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source: SHVCSoftware/branches/SHM-dev/source/Lib/TLibCommon/TCom3DAsymLUT.h @ 832

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Last change on this file since 832 was 826, checked in by interdigital, 10 years ago
Added R0300_CGS_RES_COEFF_CODING for improved residual coefficient coding Added R0179_CGS_SIZE_8x1x1 to allow 8x1x1 LUT size
File size: 6.2 KB

Rev	Line
[677]	1
	2	#ifndef __TCOM3DASYMLUT__
	3	#define __TCOM3DASYMLUT__
	4
	5	#include "TypeDef.h"
[825]	6	#if R0150_CGS_SIGNAL_CONSTRAINTS
	7	#include <cassert>
	8	#include <vector>
	9	#endif
[677]	10
	11	#if Q0048_CGS_3D_ASYMLUT
	12
	13	typedef struct _SYUVP
	14	{
	15	Pel Y , U , V;
	16	}SYUVP;
	17
	18	typedef struct _SCuboid // vertexes for tetrahedral interpolation
	19	{
	20	SYUVP P[4]; // YUV: P0(0,0,0), P1(0,1,0), P3(0,1,1), P7(1,1,1)
	21	}SCuboid;
	22
	23	class TComPicYuv;
	24
	25	class TCom3DAsymLUT
	26	{
	27	public:
	28	TCom3DAsymLUT();
	29	virtual ~TCom3DAsymLUT();
	30
[825]	31	virtual Void create( Int nMaxOctantDepth , Int nInputBitDepth , Int nInputBitDepthC , Int nOutputBitDepth , Int nOutputBitDepthC , Int nMaxYPartNumLog2
	32	#if R0151_CGS_3D_ASYMLUT_IMPROVE
	33	, Int nAdaptCThresholdU , Int nAdaptCThresholdV
	34	#endif
	35	);
[677]	36	virtual Void destroy();
	37
	38	Int getMaxOctantDepth() { return m_nMaxOctantDepth; }
	39	Int getCurOctantDepth() { return m_nCurOctantDepth; }
	40	Int getInputBitDepthY() { return m_nInputBitDepthY; }
	41	Int getOutputBitDepthY() { return m_nOutputBitDepthY; }
	42	Int getInputBitDepthC() { return m_nInputBitDepthC; }
	43	Int getOutputBitDepthC() { return m_nOutputBitDepthC; }
	44	Int getResQuantBit() { return m_nResQuanBit; }
	45	Void setResQuantBit(Int n){ m_nResQuanBit = n; }
[826]	46	#if R0300_CGS_RES_COEFF_CODING
	47	Int getMappingShift() { return m_nMappingShift; }
	48	Int getDeltaBits() { return m_nDeltaBits; }
	49	Void setDeltaBits(Int n) { m_nDeltaBits = n; }
	50	#endif
[677]	51	Int getMaxYPartNumLog2() { return m_nMaxYPartNumLog2; }
	52	Int getCurYPartNumLog2() { return m_nCurYPartNumLog2; }
[825]	53	#if R0150_CGS_SIGNAL_CONSTRAINTS
	54	Void addRefLayerId( UInt uiRefLayerId )
	55	{
	56	if( !isRefLayer( uiRefLayerId ) )
	57	m_vRefLayerId.push_back( uiRefLayerId );
	58	}
	59	size_t getRefLayerNum() { return m_vRefLayerId.size(); }
	60	UInt getRefLayerId( UInt n ) { assert( n < m_vRefLayerId.size() ); return m_vRefLayerId[n]; }
	61	Bool isRefLayer( UInt uiRefLayerId );
	62	#endif
	63	#if R0151_CGS_3D_ASYMLUT_IMPROVE
	64	Void setAdaptChromaThresholdU( Int n ) { m_nAdaptCThresholdU = n; }
	65	Int getAdaptChromaThresholdU() { return m_nAdaptCThresholdU; }
	66	Void setAdaptChromaThresholdV( Int n ) { m_nAdaptCThresholdV = n; }
	67	Int getAdaptChromaThresholdV() { return m_nAdaptCThresholdV; }
	68	#endif
[677]	69
	70	Void colorMapping( TComPicYuv * pcPicSrc, TComPicYuv * pcPicDst );
	71	Void copy3DAsymLUT( TCom3DAsymLUT * pSrc );
	72
	73	SYUVP xGetCuboidVertexPredAll( Int yIdx , Int uIdx , Int vIdx , Int nVertexIdx , SCuboid *** pCurCuboid=NULL );
	74	SYUVP getCuboidVertexResTree( Int yIdx , Int uIdx , Int vIdx , Int nVertexIdx );
	75	Void setCuboidVertexResTree( Int yIdx , Int uIdx , Int vIdx , Int nVertexIdx , Int deltaY , Int deltaU , Int deltaV );
[825]	76	#if R0164_CGS_LUT_BUGFIX
	77	Void xInitCuboids( );
	78	Void xCuboidsExplicitCheck( Int yIdx , Int uIdx , Int vIdx );
	79	Void xCuboidsExplicitCheck( Bool bDecode );
	80	Void xSetExplicit( Int yIdx , Int uIdx , Int vIdx ) { m_pCuboidExplicit[yIdx][uIdx][vIdx] = true ;}
	81	#endif
[677]	82
	83	private:
	84	Int m_nMaxOctantDepth;
	85	Int m_nCurOctantDepth;
	86	Int m_nInputBitDepthY;
	87	Int m_nOutputBitDepthY;
	88	Int m_nInputBitDepthC;
	89	Int m_nOutputBitDepthC;
	90	Int m_nDeltaBitDepthC;
	91	Int m_nDeltaBitDepth;
	92	Int m_nMaxYPartNumLog2;
	93	Int m_nCurYPartNumLog2;
	94	Int m_nMaxPartNumLog2;
	95	Int m_nYSize;
	96	Int m_nUSize;
	97	Int m_nVSize;
	98	Int m_nYShift2Idx;
	99	Int m_nUShift2Idx;
	100	Int m_nVShift2Idx;
	101	Int m_nMappingShift;
	102	Int m_nMappingOffset;
	103	Int m_nResQuanBit;
[826]	104	#if R0300_CGS_RES_COEFF_CODING
	105	Int m_nDeltaBits;
	106	#endif
[677]	107	SCuboid *** m_pCuboid;
	108	const static Int m_nVertexIdxOffset[4][3];
[825]	109	#if R0150_CGS_SIGNAL_CONSTRAINTS
	110	std::vector<UInt> m_vRefLayerId;
	111	#endif
	112	#if R0151_CGS_3D_ASYMLUT_IMPROVE
	113	Int m_nAdaptCThresholdU;
	114	Int m_nAdaptCThresholdV;
	115	#endif
	116	#if R0164_CGS_LUT_BUGFIX
	117	Bool *** m_pCuboidExplicit;
	118	#endif
[677]	119
	120	protected:
	121	template <class T>
	122	Void xAllocate3DArray( T*** &p , Int xSize , Int ySize , Int zSize );
	123	template <class T>
	124	Void xReset3DArray( T*** &p , Int xSize , Int ySize , Int zSize );
	125	template <class T>
	126	Void xFree3DArray( T *** &p );
	127
[825]	128	Void xUpdatePartitioning( Int nCurOctantDepth , Int nCurYPartNumLog2
	129	#if R0151_CGS_3D_ASYMLUT_IMPROVE
	130	, Int nAdaptCThresholdU , Int nAdaptCThreshodV
	131	#endif
	132	);
[677]	133	SYUVP xGetCuboidVertexPredA( Int yIdx , Int uIdx , Int vIdx , Int nVertexIdx );
	134	Pel xMapY( Pel y , Pel u , Pel v );
	135	SYUVP xMapUV( Pel y , Pel u , Pel v );
	136	Int xGetMaxPartNumLog2() { return m_nMaxPartNumLog2; }
	137	Int xGetYSize() { return m_nYSize; }
	138	Int xGetUSize() { return m_nUSize; }
	139	Int xGetVSize() { return m_nVSize; }
[825]	140	#if R0151_CGS_3D_ASYMLUT_IMPROVE
	141	Int xGetYIdx(Pel y) { return( y >> m_nYShift2Idx ); }
	142	Int xGetUIdx(Pel u) { return( m_nCurOctantDepth == 1 ? u >= m_nAdaptCThresholdU : u >> m_nUShift2Idx ); }
	143	Int xGetVIdx(Pel v) { return( m_nCurOctantDepth == 1 ? v >= m_nAdaptCThresholdV : v >> m_nVShift2Idx ); }
	144	Int xGetNormCoeffOne() { return( 1 << m_nMappingShift ); }
	145	#else
[677]	146	Int xGetYShift2Idx() { return m_nYShift2Idx; }
	147	Int xGetUShift2Idx() { return m_nUShift2Idx; }
	148	Int xGetVShift2Idx() { return m_nVShift2Idx; }
[825]	149	#endif
[677]	150	SCuboid & xGetCuboid( Int yIdx , Int uIdx , Int vIdx ){ return m_pCuboid[yIdx][uIdx][vIdx]; }
	151	Void xSaveCuboids( SCuboid *** pSrcCuboid );
	152	};
	153
	154	template <class T>
	155	Void TCom3DAsymLUT::xAllocate3DArray( T *** &p , Int xSize , Int ySize , Int zSize )
	156	{
	157	p = new T**[xSize];
	158	p[0] = new T[xSizeySize];
	159	for( Int x = 1 ; x < xSize ; x++ )
[815]	160	{
[677]	161	p[x] = p[x-1] + ySize;
[815]	162	}
[677]	163	p[0][0] = new T[xSizeySizezSize];
	164	for( Int x = 0 ; x < xSize ; x++ )
	165	{
	166	for( Int y = 0 ; y < ySize ; y++ )
[815]	167	{
[677]	168	p[x][y] = p[0][0] + x * ySize * zSize + y * zSize;
[815]	169	}
[677]	170	}
	171	}
	172
	173	template <class T>
	174	Void TCom3DAsymLUT::xFree3DArray( T *** &p )
	175	{
	176	if( p != NULL )
	177	{
	178	if( p[0] != NULL )
	179	{
	180	if( p[0][0] != NULL )
[815]	181	{
[677]	182	delete [] p[0][0];
[815]	183	}
[677]	184	delete [] p[0];
	185	}
	186	delete [] p;
	187	p = NULL;
	188	}
	189	}
	190
	191	template <class T>
	192	Void TCom3DAsymLUT::xReset3DArray( T*** &p , Int xSize , Int ySize , Int zSize )
	193	{
	194	memset( p[0][0] , 0 , sizeof( T ) * xSize * ySize * zSize );
	195	}
	196
	197	#endif
	198
	199	#endif

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