uvg266/src/picture.h

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#ifndef PICTURE_H_
#define PICTURE_H_
/*****************************************************************************
* This file is part of Kvazaar HEVC encoder.
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*
* Copyright (C) 2013-2014 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 General Public License version 2 as published
* by the Free Software Foundation.
*
* 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 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 Coding Unit (CU) and picture data related functions.
*/
#include "global.h"
//#include "sao.h"
struct sao_info_struct;
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//////////////////////////////////////////////////////////////////////////
// CONSTANTS
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enum { CU_NOTSET = 0, CU_PCM, CU_SKIP, CU_SPLIT, CU_INTRA, CU_INTER };
enum { SLICE_B = 0, SLICE_P = 1, SLICE_I = 2 };
enum { REF_PIC_LIST_0 = 0, REF_PIC_LIST_1 = 1, REF_PIC_LIST_X = 100 };
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typedef enum { COLOR_Y = 0, COLOR_U, COLOR_V, NUM_COLORS } color_index;
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//////////////////////////////////////////////////////////////////////////
// TYPES
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typedef struct {
int x;
int y;
} vector2d;
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/**
* \brief Struct for CU intra info
*/
typedef struct
{
uint32_t cost;
uint32_t bitcost;
int8_t mode;
int8_t mode_chroma;
int8_t tr_skip; //!< \brief transform skip flag
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} cu_info_intra;
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/**
* \brief Struct for CU inter info
*/
typedef struct
{
uint32_t cost;
uint32_t bitcost;
int16_t mv[2];
int16_t mvd[2];
uint8_t mv_cand; // \brief selected MV candidate
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uint8_t mv_ref; // \brief Index of the encoder_control.ref array.
uint8_t mv_dir; // \brief Probably describes if mv_ref is forward, backward or both. Might not be needed?
int8_t mode;
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} cu_info_inter;
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/**
* \brief Struct for CU info
*/
typedef struct
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{
int8_t type; //!< \brief block type, CU_INTER / CU_INTRA
int8_t depth; //!< \brief depth / size of this block
int8_t part_size; //!< \brief Currently only 2Nx2N, TODO: AMP/SMP/NxN parts
int8_t tr_depth; //!< \brief transform depth
int8_t coded; //!< \brief flag to indicate this block is coded and reconstructed
int8_t skipped; //!< \brief flag to indicate this block is skipped
int8_t merged; //!< \brief flag to indicate this block is merged
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int8_t merge_idx; //!< \brief merge index
// MAX_DEPTH+4 for the 4 PUs at the last level.
int8_t coeff_top_y[MAX_DEPTH+5]; //!< \brief is there coded coeffs Y in top level
int8_t coeff_top_u[MAX_DEPTH+5]; //!< \brief is there coded coeffs U in top level
int8_t coeff_top_v[MAX_DEPTH+5]; //!< \brief is there coded coeffs V in top level
cu_info_intra intra[4];
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cu_info_inter inter;
} cu_info;
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/**
* \brief Struct which contains all picture data
*/
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typedef struct picture_struct
{
pixel* y_data; //!< \brief Pointer to luma pixel array.
pixel* u_data; //!< \brief Pointer to chroma U pixel array.
pixel* v_data; //!< \brief Pointer to chroma V pixel array.
pixel *data[NUM_COLORS]; // \brief Alternate access method to same data.
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pixel* y_recdata; //!< \brief Pointer to reconstructed Y-data.
pixel* u_recdata; //!< \brief Pointer to reconstructed U-data.
pixel* v_recdata; //!< \brief Pointer to reconstructed V-data.
pixel *recdata[NUM_COLORS]; // \brief Alternate access method to same data.
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pixel* pred_y; //!< \brief Pointer to predicted Y
pixel* pred_u; //!< \brief Pointer to predicted U
pixel* pred_v; //!< \brief Pointer to predicted V
coefficient* coeff_y; //!< \brief coefficient pointer Y
coefficient* coeff_u; //!< \brief coefficient pointer U
coefficient* coeff_v; //!< \brief coefficient pointer V
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int32_t width; //!< \brief Luma pixel array width.
int32_t height; //!< \brief Luma pixel array height.
int32_t height_in_lcu; //!< \brief Picture width in number of LCU's.
int32_t width_in_lcu; //!< \brief Picture height in number of LCU's.
uint8_t referenced; //!< \brief Whether this picture is referenced.
cu_info* cu_array; //!< \brief Info for each CU at each depth.
uint8_t type;
uint8_t slicetype;
uint8_t slice_sao_luma_flag;
uint8_t slice_sao_chroma_flag;
struct sao_info_struct *sao_luma; //!< \brief Array of sao parameters for every LCU.
struct sao_info_struct *sao_chroma; //!< \brief Array of sao parameters for every LCU.
int32_t poc; //!< \brief Picture order count
} picture;
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/**
* \brief Struct which contains array of picture structs
*/
typedef struct
{
picture** pics; //!< \brief Pointer to array of picture pointers.
uint32_t size; //!< \brief Array size.
uint32_t used_size;
} picture_list;
#define SUB_SCU_BIT_MASK (64 - 1)
#define SUB_SCU(xy) (xy & SUB_SCU_BIT_MASK)
#define LCU_CU_WIDTH 8
#define LCU_T_CU_WIDTH 9
#define LCU_CU_OFFSET 10
// Width from top left of the LCU, so +1 for ref buffer size.
#define LCU_REF_PX_WIDTH (LCU_WIDTH + LCU_WIDTH / 2)
/**
* Top and left intra reference pixels for LCU.
* - Intra needs maximum of 32 to the right and down from LCU border.
* - First pixel is the top-left pixel.
*/
typedef struct {
pixel y[LCU_REF_PX_WIDTH + 1];
pixel u[LCU_REF_PX_WIDTH / 2 + 1];
pixel v[LCU_REF_PX_WIDTH / 2 + 1];
} lcu_ref_px_t;
typedef struct {
coefficient y[LCU_LUMA_SIZE];
coefficient u[LCU_CHROMA_SIZE];
coefficient v[LCU_CHROMA_SIZE];
} lcu_coeff_t;
typedef struct {
pixel y[LCU_LUMA_SIZE];
pixel u[LCU_CHROMA_SIZE];
pixel v[LCU_CHROMA_SIZE];
} lcu_yuv_t;
typedef struct {
int size;
pixel *y;
pixel *u;
pixel *v;
} yuv_t;
typedef struct {
lcu_ref_px_t top_ref; //!< Reference pixels from adjacent LCUs.
lcu_ref_px_t left_ref; //!< Reference pixels from adjacent LCUs.
lcu_yuv_t ref; //!< LCU reference pixels
lcu_yuv_t rec; //!< LCU reconstructed pixels
/**
* We get the coefficients as a byproduct of doing reconstruction during the
* search. It might be more efficient to recalculate the final coefficients
* once we know the final modes rather than copying them.
*/
lcu_coeff_t coeff; //!< LCU coefficients
/**
* A 9x9 CU array for the LCU, +1 CU.
* - Top reference CUs on row 0.
* - Left reference CUs on column 0.
* - All of LCUs CUs on 1:9, 1:9.
* - Top right reference CU on the last slot.
*/
cu_info cu[9*9+1];
} lcu_t;
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//////////////////////////////////////////////////////////////////////////
// FUNCTIONS
yuv_t * alloc_yuv_t(int luma_size);
void dealloc_yuv_t(yuv_t * yuv);
picture * picture_alloc(int32_t width, int32_t height,
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int32_t width_in_lcu, int32_t height_in_lcu);
int picture_free(picture *pic);
void picture_blit_pixels(const pixel* orig, pixel *dst,
unsigned width, unsigned height,
unsigned orig_stride, unsigned dst_stride);
void picture_blit_coeffs(const coefficient *orig, coefficient *dst,
unsigned width, unsigned height,
unsigned orig_stride, unsigned dst_stride);
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picture_list * picture_list_init(int size);
int picture_list_resize(picture_list *list, unsigned size);
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int picture_list_destroy(picture_list *list);
int picture_list_add(picture_list *list, picture *pic);
int picture_list_rem(picture_list *list, unsigned n, int8_t destroy);
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typedef unsigned (*cost_16bit_nxn_func)(pixel *block1, pixel *block2);
cost_16bit_nxn_func get_satd_16bit_nxn_func(unsigned n);
cost_16bit_nxn_func get_sad_16bit_nxn_func(unsigned n);
unsigned satd_16bit_nxn(pixel *block1, pixel *block2, unsigned n);
unsigned sad_16bit_nxn(pixel *block1, pixel *block2, unsigned n);
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unsigned calc_sad(const picture *pic, const picture *ref,
int pic_x, int pic_y, int ref_x, int ref_y,
int block_width, int block_height);
double image_psnr(pixel *frame1, pixel *frame2, int32_t x, int32_t y);
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//////////////////////////////////////////////////////////////////////////
// MACROS
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#define GET_SPLITDATA(CU,curDepth) ((CU)->depth > curDepth)
#define SET_SPLITDATA(CU,flag) { (CU)->split=(flag); }
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#endif