ref: 98267de439714fcdff94c9588f34fb8a67df70c1
dir: /src/stat.c/
/* * July 5, 1991 * Copyright 1991 Lance Norskog And Sundry Contributors * This source code is freely redistributable and may be used for * any purpose. This copyright notice must be maintained. * Lance Norskog And Sundry Contributors are not responsible for * the consequences of using this software. */ /* * Sound Tools statistics "effect" file. * * Build various statistics on file and print them. * No output. */ #include "st.h" /* Private data for STAT effect */ typedef struct statstuff { LONG min, max, mean; /* amplitudes */ LONG dmin, dmax, dmean; /* deltas */ LONG last; /* previous sample */ int first; int total; int volume; ULONG bin[4]; } *stat_t; #define abs(val) (((val) < 0) ? -(val) : (val)) /* * Process options */ void stat_getopts(effp, n, argv) eff_t effp; int n; char **argv; { stat_t stat = (stat_t) effp->priv; stat->volume = 0; if (n) { if (!(strcmp(argv[0], "-v"))) stat->volume = 1; else if (!(strcmp(argv[0], "debug"))) stat->volume = 2; else fail("Summary effect only allows debug or -v as options."); } } /* * Prepare processing. */ void stat_start(effp) eff_t effp; { stat_t stat = (stat_t) effp->priv; int i; stat->min = stat->dmin = 0x7fffffffL; stat->max = stat->dmax = 0x80000000L; stat->first = 1; for (i = 0; i < 4; i++) stat->bin[i] = 0; } /* * Processed signed long samples from ibuf to obuf. * Return number of samples processed. */ void stat_flow(effp, ibuf, obuf, isamp, osamp) eff_t effp; LONG *ibuf, *obuf; int *isamp, *osamp; { stat_t stat = (stat_t) effp->priv; int len, done; LONG samp, delta; short count; count = 0; len = ((*isamp > *osamp) ? *osamp : *isamp); for(done = 0; done < len; done++) { /* work in absolute levels for both sample and delta */ samp = *ibuf++; *obuf++ = samp; if (stat->volume == 2) { #ifdef __alpha__ fprintf(stderr,"%8x ",samp); #else fprintf(stderr,"%8lx ",samp); #endif if (count++ == 5) { fprintf(stderr,"\n"); count = 0; } } stat->bin[RIGHT(samp,30)+2]++; samp = abs(samp); if (samp < stat->min) stat->min = samp; if (samp > stat->max) stat->max = samp; if (stat->first) { stat->first = 0; stat->mean = samp; stat->dmean = 0; } else { /* overflow avoidance */ if ((stat->mean > 0x20000000L) || (samp > 0x20000000L)) stat->mean = stat->mean/2 + samp/2; else stat->mean = (stat->mean + samp)/2; delta = abs(samp - stat->last); if (delta < stat->dmin) stat->dmin = delta; if (delta > stat->dmax) stat->dmax = delta; /* overflow avoidance */ if ((delta > 0x20000000L) || (stat->dmean > 0x20000000L)) stat->dmean = stat->dmean/2 + delta/2; else stat->dmean = (stat->dmean + delta)/2; } stat->last = samp; } /* Process all samples */ } /* * Do anything required when you stop reading samples. * Don't close input file! */ void stat_stop(effp) eff_t effp; { stat_t stat = (stat_t) effp->priv; double amp, range; float x; stat->min = RIGHT(stat->min, 16); stat->max = RIGHT(stat->max, 16); stat->mean = RIGHT(stat->mean, 16); stat->dmin = RIGHT(stat->dmin, 16); stat->dmax = RIGHT(stat->dmax, 16); stat->dmean = RIGHT(stat->dmean, 16); range = 32767.0; amp = - stat->min; if (amp < stat->max) amp = stat->max; /* Just print the volume adjustment */ if (stat->volume == 1) { fprintf(stderr, "%.3f\n", 32767.0/amp); return; } else if (stat->volume == 2) { fprintf(stderr, "\n"); } /* print them out */ fprintf(stderr, "Maximum amplitude: %.3f\n", stat->max/range); fprintf(stderr, "Minimum amplitude: %.3f\n", stat->min/range); fprintf(stderr, "Mean amplitude: %.3f\n", stat->mean/range); fprintf(stderr, "Maximum delta: %.3f\n", stat->dmax/range); fprintf(stderr, "Minimum delta: %.3f\n", stat->dmin/range); fprintf(stderr, "Mean delta: %.3f\n", stat->dmean/range); fprintf(stderr, "Volume adjustment: %.3f\n", 32767.0/amp); if (stat->bin[2] == 0 && stat->bin[3] == 0) fprintf(stderr, "\nProbably text, not sound\n"); else { x = (float)(stat->bin[0] + stat->bin[3]) / (float)(stat->bin[1] + stat->bin[2]); if (x >= 3.0) /* use opposite style */ if (effp->ininfo.style == UNSIGNED) printf ("\nTry: -t raw -b -s \n"); else printf ("\nTry: -t raw -b -u \n"); else if (x <= 1.0/3.0); /* correctly decoded */ else if (x >= 0.5 && x <= 2.0) /* use ULAW */ if (effp->ininfo.style == ULAW) printf ("\nTry: -t raw -b -u \n"); else printf ("\nTry: -t raw -b -U \n"); else fprintf (stderr, "\nCan't guess the type\n"); } }