/****************************************************************************** * * * Copyright (C) 2023 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ***************************************************************************** * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore */ #include #include #include #include #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" #include "ixheaace_psy_const.h" #include "ixheaace_block_switch.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_psy_data.h" #include "ixheaace_interface.h" #include "ixheaace_adjust_threshold_data.h" #include "ixheaace_dynamic_bits.h" #include "ixheaace_qc_data.h" #include "ixheaace_sf_estimation.h" #include "ixheaace_quant.h" #include "ixheaace_bits_count.h" #include "ixheaace_tns_params.h" #include "ixheaace_common_utils.h" VOID iaace_calc_form_fac_per_chan(FLOAT32 *ptr_sfb_form_factor, FLOAT32 *ptr_sfb_num_relevant_lines, ixheaace_psy_out_channel *pstr_psy_out_chan, FLOAT32 *ptr_sfb_ld_energy) { WORD32 i, j, sfb_offs; WORD32 sfb, sfb_width; memset(ptr_sfb_num_relevant_lines, 0, sizeof(*ptr_sfb_num_relevant_lines) * pstr_psy_out_chan->sfb_count); memset(ptr_sfb_ld_energy, 0, sizeof(*ptr_sfb_ld_energy) * pstr_psy_out_chan->sfb_count); for (sfb_offs = 0; sfb_offs < pstr_psy_out_chan->sfb_count; sfb_offs += pstr_psy_out_chan->sfb_per_group) { i = sfb_offs; for (sfb = 0; sfb < pstr_psy_out_chan->max_sfb_per_grp; sfb++, i++) { ptr_sfb_form_factor[i] = MIN_FLT_VAL; if (pstr_psy_out_chan->ptr_sfb_energy[i] > pstr_psy_out_chan->ptr_sfb_thr[i]) { FLOAT32 avg_form_factor; for (j = pstr_psy_out_chan->sfb_offsets[i]; j < pstr_psy_out_chan->sfb_offsets[i + 1]; j++) { ptr_sfb_form_factor[i] += (FLOAT32)sqrt(fabs(pstr_psy_out_chan->ptr_spec_coeffs[j])); } sfb_width = pstr_psy_out_chan->sfb_offsets[i + 1] - pstr_psy_out_chan->sfb_offsets[i]; avg_form_factor = (FLOAT32)pow(pstr_psy_out_chan->ptr_sfb_energy[i] / (FLOAT32)sfb_width, 0.25f); ptr_sfb_num_relevant_lines[i] = ptr_sfb_form_factor[i] / avg_form_factor; ptr_sfb_ld_energy[i] = (FLOAT32)(log(pstr_psy_out_chan->ptr_sfb_energy[i]) * LOG2_1); } } } } static VOID iaace_calculate_exp_spec(const WORD32 num_lines, FLOAT32 *ptr_exp_spec, FLOAT32 *ptr_ptr_mdct_spec) { WORD32 line; for (line = 0; line < num_lines; line++) { FLOAT32 tmp = ptr_ptr_mdct_spec[line]; ptr_exp_spec[line] = (FLOAT32)sqrt(fabs(tmp)); ptr_exp_spec[line] *= (FLOAT32)sqrt(ptr_exp_spec[line]); } } static WORD32 iaace_scf_delta_bit_count(WORD32 delta) { if (delta > 60) { return (ixheaace_huffman_code_table[120][0]); } if (delta < -60) { return (ixheaace_huffman_code_table[0][0]); } return (ixheaace_huffman_code_table[delta + 60][0]); } static WORD32 iaace_count_single_scf_bits(WORD32 scf, WORD32 left_scf, WORD32 right_scf) { WORD32 scf_bits; scf_bits = iaace_scf_delta_bit_count(left_scf - scf) + iaace_scf_delta_bit_count(scf - right_scf); return scf_bits; } static FLOAT32 iaace_calc_single_spec_pe(WORD32 scf, FLOAT32 sfb_const_pe_part, FLOAT32 num_lines) { FLOAT32 spec_pe; FLOAT32 ld_ratio; ld_ratio = sfb_const_pe_part - (FLOAT32)0.375f * (FLOAT32)scf; if (ld_ratio >= PE_C1) { spec_pe = (FLOAT32)0.7f * num_lines * ld_ratio; } else { spec_pe = (FLOAT32)0.7f * num_lines * (PE_C2 + PE_C3 * ld_ratio); } return spec_pe; } static WORD32 iaace_count_scf_bits_diff(WORD16 *ptr_sfb_prev, WORD16 *ptr_sfb_new, WORD32 sfb_count, WORD32 start_sfb, WORD32 stop_sfb) { WORD32 scf_bits_diff = 0; WORD32 sfb = 0, sfb_last; WORD32 sfb_prev, sfb_next; sfb_last = start_sfb; while ((sfb_last < stop_sfb) && (ptr_sfb_prev[sfb_last] == SHRT_MIN)) { sfb_last++; } sfb_prev = start_sfb - 1; while ((sfb_prev >= 0) && (ptr_sfb_prev[sfb_prev] == SHRT_MIN)) { sfb_prev--; } if (sfb_prev >= 0) { scf_bits_diff += iaace_scf_delta_bit_count(ptr_sfb_new[sfb_prev] - ptr_sfb_new[sfb_last]) - iaace_scf_delta_bit_count(ptr_sfb_prev[sfb_prev] - ptr_sfb_prev[sfb_last]); } for (sfb = sfb_last + 1; sfb < stop_sfb; sfb++) { if (ptr_sfb_prev[sfb] != SHRT_MIN) { scf_bits_diff += iaace_scf_delta_bit_count(ptr_sfb_new[sfb_last] - ptr_sfb_new[sfb]) - iaace_scf_delta_bit_count(ptr_sfb_prev[sfb_last] - ptr_sfb_prev[sfb]); sfb_last = sfb; } } sfb_next = stop_sfb; while ((sfb_next < sfb_count) && (ptr_sfb_prev[sfb_next] == SHRT_MIN)) { sfb_next++; } if (sfb_next < sfb_count) { scf_bits_diff += iaace_scf_delta_bit_count(ptr_sfb_new[sfb_last] - ptr_sfb_new[sfb_next]) - iaace_scf_delta_bit_count(ptr_sfb_prev[sfb_last] - ptr_sfb_prev[sfb_next]); } return scf_bits_diff; } static FLOAT32 iaace_calc_spec_pe_diff(ixheaace_psy_out_channel *pstr_psy_out, WORD16 *ptr_scf_prev, WORD16 *ptr_scf_new, FLOAT32 *ptr_sfb_const_pe_part, FLOAT32 *ptr_sfb_form_fac, FLOAT32 *ptr_sfb_num_rel_lines, WORD32 start_sfb, WORD32 stop_sfb) { FLOAT32 spec_pe_diff = 0.0f; WORD32 sfb; for (sfb = start_sfb; sfb < stop_sfb; sfb++) { if (ptr_scf_prev[sfb] != SHRT_MIN) { FLOAT32 ld_ratio_prev, ld_ratio_new, pe_prev, pe_new; if (ptr_sfb_const_pe_part[sfb] == MIN_FLT_VAL) { ptr_sfb_const_pe_part[sfb] = (FLOAT32)log(pstr_psy_out->ptr_sfb_energy[sfb] * (FLOAT32)6.75f / ptr_sfb_form_fac[sfb]) * LOG2_1; } ld_ratio_prev = ptr_sfb_const_pe_part[sfb] - 0.375f * ptr_scf_prev[sfb]; ld_ratio_new = ptr_sfb_const_pe_part[sfb] - 0.375f * ptr_scf_new[sfb]; if (ld_ratio_prev >= PE_C1) { pe_prev = ld_ratio_prev; } else { pe_prev = PE_C2 + PE_C3 * ld_ratio_prev; } if (ld_ratio_new >= PE_C1) { pe_new = ld_ratio_new; } else { pe_new = PE_C2 + PE_C3 * ld_ratio_new; } spec_pe_diff += (FLOAT32)0.7f * ptr_sfb_num_rel_lines[sfb] * (pe_new - pe_prev); } } return spec_pe_diff; } static FLOAT32 iaace_calc_sfb_dist(const FLOAT32 *ptr_spec, const FLOAT32 *ptr_exp_spec, WORD16 *ptr_quant_spec, WORD32 sfb_width, WORD32 gain) { WORD32 i = 0; FLOAT32 dist = 0; FLOAT32 k = -0.0946f + 0.5f; FLOAT32 quantizer = ixheaace_fd_quant_table[gain + 128]; FLOAT32 inv_quantizer = ixheaace_fd_inv_quant_table[gain + 128]; while (i < sfb_width) { FLOAT32 iq_val; FLOAT32 diff; ptr_quant_spec[i] = (WORD16)(k + quantizer * ptr_exp_spec[i]); if (ptr_quant_spec[i] < 64) { iq_val = ixheaace_pow_4_3_table[ptr_quant_spec[i]] * inv_quantizer; } else { iq_val = (FLOAT32)((pow((FLOAT32)abs(ptr_quant_spec[i]), 4.0f / 3.0f)) * inv_quantizer); } diff = (FLOAT32)fabs(ptr_spec[i]) - iq_val; dist += diff * diff; i++; } return dist; } static WORD16 iaace_improve_scf(FLOAT32 *ptr_spec, FLOAT32 *ptr_exp_spec, WORD16 *ptr_quant_spec, WORD16 *ptr_quant_spec_temp, WORD32 sfb_width, FLOAT32 threshold, WORD16 scf, WORD16 min_scf, FLOAT32 *dist, WORD16 *ptr_min_calc_scf) { FLOAT32 sfb_dist; WORD16 best_scf = scf; WORD32 j; sfb_dist = iaace_calc_sfb_dist(ptr_spec, ptr_exp_spec, ptr_quant_spec, sfb_width, scf); *ptr_min_calc_scf = scf; if (sfb_dist > (1.25 * threshold)) { FLOAT32 best_sfb_dist = sfb_dist; if (scf > min_scf) { scf--; sfb_dist = iaace_calc_sfb_dist(ptr_spec, ptr_exp_spec, ptr_quant_spec_temp, sfb_width, scf); if (sfb_dist < best_sfb_dist) { best_scf = scf; best_sfb_dist = sfb_dist; for (j = 0; j < sfb_width; j++) { ptr_quant_spec[j] = ptr_quant_spec_temp[j]; } } *ptr_min_calc_scf = scf; } *dist = best_sfb_dist; } else { FLOAT32 best_sfb_dist = sfb_dist; FLOAT32 allowed_sfb_dist = MIN(sfb_dist * 1.25f, threshold); WORD32 count; for (count = SCF_COUNT_LIMIT_AAC; count >= 0; count--) { scf++; sfb_dist = iaace_calc_sfb_dist(ptr_spec, ptr_exp_spec, ptr_quant_spec_temp, sfb_width, scf); if (sfb_dist < allowed_sfb_dist) { *ptr_min_calc_scf = best_scf + 1; best_scf = scf; best_sfb_dist = sfb_dist; for (j = 0; j < sfb_width; j++) { ptr_quant_spec[j] = ptr_quant_spec_temp[j]; } } } *dist = best_sfb_dist; } for (j = 0; j < sfb_width; j++) { if (ptr_spec[j] < 0) { ptr_quant_spec[j] = -ptr_quant_spec[j]; } } return best_scf; } static VOID iaace_assimilate_single_scf(ixheaace_psy_out_channel *pstr_psy_out, FLOAT32 *ptr_exp_spec, WORD16 *ptr_quant_spec, WORD16 *ptr_quant_spec_temp, WORD16 *ptr_scf, WORD16 *ptr_min_scf, FLOAT32 *ptr_sfb_dist, FLOAT32 *ptr_sfb_const_pe_part, FLOAT32 *ptr_sfb_form_fac, FLOAT32 *ptr_sfb_num_lines, WORD16 *ptr_min_calc_scf, FLOAT32 *ptr_ptr_mdct_spec) { WORD32 sfb_prev, sfb_act, sfb_next; WORD16 scf_act = 0, *scf_prev, *scf_next, min_scf, max_scf; WORD32 sfb_width, sfb_offs; FLOAT32 energy; FLOAT32 sfb_pe_prev, sfb_pe_new; FLOAT32 sfb_dist_new; WORD32 j; WORD32 success = 0; FLOAT32 delta_pe = 0.0f, delta_pe_new, delta_pe_temp; WORD16 prev_scf_last[MAXIMUM_GROUPED_SCALE_FACTOR_BAND], prev_scf_next[MAXIMUM_GROUPED_SCALE_FACTOR_BAND]; FLOAT32 delta_pe_last[MAXIMUM_GROUPED_SCALE_FACTOR_BAND]; WORD32 update_min_scf; for (j = 0; j < pstr_psy_out->sfb_count; j++) { prev_scf_last[j] = SHRT_MAX; prev_scf_next[j] = SHRT_MAX; delta_pe_last[j] = MAX_FLT_VAL; } sfb_prev = -1; sfb_act = -1; sfb_next = -1; scf_prev = 0; scf_next = 0; min_scf = SHRT_MAX; max_scf = SHRT_MAX; do { sfb_next++; while ((sfb_next < pstr_psy_out->sfb_count) && (ptr_scf[sfb_next] == SHRT_MIN)) { sfb_next++; } if ((sfb_prev >= 0) && (sfb_act >= 0) && (sfb_next < pstr_psy_out->sfb_count)) { scf_act = ptr_scf[sfb_act]; scf_prev = ptr_scf + sfb_prev; scf_next = ptr_scf + sfb_next; min_scf = MIN(*scf_prev, *scf_next); max_scf = MAX(*scf_prev, *scf_next); } else { if ((sfb_prev == -1) && (sfb_act >= 0) && (sfb_next < pstr_psy_out->sfb_count)) { scf_act = ptr_scf[sfb_act]; scf_prev = &scf_act; scf_next = ptr_scf + sfb_next; min_scf = *scf_next; max_scf = *scf_next; } else { if ((sfb_prev >= 0) && (sfb_act >= 0) && (sfb_next == pstr_psy_out->sfb_count)) { scf_act = ptr_scf[sfb_act]; scf_prev = ptr_scf + sfb_prev; scf_next = &scf_act; min_scf = *scf_prev; max_scf = *scf_prev; } } } if (sfb_act >= 0) { min_scf = MAX(min_scf, ptr_min_scf[sfb_act]); } if ((sfb_act >= 0) && (sfb_prev >= 0 || sfb_next < pstr_psy_out->sfb_count) && (scf_act > min_scf) && (scf_act <= min_scf + MAX_SCF_DELTA) && (scf_act >= max_scf - MAX_SCF_DELTA) && (*scf_prev != prev_scf_last[sfb_act] || *scf_next != prev_scf_next[sfb_act] || delta_pe < delta_pe_last[sfb_act])) { success = 0; sfb_width = pstr_psy_out->sfb_offsets[sfb_act + 1] - pstr_psy_out->sfb_offsets[sfb_act]; sfb_offs = pstr_psy_out->sfb_offsets[sfb_act]; energy = pstr_psy_out->ptr_sfb_energy[sfb_act]; if (ptr_sfb_const_pe_part[sfb_act] == MIN_FLT_VAL) { ptr_sfb_const_pe_part[sfb_act] = (FLOAT32)log(energy * (FLOAT32)6.75f / ptr_sfb_form_fac[sfb_act]) * LOG2_1; } sfb_pe_prev = iaace_calc_single_spec_pe(scf_act, ptr_sfb_const_pe_part[sfb_act], ptr_sfb_num_lines[sfb_act]) + (FLOAT32)iaace_count_single_scf_bits(scf_act, *scf_prev, *scf_next); delta_pe_new = delta_pe; update_min_scf = 1; do { scf_act--; if (scf_act < ptr_min_calc_scf[sfb_act] && scf_act >= max_scf - MAX_SCF_DELTA) { sfb_pe_new = iaace_calc_single_spec_pe(scf_act, ptr_sfb_const_pe_part[sfb_act], ptr_sfb_num_lines[sfb_act]) + (FLOAT32)iaace_count_single_scf_bits(scf_act, *scf_prev, *scf_next); delta_pe_temp = delta_pe + sfb_pe_new - sfb_pe_prev; if (delta_pe_temp < (FLOAT32)10.0f) { sfb_dist_new = iaace_calc_sfb_dist(ptr_ptr_mdct_spec + sfb_offs, ptr_exp_spec + sfb_offs, ptr_quant_spec_temp + sfb_offs, sfb_width, scf_act); if (sfb_dist_new < ptr_sfb_dist[sfb_act]) { ptr_scf[sfb_act] = scf_act; ptr_sfb_dist[sfb_act] = sfb_dist_new; for (j = sfb_offs; j < sfb_offs + sfb_width; j++) { ptr_quant_spec[j] = ptr_quant_spec_temp[j]; if (ptr_ptr_mdct_spec[j] < 0.0f) { ptr_quant_spec[j] = -ptr_quant_spec[j]; } } delta_pe_new = delta_pe_temp; success = 1; } if (update_min_scf) { ptr_min_calc_scf[sfb_act] = scf_act; } } else { update_min_scf = 0; } } } while (scf_act > min_scf); delta_pe = delta_pe_new; prev_scf_last[sfb_act] = *scf_prev; prev_scf_next[sfb_act] = *scf_next; delta_pe_last[sfb_act] = delta_pe; } if (success) { sfb_prev = -1; sfb_act = -1; sfb_next = -1; scf_prev = 0; scf_next = 0; min_scf = SHRT_MAX; max_scf = SHRT_MAX; success = 0; } else { sfb_prev = sfb_act; sfb_act = sfb_next; } } while (sfb_next < pstr_psy_out->sfb_count); } static VOID iaace_assimilate_multiple_scf(ixheaace_psy_out_channel *pstr_psy_out, FLOAT32 *ptr_exp_spec, WORD16 *ptr_quant_spec, WORD16 *ptr_quant_spec_temp, WORD16 *ptr_scf, WORD16 *ptr_min_scf, FLOAT32 *ptr_sfb_dist, FLOAT32 *ptr_sfb_const_pe_part, FLOAT32 *ptr_sfb_form_fac, FLOAT32 *ptr_sfb_num_lines, FLOAT32 *ptr_ptr_mdct_spec) { WORD32 sfb, start_sfb, stop_sfb; WORD16 scf_temp[MAXIMUM_GROUPED_SCALE_FACTOR_BAND], min_scf, max_scf, scf_act; WORD32 possible_region_found; WORD32 sfb_width, sfb_offs, j; FLOAT32 sfb_dist_new[MAXIMUM_GROUPED_SCALE_FACTOR_BAND] = {0}; FLOAT32 prev_dist_sum, new_dist_sum; WORD32 delta_scf_bits; FLOAT32 delta_spec_pe; FLOAT32 delta_pe = 0.0f, delta_pe_new; WORD32 sfb_count = pstr_psy_out->sfb_count; min_scf = SHRT_MAX; max_scf = SHRT_MIN; for (sfb = 0; sfb < sfb_count; sfb++) { if (ptr_scf[sfb] != SHRT_MIN) { min_scf = MIN(min_scf, ptr_scf[sfb]); max_scf = MAX(max_scf, ptr_scf[sfb]); } } if (max_scf != SHRT_MIN && max_scf <= min_scf + MAX_SCF_DELTA) { scf_act = max_scf; do { scf_act = scf_act - 2; memcpy(scf_temp, ptr_scf, MAXIMUM_GROUPED_SCALE_FACTOR_BAND * sizeof(*ptr_scf)); stop_sfb = 0; do { sfb = stop_sfb; while (sfb < sfb_count && (ptr_scf[sfb] == SHRT_MIN || ptr_scf[sfb] <= scf_act)) { sfb++; } start_sfb = sfb; sfb++; while (sfb < sfb_count && (ptr_scf[sfb] == SHRT_MIN || ptr_scf[sfb] > scf_act)) { sfb++; } stop_sfb = sfb; possible_region_found = 0; if (start_sfb < sfb_count) { possible_region_found = 1; for (sfb = start_sfb; sfb < stop_sfb; sfb++) { if (ptr_scf[sfb] != SHRT_MIN) { if (scf_act < ptr_min_scf[sfb]) { possible_region_found = 0; break; } } } } if (possible_region_found) { for (sfb = start_sfb; sfb < stop_sfb; sfb++) { if (scf_temp[sfb] != SHRT_MIN) { scf_temp[sfb] = scf_act; } } delta_scf_bits = iaace_count_scf_bits_diff(ptr_scf, scf_temp, sfb_count, start_sfb, stop_sfb); delta_spec_pe = iaace_calc_spec_pe_diff(pstr_psy_out, ptr_scf, scf_temp, ptr_sfb_const_pe_part, ptr_sfb_form_fac, ptr_sfb_num_lines, start_sfb, stop_sfb); delta_pe_new = delta_pe + (FLOAT32)delta_scf_bits + delta_spec_pe; if (delta_pe_new < (FLOAT32)10.0f) { prev_dist_sum = new_dist_sum = 0.0f; for (sfb = start_sfb; sfb < stop_sfb; sfb++) { if (scf_temp[sfb] != SHRT_MIN) { prev_dist_sum += ptr_sfb_dist[sfb]; sfb_width = pstr_psy_out->sfb_offsets[sfb + 1] - pstr_psy_out->sfb_offsets[sfb]; sfb_offs = pstr_psy_out->sfb_offsets[sfb]; sfb_dist_new[sfb] = iaace_calc_sfb_dist(ptr_ptr_mdct_spec + sfb_offs, ptr_exp_spec + sfb_offs, ptr_quant_spec_temp + sfb_offs, sfb_width, scf_act); if (sfb_dist_new[sfb] > pstr_psy_out->ptr_sfb_thr[sfb]) { new_dist_sum = (FLOAT32)2.0f * prev_dist_sum; break; } new_dist_sum += sfb_dist_new[sfb]; } } if (new_dist_sum < prev_dist_sum) { delta_pe = delta_pe_new; for (sfb = start_sfb; sfb < stop_sfb; sfb++) { if (ptr_scf[sfb] != SHRT_MIN) { sfb_width = pstr_psy_out->sfb_offsets[sfb + 1] - pstr_psy_out->sfb_offsets[sfb]; sfb_offs = pstr_psy_out->sfb_offsets[sfb]; ptr_scf[sfb] = scf_act; ptr_sfb_dist[sfb] = sfb_dist_new[sfb]; for (j = sfb_offs; j < sfb_offs + sfb_width; j++) { ptr_quant_spec[j] = ptr_quant_spec_temp[j]; if (ptr_ptr_mdct_spec[j] < 0.0f) { ptr_quant_spec[j] = -ptr_quant_spec[j]; } } } } } } } } while (stop_sfb <= sfb_count); } while (scf_act > min_scf); } } VOID iaace_estimate_scfs_chan( ixheaace_psy_out_channel **pstr_psy_out, ixheaace_qc_out_channel **pstr_qc_out_chan, FLOAT32 sfb_form_factor_ch[IXHEAACE_MAX_CH_IN_BS_ELE][MAXIMUM_GROUPED_SCALE_FACTOR_BAND], FLOAT32 sfb_num_relevant_lines_ch[][MAXIMUM_GROUPED_SCALE_FACTOR_BAND], WORD32 num_channels, WORD32 chn, WORD32 frame_len_long) { WORD16 *ptr_scalefactor; WORD32 *global_gain; FLOAT32 *ptr_sfb_form_factor; FLOAT32 *ptr_sfb_num_relevant_lines_ch; WORD16 *ptr_quant_spec; WORD32 i, ch, j; FLOAT32 thresh, energy, energy_part, thr_part; FLOAT32 scf_float; WORD16 scf_int = 0, min_scf = 0, max_scf = 0; FLOAT32 max_spec = 0.0f; WORD16 min_sf_max_quant[MAXIMUM_GROUPED_SCALE_FACTOR_BAND] = {0}; FLOAT32 sfb_dist[MAXIMUM_GROUPED_SCALE_FACTOR_BAND] = {0}; WORD16 min_calc_scf[MAXIMUM_GROUPED_SCALE_FACTOR_BAND] = {0}; WORD16 quant_spec_temp[FRAME_LEN_1024]; FLOAT32 ptr_exp_spec[FRAME_LEN_1024]; FLOAT32 ptr_mdct_spec[FRAME_LEN_1024]; memset(quant_spec_temp, 0, frame_len_long * sizeof(quant_spec_temp[0])); memset(ptr_mdct_spec, 0, frame_len_long * sizeof(ptr_mdct_spec[0])); memset(ptr_exp_spec, 0, frame_len_long * sizeof(ptr_exp_spec[0])); for (ch = chn; ch < chn + num_channels; ch++) { ixheaace_psy_out_channel *pstr_psy_out_chan = pstr_psy_out[ch]; pstr_qc_out_chan[ch]->global_gain = 0; memset(pstr_qc_out_chan[ch]->scalefactor, 0, sizeof(*pstr_qc_out_chan[ch]->scalefactor) * pstr_psy_out[ch]->sfb_count); memset(pstr_qc_out_chan[ch]->quant_spec, 0, sizeof(*pstr_qc_out_chan[ch]->quant_spec) * frame_len_long); ptr_scalefactor = pstr_qc_out_chan[ch]->scalefactor; global_gain = &pstr_qc_out_chan[ch]->global_gain; ptr_sfb_form_factor = &sfb_form_factor_ch[ch][0]; ptr_sfb_num_relevant_lines_ch = &sfb_num_relevant_lines_ch[ch][0]; ptr_quant_spec = pstr_qc_out_chan[ch]->quant_spec; for (i = 0; i < pstr_psy_out_chan->sfb_count; i++) { thresh = pstr_psy_out_chan->ptr_sfb_thr[i]; energy = pstr_psy_out_chan->ptr_sfb_energy[i]; max_spec = 0.0f; for (j = pstr_psy_out_chan->sfb_offsets[i]; j < pstr_psy_out_chan->sfb_offsets[i + 1]; j++) { max_spec = (FLOAT32)MAX(max_spec, fabsf(pstr_psy_out_chan->ptr_spec_coeffs[j])); } ptr_scalefactor[i] = MIN_SHRT_VAL; min_sf_max_quant[i] = MIN_SHRT_VAL; if ((max_spec > 0.0) && (energy > thresh) && (ptr_sfb_form_factor[i] != MIN_FLT_VAL)) { energy_part = (FLOAT32)log10(ptr_sfb_form_factor[i]); thr_part = (FLOAT32)log10(6.75 * thresh + MIN_FLT_VAL); scf_float = 8.8585f * (thr_part - energy_part); scf_int = (WORD16)floor(scf_float); min_sf_max_quant[i] = (WORD16)floor(C1_SF + C2_SF * log(max_spec)); scf_int = MAX(scf_int, min_sf_max_quant[i]); scf_int = MAX(scf_int, MIN_GAIN_INDEX_AAC); scf_int = MIN(scf_int, (MAX_GAIN_INDEX_AAC - SCF_COUNT_LIMIT_AAC - 1)); for (j = 0; j < pstr_psy_out_chan->sfb_offsets[i + 1] - pstr_psy_out_chan->sfb_offsets[i]; j++) { ptr_exp_spec[pstr_psy_out_chan->sfb_offsets[i] + j] = (FLOAT32)( pstr_psy_out_chan->ptr_spec_coeffs[pstr_psy_out_chan->sfb_offsets[i] + j]); ptr_mdct_spec[pstr_psy_out_chan->sfb_offsets[i] + j] = (FLOAT32)( pstr_psy_out_chan->ptr_spec_coeffs[pstr_psy_out_chan->sfb_offsets[i] + j]); } iaace_calculate_exp_spec( pstr_psy_out_chan->sfb_offsets[i + 1] - pstr_psy_out_chan->sfb_offsets[i], ptr_exp_spec + pstr_psy_out_chan->sfb_offsets[i], ptr_mdct_spec + pstr_psy_out_chan->sfb_offsets[i]); scf_int = iaace_improve_scf( ptr_mdct_spec + pstr_psy_out_chan->sfb_offsets[i], ptr_exp_spec + pstr_psy_out_chan->sfb_offsets[i], ptr_quant_spec + pstr_psy_out_chan->sfb_offsets[i], quant_spec_temp + pstr_psy_out_chan->sfb_offsets[i], pstr_psy_out_chan->sfb_offsets[i + 1] - pstr_psy_out_chan->sfb_offsets[i], thresh, scf_int, min_sf_max_quant[i], &sfb_dist[i], &min_calc_scf[i]); ptr_scalefactor[i] = scf_int; } } { FLOAT32 sfb_const_pe_part[MAXIMUM_GROUPED_SCALE_FACTOR_BAND]; for (i = 0; i < pstr_psy_out_chan->sfb_count; i++) { sfb_const_pe_part[i] = MIN_FLT_VAL; } iaace_assimilate_single_scf(pstr_psy_out_chan, ptr_exp_spec, ptr_quant_spec, quant_spec_temp, ptr_scalefactor, min_sf_max_quant, sfb_dist, sfb_const_pe_part, ptr_sfb_form_factor, ptr_sfb_num_relevant_lines_ch, min_calc_scf, ptr_mdct_spec); iaace_assimilate_multiple_scf(pstr_psy_out_chan, ptr_exp_spec, ptr_quant_spec, quant_spec_temp, ptr_scalefactor, min_sf_max_quant, sfb_dist, sfb_const_pe_part, ptr_sfb_form_factor, ptr_sfb_num_relevant_lines_ch, ptr_mdct_spec); } max_scf = MIN_SHRT_VAL; min_scf = MAX_SHRT_VAL; for (i = 0; i < pstr_psy_out_chan->sfb_count; i++) { if (max_scf < ptr_scalefactor[i]) { max_scf = ptr_scalefactor[i]; } if ((ptr_scalefactor[i] != MIN_SHRT_VAL) && (min_scf > ptr_scalefactor[i])) { min_scf = ptr_scalefactor[i]; } } for (i = 0; i < pstr_psy_out[ch]->sfb_count; i++) { if ((ptr_scalefactor[i] != MIN_SHRT_VAL) && (min_scf + MAX_SCF_DELTA) < ptr_scalefactor[i]) { ptr_scalefactor[i] = min_scf + MAX_SCF_DELTA; iaace_calc_sfb_dist( ptr_mdct_spec + pstr_psy_out_chan->sfb_offsets[i], ptr_exp_spec + pstr_psy_out_chan->sfb_offsets[i], ptr_quant_spec + pstr_psy_out_chan->sfb_offsets[i], pstr_psy_out_chan->sfb_offsets[i + 1] - pstr_psy_out_chan->sfb_offsets[i], ptr_scalefactor[i]); } } max_scf = MIN((min_scf + MAX_SCF_DELTA), max_scf); if (max_scf > MIN_SHRT_VAL) { *global_gain = max_scf; for (i = 0; i < pstr_psy_out_chan->sfb_count; i++) { if (ptr_scalefactor[i] == MIN_SHRT_VAL) { ptr_scalefactor[i] = 0; for (j = pstr_psy_out_chan->sfb_offsets[i]; j < pstr_psy_out_chan->sfb_offsets[i + 1]; j++) { pstr_psy_out_chan->ptr_spec_coeffs[j] = 0.0f; } } else { ptr_scalefactor[i] = max_scf - ptr_scalefactor[i]; } } } else { *global_gain = 0; for (i = 0; i < pstr_psy_out_chan->sfb_count; i++) { ptr_scalefactor[i] = 0; for (j = pstr_psy_out_chan->sfb_offsets[i]; j < pstr_psy_out_chan->sfb_offsets[i + 1]; j++) { pstr_psy_out_chan->ptr_spec_coeffs[j] = 0.0f; } } } } }