Mercurial > hg > audiodb
view query.cpp @ 292:d9a88cfd4ab6
Completed merge of lshlib back to current version of the trunk.
| author | mas01mc |
|---|---|
| date | Tue, 29 Jul 2008 22:01:17 +0000 |
| parents | 210b2f661b88 |
| children | 896679d8cc39 |
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#include "audioDB.h" #include "reporter.h" bool audioDB::powers_acceptable(double p1, double p2) { if (use_absolute_threshold) { if ((p1 < absolute_threshold) || (p2 < absolute_threshold)) { return false; } } if (use_relative_threshold) { if (fabs(p1-p2) > fabs(relative_threshold)) { return false; } } return true; } void audioDB::query(const char* dbName, const char* inFile, adb__queryResponse *adbQueryResponse) { // init database tables and dbH first if(query_from_key) initTables(dbName); else initTables(dbName, inFile); // keyKeyPos requires dbH to be initialized if(query_from_key && (!key || (query_from_key_index = getKeyPos((char*)key))==O2_ERR_KEYNOTFOUND)) error("Query key not found :",key); switch (queryType) { case O2_POINT_QUERY: sequenceLength = 1; normalizedDistance = false; reporter = new pointQueryReporter< std::greater < NNresult > >(pointNN); break; case O2_TRACK_QUERY: sequenceLength = 1; normalizedDistance = false; reporter = new trackAveragingReporter< std::greater< NNresult > >(pointNN, trackNN, dbH->numFiles); break; case O2_SEQUENCE_QUERY: if(no_unit_norming) normalizedDistance = false; if(radius == 0) { reporter = new trackAveragingReporter< std::less< NNresult > >(pointNN, trackNN, dbH->numFiles); } else { if(index_exists(dbName, radius, sequenceLength)){ char* indexName = index_get_name(dbName, radius, sequenceLength); lsh = new LSH(indexName); assert(lsh); reporter = new trackSequenceQueryRadReporter(trackNN, index_to_trackID(lsh->get_maxp())+1); delete lsh; delete[] indexName; } else reporter = new trackSequenceQueryRadReporter(trackNN, dbH->numFiles); } break; case O2_N_SEQUENCE_QUERY: if(no_unit_norming) normalizedDistance = false; if(radius == 0) { reporter = new trackSequenceQueryNNReporter< std::less < NNresult > >(pointNN, trackNN, dbH->numFiles); } else { if(index_exists(dbName, radius, sequenceLength)){ char* indexName = index_get_name(dbName, radius, sequenceLength); lsh = new LSH(indexName); assert(lsh); reporter = new trackSequenceQueryRadNNReporter(pointNN,trackNN, index_to_trackID(lsh->get_maxp())+1); delete lsh; delete[] indexName; } else reporter = new trackSequenceQueryRadNNReporter(pointNN,trackNN, dbH->numFiles); } break; case O2_ONE_TO_ONE_N_SEQUENCE_QUERY : if(radius == 0) { error("query-type not yet supported"); } else { reporter = new trackSequenceQueryRadNNReporterOneToOne(pointNN,trackNN, dbH->numFiles); } break; default: error("unrecognized queryType in query()"); } // Test for index (again) here if(radius && index_exists(dbName, radius, sequenceLength)) index_query_loop(dbName, query_from_key_index); else query_loop(dbName, query_from_key_index); reporter->report(fileTable, adbQueryResponse); } // return ordinal position of key in keyTable // this should really be a STL hash map search unsigned audioDB::getKeyPos(char* key){ if(!dbH) error("dbH not initialized","getKeyPos"); for(unsigned k=0; k<dbH->numFiles; k++) if(strncmp(fileTable + k*O2_FILETABLE_ENTRY_SIZE, key, strlen(key))==0) return k; error("Key not found",key); return O2_ERR_KEYNOTFOUND; } // This is a common pattern in sequence queries: what we are doing is // taking a window of length seqlen over a buffer of length length, // and placing the sum of the elements in that window in the first // element of the window: thus replacing all but the last seqlen // elements in the buffer with the corresponding windowed sum. void audioDB::sequence_sum(double *buffer, int length, int seqlen) { double tmp1, tmp2, *ps; int j, w; tmp1 = *buffer; j = 1; w = seqlen - 1; while(w--) { *buffer += buffer[j++]; } ps = buffer + 1; w = length - seqlen; // +1 - 1 while(w--) { tmp2 = *ps; if(isfinite(tmp1)) { *ps = *(ps - 1) - tmp1 + *(ps + seqlen - 1); } else { for(int i = 1; i < seqlen; i++) { *ps += *(ps + i); } } tmp1 = tmp2; ps++; } } // In contrast to sequence_sum() above, sequence_sqrt() and // sequence_average() below are simple mappers across the sequence. void audioDB::sequence_sqrt(double *buffer, int length, int seqlen) { int w = length - seqlen + 1; while(w--) { *buffer = sqrt(*buffer); buffer++; } } void audioDB::sequence_average(double *buffer, int length, int seqlen) { int w = length - seqlen + 1; while(w--) { *buffer /= seqlen; buffer++; } } void audioDB::initialize_arrays(int track, unsigned int numVectors, double *query, double *data_buffer, double **D, double **DD) { unsigned int j, k, l, w; double *dp, *qp, *sp; const unsigned HOP_SIZE = sequenceHop; const unsigned wL = sequenceLength; for(j = 0; j < numVectors; j++) { // Sum products matrix D[j] = new double[trackTable[track]]; assert(D[j]); // Matched filter matrix DD[j]=new double[trackTable[track]]; assert(DD[j]); } // Dot product for(j = 0; j < numVectors; j++) for(k = 0; k < trackTable[track]; k++){ qp = query + j * dbH->dim; sp = data_buffer + k * dbH->dim; DD[j][k] = 0.0; // Initialize matched filter array dp = &D[j][k]; // point to correlation cell j,k *dp = 0.0; // initialize correlation cell l = dbH->dim; // size of vectors while(l--) *dp += *qp++ * *sp++; } // Matched Filter // HOP SIZE == 1 double* spd; if(HOP_SIZE == 1) { // HOP_SIZE = shingleHop for(w = 0; w < wL; w++) { for(j = 0; j < numVectors - w; j++) { sp = DD[j]; spd = D[j+w] + w; k = trackTable[track] - w; while(k--) *sp++ += *spd++; } } } else { // HOP_SIZE != 1 for(w = 0; w < wL; w++) { for(j = 0; j < numVectors - w; j += HOP_SIZE) { sp = DD[j]; spd = D[j+w]+w; for(k = 0; k < trackTable[track] - w; k += HOP_SIZE) { *sp += *spd; sp += HOP_SIZE; spd += HOP_SIZE; } } } } } void audioDB::delete_arrays(int track, unsigned int numVectors, double **D, double **DD) { if(D != NULL) { for(unsigned int j = 0; j < numVectors; j++) { delete[] D[j]; } } if(DD != NULL) { for(unsigned int j = 0; j < numVectors; j++) { delete[] DD[j]; } } } void audioDB::read_data(int track, double **data_buffer_p, size_t *data_buffer_size_p) { if (trackTable[track] * sizeof(double) * dbH->dim > *data_buffer_size_p) { if(*data_buffer_p) { free(*data_buffer_p); } { *data_buffer_size_p = trackTable[track] * sizeof(double) * dbH->dim; void *tmp = malloc(*data_buffer_size_p); if (tmp == NULL) { error("error allocating data buffer"); } *data_buffer_p = (double *) tmp; } } read(dbfid, *data_buffer_p, trackTable[track] * sizeof(double) * dbH->dim); } // These names deserve some unpicking. The names starting with a "q" // are pointers to the query, norm and power vectors; the names // starting with "v" are things that will end up pointing to the // actual query point's information. -- CSR, 2007-12-05 void audioDB::set_up_query(double **qp, double **vqp, double **qnp, double **vqnp, double **qpp, double **vqpp, double *mqdp, unsigned *nvp) { *nvp = (statbuf.st_size - sizeof(int)) / (dbH->dim * sizeof(double)); if(!(dbH->flags & O2_FLAG_L2NORM)) { error("Database must be L2 normed for sequence query","use -L2NORM"); } if(*nvp < sequenceLength) { error("Query shorter than requested sequence length", "maybe use -l"); } VERB_LOG(1, "performing norms... "); *qp = new double[*nvp * dbH->dim]; memcpy(*qp, indata+sizeof(int), *nvp * dbH->dim * sizeof(double)); *qnp = new double[*nvp]; unitNorm(*qp, dbH->dim, *nvp, *qnp); sequence_sum(*qnp, *nvp, sequenceLength); sequence_sqrt(*qnp, *nvp, sequenceLength); if (usingPower) { *qpp = new double[*nvp]; if (lseek(powerfd, sizeof(int), SEEK_SET) == (off_t) -1) { error("error seeking to data", powerFileName, "lseek"); } int count = read(powerfd, *qpp, *nvp * sizeof(double)); if (count == -1) { error("error reading data", powerFileName, "read"); } if ((unsigned) count != *nvp * sizeof(double)) { error("short read", powerFileName); } sequence_sum(*qpp, *nvp, sequenceLength); sequence_average(*qpp, *nvp, sequenceLength); } if (usingTimes) { unsigned int k; *mqdp = 0.0; double *querydurs = new double[*nvp]; double *timesdata = new double[*nvp*2]; insertTimeStamps(*nvp, timesFile, timesdata); for(k = 0; k < *nvp; k++) { querydurs[k] = timesdata[2*k+1] - timesdata[2*k]; *mqdp += querydurs[k]; } *mqdp /= k; VERB_LOG(1, "mean query file duration: %f\n", *mqdp); delete [] querydurs; delete [] timesdata; } // Defaults, for exhaustive search (!usingQueryPoint) *vqp = *qp; *vqnp = *qnp; *vqpp = *qpp; if(usingQueryPoint) { if(queryPoint > *nvp || queryPoint > *nvp - sequenceLength + 1) { error("queryPoint > numVectors-wL+1 in query"); } else { VERB_LOG(1, "query point: %u\n", queryPoint); *vqp = *qp + queryPoint * dbH->dim; *vqnp = *qnp + queryPoint; if (usingPower) { *vqpp = *qpp + queryPoint; } *nvp = sequenceLength; } } } // Does the same as set_up_query(...) but from database features instead of from a file // Constructs the same outputs as set_up_query void audioDB::set_up_query_from_key(double **qp, double **vqp, double **qnp, double **vqnp, double **qpp, double **vqpp, double *mqdp, unsigned *nvp, Uns32T queryIndex) { if(!trackTable) error("trackTable not initialized","set_up_query_from_key"); if(!(dbH->flags & O2_FLAG_L2NORM)) { error("Database must be L2 normed for sequence query","use -L2NORM"); } if(dbH->flags & O2_FLAG_POWER) usingPower = true; if(dbH->flags & O2_FLAG_TIMES) usingTimes = true; *nvp = trackTable[queryIndex]; if(*nvp < sequenceLength) { error("Query shorter than requested sequence length", "maybe use -l"); } VERB_LOG(1, "performing norms... "); // Read query feature vectors from database *qp = NULL; lseek(dbfid, dbH->dataOffset + trackOffsetTable[queryIndex] * sizeof(double), SEEK_SET); size_t allocatedSize = 0; read_data(queryIndex, qp, &allocatedSize); // Consistency check on allocated memory and query feature size if(*nvp*sizeof(double)*dbH->dim != allocatedSize) error("Query memory allocation failed consitency check","set_up_query_from_key"); Uns32T trackIndexOffset = trackOffsetTable[queryIndex]/dbH->dim; // Convert num data elements to num vectors // Copy L2 norm partial-sum coefficients assert(*qnp = new double[*nvp]); memcpy(*qnp, l2normTable+trackIndexOffset, *nvp*sizeof(double)); sequence_sum(*qnp, *nvp, sequenceLength); sequence_sqrt(*qnp, *nvp, sequenceLength); if( usingPower ){ // Copy Power partial-sum coefficients assert(*qpp = new double[*nvp]); memcpy(*qpp, powerTable+trackIndexOffset, *nvp*sizeof(double)); sequence_sum(*qpp, *nvp, sequenceLength); sequence_average(*qpp, *nvp, sequenceLength); } if (usingTimes) { unsigned int k; *mqdp = 0.0; double *querydurs = new double[*nvp]; double *timesdata = new double[*nvp*2]; assert(querydurs && timesdata); memcpy(timesdata, timesTable+trackIndexOffset, *nvp*sizeof(double)); for(k = 0; k < *nvp; k++) { querydurs[k] = timesdata[2*k+1] - timesdata[2*k]; *mqdp += querydurs[k]; } *mqdp /= k; VERB_LOG(1, "mean query file duration: %f\n", *mqdp); delete [] querydurs; delete [] timesdata; } // Defaults, for exhaustive search (!usingQueryPoint) *vqp = *qp; *vqnp = *qnp; *vqpp = *qpp; if(usingQueryPoint) { if(queryPoint > *nvp || queryPoint > *nvp - sequenceLength + 1) { error("queryPoint > numVectors-wL+1 in query"); } else { VERB_LOG(1, "query point: %u\n", queryPoint); *vqp = *qp + queryPoint * dbH->dim; *vqnp = *qnp + queryPoint; if (usingPower) { *vqpp = *qpp + queryPoint; } *nvp = sequenceLength; } } } // FIXME: this is not the right name; we're not actually setting up // the database, but copying various bits of it out of mmap()ed tables // in order to reduce seeks. void audioDB::set_up_db(double **snp, double **vsnp, double **spp, double **vspp, double **mddp, unsigned int *dvp) { *dvp = dbH->length / (dbH->dim * sizeof(double)); *snp = new double[*dvp]; double *snpp = *snp, *sppp = 0; memcpy(*snp, l2normTable, *dvp * sizeof(double)); if (usingPower) { if (!(dbH->flags & O2_FLAG_POWER)) { error("database not power-enabled", dbName); } *spp = new double[*dvp]; sppp = *spp; memcpy(*spp, powerTable, *dvp * sizeof(double)); } for(unsigned int i = 0; i < dbH->numFiles; i++){ if(trackTable[i] >= sequenceLength) { sequence_sum(snpp, trackTable[i], sequenceLength); sequence_sqrt(snpp, trackTable[i], sequenceLength); if (usingPower) { sequence_sum(sppp, trackTable[i], sequenceLength); sequence_average(sppp, trackTable[i], sequenceLength); } } snpp += trackTable[i]; if (usingPower) { sppp += trackTable[i]; } } if (usingTimes) { if(!(dbH->flags & O2_FLAG_TIMES)) { error("query timestamps provided for non-timed database", dbName); } *mddp = new double[dbH->numFiles]; for(unsigned int k = 0; k < dbH->numFiles; k++) { unsigned int j; (*mddp)[k] = 0.0; for(j = 0; j < trackTable[k]; j++) { (*mddp)[k] += timesTable[2*j+1] - timesTable[2*j]; } (*mddp)[k] /= j; } } *vsnp = *snp; *vspp = *spp; } // query_points() // // using PointPairs held in the exact_evaluation_queue compute squared distance for each PointPair // and insert result into the current reporter. // // Preconditions: // A query inFile has been opened with setup_query(...) and query pointers initialized // The database contains some points // An exact_evaluation_queue has been allocated and populated // A reporter has been allocated // // Postconditions: // reporter contains the points and distances that meet the reporter constraints void audioDB::query_loop_points(double* query, double* qnPtr, double* qpPtr, double meanQdur, Uns32T numVectors){ unsigned int dbVectors; double *sNorm, *snPtr, *sPower = 0, *spPtr = 0; double *meanDBdur = 0; // check pre-conditions assert(exact_evaluation_queue&&reporter); if(!exact_evaluation_queue->size()) // Exit if no points to evaluate return; // Compute database info // FIXME: we more than likely don't need very much of the database // so make a new method to build these values per-track or, even better, per-point set_up_db(&sNorm, &snPtr, &sPower, &spPtr, &meanDBdur, &dbVectors); VERB_LOG(1, "matching points..."); assert(pointNN>0 && pointNN<=O2_MAXNN); assert(trackNN>0 && trackNN<=O2_MAXNN); // We are guaranteed that the order of points is sorted by: // qpos, trackID, spos // so we can be relatively efficient in initialization of track data. // Here we assume that points don't overlap, so we will use exhaustive dot // product evaluation over the sequence double dist; size_t data_buffer_size = 0; double *data_buffer = 0; Uns32T trackOffset; Uns32T trackIndexOffset; Uns32T currentTrack = 0x80000000; // Initialize with a value outside of track index range Uns32T npairs = exact_evaluation_queue->size(); while(npairs--){ PointPair pp = exact_evaluation_queue->top(); trackOffset=trackOffsetTable[pp.trackID]; // num data elements offset trackIndexOffset=trackOffset/dbH->dim; // num vectors offset if((!(usingPower) || powers_acceptable(qpPtr[usingQueryPoint?0:pp.qpos], sPower[trackIndexOffset+pp.spos])) && ((usingQueryPoint?0:pp.qpos) < numVectors-sequenceLength+1 && pp.spos < trackTable[pp.trackID]-sequenceLength+1)){ if(currentTrack!=pp.trackID){ currentTrack=pp.trackID; lseek(dbfid, dbH->dataOffset + trackOffset * sizeof(double), SEEK_SET); read_data(currentTrack, &data_buffer, &data_buffer_size); } dist = dot_product_points(query+(usingQueryPoint?0:pp.qpos*dbH->dim), data_buffer+pp.spos*dbH->dim, dbH->dim*sequenceLength); if(normalizedDistance) dist = 2-(2/(qnPtr[usingQueryPoint?0:pp.qpos]*sNorm[trackIndexOffset+pp.spos]))*dist; else if(no_unit_norming) dist = qnPtr[usingQueryPoint?0:pp.qpos]*qnPtr[usingQueryPoint?0:pp.qpos]+sNorm[trackIndexOffset+pp.spos]*sNorm[trackIndexOffset+pp.spos] - 2*dist; // else // dist = dist; if((!radius) || dist <= (radius+O2_DISTANCE_TOLERANCE)) reporter->add_point(pp.trackID, pp.qpos, pp.spos, dist); } exact_evaluation_queue->pop(); } } // A completely unprotected dot-product method // Caller is responsible for ensuring that memory is within bounds inline double audioDB::dot_product_points(double* q, double* p, Uns32T L){ double dist = 0.0; while(L--) dist += *q++ * *p++; return dist; } void audioDB::query_loop(const char* dbName, Uns32T queryIndex) { unsigned int numVectors; double *query, *query_data; double *qNorm, *qnPtr, *qPower = 0, *qpPtr = 0; double meanQdur; if(query_from_key) set_up_query_from_key(&query_data, &query, &qNorm, &qnPtr, &qPower, &qpPtr, &meanQdur, &numVectors, queryIndex); else set_up_query(&query_data, &query, &qNorm, &qnPtr, &qPower, &qpPtr, &meanQdur, &numVectors); unsigned int dbVectors; double *sNorm, *snPtr, *sPower = 0, *spPtr = 0; double *meanDBdur = 0; set_up_db(&sNorm, &snPtr, &sPower, &spPtr, &meanDBdur, &dbVectors); VERB_LOG(1, "matching tracks..."); assert(pointNN>0 && pointNN<=O2_MAXNN); assert(trackNN>0 && trackNN<=O2_MAXNN); unsigned j,k,track,trackOffset=0, HOP_SIZE=sequenceHop, wL=sequenceLength; double **D = 0; // Differences query and target double **DD = 0; // Matched filter distance D = new double*[numVectors]; // pre-allocate DD = new double*[numVectors]; gettimeofday(&tv1, NULL); unsigned processedTracks = 0; off_t trackIndexOffset; char nextKey[MAXSTR]; // Track loop size_t data_buffer_size = 0; double *data_buffer = 0; lseek(dbfid, dbH->dataOffset, SEEK_SET); for(processedTracks=0, track=0 ; processedTracks < dbH->numFiles ; track++, processedTracks++) { trackOffset = trackOffsetTable[track]; // numDoubles offset // get trackID from file if using a control file if(trackFile) { trackFile->getline(nextKey,MAXSTR); if(!trackFile->eof()) { track = getKeyPos(nextKey); trackOffset = trackOffsetTable[track]; lseek(dbfid, dbH->dataOffset + trackOffset * sizeof(double), SEEK_SET); } else { break; } } // skip identity on query_from_key if( query_from_key && (track == queryIndex) ) { if(queryIndex!=dbH->numFiles-1){ track++; trackOffset = trackOffsetTable[track]; lseek(dbfid, dbH->dataOffset + trackOffset * sizeof(double), SEEK_SET); } else{ break; } } trackIndexOffset=trackOffset/dbH->dim; // numVectors offset read_data(track, &data_buffer, &data_buffer_size); if(sequenceLength <= trackTable[track]) { // test for short sequences VERB_LOG(7,"%u.%jd.%u | ", track, (intmax_t) trackIndexOffset, trackTable[track]); initialize_arrays(track, numVectors, query, data_buffer, D, DD); if(usingTimes) { VERB_LOG(3,"meanQdur=%f meanDBdur=%f\n", meanQdur, meanDBdur[track]); } if((!usingTimes) || fabs(meanDBdur[track]-meanQdur) < meanQdur*timesTol) { if(usingTimes) { VERB_LOG(3,"within duration tolerance.\n"); } // Search for minimum distance by shingles (concatenated vectors) for(j = 0; j <= numVectors - wL; j += HOP_SIZE) { for(k = 0; k <= trackTable[track] - wL; k += HOP_SIZE) { double thisDist; if(normalizedDistance) thisDist = 2-(2/(qnPtr[j]*sNorm[trackIndexOffset+k]))*DD[j][k]; else if(no_unit_norming) thisDist = qnPtr[j]*qnPtr[j]+sNorm[trackIndexOffset+k]*sNorm[trackIndexOffset+k] - 2*DD[j][k]; else thisDist = DD[j][k]; // Power test if ((!usingPower) || powers_acceptable(qpPtr[j], sPower[trackIndexOffset + k])) { // radius test if((!radius) || thisDist <= (radius+O2_DISTANCE_TOLERANCE)) { reporter->add_point(track, usingQueryPoint ? queryPoint : j, k, thisDist); } } } } } // Duration match delete_arrays(track, numVectors, D, DD); } } free(data_buffer); gettimeofday(&tv2,NULL); VERB_LOG(1,"elapsed time: %ld msec\n", (tv2.tv_sec*1000 + tv2.tv_usec/1000) - (tv1.tv_sec*1000 + tv1.tv_usec/1000)) // Clean up if(query_data) delete[] query_data; if(qNorm) delete[] qNorm; if(sNorm) delete[] sNorm; if(qPower) delete[] qPower; if(sPower) delete[] sPower; if(D) delete[] D; if(DD) delete[] DD; if(meanDBdur) delete[] meanDBdur; } // Unit norm block of features void audioDB::unitNorm(double* X, unsigned dim, unsigned n, double* qNorm){ unsigned d; double L2, *p; VERB_LOG(2, "norming %u vectors...", n); while(n--) { p = X; L2 = 0.0; d = dim; while(d--) { L2 += *p * *p; p++; } if(qNorm) { *qNorm++=L2; } X += dim; } VERB_LOG(2, "done.\n"); }