ref: 9b6476e98a4ea9226ce2cfd7e8ba83a2dbe28d69
dir: /codec/decoder/core/inc/decoder_context.h/
/*! * \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 decoder_context.h * * \brief mainly interface introduced in Wels decoder side * * \date 3/4/2009 Created * ************************************************************************************* */ #ifndef WELS_DECODER_FRAMEWORK_H__ #define WELS_DECODER_FRAMEWORK_H__ #include "typedefs.h" #include "utils.h" #include "wels_const.h" #include "wels_common_basis.h" #include "wels_common_defs.h" #include "codec_app_def.h" #include "parameter_sets.h" #include "nalu.h" #include "dec_frame.h" #include "pic_queue.h" #include "vlc_decoder.h" #include "fmo.h" #include "crt_util_safe_x.h" #include "mb_cache.h" #include "expand_pic.h" #include "mc.h" #include "memory_align.h" namespace WelsDec { #define MAX_PRED_MODE_ID_I16x16 3 #define MAX_PRED_MODE_ID_CHROMA 3 #define MAX_PRED_MODE_ID_I4x4 8 #define WELS_QP_MAX 51 #define LONG_TERM_REF typedef struct SWels_Cabac_Element { uint8_t uiState; uint8_t uiMPS; } SWelsCabacCtx, *PWelsCabacCtx; typedef struct { uint64_t uiRange; uint64_t uiOffset; int32_t iBitsLeft; uint8_t* pBuffStart; uint8_t* pBuffCurr; uint8_t* pBuffEnd; } SWelsCabacDecEngine, *PWelsCabacDecEngine; #define NEW_CTX_OFFSET_MB_TYPE_I 3 #define NEW_CTX_OFFSET_SKIP 11 #define NEW_CTX_OFFSET_SUBMB_TYPE 21 #define NEW_CTX_OFFSET_MVD 40 #define NEW_CTX_OFFSET_REF_NO 54 #define NEW_CTX_OFFSET_DELTA_QP 60 #define NEW_CTX_OFFSET_IPR 68 #define NEW_CTX_OFFSET_CIPR 64 #define NEW_CTX_OFFSET_CBP 73 #define NEW_CTX_OFFSET_CBF 85 #define NEW_CTX_OFFSET_MAP 105 #define NEW_CTX_OFFSET_LAST 166 #define NEW_CTX_OFFSET_ONE 227 #define NEW_CTX_OFFSET_ABS 232 #define NEW_CTX_OFFSET_TS_8x8_FLAG 399 #define CTX_NUM_MVD 7 #define CTX_NUM_CBP 4 // Table 9-34 in Page 270 #define NEW_CTX_OFFSET_TRANSFORM_SIZE_8X8_FLAG 399 #define NEW_CTX_OFFSET_MAP_8x8 402 #define NEW_CTX_OFFSET_LAST_8x8 417 #define NEW_CTX_OFFSET_ONE_8x8 426 #define NEW_CTX_OFFSET_ABS_8x8 431 // Puzzle, where is the definition? typedef struct TagDataBuffer { uint8_t* pHead; uint8_t* pEnd; uint8_t* pStartPos; uint8_t* pCurPos; } SDataBuffer; //limit size for SPS PPS total permitted size for parse_only #define SPS_PPS_BS_SIZE 128 typedef struct TagSpsBsInfo { uint8_t pSpsBsBuf [SPS_PPS_BS_SIZE]; int32_t iSpsId; uint16_t uiSpsBsLen; } SSpsBsInfo; typedef struct TagPpsBsInfo { uint8_t pPpsBsBuf [SPS_PPS_BS_SIZE]; int32_t iPpsId; uint16_t uiPpsBsLen; } SPpsBsInfo; //#ifdef __cplusplus //extern "C" { //#endif//__cplusplus /* * Need move below structures to function pointer to seperate module/file later */ //typedef int32_t (*rec_mb) (Mb *cur_mb, PWelsDecoderContext pCtx); /*typedef for get intra predictor func pointer*/ typedef void (*PGetIntraPredFunc) (uint8_t* pPred, const int32_t kiLumaStride); typedef void (*PIdctResAddPredFunc) (uint8_t* pPred, const int32_t kiStride, int16_t* pRs); typedef void (*PIdctFourResAddPredFunc) (uint8_t* pPred, int32_t iStride, int16_t* pRs, const int8_t* pNzc); typedef void (*PExpandPictureFunc) (uint8_t* pDst, const int32_t kiStride, const int32_t kiPicWidth, const int32_t kiPicHeight); typedef void (*PGetIntraPred8x8Func) (uint8_t* pPred, const int32_t kiLumaStride, bool bTLAvail, bool bTRAvail); /**/ typedef struct TagRefPic { PPicture pRefList[LIST_A][MAX_DPB_COUNT]; // reference picture marking plus FIFO scheme PPicture pShortRefList[LIST_A][MAX_DPB_COUNT]; PPicture pLongRefList[LIST_A][MAX_DPB_COUNT]; uint8_t uiRefCount[LIST_A]; uint8_t uiShortRefCount[LIST_A]; uint8_t uiLongRefCount[LIST_A]; // dependend on ref pic module int32_t iMaxLongTermFrameIdx; } SRefPic, *PRefPic; typedef void (*PCopyFunc) (uint8_t* pDst, int32_t iStrideD, uint8_t* pSrc, int32_t iStrideS); typedef struct TagCopyFunc { PCopyFunc pCopyLumaFunc; PCopyFunc pCopyChromaFunc; } SCopyFunc; //deblock module defination struct TagDeblockingFunc; typedef struct tagDeblockingFilter { uint8_t* pCsData[3]; // pointer to reconstructed picture data int32_t iCsStride[2]; // Cs stride EWelsSliceType eSliceType; int8_t iSliceAlphaC0Offset; int8_t iSliceBetaOffset; int8_t iChromaQP[2]; int8_t iLumaQP; struct TagDeblockingFunc* pLoopf; } SDeblockingFilter, *PDeblockingFilter; typedef void (*PDeblockingFilterMbFunc) (PDqLayer pCurDqLayer, PDeblockingFilter filter, int32_t boundry_flag); typedef void (*PLumaDeblockingLT4Func) (uint8_t* iSampleY, int32_t iStride, int32_t iAlpha, int32_t iBeta, int8_t* iTc); typedef void (*PLumaDeblockingEQ4Func) (uint8_t* iSampleY, int32_t iStride, int32_t iAlpha, int32_t iBeta); typedef void (*PChromaDeblockingLT4Func) (uint8_t* iSampleCb, uint8_t* iSampleCr, int32_t iStride, int32_t iAlpha, int32_t iBeta, int8_t* iTc); typedef void (*PChromaDeblockingEQ4Func) (uint8_t* iSampleCb, uint8_t* iSampleCr, int32_t iStride, int32_t iAlpha, int32_t iBeta); typedef void (*PChromaDeblockingLT4Func2) (uint8_t* iSampleCbr, int32_t iStride, int32_t iAlpha, int32_t iBeta, int8_t* iTc); typedef void (*PChromaDeblockingEQ4Func2) (uint8_t* iSampleCbr, int32_t iStride, int32_t iAlpha, int32_t iBeta); typedef struct TagDeblockingFunc { PLumaDeblockingLT4Func pfLumaDeblockingLT4Ver; PLumaDeblockingEQ4Func pfLumaDeblockingEQ4Ver; PLumaDeblockingLT4Func pfLumaDeblockingLT4Hor; PLumaDeblockingEQ4Func pfLumaDeblockingEQ4Hor; PChromaDeblockingLT4Func pfChromaDeblockingLT4Ver; PChromaDeblockingEQ4Func pfChromaDeblockingEQ4Ver; PChromaDeblockingLT4Func pfChromaDeblockingLT4Hor; PChromaDeblockingEQ4Func pfChromaDeblockingEQ4Hor; PChromaDeblockingLT4Func2 pfChromaDeblockingLT4Ver2; PChromaDeblockingEQ4Func2 pfChromaDeblockingEQ4Ver2; PChromaDeblockingLT4Func2 pfChromaDeblockingLT4Hor2; PChromaDeblockingEQ4Func2 pfChromaDeblockingEQ4Hor2; } SDeblockingFunc, *PDeblockingFunc; typedef void (*PWelsNonZeroCountFunc) (int8_t* pNonZeroCount); typedef void (*PWelsBlockZeroFunc) (int16_t* block, int32_t stride); typedef struct TagBlockFunc { PWelsNonZeroCountFunc pWelsSetNonZeroCountFunc; PWelsBlockZeroFunc pWelsBlockZero16x16Func; PWelsBlockZeroFunc pWelsBlockZero8x8Func; } SBlockFunc; typedef void (*PWelsFillNeighborMbInfoIntra4x4Func) (PWelsNeighAvail pNeighAvail, uint8_t* pNonZeroCount, int8_t* pIntraPredMode, PDqLayer pCurLayer); typedef void (*PWelsMapNeighToSample) (PWelsNeighAvail pNeighAvail, int32_t* pSampleAvail); typedef void (*PWelsMap16NeighToSample) (PWelsNeighAvail pNeighAvail, uint8_t* pSampleAvail); typedef int32_t (*PWelsParseIntra4x4ModeFunc) (PWelsNeighAvail pNeighAvail, int8_t* pIntraPredMode, PBitStringAux pBs, PDqLayer pCurDqLayer); typedef int32_t (*PWelsParseIntra16x16ModeFunc) (PWelsNeighAvail pNeighAvail, PBitStringAux pBs, PDqLayer pCurDqLayer); enum { OVERWRITE_NONE = 0, OVERWRITE_PPS = 1, OVERWRITE_SPS = 1 << 1, OVERWRITE_SUBSETSPS = 1 << 2 }; /* * SWelsDecoderContext: to maintail all modules data over decoder@framework */ typedef struct TagWelsDecoderContext { SLogContext sLogCtx; // Input void* pArgDec; // structured arguments for decoder, reserved here for extension in the future SDataBuffer sRawData; SDataBuffer sSavedData; //for parse only purpose // Configuration SDecodingParam* pParam; uint32_t uiCpuFlag; // CPU compatibility detected VIDEO_BITSTREAM_TYPE eVideoType; //indicate the type of video to decide whether or not to do qp_delta error detection. bool bHaveGotMemory; // global memory for decoder context related ever requested? int32_t iImgWidthInPixel; // width of image in pixel reconstruction picture to be output int32_t iImgHeightInPixel;// height of image in pixel reconstruction picture to be output int32_t iLastImgWidthInPixel; // width of image in last successful pixel reconstruction picture to be output int32_t iLastImgHeightInPixel;// height of image in last successful pixel reconstruction picture to be output bool bFreezeOutput; // indicating current frame freezing. Default: true // Derived common elements SNalUnitHeader sCurNalHead; EWelsSliceType eSliceType; // Slice type int32_t iFrameNum; int32_t iPrevFrameNum; // frame number of previous frame well decoded for non-truncated mode yet bool bLastHasMmco5; // int32_t iErrorCode; // error code return while decoding in case packets lost SFmo sFmoList[MAX_PPS_COUNT]; // list for FMO storage PFmo pFmo; // current fmo context after parsed slice_header int32_t iActiveFmoNum; // active count number of fmo context in list /*needed info by decode slice level and mb level*/ int32_t iDecBlockOffsetArray[24]; // address talbe for sub 4x4 block in intra4x4_mb, so no need to caculta the address every time. struct { int16_t* pMbType[LAYER_NUM_EXCHANGEABLE]; /* mb type */ int16_t (*pMv[LAYER_NUM_EXCHANGEABLE][LIST_A])[MB_BLOCK4x4_NUM][MV_A]; //[LAYER_NUM_EXCHANGEABLE MB_BLOCK4x4_NUM*] int8_t (*pRefIndex[LAYER_NUM_EXCHANGEABLE][LIST_A])[MB_BLOCK4x4_NUM]; bool* pNoSubMbPartSizeLessThan8x8Flag[LAYER_NUM_EXCHANGEABLE]; bool* pTransformSize8x8Flag[LAYER_NUM_EXCHANGEABLE]; int8_t* pLumaQp[LAYER_NUM_EXCHANGEABLE]; /*mb luma_qp*/ int8_t (*pChromaQp[LAYER_NUM_EXCHANGEABLE])[2]; /*mb chroma_qp*/ int16_t (*pMvd[LAYER_NUM_EXCHANGEABLE][LIST_A])[MB_BLOCK4x4_NUM][MV_A]; //[LAYER_NUM_EXCHANGEABLE MB_BLOCK4x4_NUM*] uint16_t* pCbfDc[LAYER_NUM_EXCHANGEABLE]; int8_t (*pNzc[LAYER_NUM_EXCHANGEABLE])[24]; int8_t (*pNzcRs[LAYER_NUM_EXCHANGEABLE])[24]; int16_t (*pScaledTCoeff[LAYER_NUM_EXCHANGEABLE])[MB_COEFF_LIST_SIZE]; /*need be aligned*/ int8_t (*pIntraPredMode[LAYER_NUM_EXCHANGEABLE])[8]; //0~3 top4x4 ; 4~6 left 4x4; 7 intra16x16 int8_t (*pIntra4x4FinalMode[LAYER_NUM_EXCHANGEABLE])[MB_BLOCK4x4_NUM]; uint8_t* pIntraNxNAvailFlag[LAYER_NUM_EXCHANGEABLE]; int8_t* pChromaPredMode[LAYER_NUM_EXCHANGEABLE]; int8_t* pCbp[LAYER_NUM_EXCHANGEABLE]; uint8_t (*pMotionPredFlag[LAYER_NUM_EXCHANGEABLE][LIST_A])[MB_PARTITION_SIZE]; // 8x8 int8_t (*pSubMbType[LAYER_NUM_EXCHANGEABLE])[MB_SUB_PARTITION_SIZE]; int32_t* pSliceIdc[LAYER_NUM_EXCHANGEABLE]; // using int32_t for slice_idc int8_t* pResidualPredFlag[LAYER_NUM_EXCHANGEABLE]; int8_t* pInterPredictionDoneFlag[LAYER_NUM_EXCHANGEABLE]; bool* pMbCorrectlyDecodedFlag[LAYER_NUM_EXCHANGEABLE]; bool* pMbRefConcealedFlag[LAYER_NUM_EXCHANGEABLE]; uint32_t iMbWidth; uint32_t iMbHeight; } sMb; // reconstruction picture PPicture pDec; //pointer to current picture being reconstructed // reference pictures SRefPic sRefPic; SVlcTable sVlcTable; // vlc table SBitStringAux sBs; int32_t iMaxBsBufferSizeInByte; //actual memory size for BS buffer /* Global memory external */ SPosOffset sFrameCrop; SSps sSpsBuffer[MAX_SPS_COUNT + 1]; SPps sPpsBuffer[MAX_PPS_COUNT + 1]; PSliceHeader pSliceHeader; PPicBuff pPicBuff[LIST_A]; // Initially allocated memory for pictures which are used in decoding. int32_t iPicQueueNumber; SSubsetSps sSubsetSpsBuffer[MAX_SPS_COUNT + 1]; SNalUnit sPrefixNal; PAccessUnit pAccessUnitList; // current access unit list to be performed PSps pActiveLayerSps[MAX_LAYER_NUM]; PSps pSps; // used by current AU PPps pPps; // used by current AU // Memory for pAccessUnitList is dynamically held till decoder destruction. PDqLayer pCurDqLayer; // current DQ layer representation, also carry reference base layer if applicable PDqLayer pDqLayersList[LAYER_NUM_EXCHANGEABLE]; // DQ layers list with memory allocated int32_t iPicWidthReq; // picture width have requested the memory int32_t iPicHeightReq; // picture height have requested the memory uint8_t uiTargetDqId; // maximal DQ ID in current access unit, meaning target layer ID bool bAvcBasedFlag; // For decoding bitstream: bool bEndOfStreamFlag; // Flag on end of stream requested by external application layer bool bInstantDecFlag; // Flag for no-delay decoding bool bInitialDqLayersMem; // dq layers related memory is available? bool bOnlyOneLayerInCurAuFlag; //only one layer in current AU: 1 // for EC parameter sets bool bSpsExistAheadFlag; // whether does SPS NAL exist ahead of sequence? bool bSubspsExistAheadFlag;// whether does Subset SPS NAL exist ahead of sequence? bool bPpsExistAheadFlag; // whether does PPS NAL exist ahead of sequence? int32_t iSpsErrorIgnored; int32_t iSubSpsErrorIgnored; int32_t iPpsErrorIgnored; bool bSpsAvailFlags[MAX_SPS_COUNT]; bool bSubspsAvailFlags[MAX_SPS_COUNT]; bool bPpsAvailFlags[MAX_PPS_COUNT]; int32_t iPPSLastInvalidId; int32_t iPPSInvalidNum; int32_t iSPSLastInvalidId; int32_t iSPSInvalidNum; int32_t iSubSPSLastInvalidId; int32_t iSubSPSInvalidNum; bool bReferenceLostAtT0Flag; int32_t iTotalNumMbRec; //record current number of decoded MB #ifdef LONG_TERM_REF bool bParamSetsLostFlag; //sps or pps do not exist or not correct bool bCurAuContainLtrMarkSeFlag; //current AU has the LTR marking syntax element, mark the previous frame or self int32_t iFrameNumOfAuMarkedLtr; //if bCurAuContainLtrMarkSeFlag==true, SHOULD set this variable uint16_t uiCurIdrPicId; #endif bool bNewSeqBegin; bool bNextNewSeqBegin; int iOverwriteFlags; ERROR_CON_IDC eErrorConMethod; // //for Parse only bool bFramePending; bool bFrameFinish; int32_t iNalNum; int32_t iNalLenInByte[MAX_NAL_UNITS_IN_LAYER]; SSpsBsInfo sSpsBsInfo [MAX_SPS_COUNT]; SSpsBsInfo sSubsetSpsBsInfo [MAX_PPS_COUNT]; SPpsBsInfo sPpsBsInfo [MAX_PPS_COUNT]; SParserBsInfo* pParserBsInfo; PPicture pPreviousDecodedPictureInDpb; //pointer to previously decoded picture in DPB for error concealment PGetIntraPredFunc pGetI16x16LumaPredFunc[7]; //h264_predict_copy_16x16; PGetIntraPredFunc pGetI4x4LumaPredFunc[14]; // h264_predict_4x4_t PGetIntraPredFunc pGetIChromaPredFunc[7]; // h264_predict_8x8_t PIdctResAddPredFunc pIdctResAddPredFunc; PIdctFourResAddPredFunc pIdctFourResAddPredFunc; SMcFunc sMcFunc; //Transform8x8 PGetIntraPred8x8Func pGetI8x8LumaPredFunc[14]; PIdctResAddPredFunc pIdctResAddPredFunc8x8; //For error concealment SCopyFunc sCopyFunc; /* For Deblocking */ SDeblockingFunc sDeblockingFunc; SExpandPicFunc sExpandPicFunc; /* For Block */ SBlockFunc sBlockFunc; int32_t iCurSeqIntervalTargetDependId; int32_t iCurSeqIntervalMaxPicWidth; int32_t iCurSeqIntervalMaxPicHeight; PWelsFillNeighborMbInfoIntra4x4Func pFillInfoCacheIntraNxNFunc; PWelsMapNeighToSample pMapNxNNeighToSampleFunc; PWelsMap16NeighToSample pMap16x16NeighToSampleFunc; //feedback whether or not have VCL in current AU, and the temporal ID int32_t iFeedbackVclNalInAu; int32_t iFeedbackTidInAu; bool bAuReadyFlag; // true: one au is ready for decoding; false: default value bool bPrintFrameErrorTraceFlag; //true: can print info for upper layer int32_t iIgnoredErrorInfoPacketCount; //store the packet number with error decoding info //trace handle void* pTraceHandle; //Save the last nal header info SNalUnitHeaderExt sLastNalHdrExt; SSliceHeader sLastSliceHeader; SWelsCabacCtx sWelsCabacContexts[4][WELS_QP_MAX + 1][WELS_CONTEXT_COUNT]; bool bCabacInited; SWelsCabacCtx pCabacCtx[WELS_CONTEXT_COUNT]; PWelsCabacDecEngine pCabacDecEngine; double dDecTime; SDecoderStatistics sDecoderStatistics;// For real time debugging int32_t iMbEcedNum; int32_t iMbEcedPropNum; int32_t iMbNum; bool bMbRefConcealed; bool bRPLRError; int32_t iECMVs[16][2]; PPicture pECRefPic[16]; unsigned long long uiTimeStamp; // To support scaling list HP uint16_t pDequant_coeff_buffer4x4[6][52][16]; uint16_t pDequant_coeff_buffer8x8[6][52][64]; uint16_t (*pDequant_coeff4x4[6])[16];// 4x4 sclaing list value pointer uint16_t (*pDequant_coeff8x8[6])[64];//64 residual coeff ,with 6 kinds of residual type, 52 qp level int iDequantCoeffPpsid;//When a new pps actived, reinitialised the scaling list value bool bDequantCoeff4x4Init; bool bSpsLatePps; bool bUseScalingList; CMemoryAlign* pMemAlign; } SWelsDecoderContext, *PWelsDecoderContext; static inline void ResetActiveSPSForEachLayer (PWelsDecoderContext pCtx) { if (pCtx->iTotalNumMbRec == 0) { for (int i = 0; i < MAX_LAYER_NUM; i++) { pCtx->pActiveLayerSps[i] = NULL; } } } //#ifdef __cplusplus //} //#endif//__cplusplus } // namespace WelsDec #endif//WELS_DECODER_FRAMEWORK_H__