/****************************************************************************** * * * 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 */ #pragma once VOID iusace_autocorr_plus(FLOAT32 *speech, FLOAT32 *auto_corr_vector, WORD32 window_len, const FLOAT32 *lp_analysis_win, FLOAT32 *temp_aut_corr); VOID iusace_compute_lp_residual(FLOAT32 *a, FLOAT32 *x, FLOAT32 *y, WORD32 l); VOID iusace_convolve(FLOAT32 *signal, FLOAT32 *wsynth_filter_ir, FLOAT32 *conv_out); VOID iusace_synthesis_tool_float(FLOAT32 *a, FLOAT32 *x, FLOAT32 *y, WORD32 l, FLOAT32 *mem, FLOAT32 *buf_synth_tool); VOID iusace_apply_preemph(FLOAT32 *signal, FLOAT32 factor, WORD32 length, FLOAT32 *mem); VOID iusace_apply_deemph(FLOAT32 *signal, FLOAT32 factor, WORD32 length, FLOAT32 *mem); VOID iusace_lpc_2_lsp_conversion(FLOAT32 *lpc, FLOAT32 *lsp, FLOAT32 *prev_lsp); VOID iusace_levinson_durbin_algo(FLOAT32 *auto_corr_input, FLOAT32 *lpc); VOID iusace_get_weighted_lpc(FLOAT32 *lpc, FLOAT32 *weighted_lpc); VOID iusace_lsp_2_lsf_conversion(FLOAT32 *lsp, FLOAT32 *lsf); VOID iusace_lsf_2_lsp_conversion(FLOAT32 *lsf, FLOAT32 *lsp); VOID iusace_open_loop_search(FLOAT32 *wsp, WORD32 min_pitch_lag, WORD32 max_pitch_lag, WORD32 num_frame, WORD32 *ol_pitch_lag, ia_usac_td_encoder_struct *st); WORD32 iusace_get_ol_lag_median(WORD32 prev_ol_lag, WORD32 *prev_ol_lags); VOID iusace_closed_loop_search(FLOAT32 *exc, FLOAT32 *xn, FLOAT32 *wsyn_filt_ir, WORD32 search_range_min, WORD32 search_range_max, WORD32 *pit_frac, WORD32 is_first_subfrm, WORD32 min_pitch_lag_res1_2, WORD32 min_pitch_lag_res_1, WORD32 *pitch_lag_out); VOID iusace_decim2_fir_filter(FLOAT32 *signal, WORD32 length, FLOAT32 *mem, FLOAT32 *scratch_fir_sig_buf); FLOAT32 iusace_calc_sq_gain(FLOAT32 *x, WORD32 num_bits, WORD32 length, FLOAT32 *scratch_sq_gain_en); VOID iusace_lpc_coef_gen(FLOAT32 *lsf_old, FLOAT32 *lsf_new, FLOAT32 *a, WORD32 nb_subfr, WORD32 m); VOID iusace_interpolation_lsp_params(FLOAT32 *lsp_old, FLOAT32 *lsp_new, FLOAT32 *lp_flt_coff_a, WORD32 nb_subfr); VOID iusace_acelp_tgt_ir_corr(FLOAT32 *x, FLOAT32 *ir_wsyn, FLOAT32 *corr_out); VOID iusace_acelp_tgt_cb_corr1(FLOAT32 *xn, FLOAT32 *y1, FLOAT32 *y2, FLOAT32 *corr_out); FLOAT32 iusace_acelp_tgt_cb_corr2(FLOAT32 *xn, FLOAT32 *y1, FLOAT32 *corr_out); VOID iusace_acelp_cb_target_update(FLOAT32 *x, FLOAT32 *x2, FLOAT32 *y, FLOAT32 gain); VOID iusace_acelp_cb_exc(FLOAT32 *corr_input, FLOAT32 *lp_residual, FLOAT32 *ir_wsyn, WORD16 *alg_cb_exc_out, FLOAT32 *filt_cb_exc, WORD32 num_bits_cb, WORD32 *acelp_param_out, FLOAT32 *scratch_acelp_ir_buf); VOID iusace_acelp_ltpred_cb_exc(FLOAT32 *exc, WORD32 t0, WORD32 t0_frac, WORD32 len_subfrm); VOID iusace_acelp_quant_gain(FLOAT32 *code, FLOAT32 *pitch_gain, FLOAT32 *code_gain, FLOAT32 *tgt_cb_corr_data, FLOAT32 mean_energy, WORD32 *qunt_idx);