tests/testresample.c - chromiumos/third_party/libresample - Git at Google

 /**********************************************************************

   testresample.c

   Real-time library interface by Dominic Mazzoni

   Based on resample-1.7:
     http://www-ccrma.stanford.edu/~jos/resample/

   License: LGPL - see the file LICENSE.txt for more information

 **********************************************************************/

 #include "../include/libresample.h"

 #include <stdio.h>
 #include <stdlib.h>
 #include <math.h>

 #define MIN(A, B) (A) < (B)? (A) : (B)

 void runtest(int srclen, double freq, double factor,
              int srcblocksize, int dstblocksize)
 {
    int expectedlen = (int)(srclen * factor);
    int dstlen = expectedlen + 1000;
    float *src = (float *)malloc((srclen+100) * sizeof(float));
    float *dst = (float *)malloc((dstlen+100) * sizeof(float));
    void *handle;
    double sum, sumsq, err, rmserr;
    int i, out, o, srcused, errcount, rangecount;
    int statlen, srcpos, lendiff;
    int fwidth;

    printf("-- srclen: %d sin freq: %.1f factor: %.3f srcblk: %d dstblk: %d\n",
           srclen, freq, factor, srcblocksize, dstblocksize);

    for(i=0; i<srclen; i++)
       src[i] = sin(i/freq);
    for(i=srclen; i<srclen+100; i++)
       src[i] = -99.0;

    for(i=0; i<dstlen+100; i++)
       dst[i] = -99.0;

    handle = resample_open(1, factor, factor);
    fwidth = resample_get_filter_width(handle);
    out = 0;
    srcpos = 0;
    for(;;) {
       int srcBlock = MIN(srclen-srcpos, srcblocksize);
       int lastFlag = (srcBlock == srclen-srcpos);

       o = resample_process(handle, factor,
                            &src[srcpos], srcBlock,
                            lastFlag, &srcused,
                            &dst[out], MIN(dstlen-out, dstblocksize));
       srcpos += srcused;
       if (o >= 0)
          out += o;
       if (o < 0 || (o == 0 && srcpos == srclen))
          break;
    }
    resample_close(handle);

    if (o < 0) {
       printf("Error: resample_process returned an error: %d\n", o);
    }

    if (out <= 0) {
       printf("Error: resample_process returned %d samples\n", out);
       free(src);
       free(dst);
       return;
    }

    lendiff = abs(out - expectedlen);
    if (lendiff > (int)(2*factor + 1.0)) {
       printf("   Expected ~%d, got %d samples out\n",
              expectedlen, out);
    }

    sum = 0.0;
    sumsq = 0.0;
    errcount = 0.0;

    /* Don't compute statistics on all output values; the last few
       are guaranteed to be off because it's based on far less
       interpolation. */
    statlen = out - fwidth;

    for(i=0; i<statlen; i++) {
       double diff = sin((i/freq)/factor) - dst[i];
       if (fabs(diff) > 0.05) {
          if (errcount == 0)
             printf("   First error at i=%d: expected %.3f, got %.3f\n",
                    i, sin((i/freq)/factor), dst[i]);
          errcount++;
       }
       sum += fabs(diff);
       sumsq += diff * diff;
    }

    rangecount = 0;
    for(i=0; i<statlen; i++) {
       if (dst[i] < -1.01 || dst[i] > 1.01) {
          if (rangecount == 0)
             printf("   Error at i=%d: value is %.3f\n", i, dst[i]);
          rangecount++;
       }
    }
    if (rangecount > 1)
       printf("   At least %d samples were out of range\n", rangecount);

    if (errcount > 0) {
       i = out - 1;
       printf("   i=%d:  expected %.3f, got %.3f\n",
              i, sin((i/freq)/factor), dst[i]);
       printf("   At least %d samples had significant error.\n", errcount);
    }
    err = sum / statlen;
    rmserr = sqrt(sumsq / statlen);
    printf("   Out: %d samples  Avg err: %f RMS err: %f\n", out, err, rmserr);
    free(src);
    free(dst);
 }

 int main(int argc, char **argv)
 {
    int i, srclen, dstlen, ifreq;
    double factor;

    printf("\n*** Vary source block size*** \n\n");
    srclen = 10000;
    ifreq = 100;
    for(i=0; i<20; i++) {
       factor = ((rand() % 16) + 1) / 4.0;
       dstlen = (int)(srclen * factor + 10);
       runtest(srclen, (double)ifreq, factor, 64, dstlen);
       runtest(srclen, (double)ifreq, factor, 32, dstlen);
       runtest(srclen, (double)ifreq, factor, 8, dstlen);
       runtest(srclen, (double)ifreq, factor, 2, dstlen);
       runtest(srclen, (double)ifreq, factor, srclen, dstlen);
    }

    printf("\n*** Vary dest block size ***\n\n");
    srclen = 10000;
    ifreq = 100;
    for(i=0; i<20; i++) {
       factor = ((rand() % 16) + 1) / 4.0;
       runtest(srclen, (double)ifreq, factor, srclen, 32);
       dstlen = (int)(srclen * factor + 10);
       runtest(srclen, (double)ifreq, factor, srclen, dstlen);
    }

    printf("\n*** Resample factor 1.0, testing different srclen ***\n\n");
    ifreq = 40;
    for(i=0; i<100; i++) {
       srclen = (rand() % 30000) + 10;
       dstlen = (int)(srclen + 10);
       runtest(srclen, (double)ifreq, 1.0, srclen, dstlen);
    }

    printf("\n*** Resample factor 1.0, testing different sin freq ***\n\n");
    srclen = 10000;
    for(i=0; i<100; i++) {
       ifreq = ((int)rand() % 10000) + 1;
       dstlen = (int)(srclen * 10);
       runtest(srclen, (double)ifreq, 1.0, srclen, dstlen);
    }

    printf("\n*** Resample with different factors ***\n\n");
    srclen = 10000;
    ifreq = 100;
    for(i=0; i<100; i++) {
       factor = ((rand() % 64) + 1) / 4.0;
       dstlen = (int)(srclen * factor + 10);
       runtest(srclen, (double)ifreq, factor, srclen, dstlen);
    }

    return 0;
 }
	/**********************************************************************

	testresample.c

	Real-time library interface by Dominic Mazzoni

	Based on resample-1.7:
	http://www-ccrma.stanford.edu/~jos/resample/

	License: LGPL - see the file LICENSE.txt for more information

	**********************************************************************/

	#include "../include/libresample.h"

	#include <stdio.h>
	#include <stdlib.h>
	#include <math.h>

	#define MIN(A, B) (A) < (B)? (A) : (B)

	void runtest(int srclen, double freq, double factor,
	int srcblocksize, int dstblocksize)
	{
	int expectedlen = (int)(srclen * factor);
	int dstlen = expectedlen + 1000;
	float src = (float )malloc((srclen+100) * sizeof(float));
	float dst = (float )malloc((dstlen+100) * sizeof(float));
	void *handle;
	double sum, sumsq, err, rmserr;
	int i, out, o, srcused, errcount, rangecount;
	int statlen, srcpos, lendiff;
	int fwidth;

	printf("-- srclen: %d sin freq: %.1f factor: %.3f srcblk: %d dstblk: %d\n",
	srclen, freq, factor, srcblocksize, dstblocksize);

	for(i=0; i<srclen; i++)
	src[i] = sin(i/freq);
	for(i=srclen; i<srclen+100; i++)
	src[i] = -99.0;

	for(i=0; i<dstlen+100; i++)
	dst[i] = -99.0;

	handle = resample_open(1, factor, factor);
	fwidth = resample_get_filter_width(handle);
	out = 0;
	srcpos = 0;
	for(;;) {
	int srcBlock = MIN(srclen-srcpos, srcblocksize);
	int lastFlag = (srcBlock == srclen-srcpos);

	o = resample_process(handle, factor,
	&src[srcpos], srcBlock,
	lastFlag, &srcused,
	&dst[out], MIN(dstlen-out, dstblocksize));
	srcpos += srcused;
	if (o >= 0)
	out += o;
	if (o < 0 \|\| (o == 0 && srcpos == srclen))
	break;
	}
	resample_close(handle);

	if (o < 0) {
	printf("Error: resample_process returned an error: %d\n", o);
	}

	if (out <= 0) {
	printf("Error: resample_process returned %d samples\n", out);
	free(src);
	free(dst);
	return;
	}

	lendiff = abs(out - expectedlen);
	if (lendiff > (int)(2*factor + 1.0)) {
	printf(" Expected ~%d, got %d samples out\n",
	expectedlen, out);
	}

	sum = 0.0;
	sumsq = 0.0;
	errcount = 0.0;

	/* Don't compute statistics on all output values; the last few
	are guaranteed to be off because it's based on far less
	interpolation. */
	statlen = out - fwidth;

	for(i=0; i<statlen; i++) {
	double diff = sin((i/freq)/factor) - dst[i];
	if (fabs(diff) > 0.05) {
	if (errcount == 0)
	printf(" First error at i=%d: expected %.3f, got %.3f\n",
	i, sin((i/freq)/factor), dst[i]);
	errcount++;
	}
	sum += fabs(diff);
	sumsq += diff * diff;
	}

	rangecount = 0;
	for(i=0; i<statlen; i++) {
	if (dst[i] < -1.01 \|\| dst[i] > 1.01) {
	if (rangecount == 0)
	printf(" Error at i=%d: value is %.3f\n", i, dst[i]);
	rangecount++;
	}
	}
	if (rangecount > 1)
	printf(" At least %d samples were out of range\n", rangecount);

	if (errcount > 0) {
	i = out - 1;
	printf(" i=%d: expected %.3f, got %.3f\n",
	i, sin((i/freq)/factor), dst[i]);
	printf(" At least %d samples had significant error.\n", errcount);
	}
	err = sum / statlen;
	rmserr = sqrt(sumsq / statlen);
	printf(" Out: %d samples Avg err: %f RMS err: %f\n", out, err, rmserr);
	free(src);
	free(dst);
	}

	int main(int argc, char **argv)
	{
	int i, srclen, dstlen, ifreq;
	double factor;

	printf("\n* Vary source block size* \n\n");
	srclen = 10000;
	ifreq = 100;
	for(i=0; i<20; i++) {
	factor = ((rand() % 16) + 1) / 4.0;
	dstlen = (int)(srclen * factor + 10);
	runtest(srclen, (double)ifreq, factor, 64, dstlen);
	runtest(srclen, (double)ifreq, factor, 32, dstlen);
	runtest(srclen, (double)ifreq, factor, 8, dstlen);
	runtest(srclen, (double)ifreq, factor, 2, dstlen);
	runtest(srclen, (double)ifreq, factor, srclen, dstlen);
	}

	printf("\n* Vary dest block size *\n\n");
	srclen = 10000;
	ifreq = 100;
	for(i=0; i<20; i++) {
	factor = ((rand() % 16) + 1) / 4.0;
	runtest(srclen, (double)ifreq, factor, srclen, 32);
	dstlen = (int)(srclen * factor + 10);
	runtest(srclen, (double)ifreq, factor, srclen, dstlen);
	}

	printf("\n* Resample factor 1.0, testing different srclen *\n\n");
	ifreq = 40;
	for(i=0; i<100; i++) {
	srclen = (rand() % 30000) + 10;
	dstlen = (int)(srclen + 10);
	runtest(srclen, (double)ifreq, 1.0, srclen, dstlen);
	}

	printf("\n* Resample factor 1.0, testing different sin freq *\n\n");
	srclen = 10000;
	for(i=0; i<100; i++) {
	ifreq = ((int)rand() % 10000) + 1;
	dstlen = (int)(srclen * 10);
	runtest(srclen, (double)ifreq, 1.0, srclen, dstlen);
	}

	printf("\n* Resample with different factors *\n\n");
	srclen = 10000;
	ifreq = 100;
	for(i=0; i<100; i++) {
	factor = ((rand() % 64) + 1) / 4.0;
	dstlen = (int)(srclen * factor + 10);
	runtest(srclen, (double)ifreq, factor, srclen, dstlen);
	}

	return 0;
	}