audiodb: sample.cpp annotate

annotate sample.cpp @ 271:1f2c7d5e581c sampling

Small cleanups. Includes some commented-out code which would fix (in a hacky way) some of the FIXME notes.

author	mas01cr
date	Mon, 16 Jun 2008 17:17:11 +0000
parents	9636040ff503
children	c8c97224f3c7

rev	line source
mas01cr@266	1 #include "audioDB.h"
mas01cr@266	2
mas01cr@268	3 #include <gsl/gsl_sf.h>
mas01cr@268	4
mas01cr@268	5 static double yfun(double d) {
mas01cr@268	6 return gsl_sf_log(d) - gsl_sf_psi(d);
mas01cr@268	7 }
mas01cr@268	8
mas01cr@268	9 static double yinv(double y) {
mas01cr@268	10 double a = 1.0e-5;
mas01cr@268	11 double b = 1000.0;
mas01cr@268	12
mas01cr@268	13 double ay = yfun(a);
mas01cr@268	14 double by = yfun(b);
mas01cr@268	15
mas01cr@268	16 double c, cy;
mas01cr@268	17
mas01cr@268	18 /* FIXME: simple binary search */
mas01cr@268	19 while ((b - a) > 1.0e-5) {
mas01cr@268	20 c = (a + b) / 2;
mas01cr@268	21 cy = yfun(c);
mas01cr@268	22 if (cy > y) {
mas01cr@268	23 a = c;
mas01cr@268	24 ay = cy;
mas01cr@268	25 } else {
mas01cr@268	26 b = c;
mas01cr@268	27 by = cy;
mas01cr@268	28 }
mas01cr@268	29 }
mas01cr@268	30
mas01cr@268	31 return c;
mas01cr@268	32 }
mas01cr@268	33
mas01cr@266	34 unsigned audioDB::random_track(unsigned *propTable, unsigned total) {
mas01cr@266	35 /* FIXME: make this O(1) by using the alias-rejection method, or
mas01cr@266	36 some other sensible method of sampling from a discrete
mas01cr@266	37 distribution. */
mas01cr@266	38 /* FIXME: use a real random number generator, not random() */
mas01cr@266	39 double thing = random() / (double) RAND_MAX;
mas01cr@266	40 unsigned sofar = 0;
mas01cr@266	41 for (unsigned int i = 0; i < dbH->numFiles; i++) {
mas01cr@266	42 sofar += propTable[i];
mas01cr@266	43 if (thing < ((double) sofar / (double) total)) {
mas01cr@266	44 return i;
mas01cr@266	45 }
mas01cr@266	46 }
mas01cr@266	47 error("fell through in random_track()");
mas01cr@266	48
mas01cr@266	49 /* FIXME: decorate error's declaration so that this isn't necessary */
mas01cr@266	50 return 0;
mas01cr@266	51 }
mas01cr@266	52
mas01cr@266	53 void audioDB::sample(const char *dbName) {
mas01cr@266	54 initTables(dbName, 0);
mas01cr@266	55
mas01cr@271	56 /* FIXME: in Real Life we'll want to initialize the RNG using
mas01cr@271	57 /dev/random or the current time or something, like this:
mas01cr@271	58
mas01cr@271	59 unsigned int seed;
mas01cr@271	60 int fd = open("/dev/urandom", O_RDONLY);
mas01cr@271	61 read(fd, &seed, 4);
mas01cr@271	62
mas01cr@271	63 srandom(seed);
mas01cr@271	64 */
mas01cr@271	65
mas01cr@266	66 // build track offset table (FIXME: cut'n'pasted from query.cpp)
mas01cr@266	67 off_t *trackOffsetTable = new off_t[dbH->numFiles];
mas01cr@266	68 unsigned cumTrack=0;
mas01cr@266	69 for(unsigned int k = 0; k < dbH->numFiles; k++){
mas01cr@266	70 trackOffsetTable[k] = cumTrack;
mas01cr@266	71 cumTrack += trackTable[k] * dbH->dim;
mas01cr@266	72 }
mas01cr@266	73
mas01cr@266	74 unsigned *propTable = new unsigned[dbH->numFiles];
mas01cr@266	75 unsigned total = 0;
mas01cr@270	76 unsigned count = 0;
mas01cr@266	77
mas01cr@266	78 for (unsigned int i = 0; i < dbH->numFiles; i++) {
mas01cr@266	79 /* what kind of a stupid language doesn't have binary max(), let
mas01cr@266	80 alone nary? */
mas01cr@266	81 unsigned int prop = trackTable[i] - sequenceLength + 1;
mas01cr@266	82 prop = prop > 0 ? prop : 0;
mas01cr@270	83 if (prop > 0)
mas01cr@270	84 count++;
mas01cr@266	85 propTable[i] = prop;
mas01cr@266	86 total += prop;
mas01cr@266	87 }
mas01cr@266	88
mas01cr@266	89 if (total == 0) {
mas01cr@266	90 error("no sequences of this sequence length in the database", dbName);
mas01cr@266	91 }
mas01cr@266	92
mas01cr@266	93 unsigned int vlen = dbH->dim * sequenceLength;
mas01cr@266	94 double *v1 = new double[vlen];
mas01cr@266	95 double *v2 = new double[vlen];
mas01cr@266	96 double v1norm, v2norm, v1v2;
mas01cr@266	97
mas01cr@266	98 double sumdist = 0;
mas01cr@266	99 double sumlogdist = 0;
mas01cr@266	100
mas01cr@271	101 unsigned int nsamples = 20490;
mas01cr@270	102
mas01cr@270	103 for (unsigned int i = 0; i < nsamples;) {
mas01cr@266	104 unsigned track1 = random_track(propTable, total);
mas01cr@266	105 unsigned track2 = random_track(propTable, total);
mas01cr@266	106
mas01cr@271	107 if(track1 == track2)
mas01cr@271	108 continue;
mas01cr@271	109
mas01cr@266	110 /* FIXME: this uses lower-order bits, which is OK on Linux but not
mas01cr@266	111 necessarily elsewhere. Again, use a real random number
mas01cr@266	112 generator */
mas01cr@266	113 unsigned i1 = random() % propTable[track1];
mas01cr@266	114 unsigned i2 = random() % propTable[track2];
mas01cr@266	115
mas01cr@266	116 VERB_LOG(1, "%d %d, %d %d \| ", track1, i1, track2, i2);
mas01cr@266	117
mas01cr@266	118 /* FIXME: this seeking, reading and distance calculation should
mas01cr@266	119 share more code with the query loop */
mas01cr@266	120 lseek(dbfid, dbH->dataOffset + trackOffsetTable[track1] * sizeof(double) + i1 * dbH->dim * sizeof(double), SEEK_SET);
mas01cr@266	121 read(dbfid, v1, dbH->dim * sequenceLength * sizeof(double));
mas01cr@266	122
mas01cr@266	123 lseek(dbfid, dbH->dataOffset + trackOffsetTable[track2] * sizeof(double) + i2 * dbH->dim * sizeof(double), SEEK_SET);
mas01cr@266	124 read(dbfid, v2, dbH->dim * sequenceLength * sizeof(double));
mas01cr@266	125
mas01cr@266	126 v1norm = 0;
mas01cr@266	127 v2norm = 0;
mas01cr@266	128 v1v2 = 0;
mas01cr@266	129
mas01cr@266	130 for (unsigned int j = 0; j < vlen; j++) {
mas01cr@266	131 v1norm += v1[j]*v1[j];
mas01cr@266	132 v2norm += v2[j]*v2[j];
mas01cr@266	133 v1v2 += v1[j]*v2[j];
mas01cr@266	134 }
mas01cr@266	135
mas01cr@266	136 /* FIXME: we must deal with infinities better than this; there
mas01cr@266	137 could be all sorts of NaNs from arbitrary features. Best
mas01cr@266	138 include power thresholds or something... */
mas01cr@266	139 if(isfinite(v1norm) && isfinite(v2norm) && isfinite(v1v2)) {
mas01cr@266	140
mas01cr@266	141 VERB_LOG(1, "%f %f %f \| ", v1norm, v2norm, v1v2);
mas01cr@266	142 /* assume normalizedDistance == true for now */
mas01cr@266	143 /* FIXME: not convinced that the statistics we calculated in
mas01cr@271	144 TASLP paper are technically valid for normalizedDistance */
mas01cr@271	145
mas01cr@269	146 double dist = 2 - 2 * v1v2 / sqrt(v1norm * v2norm);
mas01cr@271	147 // double dist = v1norm + v2norm - 2*v1v2;
mas01cr@271	148
mas01cr@266	149 VERB_LOG(1, "%f %f\n", dist, log(dist));
mas01cr@266	150 sumdist += dist;
mas01cr@266	151 sumlogdist += log(dist);
mas01cr@266	152 i++;
mas01cr@266	153 } else {
mas01cr@266	154 VERB_LOG(1, "infinity found: %f %f %f\n", v1norm, v2norm, v1v2);
mas01cr@266	155 }
mas01cr@266	156 }
mas01cr@266	157
mas01cr@270	158 /* FIXME: the mean isn't really what we should be reporting here */
mas01cr@270	159 unsigned meanN = total / count;
mas01cr@270	160
mas01cr@270	161 double sigma2 = sumdist / (sequenceLength * dbH->dim * nsamples);
mas01cr@270	162 double d = 2 * yinv(log(sumdist/nsamples) - sumlogdist/nsamples);
mas01cr@268	163
mas01cr@266	164 std::cout << "Summary statistics" << std::endl;
mas01cr@270	165 std::cout << "number of samples: " << nsamples << std::endl;
mas01cr@266	166 std::cout << "sum of distances (S): " << sumdist << std::endl;
mas01cr@266	167 std::cout << "sum of log distances (L): " << sumlogdist << std::endl;
mas01cr@271	168
mas01cr@271	169 /* FIXME: we'll also want some more summary statistics based on
mas01cr@271	170 propTable, for the minimum-of-X estimate */
mas01cr@270	171 std::cout << "mean number of applicable sequences (N): " << meanN << std::endl;
mas01cr@268	172 std::cout << std::endl;
mas01cr@268	173 std::cout << "Estimated parameters" << std::endl;
mas01cr@271	174 std::cout << "sigma^2: " << sigma2 << "; ";
mas01cr@271	175 std::cout << "Msigma^2: " << sumdist / nsamples << std::endl;
mas01cr@268	176 std::cout << "d: " << d << std::endl;
mas01cr@270	177
mas01cr@270	178 double logw = (2 / d) * gsl_sf_log(-gsl_sf_log(0.99));
mas01cr@270	179 double logxthresh = gsl_sf_log(sumdist / nsamples) + logw
mas01cr@270	180 - (2 / d) * gsl_sf_log(meanN)
mas01cr@270	181 - gsl_sf_log(d/2)
mas01cr@270	182 - (2 / d) * gsl_sf_log(2 / d)
mas01cr@270	183 + (2 / d) * gsl_sf_lngamma(d / 2);
mas01cr@270	184
mas01cr@270	185 std::cout << "track xthresh: " << exp(logxthresh) << std::endl;
mas01cr@266	186
mas01cr@266	187 delete[] propTable;
mas01cr@266	188 delete[] v1;
mas01cr@266	189 delete[] v2;
mas01cr@266	190 }

Mercurial > hg > audiodb

annotate sample.cpp @ 271:1f2c7d5e581c sampling