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source: 3DVCSoftware/branches/HTM-11.2-dev0/source/Lib/TLibCommon/TComDataCU.h @ 1034

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Last change on this file since 1034 was 1034, checked in by tech, 10 years ago
Fix tickets #76 Unused functions
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1	/* The copyright in this software is being made available under the BSD
2	* License, included below. This software may be subject to other third party
3	* and contributor rights, including patent rights, and no such rights are
4	* granted under this license.
5	*
6	* Copyright (c) 2010-2014, ITU/ISO/IEC
7	* All rights reserved.
8	*
9	* Redistribution and use in source and binary forms, with or without
10	* modification, are permitted provided that the following conditions are met:
11	*
12	* * Redistributions of source code must retain the above copyright notice,
13	* this list of conditions and the following disclaimer.
14	* * Redistributions in binary form must reproduce the above copyright notice,
15	* this list of conditions and the following disclaimer in the documentation
16	* and/or other materials provided with the distribution.
17	* * Neither the name of the ITU/ISO/IEC nor the names of its contributors may
18	* be used to endorse or promote products derived from this software without
19	* specific prior written permission.
20	*
21	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
22	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
23	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
24	* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
25	* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
26	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
27	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
28	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
29	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
30	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
31	* THE POSSIBILITY OF SUCH DAMAGE.
32	*/
33
34	/** \file TComDataCU.h
35	\brief CU data structure (header)
36	\todo not all entities are documented
37	*/
38
39	#ifndef _TCOMDATACU_
40	#define _TCOMDATACU_
41
42	#include <assert.h>
43
44	// Include files
45	#include "CommonDef.h"
46	#include "TComMotionInfo.h"
47	#include "TComSlice.h"
48	#include "TComRdCost.h"
49	#include "TComPattern.h"
50
51	#if H_3D_ARP
52	#include "TComYuv.h"
53	#endif
54
55	#include <algorithm>
56	#include <vector>
57
58	//! \ingroup TLibCommon
59	//! \{
60
61
62	#if H_3D_DBBP
63	typedef struct _DBBPTmpData
64	{
65	TComMv acMvd[2][2]; // for two segments and two lists
66	TComMvField acMvField[2][2]; // for two segments and two lists
67	Int aiMvpNum[2][2]; // for two segments and two lists
68	Int aiMvpIdx[2][2]; // for two segments and two lists
69	UChar auhInterDir[2]; // for two segments
70	Bool abMergeFlag[2]; // for two segments
71	UChar auhMergeIndex[2]; // for two segments
72	PartSize eVirtualPartSize;
73	UInt uiVirtualPartIndex;
74	} DBBPTmpData;
75	#endif
76
77	// ====================================================================================================================
78	// Class definition
79	// ====================================================================================================================
80
81	/// CU data structure class
82	class TComDataCU
83	{
84	private:
85
86	// -------------------------------------------------------------------------------------------------------------------
87	// class pointers
88	// -------------------------------------------------------------------------------------------------------------------
89
90	TComPic* m_pcPic; ///< picture class pointer
91	TComSlice* m_pcSlice; ///< slice header pointer
92	TComPattern* m_pcPattern; ///< neighbour access class pointer
93
94	// -------------------------------------------------------------------------------------------------------------------
95	// CU description
96	// -------------------------------------------------------------------------------------------------------------------
97
98	UInt m_uiCUAddr; ///< CU address in a slice
99	UInt m_uiAbsIdxInLCU; ///< absolute address in a CU. It's Z scan order
100	UInt m_uiCUPelX; ///< CU position in a pixel (X)
101	UInt m_uiCUPelY; ///< CU position in a pixel (Y)
102	UInt m_uiNumPartition; ///< total number of minimum partitions in a CU
103	UChar* m_puhWidth; ///< array of widths
104	UChar* m_puhHeight; ///< array of heights
105	UChar* m_puhDepth; ///< array of depths
106	Int m_unitSize; ///< size of a "minimum partition"
107
108	// -------------------------------------------------------------------------------------------------------------------
109	// CU data
110	// -------------------------------------------------------------------------------------------------------------------
111	Bool* m_skipFlag; ///< array of skip flags
112	#if MTK_SINGLE_DEPTH_MODE_I0095
113	Bool* m_singleDepthFlag; ///< array of single depth flags
114	Pel* m_apSingleDepthValue;
115	#endif
116	Char* m_pePartSize; ///< array of partition sizes
117	Char* m_pePredMode; ///< array of prediction modes
118	Bool* m_CUTransquantBypass; ///< array of cu_transquant_bypass flags
119	Char* m_phQP; ///< array of QP values
120	UChar* m_puhTrIdx; ///< array of transform indices
121	UChar* m_puhTransformSkip[3];///< array of transform skipping flags
122	UChar* m_puhCbf[3]; ///< array of coded block flags (CBF)
123	TComCUMvField m_acCUMvField[2]; ///< array of motion vectors
124	TCoeff* m_pcTrCoeffY; ///< transformed coefficient buffer (Y)
125	TCoeff* m_pcTrCoeffCb; ///< transformed coefficient buffer (Cb)
126	TCoeff* m_pcTrCoeffCr; ///< transformed coefficient buffer (Cr)
127	#if ADAPTIVE_QP_SELECTION
128	Int* m_pcArlCoeffY; ///< ARL coefficient buffer (Y)
129	Int* m_pcArlCoeffCb; ///< ARL coefficient buffer (Cb)
130	Int* m_pcArlCoeffCr; ///< ARL coefficient buffer (Cr)
131	Bool m_ArlCoeffIsAliasedAllocation; ///< ARL coefficient buffer is an alias of the global buffer and must not be free()'d
132
133	static Int* m_pcGlbArlCoeffY; ///< ARL coefficient buffer (Y)
134	static Int* m_pcGlbArlCoeffCb; ///< ARL coefficient buffer (Cb)
135	static Int* m_pcGlbArlCoeffCr; ///< ARL coefficient buffer (Cr)
136	#endif
137
138	Pel* m_pcIPCMSampleY; ///< PCM sample buffer (Y)
139	Pel* m_pcIPCMSampleCb; ///< PCM sample buffer (Cb)
140	Pel* m_pcIPCMSampleCr; ///< PCM sample buffer (Cr)
141
142	// -------------------------------------------------------------------------------------------------------------------
143	// neighbour access variables
144	// -------------------------------------------------------------------------------------------------------------------
145
146	TComDataCU* m_pcCUAboveLeft; ///< pointer of above-left CU
147	TComDataCU* m_pcCUAboveRight; ///< pointer of above-right CU
148	TComDataCU* m_pcCUAbove; ///< pointer of above CU
149	TComDataCU* m_pcCULeft; ///< pointer of left CU
150	TComDataCU* m_apcCUColocated[2]; ///< pointer of temporally colocated CU's for both directions
151	TComMvField m_cMvFieldA; ///< motion vector of position A
152	TComMvField m_cMvFieldB; ///< motion vector of position B
153	TComMvField m_cMvFieldC; ///< motion vector of position C
154	TComMv m_cMvPred; ///< motion vector predictor
155
156	// -------------------------------------------------------------------------------------------------------------------
157	// coding tool information
158	// -------------------------------------------------------------------------------------------------------------------
159
160	Bool* m_pbMergeFlag; ///< array of merge flags
161	UChar* m_puhMergeIndex; ///< array of merge candidate indices
162	#if AMP_MRG
163	Bool m_bIsMergeAMP;
164	#endif
165	UChar* m_puhLumaIntraDir; ///< array of intra directions (luma)
166	UChar* m_puhChromaIntraDir; ///< array of intra directions (chroma)
167	UChar* m_puhInterDir; ///< array of inter directions
168	Char* m_apiMVPIdx[2]; ///< array of motion vector predictor candidates
169	Char* m_apiMVPNum[2]; ///< array of number of possible motion vectors predictors
170	Bool* m_pbIPCMFlag; ///< array of intra_pcm flags
171	#if H_3D_NBDV
172	DisInfo* m_pDvInfo;
173	#endif
174	#if H_3D_VSP
175	Char* m_piVSPFlag; ///< array of VSP flags to indicate whehter a block uses VSP or not
176	///< 0: non-VSP; 1: VSP
177	#endif
178	#if H_3D_SPIVMP
179	Bool* m_pbSPIVMPFlag; ///< array of sub-PU IVMP flags to indicate whehter a block uses sub-PU IVMP
180	///< 0: non-SPIVMP; 1: SPIVMP
181	#endif
182	#if H_3D_ARP
183	UChar* m_puhARPW;
184	#endif
185	#if H_3D_IC
186	Bool* m_pbICFlag; ///< array of IC flags
187	#endif
188	#if H_3D_DIM
189	Pel* m_dimDeltaDC[DIM_NUM_TYPE][2];
190	#if H_3D_DIM_DMM
191	UInt* m_dmmWedgeTabIdx[DMM_NUM_TYPE];
192	#endif
193	#if H_3D_DIM_SDC
194	Bool* m_pbSDCFlag;
195	Pel* m_apSegmentDCOffset[2];
196	Pel m_apDmmPredictor[2];
197	#endif
198	#endif
199	#if H_3D_DBBP
200	Bool* m_pbDBBPFlag; ///< array of DBBP flags
201	DBBPTmpData m_sDBBPTmpData;
202	#endif
203	#if H_3D
204	Bool m_bAvailableFlagA1; ///< A1 available flag
205	Bool m_bAvailableFlagB1; ///< B1 available flag
206	Bool m_bAvailableFlagB0; ///< B0 available flag
207	Bool m_bAvailableFlagA0; ///< A0 available flag
208	Bool m_bAvailableFlagB2; ///< B2 available flag
209	#endif
210	// -------------------------------------------------------------------------------------------------------------------
211	// misc. variables
212	// -------------------------------------------------------------------------------------------------------------------
213
214	Bool m_bDecSubCu; ///< indicates decoder-mode
215	Double m_dTotalCost; ///< sum of partition RD costs
216	#if H_3D_VSO
217	Dist m_uiTotalDistortion; ///< sum of partition distortion
218	#else
219	UInt m_uiTotalDistortion; ///< sum of partition distortion
220	#endif
221	UInt m_uiTotalBits; ///< sum of partition bits
222	UInt m_uiTotalBins; ///< sum of partition bins
223	UInt* m_sliceStartCU; ///< Start CU address of current slice
224	UInt* m_sliceSegmentStartCU; ///< Start CU address of current slice
225	Char m_codedQP;
226	#if H_3D
227	DisInfo m_cDefaultDisInfo; ///< Default disparity information for initializing
228	#endif
229
230	#if H_3D_DDD
231	UChar* m_pucDisparityDerivedDepth;
232	Bool* m_pbUseDDD;
233	Int m_iUseDDDCandIdx;
234	UChar m_ucDDTmpDepth;
235	#endif
236
237	#if H_3D_IV_MERGE
238	TComMotionCand m_mergCands[MRG_IVSHIFT+1];
239	Int m_baseListidc;
240	#endif
241
242	protected:
243
244	/// add possible motion vector predictor candidates
245	Bool xAddMVPCand ( AMVPInfo* pInfo, RefPicList eRefPicList, Int iRefIdx, UInt uiPartUnitIdx, MVP_DIR eDir );
246	Bool xAddMVPCandOrder ( AMVPInfo* pInfo, RefPicList eRefPicList, Int iRefIdx, UInt uiPartUnitIdx, MVP_DIR eDir );
247	#if H_3D_VSP
248	Bool xAddVspCand( Int mrgCandIdx, DisInfo* pDInfo, Int& iCount);
249	#endif
250	#if H_3D_IV_MERGE
251	Bool xAddIvMRGCand( Int mrgCandIdx, Int& iCount, Int* ivCandDir, TComMv* ivCandMv, Int* ivCandRefIdx );
252	#if! SEC_SIMP_SHIFTED_DV_I0086
253	Bool xGetPosFirstAvailDmvCand( Int iCount, Int& iFirDispCand );
254	#endif
255	#endif
256
257	Void deriveRightBottomIdx ( UInt uiPartIdx, UInt& ruiPartIdxRB );
258	Bool xGetColMVP( RefPicList eRefPicList, Int uiCUAddr, Int uiPartUnitIdx, TComMv& rcMv, Int& riRefIdx
259	#if H_3D_TMVP
260	,
261	Bool bMRG = true
262	#endif
263	);
264
265	/// compute required bits to encode MVD (used in AMVP)
266	UInt xGetMvdBits ( TComMv cMvd );
267	UInt xGetComponentBits ( Int iVal );
268
269	/// compute scaling factor from POC difference
270	#if !H_3D_ARP
271	Int xGetDistScaleFactor ( Int iCurrPOC, Int iCurrRefPOC, Int iColPOC, Int iColRefPOC );
272	#endif
273
274	Void xDeriveCenterIdx( UInt uiPartIdx, UInt& ruiPartIdxCenter );
275
276	#if H_3D_VSP
277	Void xSetMvFieldForVSP ( TComDataCU cu, TComPicYuv picRefDepth, TComMv dv, UInt partAddr, Int width, Int height, Int shiftLUT, RefPicList refPicList, Int refIdx, Bool isDepth, Int &vspSize );
278	#endif
279
280	public:
281	TComDataCU();
282	virtual ~TComDataCU();
283
284	// -------------------------------------------------------------------------------------------------------------------
285	// create / destroy / initialize / copy
286	// -------------------------------------------------------------------------------------------------------------------
287	#if H_3D_ARP
288	Int xGetDistScaleFactor ( Int iCurrPOC, Int iCurrRefPOC, Int iColPOC, Int iColRefPOC );
289	#endif
290	Void create ( UInt uiNumPartition, UInt uiWidth, UInt uiHeight, Bool bDecSubCu, Int unitSize
291	#if ADAPTIVE_QP_SELECTION
292	, Bool bGlobalRMARLBuffer = false
293	#endif
294	);
295	Void destroy ();
296
297	Void initCU ( TComPic* pcPic, UInt uiCUAddr );
298	Void initEstData ( UInt uiDepth, Int qp, Bool bTransquantBypass );
299	Void initSubCU ( TComDataCU* pcCU, UInt uiPartUnitIdx, UInt uiDepth, Int qp );
300	Void setOutsideCUPart ( UInt uiAbsPartIdx, UInt uiDepth );
301	#if H_3D_NBDV
302	Void copyDVInfoFrom (TComDataCU* pcCU, UInt uiAbsPartIdx);
303	#endif
304	Void copySubCU ( TComDataCU* pcCU, UInt uiPartUnitIdx, UInt uiDepth );
305	Void copyInterPredInfoFrom ( TComDataCU* pcCU, UInt uiAbsPartIdx, RefPicList eRefPicList
306	#if H_3D_NBDV
307	, Bool bNBDV = false
308	#endif
309	);
310	Void copyPartFrom ( TComDataCU* pcCU, UInt uiPartUnitIdx, UInt uiDepth );
311
312	Void copyToPic ( UChar uiDepth );
313	Void copyToPic ( UChar uiDepth, UInt uiPartIdx, UInt uiPartDepth );
314
315	// -------------------------------------------------------------------------------------------------------------------
316	// member functions for CU description
317	// -------------------------------------------------------------------------------------------------------------------
318
319	TComPic* getPic () { return m_pcPic; }
320	TComSlice* getSlice () { return m_pcSlice; }
321	UInt& getAddr () { return m_uiCUAddr; }
322	UInt& getZorderIdxInCU () { return m_uiAbsIdxInLCU; }
323	UInt getSCUAddr ();
324	UInt getCUPelX () { return m_uiCUPelX; }
325	UInt getCUPelY () { return m_uiCUPelY; }
326	TComPattern* getPattern () { return m_pcPattern; }
327
328	UChar* getDepth () { return m_puhDepth; }
329	UChar getDepth ( UInt uiIdx ) { return m_puhDepth[uiIdx]; }
330	Void setDepth ( UInt uiIdx, UChar uh ) { m_puhDepth[uiIdx] = uh; }
331
332	Void setDepthSubParts ( UInt uiDepth, UInt uiAbsPartIdx );
333	#if H_3D
334	Void getPosInPic ( UInt uiAbsPartIndex, Int& riPosX, Int& riPosY );
335	#endif
336
337	// -------------------------------------------------------------------------------------------------------------------
338	// member functions for CU data
339	// -------------------------------------------------------------------------------------------------------------------
340
341	Char* getPartitionSize () { return m_pePartSize; }
342	PartSize getPartitionSize ( UInt uiIdx ) { return static_cast<PartSize>( m_pePartSize[uiIdx] ); }
343	Void setPartitionSize ( UInt uiIdx, PartSize uh){ m_pePartSize[uiIdx] = uh; }
344	Void setPartSizeSubParts ( PartSize eMode, UInt uiAbsPartIdx, UInt uiDepth );
345	Void setCUTransquantBypassSubParts( Bool flag, UInt uiAbsPartIdx, UInt uiDepth );
346
347	#if H_3D_DBBP
348	Pel* getVirtualDepthBlock(UInt uiAbsPartIdx, UInt uiWidth, UInt uiHeight, UInt& uiDepthStride);
349	#endif
350
351	Bool* getSkipFlag () { return m_skipFlag; }
352	Bool getSkipFlag (UInt idx) { return m_skipFlag[idx]; }
353	Void setSkipFlag ( UInt idx, Bool skip) { m_skipFlag[idx] = skip; }
354	Void setSkipFlagSubParts ( Bool skip, UInt absPartIdx, UInt depth );
355	#if MTK_SINGLE_DEPTH_MODE_I0095
356	Bool* getSingleDepthFlag () { return m_singleDepthFlag; }
357	Bool getSingleDepthFlag (UInt idx) { return m_singleDepthFlag[idx]; }
358	Void setSingleDepthFlag ( UInt idx, Bool singleDepth) { m_singleDepthFlag[idx] = singleDepth; }
359	Void setSingleDepthFlagSubParts ( Bool singleDepth, UInt absPartIdx, UInt depth );
360
361	Pel* getSingleDepthValue( ) { return m_apSingleDepthValue; }
362	Pel getSingleDepthValue (UInt idx) { return m_apSingleDepthValue[idx]; }
363	Void setSingleDepthValue ( UInt idx, Pel pDepthValue) { m_apSingleDepthValue[idx] = pDepthValue; }
364	Void setSingleDepthValueSubParts (Pel singleDepthValue, UInt uiAbsPartIdx, UInt uiPUIdx, UInt uiDepth );
365	#endif
366	Char* getPredictionMode () { return m_pePredMode; }
367	PredMode getPredictionMode ( UInt uiIdx ) { return static_cast<PredMode>( m_pePredMode[uiIdx] ); }
368	Bool* getCUTransquantBypass () { return m_CUTransquantBypass; }
369	Bool getCUTransquantBypass( UInt uiIdx ) { return m_CUTransquantBypass[uiIdx]; }
370	Void setPredictionMode ( UInt uiIdx, PredMode uh){ m_pePredMode[uiIdx] = uh; }
371	Void setPredModeSubParts ( PredMode eMode, UInt uiAbsPartIdx, UInt uiDepth );
372
373	#if H_3D_DBBP
374	Bool* getDBBPFlag () { return m_pbDBBPFlag; }
375	Bool getDBBPFlag ( UInt uiIdx ) { return m_pbDBBPFlag[uiIdx]; }
376	Void setDBBPFlag ( UInt uiIdx, Bool b ) { m_pbDBBPFlag[uiIdx] = b; }
377	Void setDBBPFlagSubParts ( Bool bDBBPFlag, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
378	DBBPTmpData* getDBBPTmpData () { return &m_sDBBPTmpData; }
379	#endif
380
381	UChar* getWidth () { return m_puhWidth; }
382	UChar getWidth ( UInt uiIdx ) { return m_puhWidth[uiIdx]; }
383	Void setWidth ( UInt uiIdx, UChar uh ) { m_puhWidth[uiIdx] = uh; }
384
385	UChar* getHeight () { return m_puhHeight; }
386	UChar getHeight ( UInt uiIdx ) { return m_puhHeight[uiIdx]; }
387	Void setHeight ( UInt uiIdx, UChar uh ) { m_puhHeight[uiIdx] = uh; }
388
389	Void setSizeSubParts ( UInt uiWidth, UInt uiHeight, UInt uiAbsPartIdx, UInt uiDepth );
390
391	Char* getQP () { return m_phQP; }
392	Char getQP ( UInt uiIdx ) { return m_phQP[uiIdx]; }
393	Void setQP ( UInt uiIdx, Char value ){ m_phQP[uiIdx] = value; }
394	Void setQPSubParts ( Int qp, UInt uiAbsPartIdx, UInt uiDepth );
395	Int getLastValidPartIdx ( Int iAbsPartIdx );
396	Char getLastCodedQP ( UInt uiAbsPartIdx );
397	Void setQPSubCUs ( Int qp, TComDataCU* pcCU, UInt absPartIdx, UInt depth, Bool &foundNonZeroCbf );
398	Void setCodedQP ( Char qp ) { m_codedQP = qp; }
399	Char getCodedQP () { return m_codedQP; }
400
401	Bool isLosslessCoded(UInt absPartIdx);
402
403	UChar* getTransformIdx () { return m_puhTrIdx; }
404	UChar getTransformIdx ( UInt uiIdx ) { return m_puhTrIdx[uiIdx]; }
405	Void setTrIdxSubParts ( UInt uiTrIdx, UInt uiAbsPartIdx, UInt uiDepth );
406
407	UChar* getTransformSkip ( TextType eType) { return m_puhTransformSkip[g_aucConvertTxtTypeToIdx[eType]];}
408	UChar getTransformSkip ( UInt uiIdx,TextType eType) { return m_puhTransformSkip[g_aucConvertTxtTypeToIdx[eType]][uiIdx];}
409	Void setTransformSkipSubParts ( UInt useTransformSkip, TextType eType, UInt uiAbsPartIdx, UInt uiDepth);
410	Void setTransformSkipSubParts ( UInt useTransformSkipY, UInt useTransformSkipU, UInt useTransformSkipV, UInt uiAbsPartIdx, UInt uiDepth );
411
412	UInt getQuadtreeTULog2MinSizeInCU( UInt absPartIdx );
413
414	TComCUMvField* getCUMvField ( RefPicList e ) { return &m_acCUMvField[e]; }
415
416	TCoeff*& getCoeffY () { return m_pcTrCoeffY; }
417	TCoeff*& getCoeffCb () { return m_pcTrCoeffCb; }
418	TCoeff*& getCoeffCr () { return m_pcTrCoeffCr; }
419	#if ADAPTIVE_QP_SELECTION
420	Int*& getArlCoeffY () { return m_pcArlCoeffY; }
421	Int*& getArlCoeffCb () { return m_pcArlCoeffCb; }
422	Int*& getArlCoeffCr () { return m_pcArlCoeffCr; }
423	#endif
424
425	Pel*& getPCMSampleY () { return m_pcIPCMSampleY; }
426	Pel*& getPCMSampleCb () { return m_pcIPCMSampleCb; }
427	Pel*& getPCMSampleCr () { return m_pcIPCMSampleCr; }
428
429	UChar getCbf ( UInt uiIdx, TextType eType ) { return m_puhCbf[g_aucConvertTxtTypeToIdx[eType]][uiIdx]; }
430	UChar* getCbf ( TextType eType ) { return m_puhCbf[g_aucConvertTxtTypeToIdx[eType]]; }
431	UChar getCbf ( UInt uiIdx, TextType eType, UInt uiTrDepth ) { return ( ( getCbf( uiIdx, eType ) >> uiTrDepth ) & 0x1 ); }
432	Void setCbf ( UInt uiIdx, TextType eType, UChar uh ) { m_puhCbf[g_aucConvertTxtTypeToIdx[eType]][uiIdx] = uh; }
433	Void clearCbf ( UInt uiIdx, TextType eType, UInt uiNumParts );
434	UChar getQtRootCbf ( UInt uiIdx ) { return getCbf( uiIdx, TEXT_LUMA, 0 ) \|\| getCbf( uiIdx, TEXT_CHROMA_U, 0 ) \|\| getCbf( uiIdx, TEXT_CHROMA_V, 0 ); }
435
436	Void setCbfSubParts ( UInt uiCbfY, UInt uiCbfU, UInt uiCbfV, UInt uiAbsPartIdx, UInt uiDepth );
437	Void setCbfSubParts ( UInt uiCbf, TextType eTType, UInt uiAbsPartIdx, UInt uiDepth );
438	Void setCbfSubParts ( UInt uiCbf, TextType eTType, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
439
440	// -------------------------------------------------------------------------------------------------------------------
441	// member functions for coding tool information
442	// -------------------------------------------------------------------------------------------------------------------
443
444	Bool* getMergeFlag () { return m_pbMergeFlag; }
445	Bool getMergeFlag ( UInt uiIdx ) { return m_pbMergeFlag[uiIdx]; }
446	Void setMergeFlag ( UInt uiIdx, Bool b ) { m_pbMergeFlag[uiIdx] = b; }
447	Void setMergeFlagSubParts ( Bool bMergeFlag, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
448
449	UChar* getMergeIndex () { return m_puhMergeIndex; }
450	UChar getMergeIndex ( UInt uiIdx ) { return m_puhMergeIndex[uiIdx]; }
451	Void setMergeIndex ( UInt uiIdx, UInt uiMergeIndex ) { m_puhMergeIndex[uiIdx] = uiMergeIndex; }
452	Void setMergeIndexSubParts ( UInt uiMergeIndex, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
453	template <typename T>
454	Void setSubPart ( T bParameter, T* pbBaseLCU, UInt uiCUAddr, UInt uiCUDepth, UInt uiPUIdx );
455	#if H_3D_VSP
456	template<typename T>
457	Void setSubPartT ( T uiParameter, T* puhBaseLCU, UInt uiCUAddr, UInt uiCUDepth, UInt uiPUIdx );
458	#endif
459	#if AMP_MRG
460	Void setMergeAMP( Bool b ) { m_bIsMergeAMP = b; }
461	Bool getMergeAMP( ) { return m_bIsMergeAMP; }
462	#endif
463
464	UChar* getLumaIntraDir () { return m_puhLumaIntraDir; }
465	UChar getLumaIntraDir ( UInt uiIdx ) { return m_puhLumaIntraDir[uiIdx]; }
466	Void setLumaIntraDir ( UInt uiIdx, UChar uh ) { m_puhLumaIntraDir[uiIdx] = uh; }
467	Void setLumaIntraDirSubParts( UInt uiDir, UInt uiAbsPartIdx, UInt uiDepth );
468
469	UChar* getChromaIntraDir () { return m_puhChromaIntraDir; }
470	UChar getChromaIntraDir ( UInt uiIdx ) { return m_puhChromaIntraDir[uiIdx]; }
471	Void setChromaIntraDir ( UInt uiIdx, UChar uh ) { m_puhChromaIntraDir[uiIdx] = uh; }
472	Void setChromIntraDirSubParts( UInt uiDir, UInt uiAbsPartIdx, UInt uiDepth );
473
474	UChar* getInterDir () { return m_puhInterDir; }
475	UChar getInterDir ( UInt uiIdx ) { return m_puhInterDir[uiIdx]; }
476	Void setInterDir ( UInt uiIdx, UChar uh ) { m_puhInterDir[uiIdx] = uh; }
477	Void setInterDirSubParts ( UInt uiDir, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
478	Bool* getIPCMFlag () { return m_pbIPCMFlag; }
479	Bool getIPCMFlag (UInt uiIdx ) { return m_pbIPCMFlag[uiIdx]; }
480	Void setIPCMFlag (UInt uiIdx, Bool b ) { m_pbIPCMFlag[uiIdx] = b; }
481	Void setIPCMFlagSubParts (Bool bIpcmFlag, UInt uiAbsPartIdx, UInt uiDepth);
482	#if H_3D_NBDV
483	Void setDvInfoSubParts ( DisInfo cDvInfo, UInt uiAbsPartIdx, UInt uiDepth );
484	Void setDvInfoSubParts ( DisInfo cDvInfo, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth);
485	DisInfo* getDvInfo () { return m_pDvInfo; }
486	DisInfo getDvInfo (UInt uiIdx) { return m_pDvInfo[uiIdx]; }
487	#endif
488	#if H_3D_NBDV
489	Void xDeriveRightBottomNbIdx(Int &uiLCUIdxRBNb, Int &uiPartIdxRBNb );
490	Bool xCheckSpatialNBDV (TComDataCU* pcTmpCU, UInt uiIdx, DisInfo* pNbDvInfo, Bool bSearchForMvpDv, IDVInfo* paMvpDvInfo,
491	UInt uiMvpDvPos
492	#if H_3D_NBDV_REF
493	, Bool bDepthRefine = false
494	#endif
495	);
496	Bool xGetColDisMV ( Int currCandPic, RefPicList eRefPicList, Int refidx, Int uiCUAddr, Int uiPartUnitIdx, TComMv& rcMv, Int & iTargetViewIdx, Int & iStartViewIdx );
497	Bool getDisMvpCandNBDV ( DisInfo* pDInfo
498	#if H_3D_NBDV_REF
499	, Bool bDepthRefine = false
500	#endif
501	);
502
503	#if H_3D
504	Bool getDispforDepth ( UInt uiPartIdx, UInt uiPartAddr, DisInfo* cDisp);
505	Bool getDispMvPredCan(UInt uiPartIdx, RefPicList eRefPicList, Int iRefIdx, Int* paiPdmRefIdx, TComMv* pacPdmMv, DisInfo* pDis, Int* iPdm );
506	#endif
507	#if MTK_SINGLE_DEPTH_MODE_I0095
508	Bool getNeighDepth (UInt uiPartIdx, UInt uiPartAddr, Pel* pNeighDepth, Int index);
509	#endif
510	#if H_3D_NBDV_REF
511	Pel getMcpFromDM(TComPicYuv* pcBaseViewDepthPicYuv, TComMv* mv, Int iBlkX, Int iBlkY, Int iWidth, Int iHeight, Int* aiShiftLUT );
512	Void estimateDVFromDM(Int refViewIdx, UInt uiPartIdx, TComPic* picDepth, UInt uiPartAddr, TComMv* cMvPred );
513	#endif //H_3D_NBDV_REF
514	#endif
515	#if H_3D_FAST_TEXTURE_ENCODING
516	Void getIVNStatus ( UInt uiPartIdx, DisInfo* pDInfo, Bool& bIVFMerge, Int& iIVFMaxD);
517	#endif
518	#if H_3D_SPIVMP
519	Void getSPPara(Int iPUWidth, Int iPUHeight, Int& iNumSP, Int& iNumSPInOneLine, Int& iSPWidth, Int& iSPHeight);
520	Void getSPAbsPartIdx(UInt uiBaseAbsPartIdx, Int iWidth, Int iHeight, Int iPartIdx, Int iNumPartLine, UInt& ruiPartAddr );
521	Void setInterDirSP( UInt uiDir, UInt uiAbsPartIdx, Int iWidth, Int iHeight );
522	#endif
523	#if H_3D_IV_MERGE
524	Bool getInterViewMergeCands ( UInt uiPartIdx, Int* paiPdmRefIdx, TComMv* pacPdmMv, DisInfo* pDInfo, Int* availableMcDc, Bool bIsDepth
525
526	#if H_3D_SPIVMP
527	, TComMvField* pcMFieldSP, UChar* puhInterDirSP
528	#endif
529	, Bool bICFlag
530	);
531	#endif
532	#if H_3D_ARP
533	UChar* getARPW () { return m_puhARPW; }
534	UChar getARPW ( UInt uiIdx ) { return m_puhARPW[uiIdx]; }
535	Void setARPW ( UInt uiIdx, UChar w ) { m_puhARPW[uiIdx] = w; }
536	Void setARPWSubParts ( UChar w, UInt uiAbsPartIdx, UInt uiDepth );
537	Double getARPWFactor ( UInt uiIdx );
538	#endif
539	#if H_3D_IC
540	Bool* getICFlag () { return m_pbICFlag; }
541	Bool getICFlag ( UInt uiIdx ) { return m_pbICFlag[uiIdx]; }
542	Void setICFlag ( UInt uiIdx, Bool uh ) { m_pbICFlag[uiIdx] = uh; }
543	Void setICFlagSubParts ( Bool bICFlag, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
544	Bool isICFlagRequired ( UInt uiAbsPartIdx );
545	Void getPartIndexAndSize( UInt uiPartIdx, UInt& ruiPartAddr, Int& riWidth, Int& riHeight, UInt uiAbsPartIdx = 0, Bool bLCU = false);
546	#else
547	// -------------------------------------------------------------------------------------------------------------------
548	// member functions for accessing partition information
549	// -------------------------------------------------------------------------------------------------------------------
550
551	Void getPartIndexAndSize ( UInt uiPartIdx, UInt& ruiPartAddr, Int& riWidth, Int& riHeight );
552	#endif
553	UChar getNumPartitions ();
554	Bool isFirstAbsZorderIdxInDepth (UInt uiAbsPartIdx, UInt uiDepth);
555
556	#if H_3D_DIM
557	Pel* getDimDeltaDC ( UInt dimType, UInt segId ) { return m_dimDeltaDC[dimType][segId]; }
558	Pel getDimDeltaDC ( UInt dimType, UInt segId, UInt uiIdx ) { return m_dimDeltaDC[dimType][segId][uiIdx]; }
559	Void setDimDeltaDC ( UInt dimType, UInt segId, UInt uiIdx, Pel val ) { m_dimDeltaDC[dimType][segId][uiIdx] = val; }
560	#if H_3D_DIM_DMM
561	UInt* getDmmWedgeTabIdx ( UInt dmmType ) { return m_dmmWedgeTabIdx[dmmType]; }
562	UInt getDmmWedgeTabIdx ( UInt dmmType, UInt uiIdx ) { return m_dmmWedgeTabIdx[dmmType][uiIdx]; }
563	Void setDmmWedgeTabIdx ( UInt dmmType, UInt uiIdx, UInt tabIdx ) { m_dmmWedgeTabIdx[dmmType][uiIdx] = tabIdx; }
564	Void setDmmWedgeTabIdxSubParts ( UInt tabIdx, UInt dmmType, UInt uiAbsPartIdx, UInt uiDepth );
565
566	#endif
567	#if H_3D_DIM_SDC
568	Bool* getSDCFlag () { return m_pbSDCFlag; }
569	Bool getSDCFlag ( UInt uiIdx ) { return m_pbSDCFlag[uiIdx]; }
570	Void setSDCFlagSubParts ( Bool bSDCFlag, UInt uiAbsPartIdx, UInt uiDepth );
571
572	Bool getSDCAvailable ( UInt uiAbsPartIdx );
573
574	Pel* getSDCSegmentDCOffset( UInt uiSeg ) { return m_apSegmentDCOffset[uiSeg]; }
575	Pel getSDCSegmentDCOffset( UInt uiSeg, UInt uiPartIdx ) { return m_apSegmentDCOffset[uiSeg][uiPartIdx]; }
576	Void setSDCSegmentDCOffset( Pel pOffset, UInt uiSeg, UInt uiPartIdx) { m_apSegmentDCOffset[uiSeg][uiPartIdx] = pOffset; }
577	Void setDmmPredictor ( Pel pOffset, UInt uiSeg) { m_apDmmPredictor[uiSeg] = pOffset; }
578	Pel getDmmPredictor ( UInt uiSeg) { return m_apDmmPredictor[uiSeg]; }
579	UInt getCtxSDCFlag ( UInt uiAbsPartIdx );
580	#endif
581	#endif
582
583	// -------------------------------------------------------------------------------------------------------------------
584	// member functions for motion vector
585	// -------------------------------------------------------------------------------------------------------------------
586
587	Void getMvField ( TComDataCU* pcCU, UInt uiAbsPartIdx, RefPicList eRefPicList, TComMvField& rcMvField );
588
589	Void fillMvpCand ( UInt uiPartIdx, UInt uiPartAddr, RefPicList eRefPicList, Int iRefIdx, AMVPInfo* pInfo );
590	Bool isDiffMER ( Int xN, Int yN, Int xP, Int yP);
591	Void getPartPosition ( UInt partIdx, Int& xP, Int& yP, Int& nPSW, Int& nPSH);
592	Void setMVPIdx ( RefPicList eRefPicList, UInt uiIdx, Int iMVPIdx) { m_apiMVPIdx[eRefPicList][uiIdx] = iMVPIdx; }
593	Int getMVPIdx ( RefPicList eRefPicList, UInt uiIdx) { return m_apiMVPIdx[eRefPicList][uiIdx]; }
594	Char* getMVPIdx ( RefPicList eRefPicList ) { return m_apiMVPIdx[eRefPicList]; }
595
596	Void setMVPNum ( RefPicList eRefPicList, UInt uiIdx, Int iMVPNum ) { m_apiMVPNum[eRefPicList][uiIdx] = iMVPNum; }
597	Int getMVPNum ( RefPicList eRefPicList, UInt uiIdx ) { return m_apiMVPNum[eRefPicList][uiIdx]; }
598	Char* getMVPNum ( RefPicList eRefPicList ) { return m_apiMVPNum[eRefPicList]; }
599
600	Void setMVPIdxSubParts ( Int iMVPIdx, RefPicList eRefPicList, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
601	Void setMVPNumSubParts ( Int iMVPNum, RefPicList eRefPicList, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
602
603	Void clipMv ( TComMv& rcMv );
604	Void getMvPredLeft ( TComMv& rcMvPred ) { rcMvPred = m_cMvFieldA.getMv(); }
605	Void getMvPredAbove ( TComMv& rcMvPred ) { rcMvPred = m_cMvFieldB.getMv(); }
606	Void getMvPredAboveRight ( TComMv& rcMvPred ) { rcMvPred = m_cMvFieldC.getMv(); }
607	#if H_3D
608	Void compressMV ( Int scale );
609	#else
610	Void compressMV ();
611	#endif
612	// -------------------------------------------------------------------------------------------------------------------
613	// utility functions for neighbouring information
614	// -------------------------------------------------------------------------------------------------------------------
615
616	TComDataCU* getCULeft () { return m_pcCULeft; }
617	TComDataCU* getCUAbove () { return m_pcCUAbove; }
618	TComDataCU* getCUAboveLeft () { return m_pcCUAboveLeft; }
619	TComDataCU* getCUAboveRight () { return m_pcCUAboveRight; }
620	TComDataCU* getCUColocated ( RefPicList eRefPicList ) { return m_apcCUColocated[eRefPicList]; }
621
622
623	TComDataCU* getPULeft ( UInt& uiLPartUnitIdx,
624	UInt uiCurrPartUnitIdx,
625	Bool bEnforceSliceRestriction=true,
626	Bool bEnforceTileRestriction=true );
627	TComDataCU* getPUAbove ( UInt& uiAPartUnitIdx,
628	UInt uiCurrPartUnitIdx,
629	Bool bEnforceSliceRestriction=true,
630	Bool planarAtLCUBoundary = false,
631	Bool bEnforceTileRestriction=true );
632	TComDataCU* getPUAboveLeft ( UInt& uiALPartUnitIdx, UInt uiCurrPartUnitIdx, Bool bEnforceSliceRestriction=true );
633	TComDataCU* getPUAboveRight ( UInt& uiARPartUnitIdx, UInt uiCurrPartUnitIdx, Bool bEnforceSliceRestriction=true );
634	TComDataCU* getPUBelowLeft ( UInt& uiBLPartUnitIdx, UInt uiCurrPartUnitIdx, Bool bEnforceSliceRestriction=true );
635
636	TComDataCU* getQpMinCuLeft ( UInt& uiLPartUnitIdx , UInt uiCurrAbsIdxInLCU );
637	TComDataCU* getQpMinCuAbove ( UInt& aPartUnitIdx , UInt currAbsIdxInLCU );
638	Char getRefQP ( UInt uiCurrAbsIdxInLCU );
639
640	TComDataCU* getPUAboveRightAdi ( UInt& uiARPartUnitIdx, UInt uiCurrPartUnitIdx, UInt uiPartUnitOffset = 1, Bool bEnforceSliceRestriction=true );
641	TComDataCU* getPUBelowLeftAdi ( UInt& uiBLPartUnitIdx, UInt uiCurrPartUnitIdx, UInt uiPartUnitOffset = 1, Bool bEnforceSliceRestriction=true );
642
643	Void deriveLeftRightTopIdx ( UInt uiPartIdx, UInt& ruiPartIdxLT, UInt& ruiPartIdxRT );
644	Void deriveLeftBottomIdx ( UInt uiPartIdx, UInt& ruiPartIdxLB );
645
646	Void deriveLeftRightTopIdxAdi ( UInt& ruiPartIdxLT, UInt& ruiPartIdxRT, UInt uiPartOffset, UInt uiPartDepth );
647	Void deriveLeftBottomIdxAdi ( UInt& ruiPartIdxLB, UInt uiPartOffset, UInt uiPartDepth );
648
649	Bool hasEqualMotion ( UInt uiAbsPartIdx, TComDataCU* pcCandCU, UInt uiCandAbsPartIdx );
650
651	#if H_3D
652	Bool getAvailableFlagA1() { return m_bAvailableFlagA1;}
653	Bool getAvailableFlagB1() { return m_bAvailableFlagB1;}
654	Bool getAvailableFlagB0() { return m_bAvailableFlagB0;}
655	Bool getAvailableFlagA0() { return m_bAvailableFlagA0;}
656	Bool getAvailableFlagB2() { return m_bAvailableFlagB2;}
657	Void initAvailableFlags() { m_bAvailableFlagA1 = m_bAvailableFlagB1 = m_bAvailableFlagB0 = m_bAvailableFlagA0 = m_bAvailableFlagB2 = 0; }
658	Void buildMCL(TComMvField* pcMFieldNeighbours, UChar* puhInterDirNeighbours
659	#if H_3D_VSP
660	, Int* vspFlag
661	#endif
662	#if H_3D_SPIVMP
663	, Bool* pbSPIVMPFlag
664	#endif
665	, Int& numValidMergeCand
666	);
667	Void getInterMergeCandidates( UInt uiAbsPartIdx, UInt uiPUIdx, TComMvField* pcMvFieldNeighbours, UChar* puhInterDirNeighbours, Int& numValidMergeCand, Int mrgCandIdx = -1);
668	Void xGetInterMergeCandidates ( UInt uiAbsPartIdx, UInt uiPUIdx, TComMvField* pcMFieldNeighbours, UChar* puhInterDirNeighbours
669	#else
670	Void getInterMergeCandidates ( UInt uiAbsPartIdx, UInt uiPUIdx, TComMvField* pcMFieldNeighbours, UChar* puhInterDirNeighbours
671	#endif
672	#if H_3D_VSP
673	, InheritedVSPDisInfo* inheritedVSPDisInfo
674	#endif
675	#if H_3D_SPIVMP
676	, TComMvField* pcMvFieldSP, UChar* puhInterDirSP
677	#endif
678	, Int& numValidMergeCand, Int mrgCandIdx = -1
679	);
680
681	#if H_3D_VSP
682	#if !FIX_TICKET_76
683	inline Void xInheritVSPDisInfo(TComDataCU* pcCURef, UInt uiAbsPartIdx, Int iCount, InheritedVSPDisInfo* inheritedVSPDisInfo);
684	#endif
685
686	#if H_3D_SPIVMP
687	Bool* getSPIVMPFlag () { return m_pbSPIVMPFlag; }
688	Bool getSPIVMPFlag ( UInt uiIdx ) { return m_pbSPIVMPFlag[uiIdx]; }
689	Void setSPIVMPFlag ( UInt uiIdx, Bool n ) { m_pbSPIVMPFlag[uiIdx] = n; }
690	Void setSPIVMPFlagSubParts( Bool bSPIVMPFlag, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
691	#endif
692
693	Char* getVSPFlag () { return m_piVSPFlag; }
694	Char getVSPFlag ( UInt uiIdx ) { return m_piVSPFlag[uiIdx]; }
695	Void setVSPFlag ( UInt uiIdx, Int n ) { m_piVSPFlag[uiIdx] = n; }
696	Void setVSPFlagSubParts( Char iVSPFlag, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
697	Void setMvFieldPUForVSP ( TComDataCU* cu, UInt partAddr, Int width, Int height, RefPicList refPicList, Int refIdx, Int &vspSize );
698	#endif
699	Void deriveLeftRightTopIdxGeneral ( UInt uiAbsPartIdx, UInt uiPartIdx, UInt& ruiPartIdxLT, UInt& ruiPartIdxRT );
700	Void deriveLeftBottomIdxGeneral ( UInt uiAbsPartIdx, UInt uiPartIdx, UInt& ruiPartIdxLB );
701
702
703	// -------------------------------------------------------------------------------------------------------------------
704	// member functions for modes
705	// -------------------------------------------------------------------------------------------------------------------
706
707	Bool isIntra ( UInt uiPartIdx ) { return m_pePredMode[ uiPartIdx ] == MODE_INTRA; }
708	Bool isSkipped ( UInt uiPartIdx ); ///< SKIP (no residual)
709	Bool isBipredRestriction( UInt puIdx );
710
711	#if H_3D_IC
712	Bool isIC ( UInt uiPartIdx );
713	#endif
714
715	// -------------------------------------------------------------------------------------------------------------------
716	// member functions for symbol prediction (most probable / mode conversion)
717	// -------------------------------------------------------------------------------------------------------------------
718
719	UInt getIntraSizeIdx ( UInt uiAbsPartIdx );
720
721	Void getAllowedChromaDir ( UInt uiAbsPartIdx, UInt* uiModeList );
722	Int getIntraDirLumaPredictor ( UInt uiAbsPartIdx, Int* uiIntraDirPred, Int* piMode = NULL );
723
724	// -------------------------------------------------------------------------------------------------------------------
725	// member functions for SBAC context
726	// -------------------------------------------------------------------------------------------------------------------
727
728	UInt getCtxSplitFlag ( UInt uiAbsPartIdx, UInt uiDepth );
729	UInt getCtxQtCbf ( TextType eType, UInt uiTrDepth );
730
731	UInt getCtxSkipFlag ( UInt uiAbsPartIdx );
732	UInt getCtxInterDir ( UInt uiAbsPartIdx );
733
734	#if H_3D_ARP
735	UInt getCTXARPWFlag ( UInt uiAbsPartIdx );
736	#endif
737	UInt getSliceStartCU ( UInt pos ) { return m_sliceStartCU[pos-m_uiAbsIdxInLCU]; }
738	UInt getSliceSegmentStartCU ( UInt pos ) { return m_sliceSegmentStartCU[pos-m_uiAbsIdxInLCU]; }
739	UInt& getTotalBins () { return m_uiTotalBins; }
740	// -------------------------------------------------------------------------------------------------------------------
741	// member functions for RD cost storage
742	// -------------------------------------------------------------------------------------------------------------------
743
744	Double& getTotalCost() { return m_dTotalCost; }
745	#if H_3D_VSO
746	Dist& getTotalDistortion() { return m_uiTotalDistortion; }
747	#else
748	UInt& getTotalDistortion() { return m_uiTotalDistortion; }
749	#endif
750	UInt& getTotalBits() { return m_uiTotalBits; }
751	UInt& getTotalNumPart() { return m_uiNumPartition; }
752
753	UInt getCoefScanIdx(UInt uiAbsPartIdx, UInt uiWidth, Bool bIsLuma, Bool bIsIntra);
754
755	#if H_3D_DDD
756	UChar* getDDDepth () { return m_pucDisparityDerivedDepth; }
757	UChar getDDDepth ( UInt uiIdx ) { return m_pucDisparityDerivedDepth[uiIdx]; }
758	Void setDDDepth ( UInt uiIdx, UChar n ) { m_pucDisparityDerivedDepth[uiIdx] = n; }
759	Void setDDDepthSubParts( UChar ucDDD, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
760
761	Bool* getUseDDD () { return m_pbUseDDD; }
762	Bool getUseDDD ( UInt uiIdx ) { return m_pbUseDDD[uiIdx]; }
763	Void setUseDDD ( UInt uiIdx, Bool n ) { m_pbUseDDD[uiIdx] = n; }
764	Void setUseDDD( Bool bUseDDD, UInt uiAbsPartIdx, UInt uiDepth );
765
766	Void setUseDDD ( Bool bUseDDD, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth );
767
768	UChar getDDTmpDepth(){ return m_ucDDTmpDepth; }
769	Int getUseDDDCandIdx(){ return m_iUseDDDCandIdx;}
770
771	#endif
772
773	#if SHARP_DMM1_I0110
774	Bool isDMM1UpscaleMode ( UInt uiWidth ){ Bool bDMM1UpsampleModeFlag = true; UInt uiBaseWidth = 16; if( uiBaseWidth >= uiWidth ){ bDMM1UpsampleModeFlag = false; } return bDMM1UpsampleModeFlag; };
775	UInt getDMM1BasePatternWidth ( UInt uiWidth ){ UInt uiBaseWidth = 16; if( uiBaseWidth >= uiWidth ){ uiBaseWidth = uiWidth; } return uiBaseWidth; }
776	#endif
777
778	};
779
780	namespace RasterAddress
781	{
782	/** Check whether 2 addresses point to the same column
783	* \param addrA First address in raster scan order
784	* \param addrB Second address in raters scan order
785	* \param numUnitsPerRow Number of units in a row
786	* \return Result of test
787	*/
788	static inline Bool isEqualCol( Int addrA, Int addrB, Int numUnitsPerRow )
789	{
790	// addrA % numUnitsPerRow == addrB % numUnitsPerRow
791	return (( addrA ^ addrB ) & ( numUnitsPerRow - 1 ) ) == 0;
792	}
793
794	/** Check whether 2 addresses point to the same row
795	* \param addrA First address in raster scan order
796	* \param addrB Second address in raters scan order
797	* \param numUnitsPerRow Number of units in a row
798	* \return Result of test
799	*/
800	static inline Bool isEqualRow( Int addrA, Int addrB, Int numUnitsPerRow )
801	{
802	// addrA / numUnitsPerRow == addrB / numUnitsPerRow
803	return (( addrA ^ addrB ) &~ ( numUnitsPerRow - 1 ) ) == 0;
804	}
805
806	/** Check whether 2 addresses point to the same row or column
807	* \param addrA First address in raster scan order
808	* \param addrB Second address in raters scan order
809	* \param numUnitsPerRow Number of units in a row
810	* \return Result of test
811	*/
812	static inline Bool isEqualRowOrCol( Int addrA, Int addrB, Int numUnitsPerRow )
813	{
814	return isEqualCol( addrA, addrB, numUnitsPerRow ) \| isEqualRow( addrA, addrB, numUnitsPerRow );
815	}
816
817	/** Check whether one address points to the first column
818	* \param addr Address in raster scan order
819	* \param numUnitsPerRow Number of units in a row
820	* \return Result of test
821	*/
822	static inline Bool isZeroCol( Int addr, Int numUnitsPerRow )
823	{
824	// addr % numUnitsPerRow == 0
825	return ( addr & ( numUnitsPerRow - 1 ) ) == 0;
826	}
827
828	/** Check whether one address points to the first row
829	* \param addr Address in raster scan order
830	* \param numUnitsPerRow Number of units in a row
831	* \return Result of test
832	*/
833	static inline Bool isZeroRow( Int addr, Int numUnitsPerRow )
834	{
835	// addr / numUnitsPerRow == 0
836	return ( addr &~ ( numUnitsPerRow - 1 ) ) == 0;
837	}
838
839	/** Check whether one address points to a column whose index is smaller than a given value
840	* \param addr Address in raster scan order
841	* \param val Given column index value
842	* \param numUnitsPerRow Number of units in a row
843	* \return Result of test
844	*/
845	static inline Bool lessThanCol( Int addr, Int val, Int numUnitsPerRow )
846	{
847	// addr % numUnitsPerRow < val
848	return ( addr & ( numUnitsPerRow - 1 ) ) < val;
849	}
850
851	/** Check whether one address points to a row whose index is smaller than a given value
852	* \param addr Address in raster scan order
853	* \param val Given row index value
854	* \param numUnitsPerRow Number of units in a row
855	* \return Result of test
856	*/
857	static inline Bool lessThanRow( Int addr, Int val, Int numUnitsPerRow )
858	{
859	// addr / numUnitsPerRow < val
860	return addr < val * numUnitsPerRow;
861	}
862	};
863
864	//! \}
865
866	#endif

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