aom/aom_external_partition.h - aom - Git at Google

 /*
  * Copyright (c) 2021, 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.
  */
 #ifndef AOM_AOM_AOM_EXTERNAL_PARTITION_H_
 #define AOM_AOM_AOM_EXTERNAL_PARTITION_H_

 /*!\defgroup aom_encoder AOMedia AOM/AV1 Encoder
  * \ingroup aom
  *
  * @{
  */
 #include <stdint.h>

 /*!\file
  * \brief Provides function pointer definitions for the external partition.
  *
  * \note The external partition API should be considered experimental. Until the
  * external partition API is declared stable, breaking changes may be made to
  * this API in a future libaom release.
  */

 /*!\brief Current ABI version number
  *
  * \internal
  * If this file is altered in any way that changes the ABI, this value
  * must be bumped. Examples include, but are not limited to, changing
  * types, removing or reassigning enums, adding/removing/rearranging
  * fields to structures.
  */
 #define AOM_EXT_PART_ABI_VERSION 8

 #ifdef __cplusplus
 extern "C" {
 #endif

 /*!\brief Abstract external partition model handler
  */
 typedef void *aom_ext_part_model_t;

 /*!\brief Number of features to determine whether to skip partition none and
  * do partition split directly. The same as "FEATURE_SIZE_SMS_SPLIT".
  */
 #define AOM_EXT_PART_SIZE_DIRECT_SPLIT 17

 /*!\brief Number of features to use simple motion search to prune out
  * rectangular partition in some direction. The same as
  * "FEATURE_SIZE_SMS_PRUNE_PART".
  */
 #define AOM_EXT_PART_SIZE_PRUNE_PART 25

 /*!\brief Number of features to prune split and rectangular partition
  * after PARTITION_NONE.
  */
 #define AOM_EXT_PART_SIZE_PRUNE_NONE 4

 /*!\brief Number of features to terminates partition after partition none using
  * simple_motion_search features and the rate, distortion, and rdcost of
  * PARTITION_NONE. The same as "FEATURE_SIZE_SMS_TERM_NONE".
  */
 #define AOM_EXT_PART_SIZE_TERM_NONE 28

 /*!\brief Number of features to terminates partition after partition split.
  */
 #define AOM_EXT_PART_SIZE_TERM_SPLIT 31

 /*!\brief Number of features to prune rectangular partition using stats
  * collected after partition split.
  */
 #define AOM_EXT_PART_SIZE_PRUNE_RECT 9

 /*!\brief Number of features to prune AB partition using stats
  * collected after rectangular partition..
  */
 #define AOM_EXT_PART_SIZE_PRUNE_AB 10

 /*!\brief Number of features to prune 4-way partition using stats
  * collected after AB partition.
  */
 #define AOM_EXT_PART_SIZE_PRUNE_4_WAY 18

 /*!\brief Decision mode of the external partition model.
  * AOM_EXT_PART_WHOLE_TREE: the external partition model should provide the
  * whole partition tree for the superblock.
  *
  * AOM_EXT_PART_RECURSIVE: the external partition model provides the partition
  * decision of the current block only. The decision process starts from
  * the superblock size, down to the smallest block size (4x4) recursively.
  */
 typedef enum aom_ext_part_decision_mode {
   AOM_EXT_PART_WHOLE_TREE = 0,
   AOM_EXT_PART_RECURSIVE = 1,
 } aom_ext_part_decision_mode_t;

 /*!\brief Config information sent to the external partition model.
  *
  * For example, the maximum superblock size determined by the sequence header.
  */
 typedef struct aom_ext_part_config {
   int superblock_size;  ///< super block size (either 64x64 or 128x128)
 } aom_ext_part_config_t;

 /*!\brief Features pass to the external model to make partition decisions.
  * Specifically, features collected before NONE partition.
  * Features "f" are used to determine:
  * partition_none_allowed, partition_horz_allowed, partition_vert_allowed,
  * do_rectangular_split, do_square_split
  * Features "f_part2" are used to determine:
  * prune_horz, prune_vert.
  */
 typedef struct aom_partition_features_before_none {
   /*! features to determine whether skip partition none and do split directly */
   float f[AOM_EXT_PART_SIZE_DIRECT_SPLIT];
   /*! features to determine whether to prune rectangular partition */
   float f_part2[AOM_EXT_PART_SIZE_PRUNE_PART];
 } aom_partition_features_before_none_t;

 /*!\brief Features pass to the external model to make partition decisions.
  * Specifically, features collected after NONE partition.
  */
 typedef struct aom_partition_features_none {
   /*! features to prune split and rectangular partition */
   float f[AOM_EXT_PART_SIZE_PRUNE_NONE];
   /*! features to determine termination of partition */
   float f_terminate[AOM_EXT_PART_SIZE_TERM_NONE];
 } aom_partition_features_none_t;

 /*!\brief Features pass to the external model to make partition decisions.
  * Specifically, features collected after SPLIT partition.
  */
 typedef struct aom_partition_features_split {
   /*! features to determine termination of  partition */
   float f_terminate[AOM_EXT_PART_SIZE_TERM_SPLIT];
   /*! features to determine pruning rect partition */
   float f_prune_rect[AOM_EXT_PART_SIZE_PRUNE_RECT];
 } aom_partition_features_split_t;

 /*!\brief Features pass to the external model to make partition decisions.
  * Specifically, features collected after RECTANGULAR partition.
  */
 typedef struct aom_partition_features_rect {
   /*! features to determine pruning AB partition */
   float f[AOM_EXT_PART_SIZE_PRUNE_AB];
 } aom_partition_features_rect_t;

 /*!\brief Features pass to the external model to make partition decisions.
  * Specifically, features collected after AB partition: HORZ_A, HORZ_B, VERT_A,
  * VERT_B.
  */
 typedef struct aom_partition_features_ab {
   /*! features to determine pruning 4-way partition */
   float f[AOM_EXT_PART_SIZE_PRUNE_4_WAY];
 } aom_partition_features_ab_t;

 /*!\brief Feature id to tell the external model the current stage in partition
  * pruning and what features to use to make decisions accordingly.
  */
 typedef enum {
   AOM_EXT_PART_FEATURE_BEFORE_NONE,
   AOM_EXT_PART_FEATURE_BEFORE_NONE_PART2,
   AOM_EXT_PART_FEATURE_AFTER_NONE,
   AOM_EXT_PART_FEATURE_AFTER_NONE_PART2,
   AOM_EXT_PART_FEATURE_AFTER_SPLIT,
   AOM_EXT_PART_FEATURE_AFTER_SPLIT_PART2,
   AOM_EXT_PART_FEATURE_AFTER_RECT,
   AOM_EXT_PART_FEATURE_AFTER_AB
 } AOM_EXT_PART_FEATURE_ID;

 /*!\brief Features collected from the tpl process.
  *
  * The tpl process collects information that help measure the inter-frame
  * dependency.
  * The tpl process is computed in the unit of tpl_bsize_1d (16x16).
  * Therefore, the max number of units inside a superblock is
  * 128x128 / (16x16) = 64. Change it if the tpl process changes.
  */
 typedef struct aom_sb_tpl_features {
   int available;        ///< If tpl stats are available
   int tpl_unit_length;  ///< The block length of tpl process
   int num_units;        ///< The number of units inside the current superblock
   int64_t intra_cost[64];   ///< The intra cost of each unit
   int64_t inter_cost[64];   ///< The inter cost of each unit
   int64_t mc_dep_cost[64];  ///< The motion compensated dependency cost
 } aom_sb_tpl_features_t;

 /*!\brief Features collected from the simple motion process.
  *
  * The simple motion process collects information by applying motion compensated
  * prediction on each block.
  * The block size is 16x16, which could be changed. If it is changed, update
  * comments and the array size here.
  */
 typedef struct aom_sb_simple_motion_features {
   int unit_length;    ///< The block length of the simple motion process
   int num_units;      ///< The number of units inside the current superblock
   int block_sse[64];  ///< Sum of squared error of each unit
   int block_var[64];  ///< Variance of each unit
 } aom_sb_simple_motion_features_t;

 /*!\brief Features of each super block.
  *
  * Features collected for each super block before partition search.
  */
 typedef struct aom_sb_features {
   /*! Features from motion search */
   aom_sb_simple_motion_features_t motion_features;
   /*! Features from tpl process */
   aom_sb_tpl_features_t tpl_features;
 } aom_sb_features_t;

 /*!\brief Features pass to the external model to make partition decisions.
  *
  * The encoder sends these features to the external model through
  * "func()" defined in .....
  *
  * NOTE: new member variables may be added to this structure in the future.
  * Once new features are finalized, bump the major version of libaom.
  */
 typedef struct aom_partition_features {
   // Features for the current supervised multi-stage ML model.
   /*! Feature ID to indicate active features */
   AOM_EXT_PART_FEATURE_ID id;
   /*! Features collected before NONE partition */
   aom_partition_features_before_none_t before_part_none;
   /*! Features collected after NONE partition */
   aom_partition_features_none_t after_part_none;
   /*! Features collected after SPLIT partition */
   aom_partition_features_split_t after_part_split;
   /*! Features collected after RECTANGULAR partition */
   aom_partition_features_rect_t after_part_rect;
   /*! Features collected after AB partition */
   aom_partition_features_ab_t after_part_ab;

   // Features for a new ML model.
   aom_sb_features_t sb_features;  ///< Features collected for the super block
   int mi_row;                     ///< Mi_row position of the block
   int mi_col;                     ///< Mi_col position of the block
   int frame_width;                ///< Frame width
   int frame_height;               ///< Frame height
   int block_size;                 ///< As "BLOCK_SIZE" in av1/common/enums.h
   /*!
    * Valid partition types. A bitmask is used.  "1" represents the
    * corresponding type is vaild. The bitmask follows the enum order for
    * PARTITION_TYPE in "enums.h" to represent one partition type at a bit.
    * For example, 0x01 stands for only PARTITION_NONE is valid,
    * 0x09 (00...001001) stands for PARTITION_NONE and PARTITION_SPLIT are valid.
    */
   int valid_partition_types;
   int update_type;    ///< Frame update type, defined in ratectrl.h
   int qindex;         ///< Quantization index, range: [0, 255]
   int rdmult;         ///< Rate-distortion multiplier
   int pyramid_level;  ///< The level of this frame in the hierarchical structure
   int has_above_block;     ///< Has above neighbor block
   int above_block_width;   ///< Width of the above block, -1 if not exist
   int above_block_height;  ///< Height of the above block, -1 if not exist
   int has_left_block;      ///< Has left neighbor block
   int left_block_width;    ///< Width of the left block, -1 if not exist
   int left_block_height;   ///< Height of the left block, -1 if not exist
   /*!
    * The following parameters are collected from applying simple motion search.
    * Sum of squared error (SSE) and variance of motion compensated residual
    * are good indicators of block partitioning.
    * If a block is a square, we also apply motion search for its 4 sub blocks.
    * If not a square, their values are -1.
    * If a block is able to split horizontally, we apply motion search and get
    * stats for horizontal blocks. If not, their values are -1.
    * If a block is able to split vertically, we apply motion search and get
    * stats for vertical blocks. If not, their values are -1.
    */
   unsigned int block_sse;          ///< SSE of motion compensated residual
   unsigned int block_var;          ///< Variance of motion compensated residual
   unsigned int sub_block_sse[4];   ///< SSE of sub blocks.
   unsigned int sub_block_var[4];   ///< Variance of sub blocks.
   unsigned int horz_block_sse[2];  ///< SSE of horz sub blocks
   unsigned int horz_block_var[2];  ///< Variance of horz sub blocks
   unsigned int vert_block_sse[2];  ///< SSE of vert sub blocks
   unsigned int vert_block_var[2];  ///< Variance of vert sub blocks
   /*!
    * The following parameters are calculated from tpl model.
    * If tpl model is not available, their values are -1.
    */
   int64_t tpl_intra_cost;   ///< Intra cost, ref to "TplDepStats" in tpl_model.h
   int64_t tpl_inter_cost;   ///< Inter cost in tpl model
   int64_t tpl_mc_dep_cost;  ///< Motion compensated dependency cost in tpl model
 } aom_partition_features_t;

 /*!\brief Partition decisions received from the external model.
  *
  * The encoder receives partition decisions and encodes the superblock
  * with the given partition type.
  * The encoder receives it from "func()" define in ....
  *
  * NOTE: new member variables may be added to this structure in the future.
  * Once new features are finalized, bump the major version of libaom.
  */
 typedef struct aom_partition_decision {
   // Decisions for directly set partition types
   int is_final_decision;         ///< The flag whether it's the final decision
   int num_nodes;                 ///< The number of leaf nodes
   int partition_decision[2048];  ///< Partition decisions
   int current_decision;          ///< Partition decision for the current block

   // Decisions for partition type pruning
   int terminate_partition_search;  ///< Terminate further partition search
   int partition_none_allowed;      ///< Allow partition none type
   int partition_rect_allowed[2];   ///< Allow rectangular partitions
   int do_rectangular_split;        ///< Try rectangular split partition
   int do_square_split;             ///< Try square split partition
   int prune_rect_part[2];          ///< Prune rectangular partition
   int horza_partition_allowed;     ///< Allow HORZ_A partitioin
   int horzb_partition_allowed;     ///< Allow HORZ_B partitioin
   int verta_partition_allowed;     ///< Allow VERT_A partitioin
   int vertb_partition_allowed;     ///< Allow VERT_B partitioin
   int partition_horz4_allowed;     ///< Allow HORZ4 partition
   int partition_vert4_allowed;     ///< Allow VERT4 partition
 } aom_partition_decision_t;

 /*!\brief Encoding stats for the given partition decision.
  *
  * The encoding stats collected by encoding the superblock with the
  * given partition types.
  * The encoder sends the stats to the external model for training
  * or inference though "func()" defined in ....
  */
 typedef struct aom_partition_stats {
   int rate;        ///< Rate cost of the block
   int64_t dist;    ///< Distortion of the block
   int64_t rdcost;  ///< Rate-distortion cost of the block
 } aom_partition_stats_t;

 /*!\brief Enum for return status.
  */
 typedef enum aom_ext_part_status {
   AOM_EXT_PART_OK = 0,     ///< Status of success
   AOM_EXT_PART_ERROR = 1,  ///< Status of failure
   AOM_EXT_PART_TEST = 2,   ///< Status used for tests
 } aom_ext_part_status_t;

 /*!\brief Callback of creating an external partition model.
  *
  * The callback is invoked by the encoder to create an external partition
  * model.
  *
  * \param[in] priv Callback's private data
  * \param[in] part_config Config information pointer for model creation
  * \param[out] ext_part_model Pointer to the model
  */
 typedef aom_ext_part_status_t (*aom_ext_part_create_model_fn_t)(
     void *priv, const aom_ext_part_config_t *part_config,
     aom_ext_part_model_t *ext_part_model);

 /*!\brief Callback of sending features to the external partition model.
  *
  * The callback is invoked by the encoder to send features to the external
  * partition model.
  *
  * \param[in] ext_part_model The external model
  * \param[in] part_features Pointer to the features
  */
 typedef aom_ext_part_status_t (*aom_ext_part_send_features_fn_t)(
     aom_ext_part_model_t ext_part_model,
     const aom_partition_features_t *part_features);

 /*!\brief Callback of receiving partition decisions from the external
  * partition model.
  *
  * The callback is invoked by the encoder to receive partition decisions from
  * the external partition model.
  *
  * \param[in] ext_part_model The external model
  * \param[in] ext_part_decision Pointer to the partition decisions
  */
 typedef aom_ext_part_status_t (*aom_ext_part_get_decision_fn_t)(
     aom_ext_part_model_t ext_part_model,
     aom_partition_decision_t *ext_part_decision);

 /*!\brief Callback of sending stats to the external partition model.
  *
  * The callback is invoked by the encoder to send encoding stats to
  * the external partition model.
  *
  * \param[in] ext_part_model The external model
  * \param[in] ext_part_stats Pointer to the encoding stats
  */
 typedef aom_ext_part_status_t (*aom_ext_part_send_partition_stats_fn_t)(
     aom_ext_part_model_t ext_part_model,
     const aom_partition_stats_t *ext_part_stats);

 /*!\brief Callback of deleting the external partition model.
  *
  * The callback is invoked by the encoder to delete the external partition
  * model.
  *
  * \param[in] ext_part_model The external model
  */
 typedef aom_ext_part_status_t (*aom_ext_part_delete_model_fn_t)(
     aom_ext_part_model_t ext_part_model);

 /*!\brief Callback function set for external partition model.
  *
  * Uses can enable external partition model by registering a set of
  * callback functions with the flag: AV1E_SET_EXTERNAL_PARTITION_MODEL
  */
 typedef struct aom_ext_part_funcs {
   /*!
    * Create an external partition model.
    */
   aom_ext_part_create_model_fn_t create_model;

   /*!
    * Send features to the external partition model to make partition decisions.
    */
   aom_ext_part_send_features_fn_t send_features;

   /*!
    * Get partition decisions from the external partition model.
    */
   aom_ext_part_get_decision_fn_t get_partition_decision;

   /*!
    * Send stats of the current partition to the external model.
    */
   aom_ext_part_send_partition_stats_fn_t send_partition_stats;

   /*!
    * Delete the external partition model.
    */
   aom_ext_part_delete_model_fn_t delete_model;

   /*!
    * The decision mode of the model.
    */
   aom_ext_part_decision_mode_t decision_mode;

   /*!
    * Private data for the external partition model.
    */
   void *priv;
 } aom_ext_part_funcs_t;

 /*!@} - end defgroup aom_encoder*/
 #ifdef __cplusplus
 }  // extern "C"
 #endif

 #endif  // AOM_AOM_AOM_EXTERNAL_PARTITION_H_
	/*
	* Copyright (c) 2021, 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.
	*/
	#ifndef AOM_AOM_AOM_EXTERNAL_PARTITION_H_
	#define AOM_AOM_AOM_EXTERNAL_PARTITION_H_

	/*!\defgroup aom_encoder AOMedia AOM/AV1 Encoder
	* \ingroup aom
	*
	* @{
	*/
	#include <stdint.h>

	/*!\file
	* \brief Provides function pointer definitions for the external partition.
	*
	* \note The external partition API should be considered experimental. Until the
	* external partition API is declared stable, breaking changes may be made to
	* this API in a future libaom release.
	*/

	/*!\brief Current ABI version number
	*
	* \internal
	* If this file is altered in any way that changes the ABI, this value
	* must be bumped. Examples include, but are not limited to, changing
	* types, removing or reassigning enums, adding/removing/rearranging
	* fields to structures.
	*/
	#define AOM_EXT_PART_ABI_VERSION 8

	#ifdef __cplusplus
	extern "C" {
	#endif

	/*!\brief Abstract external partition model handler
	*/
	typedef void *aom_ext_part_model_t;

	/*!\brief Number of features to determine whether to skip partition none and
	* do partition split directly. The same as "FEATURE_SIZE_SMS_SPLIT".
	*/
	#define AOM_EXT_PART_SIZE_DIRECT_SPLIT 17

	/*!\brief Number of features to use simple motion search to prune out
	* rectangular partition in some direction. The same as
	* "FEATURE_SIZE_SMS_PRUNE_PART".
	*/
	#define AOM_EXT_PART_SIZE_PRUNE_PART 25

	/*!\brief Number of features to prune split and rectangular partition
	* after PARTITION_NONE.
	*/
	#define AOM_EXT_PART_SIZE_PRUNE_NONE 4

	/*!\brief Number of features to terminates partition after partition none using
	* simple_motion_search features and the rate, distortion, and rdcost of
	* PARTITION_NONE. The same as "FEATURE_SIZE_SMS_TERM_NONE".
	*/
	#define AOM_EXT_PART_SIZE_TERM_NONE 28

	/*!\brief Number of features to terminates partition after partition split.
	*/
	#define AOM_EXT_PART_SIZE_TERM_SPLIT 31

	/*!\brief Number of features to prune rectangular partition using stats
	* collected after partition split.
	*/
	#define AOM_EXT_PART_SIZE_PRUNE_RECT 9

	/*!\brief Number of features to prune AB partition using stats
	* collected after rectangular partition..
	*/
	#define AOM_EXT_PART_SIZE_PRUNE_AB 10

	/*!\brief Number of features to prune 4-way partition using stats
	* collected after AB partition.
	*/
	#define AOM_EXT_PART_SIZE_PRUNE_4_WAY 18

	/*!\brief Decision mode of the external partition model.
	* AOM_EXT_PART_WHOLE_TREE: the external partition model should provide the
	* whole partition tree for the superblock.
	*
	* AOM_EXT_PART_RECURSIVE: the external partition model provides the partition
	* decision of the current block only. The decision process starts from
	* the superblock size, down to the smallest block size (4x4) recursively.
	*/
	typedef enum aom_ext_part_decision_mode {
	AOM_EXT_PART_WHOLE_TREE = 0,
	AOM_EXT_PART_RECURSIVE = 1,
	} aom_ext_part_decision_mode_t;

	/*!\brief Config information sent to the external partition model.
	*
	* For example, the maximum superblock size determined by the sequence header.
	*/
	typedef struct aom_ext_part_config {
	int superblock_size; ///< super block size (either 64x64 or 128x128)
	} aom_ext_part_config_t;

	/*!\brief Features pass to the external model to make partition decisions.
	* Specifically, features collected before NONE partition.
	* Features "f" are used to determine:
	* partition_none_allowed, partition_horz_allowed, partition_vert_allowed,
	* do_rectangular_split, do_square_split
	* Features "f_part2" are used to determine:
	* prune_horz, prune_vert.
	*/
	typedef struct aom_partition_features_before_none {
	/! features to determine whether skip partition none and do split directly /
	float f[AOM_EXT_PART_SIZE_DIRECT_SPLIT];
	/! features to determine whether to prune rectangular partition /
	float f_part2[AOM_EXT_PART_SIZE_PRUNE_PART];
	} aom_partition_features_before_none_t;

	/*!\brief Features pass to the external model to make partition decisions.
	* Specifically, features collected after NONE partition.
	*/
	typedef struct aom_partition_features_none {
	/! features to prune split and rectangular partition /
	float f[AOM_EXT_PART_SIZE_PRUNE_NONE];
	/! features to determine termination of partition /
	float f_terminate[AOM_EXT_PART_SIZE_TERM_NONE];
	} aom_partition_features_none_t;

	/*!\brief Features pass to the external model to make partition decisions.
	* Specifically, features collected after SPLIT partition.
	*/
	typedef struct aom_partition_features_split {
	/! features to determine termination of partition /
	float f_terminate[AOM_EXT_PART_SIZE_TERM_SPLIT];
	/! features to determine pruning rect partition /
	float f_prune_rect[AOM_EXT_PART_SIZE_PRUNE_RECT];
	} aom_partition_features_split_t;

	/*!\brief Features pass to the external model to make partition decisions.
	* Specifically, features collected after RECTANGULAR partition.
	*/
	typedef struct aom_partition_features_rect {
	/! features to determine pruning AB partition /
	float f[AOM_EXT_PART_SIZE_PRUNE_AB];
	} aom_partition_features_rect_t;

	/*!\brief Features pass to the external model to make partition decisions.
	* Specifically, features collected after AB partition: HORZ_A, HORZ_B, VERT_A,
	* VERT_B.
	*/
	typedef struct aom_partition_features_ab {
	/! features to determine pruning 4-way partition /
	float f[AOM_EXT_PART_SIZE_PRUNE_4_WAY];
	} aom_partition_features_ab_t;

	/*!\brief Feature id to tell the external model the current stage in partition
	* pruning and what features to use to make decisions accordingly.
	*/
	typedef enum {
	AOM_EXT_PART_FEATURE_BEFORE_NONE,
	AOM_EXT_PART_FEATURE_BEFORE_NONE_PART2,
	AOM_EXT_PART_FEATURE_AFTER_NONE,
	AOM_EXT_PART_FEATURE_AFTER_NONE_PART2,
	AOM_EXT_PART_FEATURE_AFTER_SPLIT,
	AOM_EXT_PART_FEATURE_AFTER_SPLIT_PART2,
	AOM_EXT_PART_FEATURE_AFTER_RECT,
	AOM_EXT_PART_FEATURE_AFTER_AB
	} AOM_EXT_PART_FEATURE_ID;

	/*!\brief Features collected from the tpl process.
	*
	* The tpl process collects information that help measure the inter-frame
	* dependency.
	* The tpl process is computed in the unit of tpl_bsize_1d (16x16).
	* Therefore, the max number of units inside a superblock is
	* 128x128 / (16x16) = 64. Change it if the tpl process changes.
	*/
	typedef struct aom_sb_tpl_features {
	int available; ///< If tpl stats are available
	int tpl_unit_length; ///< The block length of tpl process
	int num_units; ///< The number of units inside the current superblock
	int64_t intra_cost[64]; ///< The intra cost of each unit
	int64_t inter_cost[64]; ///< The inter cost of each unit
	int64_t mc_dep_cost[64]; ///< The motion compensated dependency cost
	} aom_sb_tpl_features_t;

	/*!\brief Features collected from the simple motion process.
	*
	* The simple motion process collects information by applying motion compensated
	* prediction on each block.
	* The block size is 16x16, which could be changed. If it is changed, update
	* comments and the array size here.
	*/
	typedef struct aom_sb_simple_motion_features {
	int unit_length; ///< The block length of the simple motion process
	int num_units; ///< The number of units inside the current superblock
	int block_sse[64]; ///< Sum of squared error of each unit
	int block_var[64]; ///< Variance of each unit
	} aom_sb_simple_motion_features_t;

	/*!\brief Features of each super block.
	*
	* Features collected for each super block before partition search.
	*/
	typedef struct aom_sb_features {
	/! Features from motion search /
	aom_sb_simple_motion_features_t motion_features;
	/! Features from tpl process /
	aom_sb_tpl_features_t tpl_features;
	} aom_sb_features_t;

	/*!\brief Features pass to the external model to make partition decisions.
	*
	* The encoder sends these features to the external model through
	* "func()" defined in .....
	*
	* NOTE: new member variables may be added to this structure in the future.
	* Once new features are finalized, bump the major version of libaom.
	*/
	typedef struct aom_partition_features {
	// Features for the current supervised multi-stage ML model.
	/! Feature ID to indicate active features /
	AOM_EXT_PART_FEATURE_ID id;
	/! Features collected before NONE partition /
	aom_partition_features_before_none_t before_part_none;
	/! Features collected after NONE partition /
	aom_partition_features_none_t after_part_none;
	/! Features collected after SPLIT partition /
	aom_partition_features_split_t after_part_split;
	/! Features collected after RECTANGULAR partition /
	aom_partition_features_rect_t after_part_rect;
	/! Features collected after AB partition /
	aom_partition_features_ab_t after_part_ab;

	// Features for a new ML model.
	aom_sb_features_t sb_features; ///< Features collected for the super block
	int mi_row; ///< Mi_row position of the block
	int mi_col; ///< Mi_col position of the block
	int frame_width; ///< Frame width
	int frame_height; ///< Frame height
	int block_size; ///< As "BLOCK_SIZE" in av1/common/enums.h
	/*!
	* Valid partition types. A bitmask is used. "1" represents the
	* corresponding type is vaild. The bitmask follows the enum order for
	* PARTITION_TYPE in "enums.h" to represent one partition type at a bit.
	* For example, 0x01 stands for only PARTITION_NONE is valid,
	* 0x09 (00...001001) stands for PARTITION_NONE and PARTITION_SPLIT are valid.
	*/
	int valid_partition_types;
	int update_type; ///< Frame update type, defined in ratectrl.h
	int qindex; ///< Quantization index, range: [0, 255]
	int rdmult; ///< Rate-distortion multiplier
	int pyramid_level; ///< The level of this frame in the hierarchical structure
	int has_above_block; ///< Has above neighbor block
	int above_block_width; ///< Width of the above block, -1 if not exist
	int above_block_height; ///< Height of the above block, -1 if not exist
	int has_left_block; ///< Has left neighbor block
	int left_block_width; ///< Width of the left block, -1 if not exist
	int left_block_height; ///< Height of the left block, -1 if not exist
	/*!
	* The following parameters are collected from applying simple motion search.
	* Sum of squared error (SSE) and variance of motion compensated residual
	* are good indicators of block partitioning.
	* If a block is a square, we also apply motion search for its 4 sub blocks.
	* If not a square, their values are -1.
	* If a block is able to split horizontally, we apply motion search and get
	* stats for horizontal blocks. If not, their values are -1.
	* If a block is able to split vertically, we apply motion search and get
	* stats for vertical blocks. If not, their values are -1.
	*/
	unsigned int block_sse; ///< SSE of motion compensated residual
	unsigned int block_var; ///< Variance of motion compensated residual
	unsigned int sub_block_sse[4]; ///< SSE of sub blocks.
	unsigned int sub_block_var[4]; ///< Variance of sub blocks.
	unsigned int horz_block_sse[2]; ///< SSE of horz sub blocks
	unsigned int horz_block_var[2]; ///< Variance of horz sub blocks
	unsigned int vert_block_sse[2]; ///< SSE of vert sub blocks
	unsigned int vert_block_var[2]; ///< Variance of vert sub blocks
	/*!
	* The following parameters are calculated from tpl model.
	* If tpl model is not available, their values are -1.
	*/
	int64_t tpl_intra_cost; ///< Intra cost, ref to "TplDepStats" in tpl_model.h
	int64_t tpl_inter_cost; ///< Inter cost in tpl model
	int64_t tpl_mc_dep_cost; ///< Motion compensated dependency cost in tpl model
	} aom_partition_features_t;

	/*!\brief Partition decisions received from the external model.
	*
	* The encoder receives partition decisions and encodes the superblock
	* with the given partition type.
	* The encoder receives it from "func()" define in ....
	*
	* NOTE: new member variables may be added to this structure in the future.
	* Once new features are finalized, bump the major version of libaom.
	*/
	typedef struct aom_partition_decision {
	// Decisions for directly set partition types
	int is_final_decision; ///< The flag whether it's the final decision
	int num_nodes; ///< The number of leaf nodes
	int partition_decision[2048]; ///< Partition decisions
	int current_decision; ///< Partition decision for the current block

	// Decisions for partition type pruning
	int terminate_partition_search; ///< Terminate further partition search
	int partition_none_allowed; ///< Allow partition none type
	int partition_rect_allowed[2]; ///< Allow rectangular partitions
	int do_rectangular_split; ///< Try rectangular split partition
	int do_square_split; ///< Try square split partition
	int prune_rect_part[2]; ///< Prune rectangular partition
	int horza_partition_allowed; ///< Allow HORZ_A partitioin
	int horzb_partition_allowed; ///< Allow HORZ_B partitioin
	int verta_partition_allowed; ///< Allow VERT_A partitioin
	int vertb_partition_allowed; ///< Allow VERT_B partitioin
	int partition_horz4_allowed; ///< Allow HORZ4 partition
	int partition_vert4_allowed; ///< Allow VERT4 partition
	} aom_partition_decision_t;

	/*!\brief Encoding stats for the given partition decision.
	*
	* The encoding stats collected by encoding the superblock with the
	* given partition types.
	* The encoder sends the stats to the external model for training
	* or inference though "func()" defined in ....
	*/
	typedef struct aom_partition_stats {
	int rate; ///< Rate cost of the block
	int64_t dist; ///< Distortion of the block
	int64_t rdcost; ///< Rate-distortion cost of the block
	} aom_partition_stats_t;

	/*!\brief Enum for return status.
	*/
	typedef enum aom_ext_part_status {
	AOM_EXT_PART_OK = 0, ///< Status of success
	AOM_EXT_PART_ERROR = 1, ///< Status of failure
	AOM_EXT_PART_TEST = 2, ///< Status used for tests
	} aom_ext_part_status_t;

	/*!\brief Callback of creating an external partition model.
	*
	* The callback is invoked by the encoder to create an external partition
	* model.
	*
	* \param[in] priv Callback's private data
	* \param[in] part_config Config information pointer for model creation
	* \param[out] ext_part_model Pointer to the model
	*/
	typedef aom_ext_part_status_t (*aom_ext_part_create_model_fn_t)(
	void priv, const aom_ext_part_config_t part_config,
	aom_ext_part_model_t *ext_part_model);

	/*!\brief Callback of sending features to the external partition model.
	*
	* The callback is invoked by the encoder to send features to the external
	* partition model.
	*
	* \param[in] ext_part_model The external model
	* \param[in] part_features Pointer to the features
	*/
	typedef aom_ext_part_status_t (*aom_ext_part_send_features_fn_t)(
	aom_ext_part_model_t ext_part_model,
	const aom_partition_features_t *part_features);

	/*!\brief Callback of receiving partition decisions from the external
	* partition model.
	*
	* The callback is invoked by the encoder to receive partition decisions from
	* the external partition model.
	*
	* \param[in] ext_part_model The external model
	* \param[in] ext_part_decision Pointer to the partition decisions
	*/
	typedef aom_ext_part_status_t (*aom_ext_part_get_decision_fn_t)(
	aom_ext_part_model_t ext_part_model,
	aom_partition_decision_t *ext_part_decision);

	/*!\brief Callback of sending stats to the external partition model.
	*
	* The callback is invoked by the encoder to send encoding stats to
	* the external partition model.
	*
	* \param[in] ext_part_model The external model
	* \param[in] ext_part_stats Pointer to the encoding stats
	*/
	typedef aom_ext_part_status_t (*aom_ext_part_send_partition_stats_fn_t)(
	aom_ext_part_model_t ext_part_model,
	const aom_partition_stats_t *ext_part_stats);

	/*!\brief Callback of deleting the external partition model.
	*
	* The callback is invoked by the encoder to delete the external partition
	* model.
	*
	* \param[in] ext_part_model The external model
	*/
	typedef aom_ext_part_status_t (*aom_ext_part_delete_model_fn_t)(
	aom_ext_part_model_t ext_part_model);

	/*!\brief Callback function set for external partition model.
	*
	* Uses can enable external partition model by registering a set of
	* callback functions with the flag: AV1E_SET_EXTERNAL_PARTITION_MODEL
	*/
	typedef struct aom_ext_part_funcs {
	/*!
	* Create an external partition model.
	*/
	aom_ext_part_create_model_fn_t create_model;

	/*!
	* Send features to the external partition model to make partition decisions.
	*/
	aom_ext_part_send_features_fn_t send_features;

	/*!
	* Get partition decisions from the external partition model.
	*/
	aom_ext_part_get_decision_fn_t get_partition_decision;

	/*!
	* Send stats of the current partition to the external model.
	*/
	aom_ext_part_send_partition_stats_fn_t send_partition_stats;

	/*!
	* Delete the external partition model.
	*/
	aom_ext_part_delete_model_fn_t delete_model;

	/*!
	* The decision mode of the model.
	*/
	aom_ext_part_decision_mode_t decision_mode;

	/*!
	* Private data for the external partition model.
	*/
	void *priv;
	} aom_ext_part_funcs_t;

	/!@} - end defgroup aom_encoder/
	#ifdef __cplusplus
	} // extern "C"
	#endif

	#endif // AOM_AOM_AOM_EXTERNAL_PARTITION_H_