Mercurial > hg > audiodb

annotate query.cpp @ 466:11fccb6a3bd5 api-inversion

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Almost there! audioDB::index_query_loop is now set, except for the lsh_in_core and lsh_exact flags. I think the plan is to zap lsh_in_core entirely, and add some flags to the qid structure for indexed behaviour.
author mas01cr
date Wed, 31 Dec 2008 12:25:22 +0000
parents 1030664df98c
children 4dbd7917bf9e
rev   line source
mas01cr@239 1 #include "audioDB.h"
mas01cr@239 2 #include "reporter.h"
mas01cr@239 3
mas01cr@422 4 #include "audioDB-internals.h"
mas01cr@422 5 #include "accumulators.h"
mas01cr@422 6
mas01cr@444 7 bool audiodb_powers_acceptable(adb_query_refine_t *r, double p1, double p2) {
mas01cr@425 8 if (r->flags & ADB_REFINE_ABSOLUTE_THRESHOLD) {
mas01cr@425 9 if ((p1 < r->absolute_threshold) || (p2 < r->absolute_threshold)) {
mas01cr@239 10 return false;
mas01cr@239 11 }
mas01cr@239 12 }
mas01cr@425 13 if (r->flags & ADB_REFINE_RELATIVE_THRESHOLD) {
mas01cr@425 14 if (fabs(p1-p2) > fabs(r->relative_threshold)) {
mas01cr@239 15 return false;
mas01cr@239 16 }
mas01cr@239 17 }
mas01cr@239 18 return true;
mas01cr@239 19 }
mas01cr@239 20
mas01cr@239 21 void audioDB::query(const char* dbName, const char* inFile, adb__queryResponse *adbQueryResponse) {
mas01cr@425 22
mas01cr@431 23 // init database tables and dbH first
mas01cr@431 24 if(query_from_key)
mas01cr@431 25 initTables(dbName);
mas01cr@431 26 else
mas01cr@431 27 initTables(dbName, inFile);
mas01cr@431 28
mas01cr@435 29 adb_query_spec_t qspec;
mas01cr@444 30 adb_datum_t datum = {0};
mas01cr@435 31
mas01cr@435 32 qspec.refine.flags = 0;
mas01cr@453 33 if(trackFile) {
mas01cr@453 34 qspec.refine.flags |= ADB_REFINE_INCLUDE_KEYLIST;
mas01cr@453 35 std::vector<const char *> v;
mas01cr@453 36 char *k = new char[MAXSTR];
mas01cr@453 37 trackFile->getline(k, MAXSTR);
mas01cr@453 38 while(!trackFile->eof()) {
mas01cr@453 39 v.push_back(k);
mas01cr@453 40 k = new char[MAXSTR];
mas01cr@453 41 trackFile->getline(k, MAXSTR);
mas01cr@453 42 }
mas01cr@453 43 delete [] k;
mas01cr@453 44 qspec.refine.include.nkeys = v.size();
mas01cr@453 45 qspec.refine.include.keys = new const char *[qspec.refine.include.nkeys];
mas01cr@453 46 for(unsigned int k = 0; k < qspec.refine.include.nkeys; k++) {
mas01cr@453 47 qspec.refine.include.keys[k] = v[k];
mas01cr@453 48 }
mas01cr@453 49 }
mas01cr@453 50 if(query_from_key) {
mas01cr@453 51 qspec.refine.flags |= ADB_REFINE_EXCLUDE_KEYLIST;
mas01cr@453 52 qspec.refine.exclude.nkeys = 1;
mas01cr@453 53 qspec.refine.exclude.keys = &key;
mas01cr@453 54 }
mas01cr@425 55 if(radius) {
mas01cr@435 56 qspec.refine.flags |= ADB_REFINE_RADIUS;
mas01cr@435 57 qspec.refine.radius = radius;
mas01cr@425 58 }
mas01cr@425 59 if(use_absolute_threshold) {
mas01cr@435 60 qspec.refine.flags |= ADB_REFINE_ABSOLUTE_THRESHOLD;
mas01cr@435 61 qspec.refine.absolute_threshold = absolute_threshold;
mas01cr@425 62 }
mas01cr@425 63 if(use_relative_threshold) {
mas01cr@435 64 qspec.refine.flags |= ADB_REFINE_RELATIVE_THRESHOLD;
mas01cr@435 65 qspec.refine.relative_threshold = relative_threshold;
mas01cr@425 66 }
mas01cr@425 67 if(usingTimes) {
mas01cr@435 68 qspec.refine.flags |= ADB_REFINE_DURATION_RATIO;
mas01cr@435 69 qspec.refine.duration_ratio = timesTol;
mas01cr@425 70 }
mas01cr@439 71 /* FIXME: not sure about this any more; maybe it belongs in
mas01cr@439 72 query_id? Or maybe we just don't need a flag for it? */
mas01cr@439 73 qspec.refine.hopsize = sequenceHop;
mas01cr@425 74 if(sequenceHop != 1) {
mas01cr@435 75 qspec.refine.flags |= ADB_REFINE_HOP_SIZE;
mas01cr@425 76 }
mas01cr@425 77
mas01cr@444 78 if(query_from_key) {
mas01cr@444 79 datum.key = key;
mas01cr@444 80 } else {
mas01cr@444 81 int fd;
mas01cr@444 82 struct stat st;
mas01cr@444 83
mas01cr@444 84 /* FIXME: around here there are all sorts of hideous leaks. */
mas01cr@444 85 fd = open(inFile, O_RDONLY);
mas01cr@444 86 if(fd < 0) {
mas01cr@444 87 error("failed to open feature file", inFile);
mas01cr@444 88 }
mas01cr@444 89 fstat(fd, &st);
mas01cr@444 90 read(fd, &datum.dim, sizeof(uint32_t));
mas01cr@444 91 datum.nvectors = (st.st_size - sizeof(uint32_t)) / (datum.dim * sizeof(double));
mas01cr@444 92 datum.data = (double *) malloc(st.st_size - sizeof(uint32_t));
mas01cr@444 93 read(fd, datum.data, st.st_size - sizeof(uint32_t));
mas01cr@444 94 close(fd);
mas01cr@444 95 if(usingPower) {
mas01cr@444 96 uint32_t one;
mas01cr@444 97 fd = open(powerFileName, O_RDONLY);
mas01cr@444 98 if(fd < 0) {
mas01cr@444 99 error("failed to open power file", powerFileName);
mas01cr@444 100 }
mas01cr@444 101 read(fd, &one, sizeof(uint32_t));
mas01cr@444 102 if(one != 1) {
mas01cr@444 103 error("malformed power file dimensionality", powerFileName);
mas01cr@444 104 }
mas01cr@444 105 datum.power = (double *) malloc(datum.nvectors * sizeof(double));
mas01cr@444 106 if(read(fd, datum.power, datum.nvectors * sizeof(double)) != (ssize_t) (datum.nvectors * sizeof(double))) {
mas01cr@444 107 error("malformed power file", powerFileName);
mas01cr@444 108 }
mas01cr@444 109 close(fd);
mas01cr@444 110 }
mas01cr@444 111 if(usingTimes) {
mas01cr@444 112 datum.times = (double *) malloc(2 * datum.nvectors * sizeof(double));
mas01cr@444 113 insertTimeStamps(datum.nvectors, timesFile, datum.times);
mas01cr@444 114 }
mas01cr@444 115 }
mas01cr@444 116
mas01cr@444 117 qspec.qid.datum = &datum;
mas01cr@435 118 qspec.qid.sequence_length = sequenceLength;
mas01cr@435 119 qspec.qid.flags = usingQueryPoint ? 0 : ADB_QUERY_ID_FLAG_EXHAUSTIVE;
mas01cr@435 120 qspec.qid.sequence_start = queryPoint;
mas01cr@435 121
mas01cr@431 122 switch(queryType) {
mas01cr@431 123 case O2_POINT_QUERY:
mas01cr@435 124 qspec.qid.sequence_length = 1;
mas01cr@435 125 qspec.params.accumulation = ADB_ACCUMULATION_DB;
mas01cr@435 126 qspec.params.distance = ADB_DISTANCE_DOT_PRODUCT;
mas01cr@435 127 qspec.params.npoints = pointNN;
mas01cr@435 128 qspec.params.ntracks = 0;
mas01cr@431 129 reporter = new pointQueryReporter< std::greater < NNresult > >(pointNN);
mas01cr@431 130 break;
mas01cr@431 131 case O2_TRACK_QUERY:
mas01cr@435 132 qspec.qid.sequence_length = 1;
mas01cr@435 133 qspec.params.accumulation = ADB_ACCUMULATION_PER_TRACK;
mas01cr@435 134 qspec.params.distance = ADB_DISTANCE_DOT_PRODUCT;
mas01cr@435 135 qspec.params.npoints = pointNN;
mas01cr@435 136 qspec.params.ntracks = trackNN;
mas01cr@431 137 reporter = new trackAveragingReporter< std::greater< NNresult > >(pointNN, trackNN, dbH->numFiles);
mas01cr@431 138 break;
mas01cr@431 139 case O2_SEQUENCE_QUERY:
mas01cr@431 140 case O2_N_SEQUENCE_QUERY:
mas01cr@435 141 qspec.params.accumulation = ADB_ACCUMULATION_PER_TRACK;
mas01cr@435 142 qspec.params.distance = no_unit_norming ? ADB_DISTANCE_EUCLIDEAN : ADB_DISTANCE_EUCLIDEAN_NORMED;
mas01cr@435 143 qspec.params.npoints = pointNN;
mas01cr@435 144 qspec.params.ntracks = trackNN;
mas01cr@431 145 switch(queryType) {
mas01cr@431 146 case O2_SEQUENCE_QUERY:
mas01cr@435 147 if(!(qspec.refine.flags & ADB_REFINE_RADIUS)) {
mas01cr@431 148 reporter = new trackAveragingReporter< std::less< NNresult > >(pointNN, trackNN, dbH->numFiles);
mas01cr@431 149 } else {
mas01cr@431 150 reporter = new trackSequenceQueryRadReporter(trackNN, dbH->numFiles);
mas01cr@431 151 }
mas01cr@431 152 break;
mas01cr@431 153 case O2_N_SEQUENCE_QUERY:
mas01cr@435 154 if(!(qspec.refine.flags & ADB_REFINE_RADIUS)) {
mas01cr@431 155 reporter = new trackSequenceQueryNNReporter< std::less < NNresult > >(pointNN, trackNN, dbH->numFiles);
mas01cr@431 156 } else {
mas01cr@460 157 reporter = new trackSequenceQueryRadNNReporter(pointNN, trackNN, dbH->numFiles);
mas01cr@431 158 }
mas01cr@431 159 break;
mas01cr@431 160 }
mas01cr@431 161 break;
mas01cr@431 162 case O2_ONE_TO_ONE_N_SEQUENCE_QUERY:
mas01cr@435 163 qspec.params.accumulation = ADB_ACCUMULATION_ONE_TO_ONE;
mas01cr@435 164 qspec.params.distance = ADB_DISTANCE_EUCLIDEAN_NORMED;
mas01cr@435 165 qspec.params.npoints = 0;
mas01cr@435 166 qspec.params.ntracks = 0;
mas01cr@431 167 break;
mas01cr@431 168 default:
mas01cr@431 169 error("unrecognized queryType");
mas01cr@431 170 }
mas01mc@292 171
mas01cr@458 172 /* Somewhere around here is where the implementation of
mas01cr@458 173 * audiodb_query_spec() starts. */
mas01cr@458 174
mas01cr@458 175 adb_qstate_internal_t qstate;
mas01cr@458 176 qstate.allowed_keys = new std::set<std::string>;
mas01cr@458 177 if(qspec.refine.flags & ADB_REFINE_INCLUDE_KEYLIST) {
mas01cr@458 178 for(unsigned int k = 0; k < qspec.refine.include.nkeys; k++) {
mas01cr@458 179 qstate.allowed_keys->insert(qspec.refine.include.keys[k]);
mas01cr@458 180 }
mas01cr@458 181 } else {
mas01cr@458 182 for(unsigned int k = 0; k < adb->header->numFiles; k++) {
mas01cr@458 183 qstate.allowed_keys->insert((*adb->keys)[k]);
mas01cr@458 184 }
mas01cr@458 185 }
mas01cr@458 186 if(qspec.refine.flags & ADB_REFINE_EXCLUDE_KEYLIST) {
mas01cr@458 187 for(unsigned int k = 0; k < qspec.refine.exclude.nkeys; k++) {
mas01cr@458 188 qstate.allowed_keys->erase(qspec.refine.exclude.keys[k]);
mas01cr@458 189 }
mas01cr@458 190 }
mas01cr@431 191
mas01cr@435 192 switch(qspec.params.distance) {
mas01cr@431 193 case ADB_DISTANCE_DOT_PRODUCT:
mas01cr@435 194 switch(qspec.params.accumulation) {
mas01cr@431 195 case ADB_ACCUMULATION_DB:
mas01cr@458 196 qstate.accumulator = new DBAccumulator<adb_result_dist_gt>(qspec.params.npoints);
mas01cr@431 197 break;
mas01cr@431 198 case ADB_ACCUMULATION_PER_TRACK:
mas01cr@458 199 qstate.accumulator = new PerTrackAccumulator<adb_result_dist_gt>(qspec.params.npoints, qspec.params.ntracks);
mas01cr@431 200 break;
mas01cr@431 201 case ADB_ACCUMULATION_ONE_TO_ONE:
mas01cr@458 202 qstate.accumulator = new NearestAccumulator<adb_result_dist_gt>();
mas01cr@431 203 break;
mas01cr@431 204 default:
mas01cr@431 205 error("unknown accumulation");
mas01cr@239 206 }
mas01cr@239 207 break;
mas01cr@431 208 case ADB_DISTANCE_EUCLIDEAN_NORMED:
mas01cr@431 209 case ADB_DISTANCE_EUCLIDEAN:
mas01cr@435 210 switch(qspec.params.accumulation) {
mas01cr@431 211 case ADB_ACCUMULATION_DB:
mas01cr@458 212 qstate.accumulator = new DBAccumulator<adb_result_dist_lt>(qspec.params.npoints);
mas01cr@431 213 break;
mas01cr@431 214 case ADB_ACCUMULATION_PER_TRACK:
mas01cr@458 215 qstate.accumulator = new PerTrackAccumulator<adb_result_dist_lt>(qspec.params.npoints, qspec.params.ntracks);
mas01cr@431 216 break;
mas01cr@431 217 case ADB_ACCUMULATION_ONE_TO_ONE:
mas01cr@458 218 qstate.accumulator = new NearestAccumulator<adb_result_dist_lt>();
mas01cr@431 219 break;
mas01cr@431 220 default:
mas01cr@431 221 error("unknown accumulation");
mas01mc@263 222 }
mas01mc@263 223 break;
mas01cr@239 224 default:
mas01cr@431 225 error("unknown distance function");
mas01cr@431 226 }
mas01cr@431 227
mas01mc@292 228 // Test for index (again) here
mas01cr@460 229 if((qspec.refine.flags & ADB_REFINE_RADIUS) && audiodb_index_exists(adb->path, qspec.refine.radius, qspec.qid.sequence_length)){
mas01cr@436 230 VERB_LOG(1, "Calling indexed query on database %s, radius=%f, sequence_length=%d\n", adb->path, qspec.refine.radius, qspec.qid.sequence_length);
mas01cr@466 231 if(index_query_loop(adb, &qspec, &qstate) < 0) {
mas01cr@466 232 error("index_query_loop failed");
mas01cr@466 233 }
mas01cr@466 234 } else {
mas01mc@329 235 VERB_LOG(1, "Calling brute-force query on database %s\n", dbName);
mas01cr@463 236 if(audiodb_query_loop(adb, &qspec, &qstate)) {
mas01cr@463 237 error("audiodb_query_loop failed");
mas01cr@452 238 }
mas01mc@329 239 }
mas01mc@292 240
mas01cr@458 241 adb_query_results_t *rs = qstate.accumulator->get_points();
mas01cr@458 242
mas01cr@458 243 delete qstate.accumulator;
mas01cr@458 244 delete qstate.allowed_keys;
mas01cr@458 245
mas01cr@458 246 /* End of audiodb_query_spec() function */
mas01cr@458 247
mas01cr@423 248 for(unsigned int k = 0; k < rs->nresults; k++) {
mas01cr@423 249 adb_result_t r = rs->results[k];
mas01cr@430 250 reporter->add_point(audiodb_key_index(adb, r.key), r.qpos, r.ipos, r.dist);
mas01cr@423 251 }
mas01cr@459 252 audiodb_query_free_results(adb, &qspec, rs);
mas01cr@423 253
mas01mc@292 254 reporter->report(fileTable, adbQueryResponse);
mas01cr@239 255 }
mas01cr@239 256
mas01cr@459 257 int audiodb_query_free_results(adb_t *adb, adb_query_spec_t *spec, adb_query_results_t *rs) {
mas01cr@459 258 free(rs->results);
mas01cr@459 259 free(rs);
mas01cr@459 260 return 0;
mas01cr@459 261 }
mas01cr@459 262
mas01cr@439 263 static void audiodb_initialize_arrays(adb_t *adb, adb_query_spec_t *spec, int track, unsigned int numVectors, double *query, double *data_buffer, double **D, double **DD) {
mas01cr@239 264 unsigned int j, k, l, w;
mas01cr@239 265 double *dp, *qp, *sp;
mas01cr@239 266
mas01cr@439 267 const unsigned HOP_SIZE = spec->refine.hopsize;
mas01cr@435 268 const unsigned wL = spec->qid.sequence_length;
mas01cr@239 269
mas01cr@239 270 for(j = 0; j < numVectors; j++) {
mas01cr@239 271 // Sum products matrix
mas01cr@433 272 D[j] = new double[(*adb->track_lengths)[track]];
mas01cr@239 273 assert(D[j]);
mas01cr@239 274 // Matched filter matrix
mas01cr@433 275 DD[j]=new double[(*adb->track_lengths)[track]];
mas01cr@239 276 assert(DD[j]);
mas01cr@239 277 }
mas01cr@239 278
mas01cr@239 279 // Dot product
mas01cr@239 280 for(j = 0; j < numVectors; j++)
mas01cr@433 281 for(k = 0; k < (*adb->track_lengths)[track]; k++){
mas01cr@439 282 qp = query + j * adb->header->dim;
mas01cr@439 283 sp = data_buffer + k * adb->header->dim;
mas01cr@239 284 DD[j][k] = 0.0; // Initialize matched filter array
mas01cr@239 285 dp = &D[j][k]; // point to correlation cell j,k
mas01cr@239 286 *dp = 0.0; // initialize correlation cell
mas01cr@439 287 l = adb->header->dim; // size of vectors
mas01cr@239 288 while(l--)
mas01cr@239 289 *dp += *qp++ * *sp++;
mas01cr@239 290 }
mas01cr@239 291
mas01cr@239 292 // Matched Filter
mas01cr@239 293 // HOP SIZE == 1
mas01cr@239 294 double* spd;
mas01cr@239 295 if(HOP_SIZE == 1) { // HOP_SIZE = shingleHop
mas01cr@239 296 for(w = 0; w < wL; w++) {
mas01cr@239 297 for(j = 0; j < numVectors - w; j++) {
mas01cr@239 298 sp = DD[j];
mas01cr@239 299 spd = D[j+w] + w;
mas01cr@433 300 k = (*adb->track_lengths)[track] - w;
mas01mc@292 301 while(k--)
mas01mc@292 302 *sp++ += *spd++;
mas01cr@239 303 }
mas01cr@239 304 }
mas01cr@239 305 } else { // HOP_SIZE != 1
mas01cr@239 306 for(w = 0; w < wL; w++) {
mas01cr@239 307 for(j = 0; j < numVectors - w; j += HOP_SIZE) {
mas01cr@239 308 sp = DD[j];
mas01cr@239 309 spd = D[j+w]+w;
mas01cr@433 310 for(k = 0; k < (*adb->track_lengths)[track] - w; k += HOP_SIZE) {
mas01cr@239 311 *sp += *spd;
mas01cr@239 312 sp += HOP_SIZE;
mas01cr@239 313 spd += HOP_SIZE;
mas01cr@239 314 }
mas01cr@239 315 }
mas01cr@239 316 }
mas01cr@239 317 }
mas01cr@239 318 }
mas01cr@239 319
mas01cr@433 320 static void audiodb_delete_arrays(int track, unsigned int numVectors, double **D, double **DD) {
mas01cr@239 321 if(D != NULL) {
mas01cr@239 322 for(unsigned int j = 0; j < numVectors; j++) {
mas01cr@239 323 delete[] D[j];
mas01cr@239 324 }
mas01cr@239 325 }
mas01cr@239 326 if(DD != NULL) {
mas01cr@239 327 for(unsigned int j = 0; j < numVectors; j++) {
mas01cr@239 328 delete[] DD[j];
mas01cr@239 329 }
mas01cr@239 330 }
mas01cr@239 331 }
mas01cr@239 332
mas01cr@433 333 int audiodb_read_data(adb_t *adb, int trkfid, int track, double **data_buffer_p, size_t *data_buffer_size_p) {
mas01cr@433 334 uint32_t track_length = (*adb->track_lengths)[track];
mas01cr@433 335 size_t track_size = track_length * sizeof(double) * adb->header->dim;
mas01cr@433 336 if (track_size > *data_buffer_size_p) {
mas01cr@239 337 if(*data_buffer_p) {
mas01cr@239 338 free(*data_buffer_p);
mas01cr@239 339 }
mas01cr@239 340 {
mas01cr@433 341 *data_buffer_size_p = track_size;
mas01cr@433 342 void *tmp = malloc(track_size);
mas01cr@239 343 if (tmp == NULL) {
mas01cr@433 344 goto error;
mas01cr@239 345 }
mas01cr@239 346 *data_buffer_p = (double *) tmp;
mas01cr@239 347 }
mas01cr@239 348 }
mas01cr@239 349
mas01cr@433 350 read_or_goto_error(trkfid, *data_buffer_p, track_size);
mas01cr@433 351 return 0;
mas01cr@433 352
mas01cr@433 353 error:
mas01cr@433 354 return 1;
mas01cr@239 355 }
mas01cr@239 356
mas01cr@405 357 void audioDB::insertTimeStamps(unsigned numVectors, std::ifstream *timesFile, double *timesdata) {
mas01cr@405 358 assert(usingTimes);
mas01cr@405 359
mas01cr@405 360 unsigned numtimes = 0;
mas01cr@405 361
mas01cr@405 362 if(!timesFile->is_open()) {
mas01cr@405 363 error("problem opening times file on timestamped database", timesFileName);
mas01cr@405 364 }
mas01cr@405 365
mas01cr@405 366 double timepoint, next;
mas01cr@405 367 *timesFile >> timepoint;
mas01cr@405 368 if (timesFile->eof()) {
mas01cr@405 369 error("no entries in times file", timesFileName);
mas01cr@405 370 }
mas01cr@405 371 numtimes++;
mas01cr@405 372 do {
mas01cr@405 373 *timesFile >> next;
mas01cr@405 374 if (timesFile->eof()) {
mas01cr@405 375 break;
mas01cr@405 376 }
mas01cr@405 377 numtimes++;
mas01cr@405 378 timesdata[0] = timepoint;
mas01cr@405 379 timepoint = (timesdata[1] = next);
mas01cr@405 380 timesdata += 2;
mas01cr@405 381 } while (numtimes < numVectors + 1);
mas01cr@405 382
mas01cr@405 383 if (numtimes < numVectors + 1) {
mas01cr@405 384 error("too few timepoints in times file", timesFileName);
mas01cr@405 385 }
mas01cr@405 386
mas01cr@405 387 *timesFile >> next;
mas01cr@405 388 if (!timesFile->eof()) {
mas01cr@405 389 error("too many timepoints in times file", timesFileName);
mas01cr@405 390 }
mas01cr@405 391 }
mas01cr@405 392
mas01cr@461 393 int audiodb_track_id_datum(adb_t *adb, uint32_t track_id, adb_datum_t *d) {
mas01cr@461 394 off_t track_offset = (*adb->track_offsets)[track_id];
mas01cr@461 395 if(adb->header->flags & O2_FLAG_LARGE_ADB) {
mas01cr@461 396 /* create a reference/insert, then use adb_insert_create_datum() */
mas01cr@461 397 adb_reference_t reference = {0};
mas01cr@461 398 char features[MAXSTR], power[MAXSTR], times[MAXSTR];
mas01cr@461 399 lseek(adb->fd, adb->header->dataOffset + track_id * O2_FILETABLE_ENTRY_SIZE, SEEK_SET);
mas01cr@461 400 /* FIXME: learn not to worry and love the bomb^Wbuffer overflow */
mas01cr@461 401 read(adb->fd, features, MAXSTR);
mas01cr@461 402 reference.features = features;
mas01cr@461 403 if(adb->header->flags & O2_FLAG_POWER) {
mas01cr@461 404 lseek(adb->fd, adb->header->powerTableOffset + track_id * O2_FILETABLE_ENTRY_SIZE, SEEK_SET);
mas01cr@461 405 read(adb->fd, power, MAXSTR);
mas01cr@461 406 reference.power = power;
mas01cr@461 407 }
mas01cr@461 408 if(adb->header->flags & O2_FLAG_TIMES) {
mas01cr@461 409 lseek(adb->fd, adb->header->timesTableOffset + track_id * O2_FILETABLE_ENTRY_SIZE, SEEK_SET);
mas01cr@461 410 read(adb->fd, times, MAXSTR);
mas01cr@461 411 reference.times = times;
mas01cr@461 412 }
mas01cr@461 413 audiodb_insert_create_datum(&reference, d);
mas01cr@461 414 } else {
mas01cr@461 415 /* initialize from sources of data that we already have */
mas01cr@461 416 d->nvectors = (*adb->track_lengths)[track_id];
mas01cr@461 417 d->dim = adb->header->dim;
mas01cr@461 418 d->key = (*adb->keys)[track_id].c_str();
mas01cr@461 419 /* read out stuff from the database tables */
mas01cr@461 420 d->data = (double *) malloc(d->nvectors * d->dim * sizeof(double));
mas01cr@461 421 lseek(adb->fd, adb->header->dataOffset + track_offset, SEEK_SET);
mas01cr@461 422 read(adb->fd, d->data, d->nvectors * d->dim * sizeof(double));
mas01cr@461 423 if(adb->header->flags & O2_FLAG_POWER) {
mas01cr@461 424 d->power = (double *) malloc(d->nvectors * sizeof(double));
mas01cr@461 425 lseek(adb->fd, adb->header->powerTableOffset + track_offset / d->dim, SEEK_SET);
mas01cr@461 426 read(adb->fd, d->power, d->nvectors * sizeof(double));
mas01cr@461 427 }
mas01cr@461 428 if(adb->header->flags & O2_FLAG_TIMES) {
mas01cr@461 429 d->times = (double *) malloc(2 * d->nvectors * sizeof(double));
mas01cr@461 430 lseek(adb->fd, adb->header->timesTableOffset + track_offset / d->dim, SEEK_SET);
mas01cr@461 431 read(adb->fd, d->times, 2 * d->nvectors * sizeof(double));
mas01cr@461 432 }
mas01cr@461 433 }
mas01cr@461 434 return 0;
mas01cr@461 435 }
mas01cr@461 436
mas01cr@461 437 int audiodb_datum_qpointers(adb_datum_t *d, uint32_t sequence_length, double **vector_data, double **vector, adb_qpointers_internal_t *qpointers) {
mas01cr@461 438 uint32_t nvectors = d->nvectors;
mas01cr@461 439
mas01cr@461 440 qpointers->nvectors = nvectors;
mas01cr@461 441
mas01cr@461 442 size_t vector_size = nvectors * sizeof(double) * d->dim;
mas01cr@461 443 *vector_data = new double[vector_size];
mas01cr@461 444 memcpy(*vector_data, d->data, vector_size);
mas01cr@461 445
mas01cr@461 446 qpointers->l2norm_data = new double[vector_size / d->dim];
mas01cr@461 447 audiodb_l2norm_buffer(*vector_data, d->dim, nvectors, qpointers->l2norm_data);
mas01cr@461 448 audiodb_sequence_sum(qpointers->l2norm_data, nvectors, sequence_length);
mas01cr@461 449 audiodb_sequence_sqrt(qpointers->l2norm_data, nvectors, sequence_length);
mas01cr@461 450
mas01cr@461 451 if(d->power) {
mas01cr@461 452 qpointers->power_data = new double[vector_size / d->dim];
mas01cr@461 453 memcpy(qpointers->power_data, d->power, vector_size / d->dim);
mas01cr@461 454 audiodb_sequence_sum(qpointers->power_data, nvectors, sequence_length);
mas01cr@461 455 audiodb_sequence_average(qpointers->power_data, nvectors, sequence_length);
mas01cr@461 456 }
mas01cr@461 457
mas01cr@461 458 if(d->times) {
mas01cr@461 459 qpointers->mean_duration = new double[1];
mas01cr@461 460 *qpointers->mean_duration = 0;
mas01cr@461 461 for(unsigned int k = 0; k < nvectors; k++) {
mas01cr@461 462 *qpointers->mean_duration += d->times[2*k+1] - d->times[2*k];
mas01cr@461 463 }
mas01cr@461 464 *qpointers->mean_duration /= nvectors;
mas01cr@461 465 }
mas01cr@461 466
mas01cr@461 467 *vector = *vector_data;
mas01cr@461 468 qpointers->l2norm = qpointers->l2norm_data;
mas01cr@461 469 qpointers->power = qpointers->power_data;
mas01cr@461 470 return 0;
mas01cr@461 471 }
mas01cr@461 472
mas01cr@444 473 int audiodb_query_spec_qpointers(adb_t *adb, adb_query_spec_t *spec, double **vector_data, double **vector, adb_qpointers_internal_t *qpointers) {
mas01cr@443 474 adb_datum_t *datum;
mas01cr@443 475 adb_datum_t d = {0};
mas01cr@443 476 uint32_t sequence_length;
mas01cr@443 477 uint32_t sequence_start;
mas01cr@443 478
mas01cr@443 479 datum = spec->qid.datum;
mas01cr@443 480 sequence_length = spec->qid.sequence_length;
mas01cr@443 481 sequence_start = spec->qid.sequence_start;
mas01cr@443 482
mas01cr@443 483 if(datum->data) {
mas01cr@443 484 if(datum->dim != adb->header->dim) {
mas01cr@443 485 return 1;
mas01cr@443 486 }
mas01cr@443 487 /* initialize d, and mark that nothing needs freeing later. */
mas01cr@443 488 d = *datum;
mas01cr@443 489 datum = &d;
mas01cr@443 490 } else if (datum->key) {
mas01cr@449 491 uint32_t track_id;
mas01cr@449 492 if((track_id = audiodb_key_index(adb, datum->key)) == (uint32_t) -1) {
mas01cr@443 493 return 1;
mas01cr@443 494 }
mas01cr@461 495 audiodb_track_id_datum(adb, track_id, &d);
mas01cr@443 496 } else {
mas01cr@443 497 return 1;
mas01cr@443 498 }
mas01cr@443 499
mas01cr@444 500 /* FIXME: check the overflow logic here */
mas01cr@461 501 if(sequence_start + sequence_length > d.nvectors) {
mas01cr@461 502 if(datum != &d) {
mas01cr@461 503 audiodb_free_datum(&d);
mas01cr@461 504 }
mas01cr@443 505 return 1;
mas01cr@443 506 }
mas01cr@443 507
mas01cr@461 508 audiodb_datum_qpointers(&d, sequence_length, vector_data, vector, qpointers);
mas01cr@443 509
mas01cr@461 510 /* Finally, if applicable, set up the moving qpointers. */
mas01cr@443 511 if(spec->qid.flags & ADB_QUERY_ID_FLAG_EXHAUSTIVE) {
mas01cr@461 512 /* the qpointers are already at the start, and so correct. */
mas01cr@443 513 } else {
mas01cr@461 514 /* adjust the qpointers to point to the correct place in the sequence */
mas01cr@443 515 *vector = *vector_data + spec->qid.sequence_start * d.dim;
mas01cr@443 516 qpointers->l2norm = qpointers->l2norm_data + spec->qid.sequence_start;
mas01cr@444 517 if(d.power) {
mas01cr@444 518 qpointers->power = qpointers->power_data + spec->qid.sequence_start;
mas01cr@444 519 }
mas01cr@444 520 qpointers->nvectors = sequence_length;
mas01cr@443 521 }
mas01cr@443 522
mas01cr@443 523 /* Clean up: free any bits of datum that we have ourselves
mas01cr@443 524 * allocated. */
mas01cr@443 525 if(datum != &d) {
mas01cr@443 526 audiodb_free_datum(&d);
mas01cr@443 527 }
mas01cr@444 528
mas01cr@444 529 return 0;
mas01cr@443 530 }
mas01cr@443 531
mas01cr@448 532 static int audiodb_set_up_dbpointers(adb_t *adb, adb_query_spec_t *spec, adb_qpointers_internal_t *dbpointers) {
mas01cr@438 533 uint32_t nvectors = adb->header->length / (adb->header->dim * sizeof(double));
mas01cr@435 534 uint32_t sequence_length = spec->qid.sequence_length;
mas01cr@438 535
mas01cr@437 536 bool using_power = spec->refine.flags & (ADB_REFINE_ABSOLUTE_THRESHOLD|ADB_REFINE_RELATIVE_THRESHOLD);
mas01cr@437 537 bool using_times = spec->refine.flags & ADB_REFINE_DURATION_RATIO;
mas01cr@437 538 double *times_table = NULL;
mas01cr@435 539
mas01cr@239 540
mas01cr@438 541 dbpointers->nvectors = nvectors;
mas01cr@438 542 dbpointers->l2norm_data = new double[nvectors];
mas01cr@438 543
mas01cr@438 544 double *snpp = dbpointers->l2norm_data, *sppp = 0;
mas01cr@434 545 lseek(adb->fd, adb->header->l2normTableOffset, SEEK_SET);
mas01cr@438 546 read_or_goto_error(adb->fd, dbpointers->l2norm_data, nvectors * sizeof(double));
mas01cr@239 547
mas01cr@437 548 if (using_power) {
mas01cr@434 549 if (!(adb->header->flags & O2_FLAG_POWER)) {
mas01cr@434 550 goto error;
mas01cr@239 551 }
mas01cr@438 552 dbpointers->power_data = new double[nvectors];
mas01cr@438 553 sppp = dbpointers->power_data;
mas01cr@434 554 lseek(adb->fd, adb->header->powerTableOffset, SEEK_SET);
mas01cr@438 555 read_or_goto_error(adb->fd, dbpointers->power_data, nvectors * sizeof(double));
mas01cr@239 556 }
mas01cr@239 557
mas01cr@434 558 for(unsigned int i = 0; i < adb->header->numFiles; i++){
mas01cr@434 559 size_t track_length = (*adb->track_lengths)[i];
mas01cr@435 560 if(track_length >= sequence_length) {
mas01cr@435 561 audiodb_sequence_sum(snpp, track_length, sequence_length);
mas01cr@435 562 audiodb_sequence_sqrt(snpp, track_length, sequence_length);
mas01cr@437 563 if (using_power) {
mas01cr@435 564 audiodb_sequence_sum(sppp, track_length, sequence_length);
mas01cr@435 565 audiodb_sequence_average(sppp, track_length, sequence_length);
mas01cr@239 566 }
mas01cr@239 567 }
mas01cr@434 568 snpp += track_length;
mas01cr@437 569 if (using_power) {
mas01cr@434 570 sppp += track_length;
mas01cr@239 571 }
mas01cr@239 572 }
mas01cr@239 573
mas01cr@437 574 if (using_times) {
mas01cr@434 575 if(!(adb->header->flags & O2_FLAG_TIMES)) {
mas01cr@437 576 goto error;
mas01cr@239 577 }
mas01cr@239 578
mas01cr@438 579 dbpointers->mean_duration = new double[adb->header->numFiles];
mas01cr@239 580
mas01cr@438 581 times_table = (double *) malloc(2 * nvectors * sizeof(double));
mas01cr@437 582 if(!times_table) {
mas01cr@437 583 goto error;
mas01cr@437 584 }
mas01cr@437 585 lseek(adb->fd, adb->header->timesTableOffset, SEEK_SET);
mas01cr@438 586 read_or_goto_error(adb->fd, times_table, 2 * nvectors * sizeof(double));
mas01cr@434 587 for(unsigned int k = 0; k < adb->header->numFiles; k++) {
mas01cr@434 588 size_t track_length = (*adb->track_lengths)[k];
mas01cr@239 589 unsigned int j;
mas01cr@438 590 dbpointers->mean_duration[k] = 0.0;
mas01cr@434 591 for(j = 0; j < track_length; j++) {
mas01cr@438 592 dbpointers->mean_duration[k] += times_table[2*j+1] - times_table[2*j];
mas01cr@239 593 }
mas01cr@438 594 dbpointers->mean_duration[k] /= j;
mas01cr@239 595 }
mas01cr@437 596
mas01cr@437 597 free(times_table);
mas01cr@437 598 times_table = NULL;
mas01cr@239 599 }
mas01cr@239 600
mas01cr@438 601 dbpointers->l2norm = dbpointers->l2norm_data;
mas01cr@438 602 dbpointers->power = dbpointers->power_data;
mas01cr@434 603 return 0;
mas01cr@434 604
mas01cr@434 605 error:
mas01cr@438 606 if(dbpointers->l2norm_data) {
mas01cr@438 607 delete [] dbpointers->l2norm_data;
mas01cr@434 608 }
mas01cr@438 609 if(dbpointers->power_data) {
mas01cr@438 610 delete [] dbpointers->power_data;
mas01cr@434 611 }
mas01cr@438 612 if(dbpointers->mean_duration) {
mas01cr@438 613 delete [] dbpointers->mean_duration;
mas01cr@434 614 }
mas01cr@437 615 if(times_table) {
mas01cr@437 616 free(times_table);
mas01cr@437 617 }
mas01cr@434 618 return 1;
mas01cr@434 619
mas01cr@239 620 }
mas01cr@239 621
mas01cr@463 622 int audiodb_query_queue_loop(adb_t *adb, adb_query_spec_t *spec, adb_qstate_internal_t *qstate, double *query, adb_qpointers_internal_t *qpointers) {
mas01cr@438 623 adb_qpointers_internal_t dbpointers = {0};
mas01mc@292 624
mas01cr@436 625 uint32_t sequence_length = spec->qid.sequence_length;
mas01cr@437 626 bool power_refine = spec->refine.flags & (ADB_REFINE_ABSOLUTE_THRESHOLD|ADB_REFINE_RELATIVE_THRESHOLD);
mas01cr@436 627
mas01cr@458 628 if(qstate->exact_evaluation_queue->size() == 0) {
mas01cr@463 629 return 0;
mas01cr@455 630 }
mas01mc@292 631
mas01cr@462 632 /* We are guaranteed that the order of points is sorted by:
mas01cr@462 633 * {trackID, spos, qpos} so we can be relatively efficient in
mas01cr@462 634 * initialization of track data. We assume that points usually
mas01cr@462 635 * don't overlap, so we will use exhaustive dot product evaluation
mas01cr@463 636 * (instead of memoization of partial sums, as in query_loop()).
mas01cr@463 637 */
mas01cr@462 638 double dist;
mas01cr@462 639 double *dbdata = 0, *dbdata_pointer;
mas01cr@462 640 Uns32T currentTrack = 0x80000000; // KLUDGE: Initialize with a value outside of track index range
mas01cr@462 641 Uns32T npairs = qstate->exact_evaluation_queue->size();
mas01cr@462 642 while(npairs--) {
mas01cr@462 643 PointPair pp = qstate->exact_evaluation_queue->top();
mas01cr@462 644 if(currentTrack != pp.trackID) {
mas01cr@462 645 SAFE_DELETE_ARRAY(dbdata);
mas01cr@462 646 SAFE_DELETE_ARRAY(dbpointers.l2norm_data);
mas01cr@462 647 SAFE_DELETE_ARRAY(dbpointers.power_data);
mas01cr@462 648 SAFE_DELETE_ARRAY(dbpointers.mean_duration);
mas01cr@462 649 currentTrack = pp.trackID;
mas01cr@462 650 adb_datum_t d = {0};
mas01cr@462 651 if(audiodb_track_id_datum(adb, pp.trackID, &d)) {
mas01cr@463 652 delete qstate->exact_evaluation_queue;
mas01cr@463 653 return 1;
mas01cr@462 654 }
mas01cr@462 655 if(audiodb_datum_qpointers(&d, sequence_length, &dbdata, &dbdata_pointer, &dbpointers)) {
mas01cr@463 656 delete qstate->exact_evaluation_queue;
mas01cr@462 657 audiodb_free_datum(&d);
mas01cr@463 658 return 1;
mas01cr@462 659 }
mas01cr@462 660 audiodb_free_datum(&d);
mas01cr@434 661 }
mas01cr@463 662 Uns32T qPos = (spec->qid.flags & ADB_QUERY_ID_FLAG_EXHAUSTIVE) ? pp.qpos : 0;
mas01cr@462 663 Uns32T sPos = pp.spos; // index into l2norm table
mas01mc@324 664 // Test power thresholds before computing distance
mas01cr@438 665 if( ( (!power_refine) || audiodb_powers_acceptable(&spec->refine, qpointers->power[qPos], dbpointers.power[sPos])) &&
mas01cr@462 666 ( qPos<qpointers->nvectors-sequence_length+1 && sPos<(*adb->track_lengths)[pp.trackID]-sequence_length+1 ) ){
mas01mc@324 667 // Compute distance
mas01cr@462 668 dist = audiodb_dot_product(query + qPos*adb->header->dim, dbdata + sPos*adb->header->dim, adb->header->dim*sequence_length);
mas01cr@437 669 double qn = qpointers->l2norm[qPos];
mas01cr@438 670 double sn = dbpointers.l2norm[sPos];
mas01cr@435 671 switch(spec->params.distance) {
mas01cr@431 672 case ADB_DISTANCE_EUCLIDEAN_NORMED:
mas01mc@324 673 dist = 2 - (2/(qn*sn))*dist;
mas01cr@431 674 break;
mas01cr@431 675 case ADB_DISTANCE_EUCLIDEAN:
mas01cr@431 676 dist = qn*qn + sn*sn - 2*dist;
mas01cr@431 677 break;
mas01cr@431 678 }
mas01cr@463 679 if((!(spec->refine.flags & ADB_REFINE_RADIUS)) ||
mas01cr@463 680 dist <= (spec->refine.radius+O2_DISTANCE_TOLERANCE)) {
mas01cr@424 681 adb_result_t r;
mas01cr@453 682 r.key = (*adb->keys)[pp.trackID].c_str();
mas01cr@424 683 r.dist = dist;
mas01cr@424 684 r.qpos = pp.qpos;
mas01cr@424 685 r.ipos = pp.spos;
mas01cr@458 686 qstate->accumulator->add_point(&r);
mas01cr@424 687 }
mas01mc@292 688 }
mas01cr@458 689 qstate->exact_evaluation_queue->pop();
mas01mc@292 690 }
mas01mc@315 691 // Cleanup
mas01cr@462 692 SAFE_DELETE_ARRAY(dbdata);
mas01cr@438 693 SAFE_DELETE_ARRAY(dbpointers.l2norm_data);
mas01cr@438 694 SAFE_DELETE_ARRAY(dbpointers.power_data);
mas01cr@438 695 SAFE_DELETE_ARRAY(dbpointers.mean_duration);
mas01cr@458 696 delete qstate->exact_evaluation_queue;
mas01cr@463 697 return 0;
mas01mc@292 698 }
mas01mc@292 699
mas01cr@463 700 int audiodb_query_loop(adb_t *adb, adb_query_spec_t *spec, adb_qstate_internal_t *qstate) {
mas01cr@239 701
mas01cr@239 702 double *query, *query_data;
mas01cr@438 703 adb_qpointers_internal_t qpointers = {0}, dbpointers = {0};
mas01cr@437 704
mas01cr@437 705 bool power_refine = spec->refine.flags & (ADB_REFINE_ABSOLUTE_THRESHOLD|ADB_REFINE_RELATIVE_THRESHOLD);
mas01cr@239 706
mas01cr@452 707 if(adb->header->flags & O2_FLAG_LARGE_ADB) {
mas01cr@452 708 /* FIXME: actually it would be nice to support this mode of
mas01cr@452 709 * operation, but for now... */
mas01cr@452 710 return 1;
mas01cr@452 711 }
mas01mc@324 712
mas01cr@444 713 if(audiodb_query_spec_qpointers(adb, spec, &query_data, &query, &qpointers)) {
mas01cr@452 714 return 1;
mas01cr@444 715 }
mas01cr@239 716
mas01cr@448 717 if(audiodb_set_up_dbpointers(adb, spec, &dbpointers)) {
mas01cr@452 718 return 1;
mas01cr@434 719 }
mas01cr@239 720
mas01cr@451 721 unsigned j,k,track,trackOffset=0, HOP_SIZE = spec->refine.hopsize;
mas01cr@435 722 unsigned wL = spec->qid.sequence_length;
mas01cr@239 723 double **D = 0; // Differences query and target
mas01cr@239 724 double **DD = 0; // Matched filter distance
mas01cr@239 725
mas01cr@437 726 D = new double*[qpointers.nvectors]; // pre-allocate
mas01cr@437 727 DD = new double*[qpointers.nvectors];
mas01cr@239 728
mas01cr@239 729 off_t trackIndexOffset;
mas01cr@239 730
mas01cr@239 731 // Track loop
mas01cr@239 732 size_t data_buffer_size = 0;
mas01cr@239 733 double *data_buffer = 0;
mas01cr@451 734 lseek(adb->fd, adb->header->dataOffset, SEEK_SET);
mas01cr@239 735
mas01cr@458 736 std::set<std::string>::iterator keys_end = qstate->allowed_keys->end();
mas01cr@453 737 for(track = 0; track < adb->header->numFiles; track++) {
mas01cr@453 738 unsigned t = track;
mas01cr@458 739
mas01cr@458 740 while (qstate->allowed_keys->find((*adb->keys)[track]) == keys_end) {
mas01cr@453 741 track++;
mas01cr@453 742 if(track == adb->header->numFiles) {
mas01cr@453 743 goto loop_finish;
mas01cr@239 744 }
mas01cr@239 745 }
mas01cr@453 746 trackOffset = (*adb->track_offsets)[track];
mas01cr@453 747 if(track != t) {
mas01cr@453 748 lseek(adb->fd, adb->header->dataOffset + trackOffset, SEEK_SET);
mas01mc@292 749 }
mas01cr@451 750 trackIndexOffset = trackOffset / (adb->header->dim * sizeof(double)); // dbpointers.nvectors offset
mas01cr@239 751
mas01cr@452 752 if(audiodb_read_data(adb, adb->fd, track, &data_buffer, &data_buffer_size)) {
mas01cr@452 753 return 1;
mas01cr@452 754 }
mas01cr@451 755 if(wL <= (*adb->track_lengths)[track]) { // test for short sequences
mas01cr@239 756
mas01cr@439 757 audiodb_initialize_arrays(adb, spec, track, qpointers.nvectors, query, data_buffer, D, DD);
mas01cr@239 758
mas01cr@437 759 if((!(spec->refine.flags & ADB_REFINE_DURATION_RATIO)) ||
mas01cr@438 760 fabs(dbpointers.mean_duration[track]-qpointers.mean_duration[0]) < qpointers.mean_duration[0]*spec->refine.duration_ratio) {
mas01cr@239 761
mas01cr@239 762 // Search for minimum distance by shingles (concatenated vectors)
mas01cr@437 763 for(j = 0; j <= qpointers.nvectors - wL; j += HOP_SIZE) {
mas01cr@451 764 for(k = 0; k <= (*adb->track_lengths)[track] - wL; k += HOP_SIZE) {
mas01cr@431 765 double thisDist = 0;
mas01cr@438 766 double qn = qpointers.l2norm[j];
mas01cr@438 767 double sn = dbpointers.l2norm[trackIndexOffset + k];
mas01cr@435 768 switch(spec->params.distance) {
mas01cr@431 769 case ADB_DISTANCE_EUCLIDEAN_NORMED:
mas01cr@438 770 thisDist = 2-(2/(qn*sn))*DD[j][k];
mas01cr@431 771 break;
mas01cr@431 772 case ADB_DISTANCE_EUCLIDEAN:
mas01cr@438 773 thisDist = qn*qn + sn*sn - 2*DD[j][k];
mas01cr@431 774 break;
mas01cr@431 775 case ADB_DISTANCE_DOT_PRODUCT:
mas01cr@431 776 thisDist = DD[j][k];
mas01cr@431 777 break;
mas01cr@431 778 }
mas01cr@239 779 // Power test
mas01cr@438 780 if ((!power_refine) || audiodb_powers_acceptable(&spec->refine, qpointers.power[j], dbpointers.power[trackIndexOffset + k])) {
mas01cr@239 781 // radius test
mas01cr@435 782 if((!(spec->refine.flags & ADB_REFINE_RADIUS)) ||
mas01cr@435 783 thisDist <= (spec->refine.radius+O2_DISTANCE_TOLERANCE)) {
mas01cr@423 784 adb_result_t r;
mas01cr@453 785 r.key = (*adb->keys)[track].c_str();
mas01cr@423 786 r.dist = thisDist;
mas01cr@451 787 if(spec->qid.flags & ADB_QUERY_ID_FLAG_EXHAUSTIVE) {
mas01cr@451 788 r.qpos = j;
mas01cr@451 789 } else {
mas01cr@451 790 r.qpos = spec->qid.sequence_start;
mas01cr@451 791 }
mas01cr@423 792 r.ipos = k;
mas01cr@458 793 qstate->accumulator->add_point(&r);
mas01cr@239 794 }
mas01cr@239 795 }
mas01cr@239 796 }
mas01cr@239 797 }
mas01cr@239 798 } // Duration match
mas01cr@437 799 audiodb_delete_arrays(track, qpointers.nvectors, D, DD);
mas01cr@239 800 }
mas01cr@239 801 }
mas01cr@239 802
mas01cr@453 803 loop_finish:
mas01cr@453 804
mas01cr@239 805 free(data_buffer);
mas01cr@239 806
mas01cr@239 807 // Clean up
mas01cr@239 808 if(query_data)
mas01cr@239 809 delete[] query_data;
mas01cr@437 810 if(qpointers.l2norm_data)
mas01cr@437 811 delete[] qpointers.l2norm_data;
mas01cr@437 812 if(qpointers.power_data)
mas01cr@437 813 delete[] qpointers.power_data;
mas01cr@437 814 if(qpointers.mean_duration)
mas01cr@437 815 delete[] qpointers.mean_duration;
mas01cr@438 816 if(dbpointers.power_data)
mas01cr@438 817 delete[] dbpointers.power_data;
mas01cr@438 818 if(dbpointers.l2norm_data)
mas01cr@438 819 delete[] dbpointers.l2norm_data;
mas01cr@239 820 if(D)
mas01cr@239 821 delete[] D;
mas01cr@239 822 if(DD)
mas01cr@239 823 delete[] DD;
mas01cr@438 824 if(dbpointers.mean_duration)
mas01cr@438 825 delete[] dbpointers.mean_duration;
mas01cr@452 826
mas01cr@452 827 return 0;
mas01cr@239 828 }