/* * * Bluetooth low-complexity, subband codec (SBC) library * * Copyright (C) 2008-2010 Nokia Corporation * Copyright (C) 2007-2010 Marcel Holtmann <marcel@holtmann.org> * Copyright (C) 2007-2008 Frederic Dalleau <fdalleau@free.fr> * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <stdio.h> #include <stdlib.h> #include <sndfile.h> #include <math.h> #include <string.h> #define MAXCHANNELS 2 #define DEFACCURACY 7 static double sampletobits(short sample16, int verbose) { double bits = 0; unsigned short bit; int i; if (verbose) printf("===> sampletobits(%hd, %04hX)\n", sample16, sample16); /* Bit 0 is MSB */ if (sample16 < 0) bits = -1; if (verbose) printf("%d", (sample16 < 0) ? 1 : 0); /* Bit 15 is LSB */ for (i = 1; i < 16; i++) { bit = (unsigned short) sample16; bit >>= 15 - i; bit %= 2; if (verbose) printf("%d", bit); if (bit) bits += (1.0 / pow(2.0, i)); } if (verbose) printf("\n"); return bits; } static int calculate_rms_level(SNDFILE * sndref, SF_INFO * infosref, SNDFILE * sndtst, SF_INFO * infostst, int accuracy, char *csvname) { short refsample[MAXCHANNELS], tstsample[MAXCHANNELS]; double refbits, tstbits; double rms_accu[MAXCHANNELS]; double rms_level[MAXCHANNELS]; double rms_limit = 1.0 / (pow(2.0, accuracy - 1) * pow(12.0, 0.5)); FILE *csv = NULL; int i, j, r1, r2, verdict; if (csvname) csv = fopen(csvname, "wt"); if (csv) { fprintf(csv, "num;"); for (j = 0; j < infostst->channels; j++) fprintf(csv, "ref channel %d;tst channel %d;", j, j); fprintf(csv, "\r\n"); } sf_seek(sndref, 0, SEEK_SET); sf_seek(sndtst, 0, SEEK_SET); memset(rms_accu, 0, sizeof(rms_accu)); memset(rms_level, 0, sizeof(rms_level)); for (i = 0; i < infostst->frames; i++) { if (csv) fprintf(csv, "%d;", i); r1 = sf_read_short(sndref, refsample, infostst->channels); if (r1 != infostst->channels) { printf("Failed to read reference data: %s " "(r1=%d, channels=%d)", sf_strerror(sndref), r1, infostst->channels); if (csv) fclose(csv); return -1; } r2 = sf_read_short(sndtst, tstsample, infostst->channels); if (r2 != infostst->channels) { printf("Failed to read test data: %s " "(r2=%d, channels=%d)\n", sf_strerror(sndtst), r2, infostst->channels); if (csv) fclose(csv); return -1; } for (j = 0; j < infostst->channels; j++) { if (csv) fprintf(csv, "%d;%d;", refsample[j], tstsample[j]); refbits = sampletobits(refsample[j], 0); tstbits = sampletobits(tstsample[j], 0); rms_accu[j] += pow(tstbits - refbits, 2.0); } if (csv) fprintf(csv, "\r\n"); } printf("Limit: %f\n", rms_limit); for (j = 0; j < infostst->channels; j++) { printf("Channel %d\n", j); printf("Accumulated %f\n", rms_accu[j]); rms_accu[j] /= (double) infostst->frames; printf("Accumulated / %f = %f\n", (double) infostst->frames, rms_accu[j]); rms_level[j] = sqrt(rms_accu[j]); printf("Level = %f (%f x %f = %f)\n", rms_level[j], rms_level[j], rms_level[j], rms_level[j] * rms_level[j]); } verdict = 1; for (j = 0; j < infostst->channels; j++) { printf("Channel %d: %f\n", j, rms_level[j]); if (rms_level[j] > rms_limit) verdict = 0; } printf("%s return %d\n", __FUNCTION__, verdict); return verdict; } static int check_absolute_diff(SNDFILE * sndref, SF_INFO * infosref, SNDFILE * sndtst, SF_INFO * infostst, int accuracy) { short refsample[MAXCHANNELS], tstsample[MAXCHANNELS]; short refmax[MAXCHANNELS], tstmax[MAXCHANNELS]; double refbits, tstbits; double rms_absolute = 1.0 / (pow(2, accuracy - 2)); double calc_max[MAXCHANNELS]; int calc_count = 0; short r1, r2; double cur_diff; int i, j, verdict; memset(&refmax, 0, sizeof(refmax)); memset(&tstmax, 0, sizeof(tstmax)); memset(&calc_max, 0, sizeof(calc_max)); memset(&refsample, 0, sizeof(refsample)); memset(&tstsample, 0, sizeof(tstsample)); sf_seek(sndref, 0, SEEK_SET); sf_seek(sndtst, 0, SEEK_SET); verdict = 1; printf("Absolute max: %f\n", rms_absolute); for (i = 0; i < infostst->frames; i++) { r1 = sf_read_short(sndref, refsample, infostst->channels); if (r1 != infostst->channels) { printf("Failed to read reference data: %s " "(r1=%d, channels=%d)", sf_strerror(sndref), r1, infostst->channels); return -1; } r2 = sf_read_short(sndtst, tstsample, infostst->channels); if (r2 != infostst->channels) { printf("Failed to read test data: %s " "(r2=%d, channels=%d)\n", sf_strerror(sndtst), r2, infostst->channels); return -1; } for (j = 0; j < infostst->channels; j++) { refbits = sampletobits(refsample[j], 0); tstbits = sampletobits(tstsample[j], 0); cur_diff = fabs(tstbits - refbits); if (cur_diff > rms_absolute) { calc_count++; /* printf("Channel %d exceeded : fabs(%f - %f) = %f > %f\n", j, tstbits, refbits, cur_diff, rms_absolute); */ verdict = 0; } if (cur_diff > calc_max[j]) { calc_max[j] = cur_diff; refmax[j] = refsample[j]; tstmax[j] = tstsample[j]; } } } for (j = 0; j < infostst->channels; j++) { printf("Calculated max: %f (%hd-%hd=%hd)\n", calc_max[j], tstmax[j], refmax[j], tstmax[j] - refmax[j]); } printf("%s return %d\n", __FUNCTION__, verdict); return verdict; } static void usage() { printf("SBC conformance test ver %s\n", VERSION); printf("Copyright (c) 2007-2010 Marcel Holtmann\n"); printf("Copyright (c) 2007-2008 Frederic Dalleau\n\n"); printf("Usage:\n" "\tsbctester reference.wav checkfile.wav\n" "\tsbctester integer\n" "\n"); printf("To test the encoder:\n"); printf("\tUse a reference codec to encode original.wav to reference.sbc\n"); printf("\tUse sbcenc to encode original.wav to checkfile.sbc\n"); printf("\tDecode both file using the reference decoder\n"); printf("\tRun sbctester with these two wav files to get the result\n\n"); printf("\tA file called out.csv is generated to use the data in a\n"); printf("\tspreadsheet application or database.\n\n"); } int main(int argc, char *argv[]) { SNDFILE *sndref = NULL; SNDFILE *sndtst = NULL; SF_INFO infosref; SF_INFO infostst; char *ref; char *tst; int pass_rms, pass_absolute, pass, accuracy; if (argc == 2) { double db; printf("Test sampletobits\n"); db = sampletobits((short) atoi(argv[1]), 1); printf("db = %f\n", db); exit(0); } if (argc < 3) { usage(); exit(1); } ref = argv[1]; tst = argv[2]; printf("opening reference %s\n", ref); sndref = sf_open(ref, SFM_READ, &infosref); if (!sndref) { printf("Failed to open reference file\n"); exit(1); } printf("opening testfile %s\n", tst); sndtst = sf_open(tst, SFM_READ, &infostst); if (!sndtst) { printf("Failed to open test file\n"); sf_close(sndref); exit(1); } printf("reference:\n\t%d frames,\n\t%d hz,\n\t%d channels\n", (int) infosref.frames, (int) infosref.samplerate, (int) infosref.channels); printf("testfile:\n\t%d frames,\n\t%d hz,\n\t%d channels\n", (int) infostst.frames, (int) infostst.samplerate, (int) infostst.channels); /* check number of channels */ if (infosref.channels > 2 || infostst.channels > 2) { printf("Too many channels\n"); goto error; } /* compare number of samples */ if (infosref.samplerate != infostst.samplerate || infosref.channels != infostst.channels) { printf("Cannot compare files with different charasteristics\n"); goto error; } accuracy = DEFACCURACY; printf("Accuracy: %d\n", accuracy); /* Condition 1 rms level */ pass_rms = calculate_rms_level(sndref, &infosref, sndtst, &infostst, accuracy, "out.csv"); if (pass_rms < 0) goto error; /* Condition 2 absolute difference */ pass_absolute = check_absolute_diff(sndref, &infosref, sndtst, &infostst, accuracy); if (pass_absolute < 0) goto error; /* Verdict */ pass = pass_rms && pass_absolute; printf("Verdict: %s\n", pass ? "pass" : "fail"); return 0; error: sf_close(sndref); sf_close(sndtst); exit(1); }