Exemple #1
0
static int getics(faacDecHandle hDecoder, Info *info, int common_window, byte *win, byte *wshape,
           byte *group, byte *max_sfb, int *lpflag, int *prstflag,
           byte *cb_map, Float *coef, int *global_gain,
           int *factors,
           NOK_LT_PRED_STATUS *nok_ltp_status,
           TNS_frame_info *tns)
{
    int nsect, i, cb, top, bot, tot_sfb;
    byte sect[ 2*(MAXBANDS+1) ];

    memset(sect, 0, sizeof(sect));

    /*
    * global gain
    */
    *global_gain = (short)faad_getbits(&hDecoder->ld, LEN_SCL_PCM);

    if (!common_window) {
        if (!get_ics_info(hDecoder, win, wshape, group, max_sfb, lpflag, prstflag,
            nok_ltp_status, NULL, 0))
            return 0;
    }

    CopyMemory(info, hDecoder->winmap[*win], sizeof(Info));

    /* calculate total number of sfb for this grouping */
    if (*max_sfb == 0) {
        tot_sfb = 0;
    }
    else {
        i=0;
        tot_sfb = info->sfb_per_sbk[0];
        while (group[i++] < info->nsbk) {
            tot_sfb += info->sfb_per_sbk[0];
        }
    }

    /*
    * section data
    */
    nsect = huffcb(hDecoder, sect, info->sectbits, tot_sfb, info->sfb_per_sbk[0], *max_sfb);
    if(nsect==0 && *max_sfb>0)
        return 0;

        /* generate "linear" description from section info
        * stored as codebook for each scalefactor band and group
    */
    if (nsect) {
        bot = 0;
        for (i=0; i<nsect; i++) {
            cb = sect[2*i];
            top = sect[2*i + 1];
            for (; bot<top; bot++)
                *cb_map++ = cb;
            bot = top;
        }
    }  else {
        for (i=0; i<MAXBANDS; i++)
            cb_map[i] = 0;
    }

    /* calculate band offsets
    * (because of grouping and interleaving this cannot be
    * a constant: store it in info.bk_sfb_top)
    */
    calc_gsfb_table(info, group);

    /*
    * scale factor data
    */
    if(!hufffac(hDecoder, info, group, nsect, sect, *global_gain, factors))
        return 0;

    /*
     *  Pulse coding
     */
    if ((hDecoder->pulse_info.pulse_data_present = faad_get1bit(&hDecoder->ld))) { /* pulse data present */
        if (info->islong) {
            get_pulse_nc(hDecoder, &hDecoder->pulse_info);
        } else {
            /* CommonExit(1,"Pulse data not allowed for short blocks"); */
            return 0;
        }
    }

    /*
    * tns data
    */
    if (faad_get1bit(&hDecoder->ld)) { /* tns present */
        get_tns(hDecoder, info, tns);
    }
    else {
        clr_tns(info, tns);
    }

    if (faad_get1bit(&hDecoder->ld)) { /* gain control present */
        /* CommonExit(1, "Gain control not implemented"); */
        return 0;
    }

    return huffspec(hDecoder, info, nsect, sect, factors, coef);
}
/*----------------------------------------------------------------------------
; FUNCTION CODE
----------------------------------------------------------------------------*/
Int getics(
    Int             id_syn_ele,
    BITS            *pInputStream,
    Int             common_window,
    tDec_Int_File   *pVars,
    tDec_Int_Chan   *pChVars,
    Int             group[],
    Int             *pMax_sfb,
    Int             *pCodebookMap,
    TNS_frame_info  *pTnsFrameInfo,
    FrameInfo       **pWinMap,
    PulseInfo       *pPulseInfo,
    SectInfo        sect[])
{
    /*----------------------------------------------------------------------------
    ; Define all local variables
    ----------------------------------------------------------------------------*/
    Int     status = SUCCESS;

    Int     nsect = 0;
    Int     i;
    Int     cb;
    Int     sectWidth;
    Int     sectStart;
    Int     totSfb;
    Int     *pGroup;

    FrameInfo *pFrameInfo;

    Int     global_gain; /* originally passed in from huffdecode */
    Bool    present;

    /*----------------------------------------------------------------------------
    ; Function body here
    ----------------------------------------------------------------------------*/
    pGroup = group;

    /* read global gain from Input bitstream */
    global_gain = get9_n_lessbits(LEN_SCL_PCM, pInputStream);

    if (common_window == FALSE)
    {
        status = get_ics_info(pVars->mc_info.audioObjectType,
                              pInputStream,
                              common_window,
                              &pChVars->wnd,
                              &pChVars->wnd_shape_this_bk,
                              group,
                              pMax_sfb,
                              pWinMap,
                              &pChVars->pShareWfxpCoef->lt_status,
                              NULL);
    }

    pFrameInfo = pWinMap[pChVars->wnd];

    /* at least, number of window should be 1 or 8 */
    if ((pFrameInfo->num_win != 1) && (pFrameInfo->num_win != 8))
    {
        status = 1;
    }

    /* First, calculate total number of scalefactor bands
     * for this grouping. Then, decode section data
     */
    if (*pMax_sfb > 0)
    {

        /* calculate total number of sfb */
        i      = 0;
        totSfb = 0;

        do
        {
            totSfb++;

        }
        while (*pGroup++ < pFrameInfo->num_win);

        totSfb  *=  pFrameInfo->sfb_per_win[0];

        /* decode section data */
        nsect = huffcb(sect,
                       pInputStream,
                       pFrameInfo->sectbits,
                       totSfb,
                       pFrameInfo->sfb_per_win[0],
                       *pMax_sfb);

        if (nsect == 0)
        {
            status = 1;     /* decode section data error */

        }/* if (nsect) */

        /* generate "linear" description from section info
         * stored as codebook for each scalefactor band and group
         * when nsect == 0, for-loop does not execute
         */
        sectStart = 0;
        for (i = 0; i < nsect; i++)
        {
            cb  = sect[i].sect_cb;
            sectWidth =  sect[i].sect_end - sectStart;
            sectStart += sectWidth;

            while (sectWidth > 0)
            {
                *pCodebookMap++ = cb;   /* cannot use memset for Int */
                sectWidth--;
            }

        } /* for (i) */

    }
    else
    {
        /* set all sections with ZERO_HCB */
        pv_memset(pCodebookMap,
                  ZERO_HCB,
                  MAXBANDS*sizeof(*pCodebookMap));
        /*
                for (i=MAXBANDS; i>0; i--)
                {
                    *(pCodebookMap++) = ZERO_HCB;
                }
        */

    } /* if (*pMax_sfb) */

    /* calculate band offsets
     * (because of grouping and interleaving this cannot be
     * a constant: store it in pFrameInfo->frame_sfb_top)
     */
    if (pFrameInfo->islong == FALSE)
    {
        calc_gsfb_table(pFrameInfo, group);
    }

    /* decode scale factor data */
    if (status == SUCCESS)
    {
        status = hufffac(pFrameInfo,
                         pInputStream,
                         group,
                         nsect,
                         sect,
                         global_gain,
                         pChVars->pShareWfxpCoef->factors,
                         pVars->scratch.a.huffbook_used);

    } /* if (status) */

    /* noiseless coding */
    if (status == SUCCESS)
    {
        present = get1bits(pInputStream);

        pPulseInfo->pulse_data_present = present;

        if (present != FALSE)
        {
            if (pFrameInfo->islong == 1)
            {
                status = get_pulse_data(pPulseInfo,
                                        pInputStream);
            }
            else
            {
                /* CommonExit(1,"Pulse data not allowed for short blocks"); */
                status = 1;

            } /* if (pFrameInfo) */
        } /* if (present) */

    } /* if (status) */


    /* decode tns data */
    if (status == SUCCESS)
    {
        present = get1bits(pInputStream);

        pTnsFrameInfo->tns_data_present = present;

        if (present != FALSE)
        {
            get_tns(pChVars->pShareWfxpCoef->max_sfb,
                    pInputStream,
                    pChVars->wnd,
                    pFrameInfo,
                    &pVars->mc_info,
                    pTnsFrameInfo,
                    pVars->scratch.a.tns_decode_coef);
        }
        else
        {
            for (i = pFrameInfo->num_win - 1; i >= 0 ; i--)
            {
                pTnsFrameInfo->n_filt[i] = 0;
            }

        } /* if(present) */

    } /* if (status) */

    /* gain control */
    if (status == SUCCESS)
    {
        present =
            get1bits(pInputStream);

        if (present != FALSE)
        {
            /* CommonExit(1, "Gain control not implemented"); */
            status = 1;
        }
    } /* if (status) */

    if (status == SUCCESS)
    {
        /* Support Mono, Dual-Mono, or Stereo */
        if ((id_syn_ele == ID_SCE) || (id_syn_ele == ID_CPE))
        {
            status = huffspec_fxp(pFrameInfo,
                                  pInputStream,
                                  nsect,
                                  sect,
                                  pChVars->pShareWfxpCoef->factors,
                                  pChVars->fxpCoef,
                                  pVars->share.a.quantSpec,
                                  pVars->scratch.tmp_spec,
                                  pWinMap[ONLY_LONG_WINDOW],
                                  pPulseInfo,
                                  pChVars->pShareWfxpCoef->qFormat);
        }
    }

    /*----------------------------------------------------------------------------
    ; Return status
    ----------------------------------------------------------------------------*/

    return status;

} /* getics */