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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 TComRdCost.h \brief RD cost computation classes (header) */ #ifndef __TCOMRDCOST__ #define __TCOMRDCOST__ #include "CommonDef.h" #include "TComPattern.h" #include "TComMv.h" #include "TComSlice.h" #include "TComRdCostWeightPrediction.h" #if NH_3D #include "../TLibRenderer/TRenModel.h" #include "TComYuv.h" #include "TComTU.h" #endif //! \ingroup TLibCommon //! \{ class DistParam; class TComPattern; #if NH_3D class TComRdCost; #endif // ==================================================================================================================== // Type definition // ==================================================================================================================== // for function pointer typedef Distortion (*FpDistFunc) (DistParam*); // TODO: can this pointer be replaced with a reference? - there are no NULL checks on pointer. #if NH_3D #if NH_3D_VSO typedef Dist (TComRdCost::*FpDistFuncVSO) ( Int, Int, Pel*, Int, Pel*, Int, UInt, UInt, Bool ); #endif #endif // ==================================================================================================================== // Class definition // ==================================================================================================================== /// distortion parameter class class DistParam { public: Pel* pOrg; Pel* pCur; Int iStrideOrg; Int iStrideCur; #if NH_3D_VSO // SAIT_VSO_EST_A0033 Pel* pVirRec; Pel* pVirOrg; Int iStrideVir; #endif #if H_3D_IC Bool bUseIC; #endif #if H_3D_INTER_SDC Bool bUseSDCMRSAD; #endif Int iRows; Int iCols; Int iStep; FpDistFunc DistFunc; Int bitDepth; Bool bApplyWeight; // whether weighted prediction is used or not WPScalingParam *wpCur; // weighted prediction scaling parameters for current ref ComponentID compIdx; // (vertical) subsampling shift (for reducing complexity) // - 0 = no subsampling, 1 = even rows, 2 = every 4th, etc. Int iSubShift; DistParam() { pOrg = NULL; pCur = NULL; iStrideOrg = 0; iStrideCur = 0; iRows = 0; iCols = 0; iStep = 1; DistFunc = NULL; iSubShift = 0; bitDepth = 0; #if NH_3D_VSO // SAIT_VSO_EST_A0033 pVirRec = NULL; pVirOrg = NULL; iStrideVir = 0; #endif #if H_3D_INTER_SDC bUseSDCMRSAD = false; #endif } }; /// RD cost computation class class TComRdCost { private: // for distortion FpDistFunc m_afpDistortFunc[DF_TOTAL_FUNCTIONS]; // [eDFunc] CostMode m_costMode; Double m_distortionWeight[MAX_NUM_COMPONENT]; // only chroma values are used. Double m_dLambda; Double m_sqrtLambda; #if RExt__HIGH_BIT_DEPTH_SUPPORT Double m_dLambdaMotionSAD[2 /* 0=standard, 1=for transquant bypass when mixed-lossless cost evaluation enabled*/]; Double m_dLambdaMotionSSE[2 /* 0=standard, 1=for transquant bypass when mixed-lossless cost evaluation enabled*/]; #else UInt m_uiLambdaMotionSAD[2 /* 0=standard, 1=for transquant bypass when mixed-lossless cost evaluation enabled*/]; UInt m_uiLambdaMotionSSE[2 /* 0=standard, 1=for transquant bypass when mixed-lossless cost evaluation enabled*/]; #endif Double m_dFrameLambda; #if NH_3D_VSO // SAIT_VSO_EST_A0033 static Double m_dDisparityCoeff; #endif // for motion cost TComMv m_mvPredictor; #if RExt__HIGH_BIT_DEPTH_SUPPORT Double m_dCost; #else UInt m_uiCost; #endif Int m_iCostScale; #if H_3D_DBBP Bool m_bUseMask; #endif public: TComRdCost(); virtual ~TComRdCost(); #if NH_3D_VSO Double calcRdCost ( UInt uiBits, Dist uiDistortion, Bool bFlag = false, DFunc eDFunc = DF_DEFAULT ); Double calcRdCost64( UInt64 uiBits, Dist64 uiDistortion, Bool bFlag = false, DFunc eDFunc = DF_DEFAULT ); #else Double calcRdCost ( UInt uiBits, Distortion uiDistortion, Bool bFlag = false, DFunc eDFunc = DF_DEFAULT ); Double calcRdCost64( UInt64 uiBits, UInt64 uiDistortion, Bool bFlag = false, DFunc eDFunc = DF_DEFAULT ); #endif Void setDistortionWeight ( const ComponentID compID, const Double distortionWeight ) { m_distortionWeight[compID] = distortionWeight; } Void setLambda ( Double dLambda, const BitDepths &bitDepths ); Void setFrameLambda ( Double dLambda ) { m_dFrameLambda = dLambda; } Double getSqrtLambda () { return m_sqrtLambda; } #if NH_3D_VSO // SAIT_VSO_EST_A0033 Void setDisparityCoeff( Double dDisparityCoeff ) { m_dDisparityCoeff = dDisparityCoeff; } Double getDisparityCoeff() { return m_dDisparityCoeff; } #endif Double getLambda() { return m_dLambda; } Double getChromaWeight () { return ((m_distortionWeight[COMPONENT_Cb] + m_distortionWeight[COMPONENT_Cr]) / 2.0); } Void setCostMode(CostMode m ) { m_costMode = m; } // Distortion Functions Void init(); Void setDistParam( UInt uiBlkWidth, UInt uiBlkHeight, DFunc eDFunc, DistParam& rcDistParam ); Void setDistParam( TComPattern* pcPatternKey, Pel* piRefY, Int iRefStride, DistParam& rcDistParam ); Void setDistParam( TComPattern* pcPatternKey, Pel* piRefY, Int iRefStride, Int iStep, DistParam& rcDistParam, Bool bHADME=false ); Void setDistParam( DistParam& rcDP, Int bitDepth, Pel* p1, Int iStride1, Pel* p2, Int iStride2, Int iWidth, Int iHeight, Bool bHadamard = false ); #if H_3D_DBBP Void setUseMask(Bool b) { m_bUseMask = b; } #endif Distortion calcHAD(Int bitDepth, Pel* pi0, Int iStride0, Pel* pi1, Int iStride1, Int iWidth, Int iHeight ); #if H_3D_FAST_DEPTH_INTRA UInt calcVAR(Pel* pi0, Int stride, Int width, Int height, Int cuDepth); #endif // for motion cost static UInt xGetExpGolombNumberOfBits( Int iVal ); #if RExt__HIGH_BIT_DEPTH_SUPPORT Void getMotionCost( Bool bSad, Int iAdd, Bool bIsTransquantBypass ) { m_dCost = (bSad ? m_dLambdaMotionSAD[(bIsTransquantBypass && m_costMode==COST_MIXED_LOSSLESS_LOSSY_CODING) ?1:0] + iAdd : m_dLambdaMotionSSE[(bIsTransquantBypass && m_costMode==COST_MIXED_LOSSLESS_LOSSY_CODING)?1:0] + iAdd); } #else Void getMotionCost( Bool bSad, Int iAdd, Bool bIsTransquantBypass ) { m_uiCost = (bSad ? m_uiLambdaMotionSAD[(bIsTransquantBypass && m_costMode==COST_MIXED_LOSSLESS_LOSSY_CODING) ?1:0] + iAdd : m_uiLambdaMotionSSE[(bIsTransquantBypass && m_costMode==COST_MIXED_LOSSLESS_LOSSY_CODING)?1:0] + iAdd); } #endif Void setPredictor( TComMv& rcMv ) { m_mvPredictor = rcMv; } Void setCostScale( Int iCostScale ) { m_iCostScale = iCostScale; } __inline Distortion getCost( Int x, Int y ) { #if RExt__HIGH_BIT_DEPTH_SUPPORT return Distortion((m_dCost * getBits(x, y)) / 65536.0); #else return m_uiCost * getBits(x, y) >> 16; #endif } #if RExt__HIGH_BIT_DEPTH_SUPPORT Distortion getCost( UInt b ) { return Distortion(( m_dCost * b ) / 65536.0); } #else Distortion getCost( UInt b ) { return ( m_uiCost * b ) >> 16; } #endif UInt getBits( Int x, Int y ) { return xGetExpGolombNumberOfBits((x << m_iCostScale) - m_mvPredictor.getHor()) + xGetExpGolombNumberOfBits((y << m_iCostScale) - m_mvPredictor.getVer()); } private: static Distortion xGetSSE ( DistParam* pcDtParam ); static Distortion xGetSSE4 ( DistParam* pcDtParam ); static Distortion xGetSSE8 ( DistParam* pcDtParam ); static Distortion xGetSSE16 ( DistParam* pcDtParam ); static Distortion xGetSSE32 ( DistParam* pcDtParam ); static Distortion xGetSSE64 ( DistParam* pcDtParam ); static Distortion xGetSSE16N ( DistParam* pcDtParam ); #if H_3D_IC || H_3D_INTER_SDC static UInt xGetSADic ( DistParam* pcDtParam ); static UInt xGetSAD4ic ( DistParam* pcDtParam ); static UInt xGetSAD8ic ( DistParam* pcDtParam ); static UInt xGetSAD16ic ( DistParam* pcDtParam ); static UInt xGetSAD32ic ( DistParam* pcDtParam ); static UInt xGetSAD64ic ( DistParam* pcDtParam ); static UInt xGetSAD16Nic ( DistParam* pcDtParam ); #endif static Distortion xGetSAD ( DistParam* pcDtParam ); static Distortion xGetSAD4 ( DistParam* pcDtParam ); static Distortion xGetSAD8 ( DistParam* pcDtParam ); static Distortion xGetSAD16 ( DistParam* pcDtParam ); static Distortion xGetSAD32 ( DistParam* pcDtParam ); static Distortion xGetSAD64 ( DistParam* pcDtParam ); static Distortion xGetSAD16N ( DistParam* pcDtParam ); #if NH_3D_VSO static UInt xGetVSD ( DistParam* pcDtParam ); static UInt xGetVSD4 ( DistParam* pcDtParam ); static UInt xGetVSD8 ( DistParam* pcDtParam ); static UInt xGetVSD16 ( DistParam* pcDtParam ); static UInt xGetVSD32 ( DistParam* pcDtParam ); static UInt xGetVSD64 ( DistParam* pcDtParam ); static UInt xGetVSD16N ( DistParam* pcDtParam ); #endif #if H_3D_IC || H_3D_INTER_SDC static UInt xGetSAD12ic ( DistParam* pcDtParam ); static UInt xGetSAD24ic ( DistParam* pcDtParam ); static UInt xGetSAD48ic ( DistParam* pcDtParam ); #endif static Distortion xGetSAD12 ( DistParam* pcDtParam ); static Distortion xGetSAD24 ( DistParam* pcDtParam ); static Distortion xGetSAD48 ( DistParam* pcDtParam ); #if H_3D_IC || H_3D_INTER_SDC static UInt xGetHADsic ( DistParam* pcDtParam ); #endif static Distortion xGetHADs ( DistParam* pcDtParam ); static Distortion xCalcHADs2x2 ( Pel *piOrg, Pel *piCurr, Int iStrideOrg, Int iStrideCur, Int iStep ); static Distortion xCalcHADs4x4 ( Pel *piOrg, Pel *piCurr, Int iStrideOrg, Int iStrideCur, Int iStep ); static Distortion xCalcHADs8x8 ( Pel *piOrg, Pel *piCurr, Int iStrideOrg, Int iStrideCur, Int iStep ); #if H_3D_DBBP static UInt xGetMaskedSSE ( DistParam* pcDtParam ); static UInt xGetMaskedSAD ( DistParam* pcDtParam ); static UInt xGetMaskedVSD ( DistParam* pcDtParam ); #endif public: Distortion getDistPart(Int bitDepth, Pel* piCur, Int iCurStride, Pel* piOrg, Int iOrgStride, UInt uiBlkWidth, UInt uiBlkHeight, const ComponentID compID, DFunc eDFunc = DF_SSE ); #if KWU_RC_MADPRED_E0227 UInt getSADPart ( Int bitDepth, Pel* pelCur, Int curStride, Pel* pelOrg, Int orgStride, UInt width, UInt height ); #endif #if NH_3D_VSO // SAIT_VSO_EST_A0033 UInt getDistPartVSD( TComDataCU* pcCu, UInt uiPartOffset, Int bitDepth, Pel* piCur, Int iCurStride, Pel* piOrg, Int iOrgStride, UInt uiBlkWidth, UInt uiBlkHeight, Bool bHad, DFunc eDFunc = DF_VSD); static UInt getVSDEstimate( Int dDM, Pel* pOrg, Int iOrgStride, Pel* pVirRec, Pel* pVirOrg, Int iVirStride, Int x, Int y ); private: Double m_dLambdaVSO; Double m_dSqrtLambdaVSO; UInt m_uiLambdaMotionSADVSO; UInt m_uiLambdaMotionSSEVSO; Double m_dFrameLambdaVSO; Bool m_bAllowNegDist; Bool m_bUseVSO; Bool m_bUseLambdaScaleVSO; UInt m_uiVSOMode; FpDistFuncVSO m_fpDistortFuncVSO; TRenModel* m_pcRenModel; // SAIT_VSO_EST_A0033 TComPicYuv * m_pcVideoRecPicYuv; TComPicYuv * m_pcDepthPicYuv; Bool m_bUseEstimatedVSD; // LGE_WVSO_A0119 Int m_iDWeight; Int m_iVSOWeight; Int m_iVSDWeight; Bool m_bUseWVSO; public: Void setRenModel ( TRenModel* pcRenModel ) { m_pcRenModel = pcRenModel; } TRenModel* getRenModel ( ) { return m_pcRenModel; } Void setRenModelData ( const TComDataCU* pcCU, UInt uiAbsPartIndex, const TComYuv* pcYuv, const TComTURecurse* tuRecurseWithPU ); Void setRenModelData ( const TComDataCU* pcCU, UInt uiAbsPartIndex, const Pel* piData, Int iStride, Int iBlkWidth, Int iBlkHeight ); Void setLambdaVSO ( Double dLambda ); Void setFrameLambdaVSO ( Double dLambda ) { m_dFrameLambdaVSO = dLambda; }; Void setUseVSO ( Bool bIn ) { m_bUseVSO = bIn; }; Bool getUseVSO ( ) { return m_bUseVSO;}; Bool getUseRenModel ( ) { return (m_bUseVSO && m_uiVSOMode == 4); }; Void setUseLambdaScaleVSO(Bool bIn) { m_bUseLambdaScaleVSO = bIn; }; Bool getUseLambdaScaleVSO( ) { return m_bUseLambdaScaleVSO; }; Void setVSOMode( UInt uiIn); UInt getVSOMode( ) { return m_uiVSOMode; } Void setAllowNegDist ( Bool bAllowNegDist ); Double getSqrtLambdaVSO () { return m_dSqrtLambdaVSO; } Double getLambdaVSO () { return m_dLambdaVSO; } Dist getDistPartVSO( TComDataCU* pcCU, UInt uiAbsPartIndex, Int bitdDepth, Pel* piCur, Int iCurStride, Pel* piOrg, Int iOrgStride, UInt uiBlkWidth, UInt uiBlkHeight, Bool bSAD ); Double calcRdCostVSO ( UInt uiBits, Dist uiDistortion, Bool bFlag = false, DFunc eDFunc = DF_DEFAULT ); // SAIT_VSO_EST_A0033 Bool getUseEstimatedVSD( ) { return m_bUseEstimatedVSD; }; Void setUseEstimatedVSD( Bool bIn ) { m_bUseEstimatedVSD = bIn; }; TComPicYuv* getVideoRecPicYuv () { return m_pcVideoRecPicYuv; }; Void setVideoRecPicYuv ( TComPicYuv* pcVideoRecPicYuv ) { m_pcVideoRecPicYuv = pcVideoRecPicYuv; }; TComPicYuv* getDepthPicYuv () { return m_pcDepthPicYuv; }; Void setDepthPicYuv ( TComPicYuv* pcDepthPicYuv ) { m_pcDepthPicYuv = pcDepthPicYuv; }; // LGE_WVSO_A0119 Void setUseWVSO ( Bool bIn ) { m_bUseWVSO = bIn; }; Bool getUseWVSO ( ) { return m_bUseWVSO;}; Void setDWeight ( Int iDWeight ) { m_iDWeight = iDWeight; }; Int getDWeight () { return m_iDWeight; }; Void setVSOWeight ( Int iVSOWeight ) { m_iVSOWeight = iVSOWeight; }; Int getVSOWeight () { return m_iVSOWeight; }; Void setVSDWeight ( Int iVSDWeight ) { m_iVSDWeight = iVSDWeight; }; Int getVSDWeight () { return m_iVSDWeight; }; private: Dist xGetDistVSOMode4( Int iStartPosX, Int iStartPosY, Pel* piCur, Int iCurStride, Pel* piOrg, Int iOrgStride, UInt uiBlkWidth, UInt uiBlkHeight, Bool bSAD ); #endif // NH_3D_VSO };// END CLASS DEFINITION TComRdCost //! \} #endif // __TCOMRDCOST__