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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) 2010-2012, 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 *
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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
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19 *    specific prior written permission.
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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
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33
34/** \file     TypeDef.h
35    \brief    Define basic types, new types and enumerations
36*/
37
38#ifndef _TYPEDEF__
39#define _TYPEDEF__
40
41//! \ingroup TLibCommon
42//! \{
43
44#define SONY_COLPIC_AVAILABILITY          1
45
46#define HHI_INTER_VIEW_MOTION_PRED        1   // inter-view motion parameter prediction
47#define HHI_INTER_VIEW_RESIDUAL_PRED      1   // inter-view residual prediction
48
49#define HHI_VSO                           1
50#define HHI_VSO_LS_TABLE                  1
51#define HHI_VSO_DIST_INT                  1
52#define HHI_VSO_SYNTH_DIST_OUT            0
53
54#define HHI_INTERVIEW_SKIP                1
55#define HHI_INTERVIEW_SKIP_LAMBDA_SCALE   1
56
57#define HHI_DMM_WEDGE_INTRA 1   // depth model modes independent on texture (explicit and intra-predicted Wedgelet prediction)
58#define HHI_DMM_PRED_TEX    1   // depth model modes dependent on texture (inter-component Wedgelet and Contour prediction )
59
60#if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX
61#define DMM_WEDGEMODEL_MIN_SIZE           4
62#define DMM_WEDGEMODEL_MAX_SIZE          32
63#define DMM_WEDGE_PREDDIR_DELTAEND_MAX    4
64#endif
65
66#define HHI_MPI                         1   // motion parameter inheritance from texture picture for depth map coding
67#define HHI_MPI_MERGE_POS               0
68#define HHI_FULL_PEL_DEPTH_MAP_MV_ACC   1   // full-pel mv accuracy for depth maps
69
70#if HHI_INTER_VIEW_MOTION_PRED
71#define SAIT_IMPROV_MOTION_PRED_M24829  1   // improved inter-view motion vector prediction
72#else
73#define SAIT_IMPROV_MOTION_PRED_M24829  0   
74#endif
75
76#if HHI_INTER_VIEW_RESIDUAL_PRED
77#define LG_RESTRICTEDRESPRED_M24766     1   // restricted inter-view residual prediction
78#define QC_SIMPLIFIEDIVRP_M24938        1
79#else
80#define LG_RESTRICTEDRESPRED_M24766     0
81#define QC_SIMPLIFIEDIVRP_M24938        0
82#endif
83
84
85#define SKIPFRAME_BUGFIX                  1 ///< bug fix to enable skipFrame at decoder
86#define START_DECODING_AT_CRA             1 ///< H0496, start decoding at clear random access point
87#define NO_COMBINED_PARALLEL              1 ///< Disallow any combined usage of parallel tools among Tile, EntropySlice and Wavefont
88
89#define LOSSLESS_CODING                   1  ///< H0530: lossless and lossy (mixed) coding
90#if LOSSLESS_CODING
91#define SEQUENCE_LEVEL_LOSSLESS           0  ///< H0530: used only for sequence or frame-level lossless coding
92#endif
93
94#define PARALLEL_MERGE  1                   //< H0082 parallel merge/skip
95#define LOG2_PARALLEL_MERGE_LEVEL_MINUS2 0  //< H0082 parallel merge level 0-> 4x4, 1-> 8x8, 2->16x16, 3->32x32, 4->64x64
96#if PARALLEL_MERGE && LOG2_PARALLEL_MERGE_LEVEL_MINUS2
97#define CU_BASED_MRG_CAND_LIST           1  //< H0240: single merge candidate list for all PUs inside a 8x8 CU conditioned on LOG2_PARALLEL_MERGE_LEVEL_MINUS2 > 0
98#endif
99#define MVP_AT_ENTROPYSLICE_BOUNDARY  1     //< H0362 enable motion prediction accross entropy slice boundary
100
101#define FAST_DECISION_FOR_MRG_RD_COST  1 ////< H0178: Fast Decision for Merge 2Nx2N RDCost
102
103#define PIC_CROPPING              1 ///< Picture cropping and size constraints
104#define NAL_REF_FLAG              1 ///< Change nal_ref_idc to nal_ref_flag (JCTVC-F463)
105#define REMOVE_DIV_OPERATION      1 ///< H0238: Simplified intra horizontal and vertical filtering
106#define LOGI_INTRA_NAME_3MPM      1  ///< H0407: logical Intra mode naming (sequential angular mode numbering) and 3 MPM mode coding
107
108#define LEVEL_CTX_LUMA_RED        1  ///<H0130: Luma level context reduction
109#define REMOVE_INFER_SIGGRP       1  ///<H0131: Remove inferred significant_coeff_group_flag
110
111#define SET_MERGE_TMVP_REFIDX     1  ///< H0278/H0199: Setting the merge TMVP refidx to 0 for the non-first partition
112
113#define MULTILEVEL_SIGMAP_EXT     1  ///< H0526: multi-level significance map extended to smaller TUs
114#define MULTIBITS_DATA_HIDING     1  ///< H0481: multiple sign bit hiding
115
116#define DEQUANT_CLIPPING           1  ///< H0312/H0541: transformed coefficients clipping before de-quantization
117
118#define REMOVE_NON_SCALED         1 ///< H0164/H0250: Removal of non-scaled merge candidate
119#define MRG_IDX_CTX_RED           1 ///< H0251: Merge index context reduction
120#define SIMP_MRG_PRUN             1 ///< H0252: simplification of merge pruning process
121
122#define AMVP_PRUNING_SIMPLIFICATION         1     ///H0316: simplify the pruning process of AMVP by exempting the temporal candidate
123#define AMVP_ZERO_CHECKING_REMOVAL          1     ///H0239/H0316: remove zero motion vector checking of AMVP
124
125#define H0111_MVD_L1_ZERO         1  ///< H0111: modification of bi-prediction
126#define DISABLING_CLIP_FOR_BIPREDME         1  ///< Ticket #175
127
128#define CLIPSCALEDMVP               1  ///< H0216: Clipping scaled MV to 16 bit
129
130#define UNIFIED_TRANSFORM_TREE      1   ///< H0123: unified tree structure for TU
131
132#define SIGMAP_CTX_SUBBLOCK       1 ///< H0290: 4x4 sub-block based region for significant_flag context selection
133
134#define SIGMAP_CONST_AT_HIGH_FREQUENCY      1      ///< H0095 method2.1: const significance map at high freaquency
135
136#define LAST_CTX_REDUCTION        1  ///< H0537/H514: contexts reduction for last position coding
137
138#define AMP_CTX                   1 ///<H0545: context reduction for asymmetric partition
139
140#define RESTRICT_GR1GR2FLAG_NUMBER    1 ///< H0554: Throughput improvement of CABAC coefficients level coding
141#if RESTRICT_GR1GR2FLAG_NUMBER    //
142#define C1FLAG_NUMBER               8 // maximum number of largerThan1 flag coded in one chunk :  16 in HM5
143#define C2FLAG_NUMBER               1 // maximum number of largerThan2 flag coded in one chunk:  16 in HM5
144#endif
145
146#define EIGHT_BITS_RICE_CODE        1 ///< H0498 : 8 bits rice codes
147
148#define SAO_UNIT_INTERLEAVING      1   ///< H0273
149#define REMOVE_SAO_LCU_ENC_CONSTRAINTS_1 0  ///< disable the encoder constraint that does not test SAO/BO mode for chroma in interleaved mode
150#define REMOVE_SAO_LCU_ENC_CONSTRAINTS_2 0  ///< disable the encoder constraint that reduce the range of SAO/EO for chroma in interleaved mode
151#define REMOVE_SAO_LCU_ENC_CONSTRAINTS_3 0  ///< disable the encoder constraint that conditionally disable SAO for chroma for entire slice in interleaved mode
152
153#define ALF_SINGLE_FILTER_SHAPE    1     //< !!! H0068: Single filter type : 9x7 cross + 3x3 square
154
155#define ALF_16_BA_GROUPS        1     ///< H0409 16 BA groups
156#define LCU_SYNTAX_ALF          1     ///< H0274 LCU-syntax ALF
157#define ALF_CHROMA_COEF_PRED_HARMONIZATION 1 ///< H0483: ALF chroma coeff pred harmonization
158
159#define CABAC_LINEAR_INIT       1     ///< H0535 : linear CABAC initialization
160
161#define COLLOCATED_REF_IDX      1     ///< H0442: signal collocated reference index
162
163#define UNIFIED_TRANSFORM       1     ///< H0492: unify square and non-square transform
164
165#define MAX_NUM_SPS                32
166#define MAX_NUM_PPS                256
167#define MAX_NUM_APS                32         //< !!!KS: number not defined in WD yet
168
169#define MRG_MAX_NUM_CANDS_SIGNALED         5   //<G091: value of maxNumMergeCand signaled in slice header
170
171#define WEIGHTED_CHROMA_DISTORTION  1   ///< F386: weighting of chroma for RDO
172#define RDOQ_CHROMA_LAMBDA          1   ///< F386: weighting of chroma for RDOQ
173#define ALF_CHROMA_LAMBDA           1   ///< F386: weighting of chroma for ALF
174#define SAO_CHROMA_LAMBDA           1   ///< F386: weighting of chroma for SAO
175
176#define MIN_SCAN_POS_CROSS          4
177
178#define FAST_BIT_EST                1   ///< G763: Table-based bit estimation for CABAC
179
180#define G519_TU_AMP_NSQT_HARMONIZATION  1   ///< G519: Harmonization of implicit TU, AMP and NSQT
181
182#define MLS_GRP_NUM                         64     ///< G644 : Max number of coefficient groups, max(16, 64)
183#define MLS_CG_SIZE                         4      ///< G644 : Coefficient group size of 4x4
184
185#define ADAPTIVE_QP_SELECTION               1      ///< G382: Adaptive reconstruction levels, non-normative part for adaptive QP selection
186#if ADAPTIVE_QP_SELECTION
187#define ARL_C_PRECISION                     7      ///< G382: 7-bit arithmetic precision
188#define LEVEL_RANGE                         30     ///< G382: max coefficient level in statistics collection
189#endif
190
191
192#define CHROMA_MODE_CODING                   1     //H0326/H0475 : 2-length fixed, bypass coding for chroma intra prediction mode
193
194#define NSQT_LFFIX                           1     ///< Bug fix related to NSQT and deblocking filter
195#define NS_HAD                               1
196
197#define APS_BITS_FOR_SAO_BYTE_LENGTH 12
198#define APS_BITS_FOR_ALF_BYTE_LENGTH 8
199
200#define H0736_AVC_STYLE_QP_RANGE             1    ///< H0736: AVC style qp range and wrapping.
201#define H0204_QP_PREDICTION                  1    ///< H0204: improved QP prediction
202
203#define HHI_RQT_INTRA_SPEEDUP             1           ///< tests one best mode with full rqt
204#define HHI_RQT_INTRA_SPEEDUP_MOD         0           ///< tests two best modes with full rqt
205
206#define BURST_IPCM                        1           ///< H0051: Burst IPCM
207
208#if HHI_RQT_INTRA_SPEEDUP_MOD && !HHI_RQT_INTRA_SPEEDUP
209#error
210#endif
211
212#define H0137_0138_LIST_MODIFICATION      1           // Enabled reference picture lists combination (H0137) and reference picture list modification (H0138) updates
213#if !H0137_0138_LIST_MODIFICATION
214#error "H0137_0138_LIST_MODIFICATION must be enabled for multi-view coding."
215#endif
216
217#define VERBOSE_RATE 0                               ///< Print additional rate information in encoder
218
219#define AMVP_DECIMATION_FACTOR            4
220
221#define SCAN_SET_SIZE                     16
222#define LOG2_SCAN_SET_SIZE                4
223
224#define FAST_UDI_MAX_RDMODE_NUM               35          ///< maximum number of RD comparison in fast-UDI estimation loop
225
226#define ZERO_MVD_EST                          0           ///< Zero Mvd Estimation in normal mode
227
228#define NUM_INTRA_MODE 36
229#define LM_CHROMA_IDX  35
230
231#if HHI_DMM_WEDGE_INTRA && HHI_DMM_PRED_TEX
232enum MODE_IDX
233{
234  DMM_WEDGE_FULL_IDX         = NUM_INTRA_MODE,
235  DMM_WEDGE_FULL_D_IDX       = NUM_INTRA_MODE+1,
236  DMM_WEDGE_PREDTEX_IDX      = NUM_INTRA_MODE+2,
237  DMM_WEDGE_PREDTEX_D_IDX    = NUM_INTRA_MODE+3,
238  DMM_CONTOUR_PREDTEX_IDX    = NUM_INTRA_MODE+4,
239  DMM_CONTOUR_PREDTEX_D_IDX  = NUM_INTRA_MODE+5,
240  DMM_WEDGE_PREDDIR_IDX      = NUM_INTRA_MODE+6,
241  DMM_WEDGE_PREDDIR_D_IDX    = NUM_INTRA_MODE+7
242};
243#define NUM_DMM_MODE 8
244#elif HHI_DMM_WEDGE_INTRA && !HHI_DMM_PRED_TEX
245enum MODE_IDX
246{
247  DMM_WEDGE_FULL_IDX         = NUM_INTRA_MODE,
248  DMM_WEDGE_FULL_D_IDX       = NUM_INTRA_MODE+1,
249  DMM_WEDGE_PREDDIR_IDX      = NUM_INTRA_MODE+2,
250  DMM_WEDGE_PREDDIR_D_IDX    = NUM_INTRA_MODE+3
251};
252#define NUM_DMM_MODE 4
253#elif !HHI_DMM_WEDGE_INTRA && HHI_DMM_PRED_TEX
254enum MODE_IDX
255{
256  DMM_WEDGE_PREDTEX_IDX      = NUM_INTRA_MODE,
257  DMM_WEDGE_PREDTEX_D_IDX    = NUM_INTRA_MODE+1,
258  DMM_CONTOUR_PREDTEX_IDX    = NUM_INTRA_MODE+2,
259  DMM_CONTOUR_PREDTEX_D_IDX  = NUM_INTRA_MODE+3,
260};
261#define NUM_DMM_MODE 4
262#endif
263
264#define IBDI_DISTORTION                0           ///< enable/disable SSE modification when IBDI is used (JCTVC-D152)
265#define FIXED_ROUNDING_FRAME_MEMORY    0           ///< enable/disable fixed rounding to 8-bitdepth of frame memory when IBDI is used
266
267#define WRITE_BACK                      1           ///< Enable/disable the encoder to replace the deltaPOC and Used by current from the config file with the values derived by the refIdc parameter.
268#define PRINT_RPS_INFO                  0           ///< Enable/disable the printing of bits used to send the RPS.
269                                                    // using one nearest frame as reference frame, and the other frames are high quality (POC%4==0) frames (1+X)
270                                                    // this should be done with encoder only decision
271                                                    // but because of the absence of reference frame management, the related code was hard coded currently
272#define LTRP_MULT                       1           ///< enable/disable multiple long term reference pictures with same POC LSB
273
274#define OL_FLUSH 1          // Set to 1 to enable Wavefront Flush.
275#define OL_FLUSH_ALIGN 0    // Align flush to byte boundary.  This preserves byte operations in CABAC (faster) but at the expense of an average
276                            // of 4 bits per flush.
277                            // Setting to 0 will slow cabac by an as yet unknown amount.
278                            // This is here just to perform timing tests -- OL_FLUSH_ALIGN should be 0 for WPP.
279
280#define RVM_VCEGAM10_M 4
281
282#define PLANAR_IDX             0
283#if LOGI_INTRA_NAME_3MPM
284#define VER_IDX                26                    // index for intra VERTICAL   mode
285#define HOR_IDX                10                    // index for intra HORIZONTAL mode
286#define DC_IDX                 1                     // index for intra DC mode
287#else
288#define DC_IDX                 3                     // index for intra DC mode
289#endif
290#define NUM_CHROMA_MODE        6                     // total number of chroma modes
291#define DM_CHROMA_IDX          36                    // chroma mode index for derived from luma intra mode
292
293
294#define FAST_UDI_USE_MPM 1
295
296#define RDO_WITHOUT_DQP_BITS              0           ///< Disable counting dQP bits in RDO-based mode decision
297
298#define FULL_NBIT 0 ///< When enabled, does not use g_uiBitIncrement anymore to support > 8 bit data
299
300#define FIXED_NUMBER_OF_TILES_SLICE_MODE                1
301#define AD_HOC_SLICES_FIXED_NUMBER_OF_LCU_IN_SLICE      1          ///< OPTION IDENTIFIER. mode==1 -> Limit maximum number of largest coding tree blocks in a slice
302#define AD_HOC_SLICES_FIXED_NUMBER_OF_BYTES_IN_SLICE    2          ///< OPTION IDENTIFIER. mode==2 -> Limit maximum number of bins/bits in a slice
303#if FIXED_NUMBER_OF_TILES_SLICE_MODE
304#define AD_HOC_SLICES_FIXED_NUMBER_OF_TILES_IN_SLICE    3
305#endif
306
307// Entropy slice options
308#define SHARP_FIXED_NUMBER_OF_LCU_IN_ENTROPY_SLICE            1          ///< OPTION IDENTIFIER. Limit maximum number of largest coding tree blocks in an entropy slice
309#define SHARP_MULTIPLE_CONSTRAINT_BASED_ENTROPY_SLICE         2          ///< OPTION IDENTIFIER. Limit maximum number of bins/bits in an entropy slice
310
311#define LOG2_MAX_NUM_COLUMNS_MINUS1        7
312#define LOG2_MAX_NUM_ROWS_MINUS1           7
313#define LOG2_MAX_COLUMN_WIDTH              13
314#define LOG2_MAX_ROW_HEIGHT                13
315
316#define MAX_MARKER_PER_NALU                 1000
317
318#define MATRIX_MULT                             0   // Brute force matrix multiplication instead of partial butterfly
319
320#define REG_DCT 65535
321
322#define AMP_SAD                               1           ///< dedicated SAD functions for AMP
323#define AMP_ENC_SPEEDUP                       1           ///< encoder only speed-up by AMP mode skipping
324#if AMP_ENC_SPEEDUP
325#define AMP_MRG                               1           ///< encoder only force merge for AMP partition (no motion search for AMP)
326#endif
327
328#define SCALING_LIST_OUTPUT_RESULT    0 //JCTVC-G880/JCTVC-G1016 quantization matrices
329#define SCALING_LIST                  1 //JCTVC-H0230/H0461/H0237
330
331#define DEFAULT_DC                    1 // JCTVC-H0242
332
333#define RPS_IN_SPS                    1 // Adopted during discussion of JCTVC-H0423
334
335#define H0412_REF_PIC_LIST_RESTRICTION 1
336
337#define H0566_TLA                     1
338#if H0566_TLA
339#define H0566_TLA_SET_FOR_SWITCHING_POINTS 1
340#endif
341
342#define H0567_DPB_PARAMETERS_PER_TEMPORAL_LAYER 1
343
344#define DBL_H0473_PART_1          1   //Deblocking filtering simplification
345#define DBL_CONTROL               1   //PPS deblocking_filter_control_present_flag (JCTVC-H0398); condition for inherit params flag in SH (JCTVC-H0424)
346#define DBL_STRONG_FILTER_CLIP    1   //Introduction of strong filter clipping in deblocking filter (JCTVC-H0275)
347
348#define CABAC_INIT_FLAG             1 // JCTVC-H0540
349#define CABAC_INIT_PRESENT_FLAG     1
350
351#define H0388                       1 // JCTVC-H0388
352
353#define TILES_WPP_ENTRY_POINT_SIGNALLING        1 // JCTVC-H0556. Assumes either Tiles is ON or WPP is ON (not both simultaneously).
354#define REMOVE_TILE_DEPENDENCE                  1 // remove tile_boundary_independence_flag and dependent tiles
355#define TILES_OR_ENTROPY_SYNC_IDC               1 // tiles_or_entropy_coding_sync_idc flag
356#define COMPLETE_SLICES_IN_TILE     1 // Among the constraints between slices and tiles, all slices within a tile shall be complete (JCTVC-H0348/JCTVC-H0463) for SliceMode 1&2
357#define WPP_SIMPLIFICATION          1 // JCTVC-H0349/JCTVC-0517
358
359// ====================================================================================================================
360// VPS INTEGRATION
361// ====================================================================================================================
362#define VIDYO_VPS_INTEGRATION       1
363#if VIDYO_VPS_INTEGRATION
364#define MAX_NUM_VPS 10
365#endif
366
367// ====================================================================================================================
368// Basic type redefinition
369// ====================================================================================================================
370
371typedef       void                Void;
372typedef       bool                Bool;
373
374typedef       char                Char;
375typedef       unsigned char       UChar;
376typedef       short               Short;
377typedef       unsigned short      UShort;
378typedef       int                 Int;
379typedef       unsigned int        UInt;
380typedef       double              Double;
381
382// ====================================================================================================================
383// 64-bit integer type
384// ====================================================================================================================
385
386#ifdef _MSC_VER
387typedef       __int64             Int64;
388
389#if _MSC_VER <= 1200 // MS VC6
390typedef       __int64             UInt64;   // MS VC6 does not support unsigned __int64 to double conversion
391#else
392typedef       unsigned __int64    UInt64;
393#endif
394
395#else
396
397typedef       long long           Int64;
398typedef       unsigned long long  UInt64;
399
400#endif
401
402// ====================================================================================================================
403// Type definition
404// ====================================================================================================================
405
406typedef       UChar           Pxl;        ///< 8-bit pixel type
407typedef       Short           Pel;        ///< 16-bit pixel type
408typedef       Int             TCoeff;     ///< transform coefficient
409
410
411// ====================================================================================================================
412// Define Distortion Types
413// ====================================================================================================================
414typedef       Int64           RMDist;     ///< renderer model distortion
415
416#if HHI_VSO_DIST_INT
417typedef       Int              Dist;       ///< RDO distortion
418#define       RDO_DIST_MIN     MIN_INT
419#define       RDO_DIST_MAX     MAX_INT
420#else
421typedef       UInt             Dist;       ///< RDO distortion
422#define       RDO_DIST_MIN     0
423#define       RDO_DIST_MAX     MAX_UINT
424#endif
425
426/// parameters for adaptive loop filter
427class TComPicSym;
428
429#define NUM_DOWN_PART 4
430
431enum SAOTypeLen
432{
433  SAO_EO_LEN    = 4,
434#if SAO_UNIT_INTERLEAVING
435  SAO_BO_LEN    = 4,
436  SAO_MAX_BO_CLASSES = 32
437#else
438  SAO_BO_LEN    = 16
439#endif
440};
441
442enum SAOType
443{
444  SAO_EO_0 = 0,
445  SAO_EO_1,
446  SAO_EO_2,
447  SAO_EO_3,
448#if SAO_UNIT_INTERLEAVING
449  SAO_BO,
450#else
451  SAO_BO_0,
452  SAO_BO_1,
453#endif
454  MAX_NUM_SAO_TYPE
455};
456
457typedef struct _SaoQTPart
458{
459#if !SAO_UNIT_INTERLEAVING
460  Bool        bEnableFlag;
461#endif
462  Int         iBestType;
463  Int         iLength;
464#if SAO_UNIT_INTERLEAVING
465  Int         bandPosition ;
466  Int         iOffset[4];
467#else
468  Int         iOffset[32];
469#endif
470  Int         StartCUX;
471  Int         StartCUY;
472  Int         EndCUX;
473  Int         EndCUY;
474
475  Int         PartIdx;
476  Int         PartLevel;
477  Int         PartCol;
478  Int         PartRow;
479
480  Int         DownPartsIdx[NUM_DOWN_PART];
481  Int         UpPartIdx;
482
483  Bool        bSplit;
484
485  //---- encoder only start -----//
486  Bool        bProcessed;
487  Double      dMinCost;
488  Int64       iMinDist;
489  Int         iMinRate;
490  //---- encoder only end -----//
491} SAOQTPart;
492
493#if SAO_UNIT_INTERLEAVING
494typedef struct _SaoLcuParam
495{
496  Bool       mergeUpFlag;
497  Bool       mergeLeftFlag;
498  Int        typeIdx;
499  Int        bandPosition;
500  Int        offset[4];
501  Int        runDiff;
502  Int        run;
503  Int        partIdx;
504  Int        partIdxTmp;
505  Int        length;
506} SaoLcuParam;
507#endif
508
509struct SAOParam
510{
511  Bool       bSaoFlag[3];
512  SAOQTPart* psSaoPart[3];
513  Int        iMaxSplitLevel;
514  Int        iNumClass[MAX_NUM_SAO_TYPE];
515#if SAO_UNIT_INTERLEAVING
516  Bool         oneUnitFlag[3];
517  SaoLcuParam* saoLcuParam[3];
518  Int          numCuInHeight;
519  Int          numCuInWidth;
520#endif
521  ~SAOParam();
522};
523
524struct ALFParam
525{
526  Int alf_flag;                           ///< indicates use of ALF
527#if !LCU_SYNTAX_ALF
528  Int chroma_idc;                         ///< indicates use of ALF for chroma
529#endif
530  Int num_coeff;                          ///< number of filter coefficients
531  Int filter_shape;
532#if !LCU_SYNTAX_ALF
533  Int filter_shape_chroma;
534  Int num_coeff_chroma;                   ///< number of filter coefficients (chroma)
535  Int *coeff_chroma;                      ///< filter coefficient array (chroma)
536#endif
537  Int *filterPattern;
538  Int startSecondFilter;
539  Int filters_per_group;
540  Int predMethod;
541  Int *nbSPred;
542  Int **coeffmulti;
543  Int minKStart;
544#if !LCU_SYNTAX_ALF
545  Int maxScanVal;
546  Int kMinTab[42];
547
548  Int alf_pcr_region_flag;
549  ~ALFParam();
550#endif
551#if LCU_SYNTAX_ALF
552  Int componentID;
553  Int* kMinTab;
554  //constructor, operator
555  ALFParam():componentID(-1){}
556  ALFParam(Int cID){create(cID);}
557  ALFParam(const ALFParam& src) {*this = src;}
558  ~ALFParam(){destroy();}
559  const ALFParam& operator= (const ALFParam& src);
560private:
561  Void create(Int cID);
562  Void destroy();
563  Void copy(const ALFParam& src);
564#endif
565};
566
567#if LCU_SYNTAX_ALF
568struct AlfUnitParam
569{
570  Int   mergeType;
571  Bool  isEnabled;
572  Bool  isNewFilt;
573  Int   storedFiltIdx;
574  ALFParam* alfFiltParam;
575  //constructor, operator
576  AlfUnitParam();
577  AlfUnitParam(const AlfUnitParam& src){ *this = src;}
578  const AlfUnitParam& operator= (const AlfUnitParam& src);
579  Bool operator == (const AlfUnitParam& cmp);
580};
581
582struct AlfParamSet
583{
584  Bool isEnabled[3];
585  Bool isUniParam[3];
586  Int  numLCUInWidth;
587  Int  numLCUInHeight;
588  Int  numLCU;
589  AlfUnitParam* alfUnitParam[3];
590  //constructor, operator
591  AlfParamSet(){create();}
592  ~AlfParamSet(){destroy();}
593  Void create(Int width =0, Int height=0, Int num=0);
594  Void init();
595  Void releaseALFParam();
596  Void createALFParam();
597private:
598  Void destroy();
599};
600#endif
601
602
603
604/// parameters for deblocking filter
605typedef struct _LFCUParam
606{
607  Bool bInternalEdge;                     ///< indicates internal edge
608  Bool bLeftEdge;                         ///< indicates left edge
609  Bool bTopEdge;                          ///< indicates top edge
610} LFCUParam;
611
612// ====================================================================================================================
613// Enumeration
614// ====================================================================================================================
615
616/// supported slice type
617enum SliceType
618{
619  I_SLICE,
620  P_SLICE,
621  B_SLICE
622};
623
624/// chroma formats (according to semantics of chroma_format_idc)
625enum ChromaFormat
626{
627  CHROMA_400  = 0,
628  CHROMA_420  = 1,
629  CHROMA_422  = 2,
630  CHROMA_444  = 3
631};
632
633/// supported partition shape
634enum PartSize
635{
636  SIZE_2Nx2N,           ///< symmetric motion partition,  2Nx2N
637  SIZE_2NxN,            ///< symmetric motion partition,  2Nx N
638  SIZE_Nx2N,            ///< symmetric motion partition,   Nx2N
639  SIZE_NxN,             ///< symmetric motion partition,   Nx N
640  SIZE_2NxnU,           ///< asymmetric motion partition, 2Nx( N/2) + 2Nx(3N/2)
641  SIZE_2NxnD,           ///< asymmetric motion partition, 2Nx(3N/2) + 2Nx( N/2)
642  SIZE_nLx2N,           ///< asymmetric motion partition, ( N/2)x2N + (3N/2)x2N
643  SIZE_nRx2N,           ///< asymmetric motion partition, (3N/2)x2N + ( N/2)x2N
644  SIZE_NONE = 15
645};
646
647/// supported prediction type
648enum PredMode
649{
650  MODE_SKIP,            ///< SKIP mode
651  MODE_INTER,           ///< inter-prediction mode
652  MODE_INTRA,           ///< intra-prediction mode
653  MODE_NONE = 15
654};
655
656/// texture component type
657enum TextType
658{
659  TEXT_LUMA,            ///< luma
660  TEXT_CHROMA,          ///< chroma (U+V)
661  TEXT_CHROMA_U,        ///< chroma U
662  TEXT_CHROMA_V,        ///< chroma V
663  TEXT_ALL,             ///< Y+U+V
664  TEXT_NONE = 15
665};
666
667/// reference list index
668enum RefPicList
669{
670  REF_PIC_LIST_0 = 0,   ///< reference list 0
671  REF_PIC_LIST_1 = 1,   ///< reference list 1
672  REF_PIC_LIST_C = 2,   ///< combined reference list for uni-prediction in B-Slices
673  REF_PIC_LIST_X = 100  ///< special mark
674};
675
676/// distortion function index
677enum DFunc
678{
679  DF_DEFAULT  = 0,
680  DF_SSE      = 1,      ///< general size SSE
681  DF_SSE4     = 2,      ///<   4xM SSE
682  DF_SSE8     = 3,      ///<   8xM SSE
683  DF_SSE16    = 4,      ///<  16xM SSE
684  DF_SSE32    = 5,      ///<  32xM SSE
685  DF_SSE64    = 6,      ///<  64xM SSE
686  DF_SSE16N   = 7,      ///< 16NxM SSE
687
688  DF_SAD      = 8,      ///< general size SAD
689  DF_SAD4     = 9,      ///<   4xM SAD
690  DF_SAD8     = 10,     ///<   8xM SAD
691  DF_SAD16    = 11,     ///<  16xM SAD
692  DF_SAD32    = 12,     ///<  32xM SAD
693  DF_SAD64    = 13,     ///<  64xM SAD
694  DF_SAD16N   = 14,     ///< 16NxM SAD
695
696  DF_SADS     = 15,     ///< general size SAD with step
697  DF_SADS4    = 16,     ///<   4xM SAD with step
698  DF_SADS8    = 17,     ///<   8xM SAD with step
699  DF_SADS16   = 18,     ///<  16xM SAD with step
700  DF_SADS32   = 19,     ///<  32xM SAD with step
701  DF_SADS64   = 20,     ///<  64xM SAD with step
702  DF_SADS16N  = 21,     ///< 16NxM SAD with step
703
704  DF_HADS     = 22,     ///< general size Hadamard with step
705  DF_HADS4    = 23,     ///<   4xM HAD with step
706  DF_HADS8    = 24,     ///<   8xM HAD with step
707  DF_HADS16   = 25,     ///<  16xM HAD with step
708  DF_HADS32   = 26,     ///<  32xM HAD with step
709  DF_HADS64   = 27,     ///<  64xM HAD with step
710  DF_HADS16N  = 28,     ///< 16NxM HAD with step
711
712#if AMP_SAD
713  DF_SAD12    = 43,
714  DF_SAD24    = 44,
715  DF_SAD48    = 45,
716
717  DF_SADS12   = 46,
718  DF_SADS24   = 47,
719  DF_SADS48   = 48,
720
721  DF_SSE_FRAME = 50     ///< Frame-based SSE
722#else
723  DF_SSE_FRAME = 33     ///< Frame-based SSE
724#endif
725};
726
727/// index for SBAC based RD optimization
728enum CI_IDX
729{
730  CI_CURR_BEST = 0,     ///< best mode index
731  CI_NEXT_BEST,         ///< next best index
732  CI_TEMP_BEST,         ///< temporal index
733  CI_CHROMA_INTRA,      ///< chroma intra index
734  CI_QT_TRAFO_TEST,
735  CI_QT_TRAFO_ROOT,
736  CI_NUM,               ///< total number
737};
738
739/// motion vector predictor direction used in AMVP
740enum MVP_DIR
741{
742  MD_LEFT = 0,          ///< MVP of left block
743  MD_ABOVE,             ///< MVP of above block
744  MD_ABOVE_RIGHT,       ///< MVP of above right block
745  MD_BELOW_LEFT,        ///< MVP of below left block
746  MD_ABOVE_LEFT         ///< MVP of above left block
747};
748
749/// motion vector prediction mode used in AMVP
750enum AMVP_MODE
751{
752  AM_NONE = 0,          ///< no AMVP mode
753  AM_EXPL,              ///< explicit signalling of motion vector index
754};
755
756/// coefficient scanning type used in ACS
757enum COEFF_SCAN_TYPE
758{
759  SCAN_ZIGZAG = 0,      ///< typical zigzag scan
760  SCAN_HOR,             ///< horizontal first scan
761  SCAN_VER,              ///< vertical first scan
762  SCAN_DIAG              ///< up-right diagonal scan
763};
764
765// Renderer
766enum
767{
768  VIEWPOS_INVALID = -1,
769  VIEWPOS_LEFT    = 0,
770  VIEWPOS_RIGHT   = 1,
771  VIEWPOS_MERGED  = 2
772};
773
774//! \}
775
776#endif
777
778
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