FreeCalypso > hg > gsm-codec-lib
view libtwamr/c_g_aver.c @ 501:597b39aef484
libgsmhr1/mathhalf.h: rm unused declarations
for non-saturating functions
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Wed, 19 Jun 2024 00:54:44 +0000 |
parents | dc3b7caa59c4 |
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 : c_g_aver.c * Purpose : * ******************************************************************************** */ /* ******************************************************************************** * MODULE INCLUDE FILE AND VERSION ID ******************************************************************************** */ #include "namespace.h" #include "c_g_aver.h" #include "tw_amr.h" #include "typedef.h" #include "basic_op.h" #include "no_count.h" #include "cnst.h" #include "memops.h" /* ******************************************************************************** * LOCAL VARIABLES AND TABLES ******************************************************************************** */ /*-----------------------------------------------------------------* * Decoder constant parameters (defined in "cnst.h") * *-----------------------------------------------------------------* * L_FRAME : Frame size. * * L_SUBFR : Sub-frame size. * *-----------------------------------------------------------------*/ /* ******************************************************************************** * PUBLIC PROGRAM CODE ******************************************************************************** */ /* ************************************************************************** * * Function : Cb_gain_average_reset * Purpose : Resets state memory * ************************************************************************** */ void Cb_gain_average_reset (Cb_gain_averageState *state) { /* Static vectors to zero */ Set_zero (state->cbGainHistory, L_CBGAINHIST); /* Initialize hangover handling */ state->hangVar = 0; state->hangCount= 0; } /* ************************************************************************** * * Function : Cb_gain_average * Purpose : * Returns : The mix cb gains for MR475, MR515, MR59, MR67, MR102; gain_code other modes * ************************************************************************** */ Word16 Cb_gain_average ( Cb_gain_averageState *st, /* i/o : State variables for CB gain avergeing */ enum Mode mode, /* i : AMR mode */ Word16 gain_code, /* i : CB gain Q1 */ Word16 lsp[], /* i : The LSP for the current frame Q15 */ Word16 lspAver[], /* i : The average of LSP for 8 frames Q15 */ Word16 bfi, /* i : bad frame indication flag */ Word16 prev_bf, /* i : previous bad frame indication flag */ Word16 pdfi, /* i : potential degraded bad frame ind flag */ Word16 prev_pdf, /* i : prev pot. degraded bad frame ind flag */ Word16 inBackgroundNoise, /* i : background noise decision */ Word16 voicedHangover /* i : # of frames after last voiced frame */ ) { /*---------------------------------------------------------* * Compute mixed cb gain, used to make cb gain more * * smooth in background noise for modes 5.15, 5.9 and 6.7 * * states that needs to be updated by all * *---------------------------------------------------------*/ Word16 i; Word16 cbGainMix, diff, tmp_diff, bgMix, cbGainMean; Word32 L_sum; Word16 tmp[M], tmp1, tmp2, shift1, shift2, shift; /* set correct cbGainMix for MR74, MR795, MR122 */ cbGainMix = gain_code; move16 (); /*-------------------------------------------------------* * Store list of CB gain needed in the CB gain * * averaging * *-------------------------------------------------------*/ for (i = 0; i < (L_CBGAINHIST-1); i++) { st->cbGainHistory[i] = st->cbGainHistory[i+1]; move16 (); } st->cbGainHistory[L_CBGAINHIST-1] = gain_code; move16 (); /* compute lsp difference */ for (i = 0; i < M; i++) { tmp1 = abs_s(sub(lspAver[i], lsp[i])); /* Q15 */ shift1 = sub(norm_s(tmp1), 1); /* Qn */ tmp1 = shl(tmp1, shift1); /* Q15+Qn */ shift2 = norm_s(lspAver[i]); /* Qm */ tmp2 = shl(lspAver[i], shift2); /* Q15+Qm */ tmp[i] = div_s(tmp1, tmp2); /* Q15+(Q15+Qn)-(Q15+Qm) */ move16 (); shift = sub(add(2, shift1), shift2); test (); if (shift >= 0) { tmp[i] = shr(tmp[i], shift); move16 (); /* Q15+Qn-Qm-Qx=Q13 */ } else { tmp[i] = shl(tmp[i], negate(shift)); move16 (); /* Q15+Qn-Qm-Qx=Q13 */ } } diff = tmp[0]; move16 (); for (i = 1; i < M; i++) { diff = add(diff, tmp[i]); /* Q13 */ } /* Compute hangover */ test (); if (sub(diff, 5325) > 0) /* 0.65 in Q11 */ { st->hangVar = add(st->hangVar, 1); } else { st->hangVar = 0; move16 (); } test (); if (sub(st->hangVar, 10) > 0) { st->hangCount = 0; /* Speech period, reset hangover variable */ move16 (); } /* Compute mix constant (bgMix) */ bgMix = 8192; /* 1 in Q13 */ move16 (); test (); if ((sub(mode, MR67) <= 0) || (sub(mode, MR102) == 0)) /* MR475, MR515, MR59, MR67, MR102 */ { /* if errors and presumed noise make smoothing probability stronger */ test (); test (); test (); test (); test (); test(); test (); test (); test (); if (((((pdfi != 0) && (prev_pdf != 0)) || (bfi != 0) || (prev_bf != 0)) && (sub(voicedHangover, 1) > 0) && (inBackgroundNoise != 0) && ((sub(mode, MR475) == 0) || (sub(mode, MR515) == 0) || (sub(mode, MR59) == 0)) )) { /* bgMix = min(0.25, max(0.0, diff-0.55)) / 0.25; */ tmp_diff = sub(diff, 4506); /* 0.55 in Q13 */ /* max(0.0, diff-0.55) */ test (); if (tmp_diff > 0) { tmp1 = tmp_diff; move16 (); } else { tmp1 = 0; move16 (); } /* min(0.25, tmp1) */ test (); if (sub(2048, tmp1) < 0) { bgMix = 8192; move16 (); } else { bgMix = shl(tmp1, 2); } } else { /* bgMix = min(0.25, max(0.0, diff-0.40)) / 0.25; */ tmp_diff = sub(diff, 3277); /* 0.4 in Q13 */ /* max(0.0, diff-0.40) */ test (); if (tmp_diff > 0) { tmp1 = tmp_diff; move16 (); } else { tmp1 = 0; move16 (); } /* min(0.25, tmp1) */ test (); if (sub(2048, tmp1) < 0) { bgMix = 8192; move16 (); } else { bgMix = shl(tmp1, 2); } } test (); test (); if ((sub(st->hangCount, 40) < 0) || (sub(diff, 5325) > 0)) /* 0.65 in Q13 */ { bgMix = 8192; /* disable mix if too short time since */ move16 (); } /* Smoothen the cb gain trajectory */ /* smoothing depends on mix constant bgMix */ L_sum = L_mult(6554, st->cbGainHistory[2]); /* 0.2 in Q15; L_sum in Q17 */ for (i = 3; i < L_CBGAINHIST; i++) { L_sum = L_mac(L_sum, 6554, st->cbGainHistory[i]); } cbGainMean = round(L_sum); /* Q1 */ /* more smoothing in error and bg noise (NB no DFI used here) */ test (); test (); test (); test (); test(); test(); if (((bfi != 0) || (prev_bf != 0)) && (inBackgroundNoise != 0) && ((sub(mode, MR475) == 0) || (sub(mode, MR515) == 0) || (sub(mode, MR59) == 0)) ) { L_sum = L_mult(4681, st->cbGainHistory[0]); /* 0.143 in Q15; L_sum in Q17 */ for (i = 1; i < L_CBGAINHIST; i++) { L_sum = L_mac(L_sum, 4681, st->cbGainHistory[i]); } cbGainMean = round(L_sum); /* Q1 */ } /* cbGainMix = bgMix*cbGainMix + (1-bgMix)*cbGainMean; */ L_sum = L_mult(bgMix, cbGainMix); /* L_sum in Q15 */ L_sum = L_mac(L_sum, 8192, cbGainMean); L_sum = L_msu(L_sum, bgMix, cbGainMean); cbGainMix = round(L_shl(L_sum, 2)); /* Q1 */ } st->hangCount = add(st->hangCount, 1); return cbGainMix; }