source: 3DVCSoftware/branches/HTM-15.1-dev0-Nokia/source/Lib/TLibCommon/TypeDef.h @ 1339

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/** \file     TypeDef.h
    \brief    Define basic types, new types and enumerations
*/
#ifndef __TYPEDEF__
#define __TYPEDEF__
#ifndef __COMMONDEF__
#error Include CommonDef.h not TypeDef.h
#endif
#include <vector>
//! \ingroup TLibCommon
//! \{
/////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////// EXTENSION SELECTION ///////////////////////////////////  
/////////////////////////////////////////////////////////////////////////////////////////
/* HEVC_EXT might be defined by compiler/makefile options.
   Linux makefiles support the following settings:   
   make             -> HEVC_EXT not defined    
   make HEVC_EXT=0  -> NH_MV=0 H_3D=0   --> plain HM
   make HEVC_EXT=1  -> NH_MV=1 H_3D=0   --> MV only 
   make HEVC_EXT=2  -> NH_MV=1 H_3D=1   --> full 3D 
*/
#ifndef HEVC_EXT
#define HEVC_EXT                    2
#endif
#if ( HEVC_EXT < 0 )||( HEVC_EXT > 2 )
#error HEVC_EXT must be in the range of 0 to 2, inclusive. 
#endif
#define NH_MV          ( HEVC_EXT != 0)
#define NH_3D          ( HEVC_EXT == 2)
/////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////   FIXES AND INTEGRATIONS     ////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////
#if NH_MV
#define NH_MV_SEI_TBD                             0
#define NH_MV_SEI                                 1
#define NH_MV_FIX_TICKET_106                      1 // Identical motion check. 
#define NH_MV_FIX_NO_REF_PICS_CHECK               1 // !!SPEC!! 
#define NH_MV_FIX_INIT_NUM_ACTIVE_REF_LAYER_PICS  1 // Derivation of NumActiveRefLayerPIcs. !!SPEC!! 
#define NH_MV_FIX_NUM_POC_TOTAL_CUR               1 // Derivation of NumPocTotalCur for IDR pictures. !!SPEC!!
#define NH_MV_LAYERS_NOT_PRESENT_SEI              1 // Layers not present SEI message JCTMV-M0043
#if NH_MV_SEI
#define SEI_DRI_F0169 1
#endif
#endif
#if NH_3D
#define H_3D_FIX_ARP_CHECK_NOT_IN_DPB     1
#endif
/////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////   MAJOR DEFINES   ///////////////////////////////////  
/////////////////////////////////////////////////////////////////////////////////////////
#if NH_MV
#define H_MV_ENC_DEC_TRAC                 1  //< CU/PU level tracking
#if NH_3D
#define NH_3D_INTEGER_MV_DEPTH            1
#define NH_3D_ENC_DEPTH                   1   // Encoder optimizations for depth, incl.
                                              // HHI_DEPTH_INTRA_SEARCH_RAU_C0160
                                              // LG_ZEROINTRADEPTHRESI_A0087
                                              // HHI_DMM4_ENC_I0066
                                              // H_3D_FAST_DEPTH_INTRA
#define NH_3D_FAST_TEXTURE_ENCODING       1   // Fast merge mode decision and early CU determination for texture component of dependent view, JCT3V-E0173
#define NH_3D_ARP                         1  // Advanced residual prediction (ARP), JCT3V-D0177
                                             // QC_MTK_INTERVIEW_ARP_F0123_F0108 JCT3V-F0123; JCT3V-F0108
                                             // SHARP_ARP_REF_CHECK_F0105        ARP reference picture selection and DPB check
                                             // LGE_ARP_CTX_F0161                JCT3V-F0161
                                             // MTK_ARP_FLAG_CABAC_SIMP_G0061 Use 2 context for ARP flag referring to only left neighbor block in JCT3V-G0061
                                             // MTK_ARP_REF_SELECTION_G0053 ARP Reference picture selection in JCT3V-G0053 
                                             // MTK_ALIGN_SW_WD_BI_PRED_ARP_H0085  Align the SW and WD for the bi-prediction ARP PUs by disallowing non-normative fast bi-prediction for ARP PUs, JCT3V-H0085
                                             // QC_I0051_ARP_SIMP          
                                             // SHARP_ARP_CHROMA_I0104     
                                             // MTK_I0072_IVARP_SCALING_FIX
                                             // SEC_ARP_VIEW_REF_CHECK_J0037    Signaling iv_res_pred_weight_idx when the current slice has both view and temporal reference picture(s), JCT3V-J0037 item1
                                             // SEC_ARP_REM_ENC_RESTRICT_K0035    Removal of encoder restriction of ARP, JCT3V-K0035
#define NH_3D_QTLPC                        1   // OL_QTLIMIT_PREDCODING_B0068 //JCT3V-B0068
                                              // HHI_QTLPC_RAU_OFF_C0160 JCT3V-C0160 change 2: quadtree limitation and predictive coding switched off in random access units 
                                              // MTK_TEX_DEP_PAR_G0055 Texture-partition-dependent depth partition. JCT3V-G0055
#define NH_3D_VSO                          1   // VSO, View synthesis optimization, includes: 
                                              // HHI_VSO
                                              // HHI_VSO_LS_TABLE_M23714 enable table base Lagrange multiplier optimization
                                              // SAIT_VSO_EST_A0033, JCT3V-A0033 modification 3
                                              // LGE_WVSO_A0119
                                              // SCU_HS_VSD_BUGFIX_IMPROV_G0163
#define NH_3D_NBDV                         1   // Neighboring block disparity derivation 
                                              // QC_JCT3V-A0097 
                                              // LGE_DVMCP_A0126
                                              // LGE_DVMCP_MEM_REDUCTION_B0135     
                                              // QC_SIMPLE_NBDV_B0047
                                              // FIX_LGE_DVMCP_B0133
                                              // QC_NBDV_LDB_FIX_C0055
                                              // MTK_SAIT_TEMPORAL_FIRST_ORDER_C0141_C0097
                                              // MTK_SIMPLIFY_DVTC_C0135           
                                              // QC_CU_NBDV_D0181
                                              // SEC_DEFAULT_DV_D0112
                                              // MTK_DVMCP_FIX_E0172       fix the mismatch between software and WD for DV derivation from DVMCP blocks, issue 2 in JCT3V-E0172
                                              // SEC_SIMPLIFIED_NBDV_E0142 Simplified NBDV, JCT3V-E0142 and JCT3V-E0190
                                              // MTK_NBDV_TN_FIX_E0172     fix the issue of DV derivation from the temporal neighboring blocks, issue 7 in JCT3V-E0172
                                              // MTK_TEXTURE_MRGCAND_BUGFIX_E0182  Bug fix for TEXTURE MERGING CANDIDATE     , JCT3V-E0182
                                              // LGE_SIMP_DISP_AVAIL_J0041    // Use 2 status for disparity availability - DISP_AVAILABLE and DISP_NONE
#define NH_3D_IC                          1   // Illumination Compensation, JCT3V-B0045, JCT3V-C0046, JCT3V-D0060
                                              // Unifying rounding offset, for IC part, JCT3V-D0135
                                              // Full Pel Interpolation for Depth, HHI_FULL_PEL_DEPTH_MAP_MV_ACC
                                              // SHARP_ILLUCOMP_REFINE_E0046
                                              // MTK_CLIPPING_ALIGN_IC_E0168       // To support simplify bi-prediction PU with identical motion checking, JCT3V-E0168
                                              // LGE_IC_CTX_F0160 //JCT3V-F0160
                                              // SEC_ONLY_TEXTURE_IC_F0151
                                              // MTK_IC_FLAG_CABAC_SIMP_G0061
                                              // SEC_IC_ARP_SIG_G0072, Disabling IC when ARP is enabled, option 1 in JCT3V-G0072, part 2 in JCT3V-G0121
                                              // MTK_LOW_LATENCY_IC_ENCODING_H0086  Low-latency IC encoding in JCT3V-H0086
                                              // MTK_LOW_LATENCY_IC_ENCODING_H0086_FIX  1  // Remove the global variables used in JCT3V-H0086
                                              // SEC_IC_NEIGHBOR_CLIP_I0080    // Clipping of neighboring sample position, JCT3V-I0080
                                              // LGE_CHROMA_IC_J0050_J0034
#if NH_3D_NBDV
#define NH_3D_NBDV_REF                     1   // Depth oriented neighboring block disparity derivation
                                              // MTK_D0156
                                              // MERL_D0166: Reference view selection in NBDV & Bi-VSP
                                              // MERL_C0152: Basic VSP
                                              // NBDV_DEFAULT_VIEWIDX_BUGFIX Bug fix for invalid default view index for NBDV
                                              // NTT_DoNBDV_VECTOR_CLIP_E0141 disparity vector clipping in DoNBDV, JCT3V-E0141 and JCT3V-E0209
                                              // SEC_VER_DONBDV_H0103          Vertical DV Restriction for DoNBDV
#endif
#define NH_3D_VSP                          1   // View synthesis prediction
                                              // MERL_C0152: Basic VSP
                                              // MERL_D0166: Reference view selection in NBDV & Bi-VSP
                                              // MTK_D0105, LG_D0139: No VSP for depth
                                              // QC_D0191: Clean up
                                              // LG_D0092: Multiple VSP candidate allowed
                                              // MTK_VSP_FIX_ALIGN_WD_E0172
                                              // NTT_VSP_ADAPTIVE_SPLIT_E0207 adaptive sub-PU partitioning in VSP, JCT3V-E0207
                                              // NTT_VSP_DC_BUGFIX_E0208 bugfix for sub-PU based DC in VSP, JCT3V-E0208
                                              // NTT_VSP_COMMON_E0207_E0208 common part of JCT3V-E0207 and JCT3V-E0208
                                              // MTK_F0109_LG_F0120_VSP_BLOCK MTK_LG_SIMPLIFY_VSP_BLOCK_PARTITION_F0109_F0120  
                                              // SHARP_VSP_BLOCK_IN_AMP_F0102 VSP partitioning for AMP
                                              // MTK_VSP_SIMPLIFICATION_F0111 1. Inherited VSP also use NBDV of current CU, 2. VSP cannot be inherited from above LCU rowss
                                              // LGE_SHARP_VSP_INHERIT_F0104 
                                              // NTT_STORE_SPDV_VSP_G0148 Storing Sub-PU based DV for VSP
                                              // Restricted bi-prediction for VSP
                                              // MTK_MRG_LIST_SIZE_CLEANUP_J0059   1   // Include VSP for deriving merge candidate list size, JCT3V-J0059
                                              // SEC_A1_BASED_VSP_J0039            1   // Removal of redundant VSP in Merge list
#define NH_3D_MLC                          1
#define NH_3D_IV_MERGE                     1  // Inter-view motion merge candidate
                                              // HHI_INTER_VIEW_MOTION_PRED 
                                              // SAIT_IMPROV_MOTION_PRED_M24829, improved inter-view motion vector prediction
                                              // QC_MRG_CANS_B0048             , JCT3V-B0048, B0086, B0069
                                              // OL_DISMV_POS_B0069            , different pos for disparity MV candidate, B0069
                                              // MTK_INTERVIEW_MERGE_A0049     , second part
                                              // QC_AMVP_MRG_UNIFY_IVCAN_C0051     
                                              // QC_INRIA_MTK_MRG_E0126 
                                              // ETRIKHU_MERGE_REUSE_F0093 QC_DEPTH_IV_MRG_F0125, JCT3V-F0125: Depth oriented Inter-view MV candidate
                                              // MTK_NBDV_IVREF_FIX_G0067      , Disable IvMC, VSP when IVREF is not available, JCT3V-G0067
                                              // SEC_DEPTH_DV_DERIVAITON_G0074, Simplification of DV derivation for depth, JCT3V-G0074
                                              // QC_DEPTH_MERGE_SIMP_G0127 Remove DV candidate and shifting candidate for depth coding
                                              // QC_IV_PRED_CONSTRAINT_H0137   Constraint on inter-view (motion) prediction tools
                                              // ETRIKHU_BUGFIX_H0083          bug-fix for DV candidate pruning
                                              // ETRIKHU_CLEANUP_H0083         cleaned-up source code for constructing merging candidate list
                                              // ETRIKHU_CLEANUP_H0083_MISSING missing guard macros added by GT
                                              // SHARP_SIMPLE_MERGE_H0062      Restrict 3D-HEVC merge cand in small PUs
                                              // MTK_DIS_SPBIP8X4_H0205        Disable bi-prediction for 8x4 and 4x8 sub PU and remove the SPIVMP 2Nx2N restriction
                                              // SEC_ADAPT_DISABLE_IVMP        Disabling IVMP merge candidates when IC is enabled, JCT3V-H0070
                                              // SEC_SIMP_SHIFTED_DV_I0086     Simplification of Shifted DV candidate, JCT3V-I0086
                                              // SEC_SHIFTED_IVMC_POS_K0036    Position Derivation for Shifted-IVMC, JCT3V-K0036
#define NH_3D_TEXT_MERGE                  1
                                              // TEXTURE MERGING CANDIDATE     , JCT3V-C0137
                                              // EC_MPI_ENABLING_MERGE_F0150, MPI flag in VPS and enabling in Merge mode
#define NH_3D_TMVP                        1   // QC_TMVP_C0047 
                                              // Sony_M23639
                                              // H_3D_TMVP_SCALING_FIX_K0053       1   // QC/CY for K0053
#define NH_3D_DMM                         1   // Depth modeling modes
                                              // HHI_DMM_PRED_TEX
                                              // HHI_DMM_WEDGE_INTRA
                                              // FIX_WEDGE_NOFLOAT_D0036
                                              // LGE_EDGE_INTRA_A0070
                                              // LGE_DMM3_SIMP_C0044
                                              // QC_DC_PREDICTOR_D0183
                                              // LGE_CONCATENATE_D0141
                                              // PKU_QC_DEPTH_INTRA_UNI_D0195
                                              // SEC_DMM2_E0146_HHIFIX Removal of DMM2 from DMMs
                                              // ZJU_DEPTH_INTRA_MODE_E0204 Simplified Binarization for depth_intra_mode
                                              // SCU_HS_DMM4_REMOVE_DIV_E0242 DMM4 Division Removal
                                              // LGE_PKU_DMM3_OVERLAP_E0159_HHIFIX 1   Removal of overlap between DMM3 and DMM1
                                              // SEC_DMM3_RBC_F0147 Removal of DMM3 and RBC from DMMs
                                              // HHI_DIM_PREDSAMP_FIX_F0171
                                              // QC_DIM_DELTADC_UNIFY_F0132 Unify delta DC coding in depth intra modes
                                              // LGE_SIMP_DIM_NOT_PRESENT_FLAG_CODING_H0119_H0135  Use only one context for CABAC of dim_not_present_flag
                                              // QC_SIMP_DELTADC_CODING_H0131   Simplify detaDC entropy coding 
                                              // MTK_DMM_SIMP_CODE_H0092        Remove CABAC context for DMM1 mode coding
                                              // MTK_DELTA_DC_FLAG_ONE_CONTEXT_H0084_H0100_H0113 Use only one context for CABAC of delta_dc_flag as in JCTVC-H0084, JCTVC-H0100 and JCTVC-H0113
                                              // HS_DMM_SIGNALLING_I0120
                                              // SHARP_DMM1_I0110 LUT size reduction for DMM1 proposed in JCT3V-I0110 
                                              // MTK_DMM_SIM_J0035
                                              // SHARP_DMM_CLEAN_K0042             1   // Generate DMM pattern with rotation 
#define NH_3D_DLT                         1   // Depth Lookup Table
                                              // HHI_DELTADC_DLT_D0035
                                              // LGE_PRED_RES_CODING_DLT_DOMAIN_F0159 JCT3V-F0159
                                              // SEC_NO_RESI_DLT_H0105    
                                              // MTK_DLT_CODING_FIX_H0091 
                                              // H_3D_DELTA_DLT
                                              // RWTH_DLT_CLIP_I0057
                                              // SHARP_DLT_SIMP_J0029 DLT(DepthValue2Idx[]) table derivation cleanup  
#define NH_3D_SDC_INTRA                   1   // Segment-wise DC Coding method for INTRA
#define NH_3D_SDC_INTER                   1   // Segment-wise DC Coding method for INTER  
                                              // RWTH_SDC_DLT_B0036
                                              // INTEL_SDC64_D0193
                                              // RWTH_SDC_CTX_SIMPL_D0032
                                              // FIX_SDC_ENC_RD_WVSO_D0163
                                              // MTK_SAMPLE_BASED_SDC_D0110
                                              // KWU_SDC_SIMPLE_DC_E0117 Simplified DC calculation for SDC
                                              // LGE_SDC_REMOVE_DC_E0158 Removal of DC mode from SDC
                                              // Unify intra SDC and inter SDC
                                              // QC_GENERIC_SDC_G0122 Generalize SDC to all depth intra modes
                                              // SCU_HS_DEPTH_DC_PRED_G0143
                                              // HS_TSINGHUA_SDC_SPLIT_G0111
                                              // QC_PKU_SDC_SPLIT_G0123 Intra SDC Split
                                              // HS_DMM_SDC_PREDICTOR_UNIFY_H0108  Unification of DMM and SDC predictor derivation
                                              // MTK_SDC_FLAG_FIX_H0095                          Remove conditional check of PCM flag based on SDC flag, JCTVC-H0095
                                              // FAST_SDC_OFFSET_DECISION_I0084
                                              // SEPARATE_FLAG_I0085
                                              // MTK_J0033
                                              // LGE_INTER_SDC_E0156 Enable inter SDC for depth coding
                                              // SEC_INTER_SDC_G0101 Improved inter SDC with multiple DC candidates
#define NH_3D_SPIVMP                       1   // H_3D_SPIVMP JCT3V-F0110: Sub-PU level inter-view motion prediction
                                              // SEC_SPIVMP_MCP_SIZE_G0077, Apply SPIVMP only to 2Nx2N partition, JCT3V-G0077
                                              // QC_SPIVMP_MPI_G0119 Sub-PU level MPI merge candidate
                                              // Simplification on Sub-PU level temporal interview motion prediction
                                              // MPI_SUBPU_DEFAULT_MV_H0077_H0099_H0111_H0133
#define NH_3D_DBBP                         1   // DBBP: Depth-based Block Partitioning and Merging
                                              // MTK_DBBP_AMP_REM_H0072   
                                              // RWTH_DBBP_NO_SPU_H0057   
                                              // SEC_DBBP_FILTERING_H0104 
                                              // MTK_DBBP_SIGNALING_H0094    
                                              // H_3D_FIX_DBBP_IVMP Fix . Enable IVMP is always disabled, when DBBP is enabled. The original intention is to disable Sub-PU IVMP when DBBP is enabled, not to disable IVMP itself. 
                                              // SEC_DBBP_EXPLICIT_SIG_I0077 Remove the partition derivation and signal dbbp_flag only when the partition mode is 2NxN/Nx2N, JCT3V-I0077
                                              // Disallow DBBP in 8x8 CU, JCT3V-I0078
                                              // SHARP_DBBP_SIMPLE_FLTER_I0109 Simple condition and one dimensional filter for DBBP
                                              // SEC_DBBP_DMM4_THRESHOLD_I0076 Simplification of threshold derivation for DBBP and DMM4, JCT3V-I0076
                                              // SEC_DBBP_VIEW_REF_CHECK_J0037 Signaling dbbp_flag when the current slice has view reference picture(s), JCT3V-J0037 item4
                                              // RWTH_DBBP_NO_SATD_K0028
                                              // HS_DBBP_CLEAN_K0048
#define NH_3D_DIS                         1   // Depth intra skip 
                                              // SEC_DEPTH_INTRA_SKIP_MODE_K0033  Depth intra skip mode
#define H_3D_FCO                          0   // Flexible coding order for 3D
// OTHERS
                                              // MTK_SONY_PROGRESSIVE_MV_COMPRESSION_E0170 // Progressive MV Compression, JCT3V-E0170
                                              // MTK_FAST_TEXTURE_ENCODING_E0173
//HLS
                                             // HHI_DEPENDENCY_SIGNALLING_I1_J0107
                                             // HHI_TOOL_PARAMETERS_I2_J0107
                                             // HHI_VPS_3D_EXTENSION_I3_J0107
                                             // HHI_INTER_COMP_PRED_K0052
                                             // HHI_RES_PRED_K0052       
                                             // HHI_CAM_PARA_K0052       
                                             // H_3D_DIRECT_DEP_TYPE     
// Rate Control
#define KWU_FIX_URQ                       0
#define KWU_RC_VIEWRC_E0227               0  ///< JCT3V-E0227, view-wise target bitrate allocation
#define KWU_RC_MADPRED_E0227              0  ///< JCT3V-E0227, inter-view MAD prediction
#endif // NH_3D
/////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////   DERIVED DEFINES ///////////////////////////////////  
/////////////////////////////////////////////////////////////////////////////////////////
#if NH_3D
#define H_3D_OUTPUT_ACTIVE_TOOLS               0
#define H_3D_REN_MAX_DEV_OUT                   0
#endif
///// ***** VIEW SYNTHESIS OPTIMIZAION *********
#if NH_3D_VSO                                  
#define H_3D_VSO_DIST_INT                 1   // Allow negative synthesized view distortion change
#define H_3D_VSO_COLOR_PLANES             1   // Compute VSO distortion on color planes 
#define H_3D_VSO_EARLY_SKIP               1   // LGE_VSO_EARLY_SKIP_A0093, A0093 modification 4
#define H_3D_VSO_RM_ASSERTIONS            0   // Output VSO assertions
#define H_3D_VSO_SYNTH_DIST_OUT           0   // Output of synthesized view distortion instead of depth distortion in encoder output
#endif
////   ****** NEIGHBOURING BLOCK-BASED DISPARITY VECTOR  *********
#if NH_3D_NBDV
#define DVFROM_LEFT                       0
#define DVFROM_ABOVE                      1
#define IDV_CANDS                         2
#endif
///// ***** ADVANCED INTERVIEW RESIDUAL PREDICTION *********
#if NH_3D_ARP
#define H_3D_ARP_WFNR                     3
#endif
/////////////////////////////////////////////////////////////////////////////////////
/// GT: Move values which are not flags to CommonDef.h and convert to static int !!
///////////////////////////////////////////////////////////////////////////////////
///// ***** ILLUMATION COMPENSATION *********
#if NH_3D_IC
#define IC_REG_COST_SHIFT                 7
#define IC_CONST_SHIFT                    5
#define IC_SHIFT_DIFF                     12
#define IC_LOW_LATENCY_ENCODING_THRESHOLD 0.1 // Threshold for low-latency IC encoding in JCT3V-H0086
#endif
///// ***** DEPTH BASED BLOCK PARTITIONING *********
#if NH_3D_DBBP
#define DBBP_INVALID_SHORT                (-4)
#define DBBP_PACK_MODE               SIZE_2NxN
#endif
///// ***** FCO *********
#if H_3D_FCO
#define H_3D_FCO_VSP_DONBDV_E0163               1   // Adaptive depth reference for flexible coding order
#else
#define H_3D_FCO_VSP_DONBDV_E0163               0   // Adaptive depth reference for flexible coding order
#endif
#if H_3D
#define PPS_FIX_DEPTH                           1
#endif
/////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////   MV_HEVC HLS  //////////////////////////////
/////////////////////////////////////////////////////////////////////////////////
// TBD: Check if integration is necessary. 
#define H_MV_HLS_PTL_LIMITS                  0
/////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////   HM RELATED DEFINES ////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////////////
#endif
// ====================================================================================================================
// Debugging
// ====================================================================================================================
#define DEBUG_STRING                                      0 ///< When enabled, prints out final decision debug info at encoder and decoder
#define DEBUG_ENCODER_SEARCH_BINS                         0 ///< When enabled, prints out each bin as it is coded during encoder search
#define DEBUG_CABAC_BINS                                  0 ///< When enabled, prints out each bin as it is coded during final encode and decode
#define DEBUG_INTRA_SEARCH_COSTS                          0 ///< When enabled, prints out the cost for each mode during encoder search
#define DEBUG_TRANSFORM_AND_QUANTISE                      0 ///< When enabled, prints out each TU as it passes through the transform-quantise-dequantise-inverseTransform process
#define ENVIRONMENT_VARIABLE_DEBUG_AND_TEST               0 ///< When enabled, allows control of debug modifications via environment variables
#define PRINT_MACRO_VALUES                                1 ///< When enabled, the encoder prints out a list of the non-environment-variable controlled macros and their values on startup
// TODO: rename this macro to DECODER_DEBUG_BIT_STATISTICS (may currently cause merge issues with other branches)
// This can be enabled by the makefile
#ifndef RExt__DECODER_DEBUG_BIT_STATISTICS
#define RExt__DECODER_DEBUG_BIT_STATISTICS                0 ///< 0 (default) = decoder reports as normal, 1 = decoder produces bit usage statistics (will impact decoder run time by up to ~10%)
#endif
// This can be enabled by the makefile
#if !NH_MV
#ifndef ENC_DEC_TRACE
#define ENC_DEC_TRACE                                     0
#endif
#endif
#define DEC_NUH_TRACE                                     0 ///< When trace enabled, enable tracing of NAL unit headers at the decoder (currently not possible at the encoder)
#define PRINT_RPS_INFO                                    0 ///< Enable/disable the printing of bits used to send the RPS.
// ====================================================================================================================
// Tool Switches - transitory (these macros are likely to be removed in future revisions)
// ====================================================================================================================
#define DECODER_CHECK_SUBSTREAM_AND_SLICE_TRAILING_BYTES  1 ///< TODO: integrate this macro into a broader conformance checking system.
#define T0196_SELECTIVE_RDOQ                              1 ///< selective RDOQ
// ====================================================================================================================
// Tool Switches
// ====================================================================================================================
#define ADAPTIVE_QP_SELECTION                             1 ///< G382: Adaptive reconstruction levels, non-normative part for adaptive QP selection
#define AMP_ENC_SPEEDUP                                   1 ///< encoder only speed-up by AMP mode skipping
#if AMP_ENC_SPEEDUP
#define AMP_MRG                                           1 ///< encoder only force merge for AMP partition (no motion search for AMP)
#endif
#define FAST_BIT_EST                                      1   ///< G763: Table-based bit estimation for CABAC
#define HHI_RQT_INTRA_SPEEDUP                             1           ///< tests one best mode with full rqt
#define HHI_RQT_INTRA_SPEEDUP_MOD                         0           ///< tests two best modes with full rqt
#if HHI_RQT_INTRA_SPEEDUP_MOD && !HHI_RQT_INTRA_SPEEDUP
#error
#endif
#define MATRIX_MULT                                       0 ///< Brute force matrix multiplication instead of partial butterfly
#define O0043_BEST_EFFORT_DECODING                        0 ///< 0 (default) = disable code related to best effort decoding, 1 = enable code relating to best effort decoding [ decode-side only ].
#define RDOQ_CHROMA_LAMBDA                                1 ///< F386: weighting of chroma for RDOQ
// This can be enabled by the makefile
#ifndef RExt__HIGH_BIT_DEPTH_SUPPORT
#define RExt__HIGH_BIT_DEPTH_SUPPORT                                           0 ///< 0 (default) use data type definitions for 8-10 bit video, 1 = use larger data types to allow for up to 16-bit video (originally developed as part of N0188)
#endif
// ====================================================================================================================
// Derived macros
// ====================================================================================================================
#if RExt__HIGH_BIT_DEPTH_SUPPORT
#define FULL_NBIT                                                              1 ///< When enabled, use distortion measure derived from all bits of source data, otherwise discard (bitDepth - 8) least-significant bits of distortion
#define RExt__HIGH_PRECISION_FORWARD_TRANSFORM                                 1 ///< 0 use original 6-bit transform matrices for both forward and inverse transform, 1 (default) = use original matrices for inverse transform and high precision matrices for forward transform
#else
#define FULL_NBIT                                                              0 ///< When enabled, use distortion measure derived from all bits of source data, otherwise discard (bitDepth - 8) least-significant bits of distortion
#define RExt__HIGH_PRECISION_FORWARD_TRANSFORM                                 0 ///< 0 (default) use original 6-bit transform matrices for both forward and inverse transform, 1 = use original matrices for inverse transform and high precision matrices for forward transform
#endif
#if FULL_NBIT
# define DISTORTION_PRECISION_ADJUSTMENT(x)  0
#else
# define DISTORTION_PRECISION_ADJUSTMENT(x) (x)
#endif
#if DEBUG_STRING
  #define DEBUG_STRING_PASS_INTO(name) , name
  #define DEBUG_STRING_PASS_INTO_OPTIONAL(name, exp) , (exp==0)?0:name
  #define DEBUG_STRING_FN_DECLARE(name) , std::string &name
  #define DEBUG_STRING_FN_DECLAREP(name) , std::string *name
  #define DEBUG_STRING_NEW(name) std::string name;
  #define DEBUG_STRING_OUTPUT(os, name) os << name;
  #define DEBUG_STRING_APPEND(str1, str2) str1+=str2;
  #define DEBUG_STRING_SWAP(str1, str2) str1.swap(str2);
  #define DEBUG_STRING_CHANNEL_CONDITION(compID) (true)
  #include <sstream>
  #include <iomanip>
#else
  #define DEBUG_STRING_PASS_INTO(name)
  #define DEBUG_STRING_PASS_INTO_OPTIONAL(name, exp)
  #define DEBUG_STRING_FN_DECLARE(name)
  #define DEBUG_STRING_FN_DECLAREP(name)
  #define DEBUG_STRING_NEW(name)
  #define DEBUG_STRING_OUTPUT(os, name)
  #define DEBUG_STRING_APPEND(str1, str2)
  #define DEBUG_STRING_SWAP(srt1, str2)
  #define DEBUG_STRING_CHANNEL_CONDITION(compID)
#endif
// ====================================================================================================================
// Error checks
// ====================================================================================================================
#if ((RExt__HIGH_PRECISION_FORWARD_TRANSFORM != 0) && (RExt__HIGH_BIT_DEPTH_SUPPORT == 0))
#error ERROR: cannot enable RExt__HIGH_PRECISION_FORWARD_TRANSFORM without RExt__HIGH_BIT_DEPTH_SUPPORT
#endif
// ====================================================================================================================
// Basic type redefinition
// ====================================================================================================================
typedef       void                Void;
typedef       bool                Bool;
#ifdef __arm__
typedef       signed char         Char;
#else
typedef       char                Char;
#endif
typedef       unsigned char       UChar;
typedef       short               Short;
typedef       unsigned short      UShort;
typedef       int                 Int;
typedef       unsigned int        UInt;
typedef       double              Double;
typedef       float               Float;
// ====================================================================================================================
// 64-bit integer type
// ====================================================================================================================
#ifdef _MSC_VER
typedef       __int64             Int64;
#if _MSC_VER <= 1200 // MS VC6
typedef       __int64             UInt64;   // MS VC6 does not support unsigned __int64 to double conversion
#else
typedef       unsigned __int64    UInt64;
#endif
#else
typedef       long long           Int64;
typedef       unsigned long long  UInt64;
#endif
// ====================================================================================================================
// Named numerical types
// ====================================================================================================================
#if RExt__HIGH_BIT_DEPTH_SUPPORT
typedef       Int             Pel;               ///< pixel type
typedef       Int64           TCoeff;            ///< transform coefficient
typedef       Int             TMatrixCoeff;      ///< transform matrix coefficient
typedef       Short           TFilterCoeff;      ///< filter coefficient
typedef       Int64           Intermediate_Int;  ///< used as intermediate value in calculations
typedef       UInt64          Intermediate_UInt; ///< used as intermediate value in calculations
#else
typedef       Short           Pel;               ///< pixel type
typedef       Int             TCoeff;            ///< transform coefficient
typedef       Short           TMatrixCoeff;      ///< transform matrix coefficient
typedef       Short           TFilterCoeff;      ///< filter coefficient
typedef       Int             Intermediate_Int;  ///< used as intermediate value in calculations
typedef       UInt            Intermediate_UInt; ///< used as intermediate value in calculations
#endif
#if FULL_NBIT
typedef       UInt64          Distortion;        ///< distortion measurement
#else
typedef       UInt            Distortion;        ///< distortion measurement
#endif
#if NH_MV                         
typedef std::vector< Int >        IntAry1d;
typedef std::vector< IntAry1d >   IntAry2d; 
typedef std::vector< IntAry2d >   IntAry3d; 
typedef std::vector< IntAry3d >   IntAry4d; 
typedef std::vector< IntAry4d >   IntAry5d; 
typedef std::vector< Bool >        BoolAry1d;
typedef std::vector< BoolAry1d >   BoolAry2d; 
typedef std::vector< BoolAry2d >   BoolAry3d; 
typedef std::vector< BoolAry3d >   BoolAry4d; 
typedef std::vector< BoolAry4d >   BoolAry5d; 
#endif
#if NH_3D_VSO
// ====================================================================================================================
// Define Distortion Types
// ====================================================================================================================
typedef       Int64           RMDist;     ///< renderer model distortion
#if H_3D_VSO_DIST_INT
typedef       Int64            Dist;       ///< RDO distortion
typedef       Int64            Dist64; 
#define       RDO_DIST_MIN     MIN_INT
#define       RDO_DIST_MAX     MAX_INT
#else
typedef       UInt             Dist;       ///< RDO distortion
typedef       UInt64           Dist; 
#define       RDO_DIST_MIN     0
#define       RDO_DIST_MAX     MAX_UINT
#endif
#endif
// ====================================================================================================================
// Enumeration
// ====================================================================================================================
enum RDPCMMode
{
  RDPCM_OFF             = 0,
  RDPCM_HOR             = 1,
  RDPCM_VER             = 2,
  NUMBER_OF_RDPCM_MODES = 3
};
enum RDPCMSignallingMode
{
  RDPCM_SIGNAL_IMPLICIT            = 0,
  RDPCM_SIGNAL_EXPLICIT            = 1,
  NUMBER_OF_RDPCM_SIGNALLING_MODES = 2
};
/// supported slice type
enum SliceType
{
  B_SLICE               = 0,
  P_SLICE               = 1,
  I_SLICE               = 2,
  NUMBER_OF_SLICE_TYPES = 3
};
/// chroma formats (according to semantics of chroma_format_idc)
enum ChromaFormat
{
  CHROMA_400        = 0,
  CHROMA_420        = 1,
  CHROMA_422        = 2,
  CHROMA_444        = 3,
  NUM_CHROMA_FORMAT = 4
};
enum ChannelType
{
  CHANNEL_TYPE_LUMA    = 0,
  CHANNEL_TYPE_CHROMA  = 1,
  MAX_NUM_CHANNEL_TYPE = 2
};
enum ComponentID
{
  COMPONENT_Y       = 0,
  COMPONENT_Cb      = 1,
  COMPONENT_Cr      = 2,
  MAX_NUM_COMPONENT = 3
};
enum InputColourSpaceConversion // defined in terms of conversion prior to input of encoder.
{
  IPCOLOURSPACE_UNCHANGED               = 0,
  IPCOLOURSPACE_YCbCrtoYCrCb            = 1, // Mainly used for debug!
  IPCOLOURSPACE_YCbCrtoYYY              = 2, // Mainly used for debug!
  IPCOLOURSPACE_RGBtoGBR                = 3,
  NUMBER_INPUT_COLOUR_SPACE_CONVERSIONS = 4
};
enum DeblockEdgeDir
{
  EDGE_VER     = 0,
  EDGE_HOR     = 1,
  NUM_EDGE_DIR = 2
};
/// supported partition shape
enum PartSize
{
  SIZE_2Nx2N           = 0,           ///< symmetric motion partition,  2Nx2N
  SIZE_2NxN            = 1,           ///< symmetric motion partition,  2Nx N
  SIZE_Nx2N            = 2,           ///< symmetric motion partition,   Nx2N
  SIZE_NxN             = 3,           ///< symmetric motion partition,   Nx N
  SIZE_2NxnU           = 4,           ///< asymmetric motion partition, 2Nx( N/2) + 2Nx(3N/2)
  SIZE_2NxnD           = 5,           ///< asymmetric motion partition, 2Nx(3N/2) + 2Nx( N/2)
  SIZE_nLx2N           = 6,           ///< asymmetric motion partition, ( N/2)x2N + (3N/2)x2N
  SIZE_nRx2N           = 7,           ///< asymmetric motion partition, (3N/2)x2N + ( N/2)x2N
  NUMBER_OF_PART_SIZES = 8
};
/// supported prediction type
enum PredMode
{
  MODE_INTER                 = 0,     ///< inter-prediction mode
  MODE_INTRA                 = 1,     ///< intra-prediction mode
  NUMBER_OF_PREDICTION_MODES = 2,
};
/// reference list index
enum RefPicList
{
  REF_PIC_LIST_0               = 0,   ///< reference list 0
  REF_PIC_LIST_1               = 1,   ///< reference list 1
  NUM_REF_PIC_LIST_01          = 2,
  REF_PIC_LIST_X               = 100  ///< special mark
};
/// distortion function index
enum DFunc
{
  DF_DEFAULT         = 0,
  DF_SSE             = 1,      ///< general size SSE
  DF_SSE4            = 2,      ///<   4xM SSE
  DF_SSE8            = 3,      ///<   8xM SSE
  DF_SSE16           = 4,      ///<  16xM SSE
  DF_SSE32           = 5,      ///<  32xM SSE
  DF_SSE64           = 6,      ///<  64xM SSE
  DF_SSE16N          = 7,      ///< 16NxM SSE
  DF_SAD             = 8,      ///< general size SAD
  DF_SAD4            = 9,      ///<   4xM SAD
  DF_SAD8            = 10,     ///<   8xM SAD
  DF_SAD16           = 11,     ///<  16xM SAD
  DF_SAD32           = 12,     ///<  32xM SAD
  DF_SAD64           = 13,     ///<  64xM SAD
  DF_SAD16N          = 14,     ///< 16NxM SAD
  DF_SADS            = 15,     ///< general size SAD with step
  DF_SADS4           = 16,     ///<   4xM SAD with step
  DF_SADS8           = 17,     ///<   8xM SAD with step
  DF_SADS16          = 18,     ///<  16xM SAD with step
  DF_SADS32          = 19,     ///<  32xM SAD with step
  DF_SADS64          = 20,     ///<  64xM SAD with step
  DF_SADS16N         = 21,     ///< 16NxM SAD with step
  DF_HADS            = 22,     ///< general size Hadamard with step
  DF_HADS4           = 23,     ///<   4xM HAD with step
  DF_HADS8           = 24,     ///<   8xM HAD with step
  DF_HADS16          = 25,     ///<  16xM HAD with step
  DF_HADS32          = 26,     ///<  32xM HAD with step
  DF_HADS64          = 27,     ///<  64xM HAD with step
  DF_HADS16N         = 28,     ///< 16NxM HAD with step
#if NH_3D_VSO
  DF_VSD      = 29,      ///< general size VSD
  DF_VSD4     = 30,      ///<   4xM VSD
  DF_VSD8     = 31,      ///<   8xM VSD
  DF_VSD16    = 32,      ///<  16xM VSD
  DF_VSD32    = 33,      ///<  32xM VSD
  DF_VSD64    = 34,      ///<  64xM VSD
  DF_VSD16N   = 35,      ///< 16NxM VSD
#endif
  DF_SAD12           = 43,
  DF_SAD24           = 44,
  DF_SAD48           = 45,
  DF_SADS12          = 46,
  DF_SADS24          = 47,
  DF_SADS48          = 48,
  DF_SSE_FRAME       = 50,     ///< Frame-based SSE
  DF_TOTAL_FUNCTIONS = 64
};
/// index for SBAC based RD optimization
enum CI_IDX
{
  CI_CURR_BEST = 0,     ///< best mode index
  CI_NEXT_BEST,         ///< next best index
  CI_TEMP_BEST,         ///< temporal index
  CI_CHROMA_INTRA,      ///< chroma intra index
  CI_QT_TRAFO_TEST,
  CI_QT_TRAFO_ROOT,
  CI_NUM,               ///< total number
};
/// motion vector predictor direction used in AMVP
enum MVP_DIR
{
  MD_LEFT = 0,          ///< MVP of left block
  MD_ABOVE,             ///< MVP of above block
  MD_ABOVE_RIGHT,       ///< MVP of above right block
  MD_BELOW_LEFT,        ///< MVP of below left block
  MD_ABOVE_LEFT         ///< MVP of above left block
};
#if NH_3D_MLC
enum DefaultMergCandOrder
{
  MRG_T = 0,            ///< MPI
  MRG_D,                ///< DDD
  MRG_IVMC,             ///< Temporal inter-view
  MRG_A1,               ///< Left
  MRG_B1,               ///< Above
  MRG_VSP,              ///< VSP
  MRG_B0,               ///< Above right
  MRG_IVDC,             ///< Disparity inter-view
  MRG_A0,               ///< Left bottom
  MRG_B2,               ///< Above left
  MRG_IVSHIFT,          ///< Shifted IVMC or Shifted IVDC. (These are mutually exclusive)
  MRG_COL               ///< Temporal co-located
};
#endif
enum StoredResidualType
{
  RESIDUAL_RECONSTRUCTED          = 0,
  RESIDUAL_ENCODER_SIDE           = 1,
  NUMBER_OF_STORED_RESIDUAL_TYPES = 2
};
enum TransformDirection
{
  TRANSFORM_FORWARD              = 0,
  TRANSFORM_INVERSE              = 1,
  TRANSFORM_NUMBER_OF_DIRECTIONS = 2
};
/// supported ME search methods
enum MESearchMethod
{
  FULL_SEARCH                = 0,     ///< Full search
  DIAMOND                    = 1,     ///< Fast search
  SELECTIVE                  = 2      ///< Selective search
};
/// coefficient scanning type used in ACS
enum COEFF_SCAN_TYPE
{
  SCAN_DIAG = 0,        ///< up-right diagonal scan
  SCAN_HOR  = 1,        ///< horizontal first scan
  SCAN_VER  = 2,        ///< vertical first scan
  SCAN_NUMBER_OF_TYPES = 3
};
enum COEFF_SCAN_GROUP_TYPE
{
  SCAN_UNGROUPED   = 0,
  SCAN_GROUPED_4x4 = 1,
  SCAN_NUMBER_OF_GROUP_TYPES = 2
};
enum SignificanceMapContextType
{
  CONTEXT_TYPE_4x4    = 0,
  CONTEXT_TYPE_8x8    = 1,
  CONTEXT_TYPE_NxN    = 2,
  CONTEXT_TYPE_SINGLE = 3,
  CONTEXT_NUMBER_OF_TYPES = 4
};
enum ScalingListMode
{
  SCALING_LIST_OFF,
  SCALING_LIST_DEFAULT,
  SCALING_LIST_FILE_READ
};
enum ScalingListSize
{
  SCALING_LIST_4x4 = 0,
  SCALING_LIST_8x8,
  SCALING_LIST_16x16,
  SCALING_LIST_32x32,
  SCALING_LIST_SIZE_NUM
};
// Slice / Slice segment encoding modes
enum SliceConstraint
{
  NO_SLICES              = 0,          ///< don't use slices / slice segments
  FIXED_NUMBER_OF_CTU    = 1,          ///< Limit maximum number of largest coding tree units in a slice / slice segments
  FIXED_NUMBER_OF_BYTES  = 2,          ///< Limit maximum number of bytes in a slice / slice segment
  FIXED_NUMBER_OF_TILES  = 3,          ///< slices / slice segments span an integer number of tiles
};
enum SAOMode //mode
{
  SAO_MODE_OFF = 0,
  SAO_MODE_NEW,
  SAO_MODE_MERGE,
  NUM_SAO_MODES
};
enum SAOModeMergeTypes
{
  SAO_MERGE_LEFT =0,
  SAO_MERGE_ABOVE,
  NUM_SAO_MERGE_TYPES
};
enum SAOModeNewTypes
{
  SAO_TYPE_START_EO =0,
  SAO_TYPE_EO_0 = SAO_TYPE_START_EO,
  SAO_TYPE_EO_90,
  SAO_TYPE_EO_135,
  SAO_TYPE_EO_45,
  SAO_TYPE_START_BO,
  SAO_TYPE_BO = SAO_TYPE_START_BO,
  NUM_SAO_NEW_TYPES
};
#define NUM_SAO_EO_TYPES_LOG2 2
enum SAOEOClasses
{
  SAO_CLASS_EO_FULL_VALLEY = 0,
  SAO_CLASS_EO_HALF_VALLEY = 1,
  SAO_CLASS_EO_PLAIN       = 2,
  SAO_CLASS_EO_HALF_PEAK   = 3,
  SAO_CLASS_EO_FULL_PEAK   = 4,
  NUM_SAO_EO_CLASSES,
};
#define NUM_SAO_BO_CLASSES_LOG2  5
#define NUM_SAO_BO_CLASSES       (1<<NUM_SAO_BO_CLASSES_LOG2)
#if NH_MV
enum DecodingProcess
{
  INVALID,
  CLAUSE_8,
  ANNEX_C,
  ANNEX_F,
  ANNEX_G,
  ANNEX_H,
  ANNEX_I  
};
#endif
namespace Profile
{
  enum Name
  {
    NONE = 0,
    MAIN = 1,
    MAIN10 = 2,
    MAINSTILLPICTURE = 3,
    MAINREXT = 4,
    HIGHTHROUGHPUTREXT = 5
#if NH_MV
    ,MULTIVIEWMAIN = 6,
#if NH_3D
    MAIN3D = 8, 
#endif
#endif
  };
}
namespace Level
{
  enum Tier
  {
    MAIN = 0,
    HIGH = 1,
  };
  enum Name
  {
    // code = (level * 30)
    NONE     = 0,
    LEVEL1   = 30,
    LEVEL2   = 60,
    LEVEL2_1 = 63,
    LEVEL3   = 90,
    LEVEL3_1 = 93,
    LEVEL4   = 120,
    LEVEL4_1 = 123,
    LEVEL5   = 150,
    LEVEL5_1 = 153,
    LEVEL5_2 = 156,
    LEVEL6   = 180,
    LEVEL6_1 = 183,
    LEVEL6_2 = 186,
    LEVEL8_5 = 255,
  };
}
enum CostMode
{
  COST_STANDARD_LOSSY              = 0,
  COST_SEQUENCE_LEVEL_LOSSLESS     = 1,
  COST_LOSSLESS_CODING             = 2,
  COST_MIXED_LOSSLESS_LOSSY_CODING = 3
};
enum SPSExtensionFlagIndex
{
  SPS_EXT__REXT           = 0,
//SPS_EXT__MVHEVC         = 1, //for use in future versions
//SPS_EXT__SHVC           = 2, //for use in future versions
  NUM_SPS_EXTENSION_FLAGS = 8
};
enum PPSExtensionFlagIndex
{
  PPS_EXT__REXT           = 0,
//PPS_EXT__MVHEVC         = 1, //for use in future versions
//PPS_EXT__SHVC           = 2, //for use in future versions
  NUM_PPS_EXTENSION_FLAGS = 8
};
// TODO: Existing names used for the different NAL unit types can be altered to better reflect the names in the spec.
//       However, the names in the spec are not yet stable at this point. Once the names are stable, a cleanup
//       effort can be done without use of macros to alter the names used to indicate the different NAL unit types.
enum NalUnitType
{
  NAL_UNIT_CODED_SLICE_TRAIL_N = 0, // 0
  NAL_UNIT_CODED_SLICE_TRAIL_R,     // 1
  NAL_UNIT_CODED_SLICE_TSA_N,       // 2
  NAL_UNIT_CODED_SLICE_TSA_R,       // 3
  NAL_UNIT_CODED_SLICE_STSA_N,      // 4
  NAL_UNIT_CODED_SLICE_STSA_R,      // 5
  NAL_UNIT_CODED_SLICE_RADL_N,      // 6
  NAL_UNIT_CODED_SLICE_RADL_R,      // 7
  NAL_UNIT_CODED_SLICE_RASL_N,      // 8
  NAL_UNIT_CODED_SLICE_RASL_R,      // 9
  NAL_UNIT_RESERVED_VCL_N10,
  NAL_UNIT_RESERVED_VCL_R11,
  NAL_UNIT_RESERVED_VCL_N12,
  NAL_UNIT_RESERVED_VCL_R13,
  NAL_UNIT_RESERVED_VCL_N14,
  NAL_UNIT_RESERVED_VCL_R15,
  NAL_UNIT_CODED_SLICE_BLA_W_LP,    // 16
  NAL_UNIT_CODED_SLICE_BLA_W_RADL,  // 17
  NAL_UNIT_CODED_SLICE_BLA_N_LP,    // 18
  NAL_UNIT_CODED_SLICE_IDR_W_RADL,  // 19
  NAL_UNIT_CODED_SLICE_IDR_N_LP,    // 20
  NAL_UNIT_CODED_SLICE_CRA,         // 21
  NAL_UNIT_RESERVED_IRAP_VCL22,
  NAL_UNIT_RESERVED_IRAP_VCL23,
  NAL_UNIT_RESERVED_VCL24,
  NAL_UNIT_RESERVED_VCL25,
  NAL_UNIT_RESERVED_VCL26,
  NAL_UNIT_RESERVED_VCL27,
  NAL_UNIT_RESERVED_VCL28,
  NAL_UNIT_RESERVED_VCL29,
  NAL_UNIT_RESERVED_VCL30,
  NAL_UNIT_RESERVED_VCL31,
  NAL_UNIT_VPS,                     // 32
  NAL_UNIT_SPS,                     // 33
  NAL_UNIT_PPS,                     // 34
  NAL_UNIT_ACCESS_UNIT_DELIMITER,   // 35
  NAL_UNIT_EOS,                     // 36
  NAL_UNIT_EOB,                     // 37
  NAL_UNIT_FILLER_DATA,             // 38
  NAL_UNIT_PREFIX_SEI,              // 39
  NAL_UNIT_SUFFIX_SEI,              // 40
  NAL_UNIT_RESERVED_NVCL41,
  NAL_UNIT_RESERVED_NVCL42,
  NAL_UNIT_RESERVED_NVCL43,
  NAL_UNIT_RESERVED_NVCL44,
  NAL_UNIT_RESERVED_NVCL45,
  NAL_UNIT_RESERVED_NVCL46,
  NAL_UNIT_RESERVED_NVCL47,
  NAL_UNIT_UNSPECIFIED_48,
  NAL_UNIT_UNSPECIFIED_49,
  NAL_UNIT_UNSPECIFIED_50,
  NAL_UNIT_UNSPECIFIED_51,
  NAL_UNIT_UNSPECIFIED_52,
  NAL_UNIT_UNSPECIFIED_53,
  NAL_UNIT_UNSPECIFIED_54,
  NAL_UNIT_UNSPECIFIED_55,
  NAL_UNIT_UNSPECIFIED_56,
  NAL_UNIT_UNSPECIFIED_57,
  NAL_UNIT_UNSPECIFIED_58,
  NAL_UNIT_UNSPECIFIED_59,
  NAL_UNIT_UNSPECIFIED_60,
  NAL_UNIT_UNSPECIFIED_61,
  NAL_UNIT_UNSPECIFIED_62,
  NAL_UNIT_UNSPECIFIED_63,
  NAL_UNIT_INVALID,
};
#if NH_MV
/// scalability types
enum ScalabilityType
{
  DEPTH_ID = 0,    
  VIEW_ORDER_INDEX  = 1,
  DEPENDENCY_ID = 2,
  AUX_ID = 3,
};
enum DecProcPart
{
  START_PIC,
  FINALIZE_PIC
};
#endif
#if NH_3D
// Renderer
enum BlenMod
{
  BLEND_NONE  = -1,
  BLEND_AVRG  = 0,
  BLEND_LEFT  = 1,
  BLEND_RIGHT = 2,
  BLEND_GEN   =  3
};
enum
{
  VIEWPOS_INVALID = -1,
  VIEWPOS_LEFT    = 0,
  VIEWPOS_RIGHT   = 1,
  VIEWPOS_MERGED  = 2
};
#endif
// ====================================================================================================================
// Type definition
// ====================================================================================================================
/// parameters for adaptive loop filter
class TComPicSym;
#define MAX_NUM_SAO_CLASSES  32  //(NUM_SAO_EO_GROUPS > NUM_SAO_BO_GROUPS)?NUM_SAO_EO_GROUPS:NUM_SAO_BO_GROUPS
struct SAOOffset
{
  SAOMode modeIdc; // NEW, MERGE, OFF
  Int typeIdc;     // union of SAOModeMergeTypes and SAOModeNewTypes, depending on modeIdc.
  Int typeAuxInfo; // BO: starting band index
  Int offset[MAX_NUM_SAO_CLASSES];
  SAOOffset();
  ~SAOOffset();
  Void reset();
  const SAOOffset& operator= (const SAOOffset& src);
};
struct SAOBlkParam
{
  SAOBlkParam();
  ~SAOBlkParam();
  Void reset();
  const SAOBlkParam& operator= (const SAOBlkParam& src);
  SAOOffset& operator[](Int compIdx){ return offsetParam[compIdx];}
private:
  SAOOffset offsetParam[MAX_NUM_COMPONENT];
};
struct BitDepths
{
#if O0043_BEST_EFFORT_DECODING
  Int recon[MAX_NUM_CHANNEL_TYPE]; ///< the bit depth used for reconstructing the video
  Int stream[MAX_NUM_CHANNEL_TYPE];///< the bit depth used indicated in the SPS
#else
  Int recon[MAX_NUM_CHANNEL_TYPE]; ///< the bit depth as indicated in the SPS
#endif
};
/// parameters for deblocking filter
typedef struct _LFCUParam
{
  Bool bInternalEdge;                     ///< indicates internal edge
  Bool bLeftEdge;                         ///< indicates left edge
  Bool bTopEdge;                          ///< indicates top edge
} LFCUParam;
//TU settings for entropy encoding
struct TUEntropyCodingParameters
{
  const UInt            *scan;
  const UInt            *scanCG;
        COEFF_SCAN_TYPE  scanType;
        UInt             widthInGroups;
        UInt             heightInGroups;
        UInt             firstSignificanceMapContext;
};
struct TComPictureHash
{
  std::vector<UChar> hash;
  Bool operator==(const TComPictureHash &other) const
  {
    if (other.hash.size() != hash.size())
    {
      return false;
    }
    for(UInt i=0; i<UInt(hash.size()); i++)
    {
      if (other.hash[i] != hash[i])
      {
        return false;
      }
    }
    return true;
  }
  Bool operator!=(const TComPictureHash &other) const
  {
    return !(*this == other);
  }
};
struct TComSEITimeSet
{
  TComSEITimeSet() : clockTimeStampFlag(false),
                     numUnitFieldBasedFlag(false),
                     countingType(0),
                     fullTimeStampFlag(false),
                     discontinuityFlag(false),
                     cntDroppedFlag(false),
                     numberOfFrames(0),
                     secondsValue(0),
                     minutesValue(0),
                     hoursValue(0),
                     secondsFlag(false),
                     minutesFlag(false),
                     hoursFlag(false),
                     timeOffsetLength(0),
                     timeOffsetValue(0)
  { }
  Bool clockTimeStampFlag;
  Bool numUnitFieldBasedFlag;
  Int  countingType;
  Bool fullTimeStampFlag;
  Bool discontinuityFlag;
  Bool cntDroppedFlag;
  Int  numberOfFrames;
  Int  secondsValue;
  Int  minutesValue;
  Int  hoursValue;
  Bool secondsFlag;
  Bool minutesFlag;
  Bool hoursFlag;
  Int  timeOffsetLength;
  Int  timeOffsetValue;
};
struct TComSEIMasteringDisplay
{
  Bool      colourVolumeSEIEnabled;
  UInt      maxLuminance;
  UInt      minLuminance;
  UShort    primaries[3][2];
  UShort    whitePoint[2];
};
//! \}
#endif