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	/*
	* Copyright 2015 Rockchip Electronics Co. LTD
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef __RK_VENC_REF_H__
	#define __RK_VENC_REF_H__

	#include "rk_type.h"
	#include "mpp_err.h"

	/*
	* MPP reference management system follows the model of H.264/H.265 reference
	* frame mangement.
	*
	* The reference frame is defined into two type: long-term reference frame and
	* short-refernce frame (lt_ref and st_ref).
	*
	* The lt_ref can be only indexed by long-term reference frame index (lt_idx).
	* The st_ref can be indexed by its temporal id (tid) and previous count.
	*
	* MppEncRefMode defined the way for user to reference the required frame.
	*
	* Normal reference mode without argument
	* REF_TO_PREV_REF_FRM - refer to previous reference frame in encode order (No matter Lt or St)
	* REF_TO_PREV_ST_REF - refer to previous short-term reference frame
	* REF_TO_PREV_LT_REF - refer to previous long-term reference frame
	* REF_TO_PREV_INTRA - refer to previous Intra / IDR frame
	* REF_TO_ST_REF_SETUP - refer to refernce frame defined in StRefSetup
	*
	* Normal reference mode with argument
	* REF_TO_TEMPORAL_LAYER - refer to previous reference frame with temporal id argument
	* REF_TO_LT_REF_IDX - refer to long-term reference frame with lt_ref_idx argument
	* REF_TO_ST_PREV_N_REF - refer to short-term reference frame with diff frame_num argument
	*
	* Long-term reference only mode
	* REF_TO_ST_REF_SETUP - use corresponding mode of original short-term reference frame
	*
	* Short-term reference only mode
	* REF_TO_LT_REF_SETUP - indicate that this frame will be overwrited by long-term config
	*
	* By combining frames with these modes user can define many kinds of reference hierarchy
	* structure. But normally user should use simplified preset hierarchy pattern.
	*
	* The rules for virtual cpb management is similiar to H.264/H.265
	* 1. When one frame is marked as long-term reference frame it will be kept in cpb until
	* it is replaced by other frame with the same lt_idx or IDR frame.
	* 2. When one frame is marked as short-term reference frame it will be inert into cpb when
	* there is enough storage space. When the number of total sum of long-term and short-term
	* reference frame excess the cpb size limit the oldest short-term frame will be removed.
	* This is call sliding window in H.264.
	*/

	/* max 4 temporal layer */
	#define MPP_ENC_MAX_TEMPORAL_LAYER_NUM 4
	/* max 4 long-term reference frame */
	#define MPP_ENC_MAX_LT_REF_NUM 16

	/*
	* Group Of Picture (GOP) config is separated into three parts:
	*
	* 1. Intra / IDR frame config
	* igop - the interval of two intra / IDR frames
	*
	* 2. Long-term reference config (MppEncRefLtFrmCfg)
	*
	* Setup long-term reference index max lt_idx, loop interval and reference
	* mode for auto long-term reference frame generation. The encoder will
	* mark frame to be long-term reference frame with given interval.
	*
	* 2.1 lt_idx
	* The long-term reference frame index is unique identifier for a long-term
	* reference frame.
	* The max long-term reference frame index should NOT larger than
	* max_num_ref_frames in sps.
	*
	* 2.2 lt_gap
	* When lt_gap is zero the long-term reference frame generation is disabled.
	* When lt_gap is non-zero (usually 2~3 second interval) then the long-term
	* reference frame will be generated for error recovery or smart hierarchy.
	*
	* 2.2 lt_delay
	* The lt_delay is the delay time for generation of long-term reference frame.
	* The start point of lt_delay is the IDR/intra frame genertaed by igop.
	*
	* 2.4 ref_mode: Long-term refernce frame reference mode
	* NOTE: temporal id of longterm reference frame is always zero.
	*
	* Examples:
	* Sequence has only one lt_ref 0 and setup one long-term reference frame
	* every 300 frame.
	* {
	* .lt_idx = 0,
	* .lt_gap = 300,
	* .lt_delay = 0,
	* }
	* result:
	* frame 0 ...... 299 300 301 ...... 599 600 601
	* lt_idx 0 xxxxxx x 0 x xxxxxx x 0 x
	*
	* Sequence has lt_ref from 0 to 2 and setup a long-term reference frame
	* every 100 frame.
	* {
	* .lt_idx = 0,
	* .lt_gap = 300,
	* .lt_delay = 0,
	* }
	* {
	* .lt_idx = 1,
	* .lt_gap = 300,
	* .lt_delay = 100,
	* }
	* {
	* .lt_idx = 2,
	* .lt_gap = 300,
	* .lt_delay = 200,
	* }
	* result:
	* frame 0 ... 99 100 101 ... 199 200 201 ... 299 300 301
	* lt_idx 0 xxx x 1 x xxx x 2 x xxx x 0 x
	*
	* 3. Short-term reference config (MppEncStRefSetup)
	*
	* 3.1 is_non_ref
	* The is_non_ref indicated the current frame is reference frame or not.
	*
	* 3.2 temporal_id
	* The temporal id of the current frame configure.
	*
	* 3.3 ref_mode: short-term refernce frame reference mode
	*
	* 3.4 repeat
	* The repeat time of the short-term reference frame configure.
	* The overall frame count with the same config is repeat + 1.
	*
	* Examples:
	*
	*/

	#define REF_MODE_MODE_MASK (0x1F)
	#define REF_MODE_ARG_MASK (0xFFFF0000)

	typedef enum MppEncRefMode_e {
	/* max 32 mode in 32-bit */
	/* for default ref global config */
	REF_MODE_GLOBAL,
	REF_TO_PREV_REF_FRM = REF_MODE_GLOBAL,
	REF_TO_PREV_ST_REF,
	REF_TO_PREV_LT_REF,
	REF_TO_PREV_INTRA,

	/* for global config with args */
	REF_MODE_GLOBAL_WITH_ARG = 0x4,
	/* with ref arg as temporal layer id */
	REF_TO_TEMPORAL_LAYER = REF_MODE_GLOBAL_WITH_ARG,
	/* with ref arg as long-term reference picture index */
	REF_TO_LT_REF_IDX,
	/* with ref arg as short-term reference picture difference frame_num */
	REF_TO_ST_PREV_N_REF,
	REF_MODE_GLOBAL_BUTT,

	/* for lt-ref */
	REF_MODE_LT = 0x18,
	REF_TO_ST_REF_SETUP,
	REF_MODE_LT_BUTT,

	/* for st-ref */
	REF_MODE_ST = 0x1C,
	REF_TO_LT_REF_SETUP,
	REF_MODE_ST_BUTT,
	} MppEncRefMode;

	typedef struct MppEncRefLtFrmCfg_t {
	RK_S32 lt_idx; /* lt_idx of the reference frame */
	RK_S32 temporal_id; /* temporal_id of the reference frame */
	MppEncRefMode ref_mode;
	RK_S32 ref_arg;
	RK_S32 lt_gap; /* gap between two lt-ref with same lt_idx */
	RK_S32 lt_delay; /* delay offset to igop start frame */
	} MppEncRefLtFrmCfg;

	typedef struct MppEncRefStFrmCfg_t {
	RK_S32 is_non_ref;
	RK_S32 temporal_id;
	MppEncRefMode ref_mode;
	RK_S32 ref_arg;
	RK_S32 repeat; /* repeat times */
	} MppEncRefStFrmCfg;

	typedef struct MppEncRefPreset_t {
	/* input parameter for query */
	const char *name;
	RK_S32 max_lt_cnt;
	RK_S32 max_st_cnt;
	MppEncRefLtFrmCfg *lt_cfg;
	MppEncRefStFrmCfg *st_cfg;

	/* output parameter */
	RK_S32 lt_cnt;
	RK_S32 st_cnt;
	} MppEncRefPreset;

	typedef void* MppEncRefCfg;

	#ifdef __cplusplus
	extern "C" {
	#endif

	MPP_RET mpp_enc_ref_cfg_init(MppEncRefCfg *ref);
	MPP_RET mpp_enc_ref_cfg_deinit(MppEncRefCfg *ref);

	MPP_RET mpp_enc_ref_cfg_reset(MppEncRefCfg ref);
	MPP_RET mpp_enc_ref_cfg_set_cfg_cnt(MppEncRefCfg ref, RK_S32 lt_cnt, RK_S32 st_cnt);
	MPP_RET mpp_enc_ref_cfg_add_lt_cfg(MppEncRefCfg ref, RK_S32 cnt, MppEncRefLtFrmCfg *frm);
	MPP_RET mpp_enc_ref_cfg_add_st_cfg(MppEncRefCfg ref, RK_S32 cnt, MppEncRefStFrmCfg *frm);
	MPP_RET mpp_enc_ref_cfg_check(MppEncRefCfg ref);

	/*
	* A new reference configure will restart a new gop and clear cpb by default.
	* The keep cpb function will let encoder keeps the current cpb status and do NOT
	* reset all the reference frame in cpb.
	*/
	MPP_RET mpp_enc_ref_cfg_set_keep_cpb(MppEncRefCfg ref, RK_S32 keep);
	MPP_RET mpp_enc_ref_cfg_get_preset(MppEncRefPreset *preset);
	MPP_RET mpp_enc_ref_cfg_show(MppEncRefCfg ref);

	#ifdef __cplusplus
	}
	#endif

	#endif /__RK_VENC_REF_H__/