaStride, pRSI4x4); } } return ERR_NONE; } int32_t RecI4x4Chroma (int32_t iMBXY, PWelsDecoderContext pCtx, int16_t* pScoeffLevel, PDqLayer pDqLayer) { int32_t iChromaStride = pCtx->pCurDqLayer->pDec->iLinesize[1]; int8_t iChromaPredMode = pDqLayer->pChromaPredMode[iMBXY]; PGetIntraPredFunc* pGetIChromaPredFunc = pCtx->pGetIChromaPredFunc; uint8_t* pPred = pDqLayer->pPred[1]; pGetIChromaPredFunc[iChromaPredMode] (pPred, iChromaStride); pPred = pDqLayer->pPred[2]; pGetIChromaPredFunc[iChromaPredMode] (pPred, iChromaStride); RecChroma (iMBXY, pCtx, pScoeffLevel, pDqLayer); return ERR_NONE; } int32_t RecI16x16Mb (int32_t iMBXY, PWelsDecoderContext pCtx, int16_t* pScoeffLevel, PDqLayer pDqLayer) { /*decoder use, encoder no use*/ int8_t iI16x16PredMode = pDqLayer->pIntraPredMode[iMBXY][7]; int8_t iChromaPredMode = pDqLayer->pChromaPredMode[iMBXY]; PGetIntraPredFunc* pGetIChromaPredFunc = pCtx->pGetIChromaPredFunc; PGetIntraPredFunc* pGetI16x16LumaPredFunc = pCtx->pGetI16x16LumaPredFunc; int32_t iUVStride = pCtx->pCurDqLayer->pDec->iLinesize[1]; /*common use by decoder&encoder*/ int32_t iYStride = pDqLayer->iLumaStride; int16_t* pRS = pScoeffLevel; uint8_t* pPred = pDqLayer->pPred[0]; PIdctFourResAddPredFunc pIdctFourResAddPredFunc = pCtx->pIdctFourResAddPredFunc; /*decode i16x16 y*/ pGetI16x16LumaPredFunc[iI16x16PredMode] (pPred, iYStride); /*1 mb is divided 16 4x4_block to idct*/ const int8_t* pNzc = pDqLayer->pNzc[iMBXY]; pIdctFourResAddPredFunc (pPred + 0 * iYStride + 0, iYStride, pRS + 0 * 64, pNzc + 0); pIdctFourResAddPredFunc (pPred + 0 * iYStride + 8, iYStride, pRS + 1 * 64, pNzc + 2); pIdctFourResAddPredFunc (pPred + 8 * iYStride + 0, iYStride, pRS + 2 * 64, pNzc + 8); pIdctFourResAddPredFunc (pPred + 8 * iYStride + 8, iYStride, pRS + 3 * 64, pNzc + 10); /*decode intra mb cb&cr*/ pPred = pDqLayer->pPred[1]; pGetIChromaPredFunc[iChromaPredMode] (pPred, iUVStride); pPred = pDqLayer->pPred[2]; pGetIChromaPredFunc[iChromaPredMode] (pPred, iUVStride); RecChroma (iMBXY, pCtx, pScoeffLevel, pDqLayer); return ERR_NONE; } //according to current 8*8 block ref_index to gain reference picture static inline void GetRefPic (sMCRefMember* pMCRefMem, PWelsDecoderContext pCtx, int8_t* pRefIdxList, int32_t iIndex) { PPicture pRefPic; int8_t iRefIdx = pRefIdxList[iIndex]; pRefPic = pCtx->sRefPic.pRefList[LIST_0][iRefIdx]; pMCRefMem->iSrcLineLuma = pRefPic->iLinesize[0]; pMCRefMem->iSrcLineChroma = pRefPic->iLinesize[1]; pMCRefMem->pSrcY = pRefPic->pData[0]; pMCRefMem->pSrcU = pRefPic->pData[1]; pMCRefMem->pSrcV = pRefPic->pData[2]; } #ifndef MC_FLOW_SIMPLE_JUDGE #define MC_FLOW_SIMPLE_JUDGE 1 #endif //MC_FLOW_SIMPLE_JUDGE void BaseMC (sMCRefMember* pMCRefMem, int32_t iXOffset, int32_t iYOffset, SMcFunc* pMCFunc, int32_t iBlkWidth, int32_t iBlkHeight, int16_t iMVs[2]) { int32_t iFullMVx = (iXOffset << 2) + iMVs[0]; //quarter pixel int32_t iFullMVy = (iYOffset << 2) + iMVs[1]; iFullMVx = WELS_CLIP3 (iFullMVx, ((-PADDING_LENGTH + 2) * (1 << 2)), ((pMCRefMem->iPicWidth + PADDING_LENGTH - 19) * (1 << 2))); iFullMVy = WELS_CLIP3 (iFullMVy, ((-PADDING_LENGTH + 2) * (1 << 2)), ((pMCRefMem->iPicHeight + PADDING_LENGTH - 19) * (1 << 2))); int32_t iSrcPixOffsetLuma = (iFullMVx >> 2) + (iFullMVy >> 2) * pMCRefMem->iSrcLineLuma; int32_t iSrcPixOffsetChroma = (iFullMVx >> 3) + (iFullMVy >> 3) * pMCRefMem->iSrcLineChroma; int32_t iBlkWidthChroma = iBlkWidth >> 1; int32_t iBlkHeightChroma = iBlkHeight >> 1; uint8_t* pSrcY = pMCRefMem->pSrcY + iSrcPixOffsetLuma; uint8_t* pSrcU = pMCRefMem->pSrcU + iSrcPixOffsetChroma; uint8_t* pSrcV = pMCRefMem->pSrcV + iSrcPixOffsetChroma; uint8_t* pDstY = pMCRefMem->pDstY; uint8_t* pDstU = pMCRefMem->pDstU; uint8_t* pDstV = pMCRefMem->pDstV; pMCFunc->pMcLumaFunc (pSrcY, pMCRefMem->iSrcLineLuma, pDstY, pMCRefMem->iDstLineLuma, iFullMVx, iFullMVy, iBlkWidth, iBlkHeight); pMCFunc->pMcChromaFunc (pSrcU, pMCRefMem->iSrcLineChroma, pDstU, pMCRefMem->iDstLineChroma, iFullMVx, iFullMVy, iBlkWidthChroma, iBlkHeightChroma); pMCFunc->pMcChromaFunc (pSrcV, pMCRefMem->iSrcLineChroma, pDstV, pMCRefMem->iDstLineChroma, iFullMVx, iFullMVy, iBlkWidthChroma, iBlkHeightChroma); } void WeightPrediction (PDqLayer pCurDqLayer, sMCRefMember* pMCRefMem, int32_t iRefIdx, int32_t iBlkWidth, int32_t iBlkHeight) { int32_t iLog2denom, iWoc, iOoc; int32_t iPredTemp, iLineStride; int32_t iPixel = 0; uint8_t* pDst; //luma iLog2denom = pCurDqLayer->pPredWeightTable->uiLumaLog2WeightDenom; iWoc = pCurDqLayer->pPredWeightTable->sPredList[LIST_0].iLumaWeight[iRefIdx]; iOoc = pCurDqLayer->pPredWeightTable->sPredList[LIST_0].iLumaOffset[iRefIdx]; iLineStride = pMCRefMem->iDstLineLuma; for (int i = 0; i < iBlkHeight; i++) { for (int j = 0; j < iBlkWidth; j++) { iPixel = j + i * (iLineStride); if (iLog2denom >= 1) { iPredTemp = ((pMCRefMem->pDstY[iPixel] * iWoc + (1 << (iLog2denom - 1))) >> iLog2denom) + iOoc; pMCRefMem->pDstY[iPixel] = WELS_CLIP3 (iPredTemp, 0, 255); } else { iPredTemp = pMCRefMem->pDstY[iPixel] * iWoc + iOoc; pMCRefMem->pDstY[iPixel] = WELS_CLIP3 (iPredTemp, 0, 255); } } } //UV iBlkWidth = iBlkWidth >> 2; iBlkHeight = iBlkHeight >> 2; iLog2denom = pCurDqLayer->pPredWeightTable->uiChromaLog2WeightDenom; iLineStride = pMCRefMem->iDstLineChroma; for (int i = 0; i < 2; i++) { //iLog2denom = pCurDqLayer->pPredWeightTable->uiChromaLog2WeightDenom; iWoc = pCurDqLayer->pPredWeightTable->sPredList[LIST_0].iChromaWeight[iRefIdx][i]; iOoc = pCurDqLayer->pPredWeightTable->sPredList[LIST_0].iChromaOffset[iRefIdx][i]; pDst = i ? pMCRefMem->pDstV : pMCRefMem->pDstU; //iLineStride = pMCRefMem->iDstLineChroma; for (int i = 0; i < iBlkHeight ; i++) { for (int j = 0; j < iBlkWidth; j++) { iPixel = j + i * (iLineStride); if (iLog2denom >= 1) { iPredTemp = ((pDst[iPixel] * iWoc + (1 << (iLog2denom - 1))) >> iLog2denom) + iOoc; pDst[iPixel] = WELS_CLIP3 (iPredTemp, 0, 255); } else { iPredTemp = pDst[iPixel] * iWoc + iOoc; pDst[iPixel] = WELS_CLIP3 (iPredTemp, 0, 255); } } } } } void GetInterPred (uint8_t* pPredY, uint8_t* pPredCb, uint8_t* pPredCr, PWelsDecoderContext pCtx) { sMCRefMember pMCRefMem; PDqLayer pCurDqLayer = pCtx->pCurDqLayer; SMcFunc* pMCFunc = &pCtx->sMcFunc; int32_t iMBXY = pCurDqLayer->iMbXyIndex; int16_t iMVs[2] = {0}; int32_t iMBType = pCurDqLayer->pMbType[iMBXY]; int32_t iMBOffsetX = pCurDqLayer->iMbX << 4; int32_t iMBOffsetY = pCurDqLayer->iMbY << 4; int32_t iDstLineLuma = pCtx->pDec->iLinesize[0]; int32_t iDstLineChroma = pCtx->pDec->iLinesize[1]; int32_t iBlk8X, iBlk8Y, iBlk4X, iBlk4Y, i, j, iIIdx, iJIdx; pMCRefMem.iPicWidth = (pCurDqLayer->sLayerInfo.sSliceInLayer.sSliceHeaderExt.sSliceHeader.iMbWidth << 4); pMCRefMem.iPicHeight = (pCurDqLayer->sLayerInfo.sSliceInLayer.sSliceHeaderExt.sSliceHeader.iMbHeight << 4); pMCRefMem.pDstY = pPredY; pMCRefMem.pDstU = pPredCb; pMCRefMem.pDstV = pPredCr; pMCRefMem.iDstLineLuma = iDstLineLuma; pMCRefMem.iDstLineChroma = iDstLineChroma; int32_t iRefIndex = 0; switch (iMBType) { case MB_TYPE_SKIP: case MB_TYPE_16x16: iMVs[0] = pCurDqLayer->pMv[0][iMBXY][0][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][0][1]; GetRefPic (&pMCRefMem, pCtx, pCurDqLayer->pRefIndex[0][iMBXY], 0); BaseMC (&pMCRefMem, iMBOffsetX, iMBOffsetY, pMCFunc, 16, 16, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { iRefIndex = pCurDqLayer->pRefIndex[0][iMBXY][0]; WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 16, 16); } break; case MB_TYPE_16x8: iMVs[0] = pCurDqLayer->pMv[0][iMBXY][0][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][0][1]; GetRefPic (&pMCRefMem, pCtx, pCurDqLayer->pRefIndex[0][iMBXY], 0); BaseMC (&pMCRefMem, iMBOffsetX, iMBOffsetY, pMCFunc, 16, 8, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { iRefIndex = pCurDqLayer->pRefIndex[0][iMBXY][0]; WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 16, 8); } iMVs[0] = pCurDqLayer->pMv[0][iMBXY][8][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][8][1]; GetRefPic (&pMCRefMem, pCtx, pCurDqLayer->pRefIndex[0][iMBXY], 8); pMCRefMem.pDstY = pPredY + (iDstLineLuma << 3); pMCRefMem.pDstU = pPredCb + (iDstLineChroma << 2); pMCRefMem.pDstV = pPredCr + (iDstLineChroma << 2); BaseMC (&pMCRefMem, iMBOffsetX, iMBOffsetY + 8, pMCFunc, 16, 8, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { iRefIndex = pCurDqLayer->pRefIndex[0][iMBXY][8]; WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 16, 8); } break; case MB_TYPE_8x16: iMVs[0] = pCurDqLayer->pMv[0][iMBXY][0][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][0][1]; GetRefPic (&pMCRefMem, pCtx, pCurDqLayer->pRefIndex[0][iMBXY], 0); BaseMC (&pMCRefMem, iMBOffsetX, iMBOffsetY, pMCFunc, 8, 16, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { iRefIndex = pCurDqLayer->pRefIndex[0][iMBXY][0]; WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 8, 16); } iMVs[0] = pCurDqLayer->pMv[0][iMBXY][2][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][2][1]; GetRefPic (&pMCRefMem, pCtx, pCurDqLayer->pRefIndex[0][iMBXY], 2); pMCRefMem.pDstY = pPredY + 8; pMCRefMem.pDstU = pPredCb + 4; pMCRefMem.pDstV = pPredCr + 4; BaseMC (&pMCRefMem, iMBOffsetX + 8, iMBOffsetY, pMCFunc, 8, 16, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { iRefIndex = pCurDqLayer->pRefIndex[0][iMBXY][2]; WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 8, 16); } break; case MB_TYPE_8x8: case MB_TYPE_8x8_REF0: { uint32_t iSubMBType; int32_t iXOffset, iYOffset; uint8_t* pDstY, *pDstU, *pDstV; for (i = 0; i < 4; i++) { iSubMBType = pCurDqLayer->pSubMbType[iMBXY][i]; iBlk8X = (i & 1) << 3; iBlk8Y = (i >> 1) << 3; iXOffset = iMBOffsetX + iBlk8X; iYOffset = iMBOffsetY + iBlk8Y; iIIdx = ((i >> 1) << 3) + ((i & 1) << 1); GetRefPic (&pMCRefMem, pCtx, pCurDqLayer->pRefIndex[0][iMBXY], iIIdx); iRefIndex = pCurDqLayer->bUseWeightPredictionFlag ? pCurDqLayer->pRefIndex[0][iMBXY][iIIdx] : 0; pDstY = pPredY + iBlk8X + iBlk8Y * iDstLineLuma; pDstU = pPredCb + (iBlk8X >> 1) + (iBlk8Y >> 1) * iDstLineChroma; pDstV = pPredCr + (iBlk8X >> 1) + (iBlk8Y >> 1) * iDstLineChroma; pMCRefMem.pDstY = pDstY; pMCRefMem.pDstU = pDstU; pMCRefMem.pDstV = pDstV; switch (iSubMBType) { case SUB_MB_TYPE_8x8: iMVs[0] = pCurDqLayer->pMv[0][iMBXY][iIIdx][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][iIIdx][1]; BaseMC (&pMCRefMem, iXOffset, iYOffset, pMCFunc, 8, 8, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 8, 8); } break; case SUB_MB_TYPE_8x4: iMVs[0] = pCurDqLayer->pMv[0][iMBXY][iIIdx][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][iIIdx][1]; BaseMC (&pMCRefMem, iXOffset, iYOffset, pMCFunc, 8, 4, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 8, 4); } iMVs[0] = pCurDqLayer->pMv[0][iMBXY][iIIdx + 4][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][iIIdx + 4][1]; pMCRefMem.pDstY += (iDstLineLuma << 2); pMCRefMem.pDstU += (iDstLineChroma << 1); pMCRefMem.pDstV += (iDstLineChroma << 1); BaseMC (&pMCRefMem, iXOffset, iYOffset + 4, pMCFunc, 8, 4, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 8, 4); } break; case SUB_MB_TYPE_4x8: iMVs[0] = pCurDqLayer->pMv[0][iMBXY][iIIdx][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][iIIdx][1]; BaseMC (&pMCRefMem, iXOffset, iYOffset, pMCFunc, 4, 8, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 4, 8); } iMVs[0] = pCurDqLayer->pMv[0][iMBXY][iIIdx + 1][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][iIIdx + 1][1]; pMCRefMem.pDstY += 4; pMCRefMem.pDstU += 2; pMCRefMem.pDstV += 2; BaseMC (&pMCRefMem, iXOffset + 4, iYOffset, pMCFunc, 4, 8, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 4, 8); } break; case SUB_MB_TYPE_4x4: { for (j = 0; j < 4; j++) { int32_t iUVLineStride; iJIdx = ((j >> 1) << 2) + (j & 1); iBlk4X = (j & 1) << 2; iBlk4Y = (j >> 1) << 2; iUVLineStride = (iBlk4X >> 1) + (iBlk4Y >> 1) * iDstLineChroma; pMCRefMem.pDstY = pDstY + iBlk4X + iBlk4Y * iDstLineLuma; pMCRefMem.pDstU = pDstU + iUVLineStride; pMCRefMem.pDstV = pDstV + iUVLineStride; iMVs[0] = pCurDqLayer->pMv[0][iMBXY][iIIdx + iJIdx][0]; iMVs[1] = pCurDqLayer->pMv[0][iMBXY][iIIdx + iJIdx][1]; BaseMC (&pMCRefMem, iXOffset + iBlk4X, iYOffset + iBlk4Y, pMCFunc, 4, 4, iMVs); if (pCurDqLayer->bUseWeightPredictionFlag) { WeightPrediction (pCurDqLayer, &pMCRefMem, iRefIndex, 4, 4); } } } break; default: break; } } } break; default: break; } } int32_t RecChroma (int32_t iMBXY, PWelsDecoderContext pCtx, int16_t* pScoeffLevel, PDqLayer pDqLayer) { int32_t iChromaStride = pCtx->pCurDqLayer->pDec->iLinesize[1]; PIdctFourResAddPredFunc pIdctFourResAddPredFunc = pCtx->pIdctFourResAddPredFunc; uint8_t i = 0; uint8_t uiCbpC = pDqLayer->pCbp[iMBXY] >> 4; if (1 == uiCbpC || 2 == uiCbpC) { WelsChromaDcIdct (pScoeffLevel + 256); // 256 = 16*16 WelsChromaDcIdct (pScoeffLevel + 320); // 256 = 16*16 for (i = 0; i < 2; i++) { int16_t* pRS = pScoeffLevel + 256 + (i << 6); uint8_t* pPred = pDqLayer->pPred[i + 1]; const int8_t* pNzc = pDqLayer->pNzc[iMBXY] + 16 + 2 * i; /*1 chroma is divided 4 4x4_block to idct*/ pIdctFourResAddPredFunc (pPred, iChromaStride, pRS, pNzc); } } return ERR_NONE; } } // namespace WelsDec