FreeCalypso > hg > gsm-codec-lib
view libtwamr/pstfilt.c @ 581:e2d5cad04cbf
libgsmhr1 RxFE: store CN R0+LPC separately from speech
In the original GSM 06.06 code the ECU for speech mode is entirely
separate from the CN generator, maintaining separate state. (The
main intertie between them is the speech vs CN state variable,
distinguishing between speech and CN BFIs, in addition to the
CN-specific function of distinguishing between initial and update
SIDs.)
In the present RxFE implementation I initially thought that we could
use the same saved_frame buffer for both ECU and CN, overwriting
just the first 4 params (R0 and LPC) when a valid SID comes in.
However, I now realize it was a bad idea: the original code has a
corner case (long sequence of speech-mode BFIs to put the ECU in
state 6, then SID and CN-mode BFIs, then a good speech frame) that
would be broken by that buffer reuse approach. We could eliminate
this corner case by resetting the ECU state when passing through
a CN insertion period, but doing so would needlessly increase
the behavioral diffs between GSM 06.06 and our version.
Solution: use a separate CN-specific buffer for CN R0+LPC parameters,
and match the behavior of GSM 06.06 code in this regard.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Thu, 13 Feb 2025 10:02:45 +0000 |
| parents | 59655481e45b |
| children |
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/************************************************************************* * * GSM AMR-NB speech codec R98 Version 7.6.0 December 12, 2001 * R99 Version 3.3.0 * REL-4 Version 4.1.0 * ******************************************************************************** * * File : pstfilt.c * Purpose : Performs adaptive postfiltering on the synthesis * : speech * ******************************************************************************** */ /* ******************************************************************************** * MODULE INCLUDE FILE AND VERSION ID ******************************************************************************** */ #include "namespace.h" #include "pstfilt.h" /* ******************************************************************************** * INCLUDE FILES ******************************************************************************** */ #include "tw_amr.h" #include "typedef.h" #include "basic_op.h" #include "memops.h" #include "weight_a.h" #include "residu.h" #include "syn_filt.h" #include "preemph.h" #include "no_count.h" #include "cnst.h" /* ******************************************************************************** * LOCAL VARIABLES AND TABLES ******************************************************************************** */ /*---------------------------------------------------------------* * Postfilter constant parameters (defined in "cnst.h") * *---------------------------------------------------------------* * L_FRAME : Frame size. * * L_SUBFR : Sub-frame size. * * M : LPC order. * * MP1 : LPC order+1 * * MU : Factor for tilt compensation filter * * AGC_FAC : Factor for automatic gain control * *---------------------------------------------------------------*/ #define L_H 22 /* size of truncated impulse response of A(z/g1)/A(z/g2) */ /* Spectral expansion factors */ static const Word16 gamma3_MR122[M] = { 22938, 16057, 11240, 7868, 5508, 3856, 2699, 1889, 1322, 925 }; static const Word16 gamma3[M] = { 18022, 9912, 5451, 2998, 1649, 907, 499, 274, 151, 83 }; static const Word16 gamma4_MR122[M] = { 24576, 18432, 13824, 10368, 7776, 5832, 4374, 3281, 2461, 1846 }; static const Word16 gamma4[M] = { 22938, 16057, 11240, 7868, 5508, 3856, 2699, 1889, 1322, 925 }; /* ******************************************************************************** * PUBLIC PROGRAM CODE ******************************************************************************** */ /************************************************************************* * * Function: Post_Filter_reset * Purpose: Initializes state memory to zero * ************************************************************************** */ void Post_Filter_reset (Post_FilterState *state) { Set_zero (state->mem_syn_pst, M); Set_zero (state->res2, L_SUBFR); Set_zero (state->synth_buf, L_FRAME + M); agc_reset(&state->agc_state); preemphasis_reset(&state->preemph_state); } /* ************************************************************************** * Function: Post_Filter * Purpose: postfiltering of synthesis speech. * Description: * The postfiltering process is described as follows: * * - inverse filtering of syn[] through A(z/0.7) to get res2[] * - tilt compensation filtering; 1 - MU*k*z^-1 * - synthesis filtering through 1/A(z/0.75) * - adaptive gain control * ************************************************************************** */ int Post_Filter ( Post_FilterState *st, /* i/o : post filter states */ enum Mode mode, /* i : AMR mode */ Word16 *syn, /* i/o : synthesis speech (postfiltered is output) */ Word16 *Az_4 /* i : interpolated LPC parameters in all subfr. */ ) { /*-------------------------------------------------------------------* * Declaration of parameters * *-------------------------------------------------------------------*/ Word16 Ap3[MP1], Ap4[MP1]; /* bandwidth expanded LP parameters */ Word16 *Az; /* pointer to Az_4: */ /* LPC parameters in each subframe */ Word16 i_subfr; /* index for beginning of subframe */ Word16 h[L_H]; Word16 i; Word16 temp1, temp2; Word32 L_tmp; Word16 *syn_work = &st->synth_buf[M]; move16 (); /*-----------------------------------------------------* * Post filtering * *-----------------------------------------------------*/ Copy (syn, syn_work , L_FRAME); Az = Az_4; for (i_subfr = 0; i_subfr < L_FRAME; i_subfr += L_SUBFR) { /* Find weighted filter coefficients Ap3[] and ap[4] */ test (); test (); if (sub(mode, MR122) == 0 || sub(mode, MR102) == 0) { Weight_Ai (Az, gamma3_MR122, Ap3); Weight_Ai (Az, gamma4_MR122, Ap4); } else { Weight_Ai (Az, gamma3, Ap3); Weight_Ai (Az, gamma4, Ap4); } /* filtering of synthesis speech by A(z/0.7) to find res2[] */ Residu (Ap3, &syn_work[i_subfr], st->res2, L_SUBFR); /* tilt compensation filter */ /* impulse response of A(z/0.7)/A(z/0.75) */ Copy (Ap3, h, M + 1); Set_zero (&h[M + 1], L_H - M - 1); Syn_filt (Ap4, h, h, L_H, &h[M + 1], 0); /* 1st correlation of h[] */ L_tmp = L_mult (h[0], h[0]); for (i = 1; i < L_H; i++) { L_tmp = L_mac (L_tmp, h[i], h[i]); } temp1 = extract_h (L_tmp); L_tmp = L_mult (h[0], h[1]); for (i = 1; i < L_H - 1; i++) { L_tmp = L_mac (L_tmp, h[i], h[i + 1]); } temp2 = extract_h (L_tmp); test (); if (temp2 <= 0) { temp2 = 0; move16 (); } else { temp2 = mult (temp2, MU); temp2 = div_s (temp2, temp1); } preemphasis (&st->preemph_state, st->res2, temp2, L_SUBFR); /* filtering through 1/A(z/0.75) */ Syn_filt (Ap4, st->res2, &syn[i_subfr], L_SUBFR, st->mem_syn_pst, 1); /* scale output to input */ agc (&st->agc_state, &syn_work[i_subfr], &syn[i_subfr], AGC_FAC, L_SUBFR); Az += MP1; } /* update syn_work[] buffer */ Copy (&syn_work[L_FRAME - M], &syn_work[-M], M); return 0; }