FreeCalypso > hg > gsm-codec-lib
view libtwamr/p_ol_wgh.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 | 48c7f8e8c9af |
| 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 : p_ol_wgh.c * Purpose : Compute the open loop pitch lag with weighting * *************************************************************************/ /* ******************************************************************************** * MODULE INCLUDE FILE AND VERSION ID ******************************************************************************** */ #include "namespace.h" #include "p_ol_wgh.h" /* ***************************************************************************** * INCLUDE FILES ***************************************************************************** */ #include "typedef.h" #include "basic_op.h" #include "oper_32b.h" #include "no_count.h" #include "cnst.h" #include "corrwght.tab" #include "gmed_n.h" #include "inv_sqrt.h" #include "vad.h" #include "calc_cor.h" #include "hp_max.h" /* ***************************************************************************** * LOCAL VARIABLES AND TABLES ***************************************************************************** */ /************************************************************************* * * FUNCTION: Lag_max * * PURPOSE: Find the lag that has maximum correlation of scal_sig[] in a * given delay range. * * DESCRIPTION: * The correlation is given by * cor[t] = <scal_sig[n],scal_sig[n-t]>, t=lag_min,...,lag_max * The functions outputs the maximum correlation after normalization * and the corresponding lag. * *************************************************************************/ static Word16 Lag_max ( /* o : lag found */ vadState *vadSt, /* i/o : VAD state struct */ Word32 corr[], /* i : correlation vector. */ Word16 scal_sig[], /* i : scaled signal. */ Word16 L_frame, /* i : length of frame to compute pitch */ Word16 lag_max, /* i : maximum lag */ Word16 lag_min, /* i : minimum lag */ Word16 old_lag, /* i : old open-loop lag */ Word16 *cor_max, /* o : normalized correlation of selected lag */ Word16 wght_flg, /* i : is weighting function used */ Word16 *gain_flg, /* o : open-loop flag */ Flag dtx /* i : dtx flag; use dtx=1, do not use dtx=0 */ ) { Word16 i, j; Word16 *p, *p1; Word32 max, t0; Word16 t0_h, t0_l; Word16 p_max; const Word16 *ww, *we; Word32 t1; ww = &corrweight[250]; move16 (); we = &corrweight[123 + lag_max - old_lag]; move16 (); max = MIN_32; move32 (); p_max = lag_max; move16 (); for (i = lag_max; i >= lag_min; i--) { t0 = corr[-i]; move32 (); /* Weighting of the correlation function. */ L_Extract (corr[-i], &t0_h, &t0_l); t0 = Mpy_32_16 (t0_h, t0_l, *ww); ww--; move16(); test (); if (wght_flg > 0) { /* Weight the neighbourhood of the old lag. */ L_Extract (t0, &t0_h, &t0_l); t0 = Mpy_32_16 (t0_h, t0_l, *we); we--; move16(); } test (); if (L_sub (t0, max) >= 0) { max = t0; move32 (); p_max = i; move16 (); } } p = &scal_sig[0]; move16 (); p1 = &scal_sig[-p_max]; move16 (); t0 = 0; move32 (); t1 = 0; move32 (); for (j = 0; j < L_frame; j++, p++, p1++) { t0 = L_mac (t0, *p, *p1); t1 = L_mac (t1, *p1, *p1); } if (dtx) { /* no test() call since this if is only in simulation env */ if (vadSt->use_vad2) { /* Save max correlation */ vadSt->u.v2.L_Rmax = L_add(vadSt->u.v2.L_Rmax, t0); /* Save max energy */ vadSt->u.v2.L_R0 = L_add(vadSt->u.v2.L_R0, t1); } else { /* update and detect tone */ vad_tone_detection_update (&vadSt->u.v1, 0); vad_tone_detection (&vadSt->u.v1, t0, t1); } } /* gain flag is set according to the open_loop gain */ /* is t2/t1 > 0.4 ? */ *gain_flg = round(L_msu(t0, round(t1), 13107)); move16(); *cor_max = 0; move16 (); return (p_max); } /* ***************************************************************************** * PUBLIC PROGRAM CODE ***************************************************************************** */ /************************************************************************* * * Function: p_ol_wgh_reset * Purpose: Initializes state memory to zero * ************************************************************************** */ void p_ol_wgh_reset (pitchOLWghtState *st) { /* Reset pitch search states */ st->old_T0_med = 40; st->ada_w = 0; st->wght_flg = 0; } /************************************************************************* * * Function: p_ol_wgh * Purpose: open-loop pitch search with weighting * ************************************************************************** */ Word16 Pitch_ol_wgh ( /* o : open loop pitch lag */ pitchOLWghtState *st, /* i/o : State struct */ vadState *vadSt, /* i/o : VAD state struct */ Word16 signal[], /* i : signal used to compute the open loop pitch */ /* signal[-pit_max] to signal[-1] should be known */ Word16 pit_min, /* i : minimum pitch lag */ Word16 pit_max, /* i : maximum pitch lag */ Word16 L_frame, /* i : length of frame to compute pitch */ Word16 old_lags[], /* i : history with old stored Cl lags */ Word16 ol_gain_flg[], /* i : OL gain flag */ Word16 idx, /* i : index */ Flag dtx /* i : dtx flag; use dtx=1, do not use dtx=0 */ ) { Word16 i; Word16 max1; Word16 p_max1; Word32 t0; Word16 corr_hp_max; Word32 corr[PIT_MAX+1], *corr_ptr; /* Scaled signal */ Word16 scaled_signal[PIT_MAX + L_FRAME]; Word16 *scal_sig; scal_sig = &scaled_signal[pit_max]; move16 (); t0 = 0L; move32 (); for (i = -pit_max; i < L_frame; i++) { t0 = L_mac (t0, signal[i], signal[i]); } /*--------------------------------------------------------* * Scaling of input signal. * * * * if Overflow -> scal_sig[i] = signal[i]>>2 * * else if t0 < 1^22 -> scal_sig[i] = signal[i]<<2 * * else -> scal_sig[i] = signal[i] * *--------------------------------------------------------*/ /*--------------------------------------------------------* * Verification for risk of overflow. * *--------------------------------------------------------*/ test (); test (); if (L_sub (t0, MAX_32) == 0L) /* Test for overflow */ { for (i = -pit_max; i < L_frame; i++) { scal_sig[i] = shr (signal[i], 3); move16 (); } } else if (L_sub (t0, (Word32) 1048576L) < (Word32) 0) { for (i = -pit_max; i < L_frame; i++) { scal_sig[i] = shl (signal[i], 3); move16 (); } } else { for (i = -pit_max; i < L_frame; i++) { scal_sig[i] = signal[i]; move16 (); } } /* calculate all coreelations of scal_sig, from pit_min to pit_max */ corr_ptr = &corr[pit_max]; move32 (); comp_corr (scal_sig, L_frame, pit_max, pit_min, corr_ptr); p_max1 = Lag_max (vadSt, corr_ptr, scal_sig, L_frame, pit_max, pit_min, st->old_T0_med, &max1, st->wght_flg, &ol_gain_flg[idx], dtx); move16 (); test (); move16 (); if (ol_gain_flg[idx] > 0) { /* Calculate 5-point median of previous lags */ for (i = 4; i > 0; i--) /* Shift buffer */ { old_lags[i] = old_lags[i-1]; move16 (); } old_lags[0] = p_max1; move16 (); st->old_T0_med = gmed_n (old_lags, 5); move16 (); st->ada_w = 32767; move16 (); /* Q15 = 1.0 */ } else { st->old_T0_med = p_max1; move16 (); st->ada_w = mult(st->ada_w, 29491); /* = ada_w = ada_w * 0.9 */ } test (); if (sub(st->ada_w, 9830) < 0) /* ada_w - 0.3 */ { st->wght_flg = 0; move16 (); } else { st->wght_flg = 1; move16 (); } if (dtx && !vadSt->use_vad2) { /* no test() call since this if is only in simulation env */ test (); if (sub(idx, 1) == 0) { /* calculate max high-passed filtered correlation of all lags */ hp_max (corr_ptr, scal_sig, L_frame, pit_max, pit_min, &corr_hp_max); /* update complex background detector */ vad_complex_detection_update(&vadSt->u.v1, corr_hp_max); } } return (p_max1); }