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/*
* Copyright (c) 2016, Alliance for Open Media. All rights reserved
*
* This source code is subject to the terms of the BSD 2 Clause License and
* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
* was not distributed with this source code in the LICENSE file, you can
* obtain it at www.aomedia.org/license/software. If the Alliance for Open
* Media Patent License 1.0 was not distributed with this source code in the
* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
*/
/*!\file
* \brief Declares top-level encoder structures and functions.
*/
#ifndef AOM_AV1_ENCODER_ENCODER_H_
#define AOM_AV1_ENCODER_ENCODER_H_
#include <stdbool.h>
#include <stdio.h>
#include "config/aom_config.h"
#include "aom/aomcx.h"
#include "av1/common/alloccommon.h"
#include "av1/common/av1_common_int.h"
#include "av1/common/blockd.h"
#include "av1/common/entropymode.h"
#include "av1/common/enums.h"
#include "av1/common/reconintra.h"
#include "av1/common/resize.h"
#include "av1/common/thread_common.h"
#include "av1/common/timing.h"
#include "av1/encoder/aq_cyclicrefresh.h"
#include "av1/encoder/av1_quantize.h"
#include "av1/encoder/block.h"
#include "av1/encoder/context_tree.h"
#include "av1/encoder/encodemb.h"
#include "av1/encoder/external_partition.h"
#include "av1/encoder/firstpass.h"
#include "av1/encoder/global_motion.h"
#include "av1/encoder/level.h"
#include "av1/encoder/lookahead.h"
#include "av1/encoder/mcomp.h"
#include "av1/encoder/pickcdef.h"
#include "av1/encoder/ratectrl.h"
#include "av1/encoder/rd.h"
#include "av1/encoder/speed_features.h"
#include "av1/encoder/svc_layercontext.h"
#include "av1/encoder/temporal_filter.h"
#include "av1/encoder/thirdpass.h"
#include "av1/encoder/tokenize.h"
#include "av1/encoder/tpl_model.h"
#include "av1/encoder/av1_noise_estimate.h"
#include "av1/encoder/bitstream.h"
#if CONFIG_INTERNAL_STATS
#include "aom_dsp/ssim.h"
#endif
#include "aom_dsp/variance.h"
#if CONFIG_DENOISE
#include "aom_dsp/noise_model.h"
#endif
#if CONFIG_TUNE_VMAF
#include "av1/encoder/tune_vmaf.h"
#endif
#if CONFIG_AV1_TEMPORAL_DENOISING
#include "av1/encoder/av1_temporal_denoiser.h"
#endif
#if CONFIG_TUNE_BUTTERAUGLI
#include "av1/encoder/tune_butteraugli.h"
#endif
#include "aom/internal/aom_codec_internal.h"
#include "aom_util/aom_thread.h"
#ifdef __cplusplus
extern "C" {
#endif
// TODO(yunqing, any): Added suppression tag to quiet Doxygen warnings. Need to
// adjust it while we work on documentation.
/*!\cond */
// Number of frames required to test for scene cut detection
#define SCENE_CUT_KEY_TEST_INTERVAL 16
// Lookahead index threshold to enable temporal filtering for second arf.
#define TF_LOOKAHEAD_IDX_THR 7
#define HDR_QP_LEVELS 10
#define CHROMA_CB_QP_SCALE 1.04
#define CHROMA_CR_QP_SCALE 1.04
#define CHROMA_QP_SCALE -0.46
#define CHROMA_QP_OFFSET 9.26
#define QP_SCALE_FACTOR 2.0
#define DISABLE_HDR_LUMA_DELTAQ 1
// Rational number with an int64 numerator
// This structure holds a fractional value
typedef struct aom_rational64 {
int64_t num; // fraction numerator
int den; // fraction denominator
} aom_rational64_t; // alias for struct aom_rational
enum {
// Good Quality Fast Encoding. The encoder balances quality with the amount of
// time it takes to encode the output. Speed setting controls how fast.
GOOD,
// Realtime Fast Encoding. Will force some restrictions on bitrate
// constraints.
REALTIME,
// All intra mode. All the frames are coded as intra frames.
ALLINTRA
} UENUM1BYTE(MODE);
enum {
FRAMEFLAGS_KEY = 1 << 0,
FRAMEFLAGS_GOLDEN = 1 << 1,
FRAMEFLAGS_BWDREF = 1 << 2,
// TODO(zoeliu): To determine whether a frame flag is needed for ALTREF2_FRAME
FRAMEFLAGS_ALTREF = 1 << 3,
FRAMEFLAGS_INTRAONLY = 1 << 4,
FRAMEFLAGS_SWITCH = 1 << 5,
FRAMEFLAGS_ERROR_RESILIENT = 1 << 6,
} UENUM1BYTE(FRAMETYPE_FLAGS);
#if CONFIG_FPMT_TEST
enum {
PARALLEL_ENCODE = 0,
PARALLEL_SIMULATION_ENCODE,
NUM_FPMT_TEST_ENCODES
} UENUM1BYTE(FPMT_TEST_ENC_CFG);
#endif // CONFIG_FPMT_TEST
// 0 level frames are sometimes used for rate control purposes, but for
// reference mapping purposes, the minimum level should be 1.
#define MIN_PYR_LEVEL 1
static INLINE int get_true_pyr_level(int frame_level, int frame_order,
int max_layer_depth) {
if (frame_order == 0) {
// Keyframe case
return MIN_PYR_LEVEL;
} else if (frame_level == MAX_ARF_LAYERS) {
// Leaves
return max_layer_depth;
} else if (frame_level == (MAX_ARF_LAYERS + 1)) {
// Altrefs
return MIN_PYR_LEVEL;
}
return AOMMAX(MIN_PYR_LEVEL, frame_level);
}
enum {
NO_AQ = 0,
VARIANCE_AQ = 1,
COMPLEXITY_AQ = 2,
CYCLIC_REFRESH_AQ = 3,
AQ_MODE_COUNT // This should always be the last member of the enum
} UENUM1BYTE(AQ_MODE);
enum {
NO_DELTA_Q = 0,
DELTA_Q_OBJECTIVE = 1, // Modulation to improve objective quality
DELTA_Q_PERCEPTUAL = 2, // Modulation to improve video perceptual quality
DELTA_Q_PERCEPTUAL_AI = 3, // Perceptual quality opt for all intra mode
DELTA_Q_USER_RATING_BASED = 4, // User rating based delta q mode
DELTA_Q_HDR = 5, // QP adjustment based on HDR block pixel average
DELTA_Q_MODE_COUNT // This should always be the last member of the enum
} UENUM1BYTE(DELTAQ_MODE);
enum {
RESIZE_NONE = 0, // No frame resizing allowed.
RESIZE_FIXED = 1, // All frames are coded at the specified scale.
RESIZE_RANDOM = 2, // All frames are coded at a random scale.
RESIZE_DYNAMIC = 3, // Frames coded at lower scale based on rate control.
RESIZE_MODES
} UENUM1BYTE(RESIZE_MODE);
enum {
SS_CFG_SRC = 0,
SS_CFG_LOOKAHEAD = 1,
SS_CFG_FPF = 2,
SS_CFG_TOTAL = 3
} UENUM1BYTE(SS_CFG_OFFSET);
enum {
DISABLE_SCENECUT, // For LAP, lag_in_frames < 19
ENABLE_SCENECUT_MODE_1, // For LAP, lag_in_frames >=19 and < 33
ENABLE_SCENECUT_MODE_2 // For twopass and LAP - lag_in_frames >=33
} UENUM1BYTE(SCENECUT_MODE);
#define MAX_VBR_CORPUS_COMPLEXITY 10000
typedef enum {
MOD_FP, // First pass
MOD_TF, // Temporal filtering
MOD_TPL, // TPL
MOD_GME, // Global motion estimation
MOD_ENC, // Encode stage
MOD_LPF, // Deblocking loop filter
MOD_CDEF_SEARCH, // CDEF search
MOD_CDEF, // CDEF frame
MOD_LR, // Loop restoration filtering
MOD_PACK_BS, // Pack bitstream
MOD_FRAME_ENC, // Frame Parallel encode
MOD_AI, // All intra
NUM_MT_MODULES
} MULTI_THREADED_MODULES;
/*!\endcond */
/*!\enum COST_UPDATE_TYPE
* \brief This enum controls how often the entropy costs should be updated.
* \warning In case of any modifications/additions done to the enum
* COST_UPDATE_TYPE, the enum INTERNAL_COST_UPDATE_TYPE needs to be updated as
* well.
*/
typedef enum {
COST_UPD_SB, /*!< Update every sb. */
COST_UPD_SBROW, /*!< Update every sb rows inside a tile. */
COST_UPD_TILE, /*!< Update every tile. */
COST_UPD_OFF, /*!< Turn off cost updates. */
NUM_COST_UPDATE_TYPES, /*!< Number of cost update types. */
} COST_UPDATE_TYPE;
/*!\enum LOOPFILTER_CONTROL
* \brief This enum controls to which frames loopfilter is applied.
*/
typedef enum {
LOOPFILTER_NONE = 0, /*!< Disable loopfilter on all frames. */
LOOPFILTER_ALL = 1, /*!< Enable loopfilter for all frames. */
LOOPFILTER_REFERENCE = 2, /*!< Disable loopfilter on non reference frames. */
LOOPFILTER_SELECTIVELY =
3, /*!< Disable loopfilter on frames with low motion. */
} LOOPFILTER_CONTROL;
/*!\enum SKIP_APPLY_POSTPROC_FILTER
* \brief This enum controls the application of post-processing filters on a
* reconstructed frame.
*/
typedef enum {
SKIP_APPLY_RESTORATION = 1 << 0,
SKIP_APPLY_SUPERRES = 1 << 1,
SKIP_APPLY_CDEF = 1 << 2,
SKIP_APPLY_LOOPFILTER = 1 << 3,
} SKIP_APPLY_POSTPROC_FILTER;
/*!
* \brief Encoder config related to resize.
*/
typedef struct {
/*!
* Indicates the frame resize mode to be used by the encoder.
*/
RESIZE_MODE resize_mode;
/*!
* Indicates the denominator for resize of inter frames, assuming 8 as the
* numerator. Its value ranges between 8-16.
*/
uint8_t resize_scale_denominator;
/*!
* Indicates the denominator for resize of key frames, assuming 8 as the
* numerator. Its value ranges between 8-16.
*/
uint8_t resize_kf_scale_denominator;
} ResizeCfg;
/*!
* \brief Encoder config for coding block partitioning.
*/
typedef struct {
/*!
* Flag to indicate if rectanguar partitions should be enabled.
*/
bool enable_rect_partitions;
/*!
* Flag to indicate if AB partitions should be enabled.
*/
bool enable_ab_partitions;
/*!
* Flag to indicate if 1:4 / 4:1 partitions should be enabled.
*/
bool enable_1to4_partitions;
/*!
* Indicates the minimum partition size that should be allowed. Both width and
* height of a partition cannot be smaller than the min_partition_size.
*/
BLOCK_SIZE min_partition_size;
/*!
* Indicates the maximum partition size that should be allowed. Both width and
* height of a partition cannot be larger than the max_partition_size.
*/
BLOCK_SIZE max_partition_size;
} PartitionCfg;
/*!
* \brief Encoder flags for intra prediction.
*/
typedef struct {
/*!
* Flag to indicate if intra edge filtering process should be enabled.
*/
bool enable_intra_edge_filter;
/*!
* Flag to indicate if recursive filtering based intra prediction should be
* enabled.
*/
bool enable_filter_intra;
/*!
* Flag to indicate if smooth intra prediction modes should be enabled.
*/
bool enable_smooth_intra;
/*!
* Flag to indicate if PAETH intra prediction mode should be enabled.
*/
bool enable_paeth_intra;
/*!
* Flag to indicate if CFL uv intra mode should be enabled.
*/
bool enable_cfl_intra;
/*!
* Flag to indicate if directional modes should be enabled.
*/
bool enable_directional_intra;
/*!
* Flag to indicate if the subset of directional modes from D45 to D203 intra
* should be enabled. Has no effect if directional modes are disabled.
*/
bool enable_diagonal_intra;
/*!
* Flag to indicate if delta angles for directional intra prediction should be
* enabled.
*/
bool enable_angle_delta;
/*!
* Flag to indicate whether to automatically turn off several intral coding
* tools.
* This flag is only used when "--deltaq-mode=3" is true.
* When set to 1, the encoder will analyze the reconstruction quality
* as compared to the source image in the preprocessing pass.
* If the recontruction quality is considered high enough, we disable
* the following intra coding tools, for better encoding speed:
* "--enable_smooth_intra",
* "--enable_paeth_intra",
* "--enable_cfl_intra",
* "--enable_diagonal_intra".
*/
bool auto_intra_tools_off;
} IntraModeCfg;
/*!
* \brief Encoder flags for transform sizes and types.
*/
typedef struct {
/*!
* Flag to indicate if 64-pt transform should be enabled.
*/
bool enable_tx64;
/*!
* Flag to indicate if flip and identity transform types should be enabled.
*/
bool enable_flip_idtx;
/*!
* Flag to indicate if rectangular transform should be enabled.
*/
bool enable_rect_tx;
/*!
* Flag to indicate whether or not to use a default reduced set for ext-tx
* rather than the potential full set of 16 transforms.
*/
bool reduced_tx_type_set;
/*!
* Flag to indicate if transform type for intra blocks should be limited to
* DCT_DCT.
*/
bool use_intra_dct_only;
/*!
* Flag to indicate if transform type for inter blocks should be limited to
* DCT_DCT.
*/
bool use_inter_dct_only;
/*!
* Flag to indicate if intra blocks should use default transform type
* (mode-dependent) only.
*/
bool use_intra_default_tx_only;
/*!
* Flag to indicate if transform size search should be enabled.
*/
bool enable_tx_size_search;
} TxfmSizeTypeCfg;
/*!
* \brief Encoder flags for compound prediction modes.
*/
typedef struct {
/*!
* Flag to indicate if distance-weighted compound type should be enabled.
*/
bool enable_dist_wtd_comp;
/*!
* Flag to indicate if masked (wedge/diff-wtd) compound type should be
* enabled.
*/
bool enable_masked_comp;
/*!
* Flag to indicate if smooth interintra mode should be enabled.
*/
bool enable_smooth_interintra;
/*!
* Flag to indicate if difference-weighted compound type should be enabled.
*/
bool enable_diff_wtd_comp;
/*!
* Flag to indicate if inter-inter wedge compound type should be enabled.
*/
bool enable_interinter_wedge;
/*!
* Flag to indicate if inter-intra wedge compound type should be enabled.
*/
bool enable_interintra_wedge;
} CompoundTypeCfg;
/*!
* \brief Encoder config related to frame super-resolution.
*/
typedef struct {
/*!
* Indicates the qindex based threshold to be used when AOM_SUPERRES_QTHRESH
* mode is used for inter frames.
*/
int superres_qthresh;
/*!
* Indicates the qindex based threshold to be used when AOM_SUPERRES_QTHRESH
* mode is used for key frames.
*/
int superres_kf_qthresh;
/*!
* Indicates the denominator of the fraction that specifies the ratio between
* the superblock width before and after upscaling for inter frames. The
* numerator of this fraction is equal to the constant SCALE_NUMERATOR.
*/
uint8_t superres_scale_denominator;
/*!
* Indicates the denominator of the fraction that specifies the ratio between
* the superblock width before and after upscaling for key frames. The
* numerator of this fraction is equal to the constant SCALE_NUMERATOR.
*/
uint8_t superres_kf_scale_denominator;
/*!
* Indicates the Super-resolution mode to be used by the encoder.
*/
aom_superres_mode superres_mode;
/*!
* Flag to indicate if super-resolution should be enabled for the sequence.
*/
bool enable_superres;
} SuperResCfg;
/*!
* \brief Encoder config related to the coding of key frames.
*/
typedef struct {
/*!
* Indicates the minimum distance to a key frame.
*/
int key_freq_min;
/*!
* Indicates the maximum distance to a key frame.
*/
int key_freq_max;
/*!
* Indicates if temporal filtering should be applied on keyframe.
*/
int enable_keyframe_filtering;
/*!
* Indicates the number of frames after which a frame may be coded as an
* S-Frame.
*/
int sframe_dist;
/*!
* Indicates how an S-Frame should be inserted.
* 1: the considered frame will be made into an S-Frame only if it is an
* altref frame. 2: the next altref frame will be made into an S-Frame.
*/
int sframe_mode;
/*!
* Indicates if encoder should autodetect cut scenes and set the keyframes.
*/
bool auto_key;
/*!
* Indicates the forward key frame distance.
*/
int fwd_kf_dist;
/*!
* Indicates if forward keyframe reference should be enabled.
*/
bool fwd_kf_enabled;
/*!
* Indicates if S-Frames should be enabled for the sequence.
*/
bool enable_sframe;
/*!
* Indicates if intra block copy prediction mode should be enabled or not.
*/
bool enable_intrabc;
} KeyFrameCfg;
/*!
* \brief Encoder rate control configuration parameters
*/
typedef struct {
/*!\cond */
// BUFFERING PARAMETERS
/*!\endcond */
/*!
* Indicates the amount of data that will be buffered by the decoding
* application prior to beginning playback, and is expressed in units of
* time(milliseconds).
*/
int64_t starting_buffer_level_ms;
/*!
* Indicates the amount of data that the encoder should try to maintain in the
* decoder's buffer, and is expressed in units of time(milliseconds).
*/
int64_t optimal_buffer_level_ms;
/*!
* Indicates the maximum amount of data that may be buffered by the decoding
* application, and is expressed in units of time(milliseconds).
*/
int64_t maximum_buffer_size_ms;
/*!
* Indicates the bandwidth to be used in bits per second.
*/
int64_t target_bandwidth;
/*!
* Indicates average complexity of the corpus in single pass vbr based on
* LAP. 0 indicates that corpus complexity vbr mode is disabled.
*/
unsigned int vbr_corpus_complexity_lap;
/*!
* Indicates the maximum allowed bitrate for any intra frame as % of bitrate
* target.
*/
unsigned int max_intra_bitrate_pct;
/*!
* Indicates the maximum allowed bitrate for any inter frame as % of bitrate
* target.
*/
unsigned int max_inter_bitrate_pct;
/*!
* Indicates the percentage of rate boost for golden frame in CBR mode.
*/
unsigned int gf_cbr_boost_pct;
/*!
* min_cr / 100 indicates the target minimum compression ratio for each
* frame.
*/
unsigned int min_cr;
/*!
* Indicates the frame drop threshold.
*/
int drop_frames_water_mark;
/*!
* under_shoot_pct indicates the tolerance of the VBR algorithm to
* undershoot and is used as a trigger threshold for more aggressive
* adaptation of Q. It's value can range from 0-100.
*/
int under_shoot_pct;
/*!
* over_shoot_pct indicates the tolerance of the VBR algorithm to overshoot
* and is used as a trigger threshold for more aggressive adaptation of Q.
* It's value can range from 0-1000.
*/
int over_shoot_pct;
/*!
* Indicates the maximum qindex that can be used by the quantizer i.e. the
* worst quality qindex.
*/
int worst_allowed_q;
/*!
* Indicates the minimum qindex that can be used by the quantizer i.e. the
* best quality qindex.
*/
int best_allowed_q;
/*!
* Indicates the Constant/Constrained Quality level.
*/
int cq_level;
/*!
* Indicates if the encoding mode is vbr, cbr, constrained quality or
* constant quality.
*/
enum aom_rc_mode mode;
/*!
* Indicates the bias (expressed on a scale of 0 to 100) for determining
* target size for the current frame. The value 0 indicates the optimal CBR
* mode value should be used, and 100 indicates the optimal VBR mode value
* should be used.
*/
int vbrbias;
/*!
* Indicates the minimum bitrate to be used for a single frame as a percentage
* of the target bitrate.
*/
int vbrmin_section;
/*!
* Indicates the maximum bitrate to be used for a single frame as a percentage
* of the target bitrate.
*/
int vbrmax_section;
} RateControlCfg;
/*!\cond */
typedef struct {
// Indicates the number of frames lag before encoding is started.
int lag_in_frames;
// Indicates the minimum gf/arf interval to be used.
int min_gf_interval;
// Indicates the maximum gf/arf interval to be used.
int max_gf_interval;
// Indicates the minimum height for GF group pyramid structure to be used.
int gf_min_pyr_height;
// Indicates the maximum height for GF group pyramid structure to be used.
int gf_max_pyr_height;
// Indicates if automatic set and use of altref frames should be enabled.
bool enable_auto_arf;
// Indicates if automatic set and use of (b)ackward (r)ef (f)rames should be
// enabled.
bool enable_auto_brf;
} GFConfig;
typedef struct {
// Indicates the number of tile groups.
unsigned int num_tile_groups;
// Indicates the MTU size for a tile group. If mtu is non-zero,
// num_tile_groups is set to DEFAULT_MAX_NUM_TG.
unsigned int mtu;
// Indicates the number of tile columns in log2.
int tile_columns;
// Indicates the number of tile rows in log2.
int tile_rows;
// Indicates the number of widths in the tile_widths[] array.
int tile_width_count;
// Indicates the number of heights in the tile_heights[] array.
int tile_height_count;
// Indicates the tile widths, and may be empty.
int tile_widths[MAX_TILE_COLS];
// Indicates the tile heights, and may be empty.
int tile_heights[MAX_TILE_ROWS];
// Indicates if large scale tile coding should be used.
bool enable_large_scale_tile;
// Indicates if single tile decoding mode should be enabled.
bool enable_single_tile_decoding;
// Indicates if EXT_TILE_DEBUG should be enabled.
bool enable_ext_tile_debug;
} TileConfig;
typedef struct {
// Indicates the width of the input frame.
int width;
// Indicates the height of the input frame.
int height;
// If forced_max_frame_width is non-zero then it is used to force the maximum
// frame width written in write_sequence_header().
int forced_max_frame_width;
// If forced_max_frame_width is non-zero then it is used to force the maximum
// frame height written in write_sequence_header().
int forced_max_frame_height;
// Indicates the frame width after applying both super-resolution and resize
// to the coded frame.
int render_width;
// Indicates the frame height after applying both super-resolution and resize
// to the coded frame.
int render_height;
} FrameDimensionCfg;
typedef struct {
// Indicates if warped motion should be enabled.
bool enable_warped_motion;
// Indicates if warped motion should be evaluated or not.
bool allow_warped_motion;
// Indicates if OBMC motion should be enabled.
bool enable_obmc;
} MotionModeCfg;
typedef struct {
// Timing info for each frame.
aom_timing_info_t timing_info;
// Indicates the number of time units of a decoding clock.
uint32_t num_units_in_decoding_tick;
// Indicates if decoder model information is present in the coded sequence
// header.
bool decoder_model_info_present_flag;
// Indicates if display model information is present in the coded sequence
// header.
bool display_model_info_present_flag;
// Indicates if timing info for each frame is present.
bool timing_info_present;
} DecoderModelCfg;
typedef struct {
// Indicates the update frequency for coeff costs.
COST_UPDATE_TYPE coeff;
// Indicates the update frequency for mode costs.
COST_UPDATE_TYPE mode;
// Indicates the update frequency for mv costs.
COST_UPDATE_TYPE mv;
// Indicates the update frequency for dv costs.
COST_UPDATE_TYPE dv;
} CostUpdateFreq;
typedef struct {
// Indicates the maximum number of reference frames allowed per frame.
unsigned int max_reference_frames;
// Indicates if the reduced set of references should be enabled.
bool enable_reduced_reference_set;
// Indicates if one-sided compound should be enabled.
bool enable_onesided_comp;
} RefFrameCfg;
typedef struct {
// Indicates the color space that should be used.
aom_color_primaries_t color_primaries;
// Indicates the characteristics of transfer function to be used.
aom_transfer_characteristics_t transfer_characteristics;
// Indicates the matrix coefficients to be used for the transfer function.
aom_matrix_coefficients_t matrix_coefficients;
// Indicates the chroma 4:2:0 sample position info.
aom_chroma_sample_position_t chroma_sample_position;
// Indicates if a limited color range or full color range should be used.
aom_color_range_t color_range;
} ColorCfg;
typedef struct {
// Indicates if extreme motion vector unit test should be enabled or not.
unsigned int motion_vector_unit_test;
// Indicates if superblock multipass unit test should be enabled or not.
unsigned int sb_multipass_unit_test;
} UnitTestCfg;
typedef struct {
// Indicates the file path to the VMAF model.
const char *vmaf_model_path;
// Indicates the path to the film grain parameters.
const char *film_grain_table_filename;
// Indicates the visual tuning metric.
aom_tune_metric tuning;
// Indicates if the current content is screen or default type.
aom_tune_content content;
// Indicates the film grain parameters.
int film_grain_test_vector;
// Indicates the in-block distortion metric to use.
aom_dist_metric dist_metric;
} TuneCfg;
typedef struct {
// Indicates the framerate of the input video.
double init_framerate;
// Indicates the bit-depth of the input video.
unsigned int input_bit_depth;
// Indicates the maximum number of frames to be encoded.
unsigned int limit;
// Indicates the chrome subsampling x value.
unsigned int chroma_subsampling_x;
// Indicates the chrome subsampling y value.
unsigned int chroma_subsampling_y;
} InputCfg;
typedef struct {
// If true, encoder will use fixed QP offsets, that are either:
// - Given by the user, and stored in 'fixed_qp_offsets' array, OR
// - Picked automatically from cq_level.
int use_fixed_qp_offsets;
// Indicates the minimum flatness of the quantization matrix.
int qm_minlevel;
// Indicates the maximum flatness of the quantization matrix.
int qm_maxlevel;
// Indicates if adaptive quantize_b should be enabled.
int quant_b_adapt;
// Indicates the Adaptive Quantization mode to be used.
AQ_MODE aq_mode;
// Indicates the delta q mode to be used.
DELTAQ_MODE deltaq_mode;
// Indicates the delta q mode strength.
DELTAQ_MODE deltaq_strength;
// Indicates if delta quantization should be enabled in chroma planes.
bool enable_chroma_deltaq;
// Indicates if delta quantization should be enabled for hdr video
bool enable_hdr_deltaq;
// Indicates if encoding with quantization matrices should be enabled.
bool using_qm;
} QuantizationCfg;
/*!\endcond */
/*!
* \brief Algorithm configuration parameters.
*/
typedef struct {
/*!
* Controls the level at which rate-distortion optimization of transform
* coefficients favours sharpness in the block. Has no impact on RD when set
* to zero (default). For values 1-7, eob and skip block optimization are
* avoided and rdmult is adjusted in favour of block sharpness.
*/
int sharpness;
/*!
* Indicates the trellis optimization mode of quantized coefficients.
* 0: disabled
* 1: enabled
* 2: enabled for rd search
* 3: true for estimate yrd search
*/
int disable_trellis_quant;
/*!
* The maximum number of frames used to create an arf.
*/
int arnr_max_frames;
/*!
* The temporal filter strength for arf used when creating ARFs.
*/
int arnr_strength;
/*!
* Indicates the CDF update mode
* 0: no update
* 1: update on every frame(default)
* 2: selectively update
*/
uint8_t cdf_update_mode;
/*!
* Indicates if RDO based on frame temporal dependency should be enabled.
*/
bool enable_tpl_model;
/*!
* Indicates if coding of overlay frames for filtered ALTREF frames is
* enabled.
*/
bool enable_overlay;
/*!
* Controls loop filtering
* 0: Loop filter is disabled for all frames
* 1: Loop filter is enabled for all frames
* 2: Loop filter is disabled for non-reference frames
* 3: Loop filter is disables for the frames with low motion
*/
LOOPFILTER_CONTROL loopfilter_control;
/*!
* Indicates if the application of post-processing filters should be skipped
* on reconstructed frame.
*/
bool skip_postproc_filtering;
} AlgoCfg;
/*!\cond */
typedef struct {
// Indicates the codec bit-depth.
aom_bit_depth_t bit_depth;
// Indicates the superblock size that should be used by the encoder.
aom_superblock_size_t superblock_size;
// Indicates if loopfilter modulation should be enabled.
bool enable_deltalf_mode;
// Indicates how CDEF should be applied.
CDEF_CONTROL cdef_control;
// Indicates if loop restoration filter should be enabled.
bool enable_restoration;
// When enabled, video mode should be used even for single frame input.
bool force_video_mode;
// Indicates if the error resiliency features should be enabled.
bool error_resilient_mode;
// Indicates if frame parallel decoding feature should be enabled.
bool frame_parallel_decoding_mode;
// Indicates if the input should be encoded as monochrome.
bool enable_monochrome;
// When enabled, the encoder will use a full header even for still pictures.
// When disabled, a reduced header is used for still pictures.
bool full_still_picture_hdr;
// Indicates if dual interpolation filters should be enabled.
bool enable_dual_filter;
// Indicates if frame order hint should be enabled or not.
bool enable_order_hint;
// Indicates if ref_frame_mvs should be enabled at the sequence level.
bool ref_frame_mvs_present;
// Indicates if ref_frame_mvs should be enabled at the frame level.
bool enable_ref_frame_mvs;
// Indicates if interintra compound mode is enabled.
bool enable_interintra_comp;
// Indicates if global motion should be enabled.
bool enable_global_motion;
// Indicates if palette should be enabled.
bool enable_palette;
} ToolCfg;
/*!\endcond */
/*!
* \brief Main encoder configuration data structure.
*/
typedef struct AV1EncoderConfig {
/*!\cond */
// Configuration related to the input video.
InputCfg input_cfg;
// Configuration related to frame-dimensions.
FrameDimensionCfg frm_dim_cfg;
/*!\endcond */
/*!
* Encoder algorithm configuration.
*/
AlgoCfg algo_cfg;
/*!
* Configuration related to key-frames.
*/
KeyFrameCfg kf_cfg;
/*!
* Rate control configuration
*/
RateControlCfg rc_cfg;
/*!\cond */
// Configuration related to Quantization.
QuantizationCfg q_cfg;
// Internal frame size scaling.
ResizeCfg resize_cfg;
// Frame Super-Resolution size scaling.
SuperResCfg superres_cfg;
/*!\endcond */
/*!
* stats_in buffer contains all of the stats packets produced in the first
* pass, concatenated.
*/
aom_fixed_buf_t twopass_stats_in;
/*!\cond */
// Configuration related to encoder toolsets.
ToolCfg tool_cfg;
// Configuration related to Group of frames.
GFConfig gf_cfg;
// Tile related configuration parameters.
TileConfig tile_cfg;
// Configuration related to Tune.
TuneCfg tune_cfg;
// Configuration related to color.
ColorCfg color_cfg;
// Configuration related to decoder model.
DecoderModelCfg dec_model_cfg;
// Configuration related to reference frames.
RefFrameCfg ref_frm_cfg;
// Configuration related to unit tests.
UnitTestCfg unit_test_cfg;
// Flags related to motion mode.
MotionModeCfg motion_mode_cfg;
// Flags related to intra mode search.
IntraModeCfg intra_mode_cfg;
// Flags related to transform size/type.
TxfmSizeTypeCfg txfm_cfg;
// Flags related to compound type.
CompoundTypeCfg comp_type_cfg;
// Partition related information.
PartitionCfg part_cfg;
// Configuration related to frequency of cost update.
CostUpdateFreq cost_upd_freq;
#if CONFIG_DENOISE
// Indicates the noise level.
float noise_level;
// Indicates the the denoisers block size.
int noise_block_size;
// Indicates whether to apply denoising to the frame to be encoded
int enable_dnl_denoising;
#endif
#if CONFIG_AV1_TEMPORAL_DENOISING
// Noise sensitivity.
int noise_sensitivity;
#endif
// Bit mask to specify which tier each of the 32 possible operating points
// conforms to.
unsigned int tier_mask;
// Indicates the number of pixels off the edge of a reference frame we're
// allowed to go when forming an inter prediction.
int border_in_pixels;
// Indicates the maximum number of threads that may be used by the encoder.
int max_threads;
// Indicates the speed preset to be used.
int speed;
// Indicates the target sequence level index for each operating point(OP).
AV1_LEVEL target_seq_level_idx[MAX_NUM_OPERATING_POINTS];
// Indicates the bitstream profile to be used.
BITSTREAM_PROFILE profile;
/*!\endcond */
/*!
* Indicates the current encoder pass :
* AOM_RC_ONE_PASS = One pass encode,
* AOM_RC_FIRST_PASS = First pass of multiple-pass
* AOM_RC_SECOND_PASS = Second pass of multiple-pass
* AOM_RC_THIRD_PASS = Third pass of multiple-pass
*/
enum aom_enc_pass pass;
/*!\cond */
// Total number of encoding passes.
int passes;
// the name of the second pass output file when passes > 2
const char *two_pass_output;
// the name of the second pass log file when passes > 2
const char *second_pass_log;
// Indicates if the encoding is GOOD or REALTIME.
MODE mode;
// Indicates if row-based multi-threading should be enabled or not.
bool row_mt;
// Indicates if frame parallel multi-threading should be enabled or not.
bool fp_mt;
// Indicates if 16bit frame buffers are to be used i.e., the content is >
// 8-bit.
bool use_highbitdepth;
// Indicates the bitstream syntax mode. 0 indicates bitstream is saved as
// Section 5 bitstream, while 1 indicates the bitstream is saved in Annex - B
// format.
bool save_as_annexb;
// The path for partition stats reading and writing, used in the experiment
// CONFIG_PARTITION_SEARCH_ORDER.
const char *partition_info_path;
// The flag that indicates whether we use an external rate distribution to
// guide adaptive quantization. It requires --deltaq-mode=3. The rate
// distribution map file name is stored in |rate_distribution_info|.
unsigned int enable_rate_guide_deltaq;
// The input file of rate distribution information used in all intra mode
// to determine delta quantization.
const char *rate_distribution_info;
// Exit the encoder when it fails to encode to a given level.
int strict_level_conformance;
// Max depth for the GOP after a key frame
int kf_max_pyr_height;
// A flag to control if we enable the superblock qp sweep for a given lambda
int sb_qp_sweep;
/*!\endcond */
} AV1EncoderConfig;
/*!\cond */
static INLINE int is_lossless_requested(const RateControlCfg *const rc_cfg) {
return rc_cfg->best_allowed_q == 0 && rc_cfg->worst_allowed_q == 0;
}
/*!\endcond */
/*!
* \brief Encoder-side probabilities for pruning of various AV1 tools
*/
typedef struct {
/*!
* obmc_probs[i][j] is the probability of OBMC being the best motion mode for
* jth block size and ith frame update type, averaged over past frames. If
* obmc_probs[i][j] < thresh, then OBMC search is pruned.
*/
int obmc_probs[FRAME_UPDATE_TYPES][BLOCK_SIZES_ALL];
/*!
* warped_probs[i] is the probability of warped motion being the best motion
* mode for ith frame update type, averaged over past frames. If
* warped_probs[i] < thresh, then warped motion search is pruned.
*/
int warped_probs[FRAME_UPDATE_TYPES];
/*!
* tx_type_probs[i][j][k] is the probability of kth tx_type being the best
* for jth transform size and ith frame update type, averaged over past
* frames. If tx_type_probs[i][j][k] < thresh, then transform search for that
* type is pruned.
*/
int tx_type_probs[FRAME_UPDATE_TYPES][TX_SIZES_ALL][TX_TYPES];
/*!
* switchable_interp_probs[i][j][k] is the probability of kth interpolation
* filter being the best for jth filter context and ith frame update type,
* averaged over past frames. If switchable_interp_probs[i][j][k] < thresh,
* then interpolation filter search is pruned for that case.
*/
int switchable_interp_probs[FRAME_UPDATE_TYPES][SWITCHABLE_FILTER_CONTEXTS]
[SWITCHABLE_FILTERS];
} FrameProbInfo;
/*!\cond */
typedef struct FRAME_COUNTS {
// Note: This structure should only contain 'unsigned int' fields, or
// aggregates built solely from 'unsigned int' fields/elements
#if CONFIG_ENTROPY_STATS
unsigned int kf_y_mode[KF_MODE_CONTEXTS][KF_MODE_CONTEXTS][INTRA_MODES];
unsigned int angle_delta[DIRECTIONAL_MODES][2 * MAX_ANGLE_DELTA + 1];
unsigned int y_mode[BLOCK_SIZE_GROUPS][INTRA_MODES];
unsigned int uv_mode[CFL_ALLOWED_TYPES][INTRA_MODES][UV_INTRA_MODES];
unsigned int cfl_sign[CFL_JOINT_SIGNS];
unsigned int cfl_alpha[CFL_ALPHA_CONTEXTS][CFL_ALPHABET_SIZE];
unsigned int palette_y_mode[PALATTE_BSIZE_CTXS][PALETTE_Y_MODE_CONTEXTS][2];
unsigned int palette_uv_mode[PALETTE_UV_MODE_CONTEXTS][2];
unsigned int palette_y_size[PALATTE_BSIZE_CTXS][PALETTE_SIZES];
unsigned int palette_uv_size[PALATTE_BSIZE_CTXS][PALETTE_SIZES];
unsigned int palette_y_color_index[PALETTE_SIZES]
[PALETTE_COLOR_INDEX_CONTEXTS]
[PALETTE_COLORS];
unsigned int palette_uv_color_index[PALETTE_SIZES]
[PALETTE_COLOR_INDEX_CONTEXTS]
[PALETTE_COLORS];
unsigned int partition[PARTITION_CONTEXTS][EXT_PARTITION_TYPES];
unsigned int txb_skip[TOKEN_CDF_Q_CTXS][TX_SIZES][TXB_SKIP_CONTEXTS][2];
unsigned int eob_extra[TOKEN_CDF_Q_CTXS][TX_SIZES][PLANE_TYPES]
[EOB_COEF_CONTEXTS][2];
unsigned int dc_sign[PLANE_TYPES][DC_SIGN_CONTEXTS][2];
unsigned int coeff_lps[TX_SIZES][PLANE_TYPES][BR_CDF_SIZE - 1][LEVEL_CONTEXTS]
[2];
unsigned int eob_flag[TX_SIZES][PLANE_TYPES][EOB_COEF_CONTEXTS][2];
unsigned int eob_multi16[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][5];
unsigned int eob_multi32[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][6];
unsigned int eob_multi64[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][7];
unsigned int eob_multi128[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][8];
unsigned int eob_multi256[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][9];
unsigned int eob_multi512[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][10];
unsigned int eob_multi1024[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][11];
unsigned int coeff_lps_multi[TOKEN_CDF_Q_CTXS][TX_SIZES][PLANE_TYPES]
[LEVEL_CONTEXTS][BR_CDF_SIZE];
unsigned int coeff_base_multi[TOKEN_CDF_Q_CTXS][TX_SIZES][PLANE_TYPES]
[SIG_COEF_CONTEXTS][NUM_BASE_LEVELS + 2];
unsigned int coeff_base_eob_multi[TOKEN_CDF_Q_CTXS][TX_SIZES][PLANE_TYPES]
[SIG_COEF_CONTEXTS_EOB][NUM_BASE_LEVELS + 1];
unsigned int newmv_mode[NEWMV_MODE_CONTEXTS][2];
unsigned int zeromv_mode[GLOBALMV_MODE_CONTEXTS][2];
unsigned int refmv_mode[REFMV_MODE_CONTEXTS][2];
unsigned int drl_mode[DRL_MODE_CONTEXTS][2];
unsigned int inter_compound_mode[INTER_MODE_CONTEXTS][INTER_COMPOUND_MODES];
unsigned int wedge_idx[BLOCK_SIZES_ALL][16];
unsigned int interintra[BLOCK_SIZE_GROUPS][2];
unsigned int interintra_mode[BLOCK_SIZE_GROUPS][INTERINTRA_MODES];
unsigned int wedge_interintra[BLOCK_SIZES_ALL][2];
unsigned int compound_type[BLOCK_SIZES_ALL][MASKED_COMPOUND_TYPES];
unsigned int motion_mode[BLOCK_SIZES_ALL][MOTION_MODES];
unsigned int obmc[BLOCK_SIZES_ALL][2];
unsigned int intra_inter[INTRA_INTER_CONTEXTS][2];
unsigned int comp_inter[COMP_INTER_CONTEXTS][2];
unsigned int comp_ref_type[COMP_REF_TYPE_CONTEXTS][2];
unsigned int uni_comp_ref[UNI_COMP_REF_CONTEXTS][UNIDIR_COMP_REFS - 1][2];
unsigned int single_ref[REF_CONTEXTS][SINGLE_REFS - 1][2];
unsigned int comp_ref[REF_CONTEXTS][FWD_REFS - 1][2];
unsigned int comp_bwdref[REF_CONTEXTS][BWD_REFS - 1][2];
unsigned int intrabc[2];
unsigned int txfm_partition[TXFM_PARTITION_CONTEXTS][2];
unsigned int intra_tx_size[MAX_TX_CATS][TX_SIZE_CONTEXTS][MAX_TX_DEPTH + 1];
unsigned int skip_mode[SKIP_MODE_CONTEXTS][2];
unsigned int skip_txfm[SKIP_CONTEXTS][2];
unsigned int compound_index[COMP_INDEX_CONTEXTS][2];
unsigned int comp_group_idx[COMP_GROUP_IDX_CONTEXTS][2];
unsigned int delta_q[DELTA_Q_PROBS][2];
unsigned int delta_lf_multi[FRAME_LF_COUNT][DELTA_LF_PROBS][2];
unsigned int delta_lf[DELTA_LF_PROBS][2];
unsigned int inter_ext_tx[EXT_TX_SETS_INTER][EXT_TX_SIZES][TX_TYPES];
unsigned int intra_ext_tx[EXT_TX_SETS_INTRA][EXT_TX_SIZES][INTRA_MODES]
[TX_TYPES];
unsigned int filter_intra_mode[FILTER_INTRA_MODES];
unsigned int filter_intra[BLOCK_SIZES_ALL][2];
unsigned int switchable_restore[RESTORE_SWITCHABLE_TYPES];
unsigned int wiener_restore[2];
unsigned int sgrproj_restore[2];
#endif // CONFIG_ENTROPY_STATS
unsigned int switchable_interp[SWITCHABLE_FILTER_CONTEXTS]
[SWITCHABLE_FILTERS];
} FRAME_COUNTS;
#define INTER_MODE_RD_DATA_OVERALL_SIZE 6400
typedef struct {
int ready;
double a;
double b;
double dist_mean;
double ld_mean;
double sse_mean;
double sse_sse_mean;
double sse_ld_mean;
int num;
double dist_sum;
double ld_sum;
double sse_sum;
double sse_sse_sum;
double sse_ld_sum;
} InterModeRdModel;
typedef struct {
int idx;
int64_t rd;
} RdIdxPair;
// TODO(angiebird): This is an estimated size. We still need to figure what is
// the maximum number of modes.
#define MAX_INTER_MODES 1024
// TODO(any): rename this struct to something else. There is already another
// struct called inter_mode_info, which makes this terribly confusing.
/*!\endcond */
/*!
* \brief Struct used to hold inter mode data for fast tx search.
*
* This struct is used to perform a full transform search only on winning
* candidates searched with an estimate for transform coding RD.
*/
typedef struct inter_modes_info {
/*!
* The number of inter modes for which data was stored in each of the
* following arrays.
*/
int num;
/*!
* Mode info struct for each of the candidate modes.
*/
MB_MODE_INFO mbmi_arr[MAX_INTER_MODES];
/*!
* The rate for each of the candidate modes.
*/
int mode_rate_arr[MAX_INTER_MODES];
/*!
* The sse of the predictor for each of the candidate modes.
*/
int64_t sse_arr[MAX_INTER_MODES];
/*!
* The estimated rd of the predictor for each of the candidate modes.
*/
int64_t est_rd_arr[MAX_INTER_MODES];
/*!
* The rate and mode index for each of the candidate modes.
*/
RdIdxPair rd_idx_pair_arr[MAX_INTER_MODES];
/*!
* The full rd stats for each of the candidate modes.
*/
RD_STATS rd_cost_arr[MAX_INTER_MODES];
/*!
* The full rd stats of luma only for each of the candidate modes.
*/
RD_STATS rd_cost_y_arr[MAX_INTER_MODES];
/*!
* The full rd stats of chroma only for each of the candidate modes.
*/
RD_STATS rd_cost_uv_arr[MAX_INTER_MODES];
} InterModesInfo;
/*!\cond */
typedef struct {
// TODO(kyslov): consider changing to 64bit
// This struct is used for computing variance in choose_partitioning(), where
// the max number of samples within a superblock is 32x32 (with 4x4 avg).
// With 8bit bitdepth, uint32_t is enough for sum_square_error (2^8 * 2^8 * 32
// * 32 = 2^26). For high bitdepth we need to consider changing this to 64 bit
uint32_t sum_square_error;
int32_t sum_error;
int log2_count;
int variance;
} VPartVar;
typedef struct {
VPartVar none;
VPartVar horz[2];
VPartVar vert[2];
} VPVariance;
typedef struct {
VPVariance part_variances;
VPartVar split[4];
} VP4x4;
typedef struct {
VPVariance part_variances;
VP4x4 split[4];
} VP8x8;
typedef struct {
VPVariance part_variances;
VP8x8 split[4];
} VP16x16;
typedef struct {
VPVariance part_variances;
VP16x16 split[4];
} VP32x32;
typedef struct {
VPVariance part_variances;
VP32x32 split[4];
} VP64x64;
typedef struct {
VPVariance part_variances;
VP64x64 *split;
} VP128x128;
/*!\endcond */
/*!
* \brief Thresholds for variance based partitioning.
*/
typedef struct {
/*!
* If block variance > threshold, then that block is forced to split.
* thresholds[0] - threshold for 128x128;
* thresholds[1] - threshold for 64x64;
* thresholds[2] - threshold for 32x32;
* thresholds[3] - threshold for 16x16;
* thresholds[4] - threshold for 8x8;
*/
int64_t thresholds[5];
/*!
* MinMax variance threshold for 8x8 sub blocks of a 16x16 block. If actual
* minmax > threshold_minmax, the 16x16 is forced to split.
*/
int64_t threshold_minmax;
} VarBasedPartitionInfo;
/*!
* \brief Encoder parameters for synchronization of row based multi-threading
*/
typedef struct {
#if CONFIG_MULTITHREAD
/**
* \name Synchronization objects for top-right dependency.
*/
/**@{*/
pthread_mutex_t *mutex_; /*!< Mutex lock object */
pthread_cond_t *cond_; /*!< Condition variable */
/**@}*/
#endif // CONFIG_MULTITHREAD
/*!
* Buffer to store the superblock whose encoding is complete.
* num_finished_cols[i] stores the number of superblocks which finished
* encoding in the ith superblock row.
*/
int *num_finished_cols;
/*!
* Denotes the superblock interval at which conditional signalling should
* happen. Also denotes the minimum number of extra superblocks of the top row
* to be complete to start encoding the current superblock. A value of 1
* indicates top-right dependency.
*/
int sync_range;
/*!
* Denotes the additional number of superblocks in the previous row to be
* complete to start encoding the current superblock when intraBC tool is
* enabled. This additional top-right delay is required to satisfy the
* hardware constraints for intraBC tool when row multithreading is enabled.
*/
int intrabc_extra_top_right_sb_delay;
/*!
* Number of superblock rows.
*/
int rows;
/*!
* The superblock row (in units of MI blocks) to be processed next.
*/
int next_mi_row;
/*!
* Number of threads processing the current tile.
*/
int num_threads_working;
} AV1EncRowMultiThreadSync;
/*!\cond */
// TODO(jingning) All spatially adaptive variables should go to TileDataEnc.
typedef struct TileDataEnc {
TileInfo tile_info;
DECLARE_ALIGNED(16, FRAME_CONTEXT, tctx);
FRAME_CONTEXT *row_ctx;
uint64_t abs_sum_level;
uint8_t allow_update_cdf;
InterModeRdModel inter_mode_rd_models[BLOCK_SIZES_ALL];
AV1EncRowMultiThreadSync row_mt_sync;
MV firstpass_top_mv;
} TileDataEnc;
typedef struct RD_COUNTS {
int compound_ref_used_flag;
int skip_mode_used_flag;
int tx_type_used[TX_SIZES_ALL][TX_TYPES];
int obmc_used[BLOCK_SIZES_ALL][2];
int warped_used[2];
int newmv_or_intra_blocks;
uint64_t seg_tmp_pred_cost[2];
} RD_COUNTS;
typedef struct ThreadData {
MACROBLOCK mb;
MvCosts *mv_costs_alloc;
IntraBCMVCosts *dv_costs_alloc;
RD_COUNTS rd_counts;
FRAME_COUNTS *counts;
PC_TREE_SHARED_BUFFERS shared_coeff_buf;
SIMPLE_MOTION_DATA_TREE *sms_tree;
SIMPLE_MOTION_DATA_TREE *sms_root;
uint32_t *hash_value_buffer[2][2];
OBMCBuffer obmc_buffer;
PALETTE_BUFFER *palette_buffer;
CompoundTypeRdBuffers comp_rd_buffer;
CONV_BUF_TYPE *tmp_conv_dst;
uint64_t abs_sum_level;
uint8_t *tmp_pred_bufs[2];
uint8_t *wiener_tmp_pred_buf;
int intrabc_used;
int deltaq_used;
int coefficient_size;
int max_mv_magnitude;
int interp_filter_selected[SWITCHABLE];
FRAME_CONTEXT *tctx;
VP64x64 *vt64x64;
int32_t num_64x64_blocks;
PICK_MODE_CONTEXT *firstpass_ctx;
TemporalFilterData tf_data;
TplBuffers tpl_tmp_buffers;
TplTxfmStats tpl_txfm_stats;
GlobalMotionData gm_data;
// Pointer to the array of structures to store gradient information of each
// pixel in a superblock. The buffer constitutes of MAX_SB_SQUARE pixel level
// structures for each of the plane types (PLANE_TYPE_Y and PLANE_TYPE_UV).
PixelLevelGradientInfo *pixel_gradient_info;
// Pointer to the array of structures to store source variance information of
// each 4x4 sub-block in a superblock. Block4x4VarInfo structure is used to
// store source variance and log of source variance of each 4x4 sub-block
// for subsequent retrieval.
Block4x4VarInfo *src_var_info_of_4x4_sub_blocks;
// Pointer to pc tree root.
PC_TREE *pc_root;
} ThreadData;
struct EncWorkerData;
/*!\endcond */
/*!
* \brief Encoder data related to row-based multi-threading
*/
typedef struct {
/*!
* Number of tile rows for which row synchronization memory is allocated.
*/
int allocated_tile_rows;
/*!
* Number of tile cols for which row synchronization memory is allocated.
*/
int allocated_tile_cols;
/*!
* Number of rows for which row synchronization memory is allocated
* per tile. During first-pass/look-ahead stage this equals the
* maximum number of macroblock rows in a tile. During encode stage,
* this equals the maximum number of superblock rows in a tile.
*/
int allocated_rows;
/*!
* Number of columns for which entropy context memory is allocated
* per tile. During encode stage, this equals the maximum number of
* superblock columns in a tile minus 1. The entropy context memory
* is not allocated during first-pass/look-ahead stage.
*/
int allocated_cols;
/*!
* thread_id_to_tile_id[i] indicates the tile id assigned to the ith thread.
*/
int thread_id_to_tile_id[MAX_NUM_THREADS];
/*!
* num_tile_cols_done[i] indicates the number of tile columns whose encoding
* is complete in the ith superblock row.
*/
int *num_tile_cols_done;
/*!
* Number of superblock rows in a frame for which 'num_tile_cols_done' is
* allocated.
*/
int allocated_sb_rows;
/*!
* Initialized to false, set to true by the worker thread that encounters an
* error in order to abort the processing of other worker threads.
*/
bool row_mt_exit;
/*!
* Initialized to false, set to true during first pass encoding by the worker
* thread that encounters an error in order to abort the processing of other
* worker threads.
*/
bool firstpass_mt_exit;
#if CONFIG_MULTITHREAD
/*!
* Mutex lock used while dispatching jobs.
*/
pthread_mutex_t *mutex_;
/*!
* Condition variable used to dispatch loopfilter jobs.
*/
pthread_cond_t *cond_;
#endif
/**
* \name Row synchronization related function pointers.
*/
/**@{*/
/*!
* Reader.
*/
void (*sync_read_ptr)(AV1EncRowMultiThreadSync *const, int, int);
/*!
* Writer.
*/
void (*sync_write_ptr)(AV1EncRowMultiThreadSync *const, int, int, int);
/**@}*/
} AV1EncRowMultiThreadInfo;
/*!
* \brief Encoder data related to multi-threading for allintra deltaq-mode=3
*/
typedef struct {
#if CONFIG_MULTITHREAD
/*!
* Mutex lock used while dispatching jobs.
*/
pthread_mutex_t *mutex_;
/*!
* Condition variable used to dispatch loopfilter jobs.
*/
pthread_cond_t *cond_;
#endif
/**
* \name Row synchronization related function pointers for all intra mode
*/
/**@{*/
/*!
* Reader.
*/
void (*intra_sync_read_ptr)(AV1EncRowMultiThreadSync *const, int, int);
/*!
* Writer.
*/
void (*intra_sync_write_ptr)(AV1EncRowMultiThreadSync *const, int, int, int);
/**@}*/
} AV1EncAllIntraMultiThreadInfo;
/*!
* \brief Max number of recodes used to track the frame probabilities.
*/
#define NUM_RECODES_PER_FRAME 10
/*!
* \brief Max number of frames that can be encoded in a parallel encode set.
*/
#define MAX_PARALLEL_FRAMES 4
/*!
* \brief Buffers to be backed up during parallel encode set to be restored
* later.
*/
typedef struct RestoreStateBuffers {
/*!
* Backup of original CDEF srcbuf.
*/
uint16_t *cdef_srcbuf;
/*!
* Backup of original CDEF colbuf.
*/
uint16_t *cdef_colbuf[MAX_MB_PLANE];
/*!
* Backup of original LR rst_tmpbuf.
*/
int32_t *rst_tmpbuf;
/*!
* Backup of original LR rlbs.
*/
RestorationLineBuffers *rlbs;
} RestoreStateBuffers;
/*!
* \brief Parameters related to restoration types.
*/
typedef struct {
/*!
* Stores the best coefficients for Wiener restoration.
*/
WienerInfo wiener;
/*!
* Stores the best coefficients for Sgrproj restoration.
*/
SgrprojInfo sgrproj;
/*!
* The rtype to use for this unit given a frame rtype as index. Indices:
* WIENER, SGRPROJ, SWITCHABLE.
*/
RestorationType best_rtype[RESTORE_TYPES - 1];
} RestUnitSearchInfo;
/*!
* \brief Structure to hold search parameter per restoration unit and
* intermediate buffer of Wiener filter used in pick filter stage of Loop
* restoration.
*/
typedef struct {
/*!
* Array of pointers to 'RestUnitSearchInfo' which holds data related to
* restoration types.
*/
RestUnitSearchInfo *rusi[MAX_MB_PLANE];
/*!
* Buffer used to hold dgd-avg data during SIMD call of Wiener filter.
*/
int16_t *dgd_avg;
} AV1LrPickStruct;
/*!
* \brief Primary Encoder parameters related to multi-threading.
*/
typedef struct PrimaryMultiThreadInfo {
/*!
* Number of workers created for multi-threading.
*/
int num_workers;
/*!
* Number of workers used for different MT modules.
*/
int num_mod_workers[NUM_MT_MODULES];
/*!
* Synchronization object used to launch job in the worker thread.
*/
AVxWorker *workers;
/*!
* Data specific to each worker in encoder multi-threading.
* tile_thr_data[i] stores the worker data of the ith thread.
*/
struct EncWorkerData *tile_thr_data;
/*!
* CDEF row multi-threading data.
*/
AV1CdefWorkerData *cdef_worker;
/*!
* Primary(Level 1) Synchronization object used to launch job in the worker
* thread.
*/
AVxWorker *p_workers[MAX_PARALLEL_FRAMES];
/*!
* Number of primary workers created for multi-threading.
*/
int p_num_workers;
/*!
* Tracks the number of workers in encode stage multi-threading.
*/
int prev_num_enc_workers;
} PrimaryMultiThreadInfo;
/*!
* \brief Encoder parameters related to multi-threading.
*/
typedef struct MultiThreadInfo {
/*!
* Number of workers created for multi-threading.
*/
int num_workers;
/*!
* Number of workers used for different MT modules.
*/
int num_mod_workers[NUM_MT_MODULES];
/*!
* Synchronization object used to launch job in the worker thread.
*/
AVxWorker *workers;
/*!
* Data specific to each worker in encoder multi-threading.
* tile_thr_data[i] stores the worker data of the ith thread.
*/
struct EncWorkerData *tile_thr_data;
/*!
* When set, indicates that row based multi-threading of the encoder is
* enabled.
*/
bool row_mt_enabled;
/*!
* When set, indicates that multi-threading for bitstream packing is enabled.
*/
bool pack_bs_mt_enabled;
/*!
* Encoder row multi-threading data.
*/
AV1EncRowMultiThreadInfo enc_row_mt;
/*!
* Encoder multi-threading data for allintra mode in the preprocessing stage
* when --deltaq-mode=3.
*/
AV1EncAllIntraMultiThreadInfo intra_mt;
/*!
* Tpl row multi-threading data.
*/
AV1TplRowMultiThreadInfo tpl_row_mt;
/*!
* Loop Filter multi-threading object.
*/
AV1LfSync lf_row_sync;
/*!
* Loop Restoration multi-threading object.
*/
AV1LrSync lr_row_sync;
/*!
* Pack bitstream multi-threading object.
*/
AV1EncPackBSSync pack_bs_sync;
/*!
* Global Motion multi-threading object.
*/
AV1GlobalMotionSync gm_sync;
/*!
* Temporal Filter multi-threading object.
*/
AV1TemporalFilterSync tf_sync;
/*!
* CDEF search multi-threading object.
*/
AV1CdefSync cdef_sync;
/*!
* Pointer to CDEF row multi-threading data for the frame.
*/
AV1CdefWorkerData *cdef_worker;
/*!
* Buffers to be stored/restored before/after parallel encode.
*/
RestoreStateBuffers restore_state_buf;
/*!
* In multi-threaded realtime encoding with row-mt enabled, pipeline
* loop-filtering after encoding.
*/
int pipeline_lpf_mt_with_enc;
} MultiThreadInfo;
/*!\cond */
typedef struct ActiveMap {
int enabled;
int update;
unsigned char *map;
} ActiveMap;
/*!\endcond */
/*!
* \brief Encoder info used for decision on forcing integer motion vectors.
*/
typedef struct {
/*!
* cs_rate_array[i] is the fraction of blocks in a frame which either match
* with the collocated block or are smooth, where i is the rate_index.
*/
double cs_rate_array[32];
/*!
* rate_index is used to index cs_rate_array.
*/
int rate_index;
/*!
* rate_size is the total number of entries populated in cs_rate_array.
*/
int rate_size;
} ForceIntegerMVInfo;
/*!\cond */
#if CONFIG_INTERNAL_STATS
// types of stats
enum {
STAT_Y,
STAT_U,
STAT_V,
STAT_ALL,
NUM_STAT_TYPES // This should always be the last member of the enum
} UENUM1BYTE(StatType);
typedef struct IMAGE_STAT {
double stat[NUM_STAT_TYPES];
double worst;
} ImageStat;
#endif // CONFIG_INTERNAL_STATS
typedef struct {
int ref_count;
YV12_BUFFER_CONFIG buf;
} EncRefCntBuffer;
/*!\endcond */
/*!
* \brief Buffer to store mode information at mi_alloc_bsize (4x4 or 8x8) level
*
* This is used for bitstream preparation.
*/
typedef struct {
/*!
* frame_base[mi_row * stride + mi_col] stores the mode information of
* block (mi_row,mi_col).
*/
MB_MODE_INFO_EXT_FRAME *frame_base;
/*!
* Size of frame_base buffer.
*/
int alloc_size;
/*!
* Stride of frame_base buffer.
*/
int stride;
} MBMIExtFrameBufferInfo;
/*!\cond */
#if CONFIG_COLLECT_PARTITION_STATS
typedef struct FramePartitionTimingStats {
int partition_decisions[6][EXT_PARTITION_TYPES];
int partition_attempts[6][EXT_PARTITION_TYPES];
int64_t partition_times[6][EXT_PARTITION_TYPES];
int partition_redo;
} FramePartitionTimingStats;
#endif // CONFIG_COLLECT_PARTITION_STATS
#if CONFIG_COLLECT_COMPONENT_TIMING
#include "aom_ports/aom_timer.h"
// Adjust the following to add new components.
enum {
av1_encode_strategy_time,
av1_get_one_pass_rt_params_time,
av1_get_second_pass_params_time,
denoise_and_encode_time,
apply_filtering_time,
av1_tpl_setup_stats_time,
encode_frame_to_data_rate_time,
encode_with_or_without_recode_time,
loop_filter_time,
cdef_time,
loop_restoration_time,
av1_pack_bitstream_final_time,
av1_encode_frame_time,
av1_compute_global_motion_time,
av1_setup_motion_field_time,
encode_sb_row_time,
rd_pick_partition_time,
rd_use_partition_time,
choose_var_based_partitioning_time,
av1_prune_partitions_time,
none_partition_search_time,
split_partition_search_time,
rectangular_partition_search_time,
ab_partitions_search_time,
rd_pick_4partition_time,
encode_sb_time,
rd_pick_sb_modes_time,
av1_rd_pick_intra_mode_sb_time,
av1_rd_pick_inter_mode_sb_time,
set_params_rd_pick_inter_mode_time,
skip_inter_mode_time,
handle_inter_mode_time,
evaluate_motion_mode_for_winner_candidates_time,
do_tx_search_time,
handle_intra_mode_time,
refine_winner_mode_tx_time,
av1_search_palette_mode_time,
handle_newmv_time,
compound_type_rd_time,
interpolation_filter_search_time,
motion_mode_rd_time,
nonrd_use_partition_time,
pick_sb_modes_nonrd_time,
hybrid_intra_mode_search_time,
nonrd_pick_inter_mode_sb_time,
encode_b_nonrd_time,
kTimingComponents,
} UENUM1BYTE(TIMING_COMPONENT);
static INLINE char const *get_component_name(int index) {
switch (index) {
case av1_encode_strategy_time: return "av1_encode_strategy_time";
case av1_get_one_pass_rt_params_time:
return "av1_get_one_pass_rt_params_time";
case av1_get_second_pass_params_time:
return "av1_get_second_pass_params_time";
case denoise_and_encode_time: return "denoise_and_encode_time";
case apply_filtering_time: return "apply_filtering_time";
case av1_tpl_setup_stats_time: return "av1_tpl_setup_stats_time";
case encode_frame_to_data_rate_time:
return "encode_frame_to_data_rate_time";
case encode_with_or_without_recode_time:
return "encode_with_or_without_recode_time";
case loop_filter_time: return "loop_filter_time";
case cdef_time: return "cdef_time";
case loop_restoration_time: return "loop_restoration_time";
case av1_pack_bitstream_final_time: return "av1_pack_bitstream_final_time";
case av1_encode_frame_time: return "av1_encode_frame_time";
case av1_compute_global_motion_time:
return "av1_compute_global_motion_time";
case av1_setup_motion_field_time: return "av1_setup_motion_field_time";
case encode_sb_row_time: return "encode_sb_row_time";
case rd_pick_partition_time: return "rd_pick_partition_time";
case rd_use_partition_time: return "rd_use_partition_time";
case choose_var_based_partitioning_time:
return "choose_var_based_partitioning_time";
case av1_prune_partitions_time: return "av1_prune_partitions_time";
case none_partition_search_time: return "none_partition_search_time";
case split_partition_search_time: return "split_partition_search_time";
case rectangular_partition_search_time:
return "rectangular_partition_search_time";
case ab_partitions_search_time: return "ab_partitions_search_time";
case rd_pick_4partition_time: return "rd_pick_4partition_time";
case encode_sb_time: return "encode_sb_time";
case rd_pick_sb_modes_time: return "rd_pick_sb_modes_time";
case av1_rd_pick_intra_mode_sb_time:
return "av1_rd_pick_intra_mode_sb_time";
case av1_rd_pick_inter_mode_sb_time:
return "av1_rd_pick_inter_mode_sb_time";
case set_params_rd_pick_inter_mode_time:
return "set_params_rd_pick_inter_mode_time";
case skip_inter_mode_time: return "skip_inter_mode_time";
case handle_inter_mode_time: return "handle_inter_mode_time";
case evaluate_motion_mode_for_winner_candidates_time:
return "evaluate_motion_mode_for_winner_candidates_time";
case do_tx_search_time: return "do_tx_search_time";
case handle_intra_mode_time: return "handle_intra_mode_time";
case refine_winner_mode_tx_time: return "refine_winner_mode_tx_time";
case av1_search_palette_mode_time: return "av1_search_palette_mode_time";
case handle_newmv_time: return "handle_newmv_time";
case compound_type_rd_time: return "compound_type_rd_time";
case interpolation_filter_search_time:
return "interpolation_filter_search_time";
case motion_mode_rd_time: return "motion_mode_rd_time";
case nonrd_use_partition_time: return "nonrd_use_partition_time";
case pick_sb_modes_nonrd_time: return "pick_sb_modes_nonrd_time";
case hybrid_intra_mode_search_time: return "hybrid_intra_mode_search_time";
case nonrd_pick_inter_mode_sb_time: return "nonrd_pick_inter_mode_sb_time";
case encode_b_nonrd_time: return "encode_b_nonrd_time";
default: assert(0);
}
return "error";
}
#endif
// The maximum number of internal ARFs except ALTREF_FRAME
#define MAX_INTERNAL_ARFS (REF_FRAMES - BWDREF_FRAME - 1)
/*!\endcond */
/*!
* \brief Parameters related to global motion search
*/
typedef struct {
/*!
* Flag to indicate if global motion search needs to be rerun.
*/
bool search_done;
/*!
* Array of pointers to the frame buffers holding the reference frames.
* ref_buf[i] stores the pointer to the reference frame of the ith
* reference frame type.
*/
YV12_BUFFER_CONFIG *ref_buf[REF_FRAMES];
/*!
* Holds the number of valid reference frames in past and future directions
* w.r.t. the current frame. num_ref_frames[i] stores the total number of
* valid reference frames in 'i' direction.
*/
int num_ref_frames[MAX_DIRECTIONS];
/*!
* Array of structure which stores the valid reference frames in past and
* future directions and their corresponding distance from the source frame.
* reference_frames[i][j] holds the jth valid reference frame type in the
* direction 'i' and its temporal distance from the source frame .
*/
FrameDistPair reference_frames[MAX_DIRECTIONS][REF_FRAMES - 1];
/**
* \name Dimensions for which segment map is allocated.
*/
/**@{*/
int segment_map_w; /*!< segment map width */
int segment_map_h; /*!< segment map height */
/**@}*/
} GlobalMotionInfo;
/*!
* \brief Initial frame dimensions
*
* Tracks the frame dimensions using which:
* - Frame buffers (like altref and util frame buffers) were allocated
* - Motion estimation related initializations were done
* This structure is helpful to reallocate / reinitialize the above when there
* is a change in frame dimensions.
*/
typedef struct {
int width; /*!< initial width */
int height; /*!< initial height */
} InitialDimensions;
/*!
* \brief Flags related to interpolation filter search
*/
typedef struct {
/*!
* Stores the default value of skip flag depending on chroma format
* Set as 1 for monochrome and 3 for other color formats
*/
int default_interp_skip_flags;
/*!
* Filter mask to allow certain interp_filter type.
*/
uint16_t interp_filter_search_mask;
} InterpSearchFlags;
/*!
* \brief Parameters for motion vector search process
*/
typedef struct {
/*!
* Largest MV component used in a frame.
* The value from the previous frame is used to set the full pixel search
* range for the current frame.
*/
int max_mv_magnitude;
/*!
* Parameter indicating initial search window to be used in full-pixel search.
* Range [0, MAX_MVSEARCH_STEPS-2]. Lower value indicates larger window.
*/
int mv_step_param;
/*!
* Pointer to sub-pixel search function.
* In encoder: av1_find_best_sub_pixel_tree
* av1_find_best_sub_pixel_tree_pruned
* av1_find_best_sub_pixel_tree_pruned_more
* In MV unit test: av1_return_max_sub_pixel_mv
* av1_return_min_sub_pixel_mv
*/
fractional_mv_step_fp *find_fractional_mv_step;
/*!
* Search site configuration for full-pel MV search.
* search_site_cfg[SS_CFG_SRC]: Used in tpl, rd/non-rd inter mode loop, simple
* motion search. search_site_cfg[SS_CFG_LOOKAHEAD]: Used in intraBC, temporal
* filter search_site_cfg[SS_CFG_FPF]: Used during first pass and lookahead
*/
search_site_config search_site_cfg[SS_CFG_TOTAL][NUM_DISTINCT_SEARCH_METHODS];
} MotionVectorSearchParams;
/*!
* \brief Refresh frame flags for different type of frames.
*
* If the refresh flag is true for a particular reference frame, after the
* current frame is encoded, the reference frame gets refreshed (updated) to
* be the current frame. Note: Usually at most one flag will be set to true at
* a time. But, for key-frames, all flags are set to true at once.
*/
typedef struct {
bool golden_frame; /*!< Refresh flag for golden frame */
bool bwd_ref_frame; /*!< Refresh flag for bwd-ref frame */
bool alt_ref_frame; /*!< Refresh flag for alt-ref frame */
} RefreshFrameInfo;
/*!
* \brief Desired dimensions for an externally triggered resize.
*
* When resize is triggered externally, the desired dimensions are stored in
* this struct until used in the next frame to be coded. These values are
* effective only for one frame and are reset after they are used.
*/
typedef struct {
int width; /*!< Desired resized width */
int height; /*!< Desired resized height */
} ResizePendingParams;
/*!
* \brief Refrence frame distance related variables.
*/
typedef struct {
/*!
* True relative distance of reference frames w.r.t. the current frame.
*/
int ref_relative_dist[INTER_REFS_PER_FRAME];
/*!
* The nearest reference w.r.t. current frame in the past.
*/
int8_t nearest_past_ref;
/*!
* The nearest reference w.r.t. current frame in the future.
*/
int8_t nearest_future_ref;
} RefFrameDistanceInfo;
/*!
* \brief Parameters used for winner mode processing.
*
* This is a basic two pass approach: in the first pass, we reduce the number of
* transform searches based on some thresholds during the rdopt process to find
* the "winner mode". In the second pass, we perform a more through tx search
* on the winner mode.
* There are some arrays in the struct, and their indices are used in the
* following manner:
* Index 0: Default mode evaluation, Winner mode processing is not applicable
* (Eg : IntraBc).
* Index 1: Mode evaluation.
* Index 2: Winner mode evaluation
* Index 1 and 2 are only used when the respective speed feature is on.
*/
typedef struct {
/*!
* Threshold to determine if trellis optimization is to be enabled
* based on :
* 0 : dist threshold
* 1 : satd threshold
* Corresponds to enable_winner_mode_for_coeff_opt speed feature.
*/
unsigned int coeff_opt_thresholds[MODE_EVAL_TYPES][2];
/*!
* Determines the tx size search method during rdopt.
* Corresponds to enable_winner_mode_for_tx_size_srch speed feature.
*/
TX_SIZE_SEARCH_METHOD tx_size_search_methods[MODE_EVAL_TYPES];
/*!
* Controls how often we should approximate prediction error with tx
* coefficients. If it's 0, then never. If 1, then it's during the tx_type
* search only. If 2, then always.
* Corresponds to tx_domain_dist_level speed feature.
*/
unsigned int use_transform_domain_distortion[MODE_EVAL_TYPES];
/*!
* Threshold to approximate pixel domain distortion with transform domain
* distortion. This is only used if use_transform_domain_distortion is on.
* Corresponds to enable_winner_mode_for_use_tx_domain_dist speed feature.
*/
unsigned int tx_domain_dist_threshold[MODE_EVAL_TYPES];
/*!
* Controls how often we should try to skip the transform process based on
* result from dct.
* Corresponds to use_skip_flag_prediction speed feature.
*/
unsigned int skip_txfm_level[MODE_EVAL_TYPES];
/*!
* Predict DC only txfm blocks for default, mode and winner mode evaluation.
* Index 0: Default mode evaluation, Winner mode processing is not applicable.
* Index 1: Mode evaluation, Index 2: Winner mode evaluation
*/
unsigned int predict_dc_level[MODE_EVAL_TYPES];
} WinnerModeParams;
/*!
* \brief Frame refresh flags set by the external interface.
*
* Flags set by external interface to determine which reference buffers are
* refreshed by this frame. When set, the encoder will update the particular
* reference frame buffer with the contents of the current frame.
*/
typedef struct {
bool last_frame; /*!< Refresh flag for last frame */
bool golden_frame; /*!< Refresh flag for golden frame */
bool bwd_ref_frame; /*!< Refresh flag for bwd-ref frame */
bool alt2_ref_frame; /*!< Refresh flag for alt2-ref frame */
bool alt_ref_frame; /*!< Refresh flag for alt-ref frame */
/*!
* Flag indicating if the update of refresh frame flags is pending.
*/
bool update_pending;
} ExtRefreshFrameFlagsInfo;
/*!
* \brief Flags signalled by the external interface at frame level.
*/
typedef struct {
/*!
* Bit mask to disable certain reference frame types.
*/
int ref_frame_flags;
/*!
* Frame refresh flags set by the external interface.
*/
ExtRefreshFrameFlagsInfo refresh_frame;
/*!
* Flag to enable the update of frame contexts at the end of a frame decode.
*/
bool refresh_frame_context;
/*!
* Flag to indicate that update of refresh_frame_context from external
* interface is pending.
*/
bool refresh_frame_context_pending;
/*!
* Flag to enable temporal MV prediction.
*/
bool use_ref_frame_mvs;
/*!
* Indicates whether the current frame is to be coded as error resilient.
*/
bool use_error_resilient;
/*!
* Indicates whether the current frame is to be coded as s-frame.
*/
bool use_s_frame;
/*!
* Indicates whether the current frame's primary_ref_frame is set to
* PRIMARY_REF_NONE.
*/
bool use_primary_ref_none;
} ExternalFlags;
/*!\cond */
typedef struct {
// Some misc info
int high_prec;
int q;
int order;
// MV counters
int inter_count;
int intra_count;
int default_mvs;
int mv_joint_count[4];
int last_bit_zero;
int last_bit_nonzero;
// Keep track of the rates
int total_mv_rate;
int hp_total_mv_rate;
int lp_total_mv_rate;
// Texture info
int horz_text;
int vert_text;
int diag_text;
// Whether the current struct contains valid data
int valid;
} MV_STATS;
typedef struct WeberStats {
int64_t mb_wiener_variance;
int64_t src_variance;
int64_t rec_variance;
int16_t src_pix_max;
int16_t rec_pix_max;
int64_t distortion;
int64_t satd;
double max_scale;
} WeberStats;
typedef struct {
struct loopfilter lf;
CdefInfo cdef_info;
YV12_BUFFER_CONFIG copy_buffer;
RATE_CONTROL rc;
MV_STATS mv_stats;
} CODING_CONTEXT;
typedef struct {
int frame_width;
int frame_height;
int mi_rows;
int mi_cols;
int mb_rows;
int mb_cols;
int num_mbs;
aom_bit_depth_t bit_depth;
int subsampling_x;
int subsampling_y;
} FRAME_INFO;
/*!
* \brief This structure stores different types of frame indices.
*/
typedef struct {
int show_frame_count;
} FRAME_INDEX_SET;
/*!\endcond */
/*!
* \brief Segmentation related information for the current frame.
*/
typedef struct {
/*!
* 3-bit number containing the segment affiliation for each 4x4 block in the
* frame. map[y * stride + x] contains the segment id of the 4x4 block at
* (x,y) position.
*/
uint8_t *map;
/*!
* Flag to indicate if current frame has lossless segments or not.
* 1: frame has at least one lossless segment.
* 0: frame has no lossless segments.
*/
bool has_lossless_segment;
} EncSegmentationInfo;
/*!
* \brief Frame time stamps.
*/
typedef struct {
/*!
* Start time stamp of the previous frame
*/
int64_t prev_ts_start;
/*!
* End time stamp of the previous frame
*/
int64_t prev_ts_end;
/*!
* Start time stamp of the first frame
*/
int64_t first_ts_start;
} TimeStamps;
/*!
* Pointers to the memory allocated for frame level transform coeff related
* info.
*/
typedef struct {
/*!
* Pointer to the transformed coefficients buffer.
*/
tran_low_t *tcoeff;
/*!
* Pointer to the eobs buffer.
*/
uint16_t *eobs;
/*!
* Pointer to the entropy_ctx buffer.
*/
uint8_t *entropy_ctx;
} CoeffBufferPool;
#if !CONFIG_REALTIME_ONLY
/*!\cond */
// DUCKY_ENCODE_FRAME_MODE is c version of EncodeFrameMode
enum {
DUCKY_ENCODE_FRAME_MODE_NONE, // Let native AV1 determine q index and rdmult
DUCKY_ENCODE_FRAME_MODE_QINDEX, // DuckyEncode determines q index and AV1
// determines rdmult
DUCKY_ENCODE_FRAME_MODE_QINDEX_RDMULT, // DuckyEncode determines q index and
// rdmult
} UENUM1BYTE(DUCKY_ENCODE_FRAME_MODE);
enum {
DUCKY_ENCODE_GOP_MODE_NONE, // native AV1 decides GOP
DUCKY_ENCODE_GOP_MODE_RCL, // rate control lib decides GOP
} UENUM1BYTE(DUCKY_ENCODE_GOP_MODE);
typedef struct DuckyEncodeFrameInfo {
DUCKY_ENCODE_FRAME_MODE qp_mode;
DUCKY_ENCODE_GOP_MODE gop_mode;
int q_index;
int rdmult;
// These two arrays are equivalent to std::vector<SuperblockEncodeParameters>
int *superblock_encode_qindex;
int *superblock_encode_rdmult;
int delta_q_enabled;
} DuckyEncodeFrameInfo;
typedef struct DuckyEncodeFrameResult {
int global_order_idx;
int q_index;
int rdmult;
int rate;
int64_t dist;
double psnr;
} DuckyEncodeFrameResult;
typedef struct DuckyEncodeInfo {
DuckyEncodeFrameInfo frame_info;
DuckyEncodeFrameResult frame_result;
} DuckyEncodeInfo;
/*!\endcond */
#endif
/*!\cond */
typedef struct RTC_REF {
/*!
* LAST_FRAME (0), LAST2_FRAME(1), LAST3_FRAME(2), GOLDEN_FRAME(3),
* BWDREF_FRAME(4), ALTREF2_FRAME(5), ALTREF_FRAME(6).
*/
int reference[INTER_REFS_PER_FRAME];
int ref_idx[INTER_REFS_PER_FRAME];
int refresh[REF_FRAMES];
int set_ref_frame_config;
int non_reference_frame;
int ref_frame_comp[3];
int gld_idx_1layer;
/*!
* Frame number of the last frame that refreshed the buffer slot.
*/
unsigned int buffer_time_index[REF_FRAMES];
/*!
* Spatial layer id of the last frame that refreshed the buffer slot.
*/
unsigned char buffer_spatial_layer[REF_FRAMES];
/*!
* Flag to indicate whether closest reference was the previous frame.
*/
bool reference_was_previous_frame;
/*!
* Flag to indicate this frame is based on longer term reference only,
* for recovery from past loss, and it should be biased for improved coding.
*/
bool bias_recovery_frame;
} RTC_REF;
/*!\endcond */
/*!
* \brief Structure to hold data corresponding to an encoded frame.
*/
typedef struct AV1_COMP_DATA {
/*!
* Buffer to store packed bitstream data of a frame.
*/
unsigned char *cx_data;
/*!
* Allocated size of the cx_data buffer.
*/
size_t cx_data_sz;
/*!
* Size of data written in the cx_data buffer.
*/
size_t frame_size;
/*!
* Flags for the frame.
*/
unsigned int lib_flags;
/*!
* Time stamp for start of frame.
*/
int64_t ts_frame_start;
/*!
* Time stamp for end of frame.
*/
int64_t ts_frame_end;
/*!
* Flag to indicate flush call.
*/
int flush;
/*!
* Time base for sequence.
*/
const aom_rational64_t *timestamp_ratio;
/*!
* Decide to pop the source for this frame from input buffer queue.
*/
int pop_lookahead;
/*!
* Display order hint of frame whose packed data is in cx_data buffer.
*/
int frame_display_order_hint;
} AV1_COMP_DATA;
/*!
* \brief Top level primary encoder structure
*/
typedef struct AV1_PRIMARY {
/*!
* Array of frame level encoder stage top level structures
*/
struct AV1_COMP *parallel_cpi[MAX_PARALLEL_FRAMES];
/*!
* Array of structures to hold data of frames encoded in a given parallel
* encode set.
*/
struct AV1_COMP_DATA parallel_frames_data[MAX_PARALLEL_FRAMES - 1];
#if CONFIG_FPMT_TEST
/*!
* Flag which enables/disables simulation path for fpmt unit test.
* 0 - FPMT integration
* 1 - FPMT simulation
*/
FPMT_TEST_ENC_CFG fpmt_unit_test_cfg;
/*!
* Temporary variable simulating the delayed frame_probability update.
*/
FrameProbInfo temp_frame_probs;
/*!
* Temporary variable holding the updated frame probability across
* frames. Copy its value to temp_frame_probs for frame_parallel_level 0
* frames or last frame in parallel encode set.
*/
FrameProbInfo temp_frame_probs_simulation;
/*!
* Temporary variable simulating the delayed update of valid global motion
* model across frames.
*/
int temp_valid_gm_model_found[FRAME_UPDATE_TYPES];
#endif // CONFIG_FPMT_TEST
/*!
* Copy of cm->ref_frame_map maintained to facilitate sequential update of
* ref_frame_map by lower layer depth frames encoded ahead of time in a
* parallel encode set.
*/
RefCntBuffer *ref_frame_map_copy[REF_FRAMES];
/*!
* Start time stamp of the last encoded show frame
*/
int64_t ts_start_last_show_frame;
/*!
* End time stamp of the last encoded show frame
*/
int64_t ts_end_last_show_frame;
/*!
* Number of frame level contexts(cpis)
*/
int num_fp_contexts;
/*!
* Loopfilter levels of the previous encoded frame.
*/
int filter_level[2];
/*!
* Chrominance component loopfilter level of the previous encoded frame.
*/
int filter_level_u;
/*!
* Chrominance component loopfilter level of the previous encoded frame.
*/
int filter_level_v;
/*!
* Encode stage top level structure
* During frame parallel encode, this is the same as parallel_cpi[0]
*/
struct AV1_COMP *cpi;
/*!
* Lookahead processing stage top level structure
*/
struct AV1_COMP *cpi_lap;
/*!
* Look-ahead context.
*/
struct lookahead_ctx *lookahead;
/*!
* Sequence parameters have been transmitted already and locked
* or not. Once locked av1_change_config cannot change the seq
* parameters.
*/
int seq_params_locked;
/*!
* Pointer to internal utility functions that manipulate aom_codec_* data
* structures.
*/
struct aom_codec_pkt_list *output_pkt_list;
/*!
* When set, indicates that internal ARFs are enabled.
*/
int internal_altref_allowed;
/*!
* Tell if OVERLAY frame shows existing alt_ref frame.
*/
int show_existing_alt_ref;
/*!
* Information related to a gf group.
*/
GF_GROUP gf_group;
/*!
* Track prior gf group state.
*/
GF_STATE gf_state;
/*!
* Flag indicating whether look ahead processing (LAP) is enabled.
*/
int lap_enabled;
/*!
* Parameters for AV1 bitstream levels.
*/
AV1LevelParams level_params;
/*!
* Calculates PSNR on each frame when set to 1.
*/
int b_calculate_psnr;
/*!
* Number of frames left to be encoded, is 0 if limit is not set.
*/
int frames_left;
/*!
* Information related to two pass encoding.
*/
TWO_PASS twopass;
/*!
* Rate control related parameters.
*/
PRIMARY_RATE_CONTROL p_rc;
/*!
* Info and resources used by temporal filtering.
*/
TEMPORAL_FILTER_INFO tf_info;
/*!
* Elements part of the sequence header, that are applicable for all the
* frames in the video.
*/
SequenceHeader seq_params;
/*!
* Indicates whether to use SVC.
*/
int use_svc;
/*!
* If true, buffer removal times are present.
*/
bool buffer_removal_time_present;
/*!
* Number of temporal layers: may be > 1 for SVC (scalable vector coding).
*/
unsigned int number_temporal_layers;
/*!
* Number of spatial layers: may be > 1 for SVC (scalable vector coding).
*/
unsigned int number_spatial_layers;
/*!
* Code and details about current error status.
*/
struct aom_internal_error_info error;
/*!
* Function pointers to variants of sse/sad/variance computation functions.
* fn_ptr[i] indicates the list of function pointers corresponding to block
* size i.
*/
aom_variance_fn_ptr_t fn_ptr[BLOCK_SIZES_ALL];
/*!
* tpl_sb_rdmult_scaling_factors[i] stores the RD multiplier scaling factor of
* the ith 16 x 16 block in raster scan order.
*/
double *tpl_sb_rdmult_scaling_factors;
/*!
* Parameters related to tpl.
*/
TplParams tpl_data;
/*!
* Motion vector stats of the previous encoded frame.
*/
MV_STATS mv_stats;
#if CONFIG_INTERNAL_STATS
/*!\cond */
uint64_t total_time_receive_data;
uint64_t total_time_compress_data;
unsigned int total_mode_chosen_counts[MAX_MODES];
int count[2];
uint64_t total_sq_error[2];
uint64_t total_samples[2];
ImageStat psnr[2];
double total_blockiness;
double worst_blockiness;
int total_bytes;
double summed_quality;
double summed_weights;
double summed_quality_hbd;
double summed_weights_hbd;
unsigned int total_recode_hits;
double worst_ssim;
double worst_ssim_hbd;
ImageStat fastssim;
ImageStat psnrhvs;
int b_calculate_blockiness;
int b_calculate_consistency;
double total_inconsistency;
double worst_consistency;
Ssimv *ssim_vars;
Metrics metrics;
/*!\endcond */
#endif
#if CONFIG_ENTROPY_STATS
/*!
* Aggregates frame counts for the sequence.
*/
FRAME_COUNTS aggregate_fc;
#endif // CONFIG_ENTROPY_STATS
/*!
* For each type of reference frame, this contains the index of a reference
* frame buffer for a reference frame of the same type. We use this to
* choose our primary reference frame (which is the most recent reference
* frame of the same type as the current frame).
*/
int fb_of_context_type[REF_FRAMES];
/*!
* Primary Multi-threading parameters.
*/
PrimaryMultiThreadInfo p_mt_info;
/*!
* Probabilities for pruning of various AV1 tools.
*/
FrameProbInfo frame_probs;
/*!
* Indicates if a valid global motion model has been found in the different
* frame update types of a GF group.
* valid_gm_model_found[i] indicates if valid global motion model has been
* found in the frame update type with enum value equal to i
*/
int valid_gm_model_found[FRAME_UPDATE_TYPES];
/*!
* Struct for the reference structure for RTC.
*/
RTC_REF rtc_ref;
/*!
* Struct for all intra mode row multi threading in the preprocess stage
* when --deltaq-mode=3.
*/
AV1EncRowMultiThreadSync intra_row_mt_sync;
} AV1_PRIMARY;
/*!
* \brief Top level encoder structure.
*/
typedef struct AV1_COMP {
/*!
* Pointer to top level primary encoder structure
*/
AV1_PRIMARY *ppi;
/*!
* Quantization and dequantization parameters for internal quantizer setup
* in the encoder.
*/
EncQuantDequantParams enc_quant_dequant_params;
/*!
* Structure holding thread specific variables.
*/
ThreadData td;
/*!
* Statistics collected at frame level.
*/
FRAME_COUNTS counts;
/*!
* Holds buffer storing mode information at 4x4/8x8 level.
*/
MBMIExtFrameBufferInfo mbmi_ext_info;
/*!
* Buffer holding the transform block related information.
* coeff_buffer_base[i] stores the transform block related information of the
* ith superblock in raster scan order.
*/
CB_COEFF_BUFFER *coeff_buffer_base;
/*!
* Structure holding pointers to frame level memory allocated for transform
* block related information.
*/
CoeffBufferPool coeff_buffer_pool;
/*!
* Structure holding variables common to encoder and decoder.
*/
AV1_COMMON common;
/*!
* Encoder configuration related parameters.
*/
AV1EncoderConfig oxcf;
/*!
* Stores the trellis optimization type at segment level.
* optimize_seg_arr[i] stores the trellis opt type for ith segment.
*/
TRELLIS_OPT_TYPE optimize_seg_arr[MAX_SEGMENTS];
/*!
* Pointer to the frame buffer holding the source frame to be used during the
* current stage of encoding. It can be the raw input, temporally filtered
* input or scaled input.
*/
YV12_BUFFER_CONFIG *source;
/*!
* Pointer to the frame buffer holding the last raw source frame.
* last_source is NULL for the following cases:
* 1) First frame
* 2) Alt-ref frames
* 3) All frames for all-intra frame encoding.
*/
YV12_BUFFER_CONFIG *last_source;
/*!
* Pointer to the frame buffer holding the unscaled source frame.
* It can be either the raw input or temporally filtered input.
*/
YV12_BUFFER_CONFIG *unscaled_source;
/*!
* Frame buffer holding the resized source frame (cropping / superres).
*/
YV12_BUFFER_CONFIG scaled_source;
/*!
* Pointer to the frame buffer holding the unscaled last source frame.
*/
YV12_BUFFER_CONFIG *unscaled_last_source;
/*!
* Frame buffer holding the resized last source frame.
*/
YV12_BUFFER_CONFIG scaled_last_source;
/*!
* Pointer to the original source frame. This is used to determine if the
* content is screen.
*/
YV12_BUFFER_CONFIG *unfiltered_source;
/*!
* Frame buffer holding the orig source frame for PSNR calculation in rtc tf
* case.
*/
YV12_BUFFER_CONFIG orig_source;
/*!
* Skip tpl setup when tpl data from gop length decision can be reused.
*/
int skip_tpl_setup_stats;
/*!
* Scaling factors used in the RD multiplier modulation.
* TODO(sdeng): consider merge the following arrays.
* tpl_rdmult_scaling_factors is a temporary buffer used to store the
* intermediate scaling factors which are used in the calculation of
* tpl_sb_rdmult_scaling_factors. tpl_rdmult_scaling_factors[i] stores the
* intermediate scaling factor of the ith 16 x 16 block in raster scan order.
*/
double *tpl_rdmult_scaling_factors;
/*!
* Temporal filter context.
*/
TemporalFilterCtx tf_ctx;
/*!
* Pointer to CDEF search context.
*/
CdefSearchCtx *cdef_search_ctx;
/*!
* Variables related to forcing integer mv decisions for the current frame.
*/
ForceIntegerMVInfo force_intpel_info;
/*!
* Pointer to the buffer holding the scaled reference frames.
* scaled_ref_buf[i] holds the scaled reference frame of type i.
*/
RefCntBuffer *scaled_ref_buf[INTER_REFS_PER_FRAME];
/*!
* Pointer to the buffer holding the last show frame.
*/
RefCntBuffer *last_show_frame_buf;
/*!
* Refresh frame flags for golden, bwd-ref and alt-ref frames.
*/
RefreshFrameInfo refresh_frame;
/*!
* Flag to reduce the number of reference frame buffers used in rt.
*/
int rt_reduce_num_ref_buffers;
/*!
* Flags signalled by the external interface at frame level.
*/
ExternalFlags ext_flags;
/*!
* Temporary frame buffer used to store the non-loop filtered reconstructed
* frame during the search of loop filter level.
*/
YV12_BUFFER_CONFIG last_frame_uf;
/*!
* Temporary frame buffer used to store the loop restored frame during loop
* restoration search.
*/
YV12_BUFFER_CONFIG trial_frame_rst;
/*!
* Ambient reconstruction err target for force key frames.
*/
int64_t ambient_err;
/*!
* Parameters related to rate distortion optimization.
*/
RD_OPT rd;
/*!
* Temporary coding context used to save and restore when encoding with and
* without super-resolution.
*/
CODING_CONTEXT coding_context;
/*!
* Parameters related to global motion search.
*/
GlobalMotionInfo gm_info;
/*!
* Parameters related to winner mode processing.
*/
WinnerModeParams winner_mode_params;
/*!
* Frame time stamps.
*/
TimeStamps time_stamps;
/*!
* Rate control related parameters.
*/
RATE_CONTROL rc;
/*!
* Frame rate of the video.
*/
double framerate;
/*!
* Bitmask indicating which reference buffers may be referenced by this frame.
*/
int ref_frame_flags;
/*!
* speed is passed as a per-frame parameter into the encoder.
*/
int speed;
/*!
* sf contains fine-grained config set internally based on speed.
*/
SPEED_FEATURES sf;
/*!
* Parameters for motion vector search process.
*/
MotionVectorSearchParams mv_search_params;
/*!
* When set, indicates that all reference frames are forward references,
* i.e., all the reference frames are output before the current frame.
*/
int all_one_sided_refs;
/*!
* Segmentation related information for current frame.
*/
EncSegmentationInfo enc_seg;
/*!
* Parameters related to cyclic refresh aq-mode.
*/
CYCLIC_REFRESH *cyclic_refresh;
/*!
* Parameters related to active map. Active maps indicate
* if there is any activity on a 4x4 block basis.
*/
ActiveMap active_map;
/*!
* The frame processing order within a GOP.
*/
unsigned char gf_frame_index;
#if CONFIG_INTERNAL_STATS
/*!\cond */
uint64_t time_compress_data;
unsigned int mode_chosen_counts[MAX_MODES];
int bytes;
unsigned int frame_recode_hits;
/*!\endcond */
#endif
#if CONFIG_SPEED_STATS
/*!
* For debugging: number of transform searches we have performed.
*/
unsigned int tx_search_count;
#endif // CONFIG_SPEED_STATS
/*!
* When set, indicates that the frame is droppable, i.e., this frame
* does not update any reference buffers.
*/
int droppable;
/*!
* Stores the frame parameters during encoder initialization.
*/
FRAME_INFO frame_info;
/*!
* Stores different types of frame indices.
*/
FRAME_INDEX_SET frame_index_set;
/*!
* Structure to store the dimensions of current frame.
*/
InitialDimensions initial_dimensions;
/*!
* Number of MBs in the full-size frame; to be used to
* normalize the firstpass stats. This will differ from the
* number of MBs in the current frame when the frame is
* scaled.
*/
int initial_mbs;
/*!
* Resize related parameters.
*/
ResizePendingParams resize_pending_params;
/*!
* Pointer to struct holding adaptive data/contexts/models for the tile during
* encoding.
*/
TileDataEnc *tile_data;
/*!
* Number of tiles for which memory has been allocated for tile_data.
*/
int allocated_tiles;
/*!
* Structure to store the palette token related information.
*/
TokenInfo token_info;
/*!
* VARIANCE_AQ segment map refresh.
*/
int vaq_refresh;
/*!
* Thresholds for variance based partitioning.
*/
VarBasedPartitionInfo vbp_info;
/*!
* Number of recodes in the frame.
*/
int num_frame_recode;
/*!
* Current frame probability of parallel frames, across recodes.
*/
FrameProbInfo frame_new_probs[NUM_RECODES_PER_FRAME];
/*!
* Retain condition for transform type frame_probability calculation
*/
int do_update_frame_probs_txtype[NUM_RECODES_PER_FRAME];
/*!
* Retain condition for obmc frame_probability calculation
*/
int do_update_frame_probs_obmc[NUM_RECODES_PER_FRAME];
/*!
* Retain condition for warped motion frame_probability calculation
*/
int do_update_frame_probs_warp[NUM_RECODES_PER_FRAME];
/*!
* Retain condition for interpolation filter frame_probability calculation
*/
int do_update_frame_probs_interpfilter[NUM_RECODES_PER_FRAME];
#if CONFIG_FPMT_TEST
/*!
* Temporary variable for simulation.
* Previous frame's framerate.
*/
double temp_framerate;
#endif
/*!
* Updated framerate for the current parallel frame.
* cpi->framerate is updated with new_framerate during
* post encode updates for parallel frames.
*/
double new_framerate;
/*!
* Retain condition for fast_extra_bits calculation.
*/
int do_update_vbr_bits_off_target_fast;
/*!
* Multi-threading parameters.
*/
MultiThreadInfo mt_info;
/*!
* Specifies the frame to be output. It is valid only if show_existing_frame
* is 1. When show_existing_frame is 0, existing_fb_idx_to_show is set to
* INVALID_IDX.
*/
int existing_fb_idx_to_show;
/*!
* A flag to indicate if intrabc is ever used in current frame.
*/
int intrabc_used;
/*!
* Mark which ref frames can be skipped for encoding current frame during RDO.
*/
int prune_ref_frame_mask;
/*!
* Loop Restoration context.
*/
AV1LrStruct lr_ctxt;
/*!
* Loop Restoration context used during pick stage.
*/
AV1LrPickStruct pick_lr_ctxt;
/*!
* Pointer to list of tables with film grain parameters.
*/
aom_film_grain_table_t *film_grain_table;
#if CONFIG_DENOISE
/*!
* Pointer to structure holding the denoised image buffers and the helper
* noise models.
*/
struct aom_denoise_and_model_t *denoise_and_model;
#endif
/*!
* Flags related to interpolation filter search.
*/
InterpSearchFlags interp_search_flags;
/*!
* Turn on screen content tools flag.
* Note that some videos are not screen content videos, but
* screen content tools could also improve coding efficiency.
* For example, videos with large flat regions, gaming videos that look
* like natural videos.
*/
int use_screen_content_tools;
/*!
* A flag to indicate "real" screen content videos.
* For example, screen shares, screen editing.
* This type is true indicates |use_screen_content_tools| must be true.
* In addition, rate control strategy is adjusted when this flag is true.
*/
int is_screen_content_type;
#if CONFIG_COLLECT_PARTITION_STATS
/*!
* Accumulates the partition timing stat over the whole frame.
*/
FramePartitionTimingStats partition_stats;
#endif // CONFIG_COLLECT_PARTITION_STATS
#if CONFIG_COLLECT_COMPONENT_TIMING
/*!
* component_time[] are initialized to zero while encoder starts.
*/
uint64_t component_time[kTimingComponents];
/*!
* Stores timing for individual components between calls of start_timing()
* and end_timing().
*/
struct aom_usec_timer component_timer[kTimingComponents];
/*!
* frame_component_time[] are initialized to zero at beginning of each frame.
*/
uint64_t frame_component_time[kTimingComponents];
#endif
/*!
* Count the number of OBU_FRAME and OBU_FRAME_HEADER for level calculation.
*/
int frame_header_count;
/*!
* Whether any no-zero delta_q was actually used.
*/
int deltaq_used;
/*!
* Refrence frame distance related variables.
*/
RefFrameDistanceInfo ref_frame_dist_info;
/*!
* ssim_rdmult_scaling_factors[i] stores the RD multiplier scaling factor of
* the ith 16 x 16 block in raster scan order. This scaling factor is used for
* RD multiplier modulation when SSIM tuning is enabled.
*/
double *ssim_rdmult_scaling_factors;
#if CONFIG_TUNE_VMAF
/*!
* Parameters for VMAF tuning.
*/
TuneVMAFInfo vmaf_info;
#endif
#if CONFIG_TUNE_BUTTERAUGLI
/*!
* Parameters for Butteraugli tuning.
*/
TuneButteraugliInfo butteraugli_info;
#endif
/*!
* Parameters for scalable video coding.
*/
SVC svc;
/*!
* Indicates whether current processing stage is encode stage or LAP stage.
*/
COMPRESSOR_STAGE compressor_stage;
/*!
* Frame type of the last frame. May be used in some heuristics for speeding
* up the encoding.
*/
FRAME_TYPE last_frame_type;
/*!
* Number of tile-groups.
*/
int num_tg;
/*!
* Super-resolution mode currently being used by the encoder.
* This may / may not be same as user-supplied mode in oxcf->superres_mode
* (when we are recoding to try multiple options for example).
*/
aom_superres_mode superres_mode;
/*!
* First pass related data.
*/
FirstPassData firstpass_data;
/*!
* Temporal Noise Estimate
*/
NOISE_ESTIMATE noise_estimate;
#if CONFIG_AV1_TEMPORAL_DENOISING
/*!
* Temporal Denoiser
*/
AV1_DENOISER denoiser;
#endif
/*!
* Count on how many consecutive times a block uses small/zeromv for encoding
* in a scale of 8x8 block.
*/
uint8_t *consec_zero_mv;
/*!
* Allocated memory size for |consec_zero_mv|.
*/
int consec_zero_mv_alloc_size;
/*!
* Block size of first pass encoding
*/
BLOCK_SIZE fp_block_size;
/*!
* The counter of encoded super block, used to differentiate block names.
* This number starts from 0 and increases whenever a super block is encoded.
*/
int sb_counter;
/*!
* Available bitstream buffer size in bytes
*/
size_t available_bs_size;
/*!
* The controller of the external partition model.
* It is used to do partition type selection based on external models.
*/
ExtPartController ext_part_controller;
/*!
* Motion vector stats of the current encoded frame, used to update the
* ppi->mv_stats during postencode.
*/
MV_STATS mv_stats;
/*!
* Stores the reference refresh index for the current frame.
*/
int ref_refresh_index;
/*!
* A flag to indicate if the reference refresh index is available for the
* current frame.
*/
bool refresh_idx_available;
/*!
* Reference frame index corresponding to the frame to be excluded from being
* used as a reference by frame_parallel_level 2 frame in a parallel
* encode set of lower layer frames.
*/
int ref_idx_to_skip;
#if CONFIG_FPMT_TEST
/*!
* Stores the wanted frame buffer index for choosing primary ref frame by a
* frame_parallel_level 2 frame in a parallel encode set of lower layer
* frames.
*/
int wanted_fb;
#endif // CONFIG_FPMT_TEST
/*!
* A flag to indicate frames that will update their data to the primary
* context at the end of the encode. It is set for non-parallel frames and the
* last frame in encode order in a given parallel encode set.
*/
bool do_frame_data_update;
#if CONFIG_RD_COMMAND
/*!
* A structure for assigning external q_index / rdmult for experiments
*/
RD_COMMAND rd_command;
#endif // CONFIG_RD_COMMAND
/*!
* Buffer to store MB variance after Wiener filter.
*/
WeberStats *mb_weber_stats;
/*!
* Buffer to store rate cost estimates for each macro block (8x8) in the
* preprocessing stage used in allintra mode.
*/
int *prep_rate_estimates;
/*!
* Buffer to store rate cost estimates for each 16x16 block read
* from an external file, used in allintra mode.
*/
double *ext_rate_distribution;
/*!
* The scale that equals sum_rate_uniform_quantizer / sum_ext_rate.
*/
double ext_rate_scale;
/*!
* Buffer to store MB variance after Wiener filter.
*/
BLOCK_SIZE weber_bsize;
/*!
* Frame level Wiener filter normalization.
*/
int64_t norm_wiener_variance;
/*!
* Buffer to store delta-q values for delta-q mode 4.
*/
int *mb_delta_q;
/*!
* Flag to indicate that current frame is dropped.
*/
bool is_dropped_frame;
#if CONFIG_BITRATE_ACCURACY
/*!
* Structure stores information needed for bitrate accuracy experiment.
*/
VBR_RATECTRL_INFO vbr_rc_info;
#endif
#if CONFIG_RATECTRL_LOG
/*!
* Structure stores information of rate control decisions.
*/
RATECTRL_LOG rc_log;
#endif // CONFIG_RATECTRL_LOG
/*!
* Frame level twopass status and control data
*/
TWO_PASS_FRAME twopass_frame;
/*!
* Context needed for third pass encoding.
*/
THIRD_PASS_DEC_CTX *third_pass_ctx;
/*!
* File pointer to second pass log
*/
FILE *second_pass_log_stream;
/*!
* Buffer to store 64x64 SAD
*/
uint64_t *src_sad_blk_64x64;
/*!
* SSE between the current frame and the reconstructed last frame
*/
uint64_t rec_sse;
/*!
* A flag to indicate whether the encoder is controlled by DuckyEncode or not.
* 1:yes 0:no
*/
int use_ducky_encode;
#if !CONFIG_REALTIME_ONLY
/*! A structure that facilitates the communication between DuckyEncode and AV1
* encoder.
*/
DuckyEncodeInfo ducky_encode_info;
#endif // CONFIG_REALTIME_ONLY
//
/*!
* Frames since last frame with cdf update.
*/
int frames_since_last_update;
/*!
* Block level thresholds to force zeromv-skip at partition level.
*/
unsigned int zeromv_skip_thresh_exit_part[BLOCK_SIZES_ALL];
/*!
* Number of downsampling pyramid levels to allocate for each frame
* This is currently only used for global motion
*/
int image_pyramid_levels;
#if CONFIG_SALIENCY_MAP
/*!
* Pixel level saliency map for each frame.
*/
uint8_t *saliency_map;
/*!
* Superblock level rdmult scaling factor driven by saliency map.
*/
double *sm_scaling_factor;
#endif
/*!
* Number of pixels that choose palette mode for luma in the
* fast encoding pass in av1_determine_sc_tools_with_encoding().
*/
int palette_pixel_num;
} AV1_COMP;
/*!
* \brief Input frames and last input frame
*/
typedef struct EncodeFrameInput {
/*!\cond */
YV12_BUFFER_CONFIG *source;
YV12_BUFFER_CONFIG *last_source;
int64_t ts_duration;
/*!\endcond */
} EncodeFrameInput;
/*!
* \brief contains per-frame encoding parameters decided upon by
* av1_encode_strategy() and passed down to av1_encode().
*/
typedef struct EncodeFrameParams {
/*!
* Is error resilient mode enabled
*/
int error_resilient_mode;
/*!
* Frame type (eg KF vs inter frame etc)
*/
FRAME_TYPE frame_type;
/*!\cond */
int primary_ref_frame;
int order_offset;
/*!\endcond */
/*!
* Should the current frame be displayed after being decoded
*/
int show_frame;
/*!\cond */
int refresh_frame_flags;
int show_existing_frame;
int existing_fb_idx_to_show;
/*!\endcond */
/*!
* Bitmask of which reference buffers may be referenced by this frame.
*/
int ref_frame_flags;
/*!
* Reference buffer assignment for this frame.
*/
int remapped_ref_idx[REF_FRAMES];
/*!
* Flags which determine which reference buffers are refreshed by this
* frame.
*/
RefreshFrameInfo refresh_frame;
/*!
* Speed level to use for this frame: Bigger number means faster.
*/
int speed;
} EncodeFrameParams;
/*!\cond */
// EncodeFrameResults contains information about the result of encoding a
// single frame
typedef struct {
size_t size; // Size of resulting bitstream
} EncodeFrameResults;
void av1_initialize_enc(unsigned int usage, enum aom_rc_mode end_usage);
struct AV1_COMP *av1_create_compressor(AV1_PRIMARY *ppi,
const AV1EncoderConfig *oxcf,
BufferPool *const pool,
COMPRESSOR_STAGE stage,
int lap_lag_in_frames);
struct AV1_PRIMARY *av1_create_primary_compressor(
struct aom_codec_pkt_list *pkt_list_head, int num_lap_buffers,
const AV1EncoderConfig *oxcf);
void av1_remove_compressor(AV1_COMP *cpi);
void av1_remove_primary_compressor(AV1_PRIMARY *ppi);
#if CONFIG_ENTROPY_STATS
void print_entropy_stats(AV1_PRIMARY *const ppi);
#endif
#if CONFIG_INTERNAL_STATS
void print_internal_stats(AV1_PRIMARY *ppi);
#endif
void av1_change_config_seq(AV1_PRIMARY *ppi, const AV1EncoderConfig *oxcf,
bool *sb_size_changed);
void av1_change_config(AV1_COMP *cpi, const AV1EncoderConfig *oxcf,
bool sb_size_changed);
void av1_check_initial_width(AV1_COMP *cpi, int use_highbitdepth,
int subsampling_x, int subsampling_y);
void av1_init_seq_coding_tools(AV1_PRIMARY *const ppi,
const AV1EncoderConfig *oxcf, int use_svc);
void av1_post_encode_updates(AV1_COMP *const cpi,
const AV1_COMP_DATA *const cpi_data);
void av1_scale_references_fpmt(AV1_COMP *cpi, int *ref_buffers_used_map);
void av1_increment_scaled_ref_counts_fpmt(BufferPool *buffer_pool,
int ref_buffers_used_map);
void av1_release_scaled_references_fpmt(AV1_COMP *cpi);
void av1_decrement_ref_counts_fpmt(BufferPool *buffer_pool,
int ref_buffers_used_map);
void av1_init_sc_decisions(AV1_PRIMARY *const ppi);
AV1_COMP *av1_get_parallel_frame_enc_data(AV1_PRIMARY *const ppi,
AV1_COMP_DATA *const first_cpi_data);
int av1_init_parallel_frame_context(const AV1_COMP_DATA *const first_cpi_data,
AV1_PRIMARY *const ppi,
int *ref_buffers_used_map);
/*!\endcond */
/*!\brief Obtain the raw frame data
*
* \ingroup high_level_algo
* This function receives the raw frame data from input.
*
* \param[in] cpi Top-level encoder structure
* \param[in] frame_flags Flags to decide how to encoding the frame
* \param[in,out] sd Contain raw frame data
* \param[in] time_stamp Time stamp of the frame
* \param[in] end_time_stamp End time stamp
*
* \return Returns a value to indicate if the frame data is received
* successfully.
* \note The caller can assume that a copy of this frame is made and not just a
* copy of the pointer.
*/
int av1_receive_raw_frame(AV1_COMP *cpi, aom_enc_frame_flags_t frame_flags,
YV12_BUFFER_CONFIG *sd, int64_t time_stamp,
int64_t end_time_stamp);
/*!\brief Encode a frame
*
* \ingroup high_level_algo
* \callgraph
* \callergraph
* This function encodes the raw frame data, and outputs the frame bit stream
* to the designated buffer. The caller should use the output parameters
* cpi_data->ts_frame_start and cpi_data->ts_frame_end only when this function
* returns AOM_CODEC_OK.
*
* \param[in] cpi Top-level encoder structure
* \param[in,out] cpi_data Data