av1/encoder/interp_search.h - aom - Git at Google

 /*
  * Copyright (c) 2020, 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_AV1_ENCODER_INTERP_FILTER_SEARCH_H_
 #define AOM_AV1_ENCODER_INTERP_FILTER_SEARCH_H_

 #include "av1/encoder/block.h"
 #include "av1/encoder/encoder.h"
 #include "av1/encoder/rdopt_utils.h"

 #ifdef __cplusplus
 extern "C" {
 #endif

 /*!\cond */
 #define MAX_INTERP_FILTER_STATS 128
 #define DUAL_FILTER_SET_SIZE (SWITCHABLE_FILTERS * SWITCHABLE_FILTERS)

 typedef struct {
   int_interpfilters filters;
   int_mv mv[2];
   int8_t ref_frames[2];
   COMPOUND_TYPE comp_type;
   int compound_idx;
   int64_t rd;
   unsigned int pred_sse;
 } INTERPOLATION_FILTER_STATS;
 /*!\endcond */

 /*!\brief Miscellaneous arguments for inter mode search.
  */
 typedef struct HandleInterModeArgs {
   /*!
    * Buffer for the above predictor in OBMC
    */
   uint8_t *above_pred_buf[MAX_MB_PLANE];
   /*!
    * Stride for the above predictor in OBMC
    */
   int above_pred_stride[MAX_MB_PLANE];
   /*!
    * Buffer for the left predictor in OBMC
    */
   uint8_t *left_pred_buf[MAX_MB_PLANE];
   /*!
    * Stride for the left predictor in OBMC
    */
   int left_pred_stride[MAX_MB_PLANE];
   /*!
    * Pointer to the first member in a 2D array which holds
    * single reference mode motion vectors to be used as a starting
    * point in the mv search for compound modes. Each array is length REF_FRAMES,
    * meaning there is a slot for a single reference motion vector for
    * each possible reference frame. The 2D array consists of N of these arrays,
    * where N is the length of the reference mv stack computed for the single
    * reference case for that particular reference frame.
    */
   int_mv (*single_newmv)[REF_FRAMES];
   /*!
    * Pointer to the first array of a 2D array with the same setup as
    * single_newmv array above. This is a 2D array to hold the rate
    * corresponding to each of the single reference mode motion vectors
    * held in single_newmv.
    */
   int (*single_newmv_rate)[REF_FRAMES];
   /*!
    * Pointer to the first array of a 2D array with the same setup as
    * single_newmv array above. This is a 2D array to hold a 0 or 1
    * validity value corresponding to each of the single reference mode motion
    * vectors held in single_newmv.
    */
   int (*single_newmv_valid)[REF_FRAMES];
   /*!
    * Pointer to the first array in a 3D array of predicted rate-distortion.
    * The dimensions of this structure are:
    * (number of possible inter modes) X
    * (number of reference MVs) X
    * (number of reference frames).
    */
   int64_t (*modelled_rd)[MAX_REF_MV_SEARCH][REF_FRAMES];
   /*!
    * Holds an estimated entropy cost for picking the current reference frame.
    * This is used to compute an rd estimate.
    */
   int ref_frame_cost;
   /*!
    * Holds an estimated entropy cost for picking single or compound
    * reference. This is used to compute an rd estimate.
    */
   int single_comp_cost;
   /*!
    * Pointer to the first element in a 3D array holding rd's of
    * SIMPLE_TRANSLATION used to prune out the motion mode search in single ref
    * modes used to determine compound ref modes. The full structure is:
    * (number of inter modes) X (length of refmv list) X (number of ref frames)
    */
   int64_t (*simple_rd)[MAX_REF_MV_SEARCH][REF_FRAMES];
   /*!
    * An integer value 0 or 1 which indicates whether or not to skip the motion
    * mode search and default to SIMPLE_TRANSLATION as a speed feature.
    */
   int skip_motion_mode;
   /*!
    * Initialized to false. If true, skips interpolation filter search and uses
    * the default EIGHTTAP_REGULAR.
    */
   bool skip_ifs;
   /*!
    * A pointer to the first element in an array of INTERINTRA_MODE types. This
    * contains the best inter_intra mode for each reference frame.
    */
   INTERINTRA_MODE *inter_intra_mode;
   /*!
    * Array of saved interpolation filter stats collected to avoid repeating
    * an interpolation filter search when the mv and ref_frame are the same
    * as a previous search.
    */
   INTERPOLATION_FILTER_STATS interp_filter_stats[MAX_INTERP_FILTER_STATS];

   /*!
    * Stack to store full pixel search start mv of NEWMV mode.
    */
   FULLPEL_MV start_mv_stack[(MAX_REF_MV_SEARCH - 1) * 2];

   /*!
    * Stack to store ref_mv_idx of NEWMV mode.
    */
   uint8_t ref_mv_idx_stack[(MAX_REF_MV_SEARCH - 1) * 2];

   /*!
    * Count of mvs in start mv stack.
    */
   int start_mv_cnt;

   /*!
    * Index of the last set of saved stats in the interp_filter_stats array.
    */
   int interp_filter_stats_idx;
   /*!
    * Estimated wedge index.
    */
   int wedge_index;
   /*!
    * Estimated wedge sign.
    */
   int wedge_sign;
   /*!
    * Estimated diff wtd index.
    */
   int diffwtd_index;
   /*!
    * Estimated cmp mode.
    */
   int cmp_mode[MODE_CTX_REF_FRAMES];
   /*!
    * The best sse during single new_mv search. Note that the sse here comes from
    * single_motion_search, and not from interpolation_filter_search. This has
    * two implications:
    * 1. The mv used to calculate the sse here does not have to be the best sse
    *    found in handle_inter_mode.
    * 2. Even if the mvs agree, the sse here can differ from the sse in \ref
    *    MACROBLOCK::pred_sse due to different interpolation filter used.
    */
   unsigned int best_single_sse_in_refs[REF_FRAMES];
   /*!
    * Holds the sse of best mode so far in the mode evaluation process. This is
    * used in intermediate termination of NEWMV mode evaluation.
    */
   unsigned int best_pred_sse;
 } HandleInterModeArgs;

 /*!\cond */
 static const int_interpfilters filter_sets[DUAL_FILTER_SET_SIZE] = {
   { 0x00000000 }, { 0x00010000 }, { 0x00020000 },  // y = 0
   { 0x00000001 }, { 0x00010001 }, { 0x00020001 },  // y = 1
   { 0x00000002 }, { 0x00010002 }, { 0x00020002 },  // y = 2
 };

 int av1_find_interp_filter_match(
     MB_MODE_INFO *const mbmi, const AV1_COMP *const cpi,
     const InterpFilter assign_filter, const int need_search,
     INTERPOLATION_FILTER_STATS *interp_filter_stats,
     int interp_filter_stats_idx);

 int64_t av1_interpolation_filter_search(
     MACROBLOCK *const x, const AV1_COMP *const cpi,
     const TileDataEnc *tile_data, BLOCK_SIZE bsize,
     const BUFFER_SET *const tmp_dst, const BUFFER_SET *const orig_dst,
     int64_t *const rd, int *const switchable_rate, int *skip_build_pred,
     HandleInterModeArgs *args, int64_t ref_best_rd);

 /*!\endcond */
 #ifdef __cplusplus
 }  // extern "C"
 #endif

 #endif  // AOM_AV1_ENCODER_INTERP_FILTER_SEARCH_H_
	/*
	* Copyright (c) 2020, 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_AV1_ENCODER_INTERP_FILTER_SEARCH_H_
	#define AOM_AV1_ENCODER_INTERP_FILTER_SEARCH_H_

	#include "av1/encoder/block.h"
	#include "av1/encoder/encoder.h"
	#include "av1/encoder/rdopt_utils.h"

	#ifdef __cplusplus
	extern "C" {
	#endif

	/!\cond /
	#define MAX_INTERP_FILTER_STATS 128
	#define DUAL_FILTER_SET_SIZE (SWITCHABLE_FILTERS * SWITCHABLE_FILTERS)

	typedef struct {
	int_interpfilters filters;
	int_mv mv[2];
	int8_t ref_frames[2];
	COMPOUND_TYPE comp_type;
	int compound_idx;
	int64_t rd;
	unsigned int pred_sse;
	} INTERPOLATION_FILTER_STATS;
	/!\endcond /

	/*!\brief Miscellaneous arguments for inter mode search.
	*/
	typedef struct HandleInterModeArgs {
	/*!
	* Buffer for the above predictor in OBMC
	*/
	uint8_t *above_pred_buf[MAX_MB_PLANE];
	/*!
	* Stride for the above predictor in OBMC
	*/
	int above_pred_stride[MAX_MB_PLANE];
	/*!
	* Buffer for the left predictor in OBMC
	*/
	uint8_t *left_pred_buf[MAX_MB_PLANE];
	/*!
	* Stride for the left predictor in OBMC
	*/
	int left_pred_stride[MAX_MB_PLANE];
	/*!
	* Pointer to the first member in a 2D array which holds
	* single reference mode motion vectors to be used as a starting
	* point in the mv search for compound modes. Each array is length REF_FRAMES,
	* meaning there is a slot for a single reference motion vector for
	* each possible reference frame. The 2D array consists of N of these arrays,
	* where N is the length of the reference mv stack computed for the single
	* reference case for that particular reference frame.
	*/
	int_mv (*single_newmv)[REF_FRAMES];
	/*!
	* Pointer to the first array of a 2D array with the same setup as
	* single_newmv array above. This is a 2D array to hold the rate
	* corresponding to each of the single reference mode motion vectors
	* held in single_newmv.
	*/
	int (*single_newmv_rate)[REF_FRAMES];
	/*!
	* Pointer to the first array of a 2D array with the same setup as
	* single_newmv array above. This is a 2D array to hold a 0 or 1
	* validity value corresponding to each of the single reference mode motion
	* vectors held in single_newmv.
	*/
	int (*single_newmv_valid)[REF_FRAMES];
	/*!
	* Pointer to the first array in a 3D array of predicted rate-distortion.
	* The dimensions of this structure are:
	* (number of possible inter modes) X
	* (number of reference MVs) X
	* (number of reference frames).
	*/
	int64_t (*modelled_rd)[MAX_REF_MV_SEARCH][REF_FRAMES];
	/*!
	* Holds an estimated entropy cost for picking the current reference frame.
	* This is used to compute an rd estimate.
	*/
	int ref_frame_cost;
	/*!
	* Holds an estimated entropy cost for picking single or compound
	* reference. This is used to compute an rd estimate.
	*/
	int single_comp_cost;
	/*!
	* Pointer to the first element in a 3D array holding rd's of
	* SIMPLE_TRANSLATION used to prune out the motion mode search in single ref
	* modes used to determine compound ref modes. The full structure is:
	* (number of inter modes) X (length of refmv list) X (number of ref frames)
	*/
	int64_t (*simple_rd)[MAX_REF_MV_SEARCH][REF_FRAMES];
	/*!
	* An integer value 0 or 1 which indicates whether or not to skip the motion
	* mode search and default to SIMPLE_TRANSLATION as a speed feature.
	*/
	int skip_motion_mode;
	/*!
	* Initialized to false. If true, skips interpolation filter search and uses
	* the default EIGHTTAP_REGULAR.
	*/
	bool skip_ifs;
	/*!
	* A pointer to the first element in an array of INTERINTRA_MODE types. This
	* contains the best inter_intra mode for each reference frame.
	*/
	INTERINTRA_MODE *inter_intra_mode;
	/*!
	* Array of saved interpolation filter stats collected to avoid repeating
	* an interpolation filter search when the mv and ref_frame are the same
	* as a previous search.
	*/
	INTERPOLATION_FILTER_STATS interp_filter_stats[MAX_INTERP_FILTER_STATS];

	/*!
	* Stack to store full pixel search start mv of NEWMV mode.
	*/
	FULLPEL_MV start_mv_stack[(MAX_REF_MV_SEARCH - 1) * 2];

	/*!
	* Stack to store ref_mv_idx of NEWMV mode.
	*/
	uint8_t ref_mv_idx_stack[(MAX_REF_MV_SEARCH - 1) * 2];

	/*!
	* Count of mvs in start mv stack.
	*/
	int start_mv_cnt;

	/*!
	* Index of the last set of saved stats in the interp_filter_stats array.
	*/
	int interp_filter_stats_idx;
	/*!
	* Estimated wedge index.
	*/
	int wedge_index;
	/*!
	* Estimated wedge sign.
	*/
	int wedge_sign;
	/*!
	* Estimated diff wtd index.
	*/
	int diffwtd_index;
	/*!
	* Estimated cmp mode.
	*/
	int cmp_mode[MODE_CTX_REF_FRAMES];
	/*!
	* The best sse during single new_mv search. Note that the sse here comes from
	* single_motion_search, and not from interpolation_filter_search. This has
	* two implications:
	* 1. The mv used to calculate the sse here does not have to be the best sse
	* found in handle_inter_mode.
	* 2. Even if the mvs agree, the sse here can differ from the sse in \ref
	* MACROBLOCK::pred_sse due to different interpolation filter used.
	*/
	unsigned int best_single_sse_in_refs[REF_FRAMES];
	/*!
	* Holds the sse of best mode so far in the mode evaluation process. This is
	* used in intermediate termination of NEWMV mode evaluation.
	*/
	unsigned int best_pred_sse;
	} HandleInterModeArgs;

	/!\cond /
	static const int_interpfilters filter_sets[DUAL_FILTER_SET_SIZE] = {
	{ 0x00000000 }, { 0x00010000 }, { 0x00020000 }, // y = 0
	{ 0x00000001 }, { 0x00010001 }, { 0x00020001 }, // y = 1
	{ 0x00000002 }, { 0x00010002 }, { 0x00020002 }, // y = 2
	};

	int av1_find_interp_filter_match(
	MB_MODE_INFO const mbmi, const AV1_COMP const cpi,
	const InterpFilter assign_filter, const int need_search,
	INTERPOLATION_FILTER_STATS *interp_filter_stats,
	int interp_filter_stats_idx);

	int64_t av1_interpolation_filter_search(
	MACROBLOCK const x, const AV1_COMP const cpi,
	const TileDataEnc *tile_data, BLOCK_SIZE bsize,
	const BUFFER_SET const tmp_dst, const BUFFER_SET const orig_dst,
	int64_t const rd, int const switchable_rate, int *skip_build_pred,
	HandleInterModeArgs *args, int64_t ref_best_rd);

	/!\endcond /
	#ifdef __cplusplus
	} // extern "C"
	#endif

	#endif // AOM_AV1_ENCODER_INTERP_FILTER_SEARCH_H_