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TW-TS-005 reader: fix maximum line length bug TW-TS-005 section 4.1 states: The maximum allowed length of each line is 80 characters, not including the OS-specific newline encoding. The implementation of this line length limit in the TW-TS-005 hex file reader function in the present suite was wrong, such that lines of the full maximum length could not be read. Fix it. Note that this bug affects comment lines too, not just actual RTP payloads. Neither Annex A nor Annex B features an RTP payload format that goes to the maximum of 40 bytes, but if a comment line goes to the maximum allowed length of 80 characters not including the terminating newline, the bug will be triggered, necessitating the present fix.
author Mychaela Falconia <falcon@freecalypso.org>
date Tue, 25 Feb 2025 07:49:28 +0000
parents 7b11cbe99a0e
children
line wrap: on
line source

/*************************************************************************
 *
 *  FUNCTION:  agc
 *
 *  PURPOSE: Scales the postfilter output on a subframe basis by automatic
 *           control of the subframe gain.
 *
 *  DESCRIPTION:
 *   sig_out[n] = sig_out[n] * gain[n];
 *   where gain[n] is the gain at the nth sample given by
 *     gain[n] = agc_fac * gain[n-1] + (1 - agc_fac) g_in/g_out
 *   g_in/g_out is the square root of the ratio of energy at the input
 *   and output of the postfilter.
 *
 *************************************************************************/

#include "gsm_efr.h"
#include "typedef.h"
#include "namespace.h"
#include "basic_op.h"
#include "no_count.h"
#include "cnst.h"
#include "dec_state.h"
#include "sig_proc.h"

void agc (
    struct EFR_decoder_state *st,
    Word16 *sig_in,             /* (i)     : postfilter input signal  */
    Word16 *sig_out,            /* (i/o)   : postfilter output signal */
    Word16 agc_fac,             /* (i)     : AGC factor               */
    Word16 l_trm                /* (i)     : subframe size            */
)
{
    Word16 i, exp;
    Word16 gain_in, gain_out, g0, gain;
    Word32 s;

    Word16 temp;

    /* calculate gain_out with exponent */

    temp = shr (sig_out[0], 2);
    s = L_mult (temp, temp);

    for (i = 1; i < l_trm; i++)
    {
        temp = shr (sig_out[i], 2);
        s = L_mac (s, temp, temp);
    }

    if (s == 0)
    {
        st->past_gain = 0;
        return;
    }
    exp = sub (norm_l (s), 1);
    gain_out = round (L_shl (s, exp));

    /* calculate gain_in with exponent */

    temp = shr (sig_in[0], 2);
    s = L_mult (temp, temp);

    for (i = 1; i < l_trm; i++)
    {
        temp = shr (sig_in[i], 2);
        s = L_mac (s, temp, temp);
    }

    if (s == 0)
    {
        g0 = 0;
    }
    else
    {
        i = norm_l (s);
        gain_in = round (L_shl (s, i));
        exp = sub (exp, i);

        /*---------------------------------------------------*
         *  g0 = (1-agc_fac) * sqrt(gain_in/gain_out);       *
         *---------------------------------------------------*/

        s = L_deposit_l (div_s (gain_out, gain_in));
        s = L_shl (s, 7);       /* s = gain_out / gain_in */
        s = L_shr (s, exp);     /* add exponent */

        s = Inv_sqrt (s);
        i = round (L_shl (s, 9));

        /* g0 = i * (1-agc_fac) */
        g0 = mult (i, sub (32767, agc_fac));
    }

    /* compute gain[n] = agc_fac * gain[n-1]
                        + (1-agc_fac) * sqrt(gain_in/gain_out) */
    /* sig_out[n] = gain[n] * sig_out[n]                        */

    gain = st->past_gain;

    for (i = 0; i < l_trm; i++)
    {
        gain = mult (gain, agc_fac);
        gain = add (gain, g0);
        sig_out[i] = extract_h (L_shl (L_mult (sig_out[i], gain), 3));
    }

    st->past_gain = gain;

    return;
}

void agc2 (
 Word16 *sig_in,        /* (i)     : postfilter input signal  */
 Word16 *sig_out,       /* (i/o)   : postfilter output signal */
 Word16 l_trm           /* (i)     : subframe size            */
)
{
    Word16 i, exp;
    Word16 gain_in, gain_out, g0;
    Word32 s;

    Word16 temp;

    /* calculate gain_out with exponent */

    temp = shr (sig_out[0], 2);
    s = L_mult (temp, temp);
    for (i = 1; i < l_trm; i++)
    {
        temp = shr (sig_out[i], 2);
        s = L_mac (s, temp, temp);
    }

    test (); 
    if (s == 0)
    {
        return;
    }
    exp = sub (norm_l (s), 1);
    gain_out = round (L_shl (s, exp));

    /* calculate gain_in with exponent */

    temp = shr (sig_in[0], 2);
    s = L_mult (temp, temp);
    for (i = 1; i < l_trm; i++)
    {
        temp = shr (sig_in[i], 2);
        s = L_mac (s, temp, temp);
    }

    test (); 
    if (s == 0)
    {
        g0 = 0;                 move16 (); 
    }
    else
    {
        i = norm_l (s);
        gain_in = round (L_shl (s, i));
        exp = sub (exp, i);

        /*---------------------------------------------------*
         *  g0 = sqrt(gain_in/gain_out);                     *
         *---------------------------------------------------*/

        s = L_deposit_l (div_s (gain_out, gain_in));
        s = L_shl (s, 7);       /* s = gain_out / gain_in */
        s = L_shr (s, exp);     /* add exponent */

        s = Inv_sqrt (s);
        g0 = round (L_shl (s, 9));
    }

    /* sig_out(n) = gain(n) sig_out(n) */

    for (i = 0; i < l_trm; i++)
    {
        sig_out[i] = extract_h (L_shl (L_mult (sig_out[i], g0), 3));
                                move16 (); 
    }

    return;
}