FreeCalypso > hg > gsm-codec-lib
view libgsmefr/d_gains.c @ 282:9ee8ad3d4d30
frtest: rm gsmfr-hand-test and gsmfr-max-out utils
These hack programs were never properly documented and were written
only as part of a debug chase, in pursuit of a bug that ultimately
turned out to be in our then-hacky patch to osmo-bts-sysmo,
before beginning of proper patches in Osmocom. These hack programs
need to be dropped from the present sw package because they depend
on old libgsm, and we are eliminating that dependency.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sun, 14 Apr 2024 05:44:47 +0000 |
| parents | 9b07190a6d08 |
| children |
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/************************************************************************* * * FILE NAME: D_GAINS.C * * FUNCTIONS DEFINED IN THIS FILE: * * d_gain_pitch(), d_gain_code() and gmed5() * * MA prediction is performed on the innovation energy * ( in dB/(20*log10(2)) ) with mean removed. *************************************************************************/ #include "gsm_efr.h" #include "typedef.h" #include "namespace.h" #include "basic_op.h" #include "oper_32b.h" #include "no_count.h" #include "sig_proc.h" #include "memops.h" #include "codec.h" #include "gains_tb.h" #include "cnst.h" #include "dec_state.h" #include "dtx.h" /************************************************************************* * * FUNCTION: gmed5 * * PURPOSE: calculates 5-point median. * * DESCRIPTION: * *************************************************************************/ static Word16 gmed5 ( /* out : index of the median value (0...4) */ Word16 ind[] /* in : Past gain values */ ) { Word16 i, j, ix = 0, tmp[5]; Word16 max, tmp2[5]; Copy (ind, tmp2, 5); for (i = 0; i < 5; i++) { max = -8192; move16 (); for (j = 0; j < 5; j++) { if (tmp2[j] >= max) { max = tmp2[j]; move16 (); ix = j; move16 (); } } tmp2[ix] = -16384; move16 (); tmp[i] = ix; move16 (); } return (ind[tmp[2]]); } /************************************************************************* * * FUNCTION: d_gain_pitch * * PURPOSE: decodes the pitch gain using the received index. * * DESCRIPTION: * In case of no frame erasure, the gain is obtained from the * quantization table at the given index; otherwise, a downscaled * past gain is used. * *************************************************************************/ Word16 d_gain_pitch ( /* out : quantized pitch gain */ struct EFR_decoder_state *st, Word16 index, /* in : index of quantization */ Word16 bfi, /* in : bad frame indicator (good = 0) */ Word16 state, Word16 prev_bf, Word16 rxdtx_ctrl ) { static const Word16 pdown[7] = { 32767, 32112, 32112, 26214, 9830, 6553, 6553 }; Word16 gain, tmp, i; if (bfi == 0) { if ((rxdtx_ctrl & RX_SP_FLAG) != 0) { gain = shr (qua_gain_pitch[index], 2); if (prev_bf != 0) { if (gain > st->prev_gp) { gain = st->prev_gp; } } } else { gain = 0; } st->prev_gp = gain; } else { if ((rxdtx_ctrl & RX_SP_FLAG) != 0) { tmp = gmed5 (st->pbuf); if (tmp < st->past_gain_pit) { st->past_gain_pit = tmp; } gain = mult (pdown[state], st->past_gain_pit); } else { gain = 0; } } st->past_gain_pit = gain; if (st->past_gain_pit > 4096) /* if (past_gain_pit > 1.0) */ { st->past_gain_pit = 4096; } for (i = 1; i < 5; i++) { st->pbuf[i - 1] = st->pbuf[i]; } st->pbuf[4] = st->past_gain_pit; return gain; } /************************************************************************* * * FUNCTION: d_gain_code * * PURPOSE: decode the fixed codebook gain using the received index. * * DESCRIPTION: * The received index gives the gain correction factor gamma. * The quantized gain is given by g_q = g0 * gamma * where g0 is the predicted gain. * To find g0, 4th order MA prediction is applied to the mean-removed * innovation energy in dB. * In case of frame erasure, downscaled past gain is used. * *************************************************************************/ /* average innovation energy. */ /* MEAN_ENER = 36.0/constant, constant = 20*Log10(2) */ #define MEAN_ENER 783741L /* 36/(20*log10(2)) */ void d_gain_code ( struct EFR_decoder_state *st, Word16 index, /* input : received quantization index */ Word16 code[], /* input : innovation codevector */ Word16 lcode, /* input : codevector length */ Word16 *gain_code, /* output: decoded innovation gain */ Word16 bfi, /* input : bad frame indicator */ Word16 state, Word16 prev_bf, Word16 rxdtx_ctrl, Word16 i_subfr, Word16 rx_dtx_state ) { static const Word16 cdown[7] = { 32767, 32112, 32112, 32112, 32112, 32112, 22937 }; Word16 i, tmp; Word16 gcode0, exp, frac, av_pred_en; Word32 ener, ener_code; if (((rxdtx_ctrl & RX_UPD_SID_QUANT_MEM) != 0) && (i_subfr == 0)) { st->gcode0_CN = update_gcode0_CN (st->gain_code_old_rx); st->gcode0_CN = shl (st->gcode0_CN, 4); } /* Handle cases of comfort noise fixed codebook gain decoding in which past valid SID frames are repeated */ if (((rxdtx_ctrl & RX_NO_TRANSMISSION) != 0) || ((rxdtx_ctrl & RX_INVALID_SID_FRAME) != 0) || ((rxdtx_ctrl & RX_LOST_SID_FRAME) != 0)) { if ((rxdtx_ctrl & RX_NO_TRANSMISSION) != 0) { /* DTX active: no transmission. Interpolate gain values in memory */ if (i_subfr == 0) { *gain_code = interpolate_CN_param (st->gain_code_old_CN, st->gain_code_new_CN, rx_dtx_state); } else { *gain_code = st->prev_gc; } } else { /* Invalid or lost SID frame: use gain values from last good SID frame */ st->gain_code_old_CN = st->gain_code_new_CN; *gain_code = st->gain_code_new_CN; /* reset table of past quantized energies */ for (i = 0; i < 4; i++) { st->past_qua_en[i] = -2381; } } if ((rxdtx_ctrl & RX_DTX_MUTING) != 0) { /* attenuate the gain value by 0.75 dB in each subframe */ /* (total of 3 dB per frame) */ st->gain_code_muting_CN = mult (st->gain_code_muting_CN, 30057); *gain_code = st->gain_code_muting_CN; } else { /* Prepare for DTX muting by storing last good gain value */ st->gain_code_muting_CN = st->gain_code_new_CN; } st->past_gain_code = *gain_code; for (i = 1; i < 5; i++) { st->gbuf[i - 1] = st->gbuf[i]; } st->gbuf[4] = st->past_gain_code; st->prev_gc = st->past_gain_code; return; } /*----------------- Test erasure ---------------*/ if (bfi != 0) { tmp = gmed5 (st->gbuf); if (tmp < st->past_gain_code) { st->past_gain_code = tmp; } st->past_gain_code = mult (st->past_gain_code, cdown[state]); *gain_code = st->past_gain_code; av_pred_en = 0; for (i = 0; i < 4; i++) { av_pred_en = add (av_pred_en, st->past_qua_en[i]); } /* av_pred_en = 0.25*av_pred_en - 4/(20Log10(2)) */ av_pred_en = mult (av_pred_en, 8192); /* *= 0.25 */ /* if (av_pred_en < -14/(20Log10(2))) av_pred_en = .. */ if (av_pred_en < -2381) { av_pred_en = -2381; } for (i = 3; i > 0; i--) { st->past_qua_en[i] = st->past_qua_en[i - 1]; } st->past_qua_en[0] = av_pred_en; for (i = 1; i < 5; i++) { st->gbuf[i - 1] = st->gbuf[i]; } st->gbuf[4] = st->past_gain_code; /* Use the most recent comfort noise fixed codebook gain value for updating the fixed codebook gain history */ if (st->gain_code_new_CN == 0) { tmp = st->prev_gc; } else { tmp = st->gain_code_new_CN; } update_gain_code_history_rx (st, tmp); if (sub (i_subfr, (3 * L_SUBFR)) == 0) { st->gain_code_old_CN = *gain_code; } return; } if ((rxdtx_ctrl & RX_SP_FLAG) != 0) { /*-------------- Decode codebook gain ---------------*/ /*-------------------------------------------------------------------* * energy of code: * * ~~~~~~~~~~~~~~~ * * ener_code = 10 * Log10(energy/lcode) / constant * * = 1/2 * Log2(energy/lcode) * * constant = 20*Log10(2) * *-------------------------------------------------------------------*/ /* ener_code = log10(ener_code/lcode) / (20*log10(2)) */ ener_code = 0; move32 (); for (i = 0; i < lcode; i++) { ener_code = L_mac (ener_code, code[i], code[i]); } /* ener_code = ener_code / lcode */ ener_code = L_mult (round (ener_code), 26214); /* ener_code = 1/2 * Log2(ener_code) */ Log2 (ener_code, &exp, &frac); ener_code = L_Comp (sub (exp, 30), frac); /* predicted energy */ ener = MEAN_ENER; move32 (); for (i = 0; i < 4; i++) { ener = L_mac (ener, st->past_qua_en[i], st->pred[i]); } /*-------------------------------------------------------------------* * predicted codebook gain * * ~~~~~~~~~~~~~~~~~~~~~~~ * * gcode0 = Pow10( (ener*constant - ener_code*constant) / 20 ) * * = Pow2(ener-ener_code) * * constant = 20*Log10(2) * *-------------------------------------------------------------------*/ ener = L_shr (L_sub (ener, ener_code), 1); L_Extract (ener, &exp, &frac); gcode0 = extract_l (Pow2 (exp, frac)); /* predicted gain */ gcode0 = shl (gcode0, 4); *gain_code = mult (qua_gain_code[index], gcode0); move16 (); if (prev_bf != 0) { if (sub (*gain_code, st->prev_gc) > 0) { *gain_code = st->prev_gc; } } /*-------------------------------------------------------------------* * update table of past quantized energies * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * * past_qua_en = 20 * Log10(qua_gain_code) / constant * * = Log2(qua_gain_code) * * constant = 20*Log10(2) * *-------------------------------------------------------------------*/ for (i = 3; i > 0; i--) { st->past_qua_en[i] = st->past_qua_en[i - 1]; } Log2 (L_deposit_l (qua_gain_code[index]), &exp, &frac); st->past_qua_en[0] = shr (frac, 5); st->past_qua_en[0] = add (st->past_qua_en[0], shl (sub (exp, 11), 10)); update_gain_code_history_rx (st, *gain_code); if (i_subfr == (3 * L_SUBFR)) { st->gain_code_old_CN = *gain_code; } } else { if (((rxdtx_ctrl & RX_FIRST_SID_UPDATE) != 0) && (i_subfr == 0)) { st->gain_code_new_CN = mult (st->gcode0_CN, qua_gain_code[index]); /*---------------------------------------------------------------* * reset table of past quantized energies * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * *---------------------------------------------------------------*/ for (i = 0; i < 4; i++) { st->past_qua_en[i] = -2381; } } if (((rxdtx_ctrl & RX_CONT_SID_UPDATE) != 0) && (i_subfr == 0)) { st->gain_code_old_CN = st->gain_code_new_CN; st->gain_code_new_CN = mult (st->gcode0_CN, qua_gain_code[index]); } if (i_subfr == 0) { *gain_code = interpolate_CN_param (st->gain_code_old_CN, st->gain_code_new_CN, rx_dtx_state); } else { *gain_code = st->prev_gc; } } st->past_gain_code = *gain_code; for (i = 1; i < 5; i++) { st->gbuf[i - 1] = st->gbuf[i]; } st->gbuf[4] = st->past_gain_code; st->prev_gc = st->past_gain_code; return; }