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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#if defined(JACK_INPUT)
#  include <jack/jack.h>
#  include <jack/ringbuffer.h>
#endif
#include "common.h"
#include "encoder.h"
#include "musicin.h"
#include "options.h"
#include "audio_read.h"
#include "bitstream.h"
#include "mem.h"
#include "crc.h"
#include "psycho_n1.h"
#include "psycho_0.h"
#include "psycho_1.h"
#include "psycho_2.h"
#include "psycho_3.h"
#include "psycho_4.h"
#include "encode.h"
#include "availbits.h"
#include "subband.h"
#include "encode_new.h"
#include "toolame.h"
#include "xpad.h"
#include "utils.h"
#include "vlc_input.h"
#include "zmqoutput.h"

#include <assert.h>

music_in_t musicin;
Bit_stream_struc bs;
char *programName;
char toolameversion[] = "0.2l-ODR";

const int FPAD_LENGTH=2;

void global_init (void)
{
    glopts.usepsy = TRUE;
    glopts.usepadbit = TRUE;
    glopts.quickmode = FALSE;
    glopts.quickcount = 10;
    glopts.downmix = FALSE;
    glopts.byteswap = FALSE;
    glopts.channelswap = FALSE;
    glopts.vbr = FALSE;
    glopts.vbrlevel = 0;
    glopts.athlevel = 0;
    glopts.verbosity = 2;
    glopts.input_select = 0;
}

/************************************************************************
 *
 * main
 *
 * PURPOSE:  MPEG II Encoder with
 * psychoacoustic models 1 (MUSICAM) and 2 (AT&T)
 *
 * SEMANTICS:  One overlapping frame of audio of up to 2 channels are
 * processed at a time in the following order:
 * (associated routines are in parentheses)
 *
 * 1.  Filter sliding window of data to get 32 subband
 * samples per channel.
 * (window_subband,filter_subband)
 *
 * 2.  If joint stereo mode, combine left and right channels
 * for subbands above #jsbound#.
 * (combine_LR)
 *
 * 3.  Calculate scalefactors for the frame, and 
 * also calculate scalefactor select information.
 * (*_scale_factor_calc)
 *
 * 4.  Calculate psychoacoustic masking levels using selected
 * psychoacoustic model.
 * (psycho_i, psycho_ii)
 *
 * 5.  Perform iterative bit allocation for subbands with low
 * mask_to_noise ratios using masking levels from step 4.
 * (*_main_bit_allocation)
 *
 * 6.  If error protection flag is active, add redundancy for
 * error protection.
 * (*_CRC_calc)
 *
 * 7.  Pack bit allocation, scalefactors, and scalefactor select
 *headerrmation onto bitstream.
 * (*_encode_bit_alloc,*_encode_scale,transmission_pattern)
 *
 * 8.  Quantize subbands and pack them into bitstream
 * (*_subband_quantization, *_sample_encoding)
 *
 ************************************************************************/

static frame_info frame;
static frame_header header;
static int frameNum;
static int xpad_len;
static int psycount;
static int model;
static unsigned int crc;

typedef double SBS[2][3][SCALE_BLOCK][SBLIMIT];
typedef double JSBS[3][SCALE_BLOCK][SBLIMIT];
typedef unsigned int SUB[2][3][SCALE_BLOCK][SBLIMIT];

static SBS *sb_sample;
static JSBS *j_sample;
static SUB *subband;

static unsigned int scalar[2][3][SBLIMIT];
static unsigned int j_scale[3][SBLIMIT];

static double smr[2][SBLIMIT];
static double max_sc[2][SBLIMIT];
static short sam[2][1344];

/* Used to keep the SNR values for the fast/quick psy models */
static FLOAT smrdef[2][32];

static unsigned int scfsi[2][SBLIMIT];
static unsigned int bit_alloc[2][SBLIMIT];

static uint8_t* xpad_data;

int toolame_init(void)
{
    frameNum = 0;
    psycount = 0;

    header.extension = 0;
    frame.header = &header;
    frame.tab_num = -1;		/* no table loaded */
    frame.alloc = NULL;
    header.version = MPEG_AUDIO_ID;	/* Default: MPEG-1 */

    sb_sample = (SBS *) mem_alloc (sizeof (SBS), "sb_sample");
    j_sample = (JSBS *) mem_alloc (sizeof (JSBS), "j_sample");
    subband = (SUB *) mem_alloc (sizeof (SUB), "subband");
    memset ((char *) scalar, 0, sizeof (scalar));
    memset ((char *) j_scale, 0, sizeof (j_scale));
    memset ((char *) smr, 0, sizeof (smr));
    memset ((char *) max_sc, 0, sizeof (max_sc));
    memset ((char *) sam, 0, sizeof (sam));
    memset ((char *) scfsi, 0, sizeof (scfsi));
    memset ((char *) bit_alloc, 0, sizeof (bit_alloc));

    xpad_data = NULL;

    return 0;
}

int toolame_encode_frame(short buffer[2][1152])
{
    extern int minimum;
    const int nch = frame.nch;
    const int error_protection = header.error_protection;

    short *win_buf[2] = {&buffer[0][0], &buffer[1][0]};

    int adb = available_bits (&header, &glopts);
    int lg_frame = adb / 8;
    if (header.dab_extension) {
        /* You must have one frame in memory if you are in DAB mode                 */
        /* in conformity of the norme ETS 300 401 http://www.etsi.org               */
        /* see bitstream.c            */
        if (frameNum == 1)
            minimum = lg_frame + MINIMUM;
        adb -= header.dab_extension * 8 + (xpad_len ? xpad_len : FPAD_LENGTH) * 8;
    }

    {
        int gr, bl, ch;
        /* New polyphase filter
           Combines windowing and filtering. Ricardo Feb'03 */
        for( gr = 0; gr < 3; gr++ )
            for ( bl = 0; bl < 12; bl++ )
                for ( ch = 0; ch < nch; ch++ )
                    WindowFilterSubband( &buffer[ch][gr * 12 * 32 + 32 * bl], ch,
                            &(*sb_sample)[ch][gr][bl][0] );
    }

#ifdef REFERENCECODE
    {
        /* Old code. left here for reference */
        int gr, bl, ch;
        for (gr = 0; gr < 3; gr++)
            for (bl = 0; bl < SCALE_BLOCK; bl++)
                for (ch = 0; ch < nch; ch++) {
                    window_subband (&win_buf[ch], &(*win_que)[ch][0], ch);
                    filter_subband (&(*win_que)[ch][0], &(*sb_sample)[ch][gr][bl][0]);
                }
    }
#endif


#ifdef NEWENCODE
    scalefactor_calc_new(*sb_sample, scalar, nch, frame.sblimit);
    find_sf_max (scalar, &frame, max_sc);
    if (frame.actual_mode == MPG_MD_JOINT_STEREO) {
        /* this way we calculate more mono than we need */
        /* but it is cheap */
        combine_LR_new (*sb_sample, *j_sample, frame.sblimit);
        scalefactor_calc_new (j_sample, &j_scale, 1, frame.sblimit);
    }
#else
    scale_factor_calc (*sb_sample, scalar, nch, frame.sblimit);
    pick_scale (scalar, &frame, max_sc);
    if (frame.actual_mode == MPG_MD_JOINT_STEREO) {
        /* this way we calculate more mono than we need */
        /* but it is cheap */
        combine_LR (*sb_sample, *j_sample, frame.sblimit);
        scale_factor_calc (j_sample, &j_scale, 1, frame.sblimit);
    }
#endif



    if ((glopts.quickmode == TRUE) && (++psycount % glopts.quickcount != 0)) {
        /* We're using quick mode, so we're only calculating the model every
           'quickcount' frames. Otherwise, just copy the old ones across */
        for (int ch = 0; ch < nch; ch++) {
            for (int sb = 0; sb < SBLIMIT; sb++)
                smr[ch][sb] = smrdef[ch][sb];
        }
    } else {
        /* calculate the psymodel */
        switch (model) {
            case -1:
                psycho_n1 (smr, nch);
                break;
            case 0:	/* Psy Model A */
                psycho_0 (smr, nch, scalar, (FLOAT) s_freq[header.version][header.sampling_frequency] * 1000);
                break;
            case 1:
                psycho_1 (buffer, max_sc, smr, &frame);
                break;
            case 2:
                for (int ch = 0; ch < nch; ch++) {
                    psycho_2 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], //snr32,
                            (FLOAT) s_freq[header.version][header.sampling_frequency] *
                            1000, &glopts);
                }
                break;
            case 3:
                /* Modified psy model 1 */
                psycho_3 (buffer, max_sc, smr, &frame, &glopts);
                break;
            case 4:
                /* Modified Psycho Model 2 */
                for (int ch = 0; ch < nch; ch++) {
                    psycho_4 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], // snr32,
                            (FLOAT) s_freq[header.version][header.sampling_frequency] *
                            1000, &glopts);
                }
                break;	
            case 5:
                /* Model 5 comparse model 1 and 3 */
                psycho_1 (buffer, max_sc, smr, &frame);
                fprintf(stdout,"1 ");
                smr_dump(smr,nch);
                psycho_3 (buffer, max_sc, smr, &frame, &glopts);
                fprintf(stdout,"3 ");
                smr_dump(smr,nch);
                break;
            case 6:
                /* Model 6 compares model 2 and 4 */
                for (int ch = 0; ch < nch; ch++) 
                    psycho_2 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], //snr32,
                            (FLOAT) s_freq[header.version][header.sampling_frequency] *
                            1000, &glopts);
                fprintf(stdout,"2 ");
                smr_dump(smr,nch);
                for (int ch = 0; ch < nch; ch++) 
                    psycho_4 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], // snr32,
                            (FLOAT) s_freq[header.version][header.sampling_frequency] *
                            1000, &glopts);
                fprintf(stdout,"4 ");
                smr_dump(smr,nch);
                break;
            case 7:
                fprintf(stdout,"Frame: %i\n",frameNum);
                /* Dump the SMRs for all models */	
                psycho_1 (buffer, max_sc, smr, &frame);
                fprintf(stdout,"1");
                smr_dump(smr, nch);
                psycho_3 (buffer, max_sc, smr, &frame, &glopts);
                fprintf(stdout,"3");
                smr_dump(smr,nch);
                for (int ch = 0; ch < nch; ch++) 
                    psycho_2 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], //snr32,
                            (FLOAT) s_freq[header.version][header.sampling_frequency] *
                            1000, &glopts);
                fprintf(stdout,"2");
                smr_dump(smr,nch);
                for (int ch = 0; ch < nch; ch++) 
                    psycho_4 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], // snr32,
                            (FLOAT) s_freq[header.version][header.sampling_frequency] *
                            1000, &glopts);
                fprintf(stdout,"4");
                smr_dump(smr,nch);
                break;
            case 8:
                /* Compare 0 and 4 */	
                psycho_n1 (smr, nch);
                fprintf(stdout,"0");
                smr_dump(smr,nch);

                for (int ch = 0; ch < nch; ch++) 
                    psycho_4 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], // snr32,
                            (FLOAT) s_freq[header.version][header.sampling_frequency] *
                            1000, &glopts);
                fprintf(stdout,"4");
                smr_dump(smr,nch);
                break;
            default:
                fprintf (stderr, "Invalid psy model specification: %i\n", model);
                exit (0);
        }

        if (glopts.quickmode == TRUE)
            /* copy the smr values and reuse them later */
            for (int ch = 0; ch < nch; ch++) {
                for (int sb = 0; sb < SBLIMIT; sb++)
                    smrdef[ch][sb] = smr[ch][sb];
            }

        if (glopts.verbosity > 4)
            smr_dump(smr, nch);




    }

#ifdef NEWENCODE
    sf_transmission_pattern (scalar, scfsi, &frame);
    main_bit_allocation_new (smr, scfsi, bit_alloc, &adb, &frame, &glopts);
    //main_bit_allocation (smr, scfsi, bit_alloc, &adb, &frame, &glopts);

    if (error_protection)
        CRC_calc (&frame, bit_alloc, scfsi, &crc);

    write_header (&frame, &bs);
    //encode_info (&frame, &bs);
    if (error_protection)
        putbits (&bs, crc, 16);
    write_bit_alloc (bit_alloc, &frame, &bs);
    //encode_bit_alloc (bit_alloc, &frame, &bs);
    write_scalefactors(bit_alloc, scfsi, scalar, &frame, &bs);
    //encode_scale (bit_alloc, scfsi, scalar, &frame, &bs);
    subband_quantization_new (scalar, *sb_sample, j_scale, *j_sample, bit_alloc,
            *subband, &frame);
    //subband_quantization (scalar, *sb_sample, j_scale, *j_sample, bit_alloc,
    //	  *subband, &frame);
    write_samples_new(*subband, bit_alloc, &frame, &bs);
    //sample_encoding (*subband, bit_alloc, &frame, &bs);
#else
    transmission_pattern (scalar, scfsi, &frame);
    main_bit_allocation (smr, scfsi, bit_alloc, &adb, &frame, &glopts);
    if (error_protection)
        CRC_calc (&frame, bit_alloc, scfsi, &crc);
    encode_info (&frame, &bs);
    if (error_protection)
        encode_CRC (crc, &bs);
    encode_bit_alloc (bit_alloc, &frame, &bs);
    encode_scale (bit_alloc, scfsi, scalar, &frame, &bs);
    subband_quantization (scalar, *sb_sample, j_scale, *j_sample, bit_alloc,
            *subband, &frame);
    sample_encoding (*subband, bit_alloc, &frame, &bs);
#endif


    /* If not all the bits were used, write out a stack of zeros */
    for (int i = 0; i < adb; i++) {
        put1bit (&bs, 0);
    }


    if (xpad_len) {
        assert(xpad_len > 2);

        // insert available X-PAD
        for (int i = header.dab_length - xpad_len;
                i < header.dab_length - FPAD_LENGTH;
                i++) {
            putbits (&bs, xpad_data[i], 8);
        }
    }


    for (int i = header.dab_extension - 1; i >= 0; i--) {
        CRC_calcDAB (&frame, bit_alloc, scfsi, scalar, &crc, i);
        /* this crc is for the previous frame in DAB mode  */
        if (bs.buf_byte_idx + lg_frame < bs.buf_size)
            bs.buf[bs.buf_byte_idx + lg_frame] = crc;
        /* reserved 2 bytes for F-PAD in DAB mode  */
        putbits (&bs, crc, 8);
    }

    if (xpad_len) {
        /* The F-PAD is also given us by mot-encoder */
        putbits (&bs, xpad_data[header.dab_length - 2], 8);
        putbits (&bs, xpad_data[header.dab_length - 1], 8);
    }
    else {
        putbits (&bs, 0, 16); // FPAD is all-zero
    }
}

int oldmain (int argc, char **argv)
{
    SBS *sb_sample;
    JSBS *j_sample;
#ifdef REFERENCECODE
    typedef double IN[2][HAN_SIZE];
    IN *win_que;
#endif
    typedef unsigned int SUB[2][3][SCALE_BLOCK][SBLIMIT];
    SUB *subband;

    frame_info frame;
    frame_header header;
    char original_file_name[MAX_NAME_SIZE];
    char encoded_file_name[MAX_NAME_SIZE];
    short **win_buf;
    static short buffer[2][1152];
    static unsigned int bit_alloc[2][SBLIMIT], scfsi[2][SBLIMIT];
    static unsigned int scalar[2][3][SBLIMIT], j_scale[3][SBLIMIT];
    static double smr[2][SBLIMIT], lgmin[2][SBLIMIT], max_sc[2][SBLIMIT];
    // FLOAT snr32[32];
    short sam[2][1344];		/* was [1056]; */
    int model, nch, error_protection;
    static unsigned int crc;
    int sb, ch, adb;
    unsigned long frameBits, sentBits = 0;
    unsigned long num_samples;
    int lg_frame;
    int i;

    /* Keep track of peaks */
    int peak_left = 0;
    int peak_right = 0;

    char* mot_file = NULL;
    char* icy_file = NULL;

    /* Used to keep the SNR values for the fast/quick psy models */
    static FLOAT smrdef[2][32];

    static int psycount = 0;
    extern int minimum;

    sb_sample = (SBS *) mem_alloc (sizeof (SBS), "sb_sample");
    j_sample = (JSBS *) mem_alloc (sizeof (JSBS), "j_sample");
#ifdef REFERENCECODE
    win_que = (IN *) mem_alloc (sizeof (IN), "Win_que");
#endif
    subband = (SUB *) mem_alloc (sizeof (SUB), "subband");
    win_buf = (short **) mem_alloc (sizeof (short *) * 2, "win_buf");

    /* clear buffers */
    memset ((char *) buffer, 0, sizeof (buffer));
    memset ((char *) bit_alloc, 0, sizeof (bit_alloc));
    memset ((char *) scalar, 0, sizeof (scalar));
    memset ((char *) j_scale, 0, sizeof (j_scale));
    memset ((char *) scfsi, 0, sizeof (scfsi));
    memset ((char *) smr, 0, sizeof (smr));
    memset ((char *) lgmin, 0, sizeof (lgmin));
    memset ((char *) max_sc, 0, sizeof (max_sc));
    //memset ((char *) snr32, 0, sizeof (snr32));
    memset ((char *) sam, 0, sizeof (sam));

    global_init ();

    header.extension = 0;
    frame.header = &header;
    frame.tab_num = -1;		/* no table loaded */
    frame.alloc = NULL;
    header.version = MPEG_AUDIO_ID;	/* Default: MPEG-1 */

    programName = argv[0];
    if (argc == 1)		/* no command-line args */
        short_usage ();
    else
        parse_args (argc, argv, &frame, &model, &num_samples, original_file_name,
                encoded_file_name, &mot_file, &icy_file);
    print_config (&frame, &model, original_file_name, encoded_file_name);

    uint8_t* xpad_data = NULL;
    if (mot_file) {
        if (header.dab_length <= 0) {
            fprintf(stderr, "Invalid XPAD length specified\n");
            return 1;
        }

        int err = xpad_init(mot_file, header.dab_length + 1);
        if (err == -1) {
            fprintf(stderr, "XPAD reader initialisation failed\n");
            return 1;
        }

        xpad_data = malloc(header.dab_length + 1);
    }

    /* this will load the alloc tables and do some other stuff */
    hdr_to_frps (&frame);
    nch = frame.nch;
    error_protection = header.error_protection;

    unsigned long samps_read;
    while ((samps_read = get_audio(&musicin, buffer, num_samples, nch, &header)) > 0) {
        /* Check if we have new PAD data
         */
        int xpad_len = 0;
        if (mot_file) {
            xpad_len = xpad_read_len(xpad_data, header.dab_length + 1);

            if (xpad_len == -1) {
                fprintf(stderr, "Error reading XPAD data\n");
                xpad_len = 0;
            }
            else if (xpad_len == 0) {
                // no PAD available
            }
            else if (xpad_len == header.dab_length + 1) {
//#define XPAD_DEBUG
#ifdef XPAD_DEBUG
                fprintf(stderr, "XPAD:");
                for (i = 0; i < xpad_len; i++)
                    fprintf(stderr, " %02X", xpad_data[i]);
                fprintf(stderr, "\n");
#endif
                // everything OK
                xpad_len = xpad_data[header.dab_length];
                assert(xpad_len > 2);
            }
            else {
                fprintf(stderr, "xpad length=%d\n", xpad_len);
                abort();
            }
        }

        unsigned long j;
        for (j = 0; j < 1152; j++) {
            peak_left  = MAX(peak_left,  buffer[0][j]);
        }
        for (j = 0; j < 1152; j++) {
            peak_right = MAX(peak_right, buffer[1][j]);
        }

        // We can always set the zmq peaks, even if the output is not
        // used, it just writes some variables
        zmqoutput_set_peaks(peak_left, peak_right);

        if (glopts.verbosity > 1)
            if (++frameNum % 10 == 0) {

                fprintf(stderr, "[%4u", frameNum);

                if (mot_file) {
                    fprintf(stderr, " %s",
                        xpad_len > 0 ? "p" : " ");
                }

                if (glopts.show_level) {
                    fprintf(stderr, " (%6d|%-6d) ",
                            peak_left, peak_right);

                    fprintf(stderr, "] [%6s|%-6s]\r",
                            level(0, &peak_left),
                            level(1, &peak_right) );
                }
                else {
                    fprintf(stderr, "]\r");
                }
            }

        fflush(stderr);
        win_buf[0] = &buffer[0][0];
        win_buf[1] = &buffer[1][0];

        adb = available_bits (&header, &glopts);
        lg_frame = adb / 8;
        if (header.dab_extension) {
            /* You must have one frame in memory if you are in DAB mode                 */
            /* in conformity of the norme ETS 300 401 http://www.etsi.org               */
            /* see bitstream.c            */
            if (frameNum == 1)
                minimum = lg_frame + MINIMUM;
            adb -= header.dab_extension * 8 + (xpad_len ? xpad_len : FPAD_LENGTH) * 8;
        }

        {
            int gr, bl, ch;
            /* New polyphase filter
               Combines windowing and filtering. Ricardo Feb'03 */
            for( gr = 0; gr < 3; gr++ )
                for ( bl = 0; bl < 12; bl++ )
                    for ( ch = 0; ch < nch; ch++ )
                        WindowFilterSubband( &buffer[ch][gr * 12 * 32 + 32 * bl], ch,
                                &(*sb_sample)[ch][gr][bl][0] );
        }

#ifdef REFERENCECODE
        {
            /* Old code. left here for reference */
            int gr, bl, ch;
            for (gr = 0; gr < 3; gr++)
                for (bl = 0; bl < SCALE_BLOCK; bl++)
                    for (ch = 0; ch < nch; ch++) {
                        window_subband (&win_buf[ch], &(*win_que)[ch][0], ch);
                        filter_subband (&(*win_que)[ch][0], &(*sb_sample)[ch][gr][bl][0]);
                    }
        }
#endif


#ifdef NEWENCODE
        scalefactor_calc_new(*sb_sample, scalar, nch, frame.sblimit);
        find_sf_max (scalar, &frame, max_sc);
        if (frame.actual_mode == MPG_MD_JOINT_STEREO) {
            /* this way we calculate more mono than we need */
            /* but it is cheap */
            combine_LR_new (*sb_sample, *j_sample, frame.sblimit);
            scalefactor_calc_new (j_sample, &j_scale, 1, frame.sblimit);
        }
#else
        scale_factor_calc (*sb_sample, scalar, nch, frame.sblimit);
        pick_scale (scalar, &frame, max_sc);
        if (frame.actual_mode == MPG_MD_JOINT_STEREO) {
            /* this way we calculate more mono than we need */
            /* but it is cheap */
            combine_LR (*sb_sample, *j_sample, frame.sblimit);
            scale_factor_calc (j_sample, &j_scale, 1, frame.sblimit);
        }
#endif



        if ((glopts.quickmode == TRUE) && (++psycount % glopts.quickcount != 0)) {
            /* We're using quick mode, so we're only calculating the model every
               'quickcount' frames. Otherwise, just copy the old ones across */
            for (ch = 0; ch < nch; ch++) {
                for (sb = 0; sb < SBLIMIT; sb++)
                    smr[ch][sb] = smrdef[ch][sb];
            }
        } else {
            /* calculate the psymodel */
            switch (model) {
                case -1:
                    psycho_n1 (smr, nch);
                    break;
                case 0:	/* Psy Model A */
                    psycho_0 (smr, nch, scalar, (FLOAT) s_freq[header.version][header.sampling_frequency] * 1000);	
                    break;
                case 1:
                    psycho_1 (buffer, max_sc, smr, &frame);
                    break;
                case 2:
                    for (ch = 0; ch < nch; ch++) {
                        psycho_2 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], //snr32,
                                (FLOAT) s_freq[header.version][header.sampling_frequency] *
                                1000, &glopts);
                    }
                    break;
                case 3:
                    /* Modified psy model 1 */
                    psycho_3 (buffer, max_sc, smr, &frame, &glopts);
                    break;
                case 4:
                    /* Modified Psycho Model 2 */
                    for (ch = 0; ch < nch; ch++) {
                        psycho_4 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], // snr32,
                                (FLOAT) s_freq[header.version][header.sampling_frequency] *
                                1000, &glopts);
                    }
                    break;	
                case 5:
                    /* Model 5 comparse model 1 and 3 */
                    psycho_1 (buffer, max_sc, smr, &frame);
                    fprintf(stdout,"1 ");
                    smr_dump(smr,nch);
                    psycho_3 (buffer, max_sc, smr, &frame, &glopts);
                    fprintf(stdout,"3 ");
                    smr_dump(smr,nch);
                    break;
                case 6:
                    /* Model 6 compares model 2 and 4 */
                    for (ch = 0; ch < nch; ch++) 
                        psycho_2 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], //snr32,
                                (FLOAT) s_freq[header.version][header.sampling_frequency] *
                                1000, &glopts);
                    fprintf(stdout,"2 ");
                    smr_dump(smr,nch);
                    for (ch = 0; ch < nch; ch++) 
                        psycho_4 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], // snr32,
                                (FLOAT) s_freq[header.version][header.sampling_frequency] *
                                1000, &glopts);
                    fprintf(stdout,"4 ");
                    smr_dump(smr,nch);
                    break;
                case 7:
                    fprintf(stdout,"Frame: %i\n",frameNum);
                    /* Dump the SMRs for all models */	
                    psycho_1 (buffer, max_sc, smr, &frame);
                    fprintf(stdout,"1");
                    smr_dump(smr, nch);
                    psycho_3 (buffer, max_sc, smr, &frame, &glopts);
                    fprintf(stdout,"3");
                    smr_dump(smr,nch);
                    for (ch = 0; ch < nch; ch++) 
                        psycho_2 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], //snr32,
                                (FLOAT) s_freq[header.version][header.sampling_frequency] *
                                1000, &glopts);
                    fprintf(stdout,"2");
                    smr_dump(smr,nch);
                    for (ch = 0; ch < nch; ch++) 
                        psycho_4 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], // snr32,
                                (FLOAT) s_freq[header.version][header.sampling_frequency] *
                                1000, &glopts);
                    fprintf(stdout,"4");
                    smr_dump(smr,nch);
                    break;
                case 8:
                    /* Compare 0 and 4 */	
                    psycho_n1 (smr, nch);
                    fprintf(stdout,"0");
                    smr_dump(smr,nch);

                    for (ch = 0; ch < nch; ch++) 
                        psycho_4 (&buffer[ch][0], &sam[ch][0], ch, &smr[ch][0], // snr32,
                                (FLOAT) s_freq[header.version][header.sampling_frequency] *
                                1000, &glopts);
                    fprintf(stdout,"4");
                    smr_dump(smr,nch);
                    break;
                default:
                    fprintf (stderr, "Invalid psy model specification: %i\n", model);
                    exit (0);
            }

            if (glopts.quickmode == TRUE)
                /* copy the smr values and reuse them later */
                for (ch = 0; ch < nch; ch++) {
                    for (sb = 0; sb < SBLIMIT; sb++)
                        smrdef[ch][sb] = smr[ch][sb];
                }

            if (glopts.verbosity > 4) 
                smr_dump(smr, nch);




        }

#ifdef NEWENCODE
        sf_transmission_pattern (scalar, scfsi, &frame);
        main_bit_allocation_new (smr, scfsi, bit_alloc, &adb, &frame, &glopts);
        //main_bit_allocation (smr, scfsi, bit_alloc, &adb, &frame, &glopts);

        if (error_protection)
            CRC_calc (&frame, bit_alloc, scfsi, &crc);

        write_header (&frame, &bs);
        //encode_info (&frame, &bs);
        if (error_protection)
            putbits (&bs, crc, 16);
        write_bit_alloc (bit_alloc, &frame, &bs);
        //encode_bit_alloc (bit_alloc, &frame, &bs);
        write_scalefactors(bit_alloc, scfsi, scalar, &frame, &bs);
        //encode_scale (bit_alloc, scfsi, scalar, &frame, &bs);
        subband_quantization_new (scalar, *sb_sample, j_scale, *j_sample, bit_alloc,
                *subband, &frame);
        //subband_quantization (scalar, *sb_sample, j_scale, *j_sample, bit_alloc,
        //	  *subband, &frame);
        write_samples_new(*subband, bit_alloc, &frame, &bs);
        //sample_encoding (*subband, bit_alloc, &frame, &bs);
#else
        transmission_pattern (scalar, scfsi, &frame);
        main_bit_allocation (smr, scfsi, bit_alloc, &adb, &frame, &glopts);
        if (error_protection)
            CRC_calc (&frame, bit_alloc, scfsi, &crc);
        encode_info (&frame, &bs);
        if (error_protection)
            encode_CRC (crc, &bs);
        encode_bit_alloc (bit_alloc, &frame, &bs);
        encode_scale (bit_alloc, scfsi, scalar, &frame, &bs);
        subband_quantization (scalar, *sb_sample, j_scale, *j_sample, bit_alloc,
                *subband, &frame);
        sample_encoding (*subband, bit_alloc, &frame, &bs);
#endif


        /* If not all the bits were used, write out a stack of zeros */
        for (i = 0; i < adb; i++)
            put1bit (&bs, 0);


        if (xpad_len) {
            assert(xpad_len > 2);

            // insert available X-PAD
            for (i = header.dab_length - xpad_len; i < header.dab_length - FPAD_LENGTH; i++)
                putbits (&bs, xpad_data[i], 8);
        }


        for (i = header.dab_extension - 1; i >= 0; i--) {
            CRC_calcDAB (&frame, bit_alloc, scfsi, scalar, &crc, i);
            /* this crc is for the previous frame in DAB mode  */
            if (bs.buf_byte_idx + lg_frame < bs.buf_size)
                bs.buf[bs.buf_byte_idx + lg_frame] = crc;
            /* reserved 2 bytes for F-PAD in DAB mode  */
            putbits (&bs, crc, 8);
        }

        if (xpad_len) {
            /* The F-PAD is also given us by mot-encoder */
            putbits (&bs, xpad_data[header.dab_length - 2], 8);
            putbits (&bs, xpad_data[header.dab_length - 1], 8);
        }
        else {
            putbits (&bs, 0, 16); // FPAD is all-zero
        }

#if defined(VLC_INPUT)
        if (glopts.input_select == INPUT_SELECT_VLC) {
            vlc_in_write_icy();
        }
#endif


        frameBits = sstell (&bs) - sentBits;

        if (frameBits % 8) {	/* a program failure */
            fprintf (stderr, "Sent %ld bits = %ld slots plus %ld\n", frameBits,
                    frameBits / 8, frameBits % 8);
            fprintf (stderr, "If you are reading this, the program is broken\n");
            fprintf (stderr, "Please report a bug.\n");
            exit(1);
        }

        sentBits += frameBits;

        // Reset peak measurement
        peak_left = 0;
        peak_right = 0;
    }

    fprintf(stdout, "Main loop has quit with samps_read = %zu\n", samps_read);

    close_bit_stream_w (&bs);

    if ((glopts.verbosity > 1) && (glopts.vbr == TRUE)) {
        int i;
#ifdef NEWENCODE
        extern int vbrstats_new[15];
#else
        extern int vbrstats[15];
#endif
        fprintf (stdout, "VBR stats:\n");
        for (i = 1; i < 15; i++)
            fprintf (stdout, "%4i ", bitrate[header.version][i]);
        fprintf (stdout, "\n");
        for (i = 1; i < 15; i++)
#ifdef NEWENCODE
            fprintf (stdout,"%4i ",vbrstats_new[i]);
#else
        fprintf (stdout, "%4i ", vbrstats[i]);
#endif
        fprintf (stdout, "\n");
    }

    fprintf (stderr,
            "Avg slots/frame = %.3f; b/smp = %.2f; bitrate = %.3f kbps\n",
            (FLOAT) sentBits / (frameNum * 8),
            (FLOAT) sentBits / (frameNum * 1152),
            (FLOAT) sentBits / (frameNum * 1152) *
            s_freq[header.version][header.sampling_frequency]);

    if (glopts.input_select == INPUT_SELECT_WAV) {
        if ( fclose (musicin.wav_input) != 0) {
            fprintf (stderr, "Could not close \"%s\".\n", original_file_name);
            exit (2);
        }
    }

    fprintf (stderr, "\nDone\n");
    exit (0);
}

/************************************************************************
 *
 * print_config
 *
 * PURPOSE:  Prints the encoding parameters used
 *
 ************************************************************************/

void print_config (frame_info * frame, int *psy, char *inPath,
        char *outPath)
{
    frame_header *header = frame->header;

    if (glopts.verbosity == 0)
        return;

    fprintf (stderr, "--------------------------------------------\n");
    if (glopts.input_select == INPUT_SELECT_JACK) {
        fprintf (stderr, "Input JACK\n");
        fprintf (stderr, "      name %s\n", musicin.jack_name);
    }
    else if (glopts.input_select == INPUT_SELECT_WAV) {
        fprintf (stderr, "Input File : '%s'   %.1f kHz\n",
                (strcmp (inPath, "-") ? inPath : "stdin"),
                s_freq[header->version][header->sampling_frequency]);
    }
    else if (glopts.input_select == INPUT_SELECT_VLC) {
        fprintf (stderr, "Input VLC\n");
        fprintf (stderr, "      URI %s\n", inPath);
    }

    fprintf (stderr, "Output File: '%s'\n",
            (strcmp (outPath, "-") ? outPath : "stdout"));
    fprintf (stderr, "%d kbps ", bitrate[header->version][header->bitrate_index]);
    fprintf (stderr, "%s ", version_names[header->version]);
    if (header->mode != MPG_MD_JOINT_STEREO)
        fprintf (stderr, "Layer II %s Psycho model=%d  (Mode_Extension=%d)\n",
                mode_names[header->mode], *psy, header->mode_ext);
    else
        fprintf (stderr, "Layer II %s Psy model %d \n", mode_names[header->mode],
                *psy);

    fprintf (stderr, "[De-emph:%s\tCopyright:%s\tOriginal:%s\tCRC:%s]\n",
            ((header->emphasis) ? "On" : "Off"),
            ((header->copyright) ? "Yes" : "No"),
            ((header->original) ? "Yes" : "No"),
            ((header->error_protection) ? "On" : "Off"));

    fprintf (stderr, "[Padding:%s\tByte-swap:%s\tChanswap:%s\tDAB:%s]\n",
            ((glopts.usepadbit) ? "Normal" : "Off"),
            ((glopts.byteswap) ? "On" : "Off"),
            ((glopts.channelswap) ? "On" : "Off"),
            ((glopts.dab) ? "On" : "Off"));

    if (glopts.vbr == TRUE)
        fprintf (stderr, "VBR Enabled. Using MNR boost of %f\n", glopts.vbrlevel);
    fprintf(stderr,"ATH adjustment %f\n",glopts.athlevel);

    fprintf (stderr, "--------------------------------------------\n");
}


/************************************************************************
 *
 * usage
 *
 * PURPOSE:  Writes command line syntax to the file specified by #stderr#
 *
 ************************************************************************/

void usage (void)
{				/* print syntax & exit */
    /* FIXME: maybe have an option to display better definitions of help codes, and
       long equivalents of the flags */
    fprintf (stdout, "\nToolame-DAB version %s\n (http://opendigitalradio.org)\n",
            toolameversion);
    fprintf (stdout, "MPEG Audio Layer II encoder for DAB\n\n");
    fprintf (stdout, "usage: \n");
    fprintf (stdout, "\t%s [options] (<infile>|-j <jackname>|-V <libvlc url>) <output>\n\n", programName);

    fprintf (stdout, "Options:\n");
    fprintf (stdout, "Input\n");
    fprintf (stdout, "\t-s sfrq  input smpl rate in kHz   (dflt %4.1f)\n",
            DFLT_SFQ);
    fprintf (stdout, "\t-a       downmix from stereo to mono\n");
    fprintf (stdout, "\t-x       force byte-swapping of input\n");
    fprintf (stdout, "\t-g       swap channels of input file\n");

#if defined(JACK_INPUT)
    fprintf (stdout, "\t-j       use jack input\n");
#else
    fprintf (stdout, "\t-j       DISABLED: JACK input not compiled in\n");
#endif

#if defined(VLC_INPUT)
    fprintf (stdout, "\t-V       use libvlc input\n");
#else
    fprintf (stdout, "\t-V       DISABLED: libvlc input not compiled in\n");
#endif

    fprintf (stdout, "\t-W file  when using libvlc input, write the ICY-Text to file\n");
    fprintf (stdout, "\t-L       enable audio level display\n");
    fprintf (stdout, "Output\n");
    fprintf (stdout, "\t-m mode  channel mode : s/d/j/m   (dflt %4c)\n",
            DFLT_MOD);
    fprintf (stdout, "\t-y psy   psychoacoustic model 0/1/2/3 (dflt %4u)\n",
            DFLT_PSY);
    fprintf (stdout, "\t-b br    total bitrate in kbps    (dflt 192)\n");
    fprintf (stdout, "\t-v lev   vbr mode\n");
    fprintf (stdout, "\t-l lev   ATH level (dflt 0)\n");
    fprintf (stdout, "Operation\n");
    // fprintf (stdout, "\t-f       fast mode (turns off psy model)\n");
    // deprecate the -f switch. use "-y 0" instead.
    fprintf (stdout,
            "\t-q num   quick mode. only calculate psy model every num frames\n");
    fprintf (stdout, "Misc\n");
    fprintf (stdout, "\t-d emp   de-emphasis n/5/c        (dflt %4c)\n",
            DFLT_EMP);
    fprintf (stdout, "\t-c       mark as copyright\n");
    fprintf (stdout, "\t-o       mark as original\n");
    fprintf (stdout, "\t-e       add error protection\n");
    fprintf (stdout, "\t-r       force padding bit/frame off\n");
    fprintf (stdout, "\t-p len   "
            "enable PAD, and read len bytes of X-PAD data per frame\n");
    fprintf (stdout, "\t-P file  "
            "read X-PAD data from mot-encoder from the specified file\n");
    fprintf (stdout, "\t-t       talkativity 0=no messages (dflt 2)\n");
    fprintf (stdout, "Files\n");
    fprintf (stdout,
            "\tinput    input sound file. (WAV,AIFF,PCM or use '/dev/stdin')\n");
    fprintf (stdout, "\toutput   output bit stream of encoded audio\n");
    fprintf (stdout, "\t         prefix with tcp:// to use a ZMQ output\n");
    fprintf (stdout, "\t         Several ZMQ destinations can be given,\n");
    fprintf (stdout, "\t         separated by semicolons.\n");
    fprintf (stdout,
            "\n\tAllowable bitrates for 16, 22.05 and 24kHz sample input\n");
    fprintf (stdout,
            "\t8, 16, 24, 32, 40, 48, 56, 64, 80, 96, 112, 128, 144, 160\n");
    fprintf (stdout,
            "\n\tAllowable bitrates for 32, 44.1 and 48kHz sample input\n");
    fprintf (stdout,
            "\t32, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384\n");
    exit (1);
}

/*********************************************
 * void short_usage(void)
 ********************************************/
void short_usage (void)
{
    /* print a bit of info about the program */
    fprintf (stderr, "Toolame-DAB version %s\n (http://opendigitalradio.org)\n",
            toolameversion);
    fprintf (stderr, "MPEG Audio Layer II encoder for DAB\n\n");
#if defined(JACK_INPUT) && defined(VLC_INPUT)
    fprintf (stderr, "USAGE: %s [options] (<infile>|-j <jackname>|-V <libvlc url>) [output]\n\n", programName);
#elif defined(JACK_INPUT)
    fprintf (stderr, "USAGE: %s [options] (<infile>|-j <jackname>) [output]\n\n", programName);
    fprintf (stderr, "VLC input not compiled in\n");
#elif defined(VLC_INPUT)
    fprintf (stderr, "USAGE: %s [options] (<infile>|-V <libvlc url>) [output]\n\n", programName);
    fprintf (stderr, "JACK input not compiled in\n");
#else
    fprintf (stderr, "USAGE: %s [options] <infile> [output]\n\n", programName);
    fprintf (stderr, "Neither JACK nor libVLC input compiled in\n");
#endif
    fprintf (stderr, "Try \"%s -h\" for more information.\n", programName);
    exit (0);
}

/************************************************************************
 *
 * parse_args
 *
 * PURPOSE:  Sets encoding parameters to the specifications of the
 * command line.  Default settings are used for parameters
 * not specified in the command line.
 *
 * SEMANTICS:  The command line is parsed according to the following
 * syntax:
 *
 * -j  turns on JACK input
 * -V  turns on libVLC input
 * -L  turns on audio level display
 * -m  is followed by the mode
 * -y  is followed by the psychoacoustic model number
 * -s  is followed by the sampling rate
 * -b  is followed by the total bitrate, irrespective of the mode
 * -d  is followed by the emphasis flag
 * -c  is followed by the copyright/no_copyright flag
 * -o  is followed by the original/not_original flag
 * -e  is followed by the error_protection on/off flag
 * -f  turns off psy model (fast mode)
 * -q <i>  only calculate psy model every ith frame
 * -a  downmix from stereo to mono 
 * -r  turn off padding bits in frames.
 * -x  force byte swapping of input
 * -g  swap the channels on an input file
 * -t  talkativity. how verbose should the program be. 0 = no messages. 
 *
 * If the input file is in AIFF format, the sampling frequency is read
 * from the AIFF header.
 *
 * The input and output filenames are read into #inpath# and #outpath#.
 *
 ************************************************************************/

void parse_args (int argc, char **argv, frame_info * frame, int *psy,
        unsigned long *num_samples, char inPath[MAX_NAME_SIZE],
        char outPath[MAX_NAME_SIZE], char **mot_file, char **icy_file)
{
    FLOAT srate;
    int brate;
    frame_header *header = frame->header;
    int err = 0, i = 0;
    long samplerate = 0;

    /* preset defaults */
    inPath[0] = '\0';
    outPath[0] = '\0';
    header->lay = DFLT_LAY;
    switch (DFLT_MOD) {
        case 's':
            header->mode = MPG_MD_STEREO;
            header->mode_ext = 0;
            break;
        case 'd':
            header->mode = MPG_MD_DUAL_CHANNEL;
            header->mode_ext = 0;
            break;
            /* in j-stereo mode, no default header->mode_ext was defined, gave error..
               now  default = 2   added by MFC 14 Dec 1999.  */
        case 'j':
            header->mode = MPG_MD_JOINT_STEREO;
            header->mode_ext = 2;
            break;
        case 'm':
            header->mode = MPG_MD_MONO;
            header->mode_ext = 0;
            break;
        default:
            fprintf (stderr, "%s: Bad mode dflt %c\n", programName, DFLT_MOD);
            abort ();
    }
    *psy = DFLT_PSY;
    if ((header->sampling_frequency =
                SmpFrqIndex ((long) (1000 * DFLT_SFQ), &header->version)) < 0) {
        fprintf (stderr, "%s: bad sfrq default %.2f\n", programName, DFLT_SFQ);
        abort ();
    }
    header->bitrate_index = 14;
    brate = 0;
    switch (DFLT_EMP) {
        case 'n':
            header->emphasis = 0;
            break;
        case '5':
            header->emphasis = 1;
            break;
        case 'c':
            header->emphasis = 3;
            break;
        default:
            fprintf (stderr, "%s: Bad emph dflt %c\n", programName, DFLT_EMP);
            abort ();
    }
    header->copyright = 0;
    header->original = 0;
    header->error_protection = FALSE;
    header->dab_extension = 0;

    glopts.input_select = INPUT_SELECT_WAV;

    /* process args */
    while (++i < argc && err == 0) {
        char c, *token, *arg, *nextArg;
        int argUsed;

        token = argv[i];
        if (*token++ == '-') {
            if (i + 1 < argc)
                nextArg = argv[i + 1];
            else
                nextArg = "";
            argUsed = 0;
            if (!*token) {
                /* The user wants to use stdin and/or stdout. */
                if (inPath[0] == '\0')
                    strncpy (inPath, argv[i], MAX_NAME_SIZE);
                else if (outPath[0] == '\0')
                    strncpy (outPath, argv[i], MAX_NAME_SIZE);
            }
            while ((c = *token++)) {
                if (*token /* NumericQ(token) */ )
                    arg = token;
                else
                    arg = nextArg;
                switch (c) {
                    case 'm':
                        argUsed = 1;
                        if (*arg == 's') {
                            header->mode = MPG_MD_STEREO;
                            header->mode_ext = 0;
                        } else if (*arg == 'd') {
                            header->mode = MPG_MD_DUAL_CHANNEL;
                            header->mode_ext = 0;
                        } else if (*arg == 'j') {
                            header->mode = MPG_MD_JOINT_STEREO;
                        } else if (*arg == 'm') {
                            header->mode = MPG_MD_MONO;
                            header->mode_ext = 0;
                        } else {
                            fprintf (stderr, "%s: -m mode must be s/d/j/m not %s\n",
                                    programName, arg);
                            err = 1;
                        }
                        break;
                    case 'y':
                        *psy = atoi (arg);
                        argUsed = 1;
                        break;

                    case 'L':
                        glopts.show_level = 1;
                        break;

                    case 's':
                        argUsed = 1;
                        srate = atof (arg);
                        /* samplerate = rint( 1000.0 * srate ); $A  */
                        samplerate = (long) ((1000.0 * srate) + 0.5);
                        if ((header->sampling_frequency =
                                    SmpFrqIndex ((long) samplerate, &header->version)) < 0)
                            err = 1;
                        break;

                    case 'j':
                        glopts.input_select = INPUT_SELECT_JACK;
                        break;

                    case 'b':
                        argUsed = 1;
                        brate = atoi (arg);
                        break;
                    case 'd':
                        argUsed = 1;
                        if (*arg == 'n')
                            header->emphasis = 0;
                        else if (*arg == '5')
                            header->emphasis = 1;
                        else if (*arg == 'c')
                            header->emphasis = 3;
                        else {
                            fprintf (stderr, "%s: -d emp must be n/5/c not %s\n", programName,
                                    arg);
                            err = 1;
                        }
                        break;
                    case 'P':
                        argUsed = 1;
                        *mot_file = arg;
                        break;
                    case 'p':
                        argUsed = 1;
                        header->dab_length = atoi(arg);
                        break;
                    case 'c':
                        header->copyright = 1;
                        break;
                    case 'o':
                        header->original = 1;
                        break;
                    case 'e':
                        header->error_protection = TRUE;
                        break;
                    case 'r':
                        glopts.usepadbit = FALSE;
                        header->padding = 0;
                        break;
                    case 'q':
                        argUsed = 1;
                        glopts.quickmode = TRUE;
                        glopts.usepsy = TRUE;
                        glopts.quickcount = atoi (arg);
                        if (glopts.quickcount == 0) {
                            /* just don't use psy model */
                            glopts.usepsy = FALSE;
                            glopts.quickcount = FALSE;
                        }
                        break;
                    case 'a':
                        glopts.downmix = TRUE;
                        header->mode = MPG_MD_MONO;
                        header->mode_ext = 0;
                        break;
                    case 'x':
                        glopts.byteswap = TRUE;
                        break;
                    case 'v':
                        argUsed = 1;
                        glopts.vbr = TRUE;
                        glopts.vbrlevel = atof (arg);
                        glopts.usepadbit = FALSE;	/* don't use padding for VBR */
                        header->padding = 0;
                        /* MFC Feb 2003: in VBR mode, joint stereo doesn't make
                           any sense at the moment, as there are no noisy subbands 
                           according to bits_for_nonoise in vbr mode */
                        header->mode = MPG_MD_STEREO; /* force stereo mode */
                        header->mode_ext = 0;
                        break;
                    case 'V':
                        glopts.input_select = INPUT_SELECT_VLC;
                        break;
                    case 'W':
                        argUsed = 1;
                        *icy_file = arg;
                        break;
                    case 'l':
                        argUsed = 1;
                        glopts.athlevel = atof(arg);
                        break;
                    case 'h':
                        usage ();
                        break;
                    case 'g':
                        glopts.channelswap = TRUE;
                        break;
                    case 't':
                        argUsed = 1;
                        glopts.verbosity = atoi (arg);
                        break;
                    default:
                        fprintf (stderr, "%s: unrec option %c\n", programName, c);
                        err = 1;
                        break;
                }
                if (argUsed) {
                    if (arg == token)
                        token = "";		/* no more from token */
                    else
                        ++i;		/* skip arg we used */
                    arg = "";
                    argUsed = 0;
                }
            }
        } else {
            if (inPath[0] == '\0')
                strcpy (inPath, argv[i]);
            else if (outPath[0] == '\0')
                strcpy (outPath, argv[i]);
            else {
                fprintf (stderr, "%s: excess arg %s\n", programName, argv[i]);
                err = 1;
            }
        }
    }

    /* Always enable DAB mode */
    header->error_protection = TRUE;
    header->dab_extension = 4;
    header->padding = 0;
    glopts.dab = TRUE;

    if (err)
        usage ();			/* If err has occured, then call usage() */

    if (glopts.input_select != INPUT_SELECT_JACK && inPath[0] == '\0')
        usage ();			/* If not in jack-mode and no file specified, then call usage() */

    if (outPath[0] == '\0') {
        /* replace old extension with new one, 1992-08-19, 1995-06-12 shn */
        new_ext (inPath, DFLT_EXT, outPath);
    }

    if (glopts.input_select == INPUT_SELECT_JACK) {
#if defined(JACK_INPUT)
        musicin.jack_name = inPath;
        *num_samples = MAX_U_32_NUM;

        setup_jack(header, musicin.jack_name);
#else
        fprintf(stderr, "JACK input not compiled in\n");
        exit(1);
#endif
    }
    else if (glopts.input_select == INPUT_SELECT_WAV) {
        if (!strcmp (inPath, "-")) {
            musicin.wav_input = stdin;		/* read from stdin */
            *num_samples = MAX_U_32_NUM;
        } else {
            if ((musicin.wav_input = fopen (inPath, "rb")) == NULL) {
                fprintf (stderr, "Could not find \"%s\".\n", inPath);
                exit (1);
            }
            parse_input_file (musicin.wav_input, inPath, header, num_samples);
        }
    }
    else if (glopts.input_select == INPUT_SELECT_VLC) {
        if (samplerate == 0) {
            fprintf (stderr, "Samplerate not specified\n");
            exit (1);
        }
        *num_samples = MAX_U_32_NUM;
        int channels = (header->mode == MPG_MD_MONO) ? 1 : 2;
#if defined(VLC_INPUT)
        if (vlc_in_prepare(glopts.verbosity, samplerate, inPath, channels, *icy_file) != 0) {
            fprintf(stderr, "VLC initialisation failed\n");
            exit(1);
        }
#else
        fprintf(stderr, "VLC input not compiled in\n");
        exit(1);
#endif
    }
    else {
        fprintf(stderr, "INVALID INPUT\n");
        exit(1);
    }


    /* check for a valid bitrate */
    if (brate == 0)
        brate = bitrate[header->version][10];

    /* Check to see we have a sane value for the bitrate for this version */
    if ((header->bitrate_index = BitrateIndex (brate, header->version)) < 0)
        err = 1;

    if (header->dab_extension) {
        /* in 48 kHz (= MPEG-1) */
        /* if the bit rate per channel is less then 56 kbit/s, we have 2 scf-crc */
        /* else we have 4 scf-crc */
        /* in 24 kHz (= MPEG-2), we have 4 scf-crc */
        if (header->version == MPEG_AUDIO_ID && (brate / (header->mode == MPG_MD_MONO ? 1 : 2) < 56))
            header->dab_extension = 2;
    }

    bs.zmq_framesize = 3 * brate;

    /* All options are hunky dory, open the input audio file and
       return to the main drag */
    open_bit_stream_w (&bs, outPath, BUFFER_SIZE);
}


void smr_dump(double smr[2][SBLIMIT], int nch) {
    int ch, sb;

    fprintf(stdout,"SMR:");
    for (ch = 0;ch<nch; ch++) {
        if (ch==1)
            fprintf(stdout,"    ");
        for (sb=0;sb<SBLIMIT;sb++)
            fprintf(stdout,"%3.0f ",smr[ch][sb]);
        fprintf(stdout,"\n");
    }
}