/****************************************************************************** * * * Copyright (C) 2018 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ***************************************************************************** * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore */ #include #include #include #include "ixheaacd_type_def.h" #include "ixheaacd_bitbuffer.h" #include "ixheaacd_interface.h" #include "ixheaacd_tns_usac.h" #include "ixheaacd_cnst.h" #include "ixheaacd_acelp_info.h" #include "ixheaacd_sbrdecsettings.h" #include "ixheaacd_info.h" #include "ixheaacd_sbr_common.h" #include "ixheaacd_drc_data_struct.h" #include "ixheaacd_drc_dec.h" #include "ixheaacd_sbrdecoder.h" #include "ixheaacd_mps_polyphase.h" #include "ixheaacd_sbr_const.h" #include "ixheaacd_main.h" #include "ixheaacd_arith_dec.h" #include "ixheaacd_bit_extract.h" #include "ixheaacd_func_def.h" #include "ixheaacd_interface.h" #include "ixheaacd_info.h" #include "ixheaacd_defines.h" #define MAX_NR_OF_SWB 120 VOID ixheaacd_calc_grp_offset(ia_sfb_info_struct *ptr_sfb_info, pUWORD8 group) { WORD32 group_offset; WORD32 group_idx; WORD32 ixheaacd_drc_offset; WORD16 *group_offset_p; WORD32 sfb, len; group_offset = 0; group_idx = 0; do { ptr_sfb_info->group_len[group_idx] = group[group_idx] - group_offset; group_offset = group[group_idx]; group_idx++; } while (group_offset < 8); ptr_sfb_info->num_groups = group_idx; group_offset_p = ptr_sfb_info->sfb_idx_tbl; ixheaacd_drc_offset = 0; for (group_idx = 0; group_idx < ptr_sfb_info->num_groups; group_idx++) { len = ptr_sfb_info->group_len[group_idx]; for (sfb = 0; sfb < ptr_sfb_info->sfb_per_sbk; sfb++) { ixheaacd_drc_offset += ptr_sfb_info->sfb_width[sfb] * len; *group_offset_p++ = ixheaacd_drc_offset; } } } VOID ixheaacd_read_tns_u(ia_sfb_info_struct *ptr_sfb_info, ia_tns_frame_info_struct *pstr_tns_frame_info, ia_bit_buf_struct *it_bit_buff) { WORD32 j, k, top, coef_res, resolution, compress; WORD32 short_flag, i; WORD16 *sp, tmp, s_mask, n_mask; ia_tns_filter_struct *tns_filt; ia_tns_info_struct *pstr_tns_info; static const WORD16 sgn_mask[] = {0x2, 0x4, 0x8}; static const WORD16 neg_mask[] = {(WORD16)0xfffc, (WORD16)0xfff8, (WORD16)0xfff0}; WORD16 n_filt_bits; WORD16 start_band_bits; WORD16 order_bits; short_flag = (!ptr_sfb_info->islong); pstr_tns_frame_info->n_subblocks = ptr_sfb_info->max_win_len; if (!short_flag) { n_filt_bits = 2; start_band_bits = 6; order_bits = 4; } else { n_filt_bits = 1; start_band_bits = 4; order_bits = 3; } for (i = 0; i < pstr_tns_frame_info->n_subblocks; i++) { pstr_tns_info = &pstr_tns_frame_info->str_tns_info[i]; if (!(pstr_tns_info->n_filt = ixheaacd_read_bits_buf(it_bit_buff, n_filt_bits))) continue; pstr_tns_info->coef_res = coef_res = ixheaacd_read_bits_buf(it_bit_buff, 1) + 3; top = ptr_sfb_info->sfb_per_sbk; tns_filt = &pstr_tns_info->str_filter[0]; for (j = pstr_tns_info->n_filt; j > 0; j--) { tns_filt->stop_band = top; top = tns_filt->start_band = top - ixheaacd_read_bits_buf(it_bit_buff, start_band_bits); tns_filt->order = ixheaacd_read_bits_buf(it_bit_buff, order_bits); if (tns_filt->order) { tns_filt->direction = ixheaacd_read_bits_buf(it_bit_buff, 1); compress = ixheaacd_read_bits_buf(it_bit_buff, 1); resolution = coef_res - compress; s_mask = sgn_mask[resolution - 2]; n_mask = neg_mask[resolution - 2]; sp = tns_filt->coef; for (k = tns_filt->order; k > 0; k--) { tmp = ixheaacd_read_bits_buf(it_bit_buff, resolution); *sp++ = (tmp & s_mask) ? (tmp | n_mask) : tmp; } } tns_filt++; } } } VOID ixheaacd_scale_factor_data(ia_sfb_info_struct *info, WORD32 tot_sfb, WORD32 max_sfb, WORD32 sfb_per_sbk, WORD8 *ptr_code_book) { WORD band; WORD sect_cb; WORD sect_len; WORD8 *ptr_codebook = ptr_code_book; WORD8 *temp_ptr_codebook = ptr_codebook; WORD32 win_group = info->max_win_len; memset(ptr_codebook, 0, 128); band = 0; while (band < tot_sfb || win_group != 0) { sect_cb = 11; sect_len = max_sfb; band = band + sfb_per_sbk; sect_len = sect_len - 1; for (; sect_len >= 0; sect_len--) { *temp_ptr_codebook++ = sect_cb; } ptr_codebook += 16; temp_ptr_codebook = ptr_codebook; win_group--; } return; } WORD32 ixheaacd_win_seq_select(WORD32 window_sequence_curr, WORD32 window_sequence_last) { WORD32 window_sequence; switch (window_sequence_curr) { case ONLY_LONG_SEQUENCE: window_sequence = ONLY_LONG_SEQUENCE; break; case LONG_START_SEQUENCE: if ((window_sequence_last == LONG_START_SEQUENCE) || (window_sequence_last == EIGHT_SHORT_SEQUENCE) || (window_sequence_last == STOP_START_SEQUENCE)) { window_sequence = STOP_START_SEQUENCE; } else { window_sequence = LONG_START_SEQUENCE; } break; case LONG_STOP_SEQUENCE: window_sequence = LONG_STOP_SEQUENCE; break; case EIGHT_SHORT_SEQUENCE: window_sequence = EIGHT_SHORT_SEQUENCE; break; default: return -1; } return window_sequence; } VOID ixheaacd_tns_reset(ia_sfb_info_struct *ptr_sfb_info, ia_tns_frame_info_struct *pstr_tns_frame_info) { WORD32 s; pstr_tns_frame_info->n_subblocks = ptr_sfb_info->max_win_len; for (s = 0; s < pstr_tns_frame_info->n_subblocks; s++) pstr_tns_frame_info->str_tns_info[s].n_filt = 0; } VOID ixheaacd_section_data(ia_usac_data_struct *usac_data, ia_bit_buf_struct *g_bs, ia_sfb_info_struct *info, WORD16 global_gain, pWORD16 factors, pUWORD8 groups, WORD8 *ptr_code_book) { WORD32 band; WORD16 position = 0; WORD32 group; WORD16 factor = global_gain; WORD8 *temp_codebook_ptr; WORD16 *ptr_scale_fac, *temp_ptr_scale_fac; WORD16 norm_val; WORD32 window_grps, trans_sfb; WORD16 index, length; const UWORD16 *hscf = usac_data->huffman_code_book_scl; const UWORD32 *idx_tab = usac_data->huffman_code_book_scl_index; WORD32 start_bit_pos = g_bs->bit_pos; UWORD8 *start_read_pos = g_bs->ptr_read_next; UWORD8 *ptr_read_next = g_bs->ptr_read_next; WORD32 bit_pos = 7 - g_bs->bit_pos; WORD32 is_1_group = 1; WORD32 bb = 0, i; WORD32 increment; WORD32 read_word = ixheaacd_aac_showbits_32(ptr_read_next, g_bs->cnt_bits, &increment); ptr_read_next = g_bs->ptr_read_next + increment; trans_sfb = info->sfb_per_sbk; temp_ptr_scale_fac = factors; window_grps = info->max_win_len; memset(factors, 0, MAXBANDS); band = trans_sfb - 1; for (group = 0; group < window_grps;) { temp_codebook_ptr = &ptr_code_book[group * 16]; ptr_scale_fac = temp_ptr_scale_fac; group = *groups++; for (band = trans_sfb - 1; band >= 0; band--) { WORD32 cb_num = *temp_codebook_ptr++; if ((band == trans_sfb - 1) && (is_1_group == 1)) { *temp_ptr_scale_fac = factor; temp_ptr_scale_fac++; continue; } if (cb_num == ZERO_HCB) *temp_ptr_scale_fac++ = 0; else { WORD32 pns_band; WORD16 curr_energy = 0; UWORD32 read_word1; read_word1 = read_word << bit_pos; ixheaacd_huffman_decode(read_word1, &index, &length, hscf, idx_tab); bit_pos += length; ixheaacd_aac_read_byte_corr1(&ptr_read_next, &bit_pos, &read_word, g_bs->ptr_bit_buf_end); norm_val = index - 60; if (cb_num > NOISE_HCB) { position = position + norm_val; *temp_ptr_scale_fac++ = -position; } else if (cb_num < NOISE_HCB) { factor = factor + norm_val; *temp_ptr_scale_fac++ = factor; } else { curr_energy += norm_val; pns_band = (group << 4) + trans_sfb - band - 1; temp_ptr_scale_fac[pns_band] = curr_energy; temp_ptr_scale_fac++; } } } is_1_group = 0; if (!(info->islong)) { for (bb++; bb < group; bb++) { for (i = 0; i < trans_sfb; i++) { ptr_scale_fac[i + trans_sfb] = ptr_scale_fac[i]; } temp_ptr_scale_fac += trans_sfb; ptr_scale_fac += trans_sfb; } } } ptr_read_next = ptr_read_next - increment; ixheaacd_aac_read_byte_corr1(&ptr_read_next, &bit_pos, &read_word, g_bs->ptr_bit_buf_end); g_bs->ptr_read_next = ptr_read_next; g_bs->bit_pos = 7 - bit_pos; { WORD32 bits_consumed; bits_consumed = ((g_bs->ptr_read_next - start_read_pos) << 3) + (start_bit_pos - g_bs->bit_pos); g_bs->cnt_bits -= bits_consumed; } } WORD32 ixheaacd_fd_channel_stream( ia_usac_data_struct *usac_data, ia_usac_tmp_core_coder_struct *pstr_core_coder, UWORD8 *max_sfb, WORD32 window_sequence_last, WORD32 chn, WORD32 noise_filling, WORD32 ch, ia_bit_buf_struct *it_bit_buff ) { WORD32 i; WORD32 tot_sfb; WORD32 noise_level = 0; WORD32 arith_reset_flag; WORD32 arth_size; WORD16 global_gain; WORD32 max_spec_coefficients; WORD32 err_code = 0; WORD32 noise_offset; WORD32 *fac_data; ia_sfb_info_struct *info; WORD8 *ptr_code_book = (WORD8 *)&usac_data->scratch_buffer; global_gain = ixheaacd_read_bits_buf(it_bit_buff, 8); if (noise_filling) { noise_level = ixheaacd_read_bits_buf(it_bit_buff, 3); noise_offset = ixheaacd_read_bits_buf(it_bit_buff, 5); } else { noise_level = 0; noise_offset = 0; } if (!pstr_core_coder->common_window) { err_code = ixheaacd_ics_info(usac_data, chn, max_sfb, it_bit_buff, window_sequence_last); if (err_code == -1) return err_code; } info = usac_data->pstr_sfb_info[chn]; if (!pstr_core_coder->common_tw && usac_data->tw_mdct[0] == 1) { usac_data->tw_data_present[chn] = ixheaacd_read_bits_buf(it_bit_buff, 1); if (usac_data->tw_data_present[chn]) { WORD32 i; for (i = 0; i < NUM_TW_NODES; i++) { usac_data->tw_ratio[chn][i] = ixheaacd_read_bits_buf(it_bit_buff, 3); } } } if (*max_sfb == 0) { tot_sfb = 0; } else { i = 0; tot_sfb = info->sfb_per_sbk; while (usac_data->group_dis[chn][i++] < info->max_win_len) { tot_sfb += info->sfb_per_sbk; } } ixheaacd_scale_factor_data(info, tot_sfb, *max_sfb, info->sfb_per_sbk, ptr_code_book); if ((it_bit_buff->ptr_read_next > it_bit_buff->ptr_bit_buf_end - 3) && (it_bit_buff->size == it_bit_buff->max_size)) { return -1; } ixheaacd_section_data(usac_data, it_bit_buff, info, global_gain, usac_data->factors[chn], usac_data->group_dis[chn], ptr_code_book); if (pstr_core_coder->tns_data_present[ch] == 0) ixheaacd_tns_reset(info, usac_data->pstr_tns[chn]); if (pstr_core_coder->tns_data_present[ch] == 1) ixheaacd_read_tns_u(info, usac_data->pstr_tns[chn], it_bit_buff); if (*max_sfb > 0) { max_spec_coefficients = info->sfb_idx_tbl[*max_sfb - 1] / info->group_len[0]; } else { max_spec_coefficients = 0; } if (usac_data->usac_independency_flg) arith_reset_flag = 1; else arith_reset_flag = ixheaacd_read_bits_buf(it_bit_buff, 1); switch (usac_data->window_sequence[chn]) { case EIGHT_SHORT_SEQUENCE: arth_size = usac_data->ccfl / 8; break; default: arth_size = usac_data->ccfl; break; } err_code = ixheaacd_ac_spectral_data( usac_data, max_spec_coefficients, noise_level, noise_offset, arth_size, it_bit_buff, *max_sfb, arith_reset_flag, noise_filling, chn); if (err_code != 0) return err_code; usac_data->fac_data_present[chn] = ixheaacd_read_bits_buf(it_bit_buff, 1); if (usac_data->fac_data_present[chn]) { WORD32 fac_len; if ((usac_data->window_sequence[chn]) == EIGHT_SHORT_SEQUENCE) { fac_len = (usac_data->ccfl) / 16; } else { fac_len = (usac_data->ccfl) / 8; } fac_data = usac_data->fac_data[chn]; fac_data[0] = ixheaacd_read_bits_buf(it_bit_buff, 7); ixheaacd_fac_decoding(fac_len, 0, &fac_data[1], it_bit_buff); } return 0; }