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/*
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* VVC CTU(Coding Tree Unit) parser
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*
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* Copyright (C) 2022 Nuo Mi
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*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with FFmpeg; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#ifndef AVCODEC_VVC_CTU_H
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#define AVCODEC_VVC_CTU_H
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#include "libavcodec/cabac.h"
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#include "libavutil/mem_internal.h"
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#include "dec.h"
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#define MAX_CTU_SIZE 128
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#define MAX_CU_SIZE MAX_CTU_SIZE
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#define MIN_CU_SIZE 4
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#define MIN_CU_LOG2 2
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#define MAX_CU_DEPTH 7
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#define MAX_PARTS_IN_CTU ((MAX_CTU_SIZE >> MIN_CU_LOG2) * (MAX_CTU_SIZE >> MIN_CU_LOG2))
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#define MIN_PU_SIZE 4
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#define MAX_TB_SIZE 64
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#define MIN_TU_SIZE 4
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#define MAX_TUS_IN_CU 64
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#define MAX_QP 63
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#define MAX_PB_SIZE 128
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#define MAX_SCALING_RATIO 8
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#define EDGE_EMU_BUFFER_STRIDE ((MAX_PB_SIZE + 32) * MAX_SCALING_RATIO)
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#define CHROMA_EXTRA_BEFORE 1
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#define CHROMA_EXTRA_AFTER 2
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#define CHROMA_EXTRA 3
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#define LUMA_EXTRA_BEFORE 3
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#define LUMA_EXTRA_AFTER 4
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#define LUMA_EXTRA 7
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#define BILINEAR_EXTRA_BEFORE 0
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#define BILINEAR_EXTRA_AFTER 1
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#define BILINEAR_EXTRA 1
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#define SCALED_INT(pos) ((pos) >> 10)
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#define MAX_CONTROL_POINTS 3
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#define AFFINE_MIN_BLOCK_SIZE 4
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#define MRG_MAX_NUM_CANDS 6
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#define MAX_NUM_HMVP_CANDS 5
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#define SAO_PADDING_SIZE 1
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#define ALF_PADDING_SIZE 8
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#define ALF_BLOCK_SIZE 4
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#define ALF_BORDER_LUMA 3
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#define ALF_BORDER_CHROMA 2
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#define ALF_VB_POS_ABOVE_LUMA 4
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#define ALF_VB_POS_ABOVE_CHROMA 2
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#define ALF_GRADIENT_STEP 2
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#define ALF_GRADIENT_BORDER 2
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#define ALF_GRADIENT_SIZE ((MAX_CU_SIZE + ALF_GRADIENT_BORDER * 2) / ALF_GRADIENT_STEP)
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#define ALF_NUM_DIR 4
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/**
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* Value of the luma sample at position (x, y) in the 2D array tab.
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*/
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#define SAMPLE(tab, x, y) ((tab)[(y) * s->pps->width + (x)])
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#define SAMPLE_CTB(tab, x, y) ((tab)[(y) * min_cb_width + (x)])
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#define CTB(tab, x, y) ((tab)[(y) * fc->ps.pps->ctb_width + (x)])
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enum SAOType {
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SAO_NOT_APPLIED = 0,
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SAO_BAND,
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SAO_EDGE,
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};
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enum SAOEOClass {
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SAO_EO_HORIZ = 0,
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SAO_EO_VERT,
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SAO_EO_135D,
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SAO_EO_45D,
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};
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typedef struct NeighbourAvailable {
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int cand_left;
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int cand_up;
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int cand_up_left;
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int cand_up_right;
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int cand_up_right_sap;
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} NeighbourAvailable;
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enum IspType{
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ISP_NO_SPLIT,
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ISP_HOR_SPLIT,
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ISP_VER_SPLIT,
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};
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typedef enum VVCSplitMode {
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SPLIT_NONE,
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SPLIT_TT_HOR,
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SPLIT_BT_HOR,
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SPLIT_TT_VER,
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SPLIT_BT_VER,
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SPLIT_QT,
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} VVCSplitMode;
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typedef enum MtsIdx {
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MTS_DCT2_DCT2,
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MTS_DST7_DST7,
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MTS_DST7_DCT8,
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MTS_DCT8_DST7,
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MTS_DCT8_DCT8,
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} MtsIdx;
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typedef struct TransformBlock {
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uint8_t has_coeffs;
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uint8_t c_idx;
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uint8_t ts; ///< transform_skip_flag
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int x0;
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int y0;
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int tb_width;
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int tb_height;
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int log2_tb_width;
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int log2_tb_height;
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int max_scan_x;
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int max_scan_y;
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int min_scan_x;
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int min_scan_y;
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int qp;
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int rect_non_ts_flag;
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int bd_shift;
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int bd_offset;
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int *coeffs;
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} TransformBlock;
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typedef enum VVCTreeType {
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SINGLE_TREE,
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DUAL_TREE_LUMA,
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DUAL_TREE_CHROMA,
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} VVCTreeType;
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typedef struct TransformUnit {
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int x0;
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int y0;
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int width;
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int height;
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uint8_t joint_cbcr_residual_flag; ///< tu_joint_cbcr_residual_flag
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uint8_t coded_flag[VVC_MAX_SAMPLE_ARRAYS]; ///< tu_y_coded_flag, tu_cb_coded_flag, tu_cr_coded_flag
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uint8_t nb_tbs;
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TransformBlock tbs[VVC_MAX_SAMPLE_ARRAYS];
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struct TransformUnit *next; ///< RefStruct reference
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} TransformUnit;
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typedef enum PredMode {
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MODE_INTER,
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MODE_INTRA,
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MODE_SKIP,
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MODE_PLT,
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MODE_IBC,
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} PredMode;
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typedef struct Mv {
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int x; ///< horizontal component of motion vector
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int y; ///< vertical component of motion vector
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} Mv;
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typedef struct MvField {
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DECLARE_ALIGNED(8, Mv, mv)[2]; ///< mvL0, vvL1
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int8_t ref_idx[2]; ///< refIdxL0, refIdxL1
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uint8_t hpel_if_idx; ///< hpelIfIdx
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uint8_t bcw_idx; ///< bcwIdx
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uint8_t pred_flag;
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uint8_t ciip_flag; ///< ciip_flag
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} MvField;
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typedef struct DMVRInfo {
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DECLARE_ALIGNED(8, Mv, mv)[2]; ///< mvL0, vvL1
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uint8_t dmvr_enabled;
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} DMVRInfo;
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typedef enum MotionModelIdc {
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MOTION_TRANSLATION,
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MOTION_4_PARAMS_AFFINE,
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MOTION_6_PARAMS_AFFINE,
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} MotionModelIdc;
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typedef enum PredFlag {
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PF_INTRA = 0x0,
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PF_L0 = 0x1,
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PF_L1 = 0x2,
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PF_BI = 0x3,
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PF_IBC = PF_L0 | 0x4,
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} PredFlag;
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typedef enum IntraPredMode {
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INTRA_INVALID = -1,
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INTRA_PLANAR = 0,
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INTRA_DC,
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INTRA_HORZ = 18,
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INTRA_DIAG = 34,
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INTRA_VERT = 50,
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INTRA_VDIAG = 66,
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INTRA_LT_CCLM = 81,
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INTRA_L_CCLM,
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INTRA_T_CCLM
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} IntraPredMode;
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typedef struct MotionInfo {
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MotionModelIdc motion_model_idc; ///< MotionModelIdc
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int8_t ref_idx[2]; ///< refIdxL0, refIdxL1
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uint8_t hpel_if_idx; ///< hpelIfIdx
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uint8_t bcw_idx; ///< bcwIdx
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PredFlag pred_flag;
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Mv mv[2][MAX_CONTROL_POINTS];
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int num_sb_x, num_sb_y;
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} MotionInfo;
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typedef struct PredictionUnit {
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uint8_t general_merge_flag;
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uint8_t mmvd_merge_flag;
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//InterPredIdc inter_pred_idc;
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uint8_t inter_affine_flag;
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//subblock predict
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uint8_t merge_subblock_flag;
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uint8_t merge_gpm_flag;
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uint8_t gpm_partition_idx;
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MvField gpm_mv[2];
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int sym_mvd_flag;
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MotionInfo mi;
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// for regular prediction only
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uint8_t dmvr_flag;
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uint8_t bdof_flag;
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int16_t diff_mv_x[2][AFFINE_MIN_BLOCK_SIZE * AFFINE_MIN_BLOCK_SIZE]; ///< diffMvLX
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int16_t diff_mv_y[2][AFFINE_MIN_BLOCK_SIZE * AFFINE_MIN_BLOCK_SIZE]; ///< diffMvLX
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int cb_prof_flag[2];
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} PredictionUnit;
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typedef struct CodingUnit {
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VVCTreeType tree_type;
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int x0;
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int y0;
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int cb_width;
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int cb_height;
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int ch_type;
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int cqt_depth;
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uint8_t coded_flag;
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uint8_t sbt_flag;
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uint8_t sbt_horizontal_flag;
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uint8_t sbt_pos_flag;
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int lfnst_idx;
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MtsIdx mts_idx;
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uint8_t act_enabled_flag;
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uint8_t intra_luma_ref_idx; ///< IntraLumaRefLineIdx[][]
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uint8_t intra_mip_flag; ///< intra_mip_flag
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uint8_t skip_flag; ///< cu_skip_flag;
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//inter
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uint8_t ciip_flag;
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// Inferred parameters
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enum IspType isp_split_type; ///< IntraSubPartitionsSplitType
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enum PredMode pred_mode; ///< PredMode
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int num_intra_subpartitions;
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IntraPredMode intra_pred_mode_y; ///< IntraPredModeY
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IntraPredMode intra_pred_mode_c; ///< IntraPredModeC
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int mip_chroma_direct_flag; ///< MipChromaDirectFlag
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int bdpcm_flag[VVC_MAX_SAMPLE_ARRAYS]; ///< BdpcmFlag
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int apply_lfnst_flag[VVC_MAX_SAMPLE_ARRAYS]; ///< ApplyLfnstFlag[]
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struct {
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TransformUnit *head; ///< RefStruct reference
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TransformUnit *tail; ///< RefStruct reference
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} tus;
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int8_t qp[4]; ///< QpY, Qp′Cb, Qp′Cr, Qp′CbCr
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PredictionUnit pu;
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struct CodingUnit *next; ///< RefStruct reference
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} CodingUnit;
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typedef struct CTU {
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int max_y[2][VVC_MAX_REF_ENTRIES];
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int max_y_idx[2];
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int has_dmvr;
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} CTU;
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typedef struct ReconstructedArea {
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int x;
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int y;
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int w;
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int h;
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} ReconstructedArea;
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typedef struct VVCCabacState {
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uint16_t state[2];
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uint8_t shift[2];
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} VVCCabacState;
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// VVC_CONTEXTS matched with SYNTAX_ELEMENT_LAST, it's checked by cabac_init_state.
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#define VVC_CONTEXTS 378
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typedef struct EntryPoint {
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int8_t qp_y; ///< QpY
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int stat_coeff[VVC_MAX_SAMPLE_ARRAYS]; ///< StatCoeff
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VVCCabacState cabac_state[VVC_CONTEXTS];
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CABACContext cc;
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int ctu_start;
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int ctu_end;
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uint8_t is_first_qg; // first quantization group
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MvField hmvp[MAX_NUM_HMVP_CANDS]; ///< HmvpCandList
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int num_hmvp; ///< NumHmvpCand
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MvField hmvp_ibc[MAX_NUM_HMVP_CANDS]; ///< HmvpIbcCandList
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int num_hmvp_ibc; ///< NumHmvpIbcCand
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} EntryPoint;
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typedef struct VVCLocalContext {
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uint8_t ctb_left_flag;
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uint8_t ctb_up_flag;
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uint8_t ctb_up_right_flag;
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uint8_t ctb_up_left_flag;
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int end_of_tiles_x;
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int end_of_tiles_y;
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/* *2 for high bit depths */
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DECLARE_ALIGNED(32, uint8_t, edge_emu_buffer)[EDGE_EMU_BUFFER_STRIDE * EDGE_EMU_BUFFER_STRIDE * 2];
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DECLARE_ALIGNED(32, int16_t, tmp)[MAX_PB_SIZE * MAX_PB_SIZE];
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DECLARE_ALIGNED(32, int16_t, tmp1)[MAX_PB_SIZE * MAX_PB_SIZE];
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DECLARE_ALIGNED(32, int16_t, tmp2)[MAX_PB_SIZE * MAX_PB_SIZE];
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DECLARE_ALIGNED(32, uint8_t, ciip_tmp)[MAX_PB_SIZE * MAX_PB_SIZE * 2];
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DECLARE_ALIGNED(32, uint8_t, sao_buffer)[(MAX_CTU_SIZE + 2 * SAO_PADDING_SIZE) * EDGE_EMU_BUFFER_STRIDE * 2];
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DECLARE_ALIGNED(32, uint8_t, alf_buffer_luma)[(MAX_CTU_SIZE + 2 * ALF_PADDING_SIZE) * EDGE_EMU_BUFFER_STRIDE * 2];
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DECLARE_ALIGNED(32, uint8_t, alf_buffer_chroma)[(MAX_CTU_SIZE + 2 * ALF_PADDING_SIZE) * EDGE_EMU_BUFFER_STRIDE * 2];
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DECLARE_ALIGNED(32, int32_t, alf_gradient_tmp)[ALF_GRADIENT_SIZE * ALF_GRADIENT_SIZE * ALF_NUM_DIR];
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struct {
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int sbt_num_fourths_tb0; ///< SbtNumFourthsTb0
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uint8_t is_cu_qp_delta_coded; ///< IsCuQpDeltaCoded
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int cu_qg_top_left_x; ///< CuQgTopLeftX
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int cu_qg_top_left_y; ///< CuQgTopLeftY
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int is_cu_chroma_qp_offset_coded; ///< IsCuChromaQpOffsetCoded
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int chroma_qp_offset[3]; ///< CuQpOffsetCb, CuQpOffsetCr, CuQpOffsetCbCr
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int infer_tu_cbf_luma; ///< InferTuCbfLuma
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int prev_tu_cbf_y; ///< prevTuCbfY;
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int lfnst_dc_only; ///< LfnstDcOnly
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int lfnst_zero_out_sig_coeff_flag; ///< LfnstZeroOutSigCoeffFlag
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int mts_dc_only; ///< MtsDcOnly
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int mts_zero_out_sig_coeff_flag; ///< MtsZeroOutSigCoeffFlag;
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} parse;
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struct {
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// lmcs cache, for recon only
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int chroma_scale;
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int x_vpdu;
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int y_vpdu;
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} lmcs;
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CodingUnit *cu;
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ReconstructedArea ras[2][MAX_PARTS_IN_CTU];
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int num_ras[2];
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NeighbourAvailable na;
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#define BOUNDARY_LEFT_SLICE (1 << 0)
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#define BOUNDARY_LEFT_TILE (1 << 1)
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#define BOUNDARY_LEFT_SUBPIC (1 << 2)
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#define BOUNDARY_UPPER_SLICE (1 << 3)
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#define BOUNDARY_UPPER_TILE (1 << 4)
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#define BOUNDARY_UPPER_SUBPIC (1 << 5)
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/* properties of the boundary of the current CTB for the purposes
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* of the deblocking filter */
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int boundary_flags;
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SliceContext *sc;
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VVCFrameContext *fc;
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EntryPoint *ep;
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int *coeffs;
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} VVCLocalContext;
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typedef struct VVCAllowedSplit {
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int qt;
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int btv;
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int bth;
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int ttv;
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|
int tth;
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|
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} VVCAllowedSplit;
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typedef struct SAOParams {
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int offset_abs[3][4]; ///< sao_offset_abs
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int offset_sign[3][4]; ///< sao_offset_sign
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|
|
uint8_t band_position[3]; ///< sao_band_position
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|
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int eo_class[3]; ///< sao_eo_class
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int16_t offset_val[3][5]; ///< SaoOffsetVal
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uint8_t type_idx[3]; ///< sao_type_idx
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|
|
} SAOParams;
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|
|
typedef struct ALFParams {
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|
|
uint8_t ctb_flag[3]; ///< alf_ctb_flag[]
|
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|
|
uint8_t ctb_filt_set_idx_y; ///< AlfCtbFiltSetIdxY
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|
|
uint8_t alf_ctb_filter_alt_idx[2]; ///< alf_ctb_filter_alt_idx[]
|
|
|
|
uint8_t ctb_cc_idc[2]; ///< alf_ctb_cc_cb_idc, alf_ctb_cc_cr_idc
|
|
|
|
} ALFParams;
|
|
|
|
|
|
|
|
typedef struct VVCRect {
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|
|
|
int l; // left
|
|
|
|
int t; // top
|
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|
|
int r; // right
|
|
|
|
int b; // bottom
|
|
|
|
} VVCRect;
|
|
|
|
|
|
|
|
/**
|
|
|
|
* parse a CTU
|
|
|
|
* @param lc local context for CTU
|
|
|
|
* @param ctb_idx CTB(CTU) address in the current slice
|
|
|
|
* @param rs raster order for the CTU.
|
|
|
|
* @param rx raster order x for the CTU.
|
|
|
|
* @param ry raster order y for the CTU.
|
|
|
|
* @return AVERROR
|
|
|
|
*/
|
|
|
|
int ff_vvc_coding_tree_unit(VVCLocalContext *lc, int ctu_idx, int rs, int rx, int ry);
|
|
|
|
|
|
|
|
//utils
|
|
|
|
void ff_vvc_set_neighbour_available(VVCLocalContext *lc, int x0, int y0, int w, int h);
|
|
|
|
void ff_vvc_decode_neighbour(VVCLocalContext *lc, int x_ctb, int y_ctb, int rx, int ry, int rs);
|
|
|
|
void ff_vvc_ctu_free_cus(CodingUnit **cus);
|
|
|
|
int ff_vvc_get_qPy(const VVCFrameContext *fc, int xc, int yc);
|
|
|
|
void ff_vvc_ep_init_stat_coeff(EntryPoint *ep, int bit_depth, int persistent_rice_adaptation_enabled_flag);
|
|
|
|
|
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|
|
#endif // AVCODEC_VVC_CTU_H
|