/****************************************************************************** * * 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 "ixheaac_type_def.h" #include "ixheaacd_mps_struct_def.h" #include "ixheaacd_mps_res_rom.h" #include "ixheaacd_mps_aac_struct.h" #include "ixheaac_constants.h" #include "ixheaac_basic_ops32.h" #include "ixheaac_basic_ops40.h" #include "ixheaacd_bitbuffer.h" #include "ixheaacd_common_rom.h" #include "ixheaacd_sbrdecsettings.h" #include "ixheaacd_sbr_scale.h" #include "ixheaacd_env_extr_part.h" #include "ixheaacd_sbr_rom.h" #include "ixheaacd_hybrid.h" #include "ixheaacd_ps_dec.h" #include "ixheaac_error_standards.h" #include "ixheaacd_mps_polyphase.h" #include "ixheaacd_config.h" #include "ixheaacd_qmf_dec.h" #include "ixheaacd_mps_dec.h" #include "ixheaacd_mps_macro_def.h" #include "ixheaacd_mps_basic_op.h" VOID ixheaacd_get_matrix_inversion_weights( WORD32 iid_lf_ls_idx, WORD32 iid_rf_rs_idx, WORD32 prediction_mode, WORD32 c1, WORD32 c2, WORD32 *weight1, WORD32 *weight2, ia_mps_dec_mps_tables_struct *ia_mps_dec_mps_table_ptr) { WORD32 temp, temp_1, temp_2; WORD16 qtemp; WORD32 w1 = ia_mps_dec_mps_table_ptr->m1_m2_table_ptr->cld_tab_2[iid_lf_ls_idx + 15]; WORD32 w2 = ia_mps_dec_mps_table_ptr->m1_m2_table_ptr->cld_tab_2[iid_rf_rs_idx + 15]; if (prediction_mode == 1) { if (abs(c1) >= ONE_IN_Q15) { c1 = ONE_IN_Q15; } else if ((c1 < MINUS_ONE_IN_Q14) && (c1 > MINUS_ONE_IN_Q15)) { c1 = MINUS_ONE_IN_Q15 - (c1 << 1); } else { qtemp = 15; temp = ixheaacd_mps_mult32(TWO_BY_THREE_Q15, c1, &qtemp, 15); temp = ixheaacd_mps_convert_to_qn(temp, qtemp, 15); c1 = ONE_BY_THREE_Q15 + temp; } if (abs(c2) >= ONE_IN_Q15) { c2 = ONE_IN_Q15; } else if ((c2 < MINUS_ONE_IN_Q14) && (c2 > MINUS_ONE_IN_Q15)) { c2 = MINUS_ONE_IN_Q15 - (c2 << 1); } else { qtemp = 15; temp = ixheaacd_mps_mult32(TWO_BY_THREE_Q15, c2, &qtemp, 15); temp = ixheaacd_mps_convert_to_qn(temp, qtemp, 15); qtemp = 15; temp = ixheaacd_mps_add32(temp, ONE_BY_THREE_Q15, &qtemp, 15); c2 = ixheaacd_mps_convert_to_qn(temp, qtemp, 15); } } else { WORD32 c1p, c2p; WORD64 acc; const WORD32 *cld_tab_3 = ia_mps_dec_mps_table_ptr->m1_m2_table_ptr->cld_tab_3; const WORD32 *sqrt_tab = ia_mps_dec_mps_table_ptr->common_table_ptr->sqrt_tab; c1p = cld_tab_3[c1 + 15]; c2p = cld_tab_3[c2 + 15]; acc = (WORD64)((WORD64)c1p * (WORD64)c2p); acc >>= 15; temp = (WORD32)acc; temp_1 = (ONE_IN_Q15 + c2p) << 1; acc += temp_1; temp_2 = (WORD32)acc; temp = ixheaacd_mps_div_32(temp, temp_2, &qtemp); c1 = ixheaacd_mps_sqrt(temp, &qtemp, sqrt_tab); c1 = ixheaacd_mps_convert_to_qn(c1, qtemp, 15); temp_2 = c1p + temp_1; temp = ixheaacd_mps_div_32(c1p, temp_2, &qtemp); c2 = ixheaacd_mps_sqrt(temp, &qtemp, sqrt_tab); c2 = ixheaacd_mps_convert_to_qn(c2, qtemp, 15); } temp_1 = ONE_IN_Q15 + w1; temp_2 = ixheaacd_mps_mult32_shr_15(c1, w1); *weight1 = ixheaacd_mps_div32_in_q15(temp_2, temp_1); temp_1 = ONE_IN_Q15 + w2; temp_2 = ixheaacd_mps_mult32_shr_15(c2, w2); *weight2 = ixheaacd_mps_div32_in_q15(temp_2, temp_1); } VOID ixheaacd_invert_matrix(WORD32 weight1, WORD32 weight2, WORD32 h_real[][2], WORD32 h_imag[][2], const ia_mps_dec_common_tables_struct *common_tab_ptr) { WORD32 h11_f_real, h12_f_real, h21_f_real, h22_f_real; WORD32 h11_f_imag, h12_f_imag, h21_f_imag, h22_f_imag; WORD32 inv_norm_real, inv_norm_imag, inv_norm; WORD32 len1, len2; WORD16 q_len1 = 0, q_len2 = 0; WORD64 acc1, acc2; len1 = ixheaacd_mps_sqrt((ONE_IN_Q15 - (weight1 << 1) + ((weight1 * weight1) >> 14)), &q_len1, common_tab_ptr->sqrt_tab); len2 = ixheaacd_mps_sqrt((ONE_IN_Q15 - (weight2 << 1) + ((weight2 * weight2) >> 14)), &q_len2, common_tab_ptr->sqrt_tab); len1 = ixheaacd_mps_convert_to_qn(len1, q_len1, 15); len2 = ixheaacd_mps_convert_to_qn(len2, q_len2, 15); h11_f_real = ixheaacd_mps_div32_in_q15((ONE_IN_Q15 - weight1), len1); h11_f_imag = ixheaacd_mps_div32_in_q15(weight1, len1); h22_f_imag = -(ixheaacd_mps_div32_in_q15(weight2, len2)); h12_f_real = 0; h12_f_imag = ixheaacd_mps_mult32_shr_15(h22_f_imag, ONE_BY_SQRT_3_Q15); h21_f_real = 0; h21_f_imag = ixheaacd_mps_mult32_shr_15(h11_f_imag, -(ONE_BY_SQRT_3_Q15)); h22_f_real = ixheaacd_mps_div32_in_q15((ONE_IN_Q15 - weight2), len2); acc1 = (WORD64)((WORD64)h11_f_real * (WORD64)h22_f_real - (WORD64)h11_f_imag * (WORD64)h22_f_imag); acc1 >>= 15; acc2 = (WORD64)((WORD64)h12_f_real * (WORD64)h21_f_real - (WORD64)h12_f_imag * (WORD64)h21_f_imag); acc2 >>= 15; inv_norm_real = (WORD32)(acc1 - acc2); acc1 = (WORD64)((WORD64)h11_f_real * (WORD64)h22_f_imag + (WORD64)h11_f_imag * (WORD64)h22_f_real); acc1 >>= 15; acc2 = (WORD64)((WORD64)h12_f_real * (WORD64)h21_f_imag + (WORD64)h12_f_imag * (WORD64)h21_f_real); acc2 >>= 15; inv_norm_imag = (WORD32)(acc1 + acc2); acc1 = (WORD64)((WORD64)inv_norm_real * (WORD64)inv_norm_real + (WORD64)inv_norm_imag * (WORD64)inv_norm_imag); acc1 >>= 15; inv_norm = (WORD32)acc1; inv_norm_real = ixheaacd_mps_div32_in_q15(inv_norm_real, inv_norm); inv_norm_imag = -(ixheaacd_mps_div32_in_q15(inv_norm_imag, inv_norm)); acc1 = (WORD64)((WORD64)h22_f_real * (WORD64)inv_norm_real - (WORD64)h22_f_imag * (WORD64)inv_norm_imag); acc1 >>= 15; h_real[0][0] = (WORD32)acc1; acc1 = (WORD64)((WORD64)h22_f_real * (WORD64)inv_norm_imag + (WORD64)h22_f_imag * (WORD64)inv_norm_real); acc1 >>= 15; h_imag[0][0] = (WORD32)acc1; acc1 = (WORD64)((WORD64)h12_f_imag * (WORD64)inv_norm_imag - (WORD64)h12_f_real * (WORD64)inv_norm_real); acc1 >>= 15; h_real[0][1] = (WORD32)acc1; acc1 = (WORD64)((WORD64)h12_f_real * (WORD64)inv_norm_imag + (WORD64)h12_f_imag * (WORD64)inv_norm_real); acc1 = -(acc1 >> 15); h_imag[0][1] = (WORD32)acc1; acc1 = (WORD64)((WORD64)h21_f_imag * (WORD64)inv_norm_imag - (WORD64)h21_f_real * (WORD64)inv_norm_real); acc1 >>= 15; h_real[1][0] = (WORD32)acc1; acc1 = (WORD64)((WORD64)h21_f_real * (WORD64)inv_norm_imag + (WORD64)h21_f_imag * (WORD64)inv_norm_real); acc1 = -(acc1 >> 15); h_imag[1][0] = (WORD32)acc1; acc1 = (WORD64)((WORD64)h11_f_real * (WORD64)inv_norm_real - (WORD64)h11_f_imag * (WORD64)inv_norm_imag); acc1 >>= 15; h_real[1][1] = (WORD32)acc1; acc1 = (WORD64)((WORD64)h11_f_real * (WORD64)inv_norm_imag + (WORD64)h11_f_imag * (WORD64)inv_norm_real); acc1 >>= 15; h_imag[1][1] = (WORD32)acc1; } WORD32 ixheaacd_dequant_icc_band(WORD32 iccband, WORD32 cldband) { if (iccband < 6) { return iccband; } if (iccband == 6) { if (cldband > 9 && cldband < 21) { switch (cldband) { case 10: case 20: return 10; case 11: case 19: return 11; case 12: case 18: return 12; case 13: case 17: return 13; case 14: case 16: return 14; case 15: return 15; default: return iccband; } } else { return iccband; } } if (7 == iccband) { if (cldband > 7 && cldband < 23) { switch (cldband) { case 8: case 22: return 8; case 9: case 21: return 9; case 10: case 20: return 10; case 11: case 19: return 11; case 12: case 18: return 12; case 13: case 17: return 13; case 14: case 16: return 14; case 15: return 15; default: return iccband; } } else { return iccband; } } else { return iccband; } } WORD32 ixheaacd_dequant_cld_band(WORD32 cld) { switch (cld) { case -4915200: return 0; case -1474560: return 1; case -1310720: return 2; case -1146880: return 3; case -983040: return 4; case -819200: return 5; case -720896: return 6; case -622592: return 7; case -524288: return 8; case -425984: return 9; case -327680: return 10; case -262144: return 11; case -196608: return 12; case -131072: return 13; case -65536: return 14; case 0: return 15; case 65536: return 16; case 131072: return 17; case 196608: return 18; case 262144: return 19; case 327680: return 20; case 425984: return 21; case 524288: return 22; case 622592: return 23; case 720896: return 24; case 819200: return 25; case 983040: return 26; case 1146880: return 27; case 1310720: return 28; case 1474560: return 29; case 4915200: return 30; default: return 0; } } VOID ixheaacd_param_2_umx_ps_core_tables( WORD32 cld[MAX_PARAMETER_BANDS], WORD32 icc[MAX_PARAMETER_BANDS], WORD32 num_ott_bands, WORD32 res_bands, WORD32 h11[MAX_PARAMETER_BANDS], WORD32 h12[MAX_PARAMETER_BANDS], WORD32 h21[MAX_PARAMETER_BANDS], WORD32 h22[MAX_PARAMETER_BANDS], WORD32 h12_res[MAX_PARAMETER_BANDS], WORD32 h22_res[MAX_PARAMETER_BANDS], WORD16 c_l[MAX_PARAMETER_BANDS], WORD16 c_r[MAX_PARAMETER_BANDS], const ia_mps_dec_m1_m2_tables_struct *ixheaacd_mps_dec_m1_m2_tables) { WORD32 band; WORD32 quant_band_cld, quant_band_icc; for (band = 0; band < num_ott_bands; band++) { quant_band_cld = ixheaacd_dequant_cld_band(cld[band]); c_l[band] = (WORD16)ixheaacd_mps_dec_m1_m2_tables->c_l_table[quant_band_cld]; c_r[band] = (WORD16)ixheaacd_mps_dec_m1_m2_tables->c_l_table[30 - quant_band_cld]; } for (band = 0; band < num_ott_bands; band++) { if (band < res_bands) { quant_band_cld = ixheaacd_dequant_cld_band(cld[band]); quant_band_icc = ixheaacd_dequant_icc_band(icc[band], quant_band_cld); h11[band] = ixheaacd_mps_dec_m1_m2_tables->cos_table[quant_band_icc][quant_band_cld]; h11[band] = ixheaacd_mps_mult32_shr_15(h11[band], c_l[band]); h21[band] = ixheaacd_mps_dec_m1_m2_tables->cos_table[quant_band_icc][30 - quant_band_cld]; h21[band] = ixheaacd_mps_mult32_shr_15(h21[band], c_r[band]); h12[band] = 0; h22[band] = 0; h12_res[band] = ONE_IN_Q15; h22_res[band] = MINUS_ONE_IN_Q15; } else { quant_band_cld = ixheaacd_dequant_cld_band(cld[band]); if (quant_band_cld < 0 || quant_band_cld >= 31) { quant_band_cld = 30; } quant_band_icc = icc[band]; if (quant_band_icc < 0 || quant_band_icc >= 8) { quant_band_icc = 7; } h11[band] = ixheaacd_mps_dec_m1_m2_tables->cos_table[quant_band_icc][quant_band_cld]; h11[band] = ixheaacd_mps_mult32_shr_15(h11[band], c_l[band]); h21[band] = ixheaacd_mps_dec_m1_m2_tables->cos_table[quant_band_icc][30 - quant_band_cld]; h21[band] = ixheaacd_mps_mult32_shr_15(h21[band], c_r[band]); h12[band] = ixheaacd_mps_dec_m1_m2_tables->sin_table[quant_band_icc][quant_band_cld]; h12[band] = ixheaacd_mps_mult32_shr_15(h12[band], c_l[band]); h22[band] = -ixheaacd_mps_dec_m1_m2_tables->sin_table[quant_band_icc][30 - quant_band_cld]; h22[band] = ixheaacd_mps_mult32_shr_15(h22[band], c_r[band]); h12_res[band] = 0; h22_res[band] = 0; } } return; } VOID ixheaacd_param_2_umx_ps(ia_heaac_mps_state_struct *pstr_mps_state, WORD32 *h11, WORD32 *h12, WORD32 *h21, WORD32 *h22, WORD32 *h12_res, WORD32 *h22_res, WORD16 *c_l, WORD16 *c_r, WORD32 ott_box_indx, WORD32 parameter_set_indx, WORD32 res_bands) { WORD32 band; ia_mps_dec_spatial_bs_frame_struct *p_cur_bs = pstr_mps_state->bs_frame; ia_mps_dec_auxilary_struct *p_aux_struct = pstr_mps_state->aux_struct; WORD32 num_parameter_bands = pstr_mps_state->num_parameter_bands; ixheaacd_param_2_umx_ps_core_tables(p_aux_struct->ott_cld[ott_box_indx][parameter_set_indx], p_cur_bs->ott_icc_idx[ott_box_indx][parameter_set_indx], p_aux_struct->num_ott_bands[ott_box_indx], res_bands, h11, h12, h21, h22, h12_res, h22_res, c_l, c_r, pstr_mps_state->ia_mps_dec_mps_table.m1_m2_table_ptr); for (band = p_aux_struct->num_ott_bands[ott_box_indx]; band < num_parameter_bands; band++) { h11[band] = h21[band] = h12[band] = h22[band] = h12_res[band] = h22_res[band] = 0; } return; } static WORD32 ixheaacd_dequant_one_by_icc(WORD32 icc) { switch (icc) { case 32768: return 32768; case 30704: return 34971; case 27564: return 38955; case 19691: return 54530; case 12047: return 89131; case 0: return 0; case -19300: return -55633; case -32440: return -33099; default: return 0; } } static WORD16 ixheaacd_map_cld_index(WORD32 cld_val) { WORD32 temp = cld_val; WORD16 idx = 0; if (cld_val == 0) { return 15; } else { if (cld_val < 0) { temp = -cld_val; } switch (temp) { case 150: idx = 15; break; case 45: idx = 14; break; case 40: idx = 13; break; case 35: idx = 12; break; case 30: idx = 11; break; case 25: idx = 10; break; case 22: idx = 9; break; case 19: idx = 8; break; case 16: idx = 7; break; case 13: idx = 6; break; case 10: idx = 5; break; case 8: idx = 4; break; case 6: idx = 3; break; case 4: idx = 2; break; case 2: idx = 1; break; default: idx = 0; break; } } return (cld_val >= 0) ? idx + 15 : 15 - idx; } VOID ixheaacd_calculate_ttt(ia_heaac_mps_state_struct *pstr_mps_state, WORD32 ps, WORD32 pb, WORD32 ttt_mode, WORD32 m_ttt[][3]) { ia_mps_dec_auxilary_struct *p_aux_struct = pstr_mps_state->aux_struct; WORD32 col; if (ttt_mode < 2) { m_ttt[0][0] = (p_aux_struct->ttt_cpc_1[0][ps][pb] + ONE_IN_Q16); m_ttt[0][1] = (p_aux_struct->ttt_cpc_2[0][ps][pb] - ONE_IN_Q15); m_ttt[1][0] = (p_aux_struct->ttt_cpc_1[0][ps][pb] - ONE_IN_Q15); m_ttt[1][1] = (p_aux_struct->ttt_cpc_2[0][ps][pb] + ONE_IN_Q16); m_ttt[2][0] = (ONE_IN_Q15 - p_aux_struct->ttt_cpc_1[0][ps][pb]); m_ttt[2][1] = (ONE_IN_Q15 - p_aux_struct->ttt_cpc_2[0][ps][pb]); if (pb >= pstr_mps_state->res_bands[3]) { WORD32 one_by_icc; one_by_icc = ixheaacd_dequant_one_by_icc(p_aux_struct->ttt_icc[0][ps][pb]); m_ttt[0][0] = ixheaacd_mps_mult32_shr_15(m_ttt[0][0], one_by_icc); m_ttt[0][1] = ixheaacd_mps_mult32_shr_15(m_ttt[0][1], one_by_icc); m_ttt[1][0] = ixheaacd_mps_mult32_shr_15(m_ttt[1][0], one_by_icc); m_ttt[1][1] = ixheaacd_mps_mult32_shr_15(m_ttt[1][1], one_by_icc); m_ttt[2][0] = ixheaacd_mps_mult32_shr_15(m_ttt[2][0], one_by_icc); m_ttt[2][1] = ixheaacd_mps_mult32_shr_15(m_ttt[2][1], one_by_icc); } m_ttt[0][0] = ixheaac_mult32x16in32(m_ttt[0][0], TWO_BY_THREE_Q15); m_ttt[0][1] = ixheaac_mult32x16in32(m_ttt[0][1], TWO_BY_THREE_Q15); m_ttt[1][0] = ixheaac_mult32x16in32(m_ttt[1][0], TWO_BY_THREE_Q15); m_ttt[1][1] = ixheaac_mult32x16in32(m_ttt[1][1], TWO_BY_THREE_Q15); m_ttt[2][0] = ixheaac_mult32x16in32(m_ttt[2][0], TWO_BY_THREE_Q15); m_ttt[2][1] = ixheaac_mult32x16in32(m_ttt[2][1], TWO_BY_THREE_Q15); } else { WORD32 center_wiener; WORD32 center_subtraction; WORD32 c1d, c2d; WORD64 prod; WORD32 w11, w00, w20, w21; WORD16 q_w11, q_w00, q_w20, q_w21; const WORD32 *ten_cld_by_10 = pstr_mps_state->ia_mps_dec_mps_table.m1_m2_table_ptr->ten_cld_by_10; ia_mps_dec_spatial_bs_frame_struct *p_cur_bs = pstr_mps_state->bs_frame; WORD16 index = ixheaacd_map_cld_index(p_aux_struct->ttt_cld_1[0][ps][pb] >> 15); c1d = ten_cld_by_10[index]; index = ixheaacd_map_cld_index(p_aux_struct->ttt_cld_2[0][ps][pb] >> 15); c2d = ten_cld_by_10[index]; if (p_cur_bs->cmp_ttt_cld_1_idx[0][ps][pb] == 15 || p_cur_bs->cmp_ttt_cld_2_idx[0][ps][pb] == 15) { if (p_cur_bs->cmp_ttt_cld_1_idx[0][ps][pb] == 15) { if (p_cur_bs->cmp_ttt_cld_2_idx[0][ps][pb] == -15) { w00 = ONE_BY_SQRT_2_Q15; w20 = ONE_BY_SQRT_8_Q15; } else { w00 = ONE_IN_Q15; w20 = 0; } if (p_cur_bs->cmp_ttt_cld_2_idx[0][ps][pb] == 15) { w11 = ONE_BY_SQRT_2_Q15; w21 = ONE_BY_SQRT_8_Q15; } else { w11 = ONE_IN_Q15; w21 = 0; } m_ttt[0][0] = w00; m_ttt[2][0] = w20; m_ttt[2][1] = w21; m_ttt[1][1] = w11; } if (p_cur_bs->cmp_ttt_cld_2_idx[0][ps][pb] == 15) { const WORD32 *w00_cld2_15 = pstr_mps_state->ia_mps_dec_mps_table.m1_m2_table_ptr->w00_cld2_15; if (p_cur_bs->cmp_ttt_cld_1_idx[0][ps][pb] == 15) { w11 = ONE_BY_SQRT_2_Q15; w21 = ONE_BY_SQRT_8_Q15; } else { w11 = 0; w21 = ONE_IN_Q14; } w00 = w00_cld2_15[p_cur_bs->cmp_ttt_cld_1_idx[0][ps][pb] + 15]; w20 = w00_cld2_15[15 - p_cur_bs->cmp_ttt_cld_1_idx[0][ps][pb]] / 2; m_ttt[0][0] = w00; m_ttt[2][0] = w20; m_ttt[2][1] = w21; m_ttt[1][1] = w11; } m_ttt[0][1] = 0; m_ttt[1][0] = 0; } else { WORD32 temporary; const WORD32 *sqrt_tab = pstr_mps_state->ia_mps_dec_mps_table.common_table_ptr->sqrt_tab; prod = ixheaacd_mps_mult32_shr_15(c1d, c2d); temporary = ixheaac_add32_sat(ONE_IN_Q15, c2d); temporary = ixheaac_add32_sat(temporary, (WORD32)prod); w00 = ixheaacd_mps_div_32((WORD32)prod, temporary, &q_w00); w11 = ixheaacd_mps_div_32(c1d, (ixheaac_add32_sat3(c1d, c2d, ONE_IN_Q15)), &q_w11); w20 = ixheaacd_mps_div_32((ixheaac_add32_sat(c2d, ONE_IN_Q15)), ixheaac_add32_sat3(ONE_IN_Q15, (WORD32)prod, c2d), &q_w20); w21 = ixheaacd_mps_div_32(ixheaac_add32_sat(c2d, ONE_IN_Q15), (ixheaac_add32_sat3(c1d, c2d, ONE_IN_Q15)), &q_w21); m_ttt[0][0] = ixheaacd_mps_sqrt(w00, &q_w00, sqrt_tab); m_ttt[0][0] = ixheaacd_mps_convert_to_qn(m_ttt[0][0], q_w00, 15); m_ttt[0][1] = 0; m_ttt[1][0] = 0; m_ttt[1][1] = ixheaacd_mps_sqrt(w11, &q_w11, sqrt_tab); m_ttt[1][1] = ixheaacd_mps_convert_to_qn(m_ttt[1][1], q_w11, 15); m_ttt[2][0] = ixheaacd_mps_sqrt(w20, &q_w20, sqrt_tab) >> 1; m_ttt[2][0] = ixheaacd_mps_convert_to_qn(m_ttt[2][0], q_w20, 15); m_ttt[2][1] = ixheaacd_mps_sqrt(w21, &q_w21, sqrt_tab) >> 1; m_ttt[2][1] = ixheaacd_mps_convert_to_qn(m_ttt[2][1], q_w21, 15); if (p_aux_struct->ttt_cld_1[0][ps][pb] == 4915200) { m_ttt[0][0] = 32767; m_ttt[1][1] = 32767; m_ttt[2][0] = 0; m_ttt[2][1] = 0; } } center_wiener = 0; center_subtraction = (ttt_mode == 2 || ttt_mode == 3); if (center_wiener) { WORD32 cld_1_idx = p_cur_bs->cmp_ttt_cld_1_idx[0][ps][pb]; WORD32 cld_2_idx = p_cur_bs->cmp_ttt_cld_2_idx[0][ps][pb]; if (cld_1_idx == 15 && cld_2_idx == 15) { m_ttt[2][0] = 0; m_ttt[2][1] = ONE_BY_SQRT_2_Q15; } else if (cld_1_idx == 15) { if (cld_2_idx == -15) m_ttt[2][0] = ONE_BY_SQRT_2_Q15; else m_ttt[2][0] = 0; m_ttt[2][1] = 0; } else if (cld_2_idx == 15) { m_ttt[2][0] = 0; m_ttt[2][1] = ONE_IN_Q15; } else { WORD32 temp; WORD16 q_temp; const WORD32 *sqrt_tab = pstr_mps_state->ia_mps_dec_mps_table.common_table_ptr->sqrt_tab; prod = ixheaacd_mps_mult32_shr_15(c2d, (c2d + c1d + ONE_IN_Q16)) + ONE_IN_Q15; temp = ixheaacd_mps_div_32((WORD32)ONE_IN_Q15, (WORD32)prod, &q_temp); m_ttt[2][0] = ixheaacd_mps_sqrt(temp, &q_temp, sqrt_tab); m_ttt[2][0] = ixheaacd_mps_convert_to_qn(m_ttt[2][0], q_temp, 15); m_ttt[2][1] = ixheaacd_mps_mult32_shr_15(c2d, m_ttt[2][0]); } } if (center_subtraction) { WORD32 wl1, wl2, wr1, wr2; WORD16 q_wl1, q_wr1; WORD32 cld_1_idx = p_cur_bs->cmp_ttt_cld_1_idx[0][ps][pb]; WORD32 cld_2_idx = p_cur_bs->cmp_ttt_cld_2_idx[0][ps][pb]; if (cld_1_idx == 15 && cld_2_idx == 15) { m_ttt[0][0] = ONE_IN_Q15; m_ttt[0][1] = MINUS_ONE_IN_Q14; m_ttt[1][1] = ONE_BY_SQRT_2_Q15; m_ttt[1][0] = 0; } else if (cld_1_idx == 15) { if (cld_2_idx == -15) { m_ttt[0][0] = ONE_BY_SQRT_2_Q15; m_ttt[1][0] = MINUS_ONE_IN_Q14; } else { m_ttt[0][0] = ONE_IN_Q15; m_ttt[1][0] = 0; } m_ttt[0][1] = 0; m_ttt[1][1] = ONE_IN_Q15; } else if (cld_2_idx == 15) { m_ttt[0][0] = ONE_IN_Q15; m_ttt[0][1] = MINUS_ONE_IN_Q15; m_ttt[1][1] = 0; m_ttt[1][0] = 0; } else { WORD32 temp, temp_1, q_a; WORD16 q_c, q_l, q_r, q_temp, q_temp1; WORD32 c; WORD32 r; WORD32 l; const WORD32 *sqrt_tab = pstr_mps_state->ia_mps_dec_mps_table.common_table_ptr->sqrt_tab; c = ixheaacd_mps_div_32(ONE_IN_Q15, (ixheaac_add32_sat(c1d, ONE_IN_Q15)), &q_c); r = ixheaacd_mps_div_32(c1d, (ixheaac_add32_sat(c2d, ONE_IN_Q15)), &q_r); r = ixheaacd_mps_mult32_shr_30(r, c); q_r = q_r + q_c - 30; l = ixheaacd_mps_mult32_shr_30(c2d, r); q_l = q_r - 15; temp = ixheaacd_mps_div_32(r, l, &q_temp); q_temp += (q_r - q_l); if (q_temp > 28) { temp = temp >> (q_temp - 28); q_temp = 28; } temp += ((1 << q_temp) - 1); temp = ixheaac_add32_sat( ixheaacd_mps_mult32_shr_n(c, temp, (WORD16)(q_c + q_temp - q_r)), r); q_temp = q_r; if (q_c > q_r) { temp_1 = r + (c >> (q_c - q_r)); q_temp1 = q_r; } else { temp_1 = (r >> (q_r - q_c)) + c; q_temp1 = q_c; } temp = ixheaac_div32(temp_1, temp, &q_a); q_wl1 = q_a + q_temp1 - q_temp; wl1 = ixheaacd_mps_sqrt(temp, &q_wl1, sqrt_tab); m_ttt[0][0] = ixheaacd_mps_convert_to_qn(wl1, q_wl1, 15); temp = ixheaac_div32(wl1, temp_1, &q_a); q_temp = q_a + (q_wl1 - q_temp1); wl2 = ixheaacd_mps_mult32_shr_n(c, temp, (WORD16)(q_c + q_temp - 15)); m_ttt[0][1] = ixheaac_negate32_sat(wl2); temp = ixheaacd_mps_div_32(l, r, &q_temp); q_temp += (q_l - q_r); if (q_temp > 28) { temp = temp >> (q_temp - 28); q_temp = 28; } temp = ixheaac_add32_sat((1 << q_temp) - 1, temp); temp = ixheaac_add32_sat( ixheaacd_mps_mult32_shr_n(c, temp, (WORD16)(q_c + q_temp - q_l)), l); q_temp = q_l; if (q_c > q_l) { temp_1 = l + (c >> (q_c - q_l)); q_temp1 = q_l; } else { temp_1 = (l >> (q_l - q_c)) + c; q_temp1 = q_c; } temp = ixheaac_div32(temp_1, temp, &q_a); q_wr1 = q_a + q_temp1 - q_temp; wr1 = ixheaacd_mps_sqrt(temp, &q_wr1, sqrt_tab); m_ttt[1][1] = ixheaacd_mps_convert_to_qn(wr1, q_wr1, 15); temp = ixheaac_div32(wr1, temp_1, &q_a); q_temp = q_a + (q_wl1 - q_temp1); wr2 = ixheaacd_mps_mult32_shr_n(c, temp, (WORD16)(q_c + q_temp - 15)); m_ttt[1][0] = ixheaac_negate32_sat(wr2); } } } m_ttt[0][2] = ONE_BY_THREE_Q15; m_ttt[1][2] = ONE_BY_THREE_Q15; m_ttt[2][2] = MINUS_ONE_BY_THREE_Q15; for (col = 0; col < 3; col++) { m_ttt[2][col] = ixheaacd_mps_mult32_shr_15(m_ttt[2][col], SQRT_TWO_Q15); } } VOID ixheaacd_calculate_mtx_inv(ia_heaac_mps_state_struct *pstr_mps_state, WORD32 ps, WORD32 pb, WORD32 mode, WORD32 h_real[][2], WORD32 h_imag[][2]) { ia_mps_dec_auxilary_struct *p_aux_struct = pstr_mps_state->aux_struct; WORD32 weight1; WORD32 weight2; ia_mps_dec_spatial_bs_frame_struct *p_cur_bs = pstr_mps_state->bs_frame; if (mode < 2) { ixheaacd_get_matrix_inversion_weights( p_cur_bs->ott_cld_idx[1][ps][pb], p_cur_bs->ott_cld_idx[2][ps][pb], 1, p_aux_struct->ttt_cpc_1[0][ps][pb], p_aux_struct->ttt_cpc_2[0][ps][pb], &weight1, &weight2, &(pstr_mps_state->ia_mps_dec_mps_table)); } else { ixheaacd_get_matrix_inversion_weights( p_cur_bs->ott_cld_idx[1][ps][pb], p_cur_bs->ott_cld_idx[2][ps][pb], 0, p_cur_bs->cmp_ttt_cld_1_idx[0][ps][pb], p_cur_bs->cmp_ttt_cld_2_idx[0][ps][pb], &weight1, &weight2, &(pstr_mps_state->ia_mps_dec_mps_table)); } ixheaacd_invert_matrix(weight1, weight2, h_real, h_imag, pstr_mps_state->ia_mps_dec_mps_table.common_table_ptr); } VOID ixheaacd_calculate_arb_dmx_mtx(ia_heaac_mps_state_struct *pstr_mps_state, WORD32 ps, WORD32 pb, WORD32 g_real[]) { WORD32 ch; WORD32 gain; WORD32 *arbdmx_alpha_prev = pstr_mps_state->mps_persistent_mem.arbdmx_alpha_prev; WORD32 *arbdmx_alpha_upd_set = pstr_mps_state->aux_struct->arbdmx_alpha_upd_set; WORD32 *arbdmx_alpha = pstr_mps_state->aux_struct->arbdmx_alpha; WORD32 n_ch_in = pstr_mps_state->num_input_channels; WORD32 temp_1; for (ch = 0; ch < n_ch_in; ch++) { temp_1 = pstr_mps_state->bs_frame->arbdmx_gain_idx[ch][ps][pb] + 15; gain = pstr_mps_state->ia_mps_dec_mps_table.m1_m2_table_ptr->dec_pow[temp_1]; if (pb < pstr_mps_state->arbdmx_residual_bands) { if ((ps == 0) && (arbdmx_alpha_upd_set[ch] == 1)) { g_real[ch] = ixheaacd_mps_mult32_shr_15(*arbdmx_alpha_prev, gain); } else { g_real[ch] = ixheaacd_mps_mult32_shr_15(arbdmx_alpha[ch], gain); } } else { g_real[ch] = gain; } arbdmx_alpha_prev++; } } WORD32 ixheaacd_quantize(WORD32 cld) { switch (cld) { case -150: return -15; case -45: return -14; case -40: return -13; case -35: return -12; case -30: return -11; case -25: return -10; case -22: return -9; case -19: return -8; case -16: return -7; case -13: return -6; case -10: return -5; case -8: return -4; case -6: return -3; case -4: return -2; case -2: return -1; case 0: return 0; case 2: return 1; case 4: return 2; case 6: return 3; case 8: return 4; case 10: return 5; case 13: return 6; case 16: return 7; case 19: return 8; case 22: return 9; case 25: return 10; case 30: return 11; case 35: return 12; case 40: return 13; case 45: return 14; case 150: return 15; default: return 0; } }