/****************************************************************************** * * Copyright (C) 2018 The Android Open Source Project * * 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. * ***************************************************************************** * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore */ /*! ****************************************************************************** * \file rc_frame_info_collector.h * * \brief * This file contains structs used by encoder to pass information to RC lib * * \date * * \author * ittiam * ****************************************************************************** */ #ifndef _RC_FRAME_INFO_COLLECTOR_H_ #define _RC_FRAME_INFO_COLLECTOR_H_ /*****************************************************************************/ /* Constant Macros */ /*****************************************************************************/ #define MAX_NUM_FRAME_IN_GOP 300 #define MAX_CHAR_IN_LINE 250 #define MAX_MEM_FOR_LINE (MAX_CHAR_IN_LINE + 1) // Minimum allocate memory for 10 bit allocation period #define MIN_GOP_FOR_MEM_ALLOC 10 /*****************************************************************************/ /* Structure */ /*****************************************************************************/ typedef struct { WORD32 sm; /* MSB 1 bit sign & rest magnitude */ WORD32 e; /* Q-format */ } number_t_frame; typedef struct { LWORD64 i8_frame_num; WORD32 i4_poc; picture_type_e e_pic_type; WORD32 i4_rc_hevc_qp; WORD32 i4_scene_type; /*Should be in sync with what lap signals*/ float f_8bit_q_scale; float f_8bit_q_scale_without_offset; float f_hbd_q_scale; float f_hbd_q_scale_without_offset; LWORD64 i8_cl_sad; LWORD64 i8_tex_bits; LWORD64 i8_header_bits; LWORD64 i8_L1_me_sad; LWORD64 i8_L1_ipe_raw_sad; LWORD64 i8_L1_me_or_ipe_raw_sad; LWORD64 i8_L0_open_cost; LWORD64 i8_est_texture_bits; WORD32 i4_num_scd_in_lap_window; WORD32 i4_num_frames_b4_scd; WORD32 i4_num_entries; LWORD64 i8_frame_acc_coarse_me_cost; WORD32 i4_lap_f_sim; float i_to_avg_bit_ratio; WORD32 i4_lap_complexity_q7; WORD32 i4_lap_var; LWORD64 i8_num_bit_alloc_period; WORD8 i1_is_complexity_based_bits_reset; float af_sum_weigh[MAX_PIC_TYPE][3]; number_t_frame model_coeff_a_lin_wo_int; WORD32 i4_flag_rc_model_update; WORD32 i4_non_i_scd; } frame_info_t; typedef struct { LWORD64 i4_gop_count; WORD32 i4_tot_frm_in_gop; //WORD32 ai4_pic_dist_in_cur_gop[MAX_PIC_TYPE]; float f_bits_complexity_l1_based; float f_bits_complexity_l1_based_peak_factor; float f_complexity_l1_based; LWORD64 i8_bits_allocated_to_gop; LWORD64 i8_tot_bits_consumed_first_pass; float f_tot_bits_into_qscale_first_pass; LWORD64 i8_L1_complexity_sad[MAX_NUM_FRAME_IN_GOP]; WORD8 ai1_is_complexlity_reset_bits[MAX_NUM_FRAME_IN_GOP]; WORD8 ai1_scene_type[MAX_NUM_FRAME_IN_GOP]; float f_den_wt_bits; WORD32 ai4_pic_type[MAX_NUM_FRAME_IN_GOP]; LWORD64 ai8_head_bits_consumed[MAX_NUM_FRAME_IN_GOP]; LWORD64 ai8_tex_bits_consumed[MAX_NUM_FRAME_IN_GOP]; WORD32 ai4_first_pass_qscale[MAX_NUM_FRAME_IN_GOP]; WORD32 ai4_q6_frame_offsets[MAX_NUM_FRAME_IN_GOP]; float f_gop_level_buffer_play_factor; //WORD32 i4_flag_query_buffer_excess; float f_hbd_avg_q_scale_gop_without_offset; WORD32 i4_num_scene_cuts; LWORD64 i8_minimum_gop_bits; WORD32 i4_is_below_avg_rate_gop_frame; LWORD64 i8_cur_gop_bit_consumption; LWORD64 i8_actual_bits_allocated_to_gop; //LWORD64 i8_buffer_play_bits; LWORD64 i8_buffer_play_bits_allocated_to_gop; WORD32 i4_peak_br_clip; float f_buffer_play_complexity; float f_avg_complexity_factor; //float f_gop_level_complexity_sum; LWORD64 i8_max_bit_for_gop; LWORD64 i8_acc_gop_sad; } gop_level_stat_t; /*This should be exact order in which data should be dumped and read back from stat file*/ /*****************************************************************************/ /* Enums */ /*****************************************************************************/ typedef enum { S_FRAME_NUM = 0, S_POC, S_PIC_TYPE, S_HEVCQP, S_SCENE_TYPE, S_QSCALE, S_CL_SAD, S_HEAD_BITS, S_TEXT_BITS, S_EST_TEX_BITS, S_L1_ME_SAD, S_L1_IPE_SAD, MAX_PARAM_DUMP } DUMP_PARAM_TYPE_E; /*****************************************************************************/ /* Extern Function Declarations */ /*****************************************************************************/ void init_frame_info(frame_info_t *frame_info); void multi_pass_dump_frame_level_stat_binary( FILE *pf_stat_file, frame_info_t *ps_finfo, void *pv_lap_out, WORD32 i4_size_of_lap_out, void *pv_rc_lap_out, WORD32 i4_size_of_rc_lap_out, void *pv_sys_rc_api, WORD32 i4_br_id_for_2pass); WORD32 multi_pass_extract_frame_data_binary( FILE *pf_stat_file, frame_info_t *ps_finfo, void *pv_lap_out, WORD32 i4_sizeof_lap_out, void *pv_rc_lap_out, WORD32 i4_sizeof_rc_lap_out, LWORD64 i8_frame_offset, WORD32 i4_flag, void *pv_sys_rc_api, WORD32 i4_br_id_for_2pass); #endif