mirror of
https://github.com/ultravideo/uvg266.git
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b715ae9767
Adds parameter len_out returning the length of the encoded data in bytes to function encoder_encode.
259 lines
8 KiB
C
259 lines
8 KiB
C
#ifndef ENCODERSTATE_H_
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#define ENCODERSTATE_H_
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/*****************************************************************************
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* This file is part of Kvazaar HEVC encoder.
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*
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* Copyright (C) 2013-2015 Tampere University of Technology and others (see
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* COPYING file).
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*
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* Kvazaar is free software: you can redistribute it and/or modify it under
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* the terms of the GNU Lesser General Public License as published by the
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* Free Software Foundation; either version 2.1 of the License, or (at your
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* option) any later version.
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*
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* Kvazaar is distributed in the hope that it will be useful, but WITHOUT ANY
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* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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* FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with Kvazaar. If not, see <http://www.gnu.org/licenses/>.
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****************************************************************************/
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/*
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* \file
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* \brief
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*/
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#include "global.h"
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#include "videoframe.h"
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#include "encoder.h"
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#include "image.h"
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#include "bitstream.h"
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#include "cabac.h"
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#include "config.h"
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#include "tables.h"
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#include "scalinglist.h"
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#include "threadqueue.h"
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#include "imagelist.h"
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// Submodules
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// Functions to obtain geometry information from LCU
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#include "encoder_state-geometry.h"
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// Constructors/destructors
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#include "encoder_state-ctors_dtors.h"
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// Functions writing bitstream parts
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#include "encoder_state-bitstream.h"
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typedef enum {
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ENCODER_STATE_TYPE_INVALID = 'i',
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ENCODER_STATE_TYPE_MAIN = 'M',
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ENCODER_STATE_TYPE_SLICE = 'S',
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ENCODER_STATE_TYPE_TILE = 'T',
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ENCODER_STATE_TYPE_WAVEFRONT_ROW = 'W',
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} encoder_state_type;
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typedef struct {
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double cur_lambda_cost; //!< \brief Lambda for SSE
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double cur_lambda_cost_sqrt; //!< \brief Lambda for SAD and SATD
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int32_t frame;
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int32_t poc; /*!< \brief picture order count */
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int8_t gop_offset; /*!< \brief offset in the gop structure */
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int8_t QP; //!< \brief Quantization parameter
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double QP_factor; //!< \brief Quantization factor
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//Current picture available references
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image_list_t *ref;
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int8_t ref_list;
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struct {
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int32_t poc;
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int8_t list;
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int8_t idx;
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} refmap[16];
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bool is_idr_frame;
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uint8_t pictype;
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uint8_t slicetype;
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//! Total number of bits written.
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uint64_t total_bits_coded;
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//! Number of bits written in the current GOP.
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uint64_t cur_gop_bits_coded;
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//! Number of bits targeted for the current GOP.
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double cur_gop_target_bits;
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// Parameters used in rate control
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double rc_alpha;
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double rc_beta;
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} encoder_state_config_global_t;
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typedef struct {
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//Current sub-frame
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videoframe_t *frame;
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int32_t id;
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//Tile: offset in LCU for current encoder_state in global coordinates
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int32_t lcu_offset_x;
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int32_t lcu_offset_y;
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//Position of the first element in tile scan in global coordinates
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int32_t lcu_offset_in_ts;
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//Buffer for search
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//order by row of (LCU_WIDTH * cur_pic->width_in_lcu) pixels
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yuv_t *hor_buf_search;
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//order by column of (LCU_WIDTH * encoder_state->height_in_lcu) pixels (there is no more extra pixel, since we can use a negative index)
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yuv_t *ver_buf_search;
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yuv_t *hor_buf_before_sao;
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yuv_t *ver_buf_before_sao;
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//Jobs for each individual LCU of a wavefront row.
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threadqueue_job_t **wf_jobs;
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} encoder_state_config_tile_t;
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typedef struct {
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int32_t id;
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//Global coordinates
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int32_t start_in_ts;
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int32_t end_in_ts;
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//Global coordinates
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int32_t start_in_rs;
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int32_t end_in_rs;
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} encoder_state_config_slice_t;
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typedef struct {
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//Row in tile coordinates of the wavefront
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int32_t lcu_offset_y;
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} encoder_state_config_wfrow_t;
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typedef struct lcu_order_element {
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//This it used for leaf of the encoding tree. All is relative to the tile.
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int id;
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int index;
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struct encoder_state_t *encoder_state;
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vector2d_t position;
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vector2d_t position_px; //Top-left
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vector2d_t size;
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int first_column;
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int first_row;
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int last_column;
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int last_row;
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struct lcu_order_element *above;
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struct lcu_order_element *below;
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struct lcu_order_element *left;
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struct lcu_order_element *right;
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} lcu_order_element_t;
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typedef struct encoder_state_t {
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const encoder_control_t *encoder_control;
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encoder_state_type type;
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//List of children, the last item of this list is a pseudo-encoder with encoder_control = NULL
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//Use for (i = 0; encoder_state->children[i].encoder_control; ++i) {
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struct encoder_state_t *children;
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struct encoder_state_t *parent;
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//Pointer to the encoder_state of the previous frame
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struct encoder_state_t *previous_encoder_state;
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encoder_state_config_global_t *global;
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encoder_state_config_tile_t *tile;
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encoder_state_config_slice_t *slice;
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encoder_state_config_wfrow_t *wfrow;
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int is_leaf; //A leaf encoder state is one which should encode LCUs...
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lcu_order_element_t *lcu_order;
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uint32_t lcu_order_count;
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bitstream_t stream;
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cabac_data_t cabac;
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/**
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* \brief Indicates that this encoder state is ready for encoding the
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* next frame i.e. encoder_next_frame has been called.
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*/
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int prepared;
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/**
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* \brief Indicates that the previous frame has been encoded and the
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* encoded data written and the encoding the next frame has not been
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* started yet.
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*/
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int frame_done;
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uint32_t stats_bitstream_length; //Bitstream length written in bytes
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//Jobs to wait for
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threadqueue_job_t * tqj_recon_done; //Reconstruction is done
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threadqueue_job_t * tqj_bitstream_written; //Bitstream is written
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} encoder_state_t;
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void encode_one_frame(encoder_state_t *state);
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int encoder_feed_frame(encoder_state_t *const state, kvz_picture *const img_in);
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void encoder_compute_stats(encoder_state_t *state, FILE * const recout, double psnr[3]);
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void encoder_next_frame(encoder_state_t *state);
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void encode_coding_tree(encoder_state_t *state, uint16_t x_ctb,
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uint16_t y_ctb, uint8_t depth);
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void encode_last_significant_xy(encoder_state_t *state,
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uint8_t lastpos_x, uint8_t lastpos_y,
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uint8_t width, uint8_t height,
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uint8_t type, uint8_t scan);
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void encode_coeff_nxn(encoder_state_t *state, int16_t *coeff, uint8_t width,
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uint8_t type, int8_t scan_mode, int8_t tr_skip);
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void encode_transform_coeff(encoder_state_t *state, int32_t x_cu, int32_t y_cu,
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int8_t depth, int8_t tr_depth, uint8_t parent_coeff_u, uint8_t parent_coeff_v);
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void encode_block_residual(const encoder_control_t * const encoder,
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uint16_t x_ctb, uint16_t y_ctb, uint8_t depth);
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int encoder_state_match_children_of_previous_frame(encoder_state_t * const state);
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coeff_scan_order_t get_scan_order(int8_t cu_type, int intra_mode, int depth);
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void encoder_ref_insertion_sort(int reflist[16], int length);
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static const uint8_t g_group_idx[32] = {
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0, 1, 2, 3, 4, 4, 5, 5, 6, 6,
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6, 6, 7, 7, 7, 7, 8, 8, 8, 8,
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8, 8, 8, 8, 9, 9, 9, 9, 9, 9,
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9, 9 };
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static const uint8_t g_min_in_group[10] = {
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0, 1, 2, 3, 4, 6, 8, 12, 16, 24 };
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#define C1FLAG_NUMBER 8 // maximum number of largerThan1 flag coded in one chunk
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#define C2FLAG_NUMBER 1 // maximum number of largerThan2 flag coded in one chunk
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//Get the data for vertical buffer position at the left of LCU identified by the position in pixel
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#define OFFSET_VER_BUF(position_x, position_y, cur_pic, i) ((position_y) + i + ((position_x)/LCU_WIDTH - 1) * (cur_pic)->height)
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#define OFFSET_VER_BUF_C(position_x, position_y, cur_pic, i) ((position_y/2) + i + ((position_x)/LCU_WIDTH - 1) * (cur_pic)->height / 2)
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//Get the data for horizontal buffer position at the top of LCU identified by the position in pixel
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#define OFFSET_HOR_BUF(position_x, position_y, cur_pic, i) ((position_x) + i + ((position_y)/LCU_WIDTH - 1) * (cur_pic)->width)
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#define OFFSET_HOR_BUF_C(position_x, position_y, cur_pic, i) ((position_x/2) + i + ((position_y)/LCU_WIDTH - 1) * (cur_pic)->width / 2)
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#endif //ENCODERSTATE_H_
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