ref: d14e714d9ddad7f6b34d3c8c2a065c49f7b3cf8d
dir: /codec/decoder/core/src/manage_dec_ref.cpp/
/*! * \copy * Copyright (c) 2008-2013, 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. * * * manage_dec_ref.cpp * * Abstract * Implementation for managing reference picture * * History * 07/21/2008 Created * *****************************************************************************/ #include "manage_dec_ref.h" #include "error_concealment.h" #include "error_code.h" #include "decoder.h" namespace WelsDec { static PPicture WelsDelShortFromList (PRefPic pRefPic, int32_t iFrameNum); static PPicture WelsDelLongFromList (PRefPic pRefPic, uint32_t uiLongTermFrameIdx); static PPicture WelsDelShortFromListSetUnref (PRefPic pRefPic, int32_t iFrameNum); static PPicture WelsDelLongFromListSetUnref (PRefPic pRefPic, uint32_t uiLongTermFrameIdx); static int32_t MMCO (PWelsDecoderContext pCtx, PRefPic pRefPic, PRefPicMarking pRefPicMarking); static int32_t MMCOProcess (PWelsDecoderContext pCtx, PRefPic pRefPic, uint32_t uiMmcoType, int32_t iShortFrameNum, uint32_t uiLongTermPicNum, int32_t iLongTermFrameIdx, int32_t iMaxLongTermFrameIdx); static int32_t SlidingWindow (PWelsDecoderContext pCtx, PRefPic pRefPic); static int32_t AddShortTermToList (PRefPic pRefPic, PPicture pPic); static int32_t AddLongTermToList (PRefPic pRefPic, PPicture pPic, int32_t iLongTermFrameIdx, uint32_t uiLongTermPicNum); static int32_t MarkAsLongTerm (PRefPic pRefPic, int32_t iFrameNum, int32_t iLongTermFrameIdx, uint32_t uiLongTermPicNum); static int32_t WelsCheckAndRecoverForFutureDecoding (PWelsDecoderContext pCtx); #ifdef LONG_TERM_REF int32_t GetLTRFrameIndex (PRefPic pRefPic, int32_t iAncLTRFrameNum); #endif static int32_t RemainOneBufferInDpbForEC (PWelsDecoderContext pCtx, PRefPic pRefPic); static void SetUnRef (PPicture pRef) { if (NULL != pRef) { pRef->bUsedAsRef = false; pRef->bIsLongRef = false; pRef->iFrameNum = -1; pRef->iFrameWrapNum = -1; //pRef->iFramePoc = 0; pRef->iLongTermFrameIdx = -1; pRef->uiLongTermPicNum = 0; pRef->uiQualityId = -1; pRef->uiTemporalId = -1; pRef->uiSpatialId = -1; pRef->iSpsId = -1; pRef->bIsComplete = false; pRef->iRefCount = 0; if (pRef->eSliceType == I_SLICE) { return; } int32_t lists = pRef->eSliceType == P_SLICE ? 1 : 2; for (int32_t i = 0; i < MAX_DPB_COUNT; ++i) { for (int32_t list = 0; list < lists; ++list) { if (pRef->pRefPic[list][i] != NULL) { pRef->pRefPic[list][i]->iRefCount = 0; pRef->pRefPic[list][i] = NULL; } } } } } //reset pRefList when // 1.sps arrived that is new sequence starting // 2.IDR NAL i.e. 1st layer in IDR AU void WelsResetRefPic (PWelsDecoderContext pCtx) { int32_t i = 0; PRefPic pRefPic = &pCtx->sRefPic; pCtx->sRefPic.uiLongRefCount[LIST_0] = pCtx->sRefPic.uiShortRefCount[LIST_0] = 0; pRefPic->uiRefCount[LIST_0] = 0; pRefPic->uiRefCount[LIST_1] = 0; for (i = 0; i < MAX_DPB_COUNT; i++) { if (pRefPic->pShortRefList[LIST_0][i] != NULL) { SetUnRef (pRefPic->pShortRefList[LIST_0][i]); pRefPic->pShortRefList[LIST_0][i] = NULL; } } pRefPic->uiShortRefCount[LIST_0] = 0; for (i = 0; i < MAX_DPB_COUNT; i++) { if (pRefPic->pLongRefList[LIST_0][i] != NULL) { SetUnRef (pRefPic->pLongRefList[LIST_0][i]); pRefPic->pLongRefList[LIST_0][i] = NULL; } } pRefPic->uiLongRefCount[LIST_0] = 0; } void WelsResetRefPicWithoutUnRef (PWelsDecoderContext pCtx) { int32_t i = 0; PRefPic pRefPic = &pCtx->sRefPic; pCtx->sRefPic.uiLongRefCount[LIST_0] = pCtx->sRefPic.uiShortRefCount[LIST_0] = 0; pRefPic->uiRefCount[LIST_0] = 0; pRefPic->uiRefCount[LIST_1] = 0; for (i = 0; i < MAX_DPB_COUNT; i++) { pRefPic->pShortRefList[LIST_0][i] = NULL; } pRefPic->uiShortRefCount[LIST_0] = 0; for (i = 0; i < MAX_DPB_COUNT; i++) { pRefPic->pLongRefList[LIST_0][i] = NULL; } pRefPic->uiLongRefCount[LIST_0] = 0; } static int32_t WelsCheckAndRecoverForFutureDecoding (PWelsDecoderContext pCtx) { if ((pCtx->sRefPic.uiShortRefCount[LIST_0] + pCtx->sRefPic.uiLongRefCount[LIST_0] <= 0) && (pCtx->eSliceType != I_SLICE && pCtx->eSliceType != SI_SLICE)) { if (pCtx->pParam->eEcActiveIdc != ERROR_CON_DISABLE) { //IDR lost!, recover it for future decoding with data all set to 0 PPicture pRef = PrefetchPic (pCtx->pPicBuff); if (pRef != NULL) { // IDR lost, set new pRef->bIsComplete = false; // Set complete flag to false for lost IDR ref picture pRef->iSpsId = pCtx->pSps->iSpsId; pRef->iPpsId = pCtx->pPps->iPpsId; if (pCtx->eSliceType == B_SLICE) { //reset reference's references when IDR is lost for (int32_t list = LIST_0; list < LIST_A; ++list) { for (int32_t i = 0; i < MAX_DPB_COUNT; ++i) { pRef->pRefPic[list][i] = NULL; } } } pCtx->iErrorCode |= dsDataErrorConcealed; bool bCopyPrevious = ((ERROR_CON_FRAME_COPY_CROSS_IDR == pCtx->pParam->eEcActiveIdc) || (ERROR_CON_SLICE_COPY_CROSS_IDR == pCtx->pParam->eEcActiveIdc) || (ERROR_CON_SLICE_COPY_CROSS_IDR_FREEZE_RES_CHANGE == pCtx->pParam->eEcActiveIdc) || (ERROR_CON_SLICE_MV_COPY_CROSS_IDR == pCtx->pParam->eEcActiveIdc) || (ERROR_CON_SLICE_MV_COPY_CROSS_IDR_FREEZE_RES_CHANGE == pCtx->pParam->eEcActiveIdc)) && (NULL != pCtx->pLastDecPicInfo->pPreviousDecodedPictureInDpb); bCopyPrevious = bCopyPrevious && (pRef->iWidthInPixel == pCtx->pLastDecPicInfo->pPreviousDecodedPictureInDpb->iWidthInPixel) && (pRef->iHeightInPixel == pCtx->pLastDecPicInfo->pPreviousDecodedPictureInDpb->iHeightInPixel); if (!bCopyPrevious) { memset (pRef->pData[0], 128, pRef->iLinesize[0] * pRef->iHeightInPixel); memset (pRef->pData[1], 128, pRef->iLinesize[1] * pRef->iHeightInPixel / 2); memset (pRef->pData[2], 128, pRef->iLinesize[2] * pRef->iHeightInPixel / 2); } else if (pRef == pCtx->pLastDecPicInfo->pPreviousDecodedPictureInDpb) { WelsLog (& (pCtx->sLogCtx), WELS_LOG_WARNING, "WelsInitRefList()::EC memcpy overlap."); } else { memcpy (pRef->pData[0], pCtx->pLastDecPicInfo->pPreviousDecodedPictureInDpb->pData[0], pRef->iLinesize[0] * pRef->iHeightInPixel); memcpy (pRef->pData[1], pCtx->pLastDecPicInfo->pPreviousDecodedPictureInDpb->pData[1], pRef->iLinesize[1] * pRef->iHeightInPixel / 2); memcpy (pRef->pData[2], pCtx->pLastDecPicInfo->pPreviousDecodedPictureInDpb->pData[2], pRef->iLinesize[2] * pRef->iHeightInPixel / 2); } pRef->iFrameNum = 0; pRef->iFramePoc = 0; pRef->uiTemporalId = pRef->uiQualityId = 0; pRef->eSliceType = pCtx->eSliceType; ExpandReferencingPicture (pRef->pData, pRef->iWidthInPixel, pRef->iHeightInPixel, pRef->iLinesize, pCtx->sExpandPicFunc.pfExpandLumaPicture, pCtx->sExpandPicFunc.pfExpandChromaPicture); AddShortTermToList (&pCtx->sRefPic, pRef); } else { WelsLog (& (pCtx->sLogCtx), WELS_LOG_ERROR, "WelsInitRefList()::PrefetchPic for EC errors."); pCtx->iErrorCode |= dsOutOfMemory; return ERR_INFO_REF_COUNT_OVERFLOW; } } } return ERR_NONE; } static void WrapShortRefPicNum (PWelsDecoderContext pCtx) { int32_t i; PSliceHeader pSliceHeader = &pCtx->pCurDqLayer->sLayerInfo.sSliceInLayer.sSliceHeaderExt.sSliceHeader; int32_t iMaxPicNum = 1 << pSliceHeader->pSps->uiLog2MaxFrameNum; PPicture* ppShoreRefList = pCtx->sRefPic.pShortRefList[LIST_0]; int32_t iShortRefCount = pCtx->sRefPic.uiShortRefCount[LIST_0]; //wrap pic num for (i = 0; i < iShortRefCount; i++) { if (ppShoreRefList[i]) { if (ppShoreRefList[i]->iFrameNum > pSliceHeader->iFrameNum) ppShoreRefList[i]->iFrameWrapNum = ppShoreRefList[i]->iFrameNum - iMaxPicNum; else ppShoreRefList[i]->iFrameWrapNum = ppShoreRefList[i]->iFrameNum; } } } /** * fills the pRefPic.pRefList LIST_0 and LIST_0 for B-Slice. */ int32_t WelsInitBSliceRefList (PWelsDecoderContext pCtx, int32_t iPoc) { int32_t err = WelsCheckAndRecoverForFutureDecoding (pCtx); if (err != ERR_NONE) return err; WrapShortRefPicNum (pCtx); PPicture* ppShoreRefList = pCtx->sRefPic.pShortRefList[LIST_0]; PPicture* ppLongRefList = pCtx->sRefPic.pLongRefList[LIST_0]; memset (pCtx->sRefPic.pRefList[LIST_0], 0, MAX_DPB_COUNT * sizeof (PPicture)); memset (pCtx->sRefPic.pRefList[LIST_1], 0, MAX_DPB_COUNT * sizeof (PPicture)); int32_t iLSCurrPocCount = 0; int32_t iLTCurrPocCount = 0; PPicture pLSCurrPocList0[MAX_DPB_COUNT]; PPicture pLTCurrPocList0[MAX_DPB_COUNT]; for (int32_t i = 0; i < pCtx->sRefPic.uiShortRefCount[LIST_0]; ++i) { if (ppShoreRefList[i]->iFramePoc < iPoc) { pLSCurrPocList0[iLSCurrPocCount++] = ppShoreRefList[i]; } } for (int32_t i = pCtx->sRefPic.uiShortRefCount[LIST_0] - 1; i >= 0; --i) { if (ppShoreRefList[i]->iFramePoc > iPoc) { pLTCurrPocList0[iLTCurrPocCount++] = ppShoreRefList[i]; } } if (pCtx->sRefPic.uiLongRefCount[LIST_0] > 1) { //long sorts in increasing order PPicture pTemp; for (int32_t i = 0; i < pCtx->sRefPic.uiLongRefCount[LIST_0]; ++i) { for (int32_t j = i + 1; j < pCtx->sRefPic.uiLongRefCount[LIST_0]; ++j) { if (ppLongRefList[j]->iFramePoc < ppLongRefList[i]->iFramePoc) { pTemp = ppLongRefList[i]; ppLongRefList[i] = ppLongRefList[j]; ppLongRefList[j] = pTemp; } } } } int32_t iCurrPocCount = iLSCurrPocCount + iLTCurrPocCount; int32_t iCount = 0; //LIST_0 //short //It may need to sort LIST_0 and LIST_1 so that they will have the right default orders. for (int32_t i = 0; i < iLSCurrPocCount; ++i) { pCtx->sRefPic.pRefList[LIST_0][iCount++] = pLSCurrPocList0[i]; } if (iLSCurrPocCount > 1) { //LIST_0 short sorts in decreasing order PPicture pTemp; for (int32_t i = 0; i < iLSCurrPocCount; ++i) { for (int32_t j = i + 1; j < iLSCurrPocCount; ++j) { if (pCtx->sRefPic.pRefList[LIST_0][j]->iFramePoc > pCtx->sRefPic.pRefList[LIST_0][i]->iFramePoc) { pTemp = pCtx->sRefPic.pRefList[LIST_0][i]; pCtx->sRefPic.pRefList[LIST_0][i] = pCtx->sRefPic.pRefList[LIST_0][j]; pCtx->sRefPic.pRefList[LIST_0][j] = pTemp; } } } } for (int32_t i = 0; i < iLTCurrPocCount; ++i) { pCtx->sRefPic.pRefList[LIST_0][iCount++] = pLTCurrPocList0[i]; } if (iLTCurrPocCount > 1) { //LIST_0 short sorts in increasing order PPicture pTemp; for (int32_t i = iLSCurrPocCount; i < iCurrPocCount; ++i) { for (int32_t j = i + 1; j < iCurrPocCount; ++j) { if (pCtx->sRefPic.pRefList[LIST_0][j]->iFramePoc < pCtx->sRefPic.pRefList[LIST_0][i]->iFramePoc) { pTemp = pCtx->sRefPic.pRefList[LIST_0][i]; pCtx->sRefPic.pRefList[LIST_0][i] = pCtx->sRefPic.pRefList[LIST_0][j]; pCtx->sRefPic.pRefList[LIST_0][j] = pTemp; } } } } //long for (int32_t i = 0; i < pCtx->sRefPic.uiLongRefCount[LIST_0]; ++i) { pCtx->sRefPic.pRefList[LIST_0][iCount++] = ppLongRefList[i]; } pCtx->sRefPic.uiRefCount[LIST_0] = iCount; iCount = 0; //LIST_1 //short for (int32_t i = 0; i < iLTCurrPocCount; ++i) { pCtx->sRefPic.pRefList[LIST_1][iCount++] = pLTCurrPocList0[i]; } if (iLTCurrPocCount > 1) { //LIST_1 short sorts in increasing order PPicture pTemp; for (int32_t i = 0; i < iLTCurrPocCount; ++i) { for (int32_t j = i + 1; j < iLTCurrPocCount; ++j) { if (pCtx->sRefPic.pRefList[LIST_1][j]->iFramePoc < pCtx->sRefPic.pRefList[LIST_1][i]->iFramePoc) { pTemp = pCtx->sRefPic.pRefList[LIST_1][i]; pCtx->sRefPic.pRefList[LIST_1][i] = pCtx->sRefPic.pRefList[LIST_1][j]; pCtx->sRefPic.pRefList[LIST_1][j] = pTemp; } } } } for (int32_t i = 0; i < iLSCurrPocCount; ++i) { pCtx->sRefPic.pRefList[LIST_1][iCount++] = pLSCurrPocList0[i]; } if (iLSCurrPocCount > 1) { //LIST_1 short sorts in decreasing order PPicture pTemp; for (int32_t i = iLTCurrPocCount; i < iCurrPocCount; ++i) { for (int32_t j = i + 1; j < iCurrPocCount; ++j) { if (pCtx->sRefPic.pRefList[LIST_1][j]->iFramePoc > pCtx->sRefPic.pRefList[LIST_1][i]->iFramePoc) { pTemp = pCtx->sRefPic.pRefList[LIST_1][i]; pCtx->sRefPic.pRefList[LIST_1][i] = pCtx->sRefPic.pRefList[LIST_1][j]; pCtx->sRefPic.pRefList[LIST_1][j] = pTemp; } } } } //long for (int32_t i = 0; i < pCtx->sRefPic.uiLongRefCount[LIST_0]; ++i) { pCtx->sRefPic.pRefList[LIST_1][iCount++] = ppLongRefList[i]; } pCtx->sRefPic.uiRefCount[LIST_1] = iCount; return ERR_NONE; } /** * fills the pRefPic.pRefList. */ int32_t WelsInitRefList (PWelsDecoderContext pCtx, int32_t iPoc) { int32_t err = WelsCheckAndRecoverForFutureDecoding (pCtx); if (err != ERR_NONE) return err; WrapShortRefPicNum (pCtx); PPicture* ppShoreRefList = pCtx->sRefPic.pShortRefList[LIST_0]; PPicture* ppLongRefList = pCtx->sRefPic.pLongRefList[LIST_0]; memset (pCtx->sRefPic.pRefList[LIST_0], 0, MAX_DPB_COUNT * sizeof (PPicture)); int32_t i, iCount = 0; //short for (i = 0; i < pCtx->sRefPic.uiShortRefCount[LIST_0]; ++i) { pCtx->sRefPic.pRefList[LIST_0][iCount++ ] = ppShoreRefList[i]; } //long for (i = 0; i < pCtx->sRefPic.uiLongRefCount[LIST_0] ; ++i) { pCtx->sRefPic.pRefList[LIST_0][iCount++ ] = ppLongRefList[i]; } pCtx->sRefPic.uiRefCount[LIST_0] = iCount; return ERR_NONE; } int32_t WelsReorderRefList (PWelsDecoderContext pCtx) { if (pCtx->eSliceType == I_SLICE || pCtx->eSliceType == SI_SLICE) { return ERR_NONE; } PRefPicListReorderSyn pRefPicListReorderSyn = pCtx->pCurDqLayer->pRefPicListReordering; PNalUnitHeaderExt pNalHeaderExt = &pCtx->pCurDqLayer->sLayerInfo.sNalHeaderExt; PSliceHeader pSliceHeader = &pCtx->pCurDqLayer->sLayerInfo.sSliceInLayer.sSliceHeaderExt.sSliceHeader; int32_t ListCount = 1; if (pCtx->eSliceType == B_SLICE) ListCount = 2; for (int32_t listIdx = 0; listIdx < ListCount; ++listIdx) { PPicture pPic = NULL; PPicture* ppRefList = pCtx->sRefPic.pRefList[listIdx]; int32_t iMaxRefIdx = pCtx->iPicQueueNumber; int32_t iRefCount = pSliceHeader->uiRefCount[listIdx]; int32_t iPredFrameNum = pSliceHeader->iFrameNum; int32_t iMaxPicNum = 1 << pSliceHeader->pSps->uiLog2MaxFrameNum; int32_t iAbsDiffPicNum = -1; int32_t iReorderingIndex = 0; int32_t i = 0; if (iRefCount <= 0) { pCtx->iErrorCode = dsNoParamSets; //No any reference for decoding, SHOULD request IDR return ERR_INFO_REFERENCE_PIC_LOST; } if (pRefPicListReorderSyn->bRefPicListReorderingFlag[listIdx]) { while ((iReorderingIndex < iMaxRefIdx) && (pRefPicListReorderSyn->sReorderingSyn[listIdx][iReorderingIndex].uiReorderingOfPicNumsIdc != 3)) { uint16_t uiReorderingOfPicNumsIdc = pRefPicListReorderSyn->sReorderingSyn[listIdx][iReorderingIndex].uiReorderingOfPicNumsIdc; if (uiReorderingOfPicNumsIdc < 2) { iAbsDiffPicNum = pRefPicListReorderSyn->sReorderingSyn[listIdx][iReorderingIndex].uiAbsDiffPicNumMinus1 + 1; if (uiReorderingOfPicNumsIdc == 0) { iPredFrameNum -= iAbsDiffPicNum; } else { iPredFrameNum += iAbsDiffPicNum; } iPredFrameNum &= iMaxPicNum - 1; for (i = iMaxRefIdx - 1; i >= 0; i--) { if (ppRefList[i] != NULL && ppRefList[i]->iFrameNum == iPredFrameNum && !ppRefList[i]->bIsLongRef) { if ((pNalHeaderExt->uiQualityId == ppRefList[i]->uiQualityId) && (pSliceHeader->iSpsId != ppRefList[i]->iSpsId)) { //check; WelsLog (& (pCtx->sLogCtx), WELS_LOG_WARNING, "WelsReorderRefList()::::BASE LAYER::::iSpsId:%d, ref_sps_id:%d", pSliceHeader->iSpsId, ppRefList[i]->iSpsId); pCtx->iErrorCode = dsNoParamSets; //cross-IDR reference frame selection, SHOULD request IDR.-- return ERR_INFO_REFERENCE_PIC_LOST; } else { break; } } } } else if (uiReorderingOfPicNumsIdc == 2) { for (i = iMaxRefIdx - 1; i >= 0; i--) { if (ppRefList[i] != NULL && ppRefList[i]->bIsLongRef && ppRefList[i]->iLongTermFrameIdx == pRefPicListReorderSyn->sReorderingSyn[listIdx][iReorderingIndex].uiLongTermPicNum) { if ((pNalHeaderExt->uiQualityId == ppRefList[i]->uiQualityId) && (pSliceHeader->iSpsId != ppRefList[i]->iSpsId)) { //check; WelsLog (& (pCtx->sLogCtx), WELS_LOG_WARNING, "WelsReorderRefList()::::BASE LAYER::::iSpsId:%d, ref_sps_id:%d", pSliceHeader->iSpsId, ppRefList[i]->iSpsId); pCtx->iErrorCode = dsNoParamSets; //cross-IDR reference frame selection, SHOULD request IDR.-- return ERR_INFO_REFERENCE_PIC_LOST; } else { break; } } } } if (i < 0) { return ERR_INFO_REFERENCE_PIC_LOST; } pPic = ppRefList[i]; if (i > iReorderingIndex) { memmove (&ppRefList[1 + iReorderingIndex], &ppRefList[iReorderingIndex], (i - iReorderingIndex) * sizeof (PPicture)); //confirmed_safe_unsafe_usage } else if (i < iReorderingIndex) { memmove (&ppRefList[1 + iReorderingIndex], &ppRefList[iReorderingIndex], (iMaxRefIdx - iReorderingIndex) * sizeof (PPicture)); } ppRefList[iReorderingIndex] = pPic; iReorderingIndex++; } } } return ERR_NONE; } //WelsReorderRefList2 is the test code int32_t WelsReorderRefList2 (PWelsDecoderContext pCtx) { if (pCtx->eSliceType == I_SLICE || pCtx->eSliceType == SI_SLICE) { return ERR_NONE; } PRefPicListReorderSyn pRefPicListReorderSyn = pCtx->pCurDqLayer->pRefPicListReordering; PSliceHeader pSliceHeader = &pCtx->pCurDqLayer->sLayerInfo.sSliceInLayer.sSliceHeaderExt.sSliceHeader; PPicture* ppShoreRefList = pCtx->sRefPic.pShortRefList[LIST_0]; int32_t iShortRefCount = pCtx->sRefPic.uiShortRefCount[LIST_0]; PPicture* ppLongRefList = pCtx->sRefPic.pLongRefList[LIST_0]; int32_t iLongRefCount = pCtx->sRefPic.uiLongRefCount[LIST_0]; int32_t i = 0; int32_t j = 0; int32_t k = 0; int32_t iMaxRefIdx = pCtx->pSps->iNumRefFrames; const int32_t iCurFrameNum = pSliceHeader->iFrameNum; const int32_t iMaxPicNum = 1 << pSliceHeader->pSps->uiLog2MaxFrameNum; int32_t iListCount = 1; if (pCtx->eSliceType == B_SLICE) iListCount = 2; for (int32_t listIdx = 0; listIdx < iListCount; ++listIdx) { PPicture* ppRefList = pCtx->sRefPic.pRefList[listIdx]; int32_t iCount = 0; int32_t iRefCount = pSliceHeader->uiRefCount[listIdx]; int32_t iAbsDiffPicNum = -1; if (pRefPicListReorderSyn->bRefPicListReorderingFlag[listIdx]) { int32_t iPredFrameNum = iCurFrameNum; for (i = 0; pRefPicListReorderSyn->sReorderingSyn[listIdx][i].uiReorderingOfPicNumsIdc != 3; i++) { if (iCount >= iMaxRefIdx) break; for (j = iRefCount; j > iCount; j--) ppRefList[j] = ppRefList[j - 1]; uint16_t uiReorderingOfPicNumsIdc = pRefPicListReorderSyn->sReorderingSyn[listIdx][i].uiReorderingOfPicNumsIdc; if (uiReorderingOfPicNumsIdc < 2) { // reorder short references iAbsDiffPicNum = (int32_t) (pRefPicListReorderSyn->sReorderingSyn[listIdx][i].uiAbsDiffPicNumMinus1 + 1); if (uiReorderingOfPicNumsIdc == 0) { if (iPredFrameNum - iAbsDiffPicNum < 0) iPredFrameNum -= (iAbsDiffPicNum - iMaxPicNum); else iPredFrameNum -= iAbsDiffPicNum; } else { if (iPredFrameNum + iAbsDiffPicNum >= iMaxPicNum) iPredFrameNum += (iAbsDiffPicNum - iMaxPicNum); else iPredFrameNum += iAbsDiffPicNum; } if (iPredFrameNum > iCurFrameNum) { iPredFrameNum -= iMaxPicNum; } for (j = 0; j < iShortRefCount; j++) { if (ppShoreRefList[j]) { if (ppShoreRefList[j]->iFrameWrapNum == iPredFrameNum) { ppRefList[iCount++] = ppShoreRefList[j]; break; } } } k = iCount; for (j = k; j <= iRefCount; j++) { if (ppRefList[j] != NULL) { if (ppRefList[j]->bIsLongRef || ppRefList[j]->iFrameWrapNum != iPredFrameNum) ppRefList[k++] = ppRefList[j]; } } } else { // reorder long term references uiReorderingOfPicNumsIdc == 2 iPredFrameNum = pRefPicListReorderSyn->sReorderingSyn[listIdx][i].uiLongTermPicNum; for (j = 0; j < iLongRefCount; j++) { if (ppLongRefList[j] != NULL) { if (ppLongRefList[j]->uiLongTermPicNum == (uint32_t)iPredFrameNum) { ppRefList[iCount++] = ppLongRefList[j]; break; } } } k = iCount; for (j = k; j <= iRefCount; j++) { if (ppRefList[j] != NULL) { if (!ppRefList[j]->bIsLongRef || ppLongRefList[j]->uiLongTermPicNum != (uint32_t)iPredFrameNum) ppRefList[k++] = ppRefList[j]; } } } } } for (i = WELS_MAX (1, WELS_MAX (iCount, pCtx->sRefPic.uiRefCount[listIdx])); i < iRefCount; i++) ppRefList[i] = ppRefList[i - 1]; pCtx->sRefPic.uiRefCount[listIdx] = (uint8_t)WELS_MIN (WELS_MAX (iCount, pCtx->sRefPic.uiRefCount[listIdx]), iRefCount); } return ERR_NONE; } int32_t WelsMarkAsRef (PWelsDecoderContext pCtx, PPicture pLastDec) { PPicture pDec = pLastDec; bool isThreadCtx = true; if (pDec == NULL) { pDec = pCtx->pDec; isThreadCtx = false; } PRefPic pRefPic = isThreadCtx ? &pCtx->sTmpRefPic : &pCtx->sRefPic; PRefPicMarking pRefPicMarking = pCtx->pCurDqLayer->pRefPicMarking; PAccessUnit pCurAU = pCtx->pAccessUnitList; bool bIsIDRAU = false; uint32_t j; int32_t iRet = ERR_NONE; pDec->uiQualityId = pCtx->pCurDqLayer->sLayerInfo.sNalHeaderExt.uiQualityId; pDec->uiTemporalId = pCtx->pCurDqLayer->sLayerInfo.sNalHeaderExt.uiTemporalId; pDec->iSpsId = pCtx->pSps->iSpsId; pDec->iPpsId = pCtx->pPps->iPpsId; for (j = pCurAU->uiStartPos; j <= pCurAU->uiEndPos; j++) { if (pCurAU->pNalUnitsList[j]->sNalHeaderExt.sNalUnitHeader.eNalUnitType == NAL_UNIT_CODED_SLICE_IDR || pCurAU->pNalUnitsList[j]->sNalHeaderExt.bIdrFlag) { bIsIDRAU = true; break; } } if (bIsIDRAU) { if (pRefPicMarking->bLongTermRefFlag) { pRefPic->iMaxLongTermFrameIdx = 0; AddLongTermToList (pRefPic, pDec, 0, 0); } else { pRefPic->iMaxLongTermFrameIdx = -1; } } else { if (pRefPicMarking->bAdaptiveRefPicMarkingModeFlag) { iRet = MMCO (pCtx, pRefPic, pRefPicMarking); if (iRet != ERR_NONE) { if (pCtx->pParam->eEcActiveIdc != ERROR_CON_DISABLE) { iRet = RemainOneBufferInDpbForEC (pCtx, pRefPic); WELS_VERIFY_RETURN_IF (iRet, iRet); } else { return iRet; } } if (pCtx->pLastDecPicInfo->bLastHasMmco5) { pDec->iFrameNum = 0; pDec->iFramePoc = 0; } } else { iRet = SlidingWindow (pCtx, pRefPic); if (iRet != ERR_NONE) { if (pCtx->pParam->eEcActiveIdc != ERROR_CON_DISABLE) { iRet = RemainOneBufferInDpbForEC (pCtx, pRefPic); WELS_VERIFY_RETURN_IF (iRet, iRet); } else { return iRet; } } } } if (!pDec->bIsLongRef) { if (pRefPic->uiLongRefCount[LIST_0] + pRefPic->uiShortRefCount[LIST_0] >= WELS_MAX (1, pCtx->pSps->iNumRefFrames)) { if (pCtx->pParam->eEcActiveIdc != ERROR_CON_DISABLE) { iRet = RemainOneBufferInDpbForEC (pCtx, pRefPic); WELS_VERIFY_RETURN_IF (iRet, iRet); } else { return ERR_INFO_INVALID_MMCO_REF_NUM_OVERFLOW; } } iRet = AddShortTermToList (pRefPic, pDec); } return iRet; } static int32_t MMCO (PWelsDecoderContext pCtx, PRefPic pRefPic, PRefPicMarking pRefPicMarking) { PSps pSps = pCtx->pCurDqLayer->sLayerInfo.pSps; int32_t i = 0; int32_t iRet = ERR_NONE; for (i = 0; i < MAX_MMCO_COUNT && pRefPicMarking->sMmcoRef[i].uiMmcoType != MMCO_END; i++) { uint32_t uiMmcoType = pRefPicMarking->sMmcoRef[i].uiMmcoType; int32_t iShortFrameNum = (pCtx->iFrameNum - pRefPicMarking->sMmcoRef[i].iDiffOfPicNum) & (( 1 << pSps->uiLog2MaxFrameNum) - 1); uint32_t uiLongTermPicNum = pRefPicMarking->sMmcoRef[i].uiLongTermPicNum; int32_t iLongTermFrameIdx = pRefPicMarking->sMmcoRef[i].iLongTermFrameIdx; int32_t iMaxLongTermFrameIdx = pRefPicMarking->sMmcoRef[i].iMaxLongTermFrameIdx; if (uiMmcoType > MMCO_LONG) { return ERR_INFO_INVALID_MMCO_OPCODE_BASE; } iRet = MMCOProcess (pCtx, pRefPic, uiMmcoType, iShortFrameNum, uiLongTermPicNum, iLongTermFrameIdx, iMaxLongTermFrameIdx); if (iRet != ERR_NONE) { return iRet; } } if (i == MAX_MMCO_COUNT) { //although Rec does not handle this condition, we here prohibit too many MMCO op return ERR_INFO_INVALID_MMCO_NUM; } return ERR_NONE; } static int32_t MMCOProcess (PWelsDecoderContext pCtx, PRefPic pRefPic, uint32_t uiMmcoType, int32_t iShortFrameNum, uint32_t uiLongTermPicNum, int32_t iLongTermFrameIdx, int32_t iMaxLongTermFrameIdx) { PPicture pPic = NULL; int32_t i = 0; int32_t iRet = ERR_NONE; switch (uiMmcoType) { case MMCO_SHORT2UNUSED: pPic = WelsDelShortFromListSetUnref (pRefPic, iShortFrameNum); if (pPic == NULL) { WelsLog (& (pCtx->sLogCtx), WELS_LOG_WARNING, "MMCO_SHORT2UNUSED: delete an empty entry from short term list"); } break; case MMCO_LONG2UNUSED: pPic = WelsDelLongFromListSetUnref (pRefPic, uiLongTermPicNum); if (pPic == NULL) { WelsLog (& (pCtx->sLogCtx), WELS_LOG_WARNING, "MMCO_LONG2UNUSED: delete an empty entry from long term list"); } break; case MMCO_SHORT2LONG: if (iLongTermFrameIdx > pRefPic->iMaxLongTermFrameIdx) { return ERR_INFO_INVALID_MMCO_LONG_TERM_IDX_EXCEED_MAX; } pPic = WelsDelShortFromList (pRefPic, iShortFrameNum); if (pPic == NULL) { WelsLog (& (pCtx->sLogCtx), WELS_LOG_WARNING, "MMCO_LONG2LONG: delete an empty entry from short term list"); break; } WelsDelLongFromListSetUnref (pRefPic, iLongTermFrameIdx); #ifdef LONG_TERM_REF pCtx->bCurAuContainLtrMarkSeFlag = true; pCtx->iFrameNumOfAuMarkedLtr = iShortFrameNum; WelsLog (& (pCtx->sLogCtx), WELS_LOG_INFO, "ex_mark_avc():::MMCO_SHORT2LONG:::LTR marking....iFrameNum: %d", pCtx->iFrameNumOfAuMarkedLtr); #endif MarkAsLongTerm (pRefPic, iShortFrameNum, iLongTermFrameIdx, uiLongTermPicNum); break; case MMCO_SET_MAX_LONG: pRefPic->iMaxLongTermFrameIdx = iMaxLongTermFrameIdx; for (i = 0 ; i < pRefPic->uiLongRefCount[LIST_0]; i++) { if (pRefPic->pLongRefList[LIST_0][i]->iLongTermFrameIdx > pRefPic->iMaxLongTermFrameIdx) { WelsDelLongFromListSetUnref (pRefPic, pRefPic->pLongRefList[LIST_0][i]->iLongTermFrameIdx); } } break; case MMCO_RESET: WelsResetRefPic (pCtx); pCtx->pLastDecPicInfo->bLastHasMmco5 = true; break; case MMCO_LONG: if (iLongTermFrameIdx > pRefPic->iMaxLongTermFrameIdx) { return ERR_INFO_INVALID_MMCO_LONG_TERM_IDX_EXCEED_MAX; } WelsDelLongFromListSetUnref (pRefPic, iLongTermFrameIdx); if (pRefPic->uiLongRefCount[LIST_0] + pRefPic->uiShortRefCount[LIST_0] >= WELS_MAX (1, pCtx->pSps->iNumRefFrames)) { return ERR_INFO_INVALID_MMCO_REF_NUM_OVERFLOW; } #ifdef LONG_TERM_REF pCtx->bCurAuContainLtrMarkSeFlag = true; pCtx->iFrameNumOfAuMarkedLtr = pCtx->iFrameNum; WelsLog (& (pCtx->sLogCtx), WELS_LOG_INFO, "ex_mark_avc():::MMCO_LONG:::LTR marking....iFrameNum: %d", pCtx->iFrameNum); #endif iRet = AddLongTermToList (pRefPic, pCtx->pDec, iLongTermFrameIdx, uiLongTermPicNum); break; default : break; } return iRet; } static int32_t SlidingWindow (PWelsDecoderContext pCtx, PRefPic pRefPic) { PPicture pPic = NULL; int32_t i = 0; if (pRefPic->uiShortRefCount[LIST_0] + pRefPic->uiLongRefCount[LIST_0] >= pCtx->pSps->iNumRefFrames) { if (pRefPic->uiShortRefCount[LIST_0] == 0) { WelsLog (& (pCtx->sLogCtx), WELS_LOG_ERROR, "No reference picture in short term list when sliding window"); return ERR_INFO_INVALID_MMCO_REF_NUM_NOT_ENOUGH; } for (i = pRefPic->uiShortRefCount[LIST_0] - 1; i >= 0; i--) { pPic = WelsDelShortFromList (pRefPic, pRefPic->pShortRefList[LIST_0][i]->iFrameNum); if (pPic) { SetUnRef (pPic); break; } else { return ERR_INFO_INVALID_MMCO_REF_NUM_OVERFLOW; } } } return ERR_NONE; } static PPicture WelsDelShortFromList (PRefPic pRefPic, int32_t iFrameNum) { int32_t i = 0; int32_t iMoveSize = 0; PPicture pPic = NULL; for (i = 0; i < pRefPic->uiShortRefCount[LIST_0]; i++) { if (pRefPic->pShortRefList[LIST_0][i]->iFrameNum == iFrameNum) { iMoveSize = pRefPic->uiShortRefCount[LIST_0] - i - 1; pPic = pRefPic->pShortRefList[LIST_0][i]; pPic->bUsedAsRef = false; pRefPic->pShortRefList[LIST_0][i] = NULL; if (iMoveSize > 0) { memmove (&pRefPic->pShortRefList[LIST_0][i], &pRefPic->pShortRefList[LIST_0][i + 1], iMoveSize * sizeof (PPicture)); //confirmed_safe_unsafe_usage } pRefPic->uiShortRefCount[LIST_0]--; pRefPic->pShortRefList[LIST_0][pRefPic->uiShortRefCount[LIST_0]] = NULL; break; } } return pPic; } static PPicture WelsDelShortFromListSetUnref (PRefPic pRefPic, int32_t iFrameNum) { PPicture pPic = WelsDelShortFromList (pRefPic, iFrameNum); if (pPic) { SetUnRef (pPic); } return pPic; } static PPicture WelsDelLongFromList (PRefPic pRefPic, uint32_t uiLongTermFrameIdx) { PPicture pPic = NULL; int32_t i = 0; for (i = 0; i < pRefPic->uiLongRefCount[LIST_0]; i++) { pPic = pRefPic->pLongRefList[LIST_0][i]; if (pPic->iLongTermFrameIdx == (int32_t)uiLongTermFrameIdx) { int32_t iMoveSize = pRefPic->uiLongRefCount[LIST_0] - i - 1; pPic->bUsedAsRef = false; pPic->bIsLongRef = false; if (iMoveSize > 0) { memmove (&pRefPic->pLongRefList[LIST_0][i], &pRefPic->pLongRefList[LIST_0][i + 1], iMoveSize * sizeof (PPicture)); //confirmed_safe_unsafe_usage } pRefPic->uiLongRefCount[LIST_0]--; pRefPic->pLongRefList[LIST_0][pRefPic->uiLongRefCount[LIST_0]] = NULL; return pPic; } } return NULL; } static PPicture WelsDelLongFromListSetUnref (PRefPic pRefPic, uint32_t uiLongTermFrameIdx) { PPicture pPic = WelsDelLongFromList (pRefPic, uiLongTermFrameIdx); if (pPic) { SetUnRef (pPic); } return pPic; } static int32_t AddShortTermToList (PRefPic pRefPic, PPicture pPic) { pPic->bUsedAsRef = true; pPic->bIsLongRef = false; pPic->iLongTermFrameIdx = -1; if (pRefPic->uiShortRefCount[LIST_0] > 0) { // Check the duplicate frame_num in short ref list for (int32_t iPos = 0; iPos < pRefPic->uiShortRefCount[LIST_0]; iPos++) { if (!pRefPic->pShortRefList[LIST_0][iPos]) { return ERR_INFO_INVALID_PTR; } if (pPic->iFrameNum == pRefPic->pShortRefList[LIST_0][iPos]->iFrameNum) { // Replace the previous ref pic with the new one with the same frame_num pRefPic->pShortRefList[LIST_0][iPos] = pPic; return ERR_INFO_DUPLICATE_FRAME_NUM; } } memmove (&pRefPic->pShortRefList[LIST_0][1], &pRefPic->pShortRefList[LIST_0][0], pRefPic->uiShortRefCount[LIST_0]*sizeof (PPicture));//confirmed_safe_unsafe_usage } pRefPic->pShortRefList[LIST_0][0] = pPic; pRefPic->uiShortRefCount[LIST_0]++; return ERR_NONE; } static int32_t AddLongTermToList (PRefPic pRefPic, PPicture pPic, int32_t iLongTermFrameIdx, uint32_t uiLongTermPicNum) { int32_t i = 0; pPic->bUsedAsRef = true; pPic->bIsLongRef = true; pPic->iLongTermFrameIdx = iLongTermFrameIdx; pPic->uiLongTermPicNum = uiLongTermPicNum; if (pRefPic->uiLongRefCount[LIST_0] == 0) { pRefPic->pLongRefList[LIST_0][pRefPic->uiLongRefCount[LIST_0]] = pPic; } else { for (i = 0; i < pRefPic->uiLongRefCount[LIST_0]; i++) { if (!pRefPic->pLongRefList[LIST_0][i]) { return ERR_INFO_INVALID_PTR; } if (pRefPic->pLongRefList[LIST_0][i]->iLongTermFrameIdx > pPic->iLongTermFrameIdx) { break; } } memmove (&pRefPic->pLongRefList[LIST_0][i + 1], &pRefPic->pLongRefList[LIST_0][i], (pRefPic->uiLongRefCount[LIST_0] - i)*sizeof (PPicture)); //confirmed_safe_unsafe_usage pRefPic->pLongRefList[LIST_0][i] = pPic; } pRefPic->uiLongRefCount[LIST_0]++; return ERR_NONE; } static int32_t MarkAsLongTerm (PRefPic pRefPic, int32_t iFrameNum, int32_t iLongTermFrameIdx, uint32_t uiLongTermPicNum) { PPicture pPic = NULL; int32_t i = 0; int32_t iRet = ERR_NONE; WelsDelLongFromListSetUnref (pRefPic, iLongTermFrameIdx); for (i = 0; i < pRefPic->uiRefCount[LIST_0]; i++) { pPic = pRefPic->pRefList[LIST_0][i]; if (pPic->iFrameNum == iFrameNum && !pPic->bIsLongRef) { iRet = AddLongTermToList (pRefPic, pPic, iLongTermFrameIdx, uiLongTermPicNum); break; } } return iRet; } #ifdef LONG_TERM_REF int32_t GetLTRFrameIndex (PRefPic pRefPic, int32_t iAncLTRFrameNum) { int32_t iLTRFrameIndex = -1; PPicture pPic; for (int i = 0; i < pRefPic->uiLongRefCount[0]; ++i) { pPic = pRefPic->pLongRefList[LIST_0][i]; if (pPic->iFrameNum == iAncLTRFrameNum) { return (pPic->iLongTermFrameIdx); } } return iLTRFrameIndex; } #endif static int32_t RemainOneBufferInDpbForEC (PWelsDecoderContext pCtx, PRefPic pRefPic) { int32_t iRet = ERR_NONE; if (pRefPic->uiShortRefCount[0] + pRefPic->uiLongRefCount[0] < pCtx->pSps->iNumRefFrames) return iRet; if (pRefPic->uiShortRefCount[0] > 0) { iRet = SlidingWindow (pCtx, pRefPic); } else { //all LTR, remove the smallest long_term_frame_idx int32_t iLongTermFrameIdx = 0; int32_t iMaxLongTermFrameIdx = pRefPic->iMaxLongTermFrameIdx; #ifdef LONG_TERM_REF int32_t iCurrLTRFrameIdx = GetLTRFrameIndex (pRefPic, pCtx->iFrameNumOfAuMarkedLtr); #endif while ((pRefPic->uiLongRefCount[0] >= pCtx->pSps->iNumRefFrames) && (iLongTermFrameIdx <= iMaxLongTermFrameIdx)) { #ifdef LONG_TERM_REF if (iLongTermFrameIdx == iCurrLTRFrameIdx) { iLongTermFrameIdx++; continue; } #endif WelsDelLongFromListSetUnref (pRefPic, iLongTermFrameIdx); iLongTermFrameIdx++; } } if (pRefPic->uiShortRefCount[0] + pRefPic->uiLongRefCount[0] >= pCtx->pSps->iNumRefFrames) { //fail to remain one empty buffer in DPB WelsLog (& (pCtx->sLogCtx), WELS_LOG_WARNING, "RemainOneBufferInDpbForEC(): empty one DPB failed for EC!"); iRet = ERR_INFO_REF_COUNT_OVERFLOW; } return iRet; } } // namespace WelsDec