/****************************************************************************** * * * 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 */ #include #include #include #include #include #include "ixheaacd_cnst.h" #include "ixheaacd_bitbuffer.h" #include "ixheaacd_config.h" #include "ixheaacd_interface.h" #include "ixheaacd_acelp_info.h" #include "ixheaacd_tns_usac.h" #include "ixheaacd_sbrdecsettings.h" #include "ixheaacd_info.h" #include "ixheaacd_struct.h" #include "ixheaacd_sbr_common.h" #include "ixheaacd_drc_data_struct.h" #include "ixheaacd_drc_dec.h" #include "ixheaacd_sbr_scale.h" #include "ixheaacd_env_extr_part.h" #include "ixheaacd_sbr_rom.h" #include "ixheaacd_hybrid.h" #include "ixheaacd_ps_dec.h" #include "ixheaacd_common_rom.h" #include "ixheaacd_qmf_dec.h" #include "ixheaacd_sbr_const.h" #include "ixheaacd_lpp_tran.h" #include "ixheaacd_sbrdecoder.h" #include "ixheaacd_env_extr.h" #include "ixheaacd_env_calc.h" #include "ixheaacd_pvc_dec.h" #include "ixheaacd_sbr_dec.h" #include "ixheaacd_mps_polyphase.h" #include "ixheaacd_sbr_const.h" #include "ixheaacd_main.h" #include "ixheaacd_arith_dec.h" #include #include "ixheaacd_memory_standards.h" #include "ixheaacd_sbrdecsettings.h" #include "ixheaacd_defines.h" #include #include "ixheaacd_common_rom.h" #include #include "ixheaacd_bitbuffer.h" #include "ixheaacd_pulsedata.h" #include "ixheaacd_pns.h" #include "ixheaacd_lt_predict.h" #include "ixheaacd_channelinfo.h" #include "ixheaacd_channel.h" #include "ixheaacd_channelinfo.h" #include "ixheaacd_sbrdecoder.h" #include "ixheaacd_audioobjtypes.h" #include "ixheaacd_latmdemux.h" #include "ixheaacd_aacdec.h" #include "ixheaacd_sbr_common.h" #include "ixheaacd_mps_polyphase.h" #include "ixheaacd_config.h" #include "ixheaacd_mps_dec.h" #include "ixheaacd_struct_def.h" #include "ixheaacd_create.h" #include "ixheaacd_process.h" #include "ixheaacd_sbrdecoder.h" #include "ixheaacd_mps_interface.h" #include "ixheaacd_bit_extract.h" #include "ixheaacd_func_def.h" #include "ixheaacd_interface.h" extern ia_huff_code_word_struct ixheaacd_huff_book_scl[]; extern WORD32 ixheaacd_book_scl_index[]; extern WORD16 ixheaacd_book_scl_code_book[]; extern ia_usac_samp_rate_info ixheaacd_samp_rate_info[]; extern const WORD32 ixheaacd_sampling_boundaries[(1 << LEN_SAMP_IDX)]; const WORD32 ixheaacd_sampl_freq_idx_table[17] = { 96000, 88200, 64000, 48000, 44100, 32000, 24000, 22050, 16000, 12000, 11025, 8000, 7350, -1, -1, -1, -1}; static VOID ixheaacd_info_init(ia_usac_samp_rate_info *ptr_samp_info, WORD32 block_size_samples, ia_sfb_info_struct *pstr_sfb_info_long, ia_sfb_info_struct *pstr_sfb_info_short, WORD16 *sfb_width_short, WORD16 *sfb_width_long) { WORD32 i, j, k, n, ws; const WORD16 *sfbands; ia_sfb_info_struct *pstr_sfb_info_ip; pstr_sfb_info_long->islong = 1; pstr_sfb_info_long->max_win_len = 1; pstr_sfb_info_long->samp_per_bk = block_size_samples; switch (block_size_samples) { case 480: pstr_sfb_info_long->ptr_sfb_tbl = ptr_samp_info->ptr_sfb_480; pstr_sfb_info_long->sfb_per_sbk = ptr_samp_info->num_sfb_480; break; case 512: pstr_sfb_info_long->ptr_sfb_tbl = ptr_samp_info->ptr_sfb_512; pstr_sfb_info_long->sfb_per_sbk = ptr_samp_info->num_sfb_512; break; case 768: pstr_sfb_info_long->sfb_per_sbk = ptr_samp_info->num_sfb_768; pstr_sfb_info_long->ptr_sfb_tbl = ptr_samp_info->ptr_sfb_768; break; case 960: pstr_sfb_info_long->ptr_sfb_tbl = ptr_samp_info->ptr_sfb_960; pstr_sfb_info_long->sfb_per_sbk = ptr_samp_info->num_sfb_960; break; case 1024: pstr_sfb_info_long->sfb_per_sbk = ptr_samp_info->num_sfb_1024; pstr_sfb_info_long->ptr_sfb_tbl = ptr_samp_info->ptr_sfb_1024; break; default: assert(0); break; } pstr_sfb_info_long->sfb_width = sfb_width_long; pstr_sfb_info_long->num_groups = 1; pstr_sfb_info_long->group_len[0] = 1; for (i = 0, j = 0, n = pstr_sfb_info_long->sfb_per_sbk; i < n; i++) { k = pstr_sfb_info_long->ptr_sfb_tbl[i]; pstr_sfb_info_long->sfb_width[i] = k - j; j = k; } pstr_sfb_info_short->islong = 0; pstr_sfb_info_short->max_win_len = NSHORT; pstr_sfb_info_short->samp_per_bk = block_size_samples; for (i = 0; i < pstr_sfb_info_short->max_win_len; i++) { switch (block_size_samples) { case 768: pstr_sfb_info_short->ptr_sfb_tbl = ptr_samp_info->ptr_sfb_96; pstr_sfb_info_short->sfb_per_sbk = ptr_samp_info->num_sfb_96; break; case 960: pstr_sfb_info_short->ptr_sfb_tbl = ptr_samp_info->ptr_sfb_120; pstr_sfb_info_short->sfb_per_sbk = ptr_samp_info->num_sfb_120; break; case 1024: pstr_sfb_info_short->ptr_sfb_tbl = ptr_samp_info->ptr_sfb_128; pstr_sfb_info_short->sfb_per_sbk = ptr_samp_info->num_sfb_128; break; default: assert(0); break; } } pstr_sfb_info_short->sfb_width = sfb_width_short; for (i = 0, j = 0, n = pstr_sfb_info_short->sfb_per_sbk; i < n; i++) { k = pstr_sfb_info_short->ptr_sfb_tbl[i]; pstr_sfb_info_short->sfb_width[i] = k - j; j = k; } pstr_sfb_info_ip = pstr_sfb_info_long; for (ws = 0; ws < 2; ws++) { pstr_sfb_info_ip->sfb_per_bk = 0; k = 0; n = 0; for (i = 0; i < pstr_sfb_info_ip->max_win_len; i++) { pstr_sfb_info_ip->bins_per_sbk = pstr_sfb_info_ip->samp_per_bk / pstr_sfb_info_ip->max_win_len; pstr_sfb_info_ip->sfb_per_bk += pstr_sfb_info_ip->sfb_per_sbk; sfbands = pstr_sfb_info_ip->ptr_sfb_tbl; for (j = 0; j < pstr_sfb_info_ip->sfb_per_sbk; j++) pstr_sfb_info_ip->sfb_idx_tbl[j + k] = sfbands[j] + n; n += pstr_sfb_info_ip->bins_per_sbk; k += pstr_sfb_info_ip->sfb_per_sbk; } pstr_sfb_info_ip = pstr_sfb_info_short; } } WORD32 ixheaacd_decode_init( VOID *handle, WORD32 sample_rate, ia_usac_data_struct *usac_data, ia_audio_specific_config_struct *pstr_stream_config) { WORD32 i; ia_exhaacplus_dec_api_struct *codec_handle = (ia_exhaacplus_dec_api_struct *)handle; ia_aac_dec_state_struct *aac_dec_handle = codec_handle->p_state_aac; WORD32 fscale; WORD32 ele_id = 0; ia_usac_config_struct *ptr_usac_config = &(pstr_stream_config->str_usac_config); ia_usac_decoder_config_struct *ptr_usac_dec_config = &(pstr_stream_config->str_usac_config.str_usac_dec_config); WORD32 num_elements = ptr_usac_dec_config->num_elements; WORD32 chan = 0; usac_data->huffman_code_book_scl = aac_dec_handle->huffman_code_book_scl; usac_data->huffman_code_book_scl_index = aac_dec_handle->huffman_code_book_scl_index; usac_data->tns_coeff3_32 = aac_dec_handle->pstr_aac_tables->pstr_block_tables->tns_coeff3_32; usac_data->tns_coeff4_32 = aac_dec_handle->pstr_aac_tables->pstr_block_tables->tns_coeff4_32; usac_data->tns_max_bands_tbl_usac = &aac_dec_handle->pstr_aac_tables->pstr_block_tables ->tns_max_bands_tbl_usac; for (i = 0; i < 11; i++) { if (ixheaacd_sampling_boundaries[i] <= sample_rate) break; } if (i == (1 << LEN_SAMP_IDX)) return -1; usac_data->sampling_rate_idx = i; fscale = (WORD32)((double)sample_rate * (double)FSCALE_DENOM / 12800.0f); for (i = 0; i < MAX_NUM_CHANNELS; i++) { usac_data->window_shape_prev[i] = 0; usac_data->window_shape[i] = 0; } ixheaacd_hufftab(&ixheaacd_book, ixheaacd_huff_book_scl, ixheaacd_book_scl_code_book, ixheaacd_book_scl_index, 1, 60, 60, 1, 19); usac_data->pstr_usac_winmap[0] = &usac_data->str_only_long_info; usac_data->pstr_usac_winmap[1] = &usac_data->str_only_long_info; usac_data->pstr_usac_winmap[2] = &usac_data->str_eight_short_info; usac_data->pstr_usac_winmap[3] = &usac_data->str_only_long_info; usac_data->pstr_usac_winmap[4] = &usac_data->str_only_long_info; if ((usac_data->ccfl != 480) && (usac_data->ccfl != 512) && (usac_data->ccfl != 768) && (usac_data->ccfl != 960) && (usac_data->ccfl != 1024)) return -1; ixheaacd_info_init(&ixheaacd_samp_rate_info[usac_data->sampling_rate_idx], usac_data->ccfl, usac_data->pstr_usac_winmap[0], usac_data->pstr_usac_winmap[2], usac_data->sfb_width_short, usac_data->sfb_width_long); for (i = 0; i < MAX_NUM_CHANNELS; i++) { usac_data->str_tddec[i] = &usac_data->arr_str_tddec[i]; usac_data->str_tddec[i]->fscale = ((fscale)*usac_data->ccfl) / LEN_SUPERFRAME; usac_data->len_subfrm = usac_data->ccfl / 4; usac_data->num_subfrm = (MAX_NUM_SUBFR * usac_data->ccfl) / LEN_SUPERFRAME; ixheaacd_init_acelp_data(usac_data, usac_data->str_tddec[i]); usac_data->str_tddec[i]->fd_synth = &usac_data->str_tddec[i]->fd_synth_buf[LEN_FRAME]; } for (ele_id = 0; ele_id < num_elements; ele_id++) { UWORD32 ele_type; WORD32 stereo_config_index; ia_usac_dec_element_config_struct *ptr_usac_ele_config = &ptr_usac_config->str_usac_dec_config.str_usac_element_config[ele_id]; if (ptr_usac_ele_config) { if (usac_data->tw_mdct[ele_id]) { return -1; } usac_data->noise_filling_config[ele_id] = ptr_usac_ele_config->noise_filling; } ele_type = ptr_usac_config->str_usac_dec_config.usac_element_type[ele_id]; stereo_config_index = ptr_usac_ele_config->stereo_config_index; switch (ele_type) { case ID_USAC_SCE: case ID_USAC_LFE: if ((chan + 1) > MAX_NUM_CHANNELS_USAC_LVL2) return -1; usac_data->seed_value[chan] = 0x3039; chan++; break; case ID_USAC_CPE: { static const WORD32 frame_len_tbl[MAX_CORE_SBR_FRAME_LEN_IDX + 1] = { -1, -1, 32, 32, 64}; if ((chan + 2) > MAX_NUM_CHANNELS_USAC_LVL2) return -1; usac_data->seed_value[chan] = 0x3039; chan++; usac_data->seed_value[chan] = 0x10932; chan++; if (stereo_config_index > 0) { WORD32 bs_frame_length = frame_len_tbl[ptr_usac_config->core_sbr_framelength_index]; WORD32 bs_residual_coding = (stereo_config_index > 1) ? 1 : 0; ia_usac_dec_mps_config_struct *ptr_usac_mps212_config = &(ptr_usac_config->str_usac_dec_config .str_usac_element_config[ele_id] .str_usac_mps212_config); if (ixheaacd_mps_create(&aac_dec_handle->mps_dec_handle, bs_frame_length, bs_residual_coding, ptr_usac_mps212_config)) { return -1; } } break; } break; case ID_USAC_EXT: break; default: return -1; break; } } return 0; } WORD32 ixheaacd_dec_data_init(VOID *handle, ia_frame_data_struct *pstr_frame_data, ia_usac_data_struct *usac_data) { ia_audio_specific_config_struct *pstr_stream_config, *layer_config; WORD32 err_code = 0; WORD32 num_out_chan = 0; WORD32 i_ch, i, ele_id; WORD32 num_elements; WORD32 out_frame_len, sbr_ratio_idx; ia_usac_config_struct *ptr_usac_config = &(pstr_frame_data->str_audio_specific_config.str_usac_config); usac_data->window_shape_prev[0] = WIN_SEL_0; usac_data->window_shape_prev[1] = WIN_SEL_0; pstr_frame_data->str_layer.bit_rate = pstr_frame_data->str_audio_specific_config.avg_bit_rate; pstr_stream_config = &pstr_frame_data->str_audio_specific_config; layer_config = &pstr_frame_data->str_audio_specific_config; sbr_ratio_idx = ixheaacd_sbr_params( ptr_usac_config->core_sbr_framelength_index, &out_frame_len, &usac_data->ccfl, &usac_data->output_samples, &pstr_frame_data->str_layer.sample_rate_layer, &layer_config->samp_frequency_index); pstr_stream_config->sampling_frequency = pstr_frame_data->str_layer.sample_rate_layer; pstr_stream_config->samp_frequency_index = layer_config->samp_frequency_index; num_elements = ptr_usac_config->str_usac_dec_config.num_elements; for (ele_id = 0; ele_id < num_elements; ele_id++) { ia_usac_dec_element_config_struct *ptr_usac_ele_config = &(ptr_usac_config->str_usac_dec_config.str_usac_element_config[ele_id]); if (ptr_usac_ele_config) { usac_data->tw_mdct[ele_id] = ptr_usac_ele_config->tw_mdct; } { ia_usac_dec_mps_config_struct *ptr_usac_mps212_config = &ptr_usac_ele_config->str_usac_mps212_config; WORD32 stereo_config_index = ptr_usac_ele_config->stereo_config_index; usac_data->mps_pseudo_lr[ele_id] = (stereo_config_index > 1) ? ptr_usac_mps212_config->bs_pseudo_lr : 0; } } usac_data->sbr_ratio_idx = sbr_ratio_idx; usac_data->esbr_bit_str[0].no_elements = 0; usac_data->esbr_bit_str[1].no_elements = 0; num_out_chan = ptr_usac_config->num_out_channels; if (usac_data->ccfl == 768) pstr_frame_data->str_layer.sample_rate_layer = 4 * pstr_frame_data->str_layer.sample_rate_layer / 3; for (i = 0; i < MAX_NUM_CHANNELS; i++) { usac_data->coef_fix[i] = &usac_data->arr_coef_fix[i][0]; usac_data->coef[i] = &usac_data->arr_coef[i][0]; usac_data->coef_save[i] = &usac_data->arr_coef_save[i][0]; usac_data->factors[i] = &usac_data->arr_factors[i][0]; usac_data->group_dis[i] = &usac_data->arr_group_dis[i][0]; usac_data->pstr_tns[i] = &usac_data->arr_str_tns[i]; usac_data->tw_ratio[i] = &usac_data->arr_tw_ratio[i][0]; usac_data->ms_used[i] = &usac_data->arr_ms_used[i][0]; usac_data->window_shape_prev[i] = WIN_SEL_0; usac_data->seed_value[i] = 0x0; usac_data->fac_data_present[i] = 0; } err_code = ixheaacd_decode_init(handle, pstr_frame_data->str_layer.sample_rate_layer, usac_data, pstr_stream_config); if (err_code != 0) return err_code; for (i_ch = 0; i_ch < MAX_NUM_CHANNELS; i_ch++) { if (usac_data->tw_mdct[0] == 1) { WORD32 i; for (i = 0; i < 2 * usac_data->ccfl; i++) { usac_data->warp_cont_mem[i_ch][i] = 1.0; } usac_data->warp_sum[i_ch][0] = usac_data->warp_sum[i_ch][1] = (FLOAT32)usac_data->ccfl; } } return err_code; } static VOID ixheaacd_count_tracks_per_layer(int *max_layer, int *stream_count, int *tracks_in_layer) { WORD32 stream; WORD32 num_layer; WORD32 num_streams; WORD32 layer = 0; if (stream_count == NULL) num_streams = 0; else num_streams = *stream_count; if (max_layer == NULL) num_layer = num_streams; else num_layer = *max_layer; if (num_layer < 0) num_layer = num_streams; for (stream = 0; (layer <= num_layer) && (stream < num_streams);) { *tracks_in_layer = 1; stream += 1; layer++; if (layer <= num_layer) *tracks_in_layer = 0; } if (max_layer) *max_layer = (layer - 1); if (stream_count) *stream_count = stream; } WORD32 ixheaacd_frm_data_init(ia_audio_specific_config_struct *pstr_audio_conf, ia_dec_data_struct *pstr_dec_data) { WORD32 layer; WORD32 track; WORD32 num_dec_streams; ia_frame_data_struct *pstr_frame_data; WORD32 stream_count = 1; WORD32 max_layer = -1; memset(pstr_dec_data, 0, sizeof(ia_dec_data_struct)); memset(&(pstr_dec_data->str_frame_data), 0, sizeof(pstr_dec_data->str_frame_data)); pstr_frame_data = &(pstr_dec_data->str_frame_data); if (max_layer < 0) max_layer = stream_count - 1; ixheaacd_count_tracks_per_layer(&max_layer, &stream_count, &pstr_frame_data->tracks_in_layer); pstr_frame_data->scal_out_select = max_layer; pstr_frame_data->stream_count = 0; num_dec_streams = track = 0; for (layer = 0; layer < (signed)pstr_frame_data->scal_out_select + 1; layer++) { WORD32 j; for (j = 0; j < 1; j++, num_dec_streams++) { pstr_frame_data->str_audio_specific_config = *pstr_audio_conf; pstr_frame_data->str_layer.sample_rate_layer = pstr_frame_data->str_audio_specific_config.sampling_frequency; pstr_frame_data->str_layer.bit_rate = pstr_frame_data->str_audio_specific_config.avg_bit_rate; } track += pstr_frame_data->tracks_in_layer; } pstr_frame_data->stream_count = num_dec_streams; return num_dec_streams; } WORD32 ixheaacd_decode_create(ia_exhaacplus_dec_api_struct *handle, ia_dec_data_struct *pstr_dec_data, WORD32 tracks_for_decoder) { WORD32 stream; WORD32 err = 0; ia_frame_data_struct *pstr_frame_data; WORD32 stream_count; ia_aac_dec_state_struct *aac_dec_handle = handle->p_state_aac; pstr_frame_data = &(pstr_dec_data->str_frame_data); stream_count = pstr_frame_data->stream_count; pstr_frame_data->stream_count = tracks_for_decoder; for (stream = 0; stream < stream_count; stream++) { UWORD32 aot = pstr_frame_data->str_audio_specific_config.audio_object_type; switch (aot) { case AOT_USAC: err = ixheaacd_dec_data_init(handle, pstr_frame_data, &(pstr_dec_data->str_usac_data)); if (err != 0) return err; switch (pstr_dec_data->str_usac_data.sbr_ratio_idx) { case 0: handle->aac_config.ui_sbr_mode = 0; break; case 1: handle->aac_config.ui_sbr_mode = 1; break; case 2: handle->aac_config.ui_sbr_mode = 1; break; case 3: handle->aac_config.ui_sbr_mode = 3; break; default: handle->aac_config.ui_sbr_mode = 0; } break; default: break; } } pstr_frame_data->scal_out_object_type = pstr_frame_data->str_audio_specific_config.audio_object_type; pstr_frame_data->scal_out_num_channels = pstr_frame_data->str_audio_specific_config.channel_configuration; pstr_frame_data->scal_out_sampling_frequency = pstr_frame_data->str_audio_specific_config.sampling_frequency; if (&(pstr_dec_data->str_usac_data) != NULL) { ia_sbr_header_data_struct usac_def_header; ia_audio_specific_config_struct *pstr_aud_spec_config = &pstr_frame_data->str_audio_specific_config; ia_usac_config_struct *ptr_usac_config = &(pstr_frame_data->str_audio_specific_config.str_usac_config); WORD32 inter_tes[MAX_NUM_ELEMENTS] = {0}; WORD32 bs_pvc[MAX_NUM_ELEMENTS] = {0}; WORD32 harmonic_sbr[MAX_NUM_ELEMENTS] = {0}; WORD32 inter_test_flag = 0; WORD32 bs_pvc_flag = 0; WORD32 harmonic_Sbr_flag = 0; ia_usac_decoder_config_struct *ptr_usac_dec_config = &ptr_usac_config->str_usac_dec_config; WORD32 const num_ele = ptr_usac_dec_config->num_elements; WORD32 elem_idx = 0; memset(&usac_def_header, 0, sizeof(ia_sbr_header_data_struct)); for (elem_idx = 0; elem_idx < num_ele; elem_idx++) { UWORD32 usac_ele_type = ptr_usac_config->str_usac_dec_config.usac_element_type[elem_idx]; ia_usac_dec_element_config_struct *ptr_usac_ele_config = &ptr_usac_config->str_usac_dec_config .str_usac_element_config[elem_idx]; ia_usac_dec_sbr_config_struct *ptr_usac_sbr_config = &(ptr_usac_dec_config->str_usac_element_config[elem_idx] .str_usac_sbr_config); inter_tes[elem_idx] = (ptr_usac_sbr_config != NULL) ? ptr_usac_sbr_config->bs_inter_tes : 0; bs_pvc[elem_idx] = (ptr_usac_sbr_config != NULL) ? ptr_usac_sbr_config->bs_pvc : 0; harmonic_sbr[elem_idx] = (ptr_usac_sbr_config != NULL) ? ptr_usac_sbr_config->harmonic_sbr : 0; if (ptr_usac_sbr_config->bs_inter_tes) inter_test_flag = 1; if (ptr_usac_sbr_config->bs_pvc) bs_pvc_flag = 1; if (ptr_usac_sbr_config->harmonic_sbr) harmonic_Sbr_flag = 1; if ((usac_ele_type != ID_USAC_LFE) && (usac_ele_type != ID_USAC_EXT)) { ia_usac_dec_sbr_config_struct *ptr_usac_sbr_config = &(ptr_usac_ele_config->str_usac_sbr_config); usac_def_header.start_freq = ptr_usac_sbr_config->dflt_start_freq; usac_def_header.stop_freq = ptr_usac_sbr_config->dflt_stop_freq; usac_def_header.header_extra_1 = ptr_usac_sbr_config->dflt_header_extra1; usac_def_header.header_extra_2 = ptr_usac_sbr_config->dflt_header_extra2; usac_def_header.freq_scale = ptr_usac_sbr_config->dflt_freq_scale; usac_def_header.alter_scale = ptr_usac_sbr_config->dflt_alter_scale; usac_def_header.noise_bands = ptr_usac_sbr_config->dflt_noise_bands; usac_def_header.limiter_bands = ptr_usac_sbr_config->dflt_limiter_bands; usac_def_header.limiter_gains = ptr_usac_sbr_config->dflt_limiter_gains; usac_def_header.interpol_freq = ptr_usac_sbr_config->dflt_interpol_freq; usac_def_header.smoothing_mode = ptr_usac_sbr_config->dflt_smoothing_mode; } } pstr_dec_data->str_usac_data.down_samp_sbr = 0; if (pstr_dec_data->str_usac_data.sbr_ratio_idx > 0) { if (pstr_aud_spec_config->ext_sampling_frequency == pstr_aud_spec_config->sampling_frequency) { pstr_dec_data->str_usac_data.down_samp_sbr = 1; } if (pstr_dec_data->str_usac_data.down_samp_sbr == 0) { if (pstr_dec_data->str_usac_data.sbr_ratio_idx == 3) { pstr_frame_data->scal_out_sampling_frequency = 4 * pstr_frame_data->scal_out_sampling_frequency; } else { pstr_frame_data->scal_out_sampling_frequency = 2 * pstr_frame_data->scal_out_sampling_frequency; } } { void *sbr_persistent_mem_v = aac_dec_handle->sbr_persistent_mem_u; pstr_dec_data->str_usac_data.pstr_esbr_dec = ixheaacd_init_sbr( pstr_frame_data->str_layer.sample_rate_layer, pstr_dec_data->str_usac_data.ccfl, &pstr_dec_data->str_usac_data.down_samp_sbr, sbr_persistent_mem_v, NULL, pstr_frame_data->scal_out_num_channels, 0, pstr_dec_data->str_usac_data.sbr_ratio_idx, pstr_dec_data->str_usac_data.output_samples, &harmonic_Sbr_flag, (void *)&usac_def_header, aac_dec_handle->str_sbr_config, pstr_dec_data->str_usac_data.audio_object_type); pstr_dec_data->str_usac_data.sbr_scratch_mem_base = aac_dec_handle->sbr_scratch_mem_u; if (num_ele) ixheaacd_setesbr_flags(sbr_persistent_mem_v, bs_pvc_flag, harmonic_Sbr_flag, inter_test_flag); } if (pstr_dec_data->str_usac_data.pstr_esbr_dec == NULL) { return -1; } else { pstr_dec_data->str_usac_data.pstr_esbr_dec->xaac_jmp_buf = &(aac_dec_handle->xaac_jmp_buf); } } } aac_dec_handle->decode_create_done = 1; return 0; }