Refactor: context.h renaming

This commit is contained in:
Marko Viitanen 2013-09-18 14:21:03 +03:00
parent a1621bf900
commit 0a6c38a8e9
3 changed files with 149 additions and 153 deletions

View file

@ -20,129 +20,129 @@
/* CONTEXTS */ /* CONTEXTS */
cabac_ctx g_SplitFlagSCModel[3]; /*<! \brief split flag context models */ cabac_ctx g_split_flag_model[3]; /*<! \brief split flag context models */
cabac_ctx g_IntraModeSCModel; /*<! \brief intra mode context models */ cabac_ctx g_intra_mode_model; /*<! \brief intra mode context models */
cabac_ctx g_ChromaPredSCModel[2]; cabac_ctx g_chroma_pred_model[2];
cabac_ctx g_TransSubdivSCModel[3]; /*<! \brief intra mode context models */ cabac_ctx g_trans_subdiv_model[3]; /*<! \brief intra mode context models */
cabac_ctx g_QtCbfSCModelY[3]; cabac_ctx g_qt_cbf_model_luma[3];
cabac_ctx g_QtCbfSCModelU[3]; cabac_ctx g_qt_cbf_model_chroma[3];
//cabac_ctx g_QtCbfSCModelV[3]; //cabac_ctx g_QtCbfSCModelV[3];
cabac_ctx g_PartSizeSCModel[4]; cabac_ctx g_part_size_model[4];
cabac_ctx g_CUSigCoeffGroupSCModel[4]; cabac_ctx g_cu_sig_coeff_group_model[4];
cabac_ctx g_CUSigSCModel_luma[27]; cabac_ctx g_cu_sig_model_luma[27];
cabac_ctx g_CUSigSCModel_chroma[15]; cabac_ctx g_cu_sig_model_chroma[15];
cabac_ctx g_CuCtxLastY_luma[15]; cabac_ctx g_cu_ctx_last_y_luma[15];
cabac_ctx g_CuCtxLastY_chroma[15]; cabac_ctx g_cu_ctx_last_y_chroma[15];
cabac_ctx g_CuCtxLastX_luma[15]; cabac_ctx g_cu_ctx_last_x_luma[15];
cabac_ctx g_CuCtxLastX_chroma[15]; cabac_ctx g_cu_ctx_last_x_chroma[15];
cabac_ctx g_CUOneSCModel_luma[16]; cabac_ctx g_cu_one_model_luma[16];
cabac_ctx g_CUOneSCModel_chroma[8]; cabac_ctx g_cu_one_model_chroma[8];
cabac_ctx g_cCUAbsSCModel_luma[4]; cabac_ctx g_cu_abs_model_luma[4];
cabac_ctx g_cCUAbsSCModel_chroma[2]; cabac_ctx g_cu_abs_model_chroma[2];
cabac_ctx g_cCUPredModeSCModel; cabac_ctx g_cu_pred_mode_model;
cabac_ctx g_cCUSkipFlagSCModel[3]; cabac_ctx g_cu_skip_flag_model[3];
cabac_ctx g_cCUMergeIdxExtSCModel; cabac_ctx g_cu_merge_idx_ext_model;
cabac_ctx g_cCUMergeFlagExtSCModel; cabac_ctx g_cu_merge_flag_ext_model;
cabac_ctx g_cCUMvdSCModel[2]; cabac_ctx g_cu_mvd_model[2];
cabac_ctx g_cCURefPicSCModel[2]; cabac_ctx g_cu_ref_pic_model[2];
cabac_ctx g_cMVPIdxSCModel[2]; cabac_ctx g_mvp_idx_model[2];
cabac_ctx g_cCUQtRootCbfSCModel; cabac_ctx g_cu_qt_root_cbf_model;
void init_contexts(encoder_control *encoder, int8_t SLICE) void init_contexts(encoder_control *encoder, int8_t slice)
{ {
uint16_t i; uint16_t i;
/* Initialize contexts */ /* Initialize contexts */
/* TODO: add P/B slice */ /* TODO: add P/B slice */
ctx_init(&g_cCUMergeFlagExtSCModel, encoder->QP, INIT_MERGE_FLAG_EXT[SLICE][0]); ctx_init(&g_cu_merge_flag_ext_model, encoder->QP, INIT_MERGE_FLAG_EXT[slice][0]);
ctx_init(&g_cCUMergeIdxExtSCModel, encoder->QP, INIT_MERGE_IDX_EXT[SLICE][0]); ctx_init(&g_cu_merge_idx_ext_model, encoder->QP, INIT_MERGE_IDX_EXT[slice][0]);
ctx_init(&g_cCUPredModeSCModel, encoder->QP, INIT_PRED_MODE[SLICE][0]); ctx_init(&g_cu_pred_mode_model, encoder->QP, INIT_PRED_MODE[slice][0]);
ctx_init(&g_cCUSkipFlagSCModel[0], encoder->QP, INIT_SKIP_FLAG[SLICE][0]); ctx_init(&g_cu_skip_flag_model[0], encoder->QP, INIT_SKIP_FLAG[slice][0]);
ctx_init(&g_cCUSkipFlagSCModel[1], encoder->QP, INIT_SKIP_FLAG[SLICE][1]); ctx_init(&g_cu_skip_flag_model[1], encoder->QP, INIT_SKIP_FLAG[slice][1]);
ctx_init(&g_cCUSkipFlagSCModel[2], encoder->QP, INIT_SKIP_FLAG[SLICE][2]); ctx_init(&g_cu_skip_flag_model[2], encoder->QP, INIT_SKIP_FLAG[slice][2]);
ctx_init(&g_SplitFlagSCModel[0], encoder->QP, INIT_SPLIT_FLAG[SLICE][0]); ctx_init(&g_split_flag_model[0], encoder->QP, INIT_SPLIT_FLAG[slice][0]);
ctx_init(&g_SplitFlagSCModel[1], encoder->QP, INIT_SPLIT_FLAG[SLICE][1]); ctx_init(&g_split_flag_model[1], encoder->QP, INIT_SPLIT_FLAG[slice][1]);
ctx_init(&g_SplitFlagSCModel[2], encoder->QP, INIT_SPLIT_FLAG[SLICE][2]); ctx_init(&g_split_flag_model[2], encoder->QP, INIT_SPLIT_FLAG[slice][2]);
ctx_init(&g_IntraModeSCModel, encoder->QP, INIT_INTRA_PRED_MODE[SLICE]); ctx_init(&g_intra_mode_model, encoder->QP, INIT_INTRA_PRED_MODE[slice]);
ctx_init(&g_ChromaPredSCModel[0], encoder->QP, INIT_CHROMA_PRED_MODE[SLICE][0]); ctx_init(&g_chroma_pred_model[0], encoder->QP, INIT_CHROMA_PRED_MODE[slice][0]);
ctx_init(&g_ChromaPredSCModel[1], encoder->QP, INIT_CHROMA_PRED_MODE[SLICE][1]); ctx_init(&g_chroma_pred_model[1], encoder->QP, INIT_CHROMA_PRED_MODE[slice][1]);
ctx_init(&g_cCUAbsSCModel_chroma[0], encoder->QP, INIT_ABS_FLAG[SLICE][4]); ctx_init(&g_cu_abs_model_chroma[0], encoder->QP, INIT_ABS_FLAG[slice][4]);
ctx_init(&g_cCUAbsSCModel_chroma[1], encoder->QP, INIT_ABS_FLAG[SLICE][5]); ctx_init(&g_cu_abs_model_chroma[1], encoder->QP, INIT_ABS_FLAG[slice][5]);
//TODO: ignore P/B contexts on intra frame //TODO: ignore P/B contexts on intra frame
ctx_init(&g_cCUQtRootCbfSCModel, encoder->QP, INIT_QT_ROOT_CBF[SLICE][0]); ctx_init(&g_cu_qt_root_cbf_model, encoder->QP, INIT_QT_ROOT_CBF[slice][0]);
ctx_init(&g_cCUMvdSCModel[0], encoder->QP, INIT_MVD[SLICE][0]); ctx_init(&g_cu_mvd_model[0], encoder->QP, INIT_MVD[slice][0]);
ctx_init(&g_cCUMvdSCModel[1], encoder->QP, INIT_MVD[SLICE][1]); ctx_init(&g_cu_mvd_model[1], encoder->QP, INIT_MVD[slice][1]);
ctx_init(&g_cCURefPicSCModel[0], encoder->QP, INIT_REF_PIC[SLICE][0]); ctx_init(&g_cu_ref_pic_model[0], encoder->QP, INIT_REF_PIC[slice][0]);
ctx_init(&g_cCURefPicSCModel[1], encoder->QP, INIT_REF_PIC[SLICE][1]); ctx_init(&g_cu_ref_pic_model[1], encoder->QP, INIT_REF_PIC[slice][1]);
ctx_init(&g_cMVPIdxSCModel[0], encoder->QP, INIT_MVP_IDX[SLICE][0]); ctx_init(&g_mvp_idx_model[0], encoder->QP, INIT_MVP_IDX[slice][0]);
ctx_init(&g_cMVPIdxSCModel[1], encoder->QP, INIT_MVP_IDX[SLICE][1]); ctx_init(&g_mvp_idx_model[1], encoder->QP, INIT_MVP_IDX[slice][1]);
for(i = 0; i < 4; i++) for(i = 0; i < 4; i++)
{ {
ctx_init(&g_CUSigCoeffGroupSCModel[i], encoder->QP, INIT_SIG_CG_FLAG[SLICE][i]); ctx_init(&g_cu_sig_coeff_group_model[i], encoder->QP, INIT_SIG_CG_FLAG[slice][i]);
ctx_init(&g_cCUAbsSCModel_luma[i], encoder->QP, INIT_ABS_FLAG[SLICE][i]); ctx_init(&g_cu_abs_model_luma[i], encoder->QP, INIT_ABS_FLAG[slice][i]);
ctx_init(&g_PartSizeSCModel[i], encoder->QP, INIT_PART_SIZE[SLICE][i]); ctx_init(&g_part_size_model[i], encoder->QP, INIT_PART_SIZE[slice][i]);
} }
for(i = 0; i < 3; i++) for(i = 0; i < 3; i++)
{ {
ctx_init(&g_TransSubdivSCModel[i], encoder->QP, INIT_TRANS_SUBDIV_FLAG[SLICE][i]); ctx_init(&g_trans_subdiv_model[i], encoder->QP, INIT_TRANS_SUBDIV_FLAG[slice][i]);
ctx_init(&g_QtCbfSCModelY[i], encoder->QP, INIT_QT_CBF[SLICE][i]); ctx_init(&g_qt_cbf_model_luma[i], encoder->QP, INIT_QT_CBF[slice][i]);
ctx_init(&g_QtCbfSCModelU[i], encoder->QP, INIT_QT_CBF[SLICE][i+3]); ctx_init(&g_qt_cbf_model_chroma[i], encoder->QP, INIT_QT_CBF[slice][i+3]);
//cxt_init(&g_QtCbfSCModelV[i], encoder->QP, INIT_QT_CBF[SLICE][i]); //cxt_init(&g_QtCbfSCModelV[i], encoder->QP, INIT_QT_CBF[SLICE][i]);
} }
for(i = 0; i < 8; i++) for(i = 0; i < 8; i++)
{ {
ctx_init(&g_CUOneSCModel_chroma[i], encoder->QP, INIT_ONE_FLAG[SLICE][i+16]); ctx_init(&g_cu_one_model_chroma[i], encoder->QP, INIT_ONE_FLAG[slice][i+16]);
} }
for(i = 0; i < 15; i++) for(i = 0; i < 15; i++)
{ {
ctx_init(&g_CuCtxLastY_luma[i], encoder->QP, INIT_LAST[SLICE][i] ); ctx_init(&g_cu_ctx_last_y_luma[i], encoder->QP, INIT_LAST[slice][i] );
ctx_init(&g_CuCtxLastX_luma[i], encoder->QP, INIT_LAST[SLICE][i] ); ctx_init(&g_cu_ctx_last_x_luma[i], encoder->QP, INIT_LAST[slice][i] );
ctx_init(&g_CuCtxLastY_chroma[i], encoder->QP, INIT_LAST[SLICE][i+15] ); ctx_init(&g_cu_ctx_last_y_chroma[i], encoder->QP, INIT_LAST[slice][i+15] );
ctx_init(&g_CuCtxLastX_chroma[i], encoder->QP, INIT_LAST[SLICE][i+15] ); ctx_init(&g_cu_ctx_last_x_chroma[i], encoder->QP, INIT_LAST[slice][i+15] );
ctx_init(&g_CUOneSCModel_luma[i], encoder->QP, INIT_ONE_FLAG[SLICE][i]); ctx_init(&g_cu_one_model_luma[i], encoder->QP, INIT_ONE_FLAG[slice][i]);
} }
ctx_init(&g_CUOneSCModel_luma[15], encoder->QP, INIT_ONE_FLAG[SLICE][15]); ctx_init(&g_cu_one_model_luma[15], encoder->QP, INIT_ONE_FLAG[slice][15]);
for(i = 0; i < 27; i++) for(i = 0; i < 27; i++)
{ {
ctx_init(&g_CUSigSCModel_luma[i], encoder->QP, INIT_SIG_FLAG[SLICE][i]); ctx_init(&g_cu_sig_model_luma[i], encoder->QP, INIT_SIG_FLAG[slice][i]);
if(i < 15) if(i < 15)
{ {
ctx_init(&g_CUSigSCModel_chroma[i], encoder->QP, INIT_SIG_FLAG[SLICE][i+27]); ctx_init(&g_cu_sig_model_chroma[i], encoder->QP, INIT_SIG_FLAG[slice][i+27]);
} }
} }
} }
uint32_t context_get_sigCoeffGroup( uint32_t* uiSigCoeffGroupFlag, uint32_t context_get_sig_coeff_group( uint32_t* sig_coeff_group_flag,
uint32_t uiCGPosX, uint32_t pos_x,
uint32_t uiCGPosY, uint32_t pos_y,
int32_t width) int32_t width)
{ {
uint32_t uiRight = 0; uint32_t uiRight = 0;
uint32_t uiLower = 0; uint32_t uiLower = 0;
width >>= 2; width >>= 2;
if( uiCGPosX < (uint32_t)width - 1 ) if( pos_x < (uint32_t)width - 1 )
uiRight = (uiSigCoeffGroupFlag[ uiCGPosY * width + uiCGPosX + 1 ] != 0); uiRight = (sig_coeff_group_flag[ pos_y * width + pos_x + 1 ] != 0);
if (uiCGPosY < (uint32_t)width - 1 ) if (pos_y < (uint32_t)width - 1 )
uiLower = (uiSigCoeffGroupFlag[ (uiCGPosY + 1 ) * width + uiCGPosX ] != 0); uiLower = (sig_coeff_group_flag[ (pos_y + 1 ) * width + pos_x ] != 0);
return (uiRight || uiLower); return (uiRight || uiLower);
} }
@ -158,7 +158,7 @@ uint32_t context_get_sigCoeffGroup( uint32_t* uiSigCoeffGroupFlag,
\returns pattern for current coefficient group \returns pattern for current coefficient group
*/ */
int32_t context_calcPatternSigCtx( const uint32_t* sigCoeffGroupFlag, uint32_t posXCG, uint32_t posYCG, int32_t width) int32_t context_calc_pattern_sig_ctx( const uint32_t* sig_coeff_group_flag, uint32_t pos_x, uint32_t pos_y, int32_t width)
{ {
if( width == 4) return -1; if( width == 4) return -1;
@ -166,13 +166,13 @@ int32_t context_calcPatternSigCtx( const uint32_t* sigCoeffGroupFlag, uint32_t
uint32_t sigRight = 0; uint32_t sigRight = 0;
uint32_t sigLower = 0; uint32_t sigLower = 0;
width >>= 2; width >>= 2;
if( posXCG < (uint32_t)width - 1 ) if( pos_x < (uint32_t)width - 1 )
{ {
sigRight = (sigCoeffGroupFlag[ posYCG * width + posXCG + 1 ] != 0); sigRight = (sig_coeff_group_flag[ pos_y * width + pos_x + 1 ] != 0);
} }
if (posYCG < (uint32_t)width - 1 ) if (pos_y < (uint32_t)width - 1 )
{ {
sigLower = (sigCoeffGroupFlag[ (posYCG + 1 ) * width + posXCG ] != 0); sigLower = (sig_coeff_group_flag[ (pos_y + 1 ) * width + pos_x ] != 0);
} }
return sigRight + (sigLower<<1); return sigRight + (sigLower<<1);
@ -191,11 +191,11 @@ int32_t context_calcPatternSigCtx( const uint32_t* sigCoeffGroupFlag, uint32_t
\returns ctxInc for current scan position \returns ctxInc for current scan position
*/ */
int32_t context_getSigCtxInc(int32_t patternSigCtx,uint32_t scanIdx,int32_t posX, int32_t context_get_sig_ctx_inc(int32_t pattern_sig_ctx,uint32_t scan_idx,int32_t pos_x,
int32_t posY,int32_t blockType,int32_t width, int32_t pos_y,int32_t block_type,int32_t width,
int8_t textureType) int8_t texture_type)
{ {
const int32_t ctxIndMap[16] = const int32_t ctx_ind_map[16] =
{ {
0, 1, 4, 5, 0, 1, 4, 5,
2, 3, 4, 5, 2, 3, 4, 5,
@ -203,27 +203,27 @@ int32_t context_getSigCtxInc(int32_t patternSigCtx,uint32_t scanIdx,int32_t posX
7, 7, 8, 8 7, 7, 8, 8
}; };
if( posX + posY == 0 ) if( pos_x + pos_y == 0 )
return 0; return 0;
if ( blockType == 2 ) if ( block_type == 2 )
return ctxIndMap[ 4 * posY + posX ]; return ctx_ind_map[ 4 * pos_y + pos_x ];
{ {
int32_t cnt = 0; int32_t cnt = 0;
int32_t offset = blockType == 3 ? (scanIdx==SCAN_DIAG ? 9 : 15) : (textureType == 0 ? 21 : 12); int32_t offset = block_type == 3 ? (scan_idx==SCAN_DIAG ? 9 : 15) : (texture_type == 0 ? 21 : 12);
int32_t posXinSubset = posX-((posX>>2)<<2); int32_t posXinSubset = pos_x-((pos_x>>2)<<2);
int32_t posYinSubset = posY-((posY>>2)<<2); int32_t posYinSubset = pos_y-((pos_y>>2)<<2);
if(patternSigCtx==0) if(pattern_sig_ctx==0)
{ {
cnt = posXinSubset+posYinSubset<=2 ? (posXinSubset+posYinSubset==0 ? 2 : 1) : 0; cnt = posXinSubset+posYinSubset<=2 ? (posXinSubset+posYinSubset==0 ? 2 : 1) : 0;
} }
else if(patternSigCtx==1) else if(pattern_sig_ctx==1)
{ {
cnt = posYinSubset<=1 ? (posYinSubset==0 ? 2 : 1) : 0; cnt = posYinSubset<=1 ? (posYinSubset==0 ? 2 : 1) : 0;
} }
else if(patternSigCtx==2) else if(pattern_sig_ctx==2)
{ {
cnt = posXinSubset<=1 ? (posXinSubset==0 ? 2 : 1) : 0; cnt = posXinSubset<=1 ? (posXinSubset==0 ? 2 : 1) : 0;
} }
@ -231,7 +231,7 @@ int32_t context_getSigCtxInc(int32_t patternSigCtx,uint32_t scanIdx,int32_t posX
{ {
cnt = 2; cnt = 2;
} }
return (( textureType == 0 && ((posX>>2) + (posY>>2)) > 0 ) ? 3 : 0) + offset + cnt; return (( texture_type == 0 && ((pos_x>>2) + (pos_y>>2)) > 0 ) ? 3 : 0) + offset + cnt;
} }
} }

View file

@ -18,46 +18,42 @@
#include "encoder.h" #include "encoder.h"
#include "cabac.h" #include "cabac.h"
void init_contexts(encoder_control *encoder, int8_t slice);
int32_t context_calc_pattern_sig_ctx( const uint32_t* sig_coeff_group_flag, uint32_t pos_x, uint32_t pos_y, int32_t width);
void init_contexts(encoder_control *encoder, int8_t SLICE); uint32_t context_get_sig_coeff_group( uint32_t* sig_coeff_group_flag,uint32_t pos_x, uint32_t pos_y,int32_t width);
int32_t context_calcPatternSigCtx( const uint32_t* sigCoeffGroupFlag, uint32_t posXCG, uint32_t posYCG, int32_t width);
uint32_t context_get_sigCoeffGroup( uint32_t* uiSigCoeffGroupFlag,uint32_t uiCGPosX,
uint32_t uiCGPosY,int32_t width);
int32_t context_getSigCtxInc(int32_t patternSigCtx,uint32_t scanIdx,int32_t posX,
int32_t posY,int32_t blockType,int32_t width,
int8_t textureType);
int32_t context_get_sig_ctx_inc(int32_t pattern_sig_ctx,uint32_t scan_idx,int32_t pos_x,
int32_t pos_y,int32_t block_type,int32_t width, int8_t texture_type);
/* CONTEXTS */ /* CONTEXTS */
extern cabac_ctx g_SplitFlagSCModel[3]; extern cabac_ctx g_split_flag_model[3];
extern cabac_ctx g_IntraModeSCModel; extern cabac_ctx g_intra_mode_model;
extern cabac_ctx g_ChromaPredSCModel[2]; extern cabac_ctx g_chroma_pred_model[2];
extern cabac_ctx g_TransSubdivSCModel[3]; extern cabac_ctx g_trans_subdiv_model[3];
extern cabac_ctx g_QtCbfSCModelY[3]; extern cabac_ctx g_qt_cbf_model_luma[3];
extern cabac_ctx g_QtCbfSCModelU[3]; extern cabac_ctx g_qt_cbf_model_chroma[3];
extern cabac_ctx g_PartSizeSCModel[4]; extern cabac_ctx g_part_size_model[4];
extern cabac_ctx g_CUSigCoeffGroupSCModel[4]; extern cabac_ctx g_cu_sig_coeff_group_model[4];
extern cabac_ctx g_CUSigSCModel_luma[27]; extern cabac_ctx g_cu_sig_model_luma[27];
extern cabac_ctx g_CUSigSCModel_chroma[15]; extern cabac_ctx g_cu_sig_model_chroma[15];
extern cabac_ctx g_CuCtxLastY_luma[15]; extern cabac_ctx g_cu_ctx_last_y_luma[15];
extern cabac_ctx g_CuCtxLastY_chroma[15]; extern cabac_ctx g_cu_ctx_last_y_chroma[15];
extern cabac_ctx g_CuCtxLastX_luma[15]; extern cabac_ctx g_cu_ctx_last_x_luma[15];
extern cabac_ctx g_CuCtxLastX_chroma[15]; extern cabac_ctx g_cu_ctx_last_x_chroma[15];
extern cabac_ctx g_CUOneSCModel_luma[16]; extern cabac_ctx g_cu_one_model_luma[16];
extern cabac_ctx g_CUOneSCModel_chroma[8]; extern cabac_ctx g_cu_one_model_chroma[8];
extern cabac_ctx g_cCUAbsSCModel_luma[4]; extern cabac_ctx g_cu_abs_model_luma[4];
extern cabac_ctx g_cCUAbsSCModel_chroma[2]; extern cabac_ctx g_cu_abs_model_chroma[2];
extern cabac_ctx g_cCUPredModeSCModel; extern cabac_ctx g_cu_pred_mode_model;
extern cabac_ctx g_cCUSkipFlagSCModel[3]; extern cabac_ctx g_cu_skip_flag_model[3];
extern cabac_ctx g_cCUMergeIdxExtSCModel; extern cabac_ctx g_cu_merge_idx_ext_model;
extern cabac_ctx g_cCUMergeFlagExtSCModel; extern cabac_ctx g_cu_merge_flag_ext_model;
extern cabac_ctx g_cCUMvdSCModel[2]; extern cabac_ctx g_cu_mvd_model[2];
extern cabac_ctx g_cCURefPicSCModel[2]; extern cabac_ctx g_cu_ref_pic_model[2];
extern cabac_ctx g_cMVPIdxSCModel[2]; extern cabac_ctx g_mvp_idx_model[2];
extern cabac_ctx g_cCUQtRootCbfSCModel; extern cabac_ctx g_cu_qt_root_cbf_model;
#define CNU 154 #define CNU 154
static const uint8_t static const uint8_t

View file

@ -850,7 +850,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
{ {
split_model++; split_model++;
} }
cabac.ctx = &g_SplitFlagSCModel[split_model]; cabac.ctx = &g_split_flag_model[split_model];
CABAC_BIN(&cabac, split_flag, "SplitFlag"); CABAC_BIN(&cabac, split_flag, "SplitFlag");
} }
if(split_flag || border) if(split_flag || border)
@ -880,7 +880,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
{ {
int8_t uiCtxSkip = 0; int8_t uiCtxSkip = 0;
/* uiCtxSkip = aboveskipped + leftskipped; */ /* uiCtxSkip = aboveskipped + leftskipped; */
cabac.ctx = &g_cCUSkipFlagSCModel[uiCtxSkip]; cabac.ctx = &g_cu_skip_flag_model[uiCtxSkip];
CABAC_BIN(&cabac, (cur_CU->type == CU_SKIP)?1:0, "SkipFlag"); CABAC_BIN(&cabac, (cur_CU->type == CU_SKIP)?1:0, "SkipFlag");
} }
@ -899,7 +899,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
int32_t symbol = (ui == unaryIdx) ? 0 : 1; int32_t symbol = (ui == unaryIdx) ? 0 : 1;
if ( ui==0 ) if ( ui==0 )
{ {
cabac.ctx = &g_cCUMergeIdxExtSCModel; cabac.ctx = &g_cu_merge_idx_ext_model;
CABAC_BIN(&cabac, symbol, "MergeIndex"); CABAC_BIN(&cabac, symbol, "MergeIndex");
} }
else else
@ -919,7 +919,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
/* Prediction mode */ /* Prediction mode */
if(encoder->in.cur_pic->slicetype != SLICE_I) if(encoder->in.cur_pic->slicetype != SLICE_I)
{ {
cabac.ctx = &g_cCUPredModeSCModel; cabac.ctx = &g_cu_pred_mode_model;
CABAC_BIN(&cabac, (cur_CU->type == CU_INTRA)?1:0, "PredMode"); CABAC_BIN(&cabac, (cur_CU->type == CU_INTRA)?1:0, "PredMode");
} }
@ -927,7 +927,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
if(depth == MAX_DEPTH || cur_CU->type != CU_INTRA) if(depth == MAX_DEPTH || cur_CU->type != CU_INTRA)
{ {
/* TODO: Handle inter sizes other than 2Nx2N */ /* TODO: Handle inter sizes other than 2Nx2N */
cabac.ctx = &g_PartSizeSCModel[0]; cabac.ctx = &g_part_size_model[0];
CABAC_BIN(&cabac, 1, "PartSize"); CABAC_BIN(&cabac, 1, "PartSize");
/* TODO: add AMP modes */ /* TODO: add AMP modes */
} }
@ -938,7 +938,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
/* FOR each part */ /* FOR each part */
/* Mergeflag */ /* Mergeflag */
uint8_t mergeFlag = 0; uint8_t mergeFlag = 0;
cabac.ctx = &g_cCUMergeFlagExtSCModel; cabac.ctx = &g_cu_merge_flag_ext_model;
CABAC_BIN(&cabac, mergeFlag, "MergeFlag"); CABAC_BIN(&cabac, mergeFlag, "MergeFlag");
if(mergeFlag) //merge if(mergeFlag) //merge
{ {
@ -953,7 +953,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
int32_t symbol = (ui == unaryIdx) ? 0 : 1; int32_t symbol = (ui == unaryIdx) ? 0 : 1;
if (ui == 0) if (ui == 0)
{ {
cabac.ctx = &g_cCUMergeIdxExtSCModel; cabac.ctx = &g_cu_merge_idx_ext_model;
CABAC_BIN(&cabac, symbol, "MergeIndex"); CABAC_BIN(&cabac, symbol, "MergeIndex");
} }
else else
@ -1006,7 +1006,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
/* parseRefFrmIdx */ /* parseRefFrmIdx */
int32_t iRefFrame = cur_CU->inter.mv_ref; int32_t iRefFrame = cur_CU->inter.mv_ref;
cabac.ctx = &g_cCURefPicSCModel[0]; cabac.ctx = &g_cu_ref_pic_model[0];
CABAC_BIN(&cabac, (iRefFrame==0)?0:1, "ref_frame_flag"); CABAC_BIN(&cabac, (iRefFrame==0)?0:1, "ref_frame_flag");
if(iRefFrame > 0) if(iRefFrame > 0)
@ -1014,7 +1014,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
uint32_t ui; uint32_t ui;
uint32_t uiRefNum = encoder->ref_idx_num[uiRefListIdx]-2; uint32_t uiRefNum = encoder->ref_idx_num[uiRefListIdx]-2;
cabac.ctx = &g_cCURefPicSCModel[1]; cabac.ctx = &g_cu_ref_pic_model[1];
iRefFrame--; iRefFrame--;
for(ui = 0; ui < uiRefNum; ++ui) for(ui = 0; ui < uiRefNum; ++ui)
{ {
@ -1058,12 +1058,12 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
const int8_t bVerAbsGr0 = mvd_ver != 0; const int8_t bVerAbsGr0 = mvd_ver != 0;
const uint32_t mvd_hor_abs = abs(mvd_hor); const uint32_t mvd_hor_abs = abs(mvd_hor);
const uint32_t mvd_ver_abs = abs(mvd_ver); const uint32_t mvd_ver_abs = abs(mvd_ver);
cabac.ctx = &g_cCUMvdSCModel[0]; cabac.ctx = &g_cu_mvd_model[0];
CABAC_BIN(&cabac, (mvd_hor!=0)?1:0, "abs_mvd_greater0_flag_hor"); CABAC_BIN(&cabac, (mvd_hor!=0)?1:0, "abs_mvd_greater0_flag_hor");
CABAC_BIN(&cabac, (mvd_ver!=0)?1:0, "abs_mvd_greater0_flag_ver"); CABAC_BIN(&cabac, (mvd_ver!=0)?1:0, "abs_mvd_greater0_flag_ver");
cabac.ctx = &g_cCUMvdSCModel[1]; cabac.ctx = &g_cu_mvd_model[1];
if(bHorAbsGr0) if(bHorAbsGr0)
{ {
@ -1100,12 +1100,12 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
picture_setBlockCoded(encoder->in.cur_pic,xCtb, yCtb, depth, 1); picture_setBlockCoded(encoder->in.cur_pic,xCtb, yCtb, depth, 1);
} }
/* Signal which candidate MV to use */ /* Signal which candidate MV to use */
cabac_write_unary_max_symbol(&cabac,g_cMVPIdxSCModel, cur_CU->inter.mv_ref,1,AMVP_MAX_NUM_CANDS-1); cabac_write_unary_max_symbol(&cabac,g_mvp_idx_model, cur_CU->inter.mv_ref,1,AMVP_MAX_NUM_CANDS-1);
} }
} }
} }
cabac.ctx = &g_cCUQtRootCbfSCModel; cabac.ctx = &g_cu_qt_root_cbf_model;
CABAC_BIN(&cabac, 0, "rqt_root_cbf"); CABAC_BIN(&cabac, 0, "rqt_root_cbf");
if(0) if(0)
{ {
@ -1185,7 +1185,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
} }
/* For each part { */ /* For each part { */
flag = (mpmPred==-1)?0:1; flag = (mpmPred==-1)?0:1;
cabac.ctx = &g_IntraModeSCModel; cabac.ctx = &g_intra_mode_model;
CABAC_BIN(&cabac,flag,"IntraPred"); CABAC_BIN(&cabac,flag,"IntraPred");
/*} End for each part */ /*} End for each part */
@ -1228,7 +1228,7 @@ void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, ui
if(encoder->in.video_format != FORMAT_400) if(encoder->in.video_format != FORMAT_400)
{ {
/* Chroma intra prediction */ /* Chroma intra prediction */
cabac.ctx = &g_ChromaPredSCModel[0]; cabac.ctx = &g_chroma_pred_model[0];
CABAC_BIN(&cabac,((intraPredModeChroma!=36)?1:0),"IntraPredChroma"); CABAC_BIN(&cabac,((intraPredModeChroma!=36)?1:0),"IntraPredChroma");
/* If not copied from luma, signal it */ /* If not copied from luma, signal it */
@ -1649,7 +1649,7 @@ void encode_transform_coeff(encoder_control* encoder,transform_info* ti,int8_t d
if(depth != 0 && depth != MAX_DEPTH+1) if(depth != 0 && depth != MAX_DEPTH+1)
{ {
cabac.ctx = &g_TransSubdivSCModel[5-((g_aucConvertToBit[LCU_WIDTH]+2)-depth)]; cabac.ctx = &g_trans_subdiv_model[5-((g_aucConvertToBit[LCU_WIDTH]+2)-depth)];
CABAC_BIN(&cabac,split,"TransformSubdivFlag"); CABAC_BIN(&cabac,split,"TransformSubdivFlag");
} }
@ -1660,7 +1660,7 @@ void encode_transform_coeff(encoder_control* encoder,transform_info* ti,int8_t d
{ {
/* Non-zero chroma U Tcoeffs */ /* Non-zero chroma U Tcoeffs */
int8_t Cb_flag = (trDepth==0)?ti->cb_top[1]:((ti->cb[ti->idx]&0x2)?1:0); int8_t Cb_flag = (trDepth==0)?ti->cb_top[1]:((ti->cb[ti->idx]&0x2)?1:0);
cabac.ctx = &g_QtCbfSCModelU[trDepth]; cabac.ctx = &g_qt_cbf_model_chroma[trDepth];
if(trDepth == 0 || ti->cb_top[1]) if(trDepth == 0 || ti->cb_top[1])
{ {
CABAC_BIN(&cabac,Cb_flag,"cbf_chroma_u"); CABAC_BIN(&cabac,Cb_flag,"cbf_chroma_u");
@ -1687,7 +1687,7 @@ void encode_transform_coeff(encoder_control* encoder,transform_info* ti,int8_t d
CbV = (ti->cb[ti->idx]&0x4)?1:0; CbV = (ti->cb[ti->idx]&0x4)?1:0;
/* Non-zero luma Tcoeffs */ /* Non-zero luma Tcoeffs */
cabac.ctx = &g_QtCbfSCModelY[trDepth?0:1]; cabac.ctx = &g_qt_cbf_model_luma[trDepth?0:1];
CABAC_BIN(&cabac,CbY,"cbf_luma"); CABAC_BIN(&cabac,CbY,"cbf_luma");
{ {
@ -1771,8 +1771,8 @@ void encode_CoeffNxN(encoder_control* encoder,int16_t* coeff, uint8_t width, uin
const uint32_t* scanCG = NULL; const uint32_t* scanCG = NULL;
/* Init base contexts according to block type */ /* Init base contexts according to block type */
cabac_ctx* baseCoeffGroupCtx = &g_CUSigCoeffGroupSCModel[type]; cabac_ctx* baseCoeffGroupCtx = &g_cu_sig_coeff_group_model[type];
cabac_ctx* baseCtx = (type==0) ? &g_CUSigSCModel_luma[0] :&g_CUSigSCModel_chroma[0]; cabac_ctx* baseCtx = (type==0) ? &g_cu_sig_model_luma[0] :&g_cu_sig_model_chroma[0];
memset(sig_coeffgroup_flag,0,sizeof(uint32_t)*64); memset(sig_coeffgroup_flag,0,sizeof(uint32_t)*64);
/* Count non-zero coeffs */ /* Count non-zero coeffs */
@ -1847,14 +1847,14 @@ void encode_CoeffNxN(encoder_control* encoder,int16_t* coeff, uint8_t width, uin
else else
{ {
uint32_t uiSigCoeffGroup = (sig_coeffgroup_flag[ iCGBlkPos ] != 0); uint32_t uiSigCoeffGroup = (sig_coeffgroup_flag[ iCGBlkPos ] != 0);
uint32_t uiCtxSig = context_get_sigCoeffGroup(sig_coeffgroup_flag, iCGPosX, iCGPosY,width); uint32_t uiCtxSig = context_get_sig_coeff_group(sig_coeffgroup_flag, iCGPosX, iCGPosY,width);
cabac.ctx = &baseCoeffGroupCtx[ uiCtxSig ]; cabac.ctx = &baseCoeffGroupCtx[ uiCtxSig ];
CABAC_BIN(&cabac,uiSigCoeffGroup,"significant_coeff_group"); CABAC_BIN(&cabac,uiSigCoeffGroup,"significant_coeff_group");
} }
if( sig_coeffgroup_flag[ iCGBlkPos ] ) if( sig_coeffgroup_flag[ iCGBlkPos ] )
{ {
int32_t patternSigCtx = context_calcPatternSigCtx( sig_coeffgroup_flag, iCGPosX, iCGPosY, width); int32_t patternSigCtx = context_calc_pattern_sig_ctx( sig_coeffgroup_flag, iCGPosX, iCGPosY, width);
for( ; iScanPosSig >= iSubPos; iScanPosSig-- ) for( ; iScanPosSig >= iSubPos; iScanPosSig-- )
{ {
uiBlkPos = scan[ iScanPosSig ]; uiBlkPos = scan[ iScanPosSig ];
@ -1863,7 +1863,7 @@ void encode_CoeffNxN(encoder_control* encoder,int16_t* coeff, uint8_t width, uin
uiSig = (coeff[ uiBlkPos ] != 0)?1:0; uiSig = (coeff[ uiBlkPos ] != 0)?1:0;
if( iScanPosSig > iSubPos || i == 0 || numNonZero ) if( iScanPosSig > iSubPos || i == 0 || numNonZero )
{ {
uiCtxSig = context_getSigCtxInc( patternSigCtx, scanMode, uiPosX, uiPosY, uiLog2BlockSize, width, type ); uiCtxSig = context_get_sig_ctx_inc( patternSigCtx, scanMode, uiPosX, uiPosY, uiLog2BlockSize, width, type );
cabac.ctx = &baseCtx[ uiCtxSig ]; cabac.ctx = &baseCtx[ uiCtxSig ];
CABAC_BIN(&cabac,uiSig,"significant_coeff_flag"); CABAC_BIN(&cabac,uiSig,"significant_coeff_flag");
} }
@ -1897,7 +1897,7 @@ void encode_CoeffNxN(encoder_control* encoder,int16_t* coeff, uint8_t width, uin
} }
c1 = 1; c1 = 1;
baseCtxMod = ( type==0 ) ? &g_CUOneSCModel_luma[4 * uiCtxSet] : &g_CUOneSCModel_chroma[4 * uiCtxSet]; baseCtxMod = ( type==0 ) ? &g_cu_one_model_luma[4 * uiCtxSet] : &g_cu_one_model_chroma[4 * uiCtxSet];
numC1Flag = MIN(numNonZero, C1FLAG_NUMBER); numC1Flag = MIN(numNonZero, C1FLAG_NUMBER);
firstC2FlagIdx = -1; firstC2FlagIdx = -1;
for(idx = 0; idx < numC1Flag; idx++ ) for(idx = 0; idx < numC1Flag; idx++ )
@ -1921,7 +1921,7 @@ void encode_CoeffNxN(encoder_control* encoder,int16_t* coeff, uint8_t width, uin
if (c1 == 0) if (c1 == 0)
{ {
baseCtxMod = ( type==0 ) ? &g_cCUAbsSCModel_luma[uiCtxSet] : &g_cCUAbsSCModel_chroma[uiCtxSet]; baseCtxMod = ( type==0 ) ? &g_cu_abs_model_luma[uiCtxSet] : &g_cu_abs_model_chroma[uiCtxSet];
if (firstC2FlagIdx != -1) if (firstC2FlagIdx != -1)
{ {
uint8_t symbol = (abs_coeff[ firstC2FlagIdx ] > 2)?1:0; uint8_t symbol = (abs_coeff[ firstC2FlagIdx ] > 2)?1:0;
@ -1982,8 +1982,8 @@ void encode_lastSignificantXY(encoder_control* encoder,uint8_t lastpos_x, uint8_
int uiGroupIdxX; int uiGroupIdxX;
int uiGroupIdxY; int uiGroupIdxY;
int last_x,last_y,i; int last_x,last_y,i;
cabac_ctx* basectxX = (type?g_CuCtxLastX_chroma:g_CuCtxLastX_luma); cabac_ctx* basectxX = (type?g_cu_ctx_last_x_chroma:g_cu_ctx_last_x_luma);
cabac_ctx* basectxY = (type?g_CuCtxLastY_chroma:g_CuCtxLastY_luma); cabac_ctx* basectxY = (type?g_cu_ctx_last_y_chroma:g_cu_ctx_last_y_luma);
if( scan == SCAN_VER ) if( scan == SCAN_VER )
{ {