soundeditor/atsa/atsa-nogui.c

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/* atsa-nogui.c
* atsa: ATS analysis implementation
* Oscar Pablo Di Liscia / Pete Moss / Juan Pampin
*/
#include "atsa.h"
#include <stdlib.h>
#include <stdio.h>
void usage()
{
fprintf(stderr, "atsa soundfile atsfile [flags]\n");
fprintf(stderr, "Flags:\n");
fprintf(stderr,
"\t -b start (%f seconds)\n\
\t -e duration (%f seconds or end)\n\
\t -l lowest frequency (%f Hertz)\n\
\t -H highest frequency (%f Hertz)\n\
\t -d frequency deviation (%f of partial freq.)\n\
\t -c window cycles (%d cycles)\n\
\t -w window type (type: %d)\n\
\t\t(Options: 0=BLACKMAN, 1=BLACKMAN HARRIS, 2=HANNING, 3=VON HANN)\n\
\t -h hop size (%f of window size)\n\
\t -m lowest magnitude (%f)\n\
\t -t track length (%d frames)\n\
\t -s min. segment length (%d frames)\n\
\t -g min. gap length (%d frames)\n\
\t -T SMR threshold (%f dB SPL)\n\
\t -S min. segment SMR (%f dB SPL)\n\
\t -P last peak contribution (%f of last peak's parameters)\n\
\t -M SMR contribution (%f)\n\
\t -F File Type (type: %d)\n\
\t\t(Options: 1=amp.and freq. only, 2=amp.,freq. and phase, 3=amp.,freq. and residual, 4=amp.,freq.,phase, and residual)\n\
\n",
ATSA_START,
ATSA_DUR,
ATSA_LFREQ,
ATSA_HFREQ,
ATSA_FREQDEV,
ATSA_WCYCLES,
ATSA_WTYPE,
ATSA_HSIZE,
ATSA_LMAG,
ATSA_TRKLEN,
ATSA_MSEGLEN,
ATSA_MGAPLEN,
ATSA_SMRTHRES,
ATSA_MSEGSMR,
ATSA_LPKCONT,
ATSA_SMRCONT,
ATSA_TYPE);
exit(1);
}
int main(int argc, char **argv)
{
int i, val;
ANARGS *anargs;
char *soundfile, *ats_outfile;
if( argc < 3) usage();
if( argv[1][0] == '-' || argv[2][0] == '-') usage();
anargs=(ANARGS*)malloc(sizeof(ANARGS));
/* default values for analysis args */
anargs->start = ATSA_START;
anargs->duration = ATSA_DUR;
anargs->lowest_freq = ATSA_LFREQ;
anargs->highest_freq = ATSA_HFREQ;
anargs->freq_dev = ATSA_FREQDEV;
anargs->win_cycles = ATSA_WCYCLES;
anargs->win_type = ATSA_WTYPE;
anargs->hop_size = ATSA_HSIZE;
anargs->lowest_mag = ATSA_LMAG;
anargs->track_len = ATSA_TRKLEN;
anargs->min_seg_len = ATSA_MSEGLEN;
anargs->min_gap_len = ATSA_MGAPLEN;
anargs->SMR_thres = ATSA_SMRTHRES;
anargs->min_seg_SMR = ATSA_MSEGSMR;
anargs->last_peak_cont = ATSA_LPKCONT;
anargs->SMR_cont = ATSA_SMRCONT ;
anargs->type = ATSA_TYPE;
soundfile = argv[1];
ats_outfile = argv[2];
for( i=3; i<argc; ++i){
switch(argv[i][0])
{ case '-' :
{ switch(argv[i][1])
{
case 'b' : sscanf(argv[i]+2, "%f\n", &(anargs->start)); break;
case 'e' : sscanf(argv[i]+2, "%f\n", &(anargs->duration)); break;
case 'l' : sscanf(argv[i]+2, "%f\n", &(anargs->lowest_freq)); break;
case 'H' : sscanf(argv[i]+2, "%f\n", &(anargs->highest_freq)); break;
case 'd' : sscanf(argv[i]+2, "%f\n", &(anargs->freq_dev)); break;
case 'c' : sscanf(argv[i]+2, "%d\n", &(anargs->win_cycles)); break;
case 'w' : sscanf(argv[i]+2, "%d\n", &(anargs->win_type)); break;
case 'h' : sscanf(argv[i]+2, "%f\n", &(anargs->hop_size)); break;
case 'm' : sscanf(argv[i]+2, "%f\n", &(anargs->lowest_mag)); break;
case 't' : sscanf(argv[i]+2, "%d\n", &(anargs->track_len)); break;
case 's' : sscanf(argv[i]+2, "%d\n", &(anargs->min_seg_len)); break;
case 'g' : sscanf(argv[i]+2, "%d\n", &(anargs->min_gap_len)); break;
case 'T' : sscanf(argv[i]+2, "%fL\n", &(anargs->SMR_thres)); break;
case 'S' : sscanf(argv[i]+2, "%f\n", &(anargs->min_seg_SMR)); break;
case 'P' : sscanf(argv[i]+2, "%f\n", &(anargs->last_peak_cont)); break;
case 'M' : sscanf(argv[i]+2, "%f\n", &(anargs->SMR_cont)); break;
case 'F' : sscanf(argv[i]+2, "%d\n", &(anargs->type)); break;
default : usage();
}
break;
}
default : usage();
}
}
val = main_anal(soundfile, ats_outfile, anargs, "residual.wav");
free(anargs);
return(val);
}