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android / platform / external / libxaac / 695799b8b696425a0c1afbc829a4b8da3bdd315e / . / encoder / ixheaace_api.c
blob: fee5c9e39f71e4f5c0089dc2345941f995056379 [file] [log] [blame]
/******************************************************************************
* *
* 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 <stdlib.h>
#include <string.h>
#include <stdlib.h>
#include "ixheaac_type_def.h"
#include "ixheaac_constants.h"
#include "ixheaace_aac_constants.h"
#include "ixheaac_basic_ops32.h"
#include "ixheaac_basic_ops16.h"
#include "ixheaac_basic_ops40.h"
#include "ixheaac_basic_ops.h"
/* standard */
#include "ixheaac_error_standards.h"
#include "ixheaace_config_params.h"
/* library */
#include "ixheaace_definitions.h"
#include "ixheaace_error_codes.h"
#include "iusace_bitbuffer.h"
/* DRC */
#include "impd_drc_common_enc.h"
#include "impd_drc_uni_drc.h"
#include "impd_drc_tables.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 "impd_drc_enc.h"
#include "ixheaace_sbr_header.h"
#include "ixheaace_sbr_def.h"
#include "ixheaace_resampler.h"
#include "ixheaace_psy_const.h"
#include "ixheaace_tns.h"
#include "ixheaace_tns_params.h"
#include "ixheaace_rom.h"
#include "ixheaace_common_rom.h"
#include "ixheaace_bitbuffer.h"
#include "ixheaace_sbr_rom.h"
#include "ixheaace_common_rom.h"
#include "ixheaace_sbr_main.h"
#include "ixheaace_definitions.h"
#include "ixheaace_api.h"
#include "ixheaace_memory_standards.h"
#include "iusace_block_switch_const.h"
#include "iusace_block_switch_struct_def.h"
#include "iusace_cnst.h"
#include "iusace_tns_usac.h"
#include "iusace_psy_mod.h"
#include "iusace_config.h"
#include "iusace_arith_enc.h"
#include "ixheaace_version_number.h"
#include "ixheaace_adjust_threshold_data.h"
#include "ixheaace_dynamic_bits.h"
#include "ixheaace_qc_data.h"
#include "ixheaace_channel_map.h"
#include "ixheaace_block_switch.h"
#include "ixheaace_psy_data.h"
#include "ixheaace_interface.h"
#include "ixheaace_write_bitstream.h"
#include "ixheaace_psy_configuration.h"
#include "ixheaace_common_rom.h"
#include "ixheaace_psy_mod.h"
#include "iusace_fd_qc_util.h"
#include "iusace_fd_quant.h"
#include "iusace_ms.h"
#include "iusace_signal_classifier.h"
#include "ixheaace_sbr_header.h"
#include "ixheaace_config.h"
#include "ixheaace_asc_write.h"
#include "iusace_main.h"
#include "ixheaace_stereo_preproc.h"
#include "ixheaace_enc_main.h"
#include "ixheaace_qc_util.h"
// MPS header
#include "ixheaace_mps_common_fix.h"
#include "ixheaace_mps_defines.h"
#include "ixheaace_mps_common_define.h"
#include "ixheaace_mps_struct_def.h"
#include "ixheaace_mps_sac_polyphase.h"
#include "ixheaace_mps_sac_hybfilter.h"
#include "ixheaace_mps_bitstream.h"
#include "ixheaace_mps_spatial_bitstream.h"
#include "ixheaace_mps_buf.h"
#include "ixheaace_mps_lib.h"
#include "ixheaace_mps_main_structure.h"
#include "ixheaace_mps_onset_detect.h"
#include "ixheaace_mps_param_extract.h"
#include "ixheaace_mps_static_gain.h"
#include "ixheaace_mps_filter.h"
#include "ixheaace_mps_delay.h"
#include "ixheaace_mps_dmx_tdom_enh.h"
#include "ixheaace_mps_main_structure.h"
#include "ixheaace_mps_tools_rom.h"
#include "ixheaace_mps_qmf.h"
#include "ixheaace_mps_tree.h"
#include "ixheaace_mps_frame_windowing.h"
#include "ixheaace_mps_structure.h"
#include "ixheaace_mps_memory.h"
#include "ixheaace_mps_enc.h"
#include "ixheaace_struct_def.h"
#include "ixheaace_api_defs.h"
#include "ixheaace_write_adts_adif.h"
static WORD32 iusace_scratch_size(VOID) {
WORD32 scr_size;
scr_size = IXHEAACE_GET_SIZE_ALIGNED(USACE_MAX_SCR_SIZE, BYTE_ALIGN_8);
return scr_size;
}
static WORD32 iusace_calc_pers_buf_sizes(ixheaace_api_struct *pstr_api_struct) {
WORD32 pers_size = 0;
ia_usac_encoder_config_struct *pstr_config = &pstr_api_struct->config[0].usac_config;
pers_size += IXHEAACE_GET_SIZE_ALIGNED(pstr_config->channels * sizeof(FLOAT32 *), BYTE_ALIGN_8);
pers_size += IXHEAACE_GET_SIZE_ALIGNED(pstr_config->channels * sizeof(FLOAT32 *), BYTE_ALIGN_8);
pers_size += IXHEAACE_GET_SIZE_ALIGNED(pstr_config->channels * sizeof(FLOAT32 *), BYTE_ALIGN_8);
pers_size += IXHEAACE_GET_SIZE_ALIGNED(pstr_config->channels * sizeof(FLOAT32 *), BYTE_ALIGN_8);
pers_size +=
(IXHEAACE_GET_SIZE_ALIGNED((2 * pstr_config->ccfl * sizeof(FLOAT32)), BYTE_ALIGN_8) *
pstr_config->channels);
pers_size += (IXHEAACE_GET_SIZE_ALIGNED((2 * pstr_config->drc_frame_size * sizeof(FLOAT32)),
BYTE_ALIGN_8) *
pstr_config->channels);
pers_size +=
(IXHEAACE_GET_SIZE_ALIGNED((2 * pstr_config->ccfl * sizeof(FLOAT64)), BYTE_ALIGN_8) *
pstr_config->channels);
pers_size += (IXHEAACE_GET_SIZE_ALIGNED((pstr_config->ccfl * sizeof(FLOAT64)), BYTE_ALIGN_8) *
pstr_config->channels);
pers_size +=
(IXHEAACE_GET_SIZE_ALIGNED((2 * pstr_config->ccfl * sizeof(FLOAT64)), BYTE_ALIGN_8) *
pstr_config->channels);
pers_size +=
(IXHEAACE_GET_SIZE_ALIGNED((3 * pstr_config->ccfl * sizeof(FLOAT64)), BYTE_ALIGN_8) *
pstr_config->channels);
if (pstr_config->tns_select != 0) {
pers_size +=
(IXHEAACE_GET_SIZE_ALIGNED(sizeof(ia_tns_info), BYTE_ALIGN_8) * pstr_config->channels);
}
pers_size += (IXHEAACE_GET_SIZE_ALIGNED(sizeof(ia_usac_td_encoder_struct), BYTE_ALIGN_8) *
pstr_config->channels);
return pers_size;
}
static WORD32 ia_enhaacplus_enc_sizeof_delay_buffer(FLAG flag_framelength_small, WORD32 aot,
WORD32 resamp_idx, WORD32 delay_buf_size,
FLAG mps_enable) {
WORD32 downsample_fac;
if (resamp_idx > 1) {
downsample_fac = resamp_idx / 2;
} else {
downsample_fac = 1;
}
// Set the downsampler delay
WORD32 max_downsamp_delay, max_upsamp_delay;
if (resamp_idx == 2) // 8:3
{
max_downsamp_delay = MAXIMUM_DS_8_1_FILTER_DELAY;
max_upsamp_delay = MAXIMUM_DS_1_3_FILTER_DELAY;
} else if (resamp_idx == 3) // 2:1
{
max_downsamp_delay = MAXIMUM_DS_2_1_FILTER_DELAY;
max_upsamp_delay = 0;
} else if (resamp_idx == 4) // 4:1
{
max_downsamp_delay = MAXIMUM_DS_4_1_FILTER_DELAY;
max_upsamp_delay = 0;
} else {
max_downsamp_delay = MAXIMUM_DS_2_1_FILTER_DELAY;
max_upsamp_delay = 0;
}
if (aot == AOT_SBR || aot == AOT_PS) {
if (flag_framelength_small)
return (FRAME_LEN_960 * (1 << downsample_fac) + max_upsamp_delay + max_downsamp_delay +
INPUT_DELAY_LC) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
else
return (FRAME_LEN_1024 * (1 << downsample_fac) + max_upsamp_delay + max_downsamp_delay +
INPUT_DELAY_LC) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
} else if (aot == AOT_AAC_LC) {
if (flag_framelength_small)
return (FRAME_LEN_960 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_LC) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
else
return (FRAME_LEN_1024 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_LC) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
} else if (aot == AOT_USAC) {
return (FRAME_LEN_1024 * (1 << downsample_fac) + max_upsamp_delay + max_downsamp_delay +
INPUT_DELAY_LC) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
} else if (aot == AOT_AAC_LD) {
if (flag_framelength_small)
return (FRAME_LEN_480 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_LD_480) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
else
return (FRAME_LEN_512 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_LD_512) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
} else if (aot == AOT_AAC_ELD) {
if (flag_framelength_small) {
if (mps_enable) {
return (FRAME_LEN_480 * (1 << downsample_fac) + max_upsamp_delay + max_downsamp_delay +
INPUT_DELAY_ELDV2_480) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
} else {
return (FRAME_LEN_480 * (1 << downsample_fac) + max_upsamp_delay + max_downsamp_delay +
INPUT_DELAY_ELD_480) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
}
} else {
if (mps_enable) {
return (FRAME_LEN_512 * (1 << downsample_fac) + max_upsamp_delay + max_downsamp_delay +
INPUT_DELAY_ELDV2_512) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
} else {
return (FRAME_LEN_512 * (1 << downsample_fac) + max_upsamp_delay + max_downsamp_delay +
INPUT_DELAY_ELD_512) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
}
}
} else {
// return LC Delay buffer size by default
return (FRAME_LEN_1024 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_LC) *
IXHEAACE_MAX_CH_IN_BS_ELE * delay_buf_size;
}
}
static VOID ia_enhaacplus_enc_find_slots_for_elements(WORD32 i_channel_mask,
WORD32 *slots_for_elements,
WORD32 i_num_coupling_chan) {
WORD32 slot = 0, i;
if ((i_channel_mask & 0x3)) {
slots_for_elements[FRONT_LEFT_RIGHT] = slot;
slot += 2;
}
if ((i_channel_mask & 0x4)) {
slots_for_elements[FRONT_CENTER] = slot;
slot += 1;
}
if ((i_channel_mask & 0x8)) {
slots_for_elements[LFE_CHANNEL] = slot;
slot += 1;
}
if ((i_channel_mask & 0x30)) {
slots_for_elements[BACK_LEFT_RIGHT] = slot;
slot += 2;
}
if ((i_channel_mask & 0x100)) {
slots_for_elements[REAR_CENTER] = slot;
slot += 1;
}
if (i_num_coupling_chan != 0) {
for (i = 0; i < i_num_coupling_chan; i++) {
slots_for_elements[COUPLING_CH + i] = slot;
slot += 1;
}
}
return;
}
static VOID ia_enhaacplus_enc_find_channel_config(WORD32 *num_bs_elements, WORD32 *chan_config,
WORD32 *element_type, WORD32 *element_slot,
WORD32 *element_instance_tag,
WORD32 i_num_coupling_chan,
WORD32 i_channel_mask) {
WORD32 i;
WORD32 slots_for_elements[2 * MAXIMUM_BS_ELE];
*num_bs_elements = 0;
ia_enhaacplus_enc_find_slots_for_elements(i_channel_mask, slots_for_elements,
i_num_coupling_chan);
if ((i_channel_mask & 0x4)) {
/*Front Center Present*/
chan_config[*num_bs_elements] = 1;
element_type[*num_bs_elements] = ID_SCE;
element_slot[*num_bs_elements] = slots_for_elements[FRONT_CENTER];
element_instance_tag[*num_bs_elements] = 0;
(*num_bs_elements)++;
}
if ((i_channel_mask & 0x3)) {
/*Front Left and Right Present*/
chan_config[*num_bs_elements] = 2;
element_type[*num_bs_elements] = ID_CPE;
element_slot[*num_bs_elements] = slots_for_elements[FRONT_LEFT_RIGHT];
element_instance_tag[*num_bs_elements] = 0;
(*num_bs_elements)++;
}
if ((i_channel_mask & 0x30)) {
/*Back Left and Right Present*/
chan_config[*num_bs_elements] = 2;
element_type[*num_bs_elements] = ID_CPE;
element_slot[*num_bs_elements] = slots_for_elements[BACK_LEFT_RIGHT];
element_instance_tag[*num_bs_elements] = 1;
(*num_bs_elements)++;
}
if ((i_channel_mask & 0x100)) {
/* Rear Center Present*/
chan_config[*num_bs_elements] = 1;
element_type[*num_bs_elements] = ID_SCE;
element_slot[*num_bs_elements] = slots_for_elements[REAR_CENTER];
element_instance_tag[*num_bs_elements] = 1;
(*num_bs_elements)++;
}
if ((i_channel_mask & 0x8)) {
/*LFE channel Present*/
chan_config[*num_bs_elements] = 1;
element_type[*num_bs_elements] = ID_LFE;
element_slot[*num_bs_elements] = slots_for_elements[LFE_CHANNEL];
element_instance_tag[*num_bs_elements] = 0;
(*num_bs_elements)++;
}
if (i_num_coupling_chan != 0) {
for (i = 0; i < i_num_coupling_chan; i++) {
/*Coupling Channel Present*/
chan_config[*num_bs_elements] = 1;
element_type[*num_bs_elements] = ID_CCE;
element_slot[*num_bs_elements] = slots_for_elements[COUPLING_CH + i];
element_instance_tag[*num_bs_elements] = i_num_coupling_chan - i - 1;
(*num_bs_elements)++;
}
}
}
static VOID ia_enhaacplus_enc_allocate_bitrate_between_channels(
ixheaace_api_struct *pstr_api_struct, WORD32 *bitrate, WORD32 inp_bitrate) {
WORD32 ele_idx;
WORD32 num_lfe = 0, num_mono = 0, num_stereo = 0;
WORD32 bitrate_per_stereo, bitrate_per_mono;
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
switch (pstr_api_struct->config[ele_idx].element_type) {
case ID_SCE:
case ID_CCE:
num_mono++;
break;
case ID_CPE:
num_stereo++;
break;
case ID_LFE:
num_lfe++;
break;
default:
return;
}
}
bitrate_per_stereo = (WORD32)((inp_bitrate - (num_lfe)*8000) / (num_mono * 0.625 + num_stereo));
bitrate_per_mono = (WORD32)(0.625 * bitrate_per_stereo);
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
switch (pstr_api_struct->config[ele_idx].element_type) {
case ID_SCE:
case ID_CCE:
bitrate[ele_idx] = bitrate_per_mono;
break;
case ID_CPE:
bitrate[ele_idx] = bitrate_per_stereo;
break;
case ID_LFE:
bitrate[ele_idx] = 8000;
break;
default:
return;
}
}
}
static IA_ERRORCODE ixheaace_validate_channel_mask(WORD32 ch_mask, WORD32 num_ch) {
IA_ERRORCODE err_code = IA_NO_ERROR;
// If ch_mask not supported, return error
WORD32 temp_mask;
switch (num_ch) {
case 1:
temp_mask = CH_MASK_CENTER_FRONT;
break;
case 2:
temp_mask = CH_MASK_LEFT_RIGHT_FRONT;
break;
case 3:
temp_mask = CH_MASK_CENTER_FRONT | CH_MASK_LEFT_RIGHT_FRONT;
break;
case 4:
temp_mask = CH_MASK_CENTER_FRONT | CH_MASK_LEFT_RIGHT_FRONT | CH_MASK_REAR_CENTER;
break;
case 5:
temp_mask = CH_MASK_CENTER_FRONT | CH_MASK_LEFT_RIGHT_FRONT | CH_MASK_LEFT_RIGHT_BACK;
break;
case 6:
temp_mask =
CH_MASK_CENTER_FRONT | CH_MASK_LEFT_RIGHT_FRONT | CH_MASK_LEFT_RIGHT_BACK | CH_MASK_LFE;
break;
default:
temp_mask = 0;
break;
}
if (ch_mask != temp_mask) {
err_code = IA_EXHEAACE_CONFIG_FATAL_CHANNELS_MASK;
}
return err_code;
}
static VOID ixheaace_set_default_channel_mask(WORD32 *ch_mask, WORD32 num_ch) {
switch (num_ch) {
case 1:
*ch_mask = CH_MASK_CENTER_FRONT;
break;
case 2:
*ch_mask = CH_MASK_LEFT_RIGHT_FRONT;
break;
case 3:
*ch_mask = (CH_MASK_CENTER_FRONT | CH_MASK_LEFT_RIGHT_FRONT);
break;
case 4:
*ch_mask = (CH_MASK_CENTER_FRONT | CH_MASK_LEFT_RIGHT_FRONT | CH_MASK_REAR_CENTER);
break;
case 5:
*ch_mask = (CH_MASK_CENTER_FRONT | CH_MASK_LEFT_RIGHT_FRONT | CH_MASK_LEFT_RIGHT_BACK);
break;
case 6:
*ch_mask =
(CH_MASK_CENTER_FRONT | CH_MASK_LEFT_RIGHT_FRONT | CH_MASK_LEFT_RIGHT_BACK | CH_MASK_LFE);
break;
}
}
static VOID ixheaace_set_default_config(ixheaace_api_struct *pstr_api_struct,
ixheaace_input_config *pstr_input_config) {
ia_usac_encoder_config_struct *pstr_usac_config = &pstr_api_struct->config[0].usac_config;
WORD32 i;
for (i = 0; i < MAXIMUM_BS_ELE; i++) {
ia_enhaacplus_enc_aac_init_default_config(&pstr_api_struct->config[i].aac_config,
pstr_input_config->aot);
pstr_api_struct->config[i].i_channels = NUM_CHANNELS_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].sample_rate = AAC_SAMP_FREQ_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].native_sample_rate = AAC_SAMP_FREQ_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].i_n_memtabs = NUM_MEMTABS_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].aac_classic = AAC_CLASSIC_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].use_parametric_stereo = USE_PS_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].chmode_nchannels = CHMODE_NUM_CHANNELS_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].chmode = CHMODE_CONFIG_PARAM_DEFAULT_VALUE; /*stereo*/
pstr_api_struct->config[i].adts_flag = ADTS_FLAG_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].num_bs_elements = NUM_BS_ELEMENTS_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].i_channels_mask = CHANNEL_MASK_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].i_num_coupling_chan =
NUM_COUPLING_CHANNEL_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].element_type = ELEMENT_TYPE_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].element_slot = ELEMENT_SLOT_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].num_bs_elements = NUM_BS_ELEMENTS_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].element_instance_tag =
ELEMENT_INSTANCE_TAG_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].aac_config.calc_crc = AAC_CFG_CALC_CRC_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].aac_config.full_bandwidth =
AAC_CFG_FULL_BW_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].eldsbr_found = ELDSBR_FOUND_CONFIG_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].use_mps = USE_MPS_PARAM_DEFAULT_VALUE;
pstr_api_struct->config[i].mps_tree_config = USE_MPS_TREE_CONFIG_PARAM_DEFAULT_VALUE;
}
if (pstr_input_config->aot == AOT_USAC) {
memset(pstr_usac_config, 0, sizeof(*pstr_usac_config));
pstr_usac_config->channels = NUM_CHANNELS_CONFIG_PARAM_DEFAULT_VALUE;
pstr_usac_config->sample_rate = USAC_SAMP_FREQ_CONFIG_PARAM_DEFAULT_VALUE;
pstr_usac_config->core_sample_rate = USAC_SAMP_FREQ_CONFIG_PARAM_DEFAULT_VALUE;
pstr_usac_config->native_sample_rate = USAC_SAMP_FREQ_CONFIG_PARAM_DEFAULT_VALUE;
pstr_usac_config->sbr_pvc_active = USAC_SBR_PVC_DEFAULT_VALUE;
pstr_usac_config->sbr_inter_tes_active = USAC_SBR_INTER_TES_DEFAULT_VALUE;
pstr_usac_config->sbr_harmonic = USAC_SBR_HARMONIC_DEFAULT_VALUE;
pstr_usac_config->bit_rate = USAC_BITRATE_DEFAULT_VALUE;
pstr_usac_config->use_fill_element = USAC_FILL_ELEMENT_DEFAULT_VALUE;
pstr_usac_config->use_drc_element = USAC_DRC_DEFAULT_VALUE;
pstr_usac_config->cmplx_pred_flag = USAC_COMPLEX_PREDECTION_DEFAULT_VALUE;
pstr_usac_config->tns_select = USAC_TNS_DEFAULT_VALUE;
pstr_usac_config->flag_noiseFilling = USAC_FLAG_NOISE_FILLING_DEFAULT_VALUE;
}
/* Initialize table pointers */
ia_enhaacplus_enc_init_aac_tabs(&(pstr_api_struct->pstr_aac_tabs));
ia_enhaacplus_enc_init_sbr_tabs(&(pstr_api_struct->spectral_band_replication_tabs));
pstr_api_struct->common_tabs.pstr_common_tab =
(ixheaace_common_tables *)&ia_enhaacplus_enc_common_tab;
}
static VOID ixheaace_validate_config_params(ixheaace_input_config *pstr_input_config) {
if (pstr_input_config->aot != AOT_AAC_ELD && pstr_input_config->aot != AOT_AAC_LC &&
pstr_input_config->aot != AOT_AAC_LD && pstr_input_config->aot != AOT_PS &&
pstr_input_config->aot != AOT_SBR && pstr_input_config->aot != AOT_USAC) {
pstr_input_config->aot = AOT_AAC_LC;
}
if (1 == pstr_input_config->usac_en) {
pstr_input_config->aot = AOT_USAC;
}
pstr_input_config->i_native_samp_freq = pstr_input_config->i_samp_freq;
if (pstr_input_config->i_samp_freq < 9391) {
pstr_input_config->i_samp_freq = 8000;
} else if ((pstr_input_config->i_samp_freq >= 9391) &&
(pstr_input_config->i_samp_freq < 11502)) {
pstr_input_config->i_samp_freq = 11025;
} else if ((pstr_input_config->i_samp_freq >= 11502) &&
(pstr_input_config->i_samp_freq < 13856)) {
pstr_input_config->i_samp_freq = 12000;
} else if ((pstr_input_config->i_samp_freq >= 13856) &&
(pstr_input_config->i_samp_freq < 18783)) {
pstr_input_config->i_samp_freq = 16000;
} else if ((pstr_input_config->i_samp_freq >= 18783) &&
(pstr_input_config->i_samp_freq < 23004)) {
pstr_input_config->i_samp_freq = 22050;
} else if ((pstr_input_config->i_samp_freq >= 23004) &&
(pstr_input_config->i_samp_freq < 27713)) {
pstr_input_config->i_samp_freq = 24000;
} else if ((pstr_input_config->i_samp_freq >= 27713) &&
(pstr_input_config->i_samp_freq < 37566)) {
pstr_input_config->i_samp_freq = 32000;
} else if ((pstr_input_config->i_samp_freq >= 37566) &&
(pstr_input_config->i_samp_freq < 46009)) {
pstr_input_config->i_samp_freq = 44100;
} else if ((pstr_input_config->i_samp_freq >= 46009) &&
(pstr_input_config->i_samp_freq < 55426)) {
pstr_input_config->i_samp_freq = 48000;
} else if ((pstr_input_config->i_samp_freq >= 55426) &&
(pstr_input_config->i_samp_freq < 75132)) {
pstr_input_config->i_samp_freq = 64000;
} else if ((pstr_input_config->i_samp_freq >= 75132) &&
(pstr_input_config->i_samp_freq < 92017)) {
pstr_input_config->i_samp_freq = 88200;
} else if (pstr_input_config->i_samp_freq >= 92017) {
pstr_input_config->i_samp_freq = 96000;
}
if ((pstr_input_config->i_channels < MIN_NUM_CORE_CODER_CHANNELS) ||
(pstr_input_config->i_channels > MAX_NUM_CORE_CODER_CHANNELS)) {
pstr_input_config->i_channels = 1;
}
if (pstr_input_config->esbr_flag != 1 && pstr_input_config->esbr_flag != 0) {
pstr_input_config->esbr_flag = 0;
}
if ((pstr_input_config->esbr_flag == 1) &&
((pstr_input_config->aot != AOT_SBR) && (pstr_input_config->aot != AOT_PS) &&
(pstr_input_config->aot != AOT_USAC))) {
pstr_input_config->esbr_flag = 0;
}
if (pstr_input_config->i_use_mps != 1 && pstr_input_config->i_use_mps != 0) {
pstr_input_config->i_use_mps = 0;
}
if ((pstr_input_config->i_channels != 2) && (pstr_input_config->i_channels != 6)) {
pstr_input_config->i_use_mps = 0;
}
if (pstr_input_config->aot != AOT_AAC_ELD && pstr_input_config->aot != AOT_USAC) {
pstr_input_config->i_use_mps = 0;
}
if (pstr_input_config->aot == AOT_USAC && pstr_input_config->i_use_mps == 1) {
if (pstr_input_config->ccfl_idx < SBR_8_3) {
pstr_input_config->ccfl_idx = SBR_2_1;
}
}
if (AOT_USAC == pstr_input_config->aot) {
if ((pstr_input_config->i_channels != 2) || (pstr_input_config->i_samp_freq > 48000)) {
// Num qmf bands is mapped only till 48000. Hence, disable mps if fs > 48000 or if input
// channels is not 2
pstr_input_config->i_use_mps = 0;
}
}
if (pstr_input_config->i_use_mps == 1) {
if (pstr_input_config->i_channels == 2) {
if (pstr_input_config->i_mps_tree_config != TREE_212) {
pstr_input_config->i_mps_tree_config = TREE_212;
}
} else {
if (pstr_input_config->i_mps_tree_config != TREE_5151 &&
pstr_input_config->i_mps_tree_config != TREE_5152 &&
pstr_input_config->i_mps_tree_config != TREE_525) {
pstr_input_config->i_mps_tree_config = TREE_5151;
}
}
} else {
pstr_input_config->i_mps_tree_config = INVALID_TREE_CONFIG;
}
if (pstr_input_config->aot == AOT_USAC || pstr_input_config->aot == AOT_AAC_ELD ||
pstr_input_config->aot == AOT_AAC_LD) {
pstr_input_config->i_use_adts = 0;
pstr_input_config->i_use_es = 1;
}
if (pstr_input_config->aot == AOT_USAC) {
if (pstr_input_config->codec_mode != USAC_SWITCHED &&
pstr_input_config->codec_mode != USAC_ONLY_FD &&
pstr_input_config->codec_mode != USAC_ONLY_TD) {
pstr_input_config->codec_mode = USAC_ONLY_FD;
}
if (pstr_input_config->ccfl_idx < NO_SBR_CCFL_768 || pstr_input_config->ccfl_idx > SBR_4_1) {
pstr_input_config->ccfl_idx = NO_SBR_CCFL_1024; // default value
}
if (pstr_input_config->cplx_pred != 1 && pstr_input_config->cplx_pred != 0) {
pstr_input_config->cplx_pred = 0;
}
if (pstr_input_config->use_drc_element != 0 && pstr_input_config->use_drc_element != 1) {
pstr_input_config->use_drc_element = 0;
}
if (pstr_input_config->hq_esbr != 0 && pstr_input_config->hq_esbr != 1) {
pstr_input_config->hq_esbr = 0;
}
if (pstr_input_config->harmonic_sbr != 0 && pstr_input_config->harmonic_sbr != 1) {
pstr_input_config->harmonic_sbr = 0;
}
if (pstr_input_config->pvc_active != 0 && pstr_input_config->pvc_active != 1) {
pstr_input_config->pvc_active = 0;
}
if (pstr_input_config->inter_tes_active != 0 && pstr_input_config->inter_tes_active != 1) {
pstr_input_config->inter_tes_active = 0;
}
if ((pstr_input_config->ccfl_idx != 3 && pstr_input_config->ccfl_idx != 4)) {
pstr_input_config->harmonic_sbr = 0;
}
if (pstr_input_config->harmonic_sbr != 1) {
pstr_input_config->hq_esbr = 0;
}
if (pstr_input_config->i_bitrate != 64000 && pstr_input_config->i_bitrate != 96000) {
pstr_input_config->i_bitrate = USAC_BITRATE_DEFAULT_VALUE;
}
{
if (pstr_input_config->i_bitrate < MINIMUM_BITRATE * pstr_input_config->i_channels) {
pstr_input_config->i_bitrate = MINIMUM_BITRATE * pstr_input_config->i_channels;
}
if (pstr_input_config->ccfl_idx == NO_SBR_CCFL_768 ||
pstr_input_config->ccfl_idx == NO_SBR_CCFL_1024) {
if (pstr_input_config->i_bitrate >
(6 * pstr_input_config->i_samp_freq * pstr_input_config->i_channels)) {
pstr_input_config->i_bitrate =
(6 * pstr_input_config->i_samp_freq * pstr_input_config->i_channels);
}
} else if (pstr_input_config->ccfl_idx == SBR_8_3) {
if (pstr_input_config->i_bitrate >
(6 * ((pstr_input_config->i_samp_freq * 3) / 8) * pstr_input_config->i_channels)) {
pstr_input_config->i_bitrate =
(6 * ((pstr_input_config->i_samp_freq * 3) / 8) * pstr_input_config->i_channels);
}
} else if (pstr_input_config->ccfl_idx == SBR_2_1) {
if (pstr_input_config->i_bitrate >
(6 * (pstr_input_config->i_samp_freq / 2) * pstr_input_config->i_channels)) {
pstr_input_config->i_bitrate =
(6 * (pstr_input_config->i_samp_freq / 2) * pstr_input_config->i_channels);
}
} else if (pstr_input_config->ccfl_idx == SBR_4_1) {
if (pstr_input_config->i_bitrate >
(6 * (pstr_input_config->i_samp_freq / 4) * pstr_input_config->i_channels)) {
pstr_input_config->i_bitrate =
(6 * (pstr_input_config->i_samp_freq / 4) * pstr_input_config->i_channels);
}
}
}
{
if ((pstr_input_config->codec_mode == USAC_SWITCHED ||
pstr_input_config->codec_mode == USAC_ONLY_TD) &&
pstr_input_config->i_samp_freq > 24000) {
if (pstr_input_config->ccfl_idx == NO_SBR_CCFL_768) {
pstr_input_config->ccfl_idx = SBR_8_3; // Use 8:3 eSBR
}
if (pstr_input_config->ccfl_idx == NO_SBR_CCFL_1024) {
pstr_input_config->ccfl_idx = SBR_2_1; // Use 2:1 eSBR
}
}
if (pstr_input_config->codec_mode == USAC_ONLY_FD &&
pstr_input_config->i_samp_freq > 24000 && pstr_input_config->esbr_flag &&
pstr_input_config->i_bitrate <= MAX_USAC_ESBR_BITRATE) {
if (pstr_input_config->ccfl_idx == NO_SBR_CCFL_768) {
pstr_input_config->ccfl_idx = SBR_8_3; // Use 8:3 eSBR
}
if (pstr_input_config->ccfl_idx == NO_SBR_CCFL_1024) {
pstr_input_config->ccfl_idx = SBR_2_1; // Use 2:1 eSBR
}
}
if (pstr_input_config->ccfl_idx == NO_SBR_CCFL_768 ||
pstr_input_config->ccfl_idx == SBR_8_3) {
pstr_input_config->frame_length = LEN_SUPERFRAME_768;
} else {
pstr_input_config->frame_length = LEN_SUPERFRAME;
}
}
} else {
pstr_input_config->cplx_pred = 0;
pstr_input_config->harmonic_sbr = 0;
pstr_input_config->pvc_active = 0;
pstr_input_config->inter_tes_active = 0;
pstr_input_config->use_drc_element = 0;
pstr_input_config->hq_esbr = 0;
if (pstr_input_config->i_channels != 2 && pstr_input_config->aot == AOT_PS) {
pstr_input_config->aot = AOT_SBR;
}
if (pstr_input_config->aac_config.use_tns != 1 &&
pstr_input_config->aac_config.use_tns != 0) {
pstr_input_config->aac_config.use_tns = 0;
}
if (pstr_input_config->aac_config.noise_filling != 1 &&
pstr_input_config->aac_config.noise_filling != 0) {
pstr_input_config->aac_config.noise_filling = 0;
}
if (pstr_input_config->i_use_adts != 1 && pstr_input_config->i_use_adts != 0) {
pstr_input_config->i_use_adts = 0;
pstr_input_config->i_use_es = 1;
}
if (pstr_input_config->aac_config.full_bandwidth != 1 &&
pstr_input_config->aac_config.full_bandwidth != 0) {
pstr_input_config->aac_config.full_bandwidth = 0;
}
{
if (pstr_input_config->i_bitrate < MINIMUM_BITRATE * pstr_input_config->i_channels) {
pstr_input_config->i_bitrate = MINIMUM_BITRATE * pstr_input_config->i_channels;
}
if (pstr_input_config->i_bitrate >
(6 * pstr_input_config->i_samp_freq * pstr_input_config->i_channels)) {
pstr_input_config->i_bitrate =
(6 * pstr_input_config->i_samp_freq * pstr_input_config->i_channels);
}
}
{
if (pstr_input_config->aot == AOT_AAC_LC || pstr_input_config->aot == AOT_SBR ||
pstr_input_config->aot == AOT_PS) {
if (pstr_input_config->frame_length != LEN_SUPERFRAME &&
pstr_input_config->frame_length != FRAME_LEN_960) {
pstr_input_config->frame_length = LEN_SUPERFRAME;
}
} else if (pstr_input_config->aot == AOT_AAC_LD || pstr_input_config->aot == AOT_AAC_ELD) {
if (pstr_input_config->frame_length != FRAME_LEN_512 &&
pstr_input_config->frame_length != FRAME_LEN_480) {
pstr_input_config->frame_length = FRAME_LEN_512;
}
} else {
pstr_input_config->frame_length = LEN_SUPERFRAME;
}
}
}
}
static IA_ERRORCODE ixheaace_set_config_params(ixheaace_api_struct *pstr_api_struct,
ixheaace_input_config *pstr_input_config) {
WORD32 ele_idx;
ia_usac_encoder_config_struct *pstr_usac_config = &pstr_api_struct->config[0].usac_config;
ixheaace_validate_config_params(pstr_input_config);
if (pstr_input_config->ui_pcm_wd_sz != 16) {
return (IA_EXHEAACE_CONFIG_FATAL_PCM_WDSZ);
}
if ((pstr_input_config->aac_config.inv_quant != 0) &&
(pstr_input_config->aac_config.inv_quant != 1) &&
(pstr_input_config->aac_config.inv_quant != 2)) {
return (IA_EXHEAACE_CONFIG_FATAL_QUALITY_LEVEL);
}
if ((pstr_input_config->write_program_config_element != 0) &&
(pstr_input_config->write_program_config_element != 1)) {
return (IA_EXHEAACE_CONFIG_FATAL_WRITE_PCE);
}
if ((pstr_input_config->aac_config.f_no_stereo_preprocessing != 0) &&
(pstr_input_config->aac_config.f_no_stereo_preprocessing != 1)) {
return (IA_EXHEAACE_CONFIG_FATAL_USE_STEREO_PRE_PROC);
}
if ((pstr_input_config->aac_config.use_tns != 0) &&
(pstr_input_config->aac_config.use_tns != 1)) {
return (IA_EXHEAACE_CONFIG_FATAL_USE_TNS);
}
if ((pstr_input_config->aac_config.full_bandwidth != 0) &&
(pstr_input_config->aac_config.full_bandwidth != 1)) {
return (IA_EXHEAACE_CONFIG_FATAL_USE_FULL_BANDWIDTH);
}
for (ele_idx = 0; ele_idx < MAXIMUM_BS_ELE; ele_idx++) {
pstr_api_struct->config[ele_idx].aac_classic = 1;
pstr_api_struct->config[ele_idx].firstframe = 1;
pstr_api_struct->config[ele_idx].aot = pstr_input_config->aot;
pstr_api_struct->config[ele_idx].adts_flag = pstr_input_config->i_use_adts;
pstr_api_struct->config[ele_idx].sample_rate = pstr_input_config->i_samp_freq;
pstr_api_struct->config[ele_idx].native_sample_rate = pstr_input_config->i_native_samp_freq;
pstr_api_struct->config[ele_idx].i_channels = pstr_input_config->i_channels;
pstr_api_struct->config[ele_idx].i_native_channels = pstr_input_config->i_channels;
pstr_api_struct->config[ele_idx].i_channels_mode = pstr_input_config->i_channels;
pstr_api_struct->config[ele_idx].aac_config.bit_rate = pstr_input_config->i_bitrate;
pstr_api_struct->config[ele_idx].esbr_flag = pstr_input_config->esbr_flag;
pstr_api_struct->config[ele_idx].use_mps = pstr_input_config->i_use_mps;
pstr_api_struct->config[ele_idx].mps_tree_config = pstr_input_config->i_mps_tree_config;
pstr_api_struct->config[ele_idx].i_num_coupling_chan = pstr_input_config->i_num_coupling_chan;
pstr_api_struct->config[ele_idx].ui_pcm_wd_sz = pstr_input_config->ui_pcm_wd_sz;
pstr_api_struct->config[ele_idx].write_program_config_element =
pstr_input_config->write_program_config_element;
pstr_api_struct->config[ele_idx].frame_length = pstr_input_config->frame_length;
pstr_api_struct->config[ele_idx].aac_config.num_stereo_preprocessing =
pstr_input_config->aac_config.f_no_stereo_preprocessing;
pstr_api_struct->config[ele_idx].aac_config.use_tns = pstr_input_config->aac_config.use_tns;
if (pstr_input_config->aot == AOT_AAC_LD || pstr_input_config->aot == AOT_AAC_ELD) {
pstr_api_struct->config[ele_idx].aac_config.inv_quant =
pstr_input_config->aac_config.inv_quant;
if (pstr_input_config->frame_length == FRAME_LEN_512) {
pstr_api_struct->config[ele_idx].aac_config.flag_framelength_small = 0;
} else if (pstr_input_config->frame_length == FRAME_LEN_480) {
pstr_api_struct->config[ele_idx].aac_config.flag_framelength_small = 1;
}
} else if (pstr_input_config->aot == AOT_AAC_LC || pstr_input_config->aot == AOT_SBR ||
pstr_input_config->aot == AOT_PS) {
pstr_api_struct->config[ele_idx].aac_config.inv_quant = 0;
if (pstr_input_config->frame_length == FRAME_LEN_1024) {
pstr_api_struct->config[ele_idx].aac_config.flag_framelength_small = 0;
} else if (pstr_input_config->frame_length == FRAME_LEN_960) {
pstr_api_struct->config[ele_idx].aac_config.flag_framelength_small = 1;
}
}
if ((AOT_SBR == pstr_input_config->aot) || (AOT_PS == pstr_input_config->aot) ||
(AOT_AAC_ELD == pstr_input_config->aot)) {
pstr_api_struct->config[ele_idx].aac_classic = 0;
}
if (pstr_api_struct->config[ele_idx].sample_rate < 32000) {
if (pstr_api_struct->config[ele_idx].aac_classic == 0) {
pstr_api_struct->config[ele_idx].aac_classic = 1;
}
if (pstr_input_config->aot == AOT_SBR || pstr_input_config->aot == AOT_PS) {
pstr_input_config->aot = AOT_AAC_LC;
}
if (pstr_input_config->aot == AOT_AAC_ELD) {
pstr_input_config->aot = AOT_AAC_LD;
}
}
pstr_api_struct->config[ele_idx].eldsbr_found =
!(pstr_api_struct->config[ele_idx].aac_classic);
}
if (pstr_input_config->aot == AOT_USAC) {
if (pstr_input_config->i_channels > 2) {
return IA_EXHEAACE_CONFIG_FATAL_NUM_CHANNELS;
}
if ((pstr_input_config->i_samp_freq < 6000) || (pstr_input_config->i_samp_freq > 96000)) {
return (IA_EXHEAACE_CONFIG_FATAL_SAMP_FREQ);
}
pstr_api_struct->usac_en = 1;
pstr_usac_config->codec_mode = pstr_input_config->codec_mode;
pstr_usac_config->channels = pstr_input_config->i_channels;
pstr_usac_config->core_sample_rate = pstr_input_config->i_samp_freq;
pstr_usac_config->sample_rate = pstr_input_config->i_samp_freq;
pstr_usac_config->native_sample_rate = pstr_input_config->i_native_samp_freq;
pstr_usac_config->ui_pcm_wd_sz = pstr_input_config->ui_pcm_wd_sz;
pstr_usac_config->ccfl_idx = pstr_input_config->ccfl_idx;
pstr_usac_config->bit_rate = pstr_input_config->i_bitrate;
pstr_usac_config->basic_bitrate = pstr_input_config->i_bitrate;
pstr_usac_config->tns_select = pstr_input_config->aac_config.use_tns;
pstr_usac_config->cmplx_pred_flag = pstr_input_config->cplx_pred;
pstr_usac_config->flag_noiseFilling = pstr_input_config->aac_config.noise_filling;
pstr_usac_config->sbr_pvc_active = pstr_input_config->pvc_active;
pstr_usac_config->sbr_harmonic = pstr_input_config->harmonic_sbr;
pstr_usac_config->hq_esbr = pstr_input_config->hq_esbr;
pstr_usac_config->sbr_inter_tes_active = pstr_input_config->inter_tes_active;
pstr_api_struct->config[0].chmode_nchannels = pstr_api_struct->config[0].i_channels;
switch (pstr_input_config->ccfl_idx) {
case NO_SBR_CCFL_768:
pstr_usac_config->ccfl = LEN_SUPERFRAME_768;
pstr_usac_config->in_frame_length = LEN_SUPERFRAME_768;
pstr_usac_config->sbr_enable = 0;
pstr_usac_config->drc_frame_size = LEN_SUPERFRAME_768;
break;
case NO_SBR_CCFL_1024:
pstr_usac_config->ccfl = LEN_SUPERFRAME;
pstr_usac_config->in_frame_length = LEN_SUPERFRAME;
pstr_usac_config->sbr_enable = 0;
pstr_usac_config->drc_frame_size = LEN_SUPERFRAME;
break;
case SBR_8_3:
pstr_usac_config->ccfl = LEN_SUPERFRAME_768;
pstr_usac_config->in_frame_length = (LEN_SUPERFRAME_768 * 8) / 3;
pstr_usac_config->sbr_enable = 1;
pstr_usac_config->drc_frame_size = (LEN_SUPERFRAME_768 * 8) / 3;
break;
case SBR_2_1:
pstr_usac_config->ccfl = LEN_SUPERFRAME;
pstr_usac_config->in_frame_length = (LEN_SUPERFRAME * 2);
pstr_usac_config->sbr_enable = 1;
pstr_usac_config->drc_frame_size = (LEN_SUPERFRAME * 2);
break;
case SBR_4_1:
pstr_usac_config->ccfl = LEN_SUPERFRAME;
pstr_usac_config->in_frame_length = (LEN_SUPERFRAME * 4);
pstr_usac_config->sbr_enable = 1;
pstr_usac_config->drc_frame_size = (LEN_SUPERFRAME * 4);
break;
default:
pstr_usac_config->ccfl = LEN_SUPERFRAME;
pstr_usac_config->in_frame_length = LEN_SUPERFRAME;
pstr_usac_config->sbr_enable = 0;
pstr_usac_config->drc_frame_size = LEN_SUPERFRAME;
break;
}
if (pstr_input_config->ccfl_idx < NO_SBR_CCFL_768 || pstr_input_config->ccfl_idx > SBR_4_1) {
pstr_api_struct->config[0].ccfl_idx = NO_SBR_CCFL_1024; // default value
} else {
pstr_api_struct->config[0].ccfl_idx = pstr_input_config->ccfl_idx;
}
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_upsamp_tab =
(ixheaace_resampler_sos_table *)&iixheaace_resamp_1_to_3_filt_params;
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_downsamp_tab =
(ixheaace_resampler_sos_table *)&iixheaace_resamp_8_to_1_filt_params;
} else if (pstr_api_struct->config[0].ccfl_idx == SBR_2_1) {
pstr_api_struct->spectral_band_replication_tabs.ptr_resamp_tab =
(ixheaace_resampler_table *)&ixheaace_resamp_2_to_1_iir_filt_params;
} else if (pstr_api_struct->config[0].ccfl_idx == SBR_4_1) {
pstr_api_struct->spectral_band_replication_tabs.ptr_resamp_tab =
(ixheaace_resampler_table *)&ixheaace_resamp_4_to_1_iir_filt_params;
}
pstr_usac_config->use_drc_element = pstr_input_config->use_drc_element;
if (pstr_usac_config->use_drc_element) {
ia_drc_input_config *pstr_drc_cfg = (ia_drc_input_config *)pstr_input_config->pv_drc_cfg;
pstr_drc_cfg->str_uni_drc_config.str_channel_layout.base_ch_count =
pstr_input_config->i_channels;
pstr_drc_cfg->str_enc_params.sample_rate = pstr_input_config->i_samp_freq;
pstr_drc_cfg->str_uni_drc_config.sample_rate = pstr_drc_cfg->str_enc_params.sample_rate;
for (WORD32 i = 0; i < pstr_drc_cfg->str_uni_drc_config.drc_coefficients_uni_drc_count;
i++) {
for (WORD32 j = 0;
j < pstr_drc_cfg->str_uni_drc_config.str_drc_coefficients_uni_drc[i].gain_set_count;
j++) {
pstr_drc_cfg->str_uni_drc_config.str_drc_coefficients_uni_drc[i]
.str_gain_set_params[j]
.delta_tmin =
impd_drc_get_delta_t_min(pstr_drc_cfg->str_uni_drc_config.sample_rate);
}
}
pstr_usac_config->str_drc_cfg = *pstr_drc_cfg;
pstr_usac_config->str_drc_cfg.str_enc_params.frame_size = pstr_usac_config->drc_frame_size;
pstr_usac_config->str_drc_cfg.str_uni_drc_config.str_drc_coefficients_uni_drc
->drc_frame_size = pstr_usac_config->drc_frame_size;
pstr_input_config->drc_frame_size = pstr_usac_config->drc_frame_size;
} else {
pstr_usac_config->drc_frame_size = 0;
pstr_input_config->drc_frame_size = 0;
}
} else {
if ((pstr_input_config->i_channels > MAX_NUM_CORE_CODER_CHANNELS)) {
return (IA_EXHEAACE_CONFIG_FATAL_NUM_CHANNELS);
}
if (!((pstr_input_config->i_native_samp_freq == 7350) ||
(pstr_input_config->i_native_samp_freq == 8000) ||
(pstr_input_config->i_native_samp_freq == 11025) ||
(pstr_input_config->i_native_samp_freq == 12000) ||
(pstr_input_config->i_native_samp_freq == 16000) ||
(pstr_input_config->i_native_samp_freq == 22050) ||
(pstr_input_config->i_native_samp_freq == 24000) ||
(pstr_input_config->i_native_samp_freq == 32000) ||
(pstr_input_config->i_native_samp_freq == 44100) ||
(pstr_input_config->i_native_samp_freq == 48000) ||
(pstr_input_config->i_native_samp_freq == 64000) ||
(pstr_input_config->i_native_samp_freq == 88200) ||
(pstr_input_config->i_native_samp_freq == 96000))) {
return (IA_EXHEAACE_CONFIG_FATAL_SAMP_FREQ);
}
if ((pstr_input_config->aot == AOT_AAC_ELD) && (pstr_input_config->i_use_mps == 1) &&
(pstr_input_config->i_channels > 2)) {
pstr_api_struct->config[0].num_bs_elements = 1;
pstr_api_struct->config[0].i_channels = pstr_input_config->i_channels;
pstr_api_struct->config[0].i_native_channels = pstr_input_config->i_channels;
pstr_api_struct->config[0].chmode_nchannels = pstr_input_config->i_channels;
pstr_api_struct->config[0].element_type = ID_SCE;
if (pstr_api_struct->config[0].mps_tree_config == TREE_525) {
pstr_api_struct->config[0].element_type = ID_CPE;
}
pstr_api_struct->config[0].element_slot = 0;
pstr_api_struct->config[0].element_instance_tag = 0;
pstr_api_struct->config[0].aac_config.bit_rate = pstr_input_config->i_bitrate;
pstr_api_struct->config[0].use_parametric_stereo = 0;
}
if (pstr_input_config->i_channels_mask == 0) {
ixheaace_set_default_channel_mask(&pstr_input_config->i_channels_mask,
pstr_input_config->i_channels);
}
if (pstr_api_struct->config[0].aac_config.dual_mono != 1) {
if (pstr_input_config->aot != AOT_AAC_ELD || (pstr_input_config->i_use_mps != 1)) {
WORD32 num_bs_elements, chan_config[MAXIMUM_BS_ELE], element_type[MAXIMUM_BS_ELE],
element_slot[MAXIMUM_BS_ELE], element_instance_tag[MAXIMUM_BS_ELE],
bitrate[MAXIMUM_BS_ELE];
if ((pstr_input_config->i_channels_mask > 0x3FFFF)) {
return (IA_EXHEAACE_CONFIG_FATAL_CHANNELS_MASK);
}
if (ixheaace_validate_channel_mask(pstr_input_config->i_channels_mask,
pstr_input_config->i_channels)) {
return IA_EXHEAACE_CONFIG_FATAL_CHANNELS_MASK;
}
for (ele_idx = 0; ele_idx < MAXIMUM_BS_ELE; ele_idx++) {
pstr_api_struct->config[ele_idx].i_channels_mask = pstr_input_config->i_channels_mask;
}
ia_enhaacplus_enc_find_channel_config(
&num_bs_elements, chan_config, element_type, element_slot, element_instance_tag,
pstr_api_struct->config[0].i_num_coupling_chan, pstr_input_config->i_channels_mask);
for (ele_idx = 0; ele_idx < num_bs_elements; ele_idx++) {
pstr_api_struct->config[ele_idx].i_channels = chan_config[ele_idx];
pstr_api_struct->config[ele_idx].i_native_channels = chan_config[ele_idx];
pstr_api_struct->config[ele_idx].chmode_nchannels = chan_config[ele_idx];
pstr_api_struct->config[ele_idx].element_type = element_type[ele_idx];
pstr_api_struct->config[ele_idx].element_slot = element_slot[ele_idx];
pstr_api_struct->config[ele_idx].num_bs_elements = num_bs_elements;
pstr_api_struct->config[ele_idx].element_instance_tag = element_instance_tag[ele_idx];
}
if (pstr_api_struct->config[0].num_bs_elements > 1) {
ia_enhaacplus_enc_allocate_bitrate_between_channels(pstr_api_struct, bitrate,
pstr_input_config->i_bitrate);
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
pstr_api_struct->config[ele_idx].aac_config.bit_rate = bitrate[ele_idx];
}
for (ele_idx = 0; ele_idx < MAXIMUM_BS_ELE; ele_idx++) {
pstr_api_struct->config[ele_idx].use_parametric_stereo = 0;
}
}
}
} else {
WORD32 num_bs_elements;
WORD32 bitrate[MAXIMUM_BS_ELE];
num_bs_elements = 2;
pstr_api_struct->config[0].i_channels = 1;
pstr_api_struct->config[0].chmode_nchannels = 1;
pstr_api_struct->config[0].element_type = ID_SCE;
pstr_api_struct->config[0].element_slot = 0;
pstr_api_struct->config[0].num_bs_elements = num_bs_elements;
pstr_api_struct->config[0].element_instance_tag = 0;
pstr_api_struct->config[1].i_channels = 1;
pstr_api_struct->config[1].chmode_nchannels = 1;
pstr_api_struct->config[1].element_type = ID_SCE;
pstr_api_struct->config[1].element_slot = 1;
pstr_api_struct->config[1].num_bs_elements = num_bs_elements;
pstr_api_struct->config[1].element_instance_tag = 1;
if (pstr_api_struct->config[0].num_bs_elements > 1) {
ia_enhaacplus_enc_allocate_bitrate_between_channels(
pstr_api_struct, bitrate, pstr_api_struct->config[0].aac_config.bit_rate);
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
pstr_api_struct->config[ele_idx].aac_config.bit_rate = bitrate[ele_idx];
}
for (ele_idx = 0; ele_idx < MAXIMUM_BS_ELE; ele_idx++) {
pstr_api_struct->config[ele_idx].use_parametric_stereo = 0;
}
}
}
if (pstr_input_config->aot == AOT_PS && pstr_input_config->i_channels == 2) {
pstr_api_struct->config[0].use_parametric_stereo = 1;
pstr_api_struct->config[0].chmode_nchannels = 2;
} else {
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
pstr_api_struct->config[ele_idx].chmode_nchannels =
pstr_api_struct->config[ele_idx].i_channels;
}
}
if (pstr_input_config->aot == AOT_AAC_LD || pstr_input_config->aot == AOT_AAC_ELD) {
WORD32 max_channel_bits = (pstr_api_struct->config[0].aac_config.flag_framelength_small
? MAXIMUM_CHANNEL_BITS_480
: MAXIMUM_CHANNEL_BITS_512);
if ((pstr_input_config->aac_config.bitreservoir_size > max_channel_bits / 8) ||
(pstr_input_config->aac_config.bitreservoir_size < -1)) {
pstr_input_config->aac_config.bitreservoir_size =
BITRESERVOIR_SIZE_CONFIG_PARAM_DEFAULT_VALUE_LD;
}
pstr_api_struct->config[0].aac_config.bitreservoir_size =
pstr_input_config->aac_config.bitreservoir_size;
}
if (pstr_input_config->aot == AOT_AAC_LC || pstr_input_config->aot == AOT_SBR ||
pstr_input_config->aot == AOT_PS) {
WORD32 max_channel_bits = (pstr_api_struct->config[0].aac_config.flag_framelength_small
? MAXIMUM_CHANNEL_BITS_960
: MAXIMUM_CHANNEL_BITS_1024);
if ((pstr_input_config->aac_config.bitreservoir_size > max_channel_bits / 8) ||
(pstr_input_config->aac_config.bitreservoir_size < -1)) {
pstr_input_config->aac_config.bitreservoir_size =
BITRESERVOIR_SIZE_CONFIG_PARAM_DEFAULT_VALUE_LC;
}
pstr_api_struct->config[0].aac_config.bitreservoir_size =
pstr_input_config->aac_config.bitreservoir_size;
}
pstr_api_struct->config[0].aac_config.full_bandwidth =
pstr_input_config->aac_config.full_bandwidth;
}
return IA_NO_ERROR;
}
static VOID ixheaace_fill_mem_tabs(ixheaace_api_struct *pstr_api_struct, WORD32 aot) {
WORD32 ele_idx;
WORD32 num_channel;
WORD32 frame_length = LEN_SUPERFRAME;
ixheaace_mem_info_struct *pstr_mem_info;
frame_length = pstr_api_struct->config[0].frame_length;
WORD32 offset_size = 0;
if (pstr_api_struct->usac_en) {
WORD32 fac_downsample = 1;
if (pstr_api_struct->config[0].ccfl_idx > NO_SBR_CCFL_1024) {
fac_downsample = pstr_api_struct->config[0].ccfl_idx >> 1;
} else {
fac_downsample = 1;
}
/* persistant */
{
pstr_mem_info = &pstr_api_struct->pstr_mem_info[IA_ENHAACPLUSENC_PERSIST_IDX];
{
pstr_mem_info->ui_size =
IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_state_struct), BYTE_ALIGN_8) +
iusace_calc_pers_buf_sizes(pstr_api_struct);
if (pstr_api_struct->config[0].usac_config.sbr_enable) {
pstr_mem_info->ui_size += ixheaace_sbr_enc_pers_size(
2, 0, pstr_api_struct->config[0].usac_config.sbr_harmonic);
}
offset_size = 2 *
ia_enhaacplus_enc_sizeof_delay_buffer(
0, AOT_USAC, pstr_api_struct->config[0].ccfl_idx,
sizeof(pstr_api_struct->pstr_state->inp_delay[0]),
pstr_api_struct->config[0].use_mps) *
pstr_api_struct->config[0].num_bs_elements;
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
if (pstr_api_struct->config[0].use_mps) {
offset_size =
(MAX_INPUT_SAMPLES) * sizeof(pstr_api_struct->pstr_state->time_signal_mps[0]);
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
offset_size =
(MAX_MPS_BS_PAYLOAD_SIZE) * sizeof(pstr_api_struct->pstr_state->mps_bs[0]);
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
pstr_mem_info->ui_size +=
IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_mps_212_memory_struct), BYTE_ALIGN_8);
}
if (1 == pstr_api_struct->config[0].usac_config.sbr_enable) {
offset_size =
(MAX_FRAME_LEN * (1 << fac_downsample) + MAX_DS_8_1_FILTER_DELAY + INPUT_DELAY) *
MAX_CHANNELS * sizeof(pstr_mem_info->ui_size);
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
}
if ((2 != pstr_api_struct->config[0].usac_config.channels) &&
(1 == pstr_api_struct->config[0].usac_config.sbr_enable)) {
offset_size = (MAX_INPUT_SAMPLES) * sizeof(pstr_api_struct->pstr_state->time_signal[0]);
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
}
}
pstr_mem_info->ui_alignment = BYTE_ALIGN_8;
pstr_mem_info->ui_type = IA_MEMTYPE_PERSIST;
pstr_mem_info->ui_placement[0] = 0;
pstr_mem_info->ui_placement[1] = 0;
pstr_mem_info->ui_priority = IA_MEMPRIORITY_ANYWHERE;
pstr_mem_info->ui_placed[0] = 0;
pstr_mem_info->ui_placed[1] = 0;
}
/* scratch */
{
pstr_mem_info = &pstr_api_struct->pstr_mem_info[IA_ENHAACPLUSENC_SCRATCH_IDX];
UWORD32 usac_scr_size = iusace_scratch_size();
if (pstr_api_struct->config[0].usac_config.sbr_enable) {
UWORD32 sbr_scr_size = ixheaace_sbr_enc_scr_size() + ixheaace_resampler_scr_size();
pstr_mem_info->ui_size = max(usac_scr_size, sbr_scr_size);
} else {
pstr_mem_info->ui_size = usac_scr_size;
}
pstr_mem_info->ui_alignment = BYTE_ALIGN_8;
pstr_mem_info->ui_type = IA_MEMTYPE_SCRATCH;
pstr_mem_info->ui_placement[0] = 0;
pstr_mem_info->ui_placement[1] = 0;
pstr_mem_info->ui_priority = IA_MEMPRIORITY_ANYWHERE;
pstr_mem_info->ui_placed[0] = 0;
pstr_mem_info->ui_placed[1] = 0;
}
/* input */
{
pstr_mem_info = &pstr_api_struct->pstr_mem_info[IA_ENHAACPLUSENC_INPUT_IDX];
WORD32 pcm_wd_sz;
num_channel = pstr_api_struct->config[0].i_channels;
pcm_wd_sz = pstr_api_struct->config[0].usac_config.ui_pcm_wd_sz;
pstr_mem_info->ui_size = frame_length * num_channel * (pcm_wd_sz >> 3);
if (1 == pstr_api_struct->config[0].usac_config.sbr_enable) {
switch (pstr_api_struct->config[0].ccfl_idx) {
case SBR_8_3: // 8:3
pstr_mem_info->ui_size *= 8;
pstr_mem_info->ui_size /= 3;
break;
case SBR_2_1: // 2:1
pstr_mem_info->ui_size *= 2;
break;
case SBR_4_1: // 4:1
pstr_mem_info->ui_size *= 4;
break;
}
}
pstr_mem_info->ui_alignment =
BYTE_ALIGN_8; /* As input is used as scratch memory internally */
pstr_mem_info->ui_type = IA_MEMTYPE_INPUT;
pstr_mem_info->ui_placement[0] = 0;
pstr_mem_info->ui_placement[1] = 0;
pstr_mem_info->ui_priority = IA_MEMPRIORITY_ANYWHERE;
pstr_mem_info->ui_placed[0] = 0;
pstr_mem_info->ui_placed[1] = 0;
}
/* output */
{
pstr_mem_info = &pstr_api_struct->pstr_mem_info[IA_ENHAACPLUSENC_OUTPUT_IDX];
pstr_mem_info->ui_size = (MAXIMUM_CHANNEL_BITS_1024 / BYTE_NUMBIT) * num_channel;
pstr_mem_info->ui_alignment = BYTE_ALIGN_8;
pstr_mem_info->ui_type = IA_MEMTYPE_OUTPUT;
pstr_mem_info->ui_placement[0] = 0;
pstr_mem_info->ui_placement[1] = 0;
pstr_mem_info->ui_priority = IA_MEMPRIORITY_ANYWHERE;
pstr_mem_info->ui_placed[0] = 0;
pstr_mem_info->ui_placed[1] = 0;
}
} else {
/* persistant */
{
pstr_mem_info = &pstr_api_struct->pstr_mem_info[IA_ENHAACPLUSENC_PERSIST_IDX];
{
if (pstr_api_struct->config[0].num_bs_elements == 1) {
num_channel = pstr_api_struct->config[0].aac_classic
? pstr_api_struct->config[0].chmode_nchannels
: (pstr_api_struct->config[0].use_parametric_stereo
? 1
: pstr_api_struct->config[0].chmode_nchannels);
pstr_mem_info->ui_size =
IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_state_struct), BYTE_ALIGN_8) +
ia_enhaacplus_enc_aac_enc_pers_size(num_channel, aot);
if (pstr_api_struct->config[0].aot != AOT_AAC_LC &&
pstr_api_struct->config[0].aot != AOT_AAC_LD) {
pstr_mem_info->ui_size += ixheaace_sbr_enc_pers_size(
num_channel, pstr_api_struct->config[0].use_parametric_stereo, 0);
}
offset_size = ia_enhaacplus_enc_sizeof_delay_buffer(
pstr_api_struct->config[0].aac_config.flag_framelength_small, aot, 3,
sizeof(pstr_api_struct->pstr_state->inp_delay[0]),
pstr_api_struct->config[0].use_mps) *
pstr_api_struct->config[0].num_bs_elements;
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
}
if (pstr_api_struct->config[0].num_bs_elements > 1) {
offset_size = IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_state_struct), BYTE_ALIGN_8) +
ia_enhaacplus_enc_sizeof_delay_buffer(
pstr_api_struct->config[0].aac_config.flag_framelength_small, aot, 3,
sizeof(pstr_api_struct->pstr_state->inp_delay[0]),
pstr_api_struct->config[0].use_mps) *
pstr_api_struct->config[0].num_bs_elements;
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
num_channel = pstr_api_struct->config[ele_idx].i_channels;
if (pstr_api_struct->config[ele_idx].element_type != ID_LFE)
pstr_mem_info->ui_size += ixheaace_sbr_enc_pers_size(num_channel, 0, 0);
pstr_mem_info->ui_size += ia_enhaacplus_enc_aac_enc_pers_size(num_channel, aot) + 32;
}
}
if (pstr_api_struct->config[0].use_mps) {
if (pstr_api_struct->config[0].aac_config.flag_framelength_small) {
offset_size =
(MAX_INPUT_SAMPLES + (INPUT_DELAY_ELDV2_480 * IXHEAACE_MAX_CH_IN_BS_ELE)) *
sizeof(pstr_api_struct->pstr_state->time_signal_mps[0]);
} else {
offset_size =
(MAX_INPUT_SAMPLES + (INPUT_DELAY_ELDV2_512 * IXHEAACE_MAX_CH_IN_BS_ELE)) *
sizeof(pstr_api_struct->pstr_state->time_signal_mps[0]);
}
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
if (pstr_api_struct->config[0].mps_tree_config == TREE_212) {
pstr_mem_info->ui_size +=
IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_mps_212_memory_struct), BYTE_ALIGN_8);
} else {
pstr_mem_info->ui_size +=
IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_mps_515_memory_struct), BYTE_ALIGN_8);
}
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(
(MAX_MPS_BS_PAYLOAD_SIZE) * sizeof(pstr_api_struct->pstr_state->mps_bs[0]),
BYTE_ALIGN_8);
}
offset_size = IXHEAACE_MAX_PAYLOAD_SIZE * pstr_api_struct->config[0].num_bs_elements;
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
offset_size = (MAX_FRAME_LEN * 2 + MAX_DS_2_1_FILTER_DELAY + INPUT_DELAY) *
MAX_INPUT_CHAN * sizeof(pstr_mem_info->ui_size);
pstr_mem_info->ui_size += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
}
pstr_mem_info->ui_alignment = BYTE_ALIGN_8;
pstr_mem_info->ui_type = IA_MEMTYPE_PERSIST;
pstr_mem_info->ui_placement[0] = 0;
pstr_mem_info->ui_placement[1] = 0;
pstr_mem_info->ui_priority = IA_MEMPRIORITY_ANYWHERE;
pstr_mem_info->ui_placed[0] = 0;
pstr_mem_info->ui_placed[1] = 0;
}
/* scratch */
{
pstr_mem_info = &pstr_api_struct->pstr_mem_info[IA_ENHAACPLUSENC_SCRATCH_IDX];
{
pstr_mem_info->ui_size = ia_enhaacplus_enc_aac_enc_scr_size();
UWORD32 sbr_scr_size = ixheaace_sbr_enc_scr_size() + ixheaace_resampler_scr_size();
UWORD32 mps_scr_size = 0;
if (pstr_api_struct->config[0].use_mps) {
if (pstr_api_struct->config[0].mps_tree_config != TREE_212) {
mps_scr_size = ixheaace_mps_515_scratch_size();
}
}
pstr_mem_info->ui_size += MAX(sbr_scr_size, mps_scr_size);
}
pstr_mem_info->ui_alignment = BYTE_ALIGN_8;
pstr_mem_info->ui_type = IA_MEMTYPE_SCRATCH;
pstr_mem_info->ui_placement[0] = 0;
pstr_mem_info->ui_placement[1] = 0;
pstr_mem_info->ui_priority = IA_MEMPRIORITY_ANYWHERE;
pstr_mem_info->ui_placed[0] = 0;
pstr_mem_info->ui_placed[1] = 0;
}
/* input */
{
pstr_mem_info = &pstr_api_struct->pstr_mem_info[IA_ENHAACPLUSENC_INPUT_IDX];
WORD32 pcm_wd_sz;
pcm_wd_sz = pstr_api_struct->config[0].ui_pcm_wd_sz;
num_channel = 0;
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
num_channel += pstr_api_struct->config[ele_idx].i_channels;
}
{
if (pstr_api_struct->config[0].aac_classic) {
pstr_mem_info->ui_size = (frame_length * (pcm_wd_sz >> 3)) * num_channel;
} else {
pstr_mem_info->ui_size = (frame_length * (pcm_wd_sz >> 3)) * 2 * num_channel;
}
}
pstr_mem_info->ui_alignment =
BYTE_ALIGN_8; /* As input is used as scratch memory internally */
pstr_mem_info->ui_type = IA_MEMTYPE_INPUT;
pstr_mem_info->ui_placement[0] = 0;
pstr_mem_info->ui_placement[1] = 0;
pstr_mem_info->ui_priority = IA_MEMPRIORITY_ANYWHERE;
pstr_mem_info->ui_placed[0] = 0;
pstr_mem_info->ui_placed[1] = 0;
}
/* output */
{
pstr_mem_info = &pstr_api_struct->pstr_mem_info[IA_ENHAACPLUSENC_OUTPUT_IDX];
if (aot == AOT_AAC_LC || aot == AOT_SBR || aot == AOT_PS) {
pstr_mem_info->ui_size = (6 * frame_length / 8) * num_channel;
pstr_mem_info->ui_size += (7) * IXHEAACE_MAX_CH_IN_BS_ELE * MAXIMUM_BS_ELE;
} else if (aot == AOT_AAC_LD || aot == AOT_AAC_ELD) {
pstr_mem_info->ui_size = (6 * frame_length / 8) * num_channel;
}
pstr_mem_info->ui_alignment = BYTE_ALIGN_8;
pstr_mem_info->ui_type = IA_MEMTYPE_OUTPUT;
pstr_mem_info->ui_placement[0] = 0;
pstr_mem_info->ui_placement[1] = 0;
pstr_mem_info->ui_priority = IA_MEMPRIORITY_ANYWHERE;
pstr_mem_info->ui_placed[0] = 0;
pstr_mem_info->ui_placed[1] = 0;
}
}
return;
}
static IA_ERRORCODE ixheaace_alloc_and_assign_mem(ixheaace_api_struct *pstr_api_struct,
ixheaace_output_config *ptr_out_cfg) {
IA_ERRORCODE err_code = IA_NO_ERROR;
UWORD32 i_idx;
pVOID pv_value;
for (i_idx = 0; i_idx < 4; i_idx++) {
ptr_out_cfg->mem_info_table[i_idx].ui_size = pstr_api_struct->pstr_mem_info[i_idx].ui_size;
ptr_out_cfg->mem_info_table[i_idx].ui_alignment =
pstr_api_struct->pstr_mem_info[i_idx].ui_alignment;
ptr_out_cfg->mem_info_table[i_idx].ui_type = pstr_api_struct->pstr_mem_info[i_idx].ui_type;
ptr_out_cfg->arr_alloc_memory[ptr_out_cfg->malloc_count] =
ptr_out_cfg->malloc_xheaace(ptr_out_cfg->mem_info_table[i_idx].ui_size +
ptr_out_cfg->mem_info_table[i_idx].ui_alignment,
ptr_out_cfg->mem_info_table[i_idx].ui_alignment);
if (NULL == ptr_out_cfg->arr_alloc_memory[ptr_out_cfg->malloc_count]) {
return IA_EXHEAACE_API_FATAL_MEM_ALLOC;
}
memset(ptr_out_cfg->arr_alloc_memory[ptr_out_cfg->malloc_count], 0,
ptr_out_cfg->mem_info_table[i_idx].ui_size);
if ((i_idx == IA_ENHAACPLUSENC_PERSIST_IDX) || (i_idx == IA_ENHAACPLUSENC_SCRATCH_IDX)) {
ptr_out_cfg->ui_rem =
(SIZE_T)((SIZE_T)ptr_out_cfg->arr_alloc_memory[ptr_out_cfg->malloc_count] %
ptr_out_cfg->mem_info_table[i_idx].ui_alignment);
pv_value = ptr_out_cfg->mem_info_table[i_idx].mem_ptr =
(pVOID)((WORD8 *)ptr_out_cfg->arr_alloc_memory[ptr_out_cfg->malloc_count] +
ptr_out_cfg->mem_info_table[i_idx].ui_alignment - ptr_out_cfg->ui_rem);
} else {
pv_value = ptr_out_cfg->mem_info_table[i_idx].mem_ptr =
ptr_out_cfg->arr_alloc_memory[ptr_out_cfg->malloc_count];
}
pstr_api_struct->pp_mem[i_idx] = ptr_out_cfg->mem_info_table[i_idx].mem_ptr;
memset(pstr_api_struct->pp_mem[i_idx], 0, pstr_api_struct->pstr_mem_info[i_idx].ui_size);
pstr_api_struct->pp_mem[i_idx] = pv_value;
if (i_idx == IA_ENHAACPLUSENC_PERSIST_IDX) {
WORD32 offset_size = IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_state_struct), BYTE_ALIGN_8);
WORD8 *p_offset = NULL;
/* Set persistent memory pointer in api obj */
pstr_api_struct->pstr_state = (ixheaace_state_struct *)pv_value;
WORD32 i, inp_delay_size;
WORD8 *p_temp;
if (pstr_api_struct->usac_en) {
memset(pstr_api_struct->pstr_state, 0, sizeof(*(pstr_api_struct->pstr_state)));
ia_usac_encoder_config_struct *pstr_usac_config = &pstr_api_struct->config[0].usac_config;
ixheaace_state_struct *pstr_state = pstr_api_struct->pstr_state;
ia_usac_data_struct *pstr_usac_enc_data = &(pstr_state->str_usac_enc_data);
pstr_state->ptr_in_buf = (FLOAT32 **)((WORD8 *)pstr_state + offset_size);
offset_size = pstr_usac_config->channels * sizeof(FLOAT32 *);
p_offset = (WORD8 *)pstr_state->ptr_in_buf +
IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
// Input delay
pstr_state->inp_delay = (FLOAT32 *)(p_offset);
inp_delay_size =
2 *
ia_enhaacplus_enc_sizeof_delay_buffer(
0, AOT_USAC, pstr_api_struct->config[0].ccfl_idx,
sizeof(pstr_state->inp_delay[0]), pstr_api_struct->config[0].use_mps) *
pstr_api_struct->config[0].num_bs_elements;
memset(pstr_state->inp_delay, 0, inp_delay_size);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(inp_delay_size, BYTE_ALIGN_8);
if (1 == pstr_usac_config->sbr_enable) {
if (2 != pstr_usac_config->channels) {
pstr_api_struct->pstr_state->time_signal = (FLOAT32 *)(p_offset);
memset(pstr_api_struct->pstr_state->time_signal, 0,
(MAX_INPUT_SAMPLES) * sizeof(pstr_api_struct->pstr_state->time_signal[0]));
offset_size =
(MAX_INPUT_SAMPLES) * sizeof(pstr_api_struct->pstr_state->time_signal[0]);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
}
pstr_api_struct->pstr_state->spectral_band_replication_enc_pers_mem[0] =
(struct ixheaace_str_sbr_enc *)p_offset;
p_offset = p_offset + ixheaace_sbr_enc_pers_size(pstr_usac_config->channels, 0,
pstr_usac_config->sbr_harmonic);
}
if (1 == pstr_api_struct->config[0].use_mps) {
pstr_api_struct->pstr_state->time_signal_mps = (FLOAT32 *)(p_offset);
memset(pstr_api_struct->pstr_state->time_signal_mps, 0,
(MAX_INPUT_SAMPLES) * sizeof(pstr_api_struct->pstr_state->time_signal_mps[0]));
offset_size =
(MAX_INPUT_SAMPLES) * sizeof(pstr_api_struct->pstr_state->time_signal_mps[0]);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
pstr_api_struct->pstr_state->mps_bs = (UWORD8 *)(p_offset);
memset(pstr_api_struct->pstr_state->mps_bs, 0,
(MAX_MPS_BS_PAYLOAD_SIZE) * sizeof(pstr_api_struct->pstr_state->mps_bs[0]));
offset_size =
(MAX_MPS_BS_PAYLOAD_SIZE) * sizeof(pstr_api_struct->pstr_state->mps_bs[0]);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
pstr_api_struct->pstr_state->mps_pers_mem = (ixheaace_mps_212_memory_struct *)p_offset;
p_offset +=
IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_mps_212_memory_struct), BYTE_ALIGN_8);
} else {
pstr_api_struct->pstr_state->mps_bs = NULL;
}
if (1 == pstr_usac_config->use_drc_element) {
pstr_state->pp_drc_in_buf = (FLOAT32 **)((WORD8 *)p_offset);
offset_size = pstr_usac_config->channels * sizeof(pstr_state->pp_drc_in_buf[0]);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
p_temp = p_offset;
for (i = 0; i < pstr_usac_config->channels; i++) {
pstr_state->pp_drc_in_buf[i] = (FLOAT32 *)(p_offset);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(
(pstr_usac_config->drc_frame_size * sizeof(pstr_state->pp_drc_in_buf[0][0]) * 2),
BYTE_ALIGN_8);
}
memset(p_temp, 0, (p_offset - p_temp));
}
p_temp = p_offset;
for (i = 0; i < pstr_usac_config->channels; i++) {
pstr_state->ptr_in_buf[i] = (FLOAT32 *)(p_offset);
p_offset += IXHEAACE_GET_SIZE_ALIGNED((pstr_usac_config->ccfl * sizeof(FLOAT32) * 2),
BYTE_ALIGN_8);
}
memset(p_temp, 0, (p_offset - p_temp));
p_temp = p_offset;
offset_size = 0;
for (i = 0; i < pstr_usac_config->channels; i++) {
pstr_usac_enc_data->ptr_time_data[i] = (FLOAT64 *)(p_offset);
p_offset += IXHEAACE_GET_SIZE_ALIGNED((2 * (pstr_usac_config->ccfl) * sizeof(FLOAT64)),
BYTE_ALIGN_8);
}
for (i = 0; i < pstr_usac_config->channels; i++) {
pstr_usac_enc_data->ptr_look_ahead_time_data[i] = (FLOAT64 *)(p_offset);
p_offset +=
IXHEAACE_GET_SIZE_ALIGNED((pstr_usac_config->ccfl * sizeof(FLOAT64)), BYTE_ALIGN_8);
}
for (i = 0; i < pstr_usac_config->channels; i++) {
pstr_usac_enc_data->spectral_line_vector[i] = (FLOAT64 *)(p_offset);
p_offset += IXHEAACE_GET_SIZE_ALIGNED((2 * pstr_usac_config->ccfl * sizeof(FLOAT64)),
BYTE_ALIGN_8);
}
for (i = 0; i < pstr_usac_config->channels; i++) {
pstr_usac_enc_data->ptr_2frame_time_data[i] = (FLOAT64 *)(p_offset);
p_offset += IXHEAACE_GET_SIZE_ALIGNED((3 * pstr_usac_config->ccfl * sizeof(FLOAT64)),
BYTE_ALIGN_8);
}
memset(p_temp, 0, p_offset - p_temp);
if (pstr_usac_config->tns_select != 0) {
p_temp = p_offset;
for (i = 0; i < pstr_usac_config->channels; i++) {
pstr_usac_enc_data->pstr_tns_info[i] = (ia_tns_info *)(p_offset);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(sizeof(ia_tns_info), BYTE_ALIGN_8);
}
memset(p_temp, 0, p_offset - p_temp);
}
p_temp = p_offset;
for (i = 0; i < pstr_usac_config->channels; i++) {
pstr_usac_enc_data->td_encoder[i] = (ia_usac_td_encoder_struct *)(p_offset);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(sizeof(ia_usac_td_encoder_struct), BYTE_ALIGN_8);
}
memset(p_temp, 0, p_offset - p_temp);
} else {
WORD32 num_aac_chan;
ixheaace_state_struct *pstr_state = pstr_api_struct->pstr_state;
memset(pstr_api_struct->pstr_state, 0, sizeof(*(pstr_api_struct->pstr_state)));
pstr_api_struct->pstr_state->inp_delay = (FLOAT32 *)((WORD8 *)pstr_state + offset_size);
offset_size = ia_enhaacplus_enc_sizeof_delay_buffer(
pstr_api_struct->config[0].aac_config.flag_framelength_small,
pstr_api_struct->config[0].aot, 3,
sizeof(pstr_api_struct->pstr_state->inp_delay[0]),
pstr_api_struct->config[0].use_mps) *
pstr_api_struct->config[0].num_bs_elements;
p_offset = (WORD8 *)pstr_api_struct->pstr_state->inp_delay +
IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
if (pstr_api_struct->config[0].use_mps) {
pstr_api_struct->pstr_state->time_signal_mps = (FLOAT32 *)(p_offset);
memset(pstr_api_struct->pstr_state->time_signal_mps, 0,
(MAX_INPUT_SAMPLES + (INPUT_DELAY_ELDV2_512 * IXHEAACE_MAX_CH_IN_BS_ELE)) *
sizeof(pstr_api_struct->pstr_state->time_signal_mps[0]));
offset_size =
(MAX_INPUT_SAMPLES + (INPUT_DELAY_ELDV2_512 * IXHEAACE_MAX_CH_IN_BS_ELE)) *
sizeof(pstr_api_struct->pstr_state->time_signal_mps[0]);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
pstr_api_struct->pstr_state->mps_bs = (UWORD8 *)(p_offset);
memset(pstr_api_struct->pstr_state->mps_bs, 0,
(MAX_MPS_BS_PAYLOAD_SIZE) * sizeof(pstr_api_struct->pstr_state->mps_bs[0]));
offset_size =
(MAX_MPS_BS_PAYLOAD_SIZE) * sizeof(pstr_api_struct->pstr_state->mps_bs[0]);
p_offset += IXHEAACE_GET_SIZE_ALIGNED(offset_size, BYTE_ALIGN_8);
if (pstr_api_struct->config[0].mps_tree_config == TREE_212) {
pstr_api_struct->pstr_state->mps_pers_mem =
(ixheaace_mps_212_memory_struct *)p_offset;
p_offset +=
IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_mps_212_memory_struct), BYTE_ALIGN_8);
} else {
pstr_api_struct->pstr_state->mps_515_pers_mem =
(ixheaace_mps_515_memory_struct *)p_offset;
p_offset +=
IXHEAACE_GET_SIZE_ALIGNED(sizeof(ixheaace_mps_515_memory_struct), BYTE_ALIGN_8);
}
} else {
pstr_api_struct->pstr_state->mps_bs = NULL;
}
for (WORD32 ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements;
ele_idx++) {
num_aac_chan = pstr_api_struct->config[ele_idx].aac_classic
? pstr_api_struct->config[ele_idx].chmode_nchannels
: (pstr_api_struct->config[ele_idx].use_parametric_stereo
? 1
: pstr_api_struct->config[ele_idx].chmode_nchannels);
/* Set aac enc persistent memory pointer in api obj */
pstr_api_struct->pstr_state->aac_enc_pers_mem[ele_idx] =
(iexheaac_encoder_str *)p_offset;
p_offset = p_offset + ia_enhaacplus_enc_aac_enc_pers_size(
num_aac_chan, pstr_api_struct->config[ele_idx].aot);
if (pstr_api_struct->config[ele_idx].aot != AOT_AAC_LC &&
pstr_api_struct->config[ele_idx].aot != AOT_AAC_LD) {
if (pstr_api_struct->config[ele_idx].element_type != ID_LFE) {
/* Set spectral_band_replication_ enc persistent memory pointer in api obj */
pstr_api_struct->pstr_state->spectral_band_replication_enc_pers_mem[ele_idx] =
(struct ixheaace_str_sbr_enc *)p_offset;
p_offset =
p_offset +
ixheaace_sbr_enc_pers_size(
num_aac_chan, pstr_api_struct->config[ele_idx].use_parametric_stereo, 0);
}
}
}
}
}
if ((i_idx == IA_MEMTYPE_SCRATCH) && pstr_api_struct->usac_en) {
pstr_api_struct->pstr_state->str_usac_enc_data.str_scratch.ptr_scratch_buf =
(UWORD8 *)pstr_api_struct->pp_mem[IA_MEMTYPE_SCRATCH];
memset(pstr_api_struct->pp_mem[IA_MEMTYPE_SCRATCH], 0,
pstr_api_struct->pstr_mem_info[i_idx].ui_size);
}
if (i_idx == IA_ENHAACPLUSENC_INPUT_IDX) {
ptr_out_cfg->ui_inp_buf_size = ptr_out_cfg->mem_info_table[i_idx].ui_size;
}
ptr_out_cfg->malloc_count++;
}
return err_code;
}
static IA_ERRORCODE ia_usac_enc_init(ixheaace_api_struct *pstr_api_struct, WORD32 ccfl_idx) {
IA_ERRORCODE error = IA_NO_ERROR;
WORD32 i = 0;
ixheaace_config_struct *pstr_config = &pstr_api_struct->config[0];
ixheaace_state_struct *pstr_enc_state = pstr_api_struct->pstr_state;
ia_usac_data_struct *pstr_enc_data = &pstr_enc_state->str_usac_enc_data;
ia_usac_encoder_config_struct *pstr_usac_config = &pstr_config->usac_config;
pstr_usac_config->bit_rate = pstr_api_struct->config[0].aac_config.bit_rate;
if ((pstr_usac_config->codec_mode == USAC_SWITCHED) ||
(pstr_usac_config->codec_mode == USAC_ONLY_FD)) {
pstr_usac_config->aac_allow_scalefacs = 1;
if (pstr_usac_config->aac_scale_facs == 0) pstr_usac_config->aac_allow_scalefacs = 0;
}
if (pstr_usac_config->codec_mode == USAC_ONLY_TD) {
for (i = 0; i < pstr_config->i_channels; i++) {
pstr_enc_data->core_mode_prev[i] = CORE_MODE_FD;
pstr_enc_data->core_mode[i] = CORE_MODE_TD;
}
} else {
for (i = 0; i < pstr_config->i_channels; i++) {
pstr_enc_data->core_mode_prev[i] = CORE_MODE_FD;
pstr_enc_data->core_mode[i] = CORE_MODE_FD;
}
}
if (1 == pstr_usac_config->use_drc_element) {
pstr_enc_data->str_scratch.drc_scratch = pstr_enc_data->str_scratch.ptr_scratch_buf;
}
if (pstr_usac_config->sbr_enable) {
WORD8 *sbr_scr_ptr = (WORD8 *)pstr_enc_data->str_scratch.ptr_scratch_buf;
ixheaace_audio_specific_config_struct *pstr_asc = &pstr_enc_state->audio_specific_config;
ixheaace_str_sbr_cfg spectral_band_replication_config;
// SBR defaults
iaace_config *pstr_sbr_config = &(pstr_api_struct->config[0].aac_config);
WORD32 sbr_ratio = 0;
WORD32 samples = pstr_usac_config->ccfl;
// Set scratch buffers for SBR and resampler
pstr_api_struct->pstr_state->temp_buff_sbr =
(WORD8 *)pstr_enc_data->str_scratch.ptr_scratch_buf;
pstr_api_struct->pstr_state->ptr_temp_buff_resamp =
(WORD8 *)pstr_enc_data->str_scratch.ptr_scratch_buf + ixheaace_sbr_enc_scr_size();
ixheaace_initialize_sbr_defaults(&spectral_band_replication_config);
// Set SBR codec as USAC
spectral_band_replication_config.sbr_codec = USAC_SBR;
spectral_band_replication_config.sbr_pvc_active = pstr_usac_config->sbr_pvc_active;
spectral_band_replication_config.sbr_harmonic = pstr_usac_config->sbr_harmonic;
spectral_band_replication_config.hq_esbr = pstr_usac_config->hq_esbr;
pstr_usac_config->core_sample_rate = pstr_usac_config->sample_rate / 2;
switch (pstr_usac_config->ccfl_idx) {
case SBR_4_1:
spectral_band_replication_config.sbr_ratio_idx = USAC_SBR_RATIO_INDEX_4_1;
spectral_band_replication_config.sbr_pvc_rate = USAC_SBR_DOWNSAMPLE_RATIO_4_1;
pstr_usac_config->core_sample_rate = pstr_usac_config->sample_rate / 4;
sbr_ratio = 4;
samples *= 4;
break;
case SBR_8_3:
spectral_band_replication_config.sbr_ratio_idx = USAC_SBR_RATIO_INDEX_8_3;
spectral_band_replication_config.sbr_pvc_rate = USAC_SBR_DOWNSAMPLE_RATIO_2_1;
sbr_ratio = 2;
samples *= 8;
samples /= 3;
break;
case SBR_2_1:
spectral_band_replication_config.sbr_ratio_idx = USAC_SBR_RATIO_INDEX_2_1;
spectral_band_replication_config.sbr_pvc_rate = USAC_SBR_DOWNSAMPLE_RATIO_2_1;
sbr_ratio = 2;
samples *= 2;
break;
default:
spectral_band_replication_config.sbr_ratio_idx = USAC_SBR_RATIO_NO_SBR;
spectral_band_replication_config.sbr_pvc_rate = 2;
sbr_ratio = 2;
break;
}
if (pstr_api_struct->pstr_state->mps_enable) {
ixheaace_mps_212_memory_struct *pstr_mps_memory;
pstr_mps_memory = pstr_api_struct->pstr_state->mps_pers_mem;
ixheaace_mps_212_open(&pstr_api_struct->pstr_mps_212_enc, pstr_mps_memory);
pstr_asc->str_aac_config.num_sac_cfg_bits = 0;
error = ixheaace_mps_212_initialise(
pstr_api_struct->pstr_mps_212_enc, AOT_USAC, pstr_usac_config->sample_rate,
&pstr_sbr_config->bit_rate, sbr_ratio, (WORD32)samples, samples, 515 * sbr_ratio,
(WORD8 *)pstr_api_struct->pstr_state->ptr_temp_buff_resamp);
if (error) {
return error;
}
pstr_asc->str_aac_config.num_sac_cfg_bits = ixheaace_mps_212_get_spatial_specific_config(
pstr_api_struct->pstr_mps_212_enc, (WORD8 *)pstr_asc->str_aac_config.sac_cfg_data,
sizeof(pstr_asc->str_aac_config.sac_cfg_data), AOT_USAC);
}
ixheaace_adjust_sbr_settings(
&spectral_band_replication_config, pstr_sbr_config->bit_rate,
(pstr_api_struct->pstr_state->mps_enable != 1) ? pstr_config->i_channels : 1,
pstr_usac_config->core_sample_rate, AACENC_TRANS_FAC, 24000,
pstr_api_struct->spectral_band_replication_tabs.ptr_qmf_tab,
pstr_api_struct->pstr_state->aot);
error = ixheaace_env_open(
&pstr_api_struct->pstr_state->spectral_band_replication_enc_pers_mem[0],
&spectral_band_replication_config, &pstr_sbr_config->band_width, sbr_scr_ptr,
&(pstr_api_struct->spectral_band_replication_tabs), &pstr_asc->str_aac_config.sbr_config);
if (error) {
return error;
}
if (pstr_api_struct->config[0].ccfl_idx >= 2) {
pstr_api_struct->pstr_state->downsample[0] = 1;
} else {
pstr_api_struct->pstr_state->downsample[0] = 0;
}
if (pstr_api_struct->pstr_state->downsample[0]) {
IA_ERRORCODE resamp_error = IA_NO_ERROR;
WORD32 resamp_ratio = 0, upsamp_fac = 0, downsamp_fac = 0;
WORD32 ele_idx = 0, ch_idx = 0;
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
upsamp_fac = 3;
downsamp_fac = 8;
pstr_usac_config->sample_rate /= 2;
} else if (pstr_api_struct->config[0].ccfl_idx == SBR_2_1) {
resamp_ratio = 2;
pstr_usac_config->sample_rate /= 2;
} else if (pstr_api_struct->config[0].ccfl_idx == SBR_4_1) {
resamp_ratio = 4;
pstr_usac_config->sample_rate /= 4;
}
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
if (upsamp_fac != 3 || downsamp_fac != 8) {
return IA_EXHEAACE_CONFIG_FATAL_USAC_RESAMPLER_RATIO;
}
} else {
if (resamp_ratio != 2 && resamp_ratio != 4) {
return IA_EXHEAACE_CONFIG_FATAL_USAC_RESAMPLER_RATIO;
}
}
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) { // Upsampler initialization
resamp_error = ia_enhaacplus_enc_init_iir_sos_resampler(
&(pstr_api_struct->pstr_state->up_sampler[ele_idx][ch_idx]), upsamp_fac,
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_upsamp_tab);
if (resamp_error) {
return resamp_error;
}
if (pstr_api_struct->config[0].i_channels > 1) {
resamp_error = ia_enhaacplus_enc_init_iir_sos_resampler(
&(pstr_api_struct->pstr_state->up_sampler[ele_idx][ch_idx + 1]), upsamp_fac,
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_upsamp_tab);
if (resamp_error) {
return resamp_error;
}
}
if (pstr_usac_config->sbr_harmonic) {
resamp_error = ia_enhaacplus_enc_init_iir_sos_resampler(
&(pstr_api_struct->pstr_state->hbe_up_sampler[ele_idx][ch_idx]), upsamp_fac,
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_upsamp_tab);
if (resamp_error) {
return resamp_error;
}
if (pstr_api_struct->config[0].i_channels > 1) {
resamp_error = ia_enhaacplus_enc_init_iir_sos_resampler(
&(pstr_api_struct->pstr_state->hbe_up_sampler[ele_idx][ch_idx + 1]), upsamp_fac,
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_upsamp_tab);
if (resamp_error) {
return resamp_error;
}
}
}
// Downsampler initialization
resamp_error = ia_enhaacplus_enc_init_iir_sos_resampler(
&(pstr_api_struct->pstr_state->down_samp_sos[ele_idx][ch_idx]), downsamp_fac,
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_downsamp_tab);
if (resamp_error) {
return resamp_error;
}
if (pstr_api_struct->config[0].i_channels > 1) {
resamp_error = ia_enhaacplus_enc_init_iir_sos_resampler(
&(pstr_api_struct->pstr_state->down_samp_sos[ele_idx][ch_idx + 1]), downsamp_fac,
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_downsamp_tab);
if (resamp_error) {
return resamp_error;
}
}
if (pstr_usac_config->sbr_harmonic) {
resamp_error = ia_enhaacplus_enc_init_iir_sos_resampler(
&(pstr_api_struct->pstr_state->hbe_down_samp_sos[ele_idx][ch_idx]), downsamp_fac,
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_downsamp_tab);
if (resamp_error) {
return resamp_error;
}
if (pstr_api_struct->config[0].i_channels > 1) {
resamp_error = ia_enhaacplus_enc_init_iir_sos_resampler(
&(pstr_api_struct->pstr_state->hbe_down_samp_sos[ele_idx][ch_idx + 1]),
downsamp_fac,
pstr_api_struct->spectral_band_replication_tabs.ptr_sos_downsamp_tab);
if (resamp_error) {
return resamp_error;
}
}
}
} else if (pstr_api_struct->config[0].ccfl_idx == SBR_2_1 ||
pstr_api_struct->config[0].ccfl_idx == SBR_4_1) {
resamp_error = ia_enhaacplus_enc_init_iir_resampler(
&(pstr_api_struct->pstr_state->down_sampler[ele_idx][ch_idx]), resamp_ratio,
pstr_api_struct->spectral_band_replication_tabs.ptr_resamp_tab);
if (resamp_error) {
return resamp_error;
}
if (pstr_api_struct->config[0].i_channels > 1) {
resamp_error = ia_enhaacplus_enc_init_iir_resampler(
&(pstr_api_struct->pstr_state->down_sampler[ele_idx][ch_idx + 1]), resamp_ratio,
pstr_api_struct->spectral_band_replication_tabs.ptr_resamp_tab);
if (resamp_error) {
return resamp_error;
}
}
if (pstr_usac_config->sbr_harmonic) {
resamp_error = ia_enhaacplus_enc_init_iir_resampler(
&(pstr_api_struct->pstr_state->hbe_down_sampler[ele_idx][ch_idx]), resamp_ratio,
pstr_api_struct->spectral_band_replication_tabs.ptr_resamp_tab);
if (resamp_error) {
return resamp_error;
}
if (pstr_api_struct->config[0].i_channels > 1) {
resamp_error = ia_enhaacplus_enc_init_iir_resampler(
&(pstr_api_struct->pstr_state->hbe_down_sampler[ele_idx][ch_idx + 1]),
resamp_ratio, pstr_api_struct->spectral_band_replication_tabs.ptr_resamp_tab);
if (resamp_error) {
return resamp_error;
}
}
}
}
}
}
error = iusace_enc_init(pstr_usac_config, &pstr_api_struct->pstr_state->audio_specific_config,
&pstr_api_struct->pstr_state->str_usac_enc_data);
if (error & IA_FATAL_ERROR) {
return error;
}
ia_bit_buf_struct *pstr_ia_asc_bit_buf;
pstr_ia_asc_bit_buf = iusace_create_bit_buffer(
&(pstr_api_struct->pstr_state->str_bit_buf), pstr_api_struct->pp_mem[IA_MEMTYPE_OUTPUT],
pstr_api_struct->pstr_mem_info[IA_MEMTYPE_OUTPUT].ui_size, 1);
if (pstr_usac_config->sbr_enable) {
pstr_api_struct->pstr_state->audio_specific_config.str_usac_config.str_usac_element_config
->stereo_config_index = (pstr_api_struct->pstr_state->mps_enable == 1) ? 2 : 0;
pstr_api_struct->pstr_state->audio_specific_config.str_usac_config.str_usac_element_config
->str_usac_sbr_config.bs_inter_tes = pstr_usac_config->sbr_inter_tes_active;
pstr_api_struct->pstr_state->audio_specific_config.str_usac_config.str_usac_element_config
->str_usac_sbr_config.bs_pvc = pstr_usac_config->sbr_pvc_active;
pstr_api_struct->pstr_state->audio_specific_config.str_usac_config.str_usac_element_config
->str_usac_sbr_config.dflt_header_extra1 = 0;
pstr_api_struct->pstr_state->audio_specific_config.str_usac_config.str_usac_element_config
->str_usac_sbr_config.dflt_header_extra2 = 0;
pstr_api_struct->pstr_state->audio_specific_config.str_usac_config.str_usac_element_config
->str_usac_sbr_config.dflt_start_freq = 0;
pstr_api_struct->pstr_state->audio_specific_config.str_usac_config.str_usac_element_config
->str_usac_sbr_config.dflt_stop_freq = 4;
pstr_api_struct->pstr_state->audio_specific_config.str_usac_config.str_usac_element_config
->str_usac_sbr_config.harmonic_sbr = pstr_usac_config->sbr_harmonic;
}
ixheaace_get_audiospecific_config_bytes(pstr_ia_asc_bit_buf,
&pstr_api_struct->pstr_state->audio_specific_config,
AOT_USAC, ccfl_idx);
pstr_api_struct->pstr_state->i_out_bytes = (pstr_ia_asc_bit_buf->cnt_bits + 7) >> 3;
return IA_NO_ERROR;
}
static IA_ERRORCODE ia_enhaacplus_enc_init(ixheaace_api_struct *pstr_api_struct, WORD32 ele_idx) {
IA_ERRORCODE error = IA_NO_ERROR;
WORD32 anc_flag = 0;
WORD32 anc_rate = -1;
WORD32 anc_mode = 0;
WORD32 core_ch;
WORD32 asc_channels;
WORD8 *ptr_resampler_scratch;
iaace_scratch *pstr_aac_scratch;
WORD8 *ptr_spectral_band_replication_scratch;
UWORD32 core_sample_rate;
ixheaace_state_struct *pstr_enc_state = pstr_api_struct->pstr_state;
ixheaace_audio_specific_config_struct *pstr_asc = &pstr_enc_state->audio_specific_config;
iaace_config *pstr_aac_config = &(pstr_api_struct->config[ele_idx].aac_config);
ixheaace_config_ancillary *pstr_ancillary = &(pstr_api_struct->config[ele_idx].pstr_ancillary);
pstr_aac_scratch = (iaace_scratch *)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_SCRATCH_IDX];
ptr_spectral_band_replication_scratch =
((pWORD8)pstr_aac_scratch) + ia_enhaacplus_enc_aac_enc_scr_size();
ptr_resampler_scratch = ((pWORD8)pstr_aac_scratch) + ia_enhaacplus_enc_aac_enc_scr_size() +
ixheaace_sbr_enc_scr_size();
/* fill pstr_ancillary data */
pstr_ancillary->anc_flag = anc_flag;
pstr_ancillary->anc_mode = anc_mode;
pstr_ancillary->anc_rate = anc_rate;
pstr_api_struct->pstr_state->temp_buff_aac =
(void *)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_SCRATCH_IDX];
pstr_api_struct->pstr_state->temp_buff_sbr =
(void *)((WORD8 *)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_SCRATCH_IDX] +
ia_enhaacplus_enc_aac_enc_scr_size());
if (pstr_api_struct->config[ele_idx].use_mps &&
pstr_api_struct->config[ele_idx].mps_tree_config != TREE_212) {
pstr_api_struct->pstr_state->mps_scratch =
(FLOAT32 *)((WORD8 *)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_SCRATCH_IDX] +
ia_enhaacplus_enc_aac_enc_scr_size());
pstr_api_struct->pstr_state->ptr_temp_buff_resamp =
(void *)((WORD8 *)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_SCRATCH_IDX] +
ia_enhaacplus_enc_aac_enc_scr_size() + ixheaace_sbr_enc_scr_size());
} else {
pstr_api_struct->pstr_state->ptr_temp_buff_resamp =
(void *)((WORD8 *)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_SCRATCH_IDX] +
ia_enhaacplus_enc_aac_enc_scr_size() + ixheaace_sbr_enc_scr_size());
}
if (pstr_api_struct->config[ele_idx].chmode_nchannels == 2) {
/* When the chmode option is not used,
the number of channels depends on the input file */
pstr_api_struct->config[ele_idx].chmode_nchannels =
pstr_api_struct->config[ele_idx].i_channels;
}
switch (pstr_api_struct->pstr_state->aot) {
case AOT_AAC_LC:
case AOT_SBR:
case AOT_PS:
pstr_api_struct->pstr_state->buffer_offset = INPUT_DELAY_LC;
break;
case AOT_AAC_LD:
if (pstr_aac_config->flag_framelength_small == 1) {
pstr_api_struct->pstr_state->buffer_offset = INPUT_DELAY_LD_480;
} else {
pstr_api_struct->pstr_state->buffer_offset = INPUT_DELAY_LD_512;
}
break;
case AOT_AAC_ELD:
if (pstr_aac_config->flag_framelength_small == 1) {
pstr_api_struct->pstr_state->buffer_offset = INPUT_DELAY_ELD_480;
} else {
pstr_api_struct->pstr_state->buffer_offset = INPUT_DELAY_ELD_512;
}
break;
}
pstr_api_struct->pstr_state->downsample[ele_idx] = 0;
pstr_api_struct->config->frame_count = 0;
core_ch = pstr_api_struct->config[ele_idx].chmode_nchannels;
pstr_aac_config->sample_rate = pstr_api_struct->config[ele_idx].sample_rate;
pstr_aac_config->core_sample_rate = pstr_api_struct->config[ele_idx].sample_rate;
pstr_aac_config->native_sample_rate = pstr_api_struct->config[ele_idx].native_sample_rate;
pstr_aac_config->num_in_channels = pstr_api_struct->config[ele_idx].i_channels;
pstr_aac_config->num_out_channels = pstr_api_struct->config[ele_idx].chmode_nchannels;
if (pstr_api_struct->config[ele_idx].aac_classic == 0) {
pstr_aac_config->core_sample_rate = pstr_aac_config->core_sample_rate / 2;
}
if (pstr_api_struct->pstr_state->mps_enable) {
switch (pstr_api_struct->pstr_state->mps_tree_config) {
case TREE_212:
case TREE_5151:
case TREE_5152:
pstr_aac_config->num_out_channels = 1;
core_ch = 1;
break;
case TREE_525:
pstr_aac_config->num_out_channels = 2;
core_ch = 2;
break;
}
}
if (pstr_api_struct->config[ele_idx].use_parametric_stereo) {
pstr_api_struct->config[ele_idx].chmode_nchannels = 2;
pstr_aac_config->num_out_channels = 1;
core_ch = 1;
pstr_api_struct->config[ele_idx].element_type = ID_SCE;
}
if ((pstr_api_struct->config[ele_idx].i_channels == 2) &&
(pstr_api_struct->config[ele_idx].chmode == 0)) {
pstr_api_struct->config[ele_idx].chmode_nchannels = 1;
pstr_aac_config->num_out_channels = 1;
}
if ((pstr_api_struct->config[ele_idx].use_parametric_stereo) &&
(pstr_api_struct->config[ele_idx].aac_classic)) {
return (IA_EXHEAACE_CONFIG_FATAL_AAC_CLASSIC_WITH_PS);
}
if (!(pstr_api_struct->config[ele_idx].adts_flag) &&
(pstr_api_struct->config[0].aac_config.calc_crc)) {
// set here default for crc as 0
pstr_api_struct->config[0].aac_config.calc_crc = 0;
return (IA_EXHEAACE_CONFIG_NONFATAL_INVALID_CONFIG);
}
if ((pstr_api_struct->config[0].chmode == 3) &&
(pstr_api_struct->config[0].aac_config.calc_crc == 1)) {
// dual mono case so crc if enabled must be disabled
pstr_api_struct->config[0].aac_config.calc_crc = 0;
return (IA_EXHEAACE_CONFIG_NONFATAL_INVALID_CONFIG);
}
pstr_aac_config->bit_rate = ixheaac_min32(360000 * core_ch, pstr_aac_config->bit_rate);
pstr_aac_config->bit_rate = ixheaac_max32(8000 * core_ch, pstr_aac_config->bit_rate);
switch (pstr_api_struct->pstr_state->aot) {
case AOT_AAC_LC:
case AOT_SBR:
case AOT_PS:
pstr_aac_config->bit_rate = ia_enhaacplus_aac_limitbitrate(
pstr_aac_config->core_sample_rate,
(pstr_aac_config->flag_framelength_small ? FRAME_LEN_960 : FRAME_LEN_1024), core_ch,
pstr_aac_config->bit_rate);
break;
case AOT_AAC_LD:
case AOT_AAC_ELD:
pstr_aac_config->bit_rate = ia_enhaacplus_aac_limitbitrate(
pstr_aac_config->core_sample_rate,
(pstr_aac_config->flag_framelength_small ? FRAME_LEN_480 : FRAME_LEN_512), core_ch,
pstr_aac_config->bit_rate);
break;
}
if (pstr_api_struct->config[ele_idx].eldsbr_found == 1) {
WORD32 num_iter = 0;
WORD32 initial_bitrate, adjusted_bitrate;
adjusted_bitrate = pstr_aac_config->bit_rate;
/* Find total bitrate which provides valid configuration for each SBR element. */
do {
WORD32 e;
WORD32 q_format;
initial_bitrate = adjusted_bitrate;
for (e = 0; e < pstr_api_struct->config[ele_idx].num_bs_elements; e++) {
WORD32 sbr_element_bitate_in, sbr_bitrate_out;
sbr_element_bitate_in = pstr_aac_config->bit_rate;
sbr_bitrate_out = ixheaace_sbr_limit_bitrate(
sbr_element_bitate_in, core_ch, pstr_aac_config->core_sample_rate,
pstr_api_struct->spectral_band_replication_tabs.ptr_qmf_tab,
pstr_api_struct->pstr_state->aot);
if (sbr_bitrate_out == 0) {
pstr_aac_config->bit_rate = 0;
}
/* If bitrates don't match, distribution and limiting needs to be determined again.
Abort element loop and restart with adapted bitrate. */
if (sbr_element_bitate_in != sbr_bitrate_out) {
if (sbr_element_bitate_in < sbr_bitrate_out) {
adjusted_bitrate = ixheaac_max32(
initial_bitrate,
(WORD32)ixheaac_div32((WORD32)(sbr_bitrate_out + 8), MAX_32, &q_format));
adjusted_bitrate = adjusted_bitrate >> (q_format - 31);
break;
}
if (sbr_element_bitate_in > sbr_bitrate_out) {
adjusted_bitrate = ixheaac_min32(
initial_bitrate,
(WORD32)ixheaac_div32((WORD32)(sbr_bitrate_out - 8), MAX_32, &q_format));
break;
}
} /* sbr_element_bitate_in != sbr_bitrate_out */
} /* elements */
num_iter++; /* restrict iteration to worst case of num elements */
} while ((initial_bitrate != adjusted_bitrate) &&
(num_iter <= pstr_api_struct->config[ele_idx].num_bs_elements));
/* Unequal bitrates mean that no reasonable bitrate configuration found. */
pstr_aac_config->bit_rate = (initial_bitrate == adjusted_bitrate) ? adjusted_bitrate : 0;
}
pstr_asc->str_aac_config.frame_length_flag = pstr_aac_config->flag_framelength_small;
pstr_asc->sampling_frequency = pstr_api_struct->config[0].native_sample_rate;
asc_channels = pstr_api_struct->config[ele_idx].i_channels_mode;
pstr_asc->channel_configuration =
(pstr_api_struct->pstr_state->mps_enable ? core_ch : asc_channels);
pstr_asc->channel_configuration =
pstr_api_struct->config[ele_idx].use_parametric_stereo
? 1
: (pstr_api_struct->pstr_state->mps_enable
? core_ch
: pstr_api_struct->config[ele_idx].i_channels_mode);
if (!(pstr_api_struct->config[ele_idx].aac_classic) &&
ixheaace_is_sbr_setting_available(
pstr_aac_config->bit_rate,
(pstr_api_struct->pstr_state->mps_enable
? 1
: pstr_api_struct->config[ele_idx].chmode_nchannels),
pstr_aac_config->sample_rate, &core_sample_rate,
pstr_api_struct->spectral_band_replication_tabs.ptr_qmf_tab,
pstr_api_struct->pstr_state->aot)) {
ixheaace_str_sbr_cfg spectral_band_replication_config;
ixheaace_initialize_sbr_defaults(&spectral_band_replication_config);
spectral_band_replication_config.use_ps =
pstr_api_struct->config[ele_idx].use_parametric_stereo;
spectral_band_replication_config.crc_sbr = 0;
spectral_band_replication_config.parametric_coding = 1;
spectral_band_replication_config.is_esbr = pstr_api_struct->config[0].esbr_flag;
if (pstr_api_struct->pstr_state->aot == AOT_AAC_ELD) {
spectral_band_replication_config.is_ld_sbr = 1;
spectral_band_replication_config.sbr_codec = ELD_SBR;
spectral_band_replication_config.frame_flag_480 = pstr_aac_config->flag_framelength_small;
} else if (pstr_api_struct->pstr_state->aot == AOT_SBR ||
pstr_api_struct->pstr_state->aot == AOT_PS) {
spectral_band_replication_config.frame_flag_960 = pstr_aac_config->flag_framelength_small;
spectral_band_replication_config.sbr_codec = HEAAC_SBR;
}
if (pstr_api_struct->config[ele_idx].aac_classic == 0) {
pstr_api_struct->pstr_state->downsample[ele_idx] = 1;
}
if (pstr_api_struct->pstr_state->mps_enable) {
if (pstr_api_struct->pstr_state->mps_tree_config == TREE_212) {
WORD32 delay =
((pstr_aac_config->flag_framelength_small ? FRAME_LEN_480 / 2 : FRAME_LEN_512 / 2) *
2 +
4);
ixheaace_mps_212_memory_struct *pstr_mps_memory;
pstr_mps_memory = pstr_api_struct->pstr_state->mps_pers_mem;
ixheaace_mps_212_open(&pstr_api_struct->pstr_mps_212_enc, pstr_mps_memory);
pstr_asc->str_aac_config.num_sac_cfg_bits = 0;
error = ixheaace_mps_212_initialise(
pstr_api_struct->pstr_mps_212_enc, AOT_AAC_ELD, pstr_aac_config->sample_rate,
&pstr_aac_config->bit_rate,
pstr_api_struct->config[ele_idx].eldsbr_found ? 2 /*hAacConfig->sbrRatio*/ : 0,
(pstr_aac_config->flag_framelength_small ? FRAME_LEN_480 * 2 : FRAME_LEN_512 * 2),
/* for dual rate sbr this value is already multiplied by 2 */
(pstr_aac_config->flag_framelength_small
? FRAME_LEN_480 * 2
: FRAME_LEN_512 * 2) /* samples read per ch*/,
delay, (WORD8 *)pstr_api_struct->pstr_state->ptr_temp_buff_resamp);
if (error) {
return error;
}
pstr_asc->str_aac_config.num_sac_cfg_bits = ixheaace_mps_212_get_spatial_specific_config(
pstr_api_struct->pstr_mps_212_enc, (WORD8 *)pstr_asc->str_aac_config.sac_cfg_data,
sizeof(pstr_asc->str_aac_config.sac_cfg_data), AOT_AAC_ELD);
pstr_asc->str_aac_config.eld_ext_type[0] = IAAC_ELDEXT_LDSAC;
pstr_asc->str_aac_config.eld_ext_len[0] =
(pstr_asc->str_aac_config.num_sac_cfg_bits + 7) >> 3;
} else {
WORD32 tree_config;
WORD32 bits_written;
ixheaace_bit_buf bit_buf;
ixheaace_bit_buf_handle ptr_bit_buf;
ixheaace_mps_515_memory_struct *pstr_mps_memory;
if (pstr_api_struct->pstr_state->mps_tree_config == TREE_525) {
tree_config = 525;
} else if (pstr_api_struct->pstr_state->mps_tree_config == TREE_5152) {
tree_config = 5152;
} else {
tree_config = 5151;
}
pstr_mps_memory = pstr_api_struct->pstr_state->mps_515_pers_mem;
ptr_bit_buf = ia_enhaacplus_enc_create_bitbuffer(
&bit_buf, (UWORD8 *)pstr_asc->str_aac_config.sac_cfg_data,
sizeof(pstr_asc->str_aac_config.sac_cfg_data));
error = ixheaace_mps_515_open(
&pstr_api_struct->pstr_mps_515_enc, pstr_aac_config->sample_rate, tree_config,
ptr_bit_buf, &bits_written, pstr_mps_memory, pstr_aac_config->flag_framelength_small);
pstr_asc->str_aac_config.num_sac_cfg_bits = bits_written;
pstr_asc->str_aac_config.eld_ext_type[0] = IAAC_ELDEXT_LDSAC;
pstr_asc->str_aac_config.eld_ext_len[0] = (bits_written + 7) >> 3;
if (error) {
return error;
}
}
}
ixheaace_adjust_sbr_settings(&spectral_band_replication_config, pstr_aac_config->bit_rate,
pstr_aac_config->num_out_channels, core_sample_rate,
AACENC_TRANS_FAC, 24000,
pstr_api_struct->spectral_band_replication_tabs.ptr_qmf_tab,
pstr_api_struct->pstr_state->aot);
if (pstr_api_struct->config[ele_idx].element_type != ID_LFE) {
/* open SBR PART, set core bandwidth */
error = ixheaace_env_open(
&pstr_api_struct->pstr_state->spectral_band_replication_enc_pers_mem[ele_idx],
&spectral_band_replication_config, &pstr_aac_config->band_width,
ptr_spectral_band_replication_scratch,
&(pstr_api_struct->spectral_band_replication_tabs),
&pstr_asc->str_aac_config.sbr_config);
pstr_asc->str_aac_config.ld_sbr_present_flag =
pstr_api_struct->config[ele_idx].eldsbr_found;
if (error) {
return error;
}
pstr_asc->str_aac_config.ld_sbr_sample_rate =
(spectral_band_replication_config.codec_settings.sample_freq !=
pstr_aac_config->sample_rate)
? 1
: 0;
pstr_asc->str_aac_config.ld_sbr_crc_flag = spectral_band_replication_config.crc_sbr;
}
if (!pstr_api_struct->config[ele_idx].use_parametric_stereo) {
IA_ERRORCODE resamp_error = IA_NO_ERROR;
WORD32 ch_idx = 0;
resamp_error = ia_enhaacplus_enc_init_iir_resampler(
&(pstr_api_struct->pstr_state->down_sampler[ele_idx][ch_idx]), 2,
pstr_api_struct->spectral_band_replication_tabs.ptr_resamp_tab);
if (resamp_error) {
return resamp_error;
}
if (pstr_api_struct->config[ele_idx].i_channels > 1) {
resamp_error = ia_enhaacplus_enc_init_iir_resampler(
&(pstr_api_struct->pstr_state->down_sampler[ele_idx][ch_idx + 1]), 2,
pstr_api_struct->spectral_band_replication_tabs.ptr_resamp_tab);
if (resamp_error) {
return resamp_error;
}
}
}
} else {
if (!(pstr_api_struct->config[ele_idx].aac_classic &&
!(pstr_api_struct->config[ele_idx].eldsbr_found))) {
if (pstr_api_struct->config[ele_idx].aac_classic == 0) {
error = IA_EXHEAACE_INIT_FATAL_AACPLUS_NOT_AVAIL;
} else {
error = IA_EXHEAACE_INIT_FATAL_BITRATE_NOT_SUPPORTED;
}
return error;
}
pstr_api_struct->pstr_state->buffer_offset = 0;
pstr_api_struct->config[ele_idx].aac_classic = 1;
}
{
WORD32 *shared_buf1, *shared_buf2;
WORD32 *shared_buf3;
WORD8 *shared_buf4;
switch (pstr_api_struct->pstr_state->aot) {
case AOT_AAC_LC:
case AOT_SBR:
case AOT_PS:
ia_enhaacplus_enc_get_shared_bufs(
ptr_spectral_band_replication_scratch, &shared_buf1, &shared_buf2, &shared_buf3,
&shared_buf4,
(pstr_aac_config->flag_framelength_small == 1) ? FRAME_LEN_960 : FRAME_LEN_1024);
break;
case AOT_AAC_LD:
case AOT_AAC_ELD:
ia_enhaacplus_enc_get_shared_bufs(
ptr_spectral_band_replication_scratch, &shared_buf1, &shared_buf2, &shared_buf3,
&shared_buf4,
(pstr_aac_config->flag_framelength_small == 1) ? FRAME_LEN_480 : FRAME_LEN_512);
break;
}
ia_enhaacplus_enc_set_shared_bufs(pstr_aac_scratch, &shared_buf1, &shared_buf2, &shared_buf3,
&ptr_resampler_scratch);
error = ia_enhaacplus_enc_aac_enc_open(
&(pstr_api_struct->pstr_state->aac_enc_pers_mem[ele_idx]),
*pstr_aac_config /*, *pstr_ancillary*/, pstr_aac_scratch,
&(pstr_api_struct->pstr_aac_tabs), pstr_api_struct->config[ele_idx].element_type,
pstr_api_struct->config[ele_idx].element_instance_tag, pstr_api_struct->pstr_state->aot);
if (error != IA_NO_ERROR) {
return error;
}
if (error) {
if (pstr_api_struct->pstr_mps_212_enc && pstr_api_struct->pstr_state->mps_enable) {
ixheaace_mps_212_close(&(pstr_api_struct->pstr_mps_212_enc));
}
if (pstr_api_struct->pstr_mps_515_enc && pstr_api_struct->pstr_state->mps_enable) {
ixheaace_mps_515_close(pstr_api_struct->pstr_mps_212_enc);
}
return (IA_EXHEAACE_INIT_FATAL_AAC_INIT_FAILED);
}
}
return error;
}
static IA_ERRORCODE ia_enhaacplus_enc_execute(ixheaace_api_struct *pstr_api_struct,
WORD32 ele_idx) {
IA_ERRORCODE error = IA_NO_ERROR;
WORD32 downsample;
WORD32 aot;
WORD32 idx;
WORD32 header_bytes = 0;
WORD32 num_samples_read;
WORD32 env_read_offset = 0;
WORD32 write_off_set = 0;
WORD32 aacenc_blocksize;
WORD32 ch, out_samples;
WORD32 total_channels = 0, ele, slot;
WORD32 time_in_stride;
WORD32 num_bs_elements;
FLAG flag_last_element;
WORD32 i_num_coup_channels;
WORD32 i_channels_mask;
ixheaace_pstr_sbr_enc pstr_sbr_encoder = NULL;
iexheaac_encoder_str **pstr_aac_enc;
iaace_config *pstr_aac_config;
pWORD16 pw_inp_buf = NULL;
pUWORD8 pub_out_buf = NULL;
FLOAT32 *ptr_input_buffer = NULL;
FLOAT32 *ptr_input_buffer_mps = NULL;
FLOAT32 *shared_buf1_ring, *shared_buf2_ring;
WORD32 out_stride = IXHEAACE_MAX_CH_IN_BS_ELE;
WORD32 *pstr_aac_scratch = (pWORD32)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_SCRATCH_IDX];
WORD8 *ptr_spectral_band_replication_scratch =
((pWORD8)pstr_aac_scratch) + ia_enhaacplus_enc_aac_enc_scr_size();
WORD32 *total_fill_bits = &(pstr_api_struct->pstr_state->total_fill_bits);
WORD32 *write_program_config_element =
&(pstr_api_struct->config[0].write_program_config_element);
aot = pstr_api_struct->pstr_state->aot;
num_bs_elements = pstr_api_struct->config[0].num_bs_elements;
flag_last_element = (ele_idx == (num_bs_elements - 1));
i_num_coup_channels = pstr_api_struct->config[0].i_num_coupling_chan;
i_channels_mask = pstr_api_struct->config[0].i_channels_mask;
aacenc_blocksize = pstr_api_struct->config[0].frame_length;
downsample = pstr_api_struct->pstr_state->downsample[ele_idx];
num_samples_read =
aacenc_blocksize * pstr_api_struct->config[ele_idx].i_native_channels * (1 << downsample);
for (ele = 0; ele < num_bs_elements; ele++) {
total_channels += pstr_api_struct->config[ele].i_native_channels;
}
pstr_aac_config = &(pstr_api_struct->config[ele_idx].aac_config);
if ((pstr_api_struct->config[ele_idx].aac_classic == 0) &&
pstr_api_struct->config[ele_idx].use_parametric_stereo) {
time_in_stride = 1;
} else if ((pstr_api_struct->config[ele_idx].aac_classic == 1) &&
(pstr_api_struct->config[ele_idx].num_bs_elements == 1)) {
time_in_stride = pstr_aac_config->num_out_channels;
} else {
time_in_stride = IXHEAACE_MAX_CH_IN_BS_ELE;
}
pstr_aac_enc = pstr_api_struct->pstr_state->aac_enc_pers_mem;
pw_inp_buf = (pWORD16)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_INPUT_IDX];
if (ele_idx == 0) {
pstr_api_struct->pstr_state->i_out_bytes = 0;
pub_out_buf = ((pUWORD8)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_OUTPUT_IDX]);
*total_fill_bits = 0;
}
if (pstr_api_struct->config->adts_flag) {
pub_out_buf = (pUWORD8)(pub_out_buf + 7);
}
for (ch = 0; ch < IXHEAACE_MAX_CH_IN_BS_ELE; ch++)
pstr_api_struct->pstr_state->num_anc_data_bytes[ele_idx][ch] = 0;
if (aot == AOT_SBR || aot == AOT_PS) {
write_off_set = INPUT_DELAY_LC * IXHEAACE_MAX_CH_IN_BS_ELE;
} else if (aot == AOT_AAC_ELD && pstr_api_struct->pstr_state->mps_enable != 1) {
if (pstr_api_struct->config[0].aac_config.flag_framelength_small)
write_off_set = INPUT_DELAY_ELD_480 * IXHEAACE_MAX_CH_IN_BS_ELE;
else
write_off_set = INPUT_DELAY_ELD_512 * IXHEAACE_MAX_CH_IN_BS_ELE;
} else if (aot == AOT_AAC_ELD && pstr_api_struct->pstr_state->mps_enable == 1 &&
pstr_api_struct->pstr_state->mps_tree_config == TREE_212) {
if (pstr_api_struct->config[0].aac_config.flag_framelength_small)
write_off_set = INPUT_DELAY_ELDV2_480 * IXHEAACE_MAX_CH_IN_BS_ELE;
else
write_off_set = INPUT_DELAY_ELDV2_512 * IXHEAACE_MAX_CH_IN_BS_ELE;
} else if (aot == AOT_AAC_ELD && pstr_api_struct->pstr_state->mps_enable == 1 &&
pstr_api_struct->pstr_state->mps_tree_config != TREE_212) {
write_off_set = INPUT_DELAY_ELD_512_MPS * IXHEAACE_MAX_CH_IN_BS_ELE;
}
if (pstr_api_struct->config[ele_idx].aac_classic == 1) {
write_off_set = 0;
}
if (aot == AOT_AAC_ELD && pstr_api_struct->pstr_state->mps_enable == 1) {
if (pstr_api_struct->pstr_state->mps_tree_config == TREE_212) {
env_read_offset = INPUT_DELAY_ELD_512_MPS;
} else {
env_read_offset = write_off_set;
}
}
if (pstr_api_struct->pstr_state->downsample[ele_idx]) {
if (!pstr_api_struct->config[ele_idx].use_parametric_stereo) {
if (aot == AOT_AAC_ELD && pstr_api_struct->pstr_state->mps_enable != 1) {
write_off_set +=
4 * IXHEAACE_MAX_CH_IN_BS_ELE; // Downsampler delay = 4 samples per channel @input SR
} else {
write_off_set += (pstr_api_struct->pstr_state->down_sampler[ele_idx][0].delay) *
IXHEAACE_MAX_CH_IN_BS_ELE;
}
}
if (pstr_api_struct->config[ele_idx].use_parametric_stereo) {
env_read_offset = (MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY) * IXHEAACE_MAX_CH_IN_BS_ELE;
write_off_set = env_read_offset;
}
}
if (aot == AOT_AAC_LC || aot == AOT_SBR || aot == AOT_PS) {
ptr_input_buffer = pstr_api_struct->pstr_state->inp_delay +
(aacenc_blocksize * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_LC) *
IXHEAACE_MAX_CH_IN_BS_ELE * ele_idx;
} else if (aot == AOT_AAC_LD) {
if (pstr_api_struct->config[0].aac_config.flag_framelength_small) {
ptr_input_buffer = pstr_api_struct->pstr_state->inp_delay +
(FRAME_LEN_480 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_LD_480) *
IXHEAACE_MAX_CH_IN_BS_ELE * ele_idx;
} else {
ptr_input_buffer = pstr_api_struct->pstr_state->inp_delay +
(FRAME_LEN_512 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_LD_512) *
IXHEAACE_MAX_CH_IN_BS_ELE * ele_idx;
}
} else if (aot == AOT_AAC_ELD) {
if (pstr_api_struct->config[0].aac_config.flag_framelength_small) {
if (pstr_api_struct->pstr_state->mps_enable == 1) {
ptr_input_buffer =
pstr_api_struct->pstr_state->inp_delay +
(FRAME_LEN_480 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_ELDV2_480) *
IXHEAACE_MAX_CH_IN_BS_ELE * ele_idx;
} else {
ptr_input_buffer =
pstr_api_struct->pstr_state->inp_delay +
(FRAME_LEN_480 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_ELD_480) *
IXHEAACE_MAX_CH_IN_BS_ELE * ele_idx;
}
} else {
if (pstr_api_struct->pstr_state->mps_enable == 1) {
ptr_input_buffer =
pstr_api_struct->pstr_state->inp_delay +
(FRAME_LEN_512 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_ELDV2_512) *
IXHEAACE_MAX_CH_IN_BS_ELE * ele_idx;
} else {
ptr_input_buffer =
pstr_api_struct->pstr_state->inp_delay +
(FRAME_LEN_512 * 2 + MAXIMUM_DS_2_1_FILTER_DELAY + INPUT_DELAY_ELD_512) *
IXHEAACE_MAX_CH_IN_BS_ELE * ele_idx;
}
}
} else {
return IA_EXHEAACE_EXE_FATAL_UNSUPPORTED_AOT;
}
if (aot != AOT_AAC_LD && aot != AOT_AAC_LC) {
pstr_sbr_encoder =
pstr_api_struct->pstr_state->spectral_band_replication_enc_pers_mem[ele_idx];
if (pstr_api_struct->config[ele_idx].element_type != ID_LFE) {
ixheaace_sbr_set_scratch_ptr(pstr_sbr_encoder, ptr_spectral_band_replication_scratch);
}
}
{
ixheaace_mps_enc_ext_payload mps_extension_payload;
UWORD8 *mps_bs = pstr_api_struct->pstr_state->mps_bs;
memset(&mps_extension_payload, 0, sizeof(ixheaace_mps_enc_ext_payload));
mps_extension_payload.p_data = mps_bs;
if ((pstr_api_struct->config[ele_idx].num_bs_elements == 1) &&
(pstr_api_struct->config[ele_idx].i_channels <= 2)) {
if (pstr_api_struct->config[ele_idx].aac_classic != 1) {
if ((pstr_api_struct->config[ele_idx].i_channels == 2 &&
pstr_api_struct->config[ele_idx].chmode_nchannels == 2) &&
(!((pstr_api_struct->pstr_mps_212_enc != NULL) &&
pstr_api_struct->pstr_state->mps_enable))) {
for (idx = 0; idx < (num_samples_read); idx++) {
ptr_input_buffer[write_off_set + idx] = (FLOAT32)pw_inp_buf[idx];
}
} else if (pstr_api_struct->config[ele_idx].i_channels == 1) {
for (idx = 0; idx < num_samples_read; idx++) {
ptr_input_buffer[write_off_set + (IXHEAACE_MAX_CH_IN_BS_ELE * idx)] =
(FLOAT32)pw_inp_buf[idx];
}
} else if ((pstr_api_struct->pstr_mps_212_enc != NULL) &&
pstr_api_struct->pstr_state->mps_enable) {
ptr_input_buffer_mps = pstr_api_struct->pstr_state->time_signal_mps;
for (idx = 0; idx < (num_samples_read / 2); idx++) {
ptr_input_buffer_mps[idx] = (FLOAT32)pw_inp_buf[2 * idx];
ptr_input_buffer_mps[(num_samples_read / 2) + idx] =
(FLOAT32)pw_inp_buf[(2 * idx) + 1];
}
}
} else {
for (idx = 0; idx < (num_samples_read + write_off_set); idx++) {
ptr_input_buffer[idx] = (FLOAT32)pw_inp_buf[idx];
}
}
} else {
if (pstr_api_struct->config[ele_idx].i_channels == 2) {
slot = pstr_api_struct->config[ele_idx].element_slot;
for (idx = 0; idx < num_samples_read / 2; idx++) {
ptr_input_buffer[2 * idx + write_off_set] =
(FLOAT32)pw_inp_buf[total_channels * idx + slot];
ptr_input_buffer[2 * idx + write_off_set + 1] =
(FLOAT32)pw_inp_buf[total_channels * idx + slot + 1];
}
}
if (pstr_api_struct->config[ele_idx].i_channels == 1) {
slot = pstr_api_struct->config[ele_idx].element_slot;
for (idx = 0; idx < num_samples_read; idx++) {
ptr_input_buffer[write_off_set + (IXHEAACE_MAX_CH_IN_BS_ELE * idx)] =
(FLOAT32)pw_inp_buf[total_channels * idx + slot];
}
}
if (pstr_api_struct->config[ele_idx].i_channels == 6) {
ptr_input_buffer_mps = pstr_api_struct->pstr_state->time_signal_mps;
for (idx = 0; idx < num_samples_read; idx++) {
ptr_input_buffer_mps[idx] = (FLOAT32)pw_inp_buf[idx];
}
}
}
if ((pstr_api_struct->pstr_mps_212_enc != NULL) && pstr_api_struct->pstr_state->mps_enable) {
ptr_input_buffer_mps = pstr_api_struct->pstr_state->time_signal_mps;
error = ixheaace_mps_212_process(pstr_api_struct->pstr_mps_212_enc, ptr_input_buffer_mps,
num_samples_read, &mps_extension_payload);
if (error) {
return error;
}
num_samples_read /= 2;
for (idx = 0; idx < num_samples_read; idx++) {
ptr_input_buffer[2 * idx + write_off_set] = (FLOAT32)ptr_input_buffer_mps[idx];
}
env_read_offset = write_off_set;
}
if ((pstr_api_struct->pstr_mps_515_enc != NULL) && pstr_api_struct->pstr_state->mps_enable) {
ixheaace_bit_buf bit_buf;
ixheaace_bit_buf_handle ptr_bit_buf = NULL;
FLOAT32 *ptr_downmix_buffer_mps = pstr_api_struct->pstr_state->mps_scratch;
VOID *ptr_scratch_515_mps = (VOID *)(pstr_api_struct->pstr_state->mps_scratch +
(MAX_INPUT_CHANNELS * MAX_BUFFER_SIZE) +
(MAX_OUTPUT_CHANNELS * MAX_BUFFER_SIZE));
ptr_bit_buf = ia_enhaacplus_enc_create_bitbuffer(&bit_buf, mps_bs, MAX_MPS_BS_PAYLOAD_SIZE);
error =
ixheaace_mps_515_apply(pstr_api_struct->pstr_mps_515_enc, &ptr_input_buffer_mps[0],
&ptr_downmix_buffer_mps[0], ptr_bit_buf, ptr_scratch_515_mps);
if (error) {
return error;
}
mps_extension_payload.data_size = ptr_bit_buf->cnt_bits;
mps_extension_payload.data_type = IXHEAACE_MPS_EXT_LDSAC_DATA;
mps_extension_payload.associated_ch_element = -1;
if (pstr_api_struct->pstr_state->mps_tree_config == TREE_5151 ||
pstr_api_struct->pstr_state->mps_tree_config == TREE_5152) {
num_samples_read /= 6;
for (idx = 0; idx < num_samples_read; idx++) {
ptr_input_buffer[2 * idx + write_off_set] = (FLOAT32)ptr_downmix_buffer_mps[idx];
}
} else {
num_samples_read /= 3;
for (idx = 0; idx < num_samples_read; idx++) {
ptr_input_buffer[idx + write_off_set] = (FLOAT32)ptr_downmix_buffer_mps[idx];
}
}
env_read_offset = write_off_set;
}
if (pstr_api_struct->pstr_state->downsample[ele_idx]) {
ixheaace_resampler_scratch *pstr_scratch_resampler =
(ixheaace_resampler_scratch *)pstr_api_struct->pstr_state->ptr_temp_buff_resamp;
if (pstr_api_struct->config[ele_idx].element_type != ID_LFE) {
error = ixheaace_env_encode_frame(
pstr_sbr_encoder, ptr_input_buffer + env_read_offset, ptr_input_buffer,
IXHEAACE_MAX_CH_IN_BS_ELE,
&(pstr_api_struct->pstr_state->num_anc_data_bytes[ele_idx][0]),
pstr_api_struct->pstr_state->anc_data_bytes[ele_idx],
&(pstr_api_struct->spectral_band_replication_tabs), &(pstr_api_struct->common_tabs),
&(mps_extension_payload.p_data[0]), mps_extension_payload.data_size,
pstr_api_struct->config[0].aac_config.flag_framelength_small, NULL);
if (error != IA_NO_ERROR) {
return error;
}
}
if (!pstr_api_struct->config[ele_idx].use_parametric_stereo) {
for (ch = 0; ch < pstr_aac_config->num_out_channels; ch++) {
ia_enhaacplus_enc_get_scratch_bufs(pstr_api_struct->pstr_state->temp_buff_sbr,
&shared_buf1_ring, &shared_buf2_ring);
{
ia_enhaacplus_enc_iir_downsampler(
&(pstr_api_struct->pstr_state->down_sampler[ele_idx][ch]),
ptr_input_buffer + write_off_set + ch,
num_samples_read / pstr_aac_config->num_out_channels, IXHEAACE_MAX_CH_IN_BS_ELE,
ptr_input_buffer + ch, &out_samples, out_stride, shared_buf1_ring,
shared_buf2_ring, pstr_scratch_resampler);
}
}
}
}
error = ia_enhaacplus_enc_aac_core_encode(
pstr_aac_enc, ptr_input_buffer, time_in_stride,
pstr_api_struct->pstr_state->anc_data_bytes[ele_idx],
pstr_api_struct->pstr_state->num_anc_data_bytes[ele_idx], pub_out_buf,
&(pstr_api_struct->pstr_state->i_out_bytes), &(pstr_api_struct->pstr_aac_tabs),
pstr_api_struct->pstr_state->pstr_bit_stream_handle,
&(pstr_api_struct->pstr_state->bit_stream), flag_last_element,
write_program_config_element, i_num_coup_channels, i_channels_mask, ele_idx,
total_fill_bits, total_channels, aot, pstr_api_struct->config->adts_flag,
num_bs_elements, &pstr_api_struct->pstr_state->is_quant_spec_zero,
&pstr_api_struct->pstr_state->is_gain_limited);
if (error != IA_NO_ERROR) {
return error;
}
if (pstr_sbr_encoder && !(pstr_api_struct->config[ele_idx].use_parametric_stereo)) {
if (pstr_sbr_encoder && (ptr_input_buffer != NULL)) {
memmove(ptr_input_buffer,
ptr_input_buffer + aacenc_blocksize * 2 * IXHEAACE_MAX_CH_IN_BS_ELE,
write_off_set * sizeof(ptr_input_buffer[0]));
}
}
}
{}
/*ADTS Header Write*/
if (pstr_api_struct->config->adts_flag) {
pub_out_buf = ((pUWORD8)pstr_api_struct->pp_mem[IA_ENHAACPLUSENC_OUTPUT_IDX]);
{
WORD32 num_channels = 0;
for (ele = 0; ele < pstr_api_struct->config[0].num_bs_elements; ele++) {
num_channels += pstr_api_struct->config[ele].i_channels;
}
{
header_bytes = ia_enhaacplus_enc_write_ADTS_header(
pub_out_buf, pstr_api_struct->pstr_state->i_out_bytes,
pstr_api_struct->config->aac_config.core_sample_rate,
(pstr_api_struct->config[0].num_bs_elements > 1)
? num_channels
: pstr_api_struct->config[0].aac_config.num_out_channels);
}
}
pstr_api_struct->pstr_state->i_out_bytes += header_bytes;
}
return IA_NO_ERROR;
}
static IA_ERRORCODE iusace_process(ixheaace_api_struct *pstr_api_struct) {
IA_ERRORCODE error = IA_NO_ERROR;
WORD32 idx;
WORD32 write_off_set = 0;
WORD32 core_coder_frame_length;
WORD32 usac_independency_flg;
UWORD32 padding_bits = 0;
WORD32 core_sample;
WORD32 drc_sample;
WORD32 i4_inp_data;
WORD32 ptr_inp_buf_offset = 0;
WORD32 num_ch;
WORD16 *ps_inp_buf = NULL;
WORD8 *pi1_inp_buf = NULL;
WORD8 *ps_out_buf = NULL;
WORD32 *pi4_inp_buf = NULL;
FLOAT32 *ptr_input_buffer = NULL;
FLOAT32 *ptr_inp_buf[MAX_TIME_CHANNELS];
FLOAT32 *ptr_drc_inp_buf[MAX_TIME_CHANNELS];
ixheaace_state_struct *pstr_state = pstr_api_struct->pstr_state;
ia_bit_buf_struct *pstr_it_bit_buff = &pstr_state->str_bit_buf;
ia_usac_encoder_config_struct *pstr_config = &pstr_api_struct->config[0].usac_config;
ia_usac_data_struct *pstr_usac_data = &pstr_api_struct->pstr_state->str_usac_enc_data;
iusace_scratch_mem *pstr_scratch = &pstr_usac_data->str_scratch;
ia_classification_struct *pstr_sig_class_data =
&pstr_state->str_usac_enc_data.str_sig_class_data;
core_sample = (pstr_config->ccfl * pstr_config->channels);
drc_sample = pstr_config->drc_frame_size * pstr_config->channels;
core_coder_frame_length = pstr_config->ccfl;
num_ch = pstr_config->channels;
usac_independency_flg = !(pstr_usac_data->usac_independency_flag_count %
pstr_usac_data->usac_independency_flag_interval);
pstr_usac_data->usac_independency_flag = usac_independency_flg;
ps_inp_buf = (WORD16 *)pstr_api_struct->pp_mem[IA_MEMTYPE_INPUT];
pi1_inp_buf = (WORD8 *)pstr_api_struct->pp_mem[IA_MEMTYPE_INPUT];
ps_out_buf = (WORD8 *)pstr_api_struct->pp_mem[IA_MEMTYPE_OUTPUT];
if (pstr_config->use_drc_element) {
for (idx = 0; idx < core_sample; idx++) {
pstr_api_struct->pstr_state->pp_drc_in_buf[idx % num_ch][idx / num_ch] =
pstr_api_struct->pstr_state
->pp_drc_in_buf[idx % num_ch][idx / num_ch + pstr_config->drc_frame_size];
}
ptr_inp_buf_offset = pstr_config->drc_frame_size;
for (idx = 0; idx < num_ch; idx++) {
ptr_drc_inp_buf[idx] = pstr_api_struct->pstr_state->pp_drc_in_buf[idx];
}
}
ixheaace_pstr_sbr_enc pstr_sbr_encoder =
pstr_api_struct->pstr_state->spectral_band_replication_enc_pers_mem[0];
if (pstr_config->sbr_enable) {
ixheaace_mps_enc_ext_payload mps_extension_payload;
UWORD8 *mps_bs = pstr_api_struct->pstr_state->mps_bs;
FLOAT32 *time_signal_mps = pstr_api_struct->pstr_state->time_signal_mps;
WORD32 sbr_pvc_mode = 0;
WORD32 sbr_patching_mode = 1;
WORD32 ccfl_size;
WORD32 num_samples_read;
WORD32 out_samples, ch;
WORD32 resamp_ratio =
ia_enhaacplus_enc_compute_resampling_ratio(pstr_api_struct->config[0].ccfl_idx);
switch (pstr_config->codec_mode) {
case USAC_SWITCHED:
if (pstr_usac_data->str_sig_class_data.coding_mode == 2) {
sbr_pvc_mode = 0;
} else {
sbr_pvc_mode = 2;
}
sbr_patching_mode = 1;
break;
case USAC_ONLY_FD:
sbr_pvc_mode = 0;
sbr_patching_mode = 0;
break;
case USAC_ONLY_TD:
sbr_pvc_mode = 2;
sbr_patching_mode = 1;
break;
}
write_off_set = INPUT_DELAY_LC * IXHEAACE_MAX_CH_IN_BS_ELE;
if (pstr_api_struct->pstr_state->downsample[0]) {
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
write_off_set +=
(pstr_api_struct->pstr_state->down_samp_sos[0][0].delay) * IXHEAACE_MAX_CH_IN_BS_ELE;
write_off_set +=
(pstr_api_struct->pstr_state->up_sampler[0][0].delay) * IXHEAACE_MAX_CH_IN_BS_ELE;
} else if (pstr_api_struct->config[0].ccfl_idx == SBR_2_1 ||
pstr_api_struct->config[0].ccfl_idx == SBR_4_1) {
write_off_set +=
(pstr_api_struct->pstr_state->down_sampler[0][0].delay) * IXHEAACE_MAX_CH_IN_BS_ELE;
}
}
ptr_input_buffer = pstr_api_struct->pstr_state->inp_delay;
ccfl_size = pstr_api_struct->config[0].usac_config.ccfl;
num_samples_read = ccfl_size * pstr_api_struct->config[0].i_channels;
switch (pstr_api_struct->config[0].ccfl_idx) {
case SBR_8_3:
num_samples_read *= 8;
num_samples_read /= 3;
break;
case SBR_2_1:
num_samples_read *= 2;
break;
case SBR_4_1:
num_samples_read *= 4;
break;
}
mps_extension_payload.p_data = mps_bs;
memset(&mps_extension_payload, 0, sizeof(ixheaace_mps_enc_ext_payload));
if ((pstr_api_struct->pstr_mps_212_enc != NULL) && pstr_api_struct->pstr_state->mps_enable) {
for (idx = 0; idx < num_samples_read / 2; idx++) {
time_signal_mps[idx] = (FLOAT32)ps_inp_buf[2 * idx];
time_signal_mps[num_samples_read / 2 + idx] = (FLOAT32)ps_inp_buf[2 * idx + 1];
}
error = ixheaace_mps_212_process(pstr_api_struct->pstr_mps_212_enc, time_signal_mps,
num_samples_read, &mps_extension_payload);
if (error) {
return error;
}
if (pstr_api_struct->pstr_state->mps_enable == 1) {
for (idx = 0; idx < num_samples_read / 2; idx++) {
ptr_input_buffer[write_off_set + 2 * idx] = time_signal_mps[idx];
ptr_input_buffer[write_off_set + 2 * idx + 1] =
time_signal_mps[num_samples_read / 2 + idx];
}
}
} else if (pstr_api_struct->config[0].i_channels == 2 &&
pstr_api_struct->config[0].chmode_nchannels == 2) {
for (idx = 0; idx < (num_samples_read); idx++) {
ptr_input_buffer[write_off_set + idx] = (FLOAT32)ps_inp_buf[idx];
}
} else if (pstr_api_struct->config[0].i_channels == 1) {
for (idx = 0; idx < num_samples_read; idx++) {
ptr_input_buffer[write_off_set + (IXHEAACE_MAX_CH_IN_BS_ELE * idx)] =
(FLOAT32)ps_inp_buf[idx];
}
}
if (num_ch == 2) {
if (1 == pstr_config->use_drc_element) {
if (16 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < drc_sample; idx++) {
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] =
ptr_input_buffer[idx];
}
} else if (24 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < drc_sample; idx++) {
i4_inp_data = ((WORD32)(*pi1_inp_buf)) & 0xFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 8) & 0xFFFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 16) & 0xFFFFFF;
pi1_inp_buf++;
i4_inp_data = i4_inp_data - (i4_inp_data >> 23 << 24);
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] =
(FLOAT32)i4_inp_data / DIV_FAC_24_BIT_PCM;
}
} else if (32 == pstr_config->ui_pcm_wd_sz) {
pi4_inp_buf = (WORD32 *)pi1_inp_buf;
for (idx = 0; idx < drc_sample; idx++) {
i4_inp_data = *pi4_inp_buf++;
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] =
(FLOAT32)i4_inp_data / DIV_FAC_32_BIT_PCM;
}
}
}
// update Header and bit-stream parameters
if (0 == pstr_config->sbr_pvc_active) {
sbr_pvc_mode = 0;
}
ixheaace_set_usac_sbr_params(
pstr_sbr_encoder, usac_independency_flg, 0, pstr_config->sbr_pvc_active, sbr_pvc_mode,
pstr_config->sbr_inter_tes_active, pstr_config->sbr_harmonic, sbr_patching_mode);
// Downsample SBR input buffer for Harmonic SBR
if (pstr_config->sbr_harmonic) {
FLOAT32 *in_buffer_temp;
ixheaace_get_input_scratch_buf(pstr_api_struct->pstr_state->ptr_temp_buff_resamp,
&in_buffer_temp);
FLOAT32 *outbuf = ixheaace_get_hbe_resample_buffer(pstr_sbr_encoder);
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
WORD32 input_tot = num_samples_read / pstr_api_struct->config[0].i_channels;
ixheaace_upsampling_inp_buf_generation(ptr_input_buffer, in_buffer_temp, input_tot,
UPSAMPLE_FAC, 0);
}
// Resampler
for (ch = 0; ch < num_ch; ch++) {
FLOAT32 *shared_buf1_ring, *shared_buf2_ring;
ixheaace_resampler_scratch *pstr_scratch_resampler =
(ixheaace_resampler_scratch *)(ixheaace_resampler_scratch *)
pstr_api_struct->pstr_state->ptr_temp_buff_resamp;
ia_enhaacplus_enc_get_scratch_bufs(pstr_api_struct->pstr_state->temp_buff_sbr,
&shared_buf1_ring, &shared_buf2_ring);
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
// Upsampling by factor 3 - SOS implementation
ia_enhaacplus_enc_iir_sos_upsampler(
&(pstr_api_struct->pstr_state->hbe_up_sampler[0][ch]), in_buffer_temp + ch,
num_samples_read / pstr_api_struct->config[0].i_channels,
IXHEAACE_MAX_CH_IN_BS_ELE, in_buffer_temp + ch, &out_samples, shared_buf1_ring,
shared_buf2_ring, pstr_scratch_resampler);
// Downsampling by factor 8
ia_enhaacplus_enc_iir_sos_downsampler(
&(pstr_api_struct->pstr_state->hbe_down_samp_sos[0][ch]), in_buffer_temp + ch,
out_samples, IXHEAACE_MAX_CH_IN_BS_ELE, outbuf + ch, &out_samples,
shared_buf1_ring, shared_buf2_ring, pstr_scratch_resampler);
} else {
WORD32 out_stride = IXHEAACE_MAX_CH_IN_BS_ELE * resamp_ratio;
ia_enhaacplus_enc_iir_downsampler(
&(pstr_api_struct->pstr_state->hbe_down_sampler[0][ch]), ptr_input_buffer + ch,
num_samples_read / pstr_api_struct->config[0].i_channels,
IXHEAACE_MAX_CH_IN_BS_ELE, outbuf + ch, &out_samples, out_stride,
shared_buf1_ring, shared_buf2_ring, pstr_scratch_resampler);
}
}
}
// SBR Encode
error = ixheaace_env_encode_frame(
pstr_sbr_encoder, ptr_input_buffer, ptr_input_buffer,
pstr_api_struct->config[0].i_channels,
&(pstr_api_struct->pstr_state->num_anc_data_bytes[0][0]),
pstr_api_struct->pstr_state->anc_data_bytes[0],
&(pstr_api_struct->spectral_band_replication_tabs), &(pstr_api_struct->common_tabs),
&(mps_extension_payload.p_data[0]), mps_extension_payload.data_size, 0,
&pstr_api_struct->pstr_state->str_usac_enc_data.num_sbr_bits);
if (error != IA_NO_ERROR) {
return error;
}
} else {
if (0 == pstr_config->sbr_pvc_active) {
sbr_pvc_mode = 0;
}
ixheaace_set_usac_sbr_params(
pstr_sbr_encoder, usac_independency_flg, 0, pstr_config->sbr_pvc_active, sbr_pvc_mode,
pstr_config->sbr_inter_tes_active, pstr_config->sbr_harmonic, sbr_patching_mode);
if (pstr_config->sbr_harmonic) {
FLOAT32 *in_buffer_temp;
ixheaace_get_input_scratch_buf(pstr_api_struct->pstr_state->ptr_temp_buff_resamp,
&in_buffer_temp);
FLOAT32 *outbuf = ixheaace_get_hbe_resample_buffer(pstr_sbr_encoder);
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
WORD32 input_tot = num_samples_read / pstr_api_struct->config[0].i_channels;
ixheaace_upsampling_inp_buf_generation(ptr_input_buffer, in_buffer_temp, input_tot,
UPSAMPLE_FAC, 0);
}
// Resampler
for (ch = 0; ch < num_ch; ch++) {
FLOAT32 *shared_buf1_ring, *shared_buf2_ring;
ixheaace_resampler_scratch *pstr_scratch_resampler =
(ixheaace_resampler_scratch *)(ixheaace_resampler_scratch *)
pstr_api_struct->pstr_state->ptr_temp_buff_resamp;
ia_enhaacplus_enc_get_scratch_bufs(pstr_api_struct->pstr_state->temp_buff_sbr,
&shared_buf1_ring, &shared_buf2_ring);
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
// Upsampling by factor 3 - SOS implementation
ia_enhaacplus_enc_iir_sos_upsampler(
&(pstr_api_struct->pstr_state->hbe_up_sampler[0][ch]), in_buffer_temp + ch,
num_samples_read / pstr_api_struct->config[0].i_channels,
IXHEAACE_MAX_CH_IN_BS_ELE, in_buffer_temp + ch, &out_samples, shared_buf1_ring,
shared_buf2_ring, pstr_scratch_resampler);
// Downsampling by factor 8
ia_enhaacplus_enc_iir_sos_downsampler(
&(pstr_api_struct->pstr_state->hbe_down_samp_sos[0][ch]), in_buffer_temp + ch,
out_samples, IXHEAACE_MAX_CH_IN_BS_ELE, outbuf + ch, &out_samples,
shared_buf1_ring, shared_buf2_ring, pstr_scratch_resampler);
} else {
WORD32 out_stride = IXHEAACE_MAX_CH_IN_BS_ELE * resamp_ratio;
ia_enhaacplus_enc_iir_downsampler(
&(pstr_api_struct->pstr_state->hbe_down_sampler[0][ch]),
ptr_input_buffer /*input_buffer_fix + write_off_set*/ + ch,
num_samples_read / pstr_api_struct->config[0].i_channels,
IXHEAACE_MAX_CH_IN_BS_ELE, outbuf + ch, &out_samples, out_stride,
shared_buf1_ring, shared_buf2_ring, pstr_scratch_resampler);
}
}
}
FLOAT32 *time_signal = pstr_api_struct->pstr_state->time_signal;
for (idx = 0; idx < num_samples_read; idx++) {
time_signal[idx] = (FLOAT32)ptr_input_buffer[2 * idx];
}
if (1 == pstr_config->use_drc_element) {
if (16 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < drc_sample; idx++) {
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] = time_signal[idx];
}
} else if (24 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < drc_sample; idx++) {
i4_inp_data = ((WORD32)(*pi1_inp_buf)) & 0xFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 8) & 0xFFFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 16) & 0xFFFFFF;
pi1_inp_buf++;
i4_inp_data = i4_inp_data - (i4_inp_data >> 23 << 24);
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] =
(FLOAT32)i4_inp_data / DIV_FAC_24_BIT_PCM;
}
} else if (32 == pstr_config->ui_pcm_wd_sz) {
pi4_inp_buf = (WORD32 *)pi1_inp_buf;
for (idx = 0; idx < drc_sample; idx++) {
i4_inp_data = *pi4_inp_buf++;
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] =
(FLOAT32)i4_inp_data / DIV_FAC_32_BIT_PCM;
}
}
}
// SBR Encode
error = ixheaace_env_encode_frame(
pstr_sbr_encoder, time_signal, time_signal, pstr_api_struct->config[0].i_channels,
&(pstr_api_struct->pstr_state->num_anc_data_bytes[0][0]),
pstr_api_struct->pstr_state->anc_data_bytes[0],
&(pstr_api_struct->spectral_band_replication_tabs), &(pstr_api_struct->common_tabs),
&(mps_extension_payload.p_data[0]), mps_extension_payload.data_size, 0,
&pstr_api_struct->pstr_state->str_usac_enc_data.num_sbr_bits);
if (error != IA_NO_ERROR) {
return error;
}
}
/* Resampling for USAC core */
{
FLOAT32 *in_buffer_temp;
ixheaace_get_input_scratch_buf(pstr_api_struct->pstr_state->ptr_temp_buff_resamp,
&in_buffer_temp);
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
WORD32 input_tot = num_samples_read / pstr_api_struct->config[0].i_channels;
ixheaace_upsampling_inp_buf_generation(ptr_input_buffer, in_buffer_temp, input_tot,
UPSAMPLE_FAC, write_off_set);
}
for (ch = 0; ch < num_ch; ch++) {
FLOAT32 *shared_buf1_ring, *shared_buf2_ring;
ixheaace_resampler_scratch *pstr_scratch_resampler =
(ixheaace_resampler_scratch *)pstr_api_struct->pstr_state->ptr_temp_buff_resamp;
ia_enhaacplus_enc_get_scratch_bufs(pstr_api_struct->pstr_state->temp_buff_sbr,
&shared_buf1_ring, &shared_buf2_ring);
if (pstr_api_struct->config[0].ccfl_idx == SBR_8_3) {
// Upsampling by factor 3 - SOS implementation
ia_enhaacplus_enc_iir_sos_upsampler(
&(pstr_api_struct->pstr_state->up_sampler[0][ch]), in_buffer_temp + ch,
num_samples_read / pstr_api_struct->config[0].i_channels, IXHEAACE_MAX_CH_IN_BS_ELE,
in_buffer_temp + ch, &out_samples, shared_buf1_ring, shared_buf2_ring,
pstr_scratch_resampler);
// Downsampling by factor 8
ia_enhaacplus_enc_iir_sos_downsampler(
&(pstr_api_struct->pstr_state->down_samp_sos[0][ch]), in_buffer_temp + ch,
out_samples, IXHEAACE_MAX_CH_IN_BS_ELE, ptr_input_buffer + ch, &out_samples,
shared_buf1_ring, shared_buf2_ring, pstr_scratch_resampler);
} else {
WORD32 out_stride = IXHEAACE_MAX_CH_IN_BS_ELE * resamp_ratio;
ia_enhaacplus_enc_iir_downsampler(
&(pstr_api_struct->pstr_state->down_sampler[0][ch]),
ptr_input_buffer + write_off_set + ch,
num_samples_read / pstr_api_struct->config[0].i_channels, IXHEAACE_MAX_CH_IN_BS_ELE,
ptr_input_buffer + ch, &out_samples, out_stride, shared_buf1_ring, shared_buf2_ring,
pstr_scratch_resampler);
}
}
}
if (num_ch != 0) {
for (idx = 0; idx < num_ch; idx++) {
ptr_inp_buf[idx] = pstr_api_struct->pstr_state->ptr_in_buf[idx];
}
if (16 == pstr_config->ui_pcm_wd_sz) {
if (num_ch == 1) {
for (idx = 0; idx < core_sample; idx++) {
ptr_inp_buf[idx % num_ch][idx / num_ch] = ptr_input_buffer[2 * idx];
}
} else {
for (idx = 0; idx < core_sample; idx++) {
ptr_inp_buf[idx % num_ch][idx / num_ch] = ptr_input_buffer[idx];
}
}
} else if (24 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < core_sample; idx++) {
i4_inp_data = ((WORD32)(*pi1_inp_buf)) & 0xFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 8) & 0xFFFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 16) & 0xFFFFFF;
pi1_inp_buf++;
i4_inp_data = i4_inp_data - (i4_inp_data >> 23 << 24);
ptr_inp_buf[idx % num_ch][idx / num_ch] = (FLOAT32)i4_inp_data / DIV_FAC_24_BIT_PCM;
}
} else if (32 == pstr_config->ui_pcm_wd_sz) {
pi4_inp_buf = (WORD32 *)pi1_inp_buf;
for (idx = 0; idx < core_sample; idx++) {
i4_inp_data = *pi4_inp_buf++;
ptr_inp_buf[idx % num_ch][idx / num_ch] = (FLOAT32)i4_inp_data / DIV_FAC_32_BIT_PCM;
}
}
}
} else {
if (num_ch != 0) {
for (idx = 0; idx < num_ch; idx++) {
ptr_inp_buf[idx] = pstr_api_struct->pstr_state->ptr_in_buf[idx];
}
if (16 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < core_sample; idx++) {
ptr_inp_buf[idx % num_ch][idx / num_ch] = ps_inp_buf[idx];
}
} else if (24 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < core_sample; idx++) {
i4_inp_data = ((WORD32)(*pi1_inp_buf)) & 0xFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 8) & 0xFFFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 16) & 0xFFFFFF;
pi1_inp_buf++;
i4_inp_data = i4_inp_data - (i4_inp_data >> 23 << 24);
ptr_inp_buf[idx % num_ch][idx / num_ch] = (FLOAT32)i4_inp_data / DIV_FAC_24_BIT_PCM;
}
} else if (32 == pstr_config->ui_pcm_wd_sz) {
pi4_inp_buf = (WORD32 *)pi1_inp_buf;
for (idx = 0; idx < core_sample; idx++) {
i4_inp_data = *pi4_inp_buf++;
ptr_inp_buf[idx % num_ch][idx / num_ch] = (FLOAT32)i4_inp_data / DIV_FAC_32_BIT_PCM;
}
}
if (1 == pstr_config->use_drc_element) {
if (16 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < drc_sample; idx++) {
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] = ps_inp_buf[idx];
}
} else if (24 == pstr_config->ui_pcm_wd_sz) {
for (idx = 0; idx < drc_sample; idx++) {
i4_inp_data = ((WORD32)(*pi1_inp_buf)) & 0xFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 8) & 0xFFFF;
pi1_inp_buf++;
i4_inp_data += ((WORD32)(*pi1_inp_buf) << 16) & 0xFFFFFF;
pi1_inp_buf++;
i4_inp_data = i4_inp_data - (i4_inp_data >> 23 << 24);
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] =
(FLOAT32)i4_inp_data / DIV_FAC_24_BIT_PCM;
}
} else if (32 == pstr_config->ui_pcm_wd_sz) {
pi4_inp_buf = (WORD32 *)pi1_inp_buf;
for (idx = 0; idx < drc_sample; idx++) {
i4_inp_data = *pi4_inp_buf++;
ptr_drc_inp_buf[idx % num_ch][idx / num_ch + ptr_inp_buf_offset] =
(FLOAT32)i4_inp_data / DIV_FAC_32_BIT_PCM;
}
}
}
}
}
if (pstr_sig_class_data->is_switch_mode) {
for (idx = 0; idx < core_coder_frame_length; idx++) {
pstr_sig_class_data->input_samples[pstr_sig_class_data->n_buffer_samples + idx] =
pstr_api_struct->pstr_state->ptr_in_buf[0][idx];
}
pstr_sig_class_data->n_buffer_samples += core_coder_frame_length;
iusace_classification(pstr_sig_class_data, pstr_scratch, core_coder_frame_length);
}
pstr_it_bit_buff =
iusace_create_bit_buffer(pstr_it_bit_buff, pstr_api_struct->pp_mem[IA_MEMTYPE_OUTPUT],
pstr_api_struct->pstr_mem_info[IA_MEMTYPE_OUTPUT].ui_size, 1);
if (pstr_it_bit_buff == NULL) {
return IA_EXHEAACE_INIT_FATAL_USAC_BITBUFFER_INIT_FAILED;
}
error =
ixheaace_usac_encode(pstr_api_struct->pstr_state->ptr_in_buf, pstr_config,
&pstr_api_struct->pstr_state->str_usac_enc_data,
&pstr_api_struct->pstr_state->audio_specific_config, pstr_it_bit_buff,
pstr_sbr_encoder, pstr_api_struct->pstr_state->pp_drc_in_buf,
&pstr_api_struct->pstr_state->is_quant_spec_zero,
&pstr_api_struct->pstr_state->is_gain_limited);
if (error) return error;
padding_bits = 8 - (pstr_it_bit_buff->cnt_bits & 7);
if (padding_bits > 0 && padding_bits < 8) {
ps_out_buf[pstr_it_bit_buff->cnt_bits >> 3] =
(WORD8)((UWORD32)ps_out_buf[pstr_it_bit_buff->cnt_bits >> 3]) & (0xFF << padding_bits);
}
pstr_api_struct->pstr_state->i_out_bytes =
(padding_bits > 0 && padding_bits < 8) ? (pstr_it_bit_buff->cnt_bits + padding_bits) >> 3
: pstr_it_bit_buff->cnt_bits >> 3;
pstr_state->str_usac_enc_data.frame_count++;
pstr_usac_data->usac_independency_flag_count =
(pstr_usac_data->usac_independency_flag_count + 1) %
pstr_usac_data->usac_independency_flag_interval;
if (pstr_config->sbr_enable) {
WORD32 num_samples = pstr_api_struct->config[0].usac_config.ccfl * IXHEAACE_MAX_CH_IN_BS_ELE;
switch (pstr_api_struct->config[0].ccfl_idx) {
case SBR_8_3:
num_samples *= 8;
num_samples /= 3;
break;
case SBR_2_1:
num_samples *= 2;
break;
case SBR_4_1:
num_samples *= 4;
break;
}
if (ptr_input_buffer != NULL) {
memmove(ptr_input_buffer, ptr_input_buffer + num_samples,
write_off_set * sizeof(ptr_input_buffer[0]));
}
}
return IA_NO_ERROR;
}
IA_ERRORCODE ixheaace_get_lib_id_strings(pVOID pv_output) {
IA_ERRORCODE err_code = IA_NO_ERROR;
ixheaace_version *pstr_output_config = (ixheaace_version *)pv_output;
pstr_output_config->p_lib_name = (WORD8 *)LIB_NAME;
pstr_output_config->p_version_num = (WORD8 *)ITTIAM_VER;
return err_code;
}
IA_ERRORCODE ixheaace_allocate(pVOID pv_input, pVOID pv_output) {
IA_ERRORCODE err_code = IA_NO_ERROR;
WORD32 ui_api_size;
pVOID pv_value;
ixheaace_input_config *pstr_input_config = (ixheaace_input_config *)pv_input;
ixheaace_output_config *pstr_output_config = (ixheaace_output_config *)pv_output;
ixheaace_api_struct *pstr_api_struct;
if (pstr_input_config->aot != AOT_AAC_ELD && pstr_input_config->aot != AOT_AAC_LC &&
pstr_input_config->aot != AOT_AAC_LD && pstr_input_config->aot != AOT_SBR &&
pstr_input_config->aot != AOT_PS && pstr_input_config->aot != AOT_USAC) {
return IA_EXHEAACE_API_FATAL_UNSUPPORTED_AOT;
}
ui_api_size = sizeof(ixheaace_api_struct);
pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count] =
pstr_output_config->malloc_xheaace(ui_api_size + EIGHT_BYTE_SIZE, DEFAULT_MEM_ALIGN_8);
if (NULL == pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count]) {
return IA_EXHEAACE_API_FATAL_MEM_ALLOC;
}
memset(pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count], 0, ui_api_size);
pstr_output_config->ui_rem =
(SIZE_T)((SIZE_T)pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count] %
BYTE_ALIGN_8);
pstr_output_config->pv_ia_process_api_obj =
(pVOID)((WORD8 *)pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count] +
BYTE_ALIGN_8 - pstr_output_config->ui_rem);
pstr_output_config->malloc_count++;
pstr_api_struct = (ixheaace_api_struct *)pstr_output_config->pv_ia_process_api_obj;
memset(pstr_api_struct, 0, sizeof(*pstr_api_struct));
ixheaace_set_default_config(pstr_api_struct, pstr_input_config);
err_code = ixheaace_set_config_params(pstr_api_struct, pstr_input_config);
if (err_code) {
return err_code;
}
pstr_output_config->ui_proc_mem_tabs_size =
(sizeof(ixheaace_mem_info_struct) + sizeof(pVOID *)) * 4;
pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count] =
pstr_output_config->malloc_xheaace(
pstr_output_config->ui_proc_mem_tabs_size + EIGHT_BYTE_SIZE, DEFAULT_MEM_ALIGN_8);
if (NULL == pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count]) {
return IA_EXHEAACE_API_FATAL_MEM_ALLOC;
}
memset(pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count], 0,
pstr_output_config->ui_proc_mem_tabs_size);
pstr_output_config->ui_rem =
(SIZE_T)((SIZE_T)pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count] %
BYTE_ALIGN_8);
pv_value =
(pVOID)((WORD8 *)pstr_output_config->arr_alloc_memory[pstr_output_config->malloc_count] +
BYTE_ALIGN_8 - pstr_output_config->ui_rem);
if (pv_value == NULL) {
return IA_EXHEAACE_API_FATAL_MEM_ALLOC;
}
memset(pv_value, 0, (sizeof(ixheaace_mem_info_struct) + sizeof(pVOID *)) * 4);
pstr_api_struct->pstr_mem_info = (ixheaace_mem_info_struct *)pv_value;
pstr_api_struct->pp_mem = (pVOID *)((WORD8 *)pv_value + sizeof(ixheaace_mem_info_struct) * 4);
pstr_output_config->malloc_count++;
ixheaace_fill_mem_tabs(pstr_api_struct, pstr_input_config->aot);
err_code = ixheaace_alloc_and_assign_mem(pstr_api_struct, pstr_output_config);
if (err_code) {
return err_code;
}
return err_code;
}
IA_ERRORCODE ixheaace_init(pVOID pstr_obj_ixheaace, pVOID pv_input, pVOID pv_output) {
IA_ERRORCODE error = IA_NO_ERROR;
WORD32 frame_length;
WORD32 channels, ele_idx;
ixheaace_api_struct *pstr_api_struct = (ixheaace_api_struct *)pstr_obj_ixheaace;
ixheaace_input_config *pstr_input_config = (ixheaace_input_config *)pv_input;
ixheaace_output_config *pstr_output_config = (ixheaace_output_config *)pv_output;
WORD32 total_bitrate_used = 0;
frame_length = pstr_input_config->frame_length;
channels = 0;
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
channels += pstr_api_struct->config[ele_idx].i_channels;
}
pstr_api_struct->pstr_state->aot = pstr_input_config->aot;
if ((pstr_api_struct->config[0].use_mps == 1) &&
(0 == pstr_api_struct->config->aac_classic ||
pstr_api_struct->pstr_state->aot == AOT_USAC)) {
pstr_api_struct->pstr_state->mps_enable = pstr_api_struct->config[0].use_mps;
pstr_api_struct->pstr_state->mps_tree_config = pstr_api_struct->config[0].mps_tree_config;
}
if (pstr_api_struct->config[0].num_bs_elements == 1) {
pstr_api_struct->config[ele_idx].write_program_config_element = 0;
}
if (pstr_api_struct->pstr_state->aot != AOT_USAC) {
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
/* Set config pointer in api obj */
pstr_api_struct->pstr_state->pstr_config[ele_idx] = &pstr_api_struct->config[ele_idx];
error = ia_enhaacplus_enc_init(pstr_api_struct, ele_idx);
if (error) {
return error;
}
pstr_api_struct->pstr_state->ui_init_done = 1;
total_bitrate_used += pstr_api_struct->config[ele_idx].aac_config.bit_rate;
}
if (pstr_input_config->i_bitrate != total_bitrate_used) {
pstr_input_config->i_bitrate = total_bitrate_used;
}
if (pstr_api_struct->config[0].aac_config.bitreservoir_size != -1) {
WORD32 avg_bytes_per_frame_per_ch = pstr_api_struct->config[0].aac_config.bitreservoir_size;
if (pstr_api_struct->config[0].aac_config.flag_framelength_small) {
if (pstr_api_struct->config[0].aot == AOT_AAC_LC ||
pstr_api_struct->config[0].aot == AOT_PS ||
pstr_api_struct->config[0].aot == AOT_SBR) {
avg_bytes_per_frame_per_ch = (pstr_api_struct->config[0].aac_config.bit_rate) *
FRAME_LEN_960 /
(pstr_api_struct->config[0].aac_config.core_sample_rate *
pstr_api_struct->config[0].i_channels * 8);
}
if (pstr_input_config->aot == AOT_AAC_LD || pstr_input_config->aot == AOT_AAC_ELD) {
avg_bytes_per_frame_per_ch = (pstr_api_struct->config[0].aac_config.bit_rate) *
FRAME_LEN_480 /
(pstr_api_struct->config[0].aac_config.core_sample_rate *
pstr_api_struct->config[0].i_channels * 8);
}
} else {
if (pstr_api_struct->config[0].aot == AOT_AAC_LC ||
pstr_api_struct->config[0].aot == AOT_PS ||
pstr_api_struct->config[0].aot == AOT_SBR) {
avg_bytes_per_frame_per_ch = (pstr_api_struct->config[0].aac_config.bit_rate) *
FRAME_LEN_1024 /
(pstr_api_struct->config[0].aac_config.core_sample_rate *
pstr_api_struct->config[0].i_channels * 8);
}
if (pstr_input_config->aot == AOT_AAC_LD || pstr_input_config->aot == AOT_AAC_ELD) {
avg_bytes_per_frame_per_ch = (pstr_api_struct->config[0].aac_config.bit_rate) *
FRAME_LEN_512 /
(pstr_api_struct->config[0].aac_config.core_sample_rate *
pstr_api_struct->config[0].i_channels * 8);
}
}
if (pstr_api_struct->config[0].aac_config.bitreservoir_size < avg_bytes_per_frame_per_ch) {
return IA_EXHEAACE_CONFIG_NONFATAL_BITRES_SIZE_TOO_SMALL;
}
}
if (pstr_input_config->i_use_es) {
// Write GA header
ia_bit_buf_struct *pstr_ia_asc_bit_buf;
pstr_ia_asc_bit_buf = iusace_create_bit_buffer(
&(pstr_api_struct->pstr_state->str_bit_buf), pstr_api_struct->pp_mem[IA_MEMTYPE_OUTPUT],
pstr_api_struct->pstr_mem_info[IA_MEMTYPE_OUTPUT].ui_size, 1);
ixheaace_get_audiospecific_config_bytes(pstr_ia_asc_bit_buf,
&pstr_api_struct->pstr_state->audio_specific_config,
pstr_api_struct->pstr_state->aot
,
pstr_input_config->ccfl_idx);
pstr_api_struct->pstr_state->i_out_bytes = (pstr_ia_asc_bit_buf->cnt_bits + 7) >> 3;
}
if (pstr_api_struct->config->aac_classic) {
pstr_output_config->input_size =
frame_length * channels * pstr_api_struct->config[0].ui_pcm_wd_sz / 8;
} else {
pstr_output_config->input_size =
2 * frame_length * channels * pstr_api_struct->config[0].ui_pcm_wd_sz / 8;
}
pstr_output_config->samp_freq = pstr_api_struct->config[0].native_sample_rate;
pstr_output_config->header_samp_freq = pstr_api_struct->config[0].aac_config.core_sample_rate;
pstr_output_config->down_sampling_ratio =
pstr_api_struct->config->aac_classic == 0 ? 2.0f : 1.0f;
switch (pstr_api_struct->config->aot) {
case AOT_AAC_LC:
pstr_output_config->audio_profile = AUDIO_PROFILE_AAC_LC_L5;
break;
case AOT_SBR:
pstr_output_config->audio_profile = AUDIO_PROFILE_HEAAC_L5;
break;
case AOT_PS:
pstr_output_config->audio_profile = AUDIO_PROFILE_HEAAC_V2_L5;
break;
case AOT_AAC_LD:
pstr_output_config->audio_profile = AUDIO_PROFILE_AAC_LD_L4;
break;
case AOT_AAC_ELD:
if (pstr_api_struct->config[0].use_mps) {
if (pstr_api_struct->config[0].mps_tree_config == TREE_212) {
pstr_output_config->audio_profile = AUDIO_PROFILE_AAC_ELD_L2;
} else {
pstr_output_config->audio_profile = AUDIO_PROFILE_AAC_ELD_L4;
}
} else {
pstr_output_config->audio_profile = AUDIO_PROFILE_AAC_ELD_L1;
}
break;
default:
pstr_output_config->audio_profile = AUDIO_PROFILE_NOT_SPECIFIED;
break;
}
}
else {
pstr_api_struct->pstr_state->pstr_config[0] = &pstr_api_struct->config[0];
error = ia_usac_enc_init(pstr_api_struct, pstr_input_config->ccfl_idx);
if (error) {
return error;
}
pstr_output_config->input_size =
frame_length * channels * (pstr_api_struct->config[0].usac_config.ui_pcm_wd_sz >> 3);
if (pstr_api_struct->config[0].usac_config.use_drc_element) {
ia_drc_input_config *pstr_drc_cfg = (ia_drc_input_config *)(pstr_input_config->pv_drc_cfg);
memcpy(pstr_drc_cfg, &pstr_api_struct->config[0].usac_config.str_drc_cfg,
sizeof(ia_drc_input_config));
}
pstr_output_config->down_sampling_ratio = 1;
if (pstr_api_struct->config[0].usac_config.sbr_enable == 1) {
switch (pstr_api_struct->config[0].ccfl_idx) {
case SBR_8_3:
pstr_output_config->input_size *= 8;
pstr_output_config->input_size /= 3;
pstr_output_config->down_sampling_ratio = 8.0f / 3.0f;
break;
case SBR_2_1:
pstr_output_config->input_size *= 2;
pstr_output_config->down_sampling_ratio = 2;
break;
case SBR_4_1:
pstr_output_config->input_size *= 4;
pstr_output_config->down_sampling_ratio = 4;
break;
}
}
pstr_output_config->samp_freq = pstr_api_struct->config[0].usac_config.native_sample_rate;
pstr_output_config->header_samp_freq =
pstr_api_struct->config[0].usac_config.native_sample_rate;
pstr_output_config->audio_profile = AUDIO_PROFILE_USAC_L2;
if (pstr_input_config->use_drc_element !=
pstr_api_struct->config[0].usac_config.use_drc_element) {
error = IA_EXHEAACE_EXE_NONFATAL_USAC_INVALID_GAIN_POINTS;
}
pstr_input_config->use_drc_element = pstr_api_struct->config[0].usac_config.use_drc_element;
}
pstr_api_struct->pstr_state->ui_init_done = 1;
pstr_output_config->i_out_bytes = pstr_api_struct->pstr_state->i_out_bytes;
return error;
}
IA_ERRORCODE ixheaace_create(pVOID pv_input, pVOID pv_output) {
IA_ERRORCODE err_code = IA_NO_ERROR;
ixheaace_output_config *pstr_out_cfg = (ixheaace_output_config *)pv_output;
err_code = ixheaace_allocate(pv_input, pv_output);
if (!err_code) {
err_code = ixheaace_init(pstr_out_cfg->pv_ia_process_api_obj, pv_input, pv_output);
}
if (err_code & IA_FATAL_ERROR) {
IXHEAACE_MEM_FREE(pv_output);
}
return err_code;
}
IA_ERRORCODE ixheaace_process(pVOID pstr_obj_ixheaace, pVOID pv_input, pVOID pv_output) {
IA_ERRORCODE error = IA_NO_ERROR;
WORD32 ele_idx;
(VOID) pv_input;
ixheaace_api_struct *pstr_api_struct = (ixheaace_api_struct *)pstr_obj_ixheaace;
ixheaace_output_config *pstr_output_config = (ixheaace_output_config *)pv_output;
pstr_api_struct->pstr_state->is_quant_spec_zero = 0;
pstr_api_struct->pstr_state->is_gain_limited = 0;
if (!pstr_api_struct->usac_en) {
for (ele_idx = 0; ele_idx < pstr_api_struct->config[0].num_bs_elements; ele_idx++) {
error = ia_enhaacplus_enc_execute(pstr_api_struct, ele_idx);
if (error != IA_NO_ERROR) {
return error;
}
}
if ((error == IA_NO_ERROR) && (pstr_api_struct->pstr_state->is_quant_spec_zero)) {
error = IA_EXHEAACE_EXE_NONFATAL_QUANTIZATION_SPECTRUM_ZERO;
}
if ((error == IA_NO_ERROR) && (pstr_api_struct->pstr_state->is_gain_limited)) {
error = IA_EXHEAACE_EXE_NONFATAL_QUANTIZATION_INSUFFICIENT_BITRES;
}
} else {
error = iusace_process(pstr_api_struct);
if ((error == IA_NO_ERROR) && (pstr_api_struct->pstr_state->is_quant_spec_zero)) {
error = IA_EXHEAACE_EXE_NONFATAL_USAC_QUANTIZATION_SPECTRUM_ZERO;
}
if ((error == IA_NO_ERROR) && (pstr_api_struct->pstr_state->is_gain_limited)) {
error = IA_EXHEAACE_EXE_NONFATAL_USAC_QUANTIZATION_INSUFFICIENT_BITRES;
}
}
pstr_output_config->i_out_bytes = pstr_api_struct->pstr_state->i_out_bytes;
return error;
}
IA_ERRORCODE ixheaace_delete(pVOID pv_output) {
IXHEAACE_MEM_FREE(pv_output);
return IA_NO_ERROR;
}