uvg266/src/cabac.h

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#ifndef CABAC_H_
#define CABAC_H_
/*****************************************************************************
* This file is part of Kvazaar HEVC encoder.
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*
* Copyright (C) 2013-2015 Tampere University of Technology and others (see
* COPYING file).
*
* Kvazaar is free software: you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License as published by the
* Free Software Foundation; either version 2.1 of the License, or (at your
* option) any later version.
*
* Kvazaar is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with Kvazaar. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
/*
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* \file
* \brief The Content Adaptive Binary Arithmetic Coder (CABAC).
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*/
#include "global.h"
#include "bitstream.h"
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// Types
typedef struct
{
uint8_t uc_state;
} cabac_ctx;
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typedef struct
{
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cabac_ctx *cur_ctx;
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uint32_t low;
uint32_t range;
uint32_t buffered_byte;
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int32_t num_buffered_bytes;
int32_t bits_left;
int8_t only_count;
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bitstream *stream;
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// CONTEXTS
struct {
cabac_ctx sao_merge_flag_model;
cabac_ctx sao_type_idx_model;
cabac_ctx split_flag_model[3]; //!< \brief split flag context models
cabac_ctx intra_mode_model; //!< \brief intra mode context models
cabac_ctx chroma_pred_model[2];
cabac_ctx trans_subdiv_model[3]; //!< \brief intra mode context models
cabac_ctx qt_cbf_model_luma[4];
cabac_ctx qt_cbf_model_chroma[4];
cabac_ctx part_size_model[4];
cabac_ctx cu_sig_coeff_group_model[4];
cabac_ctx cu_sig_model_luma[27];
cabac_ctx cu_sig_model_chroma[15];
cabac_ctx cu_ctx_last_y_luma[15];
cabac_ctx cu_ctx_last_y_chroma[15];
cabac_ctx cu_ctx_last_x_luma[15];
cabac_ctx cu_ctx_last_x_chroma[15];
cabac_ctx cu_one_model_luma[16];
cabac_ctx cu_one_model_chroma[8];
cabac_ctx cu_abs_model_luma[4];
cabac_ctx cu_abs_model_chroma[2];
cabac_ctx cu_pred_mode_model;
cabac_ctx cu_skip_flag_model[3];
cabac_ctx cu_merge_idx_ext_model;
cabac_ctx cu_merge_flag_ext_model;
cabac_ctx cu_mvd_model[2];
cabac_ctx cu_ref_pic_model[2];
cabac_ctx mvp_idx_model[2];
cabac_ctx cu_qt_root_cbf_model;
cabac_ctx transform_skip_model_luma;
cabac_ctx transform_skip_model_chroma;
} ctx;
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} cabac_data;
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// Globals
extern const uint8_t g_auc_next_state_mps[128];
extern const uint8_t g_auc_next_state_lps[128];
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extern const uint8_t g_auc_lpst_table[64][4];
extern const uint8_t g_auc_renorm_table[32];
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// Functions
void cabac_start(cabac_data *data);
void cabac_encode_bin(cabac_data *data, uint32_t bin_value);
void cabac_encode_bin_ep(cabac_data *data, uint32_t bin_value);
void cabac_encode_bins_ep(cabac_data *data, uint32_t bin_values, int num_bins);
void cabac_encode_bin_trm(cabac_data *data, uint8_t bin_value);
void cabac_write(cabac_data *data);
void cabac_finish(cabac_data *data);
void cabac_flush(cabac_data *data);
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void cabac_write_coeff_remain(cabac_data *cabac, uint32_t symbol,
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uint32_t r_param);
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void cabac_write_ep_ex_golomb(cabac_data *data, uint32_t symbol,
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uint32_t count);
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void cabac_write_unary_max_symbol(cabac_data *data, cabac_ctx *ctx,
uint32_t symbol, int32_t offset,
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uint32_t max_symbol);
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void cabac_write_unary_max_symbol_ep(cabac_data *data, unsigned int symbol, unsigned int max_symbol);
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// Macros
#define CTX_STATE(ctx) (ctx->uc_state >> 1)
#define CTX_MPS(ctx) (ctx->uc_state & 1)
#define CTX_UPDATE_LPS(ctx) { (ctx)->uc_state = g_auc_next_state_lps[ (ctx)->uc_state ]; }
#define CTX_UPDATE_MPS(ctx) { (ctx)->uc_state = g_auc_next_state_mps[ (ctx)->uc_state ]; }
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#ifdef VERBOSE
#define CABAC_BIN(data, value, name) { \
uint32_t prev_state = (data)->ctx->uc_state; \
cabac_encode_bin(data, value); \
printf("%s = %u, state = %u -> %u\n", \
name, (uint32_t)value, (uint32_t)prev_state, (data)->ctx->uc_state); }
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#define CABAC_BINS_EP(data, value, bins, name) { \
uint32_t prev_state = (data)->ctx->uc_state; \
cabac_encode_bins_ep(data, value, bins); \
printf("%s = %u(%u bins), state = %u -> %u\n", \
name, (uint32_t)value, (uint32_t)bins, prev_state, (data)->ctx->uc_state); }
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#define CABAC_BIN_EP(data, value, name) { \
uint32_t prev_state = (data)->ctx->uc_state; \
cabac_encode_bin_ep(data, value); \
printf("%s = %u, state = %u -> %u\n", \
name, (uint32_t)value, (uint32_t)prev_state, (data)->ctx->uc_state); }
#else
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#define CABAC_BIN(data, value, name) \
cabac_encode_bin(data, value);
#define CABAC_BINS_EP(data, value, bins, name) \
cabac_encode_bins_ep(data, value, bins);
#define CABAC_BIN_EP(data, value, name) \
cabac_encode_bin_ep(data, value);
#endif
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#endif