/****************************************************************************** * * * 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 #include "ixheaac_type_def.h" #include "ixheaac_constants.h" #include "ixheaace_aac_constants.h" #include "ixheaac_error_standards.h" #include "ixheaace_error_codes.h" #include "ixheaac_basic_ops32.h" #include "ixheaac_basic_ops16.h" #include "ixheaac_basic_ops40.h" #include "ixheaac_basic_ops.h" #include "ixheaace_common_rom.h" #include "ixheaace_sbr_header.h" #include "ixheaace_sbr_def.h" #include "ixheaace_resampler.h" #include "ixheaace_sbr_rom.h" #include "ixheaace_sbr_tran_det.h" #include "ixheaace_sbr_main.h" #include "ixheaace_sbr_frame_info_gen.h" static IA_ERRORCODE ixheaace_spectral_change(FLOAT32 *ptr_energies[16], FLOAT32 total_energy, WORD32 num_sfb, WORD32 start, WORD32 border, WORD32 stop, WORD32 is_ld_sbr, FLOAT32 *ptr_delta) { WORD32 i, j; WORD32 len1 = border - start; WORD32 len2 = stop - border; FLOAT32 energy_1[MAXIMUM_FREQ_COEFFS] = {0}; FLOAT32 energy_2[MAXIMUM_FREQ_COEFFS] = {0}; FLOAT32 len_ratio = (FLOAT32)len1 / (FLOAT32)(len2); FLOAT32 delta, delta_sum = 0.0f; FLOAT32 pos_wt = (0.5f - (FLOAT32)len1 / (FLOAT32)(len1 + len2)); pos_wt = 1.0f - 4.0f * pos_wt * pos_wt; if (total_energy < SBR_EPS) { *ptr_delta = 0.0f; return IA_NO_ERROR; } if (!is_ld_sbr) { for (j = 0; j < num_sfb; j++) { energy_1[j] = 1.0e6f * len1; energy_2[j] = 1.0e6f * len2; } } for (j = 0; j < num_sfb; j++) { for (i = start; i < border; i++) { energy_1[j] += ptr_energies[i][j]; } for (i = border; i < stop; i++) { energy_2[j] += ptr_energies[i][j]; } if (energy_1[j] <= EPS) { energy_1[j] = (FLOAT32)len1; } if (energy_2[j] <= EPS) { energy_2[j] = (FLOAT32)len2; } delta = (FLOAT32)fabs(log((energy_2[j] / energy_1[j]) * len_ratio)); delta_sum += (FLOAT32)(sqrt((energy_1[j] + energy_2[j]) / total_energy) * delta); } *ptr_delta = delta_sum * pos_wt; return IA_NO_ERROR; } FLOAT32 ixheaace_add_lowband_energies(FLOAT32 **ptr_energies, UWORD8 *ptr_freq_band_tab, WORD32 time_slots, WORD32 is_ld_sbr) { WORD32 band, ts; FLOAT32 energy = 1.0f; WORD32 tran_offset = 0; if (is_ld_sbr) { tran_offset = 7; energy = 0.0f; for (ts = tran_offset; ts < time_slots + tran_offset; ts++) { for (band = 0; band < ptr_freq_band_tab[0]; band++) { energy += ptr_energies[ts][band]; } } } else { for (ts = tran_offset; ts < time_slots + tran_offset; ts++) { for (band = 0; band < ptr_freq_band_tab[0]; band++) { energy += ptr_energies[(ts + time_slots / 2) / 2][band]; } } } return energy; } static FLOAT32 ixheaace_add_highband_energies(FLOAT32 **ptr_energies, FLOAT32 *ptr_energies_m[16], UWORD8 *ptr_freq_band_tab, WORD32 num_sfb, WORD32 time_slots, WORD32 time_step, WORD32 is_ld_sbr) { WORD32 band, ts, sfb, low_band, high_band, st; FLOAT32 energy = 1.0f, tmp; if (is_ld_sbr) { energy = 0.0f; for (ts = 0; ts < time_slots; ts++) { for (sfb = 0; sfb < num_sfb; sfb++) { tmp = 0; low_band = ptr_freq_band_tab[sfb]; high_band = ptr_freq_band_tab[sfb + 1]; band = low_band; while (band < high_band) { tmp += ptr_energies[ts][band]; band++; } ptr_energies_m[ts][sfb] = tmp; energy += tmp; } } } else { for (ts = 0; ts < time_slots; ts++) { for (sfb = 0; sfb < num_sfb; sfb++) { tmp = 0; low_band = ptr_freq_band_tab[sfb]; high_band = ptr_freq_band_tab[sfb + 1]; band = low_band; while (band < high_band) { st = 0; while (st < time_step) { tmp += ptr_energies[ts + (st / 2)][band]; st++; } band++; } ptr_energies_m[ts][sfb] = tmp; energy += ptr_energies[ts][sfb]; } } } return energy; } IA_ERRORCODE ixheaace_frame_splitter(FLOAT32 **ptr_energies, ixheaace_pstr_sbr_trans_detector pstr_sbr_trans_detector, UWORD8 *ptr_freq_band_tab, WORD32 num_scf, WORD32 time_step, WORD32 no_cols, WORD32 *ptr_tran_vector, FLOAT32 *ptr_frame_splitter_scratch, WORD32 is_ld_sbr) { WORD32 border, i; WORD32 num_sbr_slots = no_cols / time_step; FLOAT32 *ptr_energies_m[16] = {0}; FLOAT32 low_band_energy, high_band_energy, total_energy; FLOAT32 delta = 0.0f; IA_ERRORCODE err_code = IA_NO_ERROR; if ((num_sbr_slots <= 0) || (num_sbr_slots * time_step != no_cols)) { return IA_EXHEAACE_EXE_FATAL_SBR_INVALID_TIME_SLOTS; } memset(ptr_frame_splitter_scratch, 0, sizeof(ptr_energies_m[0][0]) * MAXIMUM_FREQ_COEFFS * num_sbr_slots); for (i = 0; i < num_sbr_slots; i++) { ptr_energies_m[i] = ptr_frame_splitter_scratch; ptr_frame_splitter_scratch += MAXIMUM_FREQ_COEFFS; } low_band_energy = ixheaace_add_lowband_energies(ptr_energies, ptr_freq_band_tab, no_cols, is_ld_sbr); high_band_energy = ixheaace_add_highband_energies(ptr_energies, ptr_energies_m, ptr_freq_band_tab, num_scf, num_sbr_slots, time_step, is_ld_sbr); border = (num_sbr_slots + 1) >> 1; total_energy = 0.5f * (low_band_energy + pstr_sbr_trans_detector->prev_low_band_energy); total_energy += high_band_energy; if ((total_energy > IXHEAACE_SBR_ENERGY_THRESHOLD) || (!is_ld_sbr)) { err_code = ixheaace_spectral_change(ptr_energies_m, total_energy, num_scf, 0, border, num_sbr_slots, is_ld_sbr, &delta); if (err_code) { return err_code; } } else if (is_ld_sbr) { delta = 0; } if (delta > pstr_sbr_trans_detector->split_thr) { ptr_tran_vector[0] = 1; } else { ptr_tran_vector[0] = 0; } pstr_sbr_trans_detector->prev_low_band_energy = low_band_energy; return err_code; } VOID ixheaace_create_sbr_transient_detector( ixheaace_pstr_sbr_trans_detector pstr_sbr_trans_detector, WORD32 sample_freq, WORD32 total_bitrate, WORD32 codec_bitrate, WORD32 tran_thr, WORD32 mode, WORD32 tran_fc, WORD32 frame_flag_480, WORD32 is_ld_sbr, WORD32 sbr_ratio_idx, ixheaace_sbr_codec_type sbr_codec, WORD32 start_band) { WORD32 no_cols = 32, buffer_length = 96; FLOAT32 br_fac; FLOAT32 frm_dur = 2048.0f / (FLOAT32)sample_freq; FLOAT32 split_thr_fac = frm_dur - 0.01f; if ((sbr_codec == USAC_SBR) && (sbr_ratio_idx == USAC_SBR_RATIO_INDEX_4_1)) { frm_dur = frm_dur * 2; split_thr_fac = frm_dur - 0.01f; } if ((1 == is_ld_sbr) && (1 == frame_flag_480)) { no_cols = 30; buffer_length = 90; } memset(pstr_sbr_trans_detector, 0, sizeof(ixheaace_str_sbr_trans_detector)); br_fac = codec_bitrate ? (FLOAT32)total_bitrate / (FLOAT32)codec_bitrate : 1.0f; split_thr_fac = MAX(split_thr_fac, 0.0001f); split_thr_fac = 0.000075f / (split_thr_fac * split_thr_fac); pstr_sbr_trans_detector->split_thr = split_thr_fac * br_fac; if (is_ld_sbr) { WORD32 i; FLOAT32 ratio = ((sample_freq / 2) / IXHEAACE_QMF_CHANNELS) * 0.00075275f; FLOAT32 tmp = 1024.0f / sample_freq; tmp -= 0.01f; tmp = MAX(tmp, 0.001f); if (1 == frame_flag_480) { no_cols = 30; buffer_length = 90; } pstr_sbr_trans_detector->split_thr = (br_fac * 0.000075f) / (tmp * tmp) / 2.0f; pstr_sbr_trans_detector->look_ahead = 2; pstr_sbr_trans_detector->time_slots = no_cols / 2; pstr_sbr_trans_detector->buffer_size = pstr_sbr_trans_detector->look_ahead + pstr_sbr_trans_detector->time_slots; pstr_sbr_trans_detector->stop_band = (WORD32)fmin(13500 / ((sample_freq >> 1) / IXHEAACE_QMF_CHANNELS), IXHEAACE_QMF_CHANNELS); pstr_sbr_trans_detector->start_band = (WORD32)fmin(start_band, pstr_sbr_trans_detector->stop_band - 4); memset(pstr_sbr_trans_detector->energy, 0, pstr_sbr_trans_detector->buffer_size * sizeof(pstr_sbr_trans_detector->energy[0])); memset(pstr_sbr_trans_detector->sbr_transients, 0, pstr_sbr_trans_detector->buffer_size * sizeof(pstr_sbr_trans_detector->sbr_transients[0])); memset( pstr_sbr_trans_detector->delta_energy, 0, pstr_sbr_trans_detector->buffer_size * sizeof(pstr_sbr_trans_detector->delta_energy[0])); for (i = 0; i < 64; i++) { pstr_sbr_trans_detector->coeff[i] = (FLOAT32)pow(2.0, ratio * (i + 1)); } } pstr_sbr_trans_detector->no_cols = no_cols; pstr_sbr_trans_detector->tran_fc = tran_fc; pstr_sbr_trans_detector->buffer_length = buffer_length; pstr_sbr_trans_detector->no_rows = 64; pstr_sbr_trans_detector->mode = mode; pstr_sbr_trans_detector->prev_low_band_energy = 0; pstr_sbr_trans_detector->tran_thr = (FLOAT32)tran_thr; pstr_sbr_trans_detector->ptr_thresholds = &(pstr_sbr_trans_detector->sbr_thresholds[0]); memset(pstr_sbr_trans_detector->ptr_thresholds, 0, sizeof(pstr_sbr_trans_detector->ptr_thresholds[0]) * IXHEAACE_QMF_CHANNELS); pstr_sbr_trans_detector->ptr_transients = &(pstr_sbr_trans_detector->sbr_transients[0]); memset(pstr_sbr_trans_detector->ptr_transients, 0, sizeof(pstr_sbr_trans_detector->ptr_transients[0]) * pstr_sbr_trans_detector->buffer_length); }