view libgsmefr/dec_lag6.c @ 78:5bc228bb421e

libgsmefr: lsp_az.c compiles
author Mychaela Falconia <falcon@freecalypso.org>
date Sat, 26 Nov 2022 06:54:06 +0000
parents cb080ec1817e
children f387ee919f2c
line wrap: on
line source

/*************************************************************************
 *   FUNCTION:   Dec_lag6
 *
 *   PURPOSE:  Decoding of fractional pitch lag with 1/6 resolution.
 *             Extract the integer and fraction parts of the pitch lag from
 *             the received adaptive codebook index.
 *
 *    See "Enc_lag6.c" for more details about the encoding procedure.
 *
 *    The fractional lag in 1st and 3rd subframes is encoded with 9 bits
 *    while that in 2nd and 4th subframes is relatively encoded with 6 bits.
 *    Note that in relative encoding only 61 values are used. If the
 *    decoder receives 61, 62, or 63 as the relative pitch index, it means
 *    that a transmission error occurred. In this case, the pitch lag from
 *    previous subframe is used.
 *
 *************************************************************************/

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

Word16 Dec_lag6 (      /* output: return integer pitch lag       */
    struct EFR_decoder_state *st,
    Word16 index,      /* input : received pitch index           */
    Word16 pit_min,    /* input : minimum pitch lag              */
    Word16 pit_max,    /* input : maximum pitch lag              */
    Word16 i_subfr,    /* input : subframe flag                  */
    Word16 L_frame_by2,/* input : speech frame size divided by 2 */
    Word16 *T0_frac,   /* output: fractional part of pitch lag   */
    Word16 bfi,        /* input : bad frame indicator            */
    Word16 *T0_min,
    Word16 *T0_max
)
{
    Word16 pit_flag;
    Word16 T0, i;

    pit_flag = i_subfr;         move16 (); /* flag for 1st or 3rd subframe */
    test (); 
    if (sub (i_subfr, L_frame_by2) == 0)
    {
        pit_flag = 0;           move16 (); 
    }
    test (); 
    if (pit_flag == 0)          /* if 1st or 3rd subframe */
    {
        test (); 
        if (bfi == 0)
        {                       /* if bfi == 0 decode pitch */
            test (); 
            if (sub (index, 463) < 0)
            {
                /* T0 = (index+5)/6 + 17 */
                T0 = add (mult (add (index, 5), 5462), 17);
                i = add (add (T0, T0), T0);
                /* *T0_frac = index - T0*6 + 105 */
                *T0_frac = add (sub (index, add (i, i)), 105);
                                move16 (); 
            }
            else
            {
                T0 = sub (index, 368);
                *T0_frac = 0;   move16 (); 
            }
        }
        else
            /* bfi == 1 */
        {
            T0 = st->old_T0;
            *T0_frac = 0;
        }

        /* find T0_min and T0_max for 2nd (or 4th) subframe */

        *T0_min = sub (T0, 5);
        if (sub (*T0_min, pit_min) < 0)
        {
            *T0_min = pit_min;
        }
        *T0_max = add (*T0_min, 9);
        if (sub (*T0_max, pit_max) > 0)
        {
            *T0_max = pit_max;
            *T0_min = sub (*T0_max, 9);
        }
    }
    else
        /* second or fourth subframe */
    {
        test (); test (); 
        /* if bfi == 0 decode pitch */
        if ((bfi == 0) && (sub (index, 61) < 0))
        {
            /* i = (index+5)/6 - 1 */
            i = sub (mult (add (index, 5), 5462), 1);
            T0 = add (i, *T0_min);
            i = add (add (i, i), i);
            *T0_frac = sub (sub (index, 3), add (i, i));
        }
        else
            /* bfi == 1  OR index >= 61 */
        {
            T0 = st->old_T0;
            *T0_frac = 0;
        }
    }

    st->old_T0 = T0;

    return T0;
}