/****************************************************************************** * * * 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 "ixheaac_type_def.h" #include "ixheaac_error_standards.h" #include "ixheaace_error_codes.h" #include "ixheaace_mps_common_fix.h" #include "ixheaace_mps_defines.h" #include "ixheaace_mps_common_define.h" #include "ixheaace_mps_buf.h" #include "ixheaace_mps_lib.h" #include "ixheaace_mps_main_structure.h" #include "ixheaace_mps_tools_rom.h" #include "ixheaace_mps_dct.h" #include "ixheaace_mps_qmf.h" #include "ixheaac_constants.h" #include "ixheaac_basic_ops32.h" #include "ixheaac_basic_ops40.h" #include "ixheaac_basic_ops.h" static IA_ERRORCODE ixheaace_mps_212_qmf_forward_modulation_hq( ixheaace_mps_pstr_qmf_filter_bank pstr_qmf_filter_bank, const FLOAT32 *time_in, FLOAT32 *real_subband, FLOAT32 *imag_subband, WORD8 *ptr_scratch) { IA_ERRORCODE error; WORD32 idx; WORD32 qmf_bands = pstr_qmf_filter_bank->no_channels; WORD32 qmf_bands_by_2 = qmf_bands << 1; FLOAT32 intermediate_band; FLOAT32 x0, x1, y0, y1; if (qmf_bands == 64) { x0 = time_in[1]; y0 = time_in[0]; real_subband[0] = (x0 + y0) / 2; imag_subband[0] = (x0 - y0) / 2; for (idx = 1; idx < qmf_bands; idx++) { x0 = time_in[idx + 1]; y0 = time_in[qmf_bands_by_2 - idx]; real_subband[idx] = (x0 - y0) / 2; imag_subband[idx] = (x0 + y0) / 2; } } else { for (idx = 0; idx < qmf_bands; idx += 2) { x0 = time_in[idx + 0]; x1 = time_in[idx + 1]; y0 = time_in[qmf_bands_by_2 - 1 - idx]; y1 = time_in[qmf_bands_by_2 - 2 - idx]; real_subband[idx + 0] = (x0 - y0) / 2; real_subband[idx + 1] = (x1 - y1) / 2; imag_subband[idx + 0] = (x0 + y0) / 2; imag_subband[idx + 1] = (x1 + y1) / 2; } } error = ixheaace_mps_212_dct_iv(real_subband, qmf_bands, ptr_scratch); if (error != IA_NO_ERROR) { return error; } error = ixheaace_mps_212_dst_iv(imag_subband, qmf_bands, ptr_scratch); if (error != IA_NO_ERROR) { return error; } for (idx = 0; idx < MIN(pstr_qmf_filter_bank->lsb, qmf_bands); idx += 2) { intermediate_band = real_subband[idx]; real_subband[idx] = -imag_subband[idx]; imag_subband[idx] = intermediate_band; intermediate_band = -real_subband[idx + 1]; real_subband[idx + 1] = imag_subband[idx + 1]; imag_subband[idx + 1] = intermediate_band; } return IA_NO_ERROR; } static VOID ixheaace_mps_212_qmf_ana_prototype_fir_slot(FLOAT32 *ptr_analysis_buffer, WORD32 qmf_bands, const FLOAT32 *ptr_filter, WORD32 stride, FLOAT32 *ptr_filter_states) { const FLOAT32 *p_flt = ptr_filter; WORD32 poly, band; FLOAT32 accumlate; for (band = 0; band < 2 * qmf_bands; band++) { accumlate = 0; p_flt += QMF_NO_POLY * (stride - 1); for (poly = 0; poly < QMF_NO_POLY; poly++) { accumlate += (((*p_flt++) * ptr_filter_states[2 * qmf_bands * poly])); } ptr_analysis_buffer[2 * qmf_bands - 1 - band] = accumlate; ptr_filter_states++; } } IA_ERRORCODE ixheaace_mps_212_qmf_analysis_filtering_slot( ixheaace_mps_pstr_qmf_filter_bank pstr_qmf_filter_bank, FLOAT32 *real_subband, FLOAT32 *imag_subband, const FLOAT32 *time_in, const WORD32 stride, FLOAT32 *p_work_buffer, WORD8 *ptr_scratch) { IA_ERRORCODE error = IA_NO_ERROR; WORD32 idx; WORD32 offset = pstr_qmf_filter_bank->no_channels * (QMF_NO_POLY * 2 - 1); FLOAT32 *pstr_filter_states_ana_tmp = ((FLOAT32 *)pstr_qmf_filter_bank->ptr_filter_states) + offset; for (idx = 0; idx < pstr_qmf_filter_bank->no_channels; idx++) { *pstr_filter_states_ana_tmp++ = (FLOAT32)*time_in; time_in += stride; } ixheaace_mps_212_qmf_ana_prototype_fir_slot( p_work_buffer, pstr_qmf_filter_bank->no_channels, pstr_qmf_filter_bank->pstr_filter, pstr_qmf_filter_bank->p_stride, (FLOAT32 *)pstr_qmf_filter_bank->ptr_filter_states); error = ixheaace_mps_212_qmf_forward_modulation_hq(pstr_qmf_filter_bank, p_work_buffer, real_subband, imag_subband, ptr_scratch); if (error != IA_NO_ERROR) { return error; } memmove(pstr_qmf_filter_bank->ptr_filter_states, (FLOAT32 *)pstr_qmf_filter_bank->ptr_filter_states + pstr_qmf_filter_bank->no_channels, offset * sizeof(FLOAT32)); return error; } IA_ERRORCODE ixheaace_mps_212_qmf_init_filter_bank(ixheaace_mps_pstr_qmf_filter_bank pstr_qmf_filter_bank, VOID *ptr_filter_states, WORD32 num_cols, WORD32 lsb, WORD32 usb, WORD32 no_channels) { memset(pstr_qmf_filter_bank, 0, sizeof(ixheaace_mps_qmf_filter_bank)); pstr_qmf_filter_bank->no_channels = no_channels; pstr_qmf_filter_bank->no_col = num_cols; pstr_qmf_filter_bank->lsb = MIN(lsb, pstr_qmf_filter_bank->no_channels); pstr_qmf_filter_bank->usb = MIN(usb, pstr_qmf_filter_bank->no_channels); pstr_qmf_filter_bank->ptr_filter_states = (VOID *)ptr_filter_states; memset(pstr_qmf_filter_bank->ptr_filter_states, 0, (2 * QMF_NO_POLY - 1) * pstr_qmf_filter_bank->no_channels * sizeof(FLOAT32)); pstr_qmf_filter_bank->p_stride = 1; if (no_channels == 64) { pstr_qmf_filter_bank->pstr_filter = qmf_mps_ld_fb_640; pstr_qmf_filter_bank->filter_size = 640; } else { pstr_qmf_filter_bank->pstr_filter = qmf_mps_ld_fb_320; pstr_qmf_filter_bank->filter_size = 320; } return IA_NO_ERROR; }