/****************************************************************************** * * * Copyright (C) 2023 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 */ #include #include "iusace_cnst.h" #include "iusace_type_def.h" #include "iusace_block_switch_const.h" #include "iusace_block_switch_struct_def.h" #include "iusace_bitbuffer.h" #include "iusace_tns_usac.h" #include "impd_drc_common_enc.h" #include "impd_drc_uni_drc.h" #include "impd_drc_api.h" #include "impd_drc_uni_drc_eq.h" #include "impd_drc_uni_drc_filter_bank.h" #include "impd_drc_gain_enc.h" #include "impd_drc_struct_def.h" #include "iusace_cnst.h" #include "iusace_tns_usac.h" #include "iusace_psy_mod.h" #include "iusace_psy_utils.h" #include "ixheaac_error_standards.h" #include "iusace_type_def.h" #include "iusace_cnst.h" #include "iusace_ms.h" #include "iusace_psy_utils.h" #include "ixheaace_adjust_threshold_data.h" #include "iusace_fd_qc_util.h" #include "ixheaace_memory_standards.h" #include "iusace_config.h" #include "iusace_arith_enc.h" #include "iusace_fd_quant.h" #include "iusace_signal_classifier.h" #include "iusace_block_switch_const.h" #include "ixheaace_sbr_header.h" #include "ixheaace_config.h" #include "ixheaace_asc_write.h" #include "iusace_main.h" VOID iusace_psy_mod_init(ia_psy_mod_struct *pstr_psy_mod, WORD32 sample_rate, WORD32 bit_rate, WORD32 band_width, WORD32 num_channels, WORD32 ch, WORD32 ele_id, WORD32 ccfl) { WORD32 i; for (i = 0; i < num_channels; i++) { iusace_psy_long_config_init(bit_rate / num_channels, sample_rate, band_width, &(pstr_psy_mod->str_psy_long_config[ele_id]), ccfl); iusace_psy_short_config_init(bit_rate / num_channels, sample_rate, band_width, &(pstr_psy_mod->str_psy_short_config[ele_id]), ccfl); pstr_psy_mod->str_psy_data[ch].ptr_sfb_thr_long = (FLOAT32 *)pstr_psy_mod->str_psy_data[ch].sfb_thr_short; pstr_psy_mod->str_psy_data[ch].ptr_sfb_energy_long = (FLOAT32 *)pstr_psy_mod->str_psy_data[ch].sfb_energy_short; pstr_psy_mod->str_psy_data[ch].ptr_sfb_spreaded_energy_long = (FLOAT32 *)pstr_psy_mod->str_psy_data[ch].sfb_spreaded_energy_short; memcpy(pstr_psy_mod->str_psy_data[ch].sfb_thr_nm1, pstr_psy_mod->str_psy_long_config[ele_id].sfb_thr_quiet, pstr_psy_mod->str_psy_long_config[ele_id].sfb_count * sizeof(FLOAT32)); ch++; } return; } VOID iusace_psy_mod_lb(ia_psy_mod_struct *pstr_psy_mod, ia_sfb_params_struct *pstr_sfb_prms, FLOAT64 *ptr_spec_in, ia_tns_info *pstr_tns_info[MAX_TIME_CHANNELS], WORD32 tns_select, WORD32 i_ch, WORD32 chn, WORD32 channel_type, FLOAT64 *scratch_tns_filter, WORD32 elem_idx, FLOAT64 *ptr_tns_scratch, WORD32 ccfl) { ia_psy_mod_data_struct *pstr_psy_data = &(pstr_psy_mod->str_psy_data[i_ch]); ia_psy_mod_long_config_struct *pstr_psy_config = &(pstr_psy_mod->str_psy_long_config[elem_idx]); WORD32 window_sequence = pstr_sfb_prms->window_sequence[i_ch]; WORD32 num_sfb = pstr_sfb_prms->num_sfb[i_ch]; ia_tns_info *ptr_tns_info = pstr_tns_info[i_ch]; WORD32 sfb, line; WORD32 i; WORD32 frame_len_long = ccfl; FLOAT32 energy_shift = 0.25f; FLOAT32 clip_energy = pstr_psy_config->clip_energy * energy_shift; (VOID) channel_type; pstr_psy_data->window_sequence = window_sequence; memset(&ptr_spec_in[pstr_psy_config->low_pass_line], 0, (frame_len_long - pstr_psy_config->low_pass_line) * sizeof(FLOAT64)); iusace_calc_band_energy(ptr_spec_in, pstr_psy_config->sfb_offset, pstr_psy_config->sfb_active, pstr_psy_data->ptr_sfb_energy_long, pstr_psy_config->sfb_count); if (tns_select != 0) { ia_tns_info *ptr_tns_info_ch2 = pstr_tns_info[i_ch - chn]; ptr_tns_info->number_of_bands = num_sfb; ptr_tns_info->block_type = window_sequence; ptr_tns_info->spec = ptr_spec_in; iusace_tns_encode(ptr_tns_info_ch2, ptr_tns_info, pstr_psy_data->ptr_sfb_energy_long, 0, chn, pstr_psy_config->low_pass_line, scratch_tns_filter, 0, ptr_tns_scratch); } for (i = 0; i < pstr_psy_config->sfb_count; i++) { pstr_psy_data->ptr_sfb_thr_long[i] = pstr_psy_data->ptr_sfb_energy_long[i] * pstr_psy_config->ratio; pstr_psy_data->ptr_sfb_thr_long[i] = MIN(pstr_psy_data->ptr_sfb_thr_long[i], clip_energy); } if (tns_select != 0) { if (ptr_tns_info->tns_data_present == 1) { iusace_calc_band_energy(ptr_spec_in, pstr_psy_config->sfb_offset, pstr_psy_config->sfb_active, pstr_psy_data->ptr_sfb_energy_long, pstr_psy_config->sfb_count); } } iusace_find_max_spreading(pstr_psy_config->sfb_count, pstr_psy_config->sfb_mask_low_fac, pstr_psy_config->sfb_mask_high_fac, pstr_psy_data->ptr_sfb_thr_long); for (i = 0; i < pstr_psy_config->sfb_count; i++) { pstr_psy_data->ptr_sfb_thr_long[i] = MAX(pstr_psy_data->ptr_sfb_thr_long[i], (pstr_psy_config->sfb_thr_quiet[i] * energy_shift)); } if (pstr_psy_data->window_sequence == LONG_STOP_SEQUENCE) { for (i = 0; i < pstr_psy_config->sfb_count; i++) { pstr_psy_data->sfb_thr_nm1[i] = 1.0e20f; } } iusace_pre_echo_control(pstr_psy_data->sfb_thr_nm1, pstr_psy_config->sfb_count, pstr_psy_config->max_allowed_inc_fac, pstr_psy_config->min_remaining_thr_fac, pstr_psy_data->ptr_sfb_thr_long); if (pstr_psy_data->window_sequence == LONG_START_SEQUENCE) { for (i = 0; i < pstr_psy_config->sfb_count; i++) { pstr_psy_data->sfb_thr_nm1[i] = 1.0e20f; } } for (i = 0; i < pstr_psy_config->sfb_count; i++) { pstr_psy_data->ptr_sfb_spreaded_energy_long[i] = pstr_psy_data->ptr_sfb_energy_long[i]; } iusace_find_max_spreading( pstr_psy_config->sfb_count, pstr_psy_config->sfb_mask_low_fac_spr_ener, pstr_psy_config->sfb_mask_high_fac_spr_ener, pstr_psy_data->ptr_sfb_spreaded_energy_long); for (sfb = pstr_psy_config->sfb_count - 1; sfb >= 0; sfb--) { for (line = pstr_psy_config->sfb_offset[sfb + 1] - 1; line >= pstr_psy_config->sfb_offset[sfb]; line--) { if (ptr_spec_in[line] != 0) break; } if (line >= pstr_psy_config->sfb_offset[sfb]) break; } pstr_psy_mod->str_psy_out_data[i_ch].max_sfb_per_grp = sfb + 1; return; } VOID iusace_psy_mod_sb(ia_psy_mod_struct *pstr_psy_mod, ia_sfb_params_struct *pstr_sfb_prms, FLOAT64 *ptr_spec_in, ia_tns_info *pstr_tns_info[MAX_TIME_CHANNELS], WORD32 tns_select, WORD32 i_ch, WORD32 chn, WORD32 channel_type, FLOAT64 *scratch_tns_filter, WORD32 elem_idx, FLOAT64 *ptr_tns_scratch, WORD32 ccfl) { ia_psy_mod_data_struct *pstr_psy_data = &(pstr_psy_mod->str_psy_data[i_ch]); ia_psy_mod_short_config_struct *pstr_psy_config = &(pstr_psy_mod->str_psy_short_config[elem_idx]); WORD32 max_sfb = 0, sfb, line; WORD32 window_sequence = pstr_sfb_prms->window_sequence[i_ch]; WORD32 num_sfb = pstr_sfb_prms->num_sfb[i_ch]; ia_tns_info *ptr_tns_info = pstr_tns_info[i_ch]; WORD32 i, w; WORD32 frame_len_short = (ccfl * FRAME_LEN_SHORT_128) / FRAME_LEN_LONG; FLOAT32 energy_shift = 0.25f; FLOAT32 clip_energy = pstr_psy_config->clip_energy * energy_shift; (VOID) channel_type; pstr_psy_data->window_sequence = window_sequence; for (w = 0; w < MAX_SHORT_WINDOWS; w++) { WORD32 w_offset = w * frame_len_short; WORD32 offset; FLOAT64 *pmdct_double = &ptr_spec_in[pstr_psy_config->low_pass_line + w_offset]; offset = frame_len_short - pstr_psy_config->low_pass_line; memset(pmdct_double, 0, sizeof(FLOAT64) * offset); iusace_calc_band_energy(ptr_spec_in + w_offset, pstr_psy_config->sfb_offset, pstr_psy_config->sfb_active, pstr_psy_data->sfb_energy_short[w], pstr_psy_config->sfb_count); if (tns_select != 0) { ia_tns_info *ptr_tns_info_ch2 = pstr_tns_info[i_ch - chn]; ptr_tns_info->number_of_bands = num_sfb; ptr_tns_info->block_type = window_sequence; ptr_tns_info->spec = ptr_spec_in + w_offset; iusace_tns_encode(ptr_tns_info_ch2, ptr_tns_info, pstr_psy_data->sfb_energy_short[w], w, chn, pstr_psy_config->low_pass_line, scratch_tns_filter, 0, ptr_tns_scratch); } for (i = 0; i < pstr_psy_config->sfb_count; i++) { pstr_psy_data->sfb_thr_short[w][i] = pstr_psy_data->sfb_energy_short[w][i] * pstr_psy_config->ratio; pstr_psy_data->sfb_thr_short[w][i] = MIN(pstr_psy_data->sfb_thr_short[w][i], clip_energy); } if (tns_select != 0) { if (ptr_tns_info->tns_data_present == 1) { iusace_calc_band_energy(ptr_spec_in + w_offset, pstr_psy_config->sfb_offset, pstr_psy_config->sfb_active, pstr_psy_data->sfb_energy_short[w], pstr_psy_config->sfb_count); } } iusace_find_max_spreading(pstr_psy_config->sfb_count, pstr_psy_config->sfb_mask_low_fac, pstr_psy_config->sfb_mask_high_fac, pstr_psy_data->sfb_thr_short[w]); for (i = 0; i < pstr_psy_config->sfb_count; i++) { pstr_psy_data->sfb_thr_short[w][i] = MAX(pstr_psy_data->sfb_thr_short[w][i], (pstr_psy_config->sfb_thr_quiet[i] * 0.25f)); } iusace_pre_echo_control(pstr_psy_data->sfb_thr_nm1, pstr_psy_config->sfb_count, pstr_psy_config->max_allowed_inc_fac, pstr_psy_config->min_remaining_thr_fac, pstr_psy_data->sfb_thr_short[w]); for (i = 0; i < pstr_psy_config->sfb_count; i++) { pstr_psy_data->sfb_spreaded_energy_short[w][i] = pstr_psy_data->sfb_energy_short[w][i]; } iusace_find_max_spreading( pstr_psy_config->sfb_count, pstr_psy_config->sfb_mask_low_fac_spr_ener, pstr_psy_config->sfb_mask_high_fac_spr_ener, pstr_psy_data->sfb_spreaded_energy_short[w]); } for (WORD32 wnd = 0; wnd < MAX_SHORT_WINDOWS; wnd++) { for (sfb = pstr_psy_config->sfb_count - 1; sfb >= max_sfb; sfb--) { for (line = pstr_psy_config->sfb_offset[sfb + 1] - 1; line >= pstr_psy_config->sfb_offset[sfb]; line--) { if (ptr_spec_in[wnd * frame_len_short + line] != 0.0) break; } if (line >= pstr_psy_config->sfb_offset[sfb]) break; } max_sfb = MAX(max_sfb, sfb); } max_sfb = max_sfb > 0 ? max_sfb : 0; pstr_psy_mod->str_psy_out_data[i_ch].max_sfb_per_grp = max_sfb + 1; return; }