view libtwamr/levinson.c @ 553:ebcf414b7d99

doc/TFO-transform: describe details for FRv1, both modes
author Mychaela Falconia <falcon@freecalypso.org>
date Mon, 07 Oct 2024 08:24:24 +0000
parents c713061b6edf
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             : levinson.c
*      Purpose          : Levinson-Durbin algorithm in double precision.
*                       : To compute the LP filter parameters from the
*                       : speech autocorrelations.
*
*****************************************************************************
*/
 
/*
*****************************************************************************
*                         MODULE INCLUDE FILE AND VERSION ID
*****************************************************************************
*/
#include "namespace.h"
#include "levinson.h"
 
/*
*****************************************************************************
*                         INCLUDE FILES
*****************************************************************************
*/
#include "typedef.h"
#include "basic_op.h"
#include "oper_32b.h"
#include "no_count.h"
#include "cnst.h"
 
/*
*****************************************************************************
*                         LOCAL VARIABLES AND TABLES
*****************************************************************************
*/
/*---------------------------------------------------------------*
 *    Constants (defined in "cnst.h")                            *
 *---------------------------------------------------------------*
 * M           : LPC order
 *---------------------------------------------------------------*/
 
/*
*****************************************************************************
*                         PUBLIC PROGRAM CODE
*****************************************************************************
*/
 
/*************************************************************************
*
*  Function:   Levinson_reset
*  Purpose:    Initializes state memory to zero
*
**************************************************************************
*/
void Levinson_reset (LevinsonState *state)
{
  Word16 i;
  
  state->old_A[0] = 4096;
  for(i = 1; i < M + 1; i++)
      state->old_A[i] = 0;
}
 
/*************************************************************************
 *
 *   FUNCTION:  Levinson()
 *
 *   PURPOSE:  Levinson-Durbin algorithm in double precision. To compute the
 *             LP filter parameters from the speech autocorrelations.
 *
 *   DESCRIPTION:
 *       R[i]    autocorrelations.
 *       A[i]    filter coefficients.
 *       K       reflection coefficients.
 *       Alpha   prediction gain.
 *
 *       Initialisation:
 *               A[0] = 1
 *               K    = -R[1]/R[0]
 *               A[1] = K
 *               Alpha = R[0] * (1-K**2]
 *
 *       Do for  i = 2 to M
 *
 *            S =  SUM ( R[j]*A[i-j] ,j=1,i-1 ) +  R[i]
 *
 *            K = -S / Alpha
 *
 *            An[j] = A[j] + K*A[i-j]   for j=1 to i-1
 *                                      where   An[i] = new A[i]
 *            An[i]=K
 *
 *            Alpha=Alpha * (1-K**2)
 *
 *       END
 *
 *************************************************************************/
int Levinson (
    LevinsonState *st,
    Word16 Rh[],       /* i : Rh[m+1] Vector of autocorrelations (msb) */
    Word16 Rl[],       /* i : Rl[m+1] Vector of autocorrelations (lsb) */
    Word16 A[],        /* o : A[m]    LPC coefficients  (m = 10)       */
    Word16 rc[]        /* o : rc[4]   First 4 reflection coefficients  */
)
{
    Word16 i, j;
    Word16 hi, lo;
    Word16 Kh, Kl;                /* reflexion coefficient; hi and lo      */
    Word16 alp_h, alp_l, alp_exp; /* Prediction gain; hi lo and exponent   */
    Word16 Ah[M + 1], Al[M + 1];  /* LPC coef. in double prec.             */
    Word16 Anh[M + 1], Anl[M + 1];/* LPC coef.for next iteration in double
                                     prec. */
    Word32 t0, t1, t2;            /* temporary variable                    */

    /* K = A[1] = -R[1] / R[0] */

    t1 = L_Comp (Rh[1], Rl[1]);
    t2 = L_abs (t1);                    /* abs R[1]         */
    t0 = Div_32 (t2, Rh[0], Rl[0]);     /* R[1]/R[0]        */
    test (); 
    if (t1 > 0)
       t0 = L_negate (t0);             /* -R[1]/R[0]       */
    L_Extract (t0, &Kh, &Kl);           /* K in DPF         */
    
    rc[0] = round (t0);                 move16 (); 

    t0 = L_shr (t0, 4);                 /* A[1] in          */
    L_Extract (t0, &Ah[1], &Al[1]);     /* A[1] in DPF      */

    /*  Alpha = R[0] * (1-K**2) */

    t0 = Mpy_32 (Kh, Kl, Kh, Kl);       /* K*K             */
    t0 = L_abs (t0);                    /* Some case <0 !! */
    t0 = L_sub ((Word32) 0x7fffffffL, t0); /* 1 - K*K        */
    L_Extract (t0, &hi, &lo);           /* DPF format      */
    t0 = Mpy_32 (Rh[0], Rl[0], hi, lo); /* Alpha in        */

    /* Normalize Alpha */

    alp_exp = norm_l (t0);
    t0 = L_shl (t0, alp_exp);
    L_Extract (t0, &alp_h, &alp_l);     /* DPF format    */

    /*--------------------------------------*
     * ITERATIONS  I=2 to M                 *
     *--------------------------------------*/

    for (i = 2; i <= M; i++)
    {
       /* t0 = SUM ( R[j]*A[i-j] ,j=1,i-1 ) +  R[i] */
       
       t0 = 0;                         move32 (); 
       for (j = 1; j < i; j++)
       {
          t0 = L_add (t0, Mpy_32 (Rh[j], Rl[j], Ah[i - j], Al[i - j]));
       }
       t0 = L_shl (t0, 4);
       
       t1 = L_Comp (Rh[i], Rl[i]);
       t0 = L_add (t0, t1);            /* add R[i]        */
       
       /* K = -t0 / Alpha */
       
       t1 = L_abs (t0);
       t2 = Div_32 (t1, alp_h, alp_l); /* abs(t0)/Alpha              */
       test (); 
       if (t0 > 0)
          t2 = L_negate (t2);         /* K =-t0/Alpha                */
       t2 = L_shl (t2, alp_exp);       /* denormalize; compare to Alpha */
       L_Extract (t2, &Kh, &Kl);       /* K in DPF                      */
       
       test (); 
       if (sub (i, 5) < 0)
       {
          rc[i - 1] = round (t2);     move16 (); 
       }
       /* Test for unstable filter. If unstable keep old A(z) */
       
       test (); 
       if (sub (abs_s (Kh), 32750) > 0)
       {
          for (j = 0; j <= M; j++)
          {
             A[j] = st->old_A[j];        move16 (); 
          }
          
          for (j = 0; j < 4; j++)
          {
             rc[j] = 0;              move16 (); 
          }
          
          return 0;
       }
       /*------------------------------------------*
        *  Compute new LPC coeff. -> An[i]         *
        *  An[j]= A[j] + K*A[i-j]     , j=1 to i-1 *
        *  An[i]= K                                *
        *------------------------------------------*/
       
       for (j = 1; j < i; j++)
       {
          t0 = Mpy_32 (Kh, Kl, Ah[i - j], Al[i - j]);
          t0 = L_add(t0, L_Comp(Ah[j], Al[j]));
          L_Extract (t0, &Anh[j], &Anl[j]);
       }
       t2 = L_shr (t2, 4);
       L_Extract (t2, &Anh[i], &Anl[i]);
       
       /*  Alpha = Alpha * (1-K**2) */
       
       t0 = Mpy_32 (Kh, Kl, Kh, Kl);           /* K*K             */
       t0 = L_abs (t0);                        /* Some case <0 !! */
       t0 = L_sub ((Word32) 0x7fffffffL, t0);  /* 1 - K*K        */
       L_Extract (t0, &hi, &lo);               /* DPF format      */
       t0 = Mpy_32 (alp_h, alp_l, hi, lo);
       
       /* Normalize Alpha */
       
       j = norm_l (t0);
       t0 = L_shl (t0, j);
       L_Extract (t0, &alp_h, &alp_l);         /* DPF format    */
       alp_exp = add (alp_exp, j);             /* Add normalization to
                                                  alp_exp */
       
       /* A[j] = An[j] */
       
       for (j = 1; j <= i; j++)
       {
          Ah[j] = Anh[j];                     move16 (); 
          Al[j] = Anl[j];                     move16 (); 
       }
    }
    
    A[0] = 4096;                                move16 (); 
    for (i = 1; i <= M; i++)
    {
       t0 = L_Comp (Ah[i], Al[i]);
       st->old_A[i] = A[i] = round (L_shl (t0, 1));move16 (); move16 (); 
    }
    
    return 0;
}