source: 3DVCSoftware/branches/HTM-DEV-0.3-dev1/source/Lib/TLibCommon/TComWedgelet.h @ 460

Last change on this file since 460 was 459, checked in by hhi, 12 years ago

Integation of depth intra methods in macro H_3D_DIM, including:

  • DMM coding modes in H_3D_DIM_DMM.
  • RBC coding mode in H_3D_DIM_RBC.
File size: 8.8 KB
RevLine 
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33
34
35
36#ifndef __TCOMWEDGELET__
37#define __TCOMWEDGELET__
38
39// Include files
40#include <assert.h>
41#include "CommonDef.h"
42
43#include <vector>
44
45#if H_3D_DIM
46#define DIM_OFFSET     (NUM_INTRA_MODE+1) // offset for DMM and RBC mode numbers (PM: not consistent with spec, but non-overlapping with chroma, see DM_CHROMA_IDX)
47#define DIM_MIN_SIZE                   4  // min. block size for DMM and RBC modes
48#define DIM_MAX_SIZE                  32  // max. block size for DMM and RBC modes
49
50enum DIM_IDX
51{
52  DMM1_IDX = 0,
53  DMM2_IDX = 3,
54  DMM3_IDX = 1,
55  DMM4_IDX = 2,
56  RBC_IDX  = 4
57};
58#define DMM_NUM_TYPE   4
59#define RBC_NUM_TYPE   1
60#define DIM_NUM_TYPE   (DMM_NUM_TYPE+RBC_NUM_TYPE)
61#define DIM_NO_IDX     MAX_UINT
62
63__inline UInt getDimType  ( Int intraMode ) { Int dimType = (intraMode-DIM_OFFSET)/2; return (dimType >= 0 && dimType < DIM_NUM_TYPE) ? (UInt)dimType : DIM_NO_IDX; }
64__inline Bool isDimMode   ( Int intraMode ) { return (getDimType( intraMode ) < DIM_NUM_TYPE); }
65__inline Bool isDimDeltaDC( Int intraMode ) { return (isDimMode( intraMode ) && ((intraMode-DIM_OFFSET)%2) == 1); }
66#endif
67
68#if H_3D_DIM_RBC
69#define RBC_THRESHOLD              20
70#define RBC_MAX_EDGE_NUM_PER_4x4   8
71#define RBC_MAX_DISTANCE           255
72#endif
73
74#if H_3D_DIM_DMM
75#define DMM_NO_WEDGEINDEX       MAX_UINT
76#define DMM_NUM_WEDGE_REFINES   8
77#define DMM2_DELTAEND_MAX       4
78#define DMM3_SIMPLIFY_TR        1
79
80enum WedgeResolution
81{
82  DOUBLE_PEL,
83  FULL_PEL,
84  HALF_PEL
85};
86
87
88// ====================================================================================================================
89// Class definition TComWedgelet
90// ====================================================================================================================
91class TComWedgelet
92{
93private:
94  UChar           m_uhXs;                       // line start X pos
95  UChar           m_uhYs;                       // line start Y pos
96  UChar           m_uhXe;                       // line end   X pos
97  UChar           m_uhYe;                       // line end   Y pos
98  UChar           m_uhOri;                      // orientation index
99  WedgeResolution m_eWedgeRes;                  // start/end pos resolution
100  Bool            m_bIsCoarse; 
101  UInt            m_uiAng;
102
103  UInt  m_uiWidth;
104  UInt  m_uiHeight;
105
106  Bool* m_pbPattern;
107
108  Void  xGenerateWedgePattern();
109  Void  xDrawEdgeLine( UChar uhXs, UChar uhYs, UChar uhXe, UChar uhYe, Bool* pbPattern, Int iPatternStride );
110
111public:
112  TComWedgelet( UInt uiWidth, UInt uiHeight );
113  TComWedgelet( const TComWedgelet &rcWedge );
114  virtual ~TComWedgelet();
115
116  Void  create ( UInt iWidth, UInt iHeight );   ///< create  wedgelet pattern
117  Void  destroy();                              ///< destroy wedgelet pattern
118  Void  clear  ();                              ///< clear   wedgelet pattern
119
120  UInt            getWidth   () { return m_uiWidth; }
121  UInt            getStride  () { return m_uiWidth; }
122  UInt            getHeight  () { return m_uiHeight; }
123  WedgeResolution getWedgeRes() { return m_eWedgeRes; }
124  Bool*           getPattern () { return m_pbPattern; }
125  UChar           getStartX  () { return m_uhXs; }
126  UChar           getStartY  () { return m_uhYs; }
127  UChar           getEndX    () { return m_uhXe; }
128  UChar           getEndY    () { return m_uhYe; }
129  UChar           getOri     () { return m_uhOri; }
130  Bool            getIsCoarse() { return m_bIsCoarse; }
131  UInt            getAng     () { return m_uiAng; }
132
133  Void  setWedgelet( UChar uhXs, UChar uhYs, UChar uhXe, UChar uhYe, UChar uhOri, WedgeResolution eWedgeRes, Bool bIsCoarse = false );
134  Void  findClosestAngle();
135
136  Bool  checkNotPlain();
137  Bool  checkIdentical( Bool* pbRefPattern );
138  Bool  checkInvIdentical( Bool* pbRefPattern );
139
140  // functions for DMM2 prediction
141  Bool  checkPredDirAbovePossible( UInt uiPredDirBlockSize, UInt uiPredDirBlockOffsett );
142  Bool  checkPredDirLeftPossible ( UInt uiPredDirBlockSize, UInt uiPredDirBlockOffsett );
143  Void  getPredDirStartEndAbove( UChar& ruhXs, UChar& ruhYs, UChar& ruhXe, UChar& ruhYe, UInt uiPredDirBlockSize, UInt uiPredDirBlockOffset, Int iDeltaEnd );
144  Void  getPredDirStartEndLeft ( UChar& ruhXs, UChar& ruhYs, UChar& ruhXe, UChar& ruhYe, UInt uiPredDirBlockSize, UInt uiPredDirBlockOffset, Int iDeltaEnd );
145};  // END CLASS DEFINITION TComWedgelet
146
147// type definition wedgelet pattern list
148typedef std::vector<TComWedgelet> WedgeList;
149
150// ====================================================================================================================
151// Class definition TComWedgeRef
152// ====================================================================================================================
153class TComWedgeRef
154{
155private:
156  UChar           m_uhXs;                       // line start X pos
157  UChar           m_uhYs;                       // line start Y pos
158  UChar           m_uhXe;                       // line end   X pos
159  UChar           m_uhYe;                       // line end   Y pos
160  UInt            m_uiRefIdx;                   // index of corresponding pattern of TComWedgelet object in wedge list
161
162public:
163  TComWedgeRef() {}
164  virtual ~TComWedgeRef() {}
165
166  UChar           getStartX  () { return m_uhXs; }
167  UChar           getStartY  () { return m_uhYs; }
168  UChar           getEndX    () { return m_uhXe; }
169  UChar           getEndY    () { return m_uhYe; }
170  UInt            getRefIdx  () { return m_uiRefIdx; }
171
172  Void  setWedgeRef( UChar uhXs, UChar uhYs, UChar uhXe, UChar uhYe, UInt uiRefIdx ) { m_uhXs = uhXs; m_uhYs = uhYs; m_uhXe = uhXe; m_uhYe = uhYe; m_uiRefIdx = uiRefIdx; }
173};  // END CLASS DEFINITION TComWedgeRef
174
175// type definition wedgelet reference list
176typedef std::vector<TComWedgeRef> WedgeRefList;
177
178// ====================================================================================================================
179// Class definition TComWedgeNode
180// ====================================================================================================================
181class TComWedgeNode
182{
183private:
184  UInt            m_uiPatternIdx;
185  UInt            m_uiRefineIdx[DMM_NUM_WEDGE_REFINES];
186
187public:
188  TComWedgeNode();
189  virtual ~TComWedgeNode() {}
190
191  UInt            getPatternIdx();
192  UInt            getRefineIdx ( UInt uiPos );
193
194  Void            setPatternIdx( UInt uiIdx );
195  Void            setRefineIdx ( UInt uiIdx, UInt uiPos );
196};  // END CLASS DEFINITION TComWedgeNode
197
198// type definition wedgelet node list
199typedef std::vector<TComWedgeNode> WedgeNodeList;
200#endif //H_3D_DIM_DMM
201
202
203// ====================================================================================================================
204// Function definition roftoi (mathematically correct rounding of float to int)
205// ====================================================================================================================
206__inline Int roftoi( Double value )
207{
208  (value < -0.5) ? (value -= 0.5) : (value += 0.5);
209  return ( (Int)value );
210}
211#endif // __TCOMWEDGELET__
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