audiodb: audioDB.cpp annotate

annotate audioDB.cpp @ 17:6d899df0cfe4

added Euclidean distance for sequences with -R (--radus) (via dot product of unit norm vectors), re-worked L2-norm behaviour, fixed a load of bugs there, fixed shingle norming. Cosine dist sequence match not working now because of L2 norm behaviour

author	mas01mc
date	Fri, 10 Aug 2007 04:52:33 +0000
parents	c633f3819a49
children	999c9c216565

rev	line source
mas01cr@0	1 /* audioDB.cpp
mas01cr@0	2
mas01cr@0	3 audioDB version 1.0
mas01cr@0	4
mas01cr@0	5 A feature vector database management system for content-based retrieval.
mas01cr@0	6
mas01cr@0	7 Usage: audioDB [OPTIONS]...
mas01cr@0	8
mas01cr@0	9 --full-help Print help, including hidden options, and exit
mas01cr@0	10 -V, --version Print version and exit
mas01cr@0	11 -H, --help print help on audioDB usage and exit.
mas01cr@0	12 -v, --verbosity=detail level of detail of operational information.
mas01cr@0	13 (default=`1')
mas01cr@0	14
mas01cr@0	15 Database Setup:
mas01cr@0	16 All database operations require a database argument.
mas01cr@0	17
mas01cr@0	18 Database commands are UPPER CASE. Command options are lower case.
mas01cr@0	19
mas01cr@0	20 -d, --database=filename database file required by Database commands.
mas01cr@0	21 -N, --NEW make a new (initially empty) database.
mas01cr@0	22 -S, --STATUS output database information to stdout.
mas01cr@0	23 -D, --DUMP output all entries: index key size.
mas01cr@0	24 -L, --L2NORM unit norm vectors and norm all future inserts.
mas01cr@0	25
mas01cr@0	26 Database Insertion:
mas01cr@0	27 The following commands insert feature files, with optional keys and
mas01cr@0	28 timestamps.
mas01cr@0	29
mas01cr@0	30 -I, --INSERT add feature vectors to an existing database.
mas01cr@0	31 -U, --UPDATE replace inserted vectors associated with key
mas01cr@0	32 with new input vectors.
mas01cr@0	33 -f, --features=filename binary series of vectors file {int sz:ieee
mas01cr@0	34 double[][sz]:eof}.
mas01cr@0	35 -t, --times=filename list of time points (ascii) for feature vectors.
mas01cr@0	36 -k, --key=identifier unique identifier associated with features.
mas01cr@0	37
mas01cr@0	38 -B, --BATCHINSERT add feature vectors named in a --featureList
mas01cr@0	39 file (with optional keys in a --keyList file)
mas01cr@0	40 to the named database.
mas01cr@0	41 -F, --featureList=filename text file containing list of binary feature
mas01cr@0	42 vector files to process
mas01cr@0	43 -T, --timesList=filename text file containing list of ascii --times for
mas01cr@0	44 each --features file in --featureList.
mas01cr@0	45 -K, --keyList=filename text file containing list of unique identifiers
mas01cr@0	46 associated with --features.
mas01cr@0	47
mas01cr@0	48 Database Search:
mas01cr@0	49 Thse commands control the retrieval behaviour.
mas01cr@0	50
mas01cr@0	51 -Q, --QUERY=searchtype content-based search on --database using
mas01cr@0	52 --features as a query. Optionally restrict the
mas01cr@0	53 search to those segments identified in a
mas01cr@0	54 --keyList. (possible values="point",
mas01cr@0	55 "segment", "sequence")
mas01cr@0	56 -p, --qpoint=position ordinal position of query start point in
mas01cr@0	57 --features file. (default=`0')
mas01cr@0	58 -e, --exhaustive exhaustive search: iterate through all query
mas01cr@0	59 vectors in search. Overrides --qpoint.
mas01cr@0	60 (default=off)
mas01cr@0	61 -n, --pointnn=numpoints number of point nearest neighbours to use in
mas01cr@0	62 retrieval. (default=`10')
mas01cr@0	63 -R, --radius=DOUBLE radius search, returns all
mas01cr@0	64 points/segments/sequences inside given radius.
mas01cr@0	65 (default=`1.0')
mas01cr@0	66 -x, --expandfactor=DOUBLE time compress/expand factor of result length to
mas01cr@0	67 query length [1.0 .. 100.0]. (default=`1.1')
mas01cr@0	68 -o, --rotate rotate query vectors for rotationally invariant
mas01cr@0	69 search. (default=off)
mas01cr@0	70 -r, --resultlength=length maximum length of the result list.
mas01cr@0	71 (default=`10')
mas01cr@0	72 -l, --sequencelength=length length of sequences for sequence search.
mas01cr@0	73 (default=`16')
mas01cr@0	74 -h, --sequencehop=hop hop size of sequence window for sequence search.
mas01cr@0	75 (default=`1')
mas01cr@0	76
mas01cr@0	77 Web Services:
mas01cr@0	78 These commands enable the database process to establish a connection via the
mas01cr@0	79 internet and operate as separate client and server processes.
mas01cr@0	80
mas01cr@0	81 -s, --SERVER=port run as standalone web service on named port.
mas01cr@0	82 (default=`80011')
mas01cr@0	83 -c, --client=hostname:port run as a client using named host service.
mas01cr@0	84
mas01cr@0	85 Copyright (C) 2007 Michael Casey, Goldsmiths, University of London
mas01cr@0	86
mas01cr@0	87 outputs:
mas01cr@0	88
mas01cr@0	89 key1 distance1 qpos1 spos1
mas01cr@0	90 key2 distance2 qpos2 spos2
mas01cr@0	91 ...
mas01cr@0	92 keyN distanceN qposN sposN
mas01cr@0	93
mas01cr@0	94 */
mas01cr@0	95
mas01cr@0	96 #include "audioDB.h"
mas01cr@0	97
mas01cr@0	98 #define O2_DEBUG
mas01cr@0	99
mas01cr@0	100 void audioDB::error(const char* a, const char* b){
mas01cr@0	101 cerr << a << ":" << b << endl;
mas01cr@0	102 exit(1);
mas01cr@0	103 }
mas01cr@0	104
mas01cr@0	105 audioDB::audioDB(const unsigned argc, char* const argv[], adb__queryResult *adbQueryResult):
mas01cr@0	106 dim(0),
mas01cr@0	107 dbName(0),
mas01cr@0	108 inFile(0),
mas01cr@0	109 key(0),
mas01cr@0	110 segFile(0),
mas01cr@0	111 segFileName(0),
mas01cr@0	112 timesFile(0),
mas01cr@0	113 timesFileName(0),
mas01cr@0	114 usingTimes(0),
mas01cr@0	115 command(0),
mas01cr@0	116 dbfid(0),
mas01cr@0	117 db(0),
mas01cr@0	118 dbH(0),
mas01cr@0	119 infid(0),
mas01cr@0	120 indata(0),
mas01cr@0	121 queryType(O2_FLAG_POINT_QUERY),
mas01cr@0	122 verbosity(1),
mas01cr@0	123 pointNN(O2_DEFAULT_POINTNN),
mas01cr@0	124 segNN(O2_DEFAULT_SEGNN),
mas01cr@0	125 segTable(0),
mas01cr@0	126 fileTable(0),
mas01cr@0	127 dataBuf(0),
mas01cr@0	128 l2normTable(0),
mas01cr@0	129 timesTable(0),
mas01cr@0	130 qNorm(0),
mas01cr@0	131 sequenceLength(16),
mas01cr@0	132 sequenceHop(1),
mas01cr@0	133 queryPoint(0),
mas01cr@0	134 usingQueryPoint(0),
mas01cr@0	135 isClient(0),
mas01cr@0	136 isServer(0),
mas01cr@0	137 port(0),
mas01mc@17	138 timesTol(0.1),
mas01mc@17	139 radius(0){
mas01cr@0	140
mas01cr@0	141 if(processArgs(argc, argv)<0){
mas01cr@0	142 printf("No command found.\n");
mas01cr@0	143 cmdline_parser_print_version ();
mas01cr@0	144 if (strlen(gengetopt_args_info_purpose) > 0)
mas01cr@0	145 printf("%s\n", gengetopt_args_info_purpose);
mas01cr@0	146 printf("%s\n", gengetopt_args_info_usage);
mas01cr@0	147 printf("%s\n", gengetopt_args_info_help[1]);
mas01cr@0	148 printf("%s\n", gengetopt_args_info_help[2]);
mas01cr@0	149 printf("%s\n", gengetopt_args_info_help[0]);
mas01cr@0	150 exit(1);
mas01cr@0	151 }
mas01cr@0	152
mas01cr@0	153 if(O2_ACTION(COM_SERVER))
mas01cr@0	154 startServer();
mas01cr@0	155
mas01cr@0	156 else if(O2_ACTION(COM_CREATE))
mas01cr@0	157 create(dbName);
mas01cr@0	158
mas01cr@0	159 else if(O2_ACTION(COM_INSERT))
mas01cr@0	160 insert(dbName, inFile);
mas01cr@0	161
mas01cr@0	162 else if(O2_ACTION(COM_BATCHINSERT))
mas01cr@0	163 batchinsert(dbName, inFile);
mas01cr@0	164
mas01cr@0	165 else if(O2_ACTION(COM_QUERY))
mas01cr@0	166 if(isClient)
mas01cr@0	167 ws_query(dbName, inFile, (char*)hostport);
mas01cr@0	168 else
mas01cr@0	169 query(dbName, inFile, adbQueryResult);
mas01cr@0	170
mas01cr@0	171 else if(O2_ACTION(COM_STATUS))
mas01cr@0	172 if(isClient)
mas01cr@0	173 ws_status(dbName,(char*)hostport);
mas01cr@0	174 else
mas01cr@0	175 status(dbName);
mas01cr@0	176
mas01cr@0	177 else if(O2_ACTION(COM_L2NORM))
mas01cr@0	178 l2norm(dbName);
mas01cr@0	179
mas01cr@0	180 else if(O2_ACTION(COM_DUMP))
mas01cr@0	181 dump(dbName);
mas01cr@0	182
mas01cr@0	183 else
mas01cr@0	184 error("Unrecognized command",command);
mas01cr@0	185 }
mas01cr@0	186
mas01cr@0	187 audioDB::~audioDB(){
mas01cr@0	188 // Clean up
mas01cr@0	189 if(indata)
mas01cr@0	190 munmap(indata,statbuf.st_size);
mas01cr@0	191 if(db)
mas01cr@0	192 munmap(db,O2_DEFAULTDBSIZE);
mas01cr@0	193 if(dbfid>0)
mas01cr@0	194 close(dbfid);
mas01cr@0	195 if(infid>0)
mas01cr@0	196 close(infid);
mas01cr@0	197 if(dbH)
mas01cr@0	198 delete dbH;
mas01cr@0	199 }
mas01cr@0	200
mas01cr@0	201 int audioDB::processArgs(const unsigned argc, char* const argv[]){
mas01cr@0	202
mas01cr@0	203 if(argc<2){
mas01cr@0	204 cmdline_parser_print_version ();
mas01cr@0	205 if (strlen(gengetopt_args_info_purpose) > 0)
mas01cr@0	206 printf("%s\n", gengetopt_args_info_purpose);
mas01cr@0	207 printf("%s\n", gengetopt_args_info_usage);
mas01cr@0	208 printf("%s\n", gengetopt_args_info_help[1]);
mas01cr@0	209 printf("%s\n", gengetopt_args_info_help[2]);
mas01cr@0	210 printf("%s\n", gengetopt_args_info_help[0]);
mas01cr@0	211 exit(0);
mas01cr@0	212 }
mas01cr@0	213
mas01cr@0	214 if (cmdline_parser (argc, argv, &args_info) != 0)
mas01cr@0	215 exit(1) ;
mas01cr@0	216
mas01cr@0	217 if(args_info.help_given){
mas01cr@0	218 cmdline_parser_print_help();
mas01cr@0	219 exit(0);
mas01cr@0	220 }
mas01cr@0	221
mas01cr@0	222 if(args_info.verbosity_given){
mas01cr@0	223 verbosity=args_info.verbosity_arg;
mas01cr@0	224 if(verbosity<0 \|\| verbosity>10){
mas01cr@0	225 cerr << "Warning: verbosity out of range, setting to 1" << endl;
mas01cr@0	226 verbosity=1;
mas01cr@0	227 }
mas01cr@0	228 }
mas01cr@0	229
mas01mc@17	230 if(args_info.radius_given){
mas01mc@17	231 radius=args_info.radius_arg;
mas01mc@17	232 if(radius<=0 \|\| radius>1000000000){
mas01mc@17	233 cerr << "Warning: radius out of range" << endl;
mas01mc@17	234 exit(1);
mas01mc@17	235 }
mas01mc@17	236 else
mas01mc@17	237 if(verbosity>3)
mas01mc@17	238 cerr << "Setting radius to " << radius << endl;
mas01mc@17	239 }
mas01mc@17	240
mas01cr@0	241 if(args_info.SERVER_given){
mas01cr@0	242 command=COM_SERVER;
mas01cr@0	243 port=args_info.SERVER_arg;
mas01cr@0	244 if(port<100 \|\| port > 100000)
mas01cr@0	245 error("port out of range");
mas01cr@0	246 isServer=1;
mas01cr@0	247 return 0;
mas01cr@0	248 }
mas01cr@0	249
mas01cr@0	250 // No return on client command, find database command
mas01cr@0	251 if(args_info.client_given){
mas01cr@0	252 command=COM_CLIENT;
mas01cr@0	253 hostport=args_info.client_arg;
mas01cr@0	254 isClient=1;
mas01cr@0	255 }
mas01cr@0	256
mas01cr@0	257 if(args_info.NEW_given){
mas01cr@0	258 command=COM_CREATE;
mas01cr@0	259 dbName=args_info.database_arg;
mas01cr@0	260 return 0;
mas01cr@0	261 }
mas01cr@0	262
mas01cr@0	263 if(args_info.STATUS_given){
mas01cr@0	264 command=COM_STATUS;
mas01cr@0	265 dbName=args_info.database_arg;
mas01cr@0	266 return 0;
mas01cr@0	267 }
mas01cr@0	268
mas01cr@0	269 if(args_info.DUMP_given){
mas01cr@0	270 command=COM_DUMP;
mas01cr@0	271 dbName=args_info.database_arg;
mas01cr@0	272 return 0;
mas01cr@0	273 }
mas01cr@0	274
mas01cr@0	275 if(args_info.L2NORM_given){
mas01cr@0	276 command=COM_L2NORM;
mas01cr@0	277 dbName=args_info.database_arg;
mas01cr@0	278 return 0;
mas01cr@0	279 }
mas01cr@0	280
mas01cr@0	281 if(args_info.INSERT_given){
mas01cr@0	282 command=COM_INSERT;
mas01cr@0	283 dbName=args_info.database_arg;
mas01cr@0	284 inFile=args_info.features_arg;
mas01cr@0	285 if(args_info.key_given)
mas01cr@0	286 key=args_info.key_arg;
mas01cr@0	287 if(args_info.times_given){
mas01cr@0	288 timesFileName=args_info.times_arg;
mas01cr@0	289 if(strlen(timesFileName)>0){
mas01cr@0	290 if(!(timesFile = new ifstream(timesFileName,ios::in)))
mas01cr@0	291 error("Could not open times file for reading", timesFileName);
mas01cr@0	292 usingTimes=1;
mas01cr@0	293 }
mas01cr@0	294 }
mas01cr@0	295 return 0;
mas01cr@0	296 }
mas01mc@10	297
mas01cr@0	298 if(args_info.BATCHINSERT_given){
mas01cr@0	299 command=COM_BATCHINSERT;
mas01cr@0	300 dbName=args_info.database_arg;
mas01cr@0	301 inFile=args_info.featureList_arg;
mas01cr@0	302 if(args_info.keyList_given)
mas01cr@0	303 key=args_info.keyList_arg; // INCONSISTENT NO CHECK
mas01cr@0	304
mas01cr@0	305 /* TO DO: REPLACE WITH
mas01cr@0	306 if(args_info.keyList_given){
mas01cr@0	307 segFileName=args_info.keyList_arg;
mas01cr@0	308 if(strlen(segFileName)>0 && !(segFile = new ifstream(segFileName,ios::in)))
mas01cr@0	309 error("Could not open keyList file for reading",segFileName);
mas01cr@0	310 }
mas01cr@0	311 AND UPDATE BATCHINSERT()
mas01cr@0	312 */
mas01cr@0	313
mas01cr@0	314 if(args_info.timesList_given){
mas01cr@0	315 timesFileName=args_info.timesList_arg;
mas01cr@0	316 if(strlen(timesFileName)>0){
mas01cr@0	317 if(!(timesFile = new ifstream(timesFileName,ios::in)))
mas01cr@0	318 error("Could not open timesList file for reading", timesFileName);
mas01cr@0	319 usingTimes=1;
mas01cr@0	320 }
mas01cr@0	321 }
mas01cr@0	322 return 0;
mas01cr@0	323 }
mas01cr@0	324
mas01cr@0	325 // Query command and arguments
mas01cr@0	326 if(args_info.QUERY_given){
mas01cr@0	327 command=COM_QUERY;
mas01cr@0	328 dbName=args_info.database_arg;
mas01cr@0	329 inFile=args_info.features_arg;
mas01cr@0	330
mas01cr@0	331 if(args_info.keyList_given){
mas01cr@0	332 segFileName=args_info.keyList_arg;
mas01cr@0	333 if(strlen(segFileName)>0 && !(segFile = new ifstream(segFileName,ios::in)))
mas01cr@0	334 error("Could not open keyList file for reading",segFileName);
mas01cr@0	335 }
mas01cr@0	336
mas01cr@0	337 if(args_info.times_given){
mas01cr@0	338 timesFileName=args_info.times_arg;
mas01cr@0	339 if(strlen(timesFileName)>0){
mas01cr@0	340 if(!(timesFile = new ifstream(timesFileName,ios::in)))
mas01cr@0	341 error("Could not open times file for reading", timesFileName);
mas01cr@0	342 usingTimes=1;
mas01cr@0	343 }
mas01cr@0	344 }
mas01cr@0	345
mas01cr@0	346 // query type
mas01cr@0	347 if(strncmp(args_info.QUERY_arg, "segment", MAXSTR)==0)
mas01cr@0	348 queryType=O2_FLAG_SEG_QUERY;
mas01cr@0	349 else if(strncmp(args_info.QUERY_arg, "point", MAXSTR)==0)
mas01cr@0	350 queryType=O2_FLAG_POINT_QUERY;
mas01cr@0	351 else if(strncmp(args_info.QUERY_arg, "sequence", MAXSTR)==0)
mas01cr@0	352 queryType=O2_FLAG_SEQUENCE_QUERY;
mas01cr@0	353 else
mas01cr@0	354 error("unsupported query type",args_info.QUERY_arg);
mas01cr@0	355
mas01cr@0	356 if(!args_info.exhaustive_flag){
mas01cr@0	357 queryPoint = args_info.qpoint_arg;
mas01cr@0	358 usingQueryPoint=1;
mas01cr@0	359 if(queryPoint<0 \|\| queryPoint >10000)
mas01cr@0	360 error("queryPoint out of range: 0 <= queryPoint <= 10000");
mas01cr@0	361 }
mas01cr@0	362
mas01cr@0	363
mas01cr@0	364 pointNN=args_info.pointnn_arg;
mas01cr@0	365 if(pointNN<1 \|\| pointNN >1000)
mas01cr@0	366 error("pointNN out of range: 1 <= pointNN <= 1000");
mas01cr@0	367
mas01cr@0	368
mas01cr@0	369
mas01cr@0	370 segNN=args_info.resultlength_arg;
mas01mc@17	371 if(segNN<1 \|\| segNN >10000)
mas01cr@0	372 error("resultlength out of range: 1 <= resultlength <= 1000");
mas01cr@0	373
mas01cr@0	374
mas01cr@0	375 sequenceLength=args_info.sequencelength_arg;
mas01cr@0	376 if(sequenceLength<1 \|\| sequenceLength >1000)
mas01cr@0	377 error("seqlen out of range: 1 <= seqlen <= 1000");
mas01cr@0	378
mas01cr@0	379 sequenceHop=args_info.sequencehop_arg;
mas01cr@0	380 if(sequenceHop<1 \|\| sequenceHop >1000)
mas01cr@0	381 error("seqhop out of range: 1 <= seqhop <= 1000");
mas01cr@0	382
mas01cr@0	383 return 0;
mas01cr@0	384 }
mas01cr@0	385 return -1; // no command found
mas01cr@0	386 }
mas01cr@0	387
mas01cr@0	388 /* Make a new database
mas01cr@0	389
mas01cr@0	390 The database consists of:
mas01cr@0	391
mas01cr@0	392 header
mas01cr@0	393 ---------------------------------------------------------------------------------
mas01cr@0	394 \| magic 4 bytes\| numFiles 4 bytes \| dim 4 bytes \| length 4 bytes \|flags 4 bytes \|
mas01cr@0	395 ---------------------------------------------------------------------------------
mas01cr@0	396
mas01cr@0	397
mas01cr@0	398 keyTable : list of keys of segments
mas01cr@0	399 --------------------------------------------------------------------------
mas01cr@0	400 \| key 256 bytes \|
mas01cr@0	401 --------------------------------------------------------------------------
mas01cr@0	402 O2_MAXFILES*02_FILENAMELENGTH
mas01cr@0	403
mas01cr@0	404 segTable : Maps implicit feature index to a feature vector matrix
mas01cr@0	405 --------------------------------------------------------------------------
mas01cr@0	406 \| numVectors (4 bytes) \|
mas01cr@0	407 --------------------------------------------------------------------------
mas01cr@0	408 O2_MAXFILES * 02_MEANNUMFEATURES * sizeof(INT)
mas01cr@0	409
mas01cr@0	410 featureTable
mas01cr@0	411 --------------------------------------------------------------------------
mas01cr@0	412 \| v1 v2 v3 ... vd (double) \|
mas01cr@0	413 --------------------------------------------------------------------------
mas01cr@0	414 O2_MAXFILES * 02_MEANNUMFEATURES * DIM * sizeof(DOUBLE)
mas01cr@0	415
mas01cr@0	416 timesTable
mas01cr@0	417 --------------------------------------------------------------------------
mas01cr@0	418 \| timestamp (double) \|
mas01cr@0	419 --------------------------------------------------------------------------
mas01cr@0	420 O2_MAXFILES * 02_MEANNUMFEATURES * sizeof(DOUBLE)
mas01cr@0	421
mas01cr@0	422 l2normTable
mas01cr@0	423 --------------------------------------------------------------------------
mas01cr@0	424 \| nm (double) \|
mas01cr@0	425 --------------------------------------------------------------------------
mas01cr@0	426 O2_MAXFILES * 02_MEANNUMFEATURES * sizeof(DOUBLE)
mas01cr@0	427
mas01cr@0	428 */
mas01cr@0	429
mas01cr@0	430 void audioDB::create(const char* dbName){
mas01cr@8	431 if ((dbfid = open (dbName, O_RDWR\|O_CREAT\|O_TRUNC, S_IRUSR\|S_IWUSR\|S_IRGRP\|S_IWGRP\|S_IROTH\|S_IWOTH)) < 0)
mas01cr@8	432 error("Can't open database file", dbName);
mas01cr@0	433
mas01cr@0	434 // go to the location corresponding to the last byte
mas01cr@0	435 if (lseek (dbfid, O2_DEFAULTDBSIZE - 1, SEEK_SET) == -1)
mas01cr@0	436 error("lseek error in db file");
mas01cr@0	437
mas01cr@0	438 // write a dummy byte at the last location
mas01cr@0	439 if (write (dbfid, "", 1) != 1)
mas01cr@0	440 error("write error");
mas01cr@0	441
mas01cr@0	442 // mmap the output file
mas01cr@0	443 if(verbosity)
mas01cr@0	444 cerr << "header size:" << O2_HEADERSIZE << endl;
mas01cr@0	445 if ((db = (char*) mmap(0, O2_DEFAULTDBSIZE, PROT_READ \| PROT_WRITE,
mas01cr@0	446 MAP_SHARED, dbfid, 0)) == (caddr_t) -1)
mas01cr@0	447 error("mmap error for creating database");
mas01cr@0	448
mas01cr@0	449 dbH = new dbTableHeaderT();
mas01cr@0	450 assert(dbH);
mas01cr@0	451
mas01cr@0	452 // Initialize header
mas01cr@0	453 dbH->magic=O2_MAGIC;
mas01cr@0	454 dbH->numFiles=0;
mas01cr@0	455 dbH->length=0;
mas01cr@0	456 dbH->dim=0;
mas01cr@0	457 dbH->flags=0; //O2_FLAG_L2NORM;
mas01cr@0	458
mas01cr@0	459 memcpy (db, dbH, O2_HEADERSIZE);
mas01cr@0	460 if(verbosity)
mas01cr@0	461 cerr << COM_CREATE << " " << dbName << endl;
mas01cr@0	462
mas01cr@0	463 }
mas01cr@0	464
mas01cr@0	465
mas01cr@0	466 void audioDB::drop(){
mas01cr@0	467
mas01cr@0	468
mas01cr@0	469 }
mas01cr@0	470
mas01cr@0	471 // initTables - memory map files passed as arguments
mas01cr@0	472 // Precondition: database has already been created
mas01cr@0	473 void audioDB::initTables(const char* dbName, const char* inFile=0){
mas01cr@0	474 if ((dbfid = open (dbName, O_RDWR)) < 0)
mas01cr@0	475 error("Can't open database file:", dbName);
mas01cr@0	476
mas01cr@0	477 // open the input file
mas01cr@0	478 if (inFile && (infid = open (inFile, O_RDONLY)) < 0)
mas01cr@9	479 error("can't open input file for reading", inFile);
mas01cr@0	480
mas01cr@0	481 // find size of input file
mas01cr@0	482 if (inFile && fstat (infid,&statbuf) < 0)
mas01cr@0	483 error("fstat error finding size of input");
mas01cr@0	484
mas01cr@0	485 // Get the database header info
mas01cr@0	486 dbH = new dbTableHeaderT();
mas01cr@0	487 assert(dbH);
mas01cr@0	488
mas01cr@0	489 if(read(dbfid,(char*)dbH,sizeof(dbTableHeaderT))!=sizeof(dbTableHeaderT))
mas01cr@0	490 error("error reading db header");
mas01cr@0	491
mas01cr@0	492 fileTableOffset = O2_HEADERSIZE;
mas01cr@0	493 segTableOffset = fileTableOffset + O2_FILETABLESIZE*O2_MAXFILES;
mas01cr@0	494 dataoffset = segTableOffset + O2_SEGTABLESIZE*O2_MAXFILES;
mas01cr@0	495 l2normTableOffset = O2_DEFAULTDBSIZE - O2_MAXFILESO2_MEANNUMVECTORSsizeof(double);
mas01cr@0	496 timesTableOffset = l2normTableOffset - O2_MAXFILESO2_MEANNUMVECTORSsizeof(double);
mas01cr@0	497
mas01cr@0	498 if(dbH->magic!=O2_MAGIC){
mas01cr@0	499 cerr << "expected: " << O2_MAGIC << ", got:" << dbH->magic << endl;
mas01cr@0	500 error("database file has incorrect header",dbName);
mas01cr@0	501 }
mas01cr@0	502
mas01cr@0	503 if(inFile)
mas01cr@0	504 if(dbH->dim==0 && dbH->length==0) // empty database
mas01cr@0	505 read(infid,&dbH->dim,sizeof(unsigned)); // initialize with input dimensionality
mas01cr@0	506 else {
mas01cr@0	507 unsigned test;
mas01cr@0	508 read(infid,&test,sizeof(unsigned));
mas01cr@0	509 if(dbH->dim!=test){
mas01cr@0	510 cerr << "error: expected dimension: " << dbH->dim << ", got :" << test <<endl;
mas01cr@0	511 error("feature dimensions do not match database table dimensions");
mas01cr@0	512 }
mas01cr@0	513 }
mas01cr@0	514
mas01cr@0	515 // mmap the input file
mas01cr@0	516 if (inFile && (indata = (char*)mmap (0, statbuf.st_size, PROT_READ, MAP_SHARED, infid, 0))
mas01cr@0	517 == (caddr_t) -1)
mas01cr@0	518 error("mmap error for input");
mas01cr@0	519
mas01cr@0	520 // mmap the database file
mas01cr@0	521 if ((db = (char*) mmap(0, O2_DEFAULTDBSIZE, PROT_READ \| PROT_WRITE,
mas01cr@0	522 MAP_SHARED, dbfid, 0)) == (caddr_t) -1)
mas01cr@0	523 error("mmap error for creating database");
mas01cr@0	524
mas01cr@0	525 // Make some handy tables with correct types
mas01cr@0	526 fileTable= (char*)(db+fileTableOffset);
mas01cr@0	527 segTable = (unsigned*)(db+segTableOffset);
mas01cr@0	528 dataBuf = (double*)(db+dataoffset);
mas01cr@0	529 l2normTable = (double*)(db+l2normTableOffset);
mas01cr@0	530 timesTable = (double*)(db+timesTableOffset);
mas01cr@0	531
mas01cr@0	532 }
mas01cr@0	533
mas01cr@0	534 void audioDB::insert(const char* dbName, const char* inFile){
mas01cr@0	535
mas01cr@0	536 initTables(dbName, inFile);
mas01cr@0	537
mas01cr@0	538 if(!usingTimes && (dbH->flags & O2_FLAG_TIMES))
mas01cr@0	539 error("Must use timestamps with timestamped database","use --times");
mas01cr@0	540
mas01cr@0	541 // Check that there is room for at least 1 more file
mas01cr@0	542 if((char)timesTable<((char)dataBuf+dbH->length+statbuf.st_size-sizeof(int)))
mas01cr@0	543 error("No more room in database","insert failed: reason database is full.");
mas01cr@0	544
mas01cr@0	545 if(!key)
mas01cr@0	546 key=inFile;
mas01cr@0	547 // Linear scan of filenames check for pre-existing feature
mas01cr@0	548 unsigned alreadyInserted=0;
mas01cr@0	549 for(unsigned k=0; k<dbH->numFiles; k++)
mas01cr@0	550 if(strncmp(fileTable + k*O2_FILETABLESIZE, key, strlen(key))==0){
mas01cr@0	551 alreadyInserted=1;
mas01cr@0	552 break;
mas01cr@0	553 }
mas01cr@0	554
mas01cr@0	555 if(alreadyInserted){
mas01cr@0	556 if(verbosity)
mas01cr@0	557 cerr << "Warning: key already exists in database, ignoring: " <<inFile << endl;
mas01cr@0	558 return;
mas01cr@0	559 }
mas01cr@0	560
mas01cr@0	561 // Make a segment index table of features to file indexes
mas01cr@0	562 unsigned numVectors = (statbuf.st_size-sizeof(int))/(sizeof(double)*dbH->dim);
mas01cr@0	563 if(!numVectors){
mas01cr@0	564 if(verbosity)
mas01cr@0	565 cerr << "Warning: ignoring zero-length feature vector file:" << key << endl;
mas01cr@0	566 // CLEAN UP
mas01cr@0	567 munmap(indata,statbuf.st_size);
mas01cr@0	568 munmap(db,O2_DEFAULTDBSIZE);
mas01cr@0	569 close(infid);
mas01cr@0	570 return;
mas01cr@0	571 }
mas01cr@0	572
mas01cr@0	573 strncpy(fileTable + dbH->numFiles*O2_FILETABLESIZE, key, strlen(key));
mas01cr@0	574
mas01cr@0	575 unsigned insertoffset = dbH->length;// Store current state
mas01cr@0	576
mas01cr@0	577 // Check times status and insert times from file
mas01cr@0	578 unsigned timesoffset=insertoffset/(dbH->dim*sizeof(double));
mas01cr@0	579 double* timesdata=timesTable+timesoffset;
mas01cr@0	580 assert(timesdata+numVectors<l2normTable);
mas01cr@0	581 insertTimeStamps(numVectors, timesFile, timesdata);
mas01cr@0	582
mas01cr@0	583 // Increment file count
mas01cr@0	584 dbH->numFiles++;
mas01cr@0	585
mas01cr@0	586 // Update Header information
mas01cr@0	587 dbH->length+=(statbuf.st_size-sizeof(int));
mas01cr@0	588
mas01cr@0	589 // Copy the header back to the database
mas01cr@0	590 memcpy (db, dbH, sizeof(dbTableHeaderT));
mas01cr@0	591
mas01cr@0	592 // Update segment to file index map
mas01cr@0	593 //memcpy (db+segTableOffset+(dbH->numFiles-1)*sizeof(unsigned), &numVectors, sizeof(unsigned));
mas01cr@0	594 memcpy (segTable+dbH->numFiles-1, &numVectors, sizeof(unsigned));
mas01cr@0	595
mas01cr@0	596 // Update the feature database
mas01cr@0	597 memcpy (db+dataoffset+insertoffset, indata+sizeof(int), statbuf.st_size-sizeof(int));
mas01cr@0	598
mas01cr@0	599 // Norm the vectors on input if the database is already L2 normed
mas01cr@0	600 if(dbH->flags & O2_FLAG_L2NORM)
mas01cr@0	601 unitNormAndInsertL2((double*)(db+dataoffset+insertoffset), dbH->dim, numVectors, 1); // append
mas01cr@0	602
mas01cr@0	603 // Report status
mas01cr@0	604 status(dbName);
mas01cr@0	605 if(verbosity)
mas01cr@0	606 cerr << COM_INSERT << " " << dbName << " " << numVectors << " vectors "
mas01cr@0	607 << (statbuf.st_size-sizeof(int)) << " bytes." << endl;
mas01cr@0	608
mas01cr@0	609 // CLEAN UP
mas01cr@0	610 munmap(indata,statbuf.st_size);
mas01cr@0	611 close(infid);
mas01cr@0	612 }
mas01cr@0	613
mas01cr@0	614 void audioDB::insertTimeStamps(unsigned numVectors, ifstream* timesFile, double* timesdata){
mas01cr@0	615 unsigned numtimes=0;
mas01cr@0	616 if(usingTimes){
mas01cr@0	617 if(!(dbH->flags & O2_FLAG_TIMES) && !dbH->numFiles)
mas01cr@0	618 dbH->flags=dbH->flags\|O2_FLAG_TIMES;
mas01cr@0	619 else if(!(dbH->flags&O2_FLAG_TIMES)){
mas01cr@0	620 cerr << "Warning: timestamp file used with non time-stamped database: ignoring timestamps" << endl;
mas01cr@0	621 usingTimes=0;
mas01cr@0	622 }
mas01cr@0	623
mas01cr@0	624 if(!timesFile->is_open()){
mas01cr@0	625 if(dbH->flags & O2_FLAG_TIMES){
mas01cr@0	626 munmap(indata,statbuf.st_size);
mas01cr@0	627 munmap(db,O2_DEFAULTDBSIZE);
mas01cr@0	628 error("problem opening times file on timestamped database",timesFileName);
mas01cr@0	629 }
mas01cr@0	630 else{
mas01cr@0	631 cerr << "Warning: problem opening times file. But non-timestamped database, so ignoring times file." << endl;
mas01cr@0	632 usingTimes=0;
mas01cr@0	633 }
mas01cr@0	634 }
mas01cr@0	635
mas01cr@0	636 // Process time file
mas01cr@0	637 if(usingTimes){
mas01cr@0	638 do{
mas01cr@0	639 timesFile>>timesdata++;
mas01cr@0	640 if(timesFile->eof())
mas01cr@0	641 break;
mas01cr@0	642 numtimes++;
mas01cr@0	643 }while(!timesFile->eof() && numtimes<numVectors);
mas01cr@0	644 if(!timesFile->eof()){
mas01cr@0	645 double dummy;
mas01cr@0	646 do{
mas01cr@0	647 *timesFile>>dummy;
mas01cr@0	648 if(timesFile->eof())
mas01cr@0	649 break;
mas01cr@0	650 numtimes++;
mas01cr@0	651 }while(!timesFile->eof());
mas01cr@0	652 }
mas01cr@0	653 if(numtimes<numVectors \|\| numtimes>numVectors+2){
mas01cr@0	654 munmap(indata,statbuf.st_size);
mas01cr@0	655 munmap(db,O2_DEFAULTDBSIZE);
mas01cr@0	656 close(infid);
mas01cr@0	657 cerr << "expected " << numVectors << " found " << numtimes << endl;
mas01cr@0	658 error("Times file is incorrect length for features file",inFile);
mas01cr@0	659 }
mas01cr@0	660 if(verbosity>2)
mas01cr@0	661 cerr << "numtimes: " << numtimes << endl;
mas01cr@0	662 }
mas01cr@0	663 }
mas01cr@0	664 }
mas01cr@0	665
mas01cr@0	666 void audioDB::batchinsert(const char* dbName, const char* inFile){
mas01cr@0	667
mas01cr@0	668 if ((dbfid = open (dbName, O_RDWR)) < 0)
mas01cr@0	669 error("Can't open database file:", dbName);
mas01cr@0	670
mas01cr@0	671 if(!key)
mas01cr@0	672 key=inFile;
mas01cr@0	673 ifstream *filesIn = 0;
mas01cr@0	674 ifstream *keysIn = 0;
mas01cr@0	675 ifstream* thisTimesFile = 0;
mas01cr@0	676
mas01cr@0	677 if(!(filesIn = new ifstream(inFile)))
mas01cr@0	678 error("Could not open batch in file", inFile);
mas01cr@0	679 if(key && key!=inFile)
mas01cr@0	680 if(!(keysIn = new ifstream(key)))
mas01cr@0	681 error("Could not open batch key file",key);
mas01cr@0	682
mas01cr@0	683 // Get the database header info
mas01cr@0	684 dbH = new dbTableHeaderT();
mas01cr@0	685 assert(dbH);
mas01cr@0	686
mas01cr@0	687 if(read(dbfid,(char*)dbH,sizeof(dbTableHeaderT))!=sizeof(dbTableHeaderT))
mas01cr@0	688 error("error reading db header");
mas01cr@0	689
mas01cr@0	690 if(!usingTimes && (dbH->flags & O2_FLAG_TIMES))
mas01cr@0	691 error("Must use timestamps with timestamped database","use --times");
mas01cr@0	692
mas01cr@0	693 fileTableOffset = O2_HEADERSIZE;
mas01cr@0	694 segTableOffset = fileTableOffset + O2_FILETABLESIZE*O2_MAXFILES;
mas01cr@0	695 dataoffset = segTableOffset + O2_SEGTABLESIZE*O2_MAXFILES;
mas01cr@0	696 l2normTableOffset = O2_DEFAULTDBSIZE - O2_MAXFILESO2_MEANNUMVECTORSsizeof(double);
mas01cr@0	697 timesTableOffset = l2normTableOffset - O2_MAXFILESO2_MEANNUMVECTORSsizeof(double);
mas01cr@0	698
mas01cr@0	699 if(dbH->magic!=O2_MAGIC){
mas01cr@0	700 cerr << "expected:" << O2_MAGIC << ", got:" << dbH->magic << endl;
mas01cr@0	701 error("database file has incorrect header",dbName);
mas01cr@0	702 }
mas01cr@0	703
mas01cr@0	704
mas01cr@0	705 unsigned totalVectors=0;
mas01cr@0	706 char *thisKey = new char[MAXSTR];
mas01cr@0	707 char *thisFile = new char[MAXSTR];
mas01cr@0	708 char *thisTimesFileName = new char[MAXSTR];
mas01cr@0	709
mas01cr@0	710 do{
mas01cr@0	711 filesIn->getline(thisFile,MAXSTR);
mas01cr@0	712 if(key && key!=inFile)
mas01cr@0	713 keysIn->getline(thisKey,MAXSTR);
mas01cr@0	714 else
mas01cr@0	715 thisKey = thisFile;
mas01cr@0	716 if(usingTimes)
mas01cr@0	717 timesFile->getline(thisTimesFileName,MAXSTR);
mas01cr@0	718
mas01cr@0	719 if(filesIn->eof())
mas01cr@0	720 break;
mas01cr@0	721
mas01cr@0	722 // open the input file
mas01cr@0	723 if (thisFile && (infid = open (thisFile, O_RDONLY)) < 0)
mas01cr@0	724 error("can't open feature file for reading", thisFile);
mas01cr@0	725
mas01cr@0	726 // find size of input file
mas01cr@0	727 if (thisFile && fstat (infid,&statbuf) < 0)
mas01cr@0	728 error("fstat error finding size of input");
mas01cr@0	729
mas01mc@11	730 // mmap the database file
mas01mc@11	731 if ((db = (char*) mmap(0, O2_DEFAULTDBSIZE, PROT_READ \| PROT_WRITE,
mas01mc@11	732 MAP_SHARED, dbfid, 0)) == (caddr_t) -1)
mas01mc@11	733 error("mmap error for creating database");
mas01mc@11	734
mas01mc@11	735 // Make some handy tables with correct types
mas01mc@11	736 fileTable= (char*)(db+fileTableOffset);
mas01mc@11	737 segTable = (unsigned*)(db+segTableOffset);
mas01mc@11	738 dataBuf = (double*)(db+dataoffset);
mas01mc@11	739 l2normTable = (double*)(db+l2normTableOffset);
mas01mc@11	740 timesTable = (double*)(db+timesTableOffset);
mas01mc@11	741
mas01cr@0	742 // Check that there is room for at least 1 more file
mas01cr@0	743 if((char)timesTable<((char)dataBuf+(dbH->length+statbuf.st_size-sizeof(int))))
mas01cr@0	744 error("No more room in database","insert failed: reason database is full.");
mas01cr@0	745
mas01cr@0	746 if(thisFile)
mas01cr@0	747 if(dbH->dim==0 && dbH->length==0) // empty database
mas01cr@0	748 read(infid,&dbH->dim,sizeof(unsigned)); // initialize with input dimensionality
mas01cr@0	749 else {
mas01cr@0	750 unsigned test;
mas01cr@0	751 read(infid,&test,sizeof(unsigned));
mas01cr@0	752 if(dbH->dim!=test){
mas01cr@0	753 cerr << "error: expected dimension: " << dbH->dim << ", got :" << test <<endl;
mas01cr@0	754 error("feature dimensions do not match database table dimensions");
mas01cr@0	755 }
mas01cr@0	756 }
mas01cr@0	757
mas01cr@0	758 // mmap the input file
mas01cr@0	759 if (thisFile && (indata = (char*)mmap (0, statbuf.st_size, PROT_READ, MAP_SHARED, infid, 0))
mas01cr@0	760 == (caddr_t) -1)
mas01cr@0	761 error("mmap error for input");
mas01cr@0	762
mas01cr@0	763
mas01cr@0	764 // Linear scan of filenames check for pre-existing feature
mas01cr@0	765 unsigned alreadyInserted=0;
mas01cr@0	766
mas01cr@0	767 for(unsigned k=0; k<dbH->numFiles; k++)
mas01cr@0	768 if(strncmp(fileTable + k*O2_FILETABLESIZE, thisKey, strlen(thisKey))==0){
mas01cr@0	769 alreadyInserted=1;
mas01cr@0	770 break;
mas01cr@0	771 }
mas01cr@0	772
mas01cr@0	773 if(alreadyInserted){
mas01cr@0	774 if(verbosity)
mas01cr@0	775 cerr << "Warning: key already exists in database:" << thisKey << endl;
mas01cr@0	776 }
mas01cr@0	777 else{
mas01cr@0	778
mas01cr@0	779 // Make a segment index table of features to file indexes
mas01cr@0	780 unsigned numVectors = (statbuf.st_size-sizeof(int))/(sizeof(double)*dbH->dim);
mas01cr@0	781 if(!numVectors){
mas01cr@0	782 if(verbosity)
mas01cr@0	783 cerr << "Warning: ignoring zero-length feature vector file:" << thisKey << endl;
mas01cr@0	784 }
mas01cr@0	785 else{
mas01cr@0	786 if(usingTimes){
mas01cr@0	787 if(timesFile->eof())
mas01cr@0	788 error("not enough timestamp files in timesList");
mas01cr@0	789 thisTimesFile=new ifstream(thisTimesFileName,ios::in);
mas01cr@0	790 if(!thisTimesFile->is_open())
mas01cr@0	791 error("Cannot open timestamp file",thisTimesFileName);
mas01cr@0	792 unsigned insertoffset=dbH->length;
mas01cr@0	793 unsigned timesoffset=insertoffset/(dbH->dim*sizeof(double));
mas01cr@0	794 double* timesdata=timesTable+timesoffset;
mas01cr@0	795 assert(timesdata+numVectors<l2normTable);
mas01cr@0	796 insertTimeStamps(numVectors,thisTimesFile,timesdata);
mas01cr@0	797 if(thisTimesFile)
mas01cr@0	798 delete thisTimesFile;
mas01cr@0	799 }
mas01cr@0	800
mas01cr@0	801 strncpy(fileTable + dbH->numFiles*O2_FILETABLESIZE, thisKey, strlen(thisKey));
mas01cr@0	802
mas01cr@0	803 unsigned insertoffset = dbH->length;// Store current state
mas01cr@0	804
mas01cr@0	805 // Increment file count
mas01cr@0	806 dbH->numFiles++;
mas01cr@0	807
mas01cr@0	808 // Update Header information
mas01cr@0	809 dbH->length+=(statbuf.st_size-sizeof(int));
mas01cr@0	810 // Copy the header back to the database
mas01cr@0	811 memcpy (db, dbH, sizeof(dbTableHeaderT));
mas01cr@0	812
mas01cr@0	813 // Update segment to file index map
mas01cr@0	814 //memcpy (db+segTableOffset+(dbH->numFiles-1)*sizeof(unsigned), &numVectors, sizeof(unsigned));
mas01cr@0	815 memcpy (segTable+dbH->numFiles-1, &numVectors, sizeof(unsigned));
mas01cr@0	816
mas01cr@0	817 // Update the feature database
mas01cr@0	818 memcpy (db+dataoffset+insertoffset, indata+sizeof(int), statbuf.st_size-sizeof(int));
mas01cr@0	819
mas01cr@0	820 // Norm the vectors on input if the database is already L2 normed
mas01cr@0	821 if(dbH->flags & O2_FLAG_L2NORM)
mas01cr@0	822 unitNormAndInsertL2((double*)(db+dataoffset+insertoffset), dbH->dim, numVectors, 1); // append
mas01cr@0	823
mas01cr@0	824 totalVectors+=numVectors;
mas01cr@0	825 }
mas01cr@0	826 }
mas01cr@0	827 // CLEAN UP
mas01cr@0	828 munmap(indata,statbuf.st_size);
mas01cr@0	829 close(infid);
mas01mc@11	830 munmap(db,O2_DEFAULTDBSIZE);
mas01cr@0	831 }while(!filesIn->eof());
mas01mc@12	832
mas01mc@12	833 // mmap the database file
mas01mc@12	834 if ((db = (char*) mmap(0, O2_DEFAULTDBSIZE, PROT_READ \| PROT_WRITE,
mas01mc@12	835 MAP_SHARED, dbfid, 0)) == (caddr_t) -1)
mas01mc@12	836 error("mmap error for creating database");
mas01cr@0	837
mas01cr@0	838 if(verbosity)
mas01cr@0	839 cerr << COM_BATCHINSERT << " " << dbName << " " << totalVectors << " vectors "
mas01cr@0	840 << totalVectorsdbH->dimsizeof(double) << " bytes." << endl;
mas01cr@0	841
mas01cr@0	842 // Report status
mas01cr@0	843 status(dbName);
mas01mc@12	844
mas01mc@12	845 munmap(db,O2_DEFAULTDBSIZE);
mas01cr@0	846 }
mas01cr@0	847
mas01cr@0	848 void audioDB::ws_status(const chardbName, char hostport){
mas01cr@0	849 struct soap soap;
mas01cr@0	850 int adbStatusResult;
mas01cr@0	851
mas01cr@0	852 // Query an existing adb database
mas01cr@0	853 soap_init(&soap);
mas01cr@0	854 if(soap_call_adb__status(&soap,hostport,NULL,(char*)dbName,adbStatusResult)==SOAP_OK)
mas01cr@0	855 std::cout << "result = " << adbStatusResult << std::endl;
mas01cr@0	856 else
mas01cr@0	857 soap_print_fault(&soap,stderr);
mas01cr@0	858
mas01cr@0	859 soap_destroy(&soap);
mas01cr@0	860 soap_end(&soap);
mas01cr@0	861 soap_done(&soap);
mas01cr@0	862 }
mas01cr@0	863
mas01cr@0	864 void audioDB::ws_query(const chardbName, const char segKey, const char* hostport){
mas01cr@0	865 struct soap soap;
mas01cr@0	866 adb__queryResult adbQueryResult;
mas01cr@0	867
mas01cr@0	868 soap_init(&soap);
mas01cr@0	869 if(soap_call_adb__query(&soap,hostport,NULL,
mas01cr@0	870 (char)dbName,(char)segKey,(char)segFileName,(char)timesFileName,
mas01cr@0	871 queryType, queryPoint, pointNN, segNN, sequenceLength, adbQueryResult)==SOAP_OK){
mas01cr@0	872 //std::cerr << "result list length:" << adbQueryResult.__sizeRlist << std::endl;
mas01cr@0	873 for(int i=0; i<adbQueryResult.__sizeRlist; i++)
mas01cr@0	874 std::cout << adbQueryResult.Rlist[i] << " " << adbQueryResult.Dist[i]
mas01cr@0	875 << " " << adbQueryResult.Qpos[i] << " " << adbQueryResult.Spos[i] << std::endl;
mas01cr@0	876 }
mas01cr@0	877 else
mas01cr@0	878 soap_print_fault(&soap,stderr);
mas01cr@0	879
mas01cr@0	880 soap_destroy(&soap);
mas01cr@0	881 soap_end(&soap);
mas01cr@0	882 soap_done(&soap);
mas01cr@0	883
mas01cr@0	884 }
mas01cr@0	885
mas01cr@0	886
mas01cr@0	887 void audioDB::status(const char* dbName){
mas01cr@0	888 if(!dbH)
mas01cr@0	889 initTables(dbName, 0);
mas01cr@0	890
mas01cr@0	891 // Update Header information
mas01cr@0	892 cout << "num files:" << dbH->numFiles << endl;
mas01cr@0	893 cout << "data dim:" << dbH->dim <<endl;
mas01cr@0	894 if(dbH->dim>0){
mas01cr@0	895 cout << "total vectors:" << dbH->length/(sizeof(double)*dbH->dim)<<endl;
mas01cr@0	896 cout << "vectors available:" << (timesTableOffset-(dataoffset+dbH->length))/(sizeof(double)*dbH->dim) << endl;
mas01cr@0	897 }
mas01cr@0	898 cout << "total bytes:" << dbH->length << " (" << (100.0*dbH->length)/(timesTableOffset-dataoffset) << "%)" << endl;
mas01cr@0	899 cout << "bytes available:" << timesTableOffset-(dataoffset+dbH->length) << " (" <<
mas01cr@0	900 (100.0*(timesTableOffset-(dataoffset+dbH->length)))/(timesTableOffset-dataoffset) << "%)" << endl;
mas01cr@0	901 cout << "flags:" << dbH->flags << endl;
mas01cr@0	902
mas01cr@0	903 unsigned dudCount=0;
mas01cr@0	904 unsigned nullCount=0;
mas01cr@0	905 for(unsigned k=0; k<dbH->numFiles; k++){
mas01cr@0	906 if(segTable[k]<sequenceLength){
mas01cr@0	907 dudCount++;
mas01cr@0	908 if(!segTable[k])
mas01cr@0	909 nullCount++;
mas01cr@0	910 }
mas01cr@0	911 }
mas01cr@0	912 cout << "null count: " << nullCount << " small sequence count " << dudCount-nullCount << endl;
mas01cr@0	913 }
mas01cr@0	914
mas01cr@0	915
mas01cr@0	916 void audioDB::dump(const char* dbName){
mas01cr@0	917 if(!dbH)
mas01cr@0	918 initTables(dbName,0);
mas01cr@0	919
mas01mc@17	920 for(unsigned k=0, j=0; k<dbH->numFiles; k++){
mas01cr@0	921 cout << fileTable+k*O2_FILETABLESIZE << " " << segTable[k] << endl;
mas01mc@17	922 j+=segTable[k];
mas01mc@17	923 }
mas01cr@0	924
mas01cr@0	925 status(dbName);
mas01cr@0	926 }
mas01cr@0	927
mas01cr@0	928 void audioDB::l2norm(const char* dbName){
mas01cr@0	929 initTables(dbName,0);
mas01cr@0	930 if(dbH->length>0){
mas01cr@0	931 unsigned numVectors = dbH->length/(sizeof(double)*dbH->dim);
mas01cr@0	932 unitNormAndInsertL2(dataBuf, dbH->dim, numVectors, 0); // No append
mas01cr@0	933 }
mas01cr@0	934 // Update database flags
mas01cr@0	935 dbH->flags = dbH->flags\|O2_FLAG_L2NORM;
mas01cr@0	936 memcpy (db, dbH, O2_HEADERSIZE);
mas01cr@0	937 }
mas01cr@0	938
mas01cr@0	939
mas01cr@0	940
mas01cr@0	941 void audioDB::query(const char* dbName, const char* inFile, adb__queryResult *adbQueryResult){
mas01cr@0	942 switch(queryType){
mas01cr@0	943 case O2_FLAG_POINT_QUERY:
mas01cr@0	944 pointQuery(dbName, inFile, adbQueryResult);
mas01cr@0	945 break;
mas01cr@0	946 case O2_FLAG_SEQUENCE_QUERY:
mas01mc@17	947 if(radius==0)
mas01mc@17	948 segSequenceQuery(dbName, inFile, adbQueryResult);
mas01mc@17	949 else
mas01mc@17	950 segSequenceQueryEuc(dbName, inFile, adbQueryResult);
mas01cr@0	951 break;
mas01cr@0	952 case O2_FLAG_SEG_QUERY:
mas01cr@0	953 segPointQuery(dbName, inFile, adbQueryResult);
mas01cr@0	954 break;
mas01cr@0	955 default:
mas01cr@0	956 error("unrecognized queryType in query()");
mas01cr@0	957
mas01cr@0	958 }
mas01cr@0	959 }
mas01cr@0	960
mas01cr@0	961 //return ordinal position of key in keyTable
mas01cr@0	962 unsigned audioDB::getKeyPos(char* key){
mas01cr@0	963 for(unsigned k=0; k<dbH->numFiles; k++)
mas01cr@0	964 if(strncmp(fileTable + k*O2_FILETABLESIZE, key, strlen(key))==0)
mas01cr@0	965 return k;
mas01cr@0	966 error("Key not found",key);
mas01cr@0	967 return O2_ERR_KEYNOTFOUND;
mas01cr@0	968 }
mas01cr@0	969
mas01cr@0	970 // Basic point query engine
mas01cr@0	971 void audioDB::pointQuery(const char* dbName, const char* inFile, adb__queryResult *adbQueryResult){
mas01cr@0	972
mas01cr@0	973 initTables(dbName, inFile);
mas01cr@0	974
mas01cr@0	975 // For each input vector, find the closest pointNN matching output vectors and report
mas01cr@0	976 // we use stdout in this stub version
mas01cr@0	977 unsigned numVectors = (statbuf.st_size-sizeof(int))/(sizeof(double)*dbH->dim);
mas01cr@0	978
mas01cr@0	979 double* query = (double*)(indata+sizeof(int));
mas01cr@0	980 double* data = dataBuf;
mas01cr@0	981 double* queryCopy = 0;
mas01cr@0	982
mas01cr@0	983 if( dbH->flags & O2_FLAG_L2NORM ){
mas01cr@0	984 // Make a copy of the query
mas01cr@0	985 queryCopy = new double[numVectors*dbH->dim];
mas01cr@0	986 qNorm = new double[numVectors];
mas01cr@0	987 assert(queryCopy&&qNorm);
mas01cr@0	988 memcpy(queryCopy, query, numVectorsdbH->dimsizeof(double));
mas01cr@0	989 unitNorm(queryCopy, dbH->dim, numVectors, qNorm);
mas01cr@0	990 query = queryCopy;
mas01cr@0	991 }
mas01cr@0	992
mas01cr@0	993 // Make temporary dynamic memory for results
mas01cr@0	994 assert(pointNN>0 && pointNN<=O2_MAXNN);
mas01cr@0	995 double distances[pointNN];
mas01cr@0	996 unsigned qIndexes[pointNN];
mas01cr@0	997 unsigned sIndexes[pointNN];
mas01cr@0	998 for(unsigned k=0; k<pointNN; k++){
mas01cr@0	999 distances[k]=0.0;
mas01cr@0	1000 qIndexes[k]=~0;
mas01cr@0	1001 sIndexes[k]=~0;
mas01cr@0	1002 }
mas01cr@0	1003
mas01cr@0	1004 unsigned j=numVectors;
mas01cr@0	1005 unsigned k,l,n;
mas01cr@0	1006 double thisDist;
mas01cr@0	1007
mas01cr@0	1008 unsigned totalVecs=dbH->length/(dbH->dim*sizeof(double));
mas01cr@0	1009 double meanQdur = 0;
mas01cr@0	1010 double* timesdata = 0;
mas01cr@0	1011 double* dbdurs = 0;
mas01cr@0	1012
mas01cr@0	1013 if(usingTimes && !(dbH->flags & O2_FLAG_TIMES)){
mas01cr@0	1014 cerr << "warning: ignoring query timestamps for non-timestamped database" << endl;
mas01cr@0	1015 usingTimes=0;
mas01cr@0	1016 }
mas01cr@0	1017
mas01cr@0	1018 else if(!usingTimes && (dbH->flags & O2_FLAG_TIMES))
mas01cr@0	1019 cerr << "warning: no timestamps given for query. Ignoring database timestamps." << endl;
mas01cr@0	1020
mas01cr@0	1021 else if(usingTimes && (dbH->flags & O2_FLAG_TIMES)){
mas01cr@0	1022 timesdata = new double[numVectors];
mas01cr@0	1023 insertTimeStamps(numVectors, timesFile, timesdata);
mas01cr@0	1024 // Calculate durations of points
mas01cr@0	1025 for(k=0; k<numVectors-1; k++){
mas01cr@0	1026 timesdata[k]=timesdata[k+1]-timesdata[k];
mas01cr@0	1027 meanQdur+=timesdata[k];
mas01cr@0	1028 }
mas01cr@0	1029 meanQdur/=k;
mas01cr@0	1030 // Individual exhaustive timepoint durations
mas01cr@0	1031 dbdurs = new double[totalVecs];
mas01cr@0	1032 for(k=0; k<totalVecs-1; k++)
mas01cr@0	1033 dbdurs[k]=timesTable[k+1]-timesTable[k];
mas01cr@0	1034 j--; // decrement vector counter by one
mas01cr@0	1035 }
mas01cr@0	1036
mas01cr@0	1037 if(usingQueryPoint)
mas01cr@0	1038 if(queryPoint>numVectors-1)
mas01cr@0	1039 error("queryPoint > numVectors in query");
mas01cr@0	1040 else{
mas01cr@0	1041 if(verbosity>1)
mas01cr@0	1042 cerr << "query point: " << queryPoint << endl; cerr.flush();
mas01cr@0	1043 query=query+queryPoint*dbH->dim;
mas01cr@0	1044 numVectors=queryPoint+1;
mas01cr@0	1045 j=1;
mas01cr@0	1046 }
mas01cr@0	1047
mas01cr@0	1048 gettimeofday(&tv1, NULL);
mas01cr@0	1049 while(j--){ // query
mas01cr@0	1050 data=dataBuf;
mas01cr@0	1051 k=totalVecs; // number of database vectors
mas01cr@0	1052 while(k--){ // database
mas01cr@0	1053 thisDist=0;
mas01cr@0	1054 l=dbH->dim;
mas01cr@0	1055 double* q=query;
mas01cr@0	1056 while(l--)
mas01cr@0	1057 thisDist+=q++*data++;
mas01cr@0	1058 if(!usingTimes \|\|
mas01cr@0	1059 (usingTimes
mas01cr@0	1060 && fabs(dbdurs[totalVecs-k-1]-timesdata[numVectors-j-1])<timesdata[numVectors-j-1]*timesTol)){
mas01cr@0	1061 n=pointNN;
mas01cr@0	1062 while(n--){
mas01cr@0	1063 if(thisDist>=distances[n]){
mas01cr@0	1064 if((n==0 \|\| thisDist<=distances[n-1])){
mas01cr@0	1065 // Copy all values above up the queue
mas01cr@0	1066 for( l=pointNN-1 ; l >= n+1 ; l--){
mas01cr@0	1067 distances[l]=distances[l-1];
mas01cr@0	1068 qIndexes[l]=qIndexes[l-1];
mas01cr@0	1069 sIndexes[l]=sIndexes[l-1];
mas01cr@0	1070 }
mas01cr@0	1071 distances[n]=thisDist;
mas01cr@0	1072 qIndexes[n]=numVectors-j-1;
mas01cr@0	1073 sIndexes[n]=dbH->length/(sizeof(double)*dbH->dim)-k-1;
mas01cr@0	1074 break;
mas01cr@0	1075 }
mas01cr@0	1076 }
mas01cr@0	1077 else
mas01cr@0	1078 break;
mas01cr@0	1079 }
mas01cr@0	1080 }
mas01cr@0	1081 }
mas01cr@0	1082 // Move query pointer to next query point
mas01cr@0	1083 query+=dbH->dim;
mas01cr@0	1084 }
mas01cr@0	1085
mas01cr@0	1086 gettimeofday(&tv2, NULL);
mas01cr@0	1087 if(verbosity>1)
mas01cr@0	1088 cerr << endl << " elapsed time:" << ( tv2.tv_sec1000 + tv2.tv_usec/1000 ) - ( tv1.tv_sec1000+tv1.tv_usec/1000 ) << " msec" << endl;
mas01cr@0	1089
mas01cr@0	1090 if(adbQueryResult==0){
mas01cr@0	1091 // Output answer
mas01cr@0	1092 // Loop over nearest neighbours
mas01cr@0	1093 for(k=0; k < pointNN; k++){
mas01cr@0	1094 // Scan for key
mas01cr@0	1095 unsigned cumSeg=0;
mas01cr@0	1096 for(l=0 ; l<dbH->numFiles; l++){
mas01cr@0	1097 cumSeg+=segTable[l];
mas01cr@0	1098 if(sIndexes[k]<cumSeg){
mas01cr@0	1099 cout << fileTable+l*O2_FILETABLESIZE << " " << distances[k] << " " << qIndexes[k] << " "
mas01cr@0	1100 << sIndexes[k]+segTable[l]-cumSeg << endl;
mas01cr@0	1101 break;
mas01cr@0	1102 }
mas01cr@0	1103 }
mas01cr@0	1104 }
mas01cr@0	1105 }
mas01cr@0	1106 else{ // Process Web Services Query
mas01cr@0	1107 int listLen = pointNN;
mas01cr@0	1108 adbQueryResult->__sizeRlist=listLen;
mas01cr@0	1109 adbQueryResult->__sizeDist=listLen;
mas01cr@0	1110 adbQueryResult->__sizeQpos=listLen;
mas01cr@0	1111 adbQueryResult->__sizeSpos=listLen;
mas01cr@0	1112 adbQueryResult->Rlist= new char*[listLen];
mas01cr@0	1113 adbQueryResult->Dist = new double[listLen];
mas01cr@0	1114 adbQueryResult->Qpos = new int[listLen];
mas01cr@0	1115 adbQueryResult->Spos = new int[listLen];
mas01cr@0	1116 for(k=0; k<adbQueryResult->__sizeRlist; k++){
mas01cr@0	1117 adbQueryResult->Rlist[k]=new char[O2_MAXFILESTR];
mas01cr@0	1118 adbQueryResult->Dist[k]=distances[k];
mas01cr@0	1119 adbQueryResult->Qpos[k]=qIndexes[k];
mas01cr@0	1120 unsigned cumSeg=0;
mas01cr@0	1121 for(l=0 ; l<dbH->numFiles; l++){
mas01cr@0	1122 cumSeg+=segTable[l];
mas01cr@0	1123 if(sIndexes[k]<cumSeg){
mas01cr@0	1124 sprintf(adbQueryResult->Rlist[k], "%s", fileTable+l*O2_FILETABLESIZE);
mas01cr@0	1125 break;
mas01cr@0	1126 }
mas01cr@0	1127 }
mas01cr@0	1128 adbQueryResult->Spos[k]=sIndexes[k]+segTable[l]-cumSeg;
mas01cr@0	1129 }
mas01cr@0	1130 }
mas01cr@0	1131
mas01cr@0	1132 // Clean up
mas01cr@0	1133 if(queryCopy)
mas01cr@0	1134 delete queryCopy;
mas01cr@0	1135 if(qNorm)
mas01cr@0	1136 delete qNorm;
mas01cr@0	1137 if(timesdata)
mas01cr@0	1138 delete timesdata;
mas01cr@0	1139 if(dbdurs)
mas01cr@0	1140 delete dbdurs;
mas01cr@0	1141 }
mas01cr@0	1142
mas01cr@0	1143 void audioDB::sequenceQuery(const char* dbName, const char* inFile, adb__queryResult *adbQueryResult){
mas01cr@0	1144
mas01cr@0	1145 }
mas01cr@0	1146
mas01cr@0	1147 // segPointQuery
mas01cr@0	1148 // return the segNN closest segs to the query seg
mas01cr@0	1149 // uses average of pointNN points per seg
mas01cr@0	1150 void audioDB::segPointQuery(const char* dbName, const char* inFile, adb__queryResult *adbQueryResult){
mas01cr@0	1151 initTables(dbName, inFile);
mas01cr@0	1152
mas01cr@0	1153 // For each input vector, find the closest pointNN matching output vectors and report
mas01cr@0	1154 unsigned numVectors = (statbuf.st_size-sizeof(int))/(sizeof(double)*dbH->dim);
mas01cr@0	1155 unsigned numSegs = dbH->numFiles;
mas01cr@0	1156
mas01cr@0	1157 double* query = (double*)(indata+sizeof(int));
mas01cr@0	1158 double* data = dataBuf;
mas01cr@0	1159 double* queryCopy = 0;
mas01cr@0	1160
mas01cr@0	1161 if( dbH->flags & O2_FLAG_L2NORM ){
mas01cr@0	1162 // Make a copy of the query
mas01cr@0	1163 queryCopy = new double[numVectors*dbH->dim];
mas01cr@0	1164 qNorm = new double[numVectors];
mas01cr@0	1165 assert(queryCopy&&qNorm);
mas01cr@0	1166 memcpy(queryCopy, query, numVectorsdbH->dimsizeof(double));
mas01cr@0	1167 unitNorm(queryCopy, dbH->dim, numVectors, qNorm);
mas01cr@0	1168 query = queryCopy;
mas01cr@0	1169 }
mas01cr@0	1170
mas01cr@0	1171 assert(pointNN>0 && pointNN<=O2_MAXNN);
mas01cr@0	1172 assert(segNN>0 && segNN<=O2_MAXNN);
mas01cr@0	1173
mas01cr@0	1174 // Make temporary dynamic memory for results
mas01cr@0	1175 double segDistances[segNN];
mas01cr@0	1176 unsigned segIDs[segNN];
mas01cr@0	1177 unsigned segQIndexes[segNN];
mas01cr@0	1178 unsigned segSIndexes[segNN];
mas01cr@0	1179
mas01cr@0	1180 double distances[pointNN];
mas01cr@0	1181 unsigned qIndexes[pointNN];
mas01cr@0	1182 unsigned sIndexes[pointNN];
mas01cr@0	1183
mas01cr@0	1184 unsigned j=numVectors; // number of query points
mas01cr@0	1185 unsigned k,l,n, seg, segOffset=0, processedSegs=0;
mas01cr@0	1186 double thisDist;
mas01cr@0	1187
mas01cr@0	1188 for(k=0; k<pointNN; k++){
mas01cr@0	1189 distances[k]=0.0;
mas01cr@0	1190 qIndexes[k]=~0;
mas01cr@0	1191 sIndexes[k]=~0;
mas01cr@0	1192 }
mas01cr@0	1193
mas01cr@0	1194 for(k=0; k<segNN; k++){
mas01cr@0	1195 segDistances[k]=0.0;
mas01cr@0	1196 segQIndexes[k]=~0;
mas01cr@0	1197 segSIndexes[k]=~0;
mas01cr@0	1198 segIDs[k]=~0;
mas01cr@0	1199 }
mas01cr@0	1200
mas01cr@0	1201 double meanQdur = 0;
mas01cr@0	1202 double* timesdata = 0;
mas01cr@0	1203 double* meanDBdur = 0;
mas01cr@0	1204
mas01cr@0	1205 if(usingTimes && !(dbH->flags & O2_FLAG_TIMES)){
mas01cr@0	1206 cerr << "warning: ignoring query timestamps for non-timestamped database" << endl;
mas01cr@0	1207 usingTimes=0;
mas01cr@0	1208 }
mas01cr@0	1209
mas01cr@0	1210 else if(!usingTimes && (dbH->flags & O2_FLAG_TIMES))
mas01cr@0	1211 cerr << "warning: no timestamps given for query. Ignoring database timestamps." << endl;
mas01cr@0	1212
mas01cr@0	1213 else if(usingTimes && (dbH->flags & O2_FLAG_TIMES)){
mas01cr@0	1214 timesdata = new double[numVectors];
mas01cr@0	1215 insertTimeStamps(numVectors, timesFile, timesdata);
mas01cr@0	1216 // Calculate durations of points
mas01cr@0	1217 for(k=0; k<numVectors-1; k++){
mas01cr@0	1218 timesdata[k]=timesdata[k+1]-timesdata[k];
mas01cr@0	1219 meanQdur+=timesdata[k];
mas01cr@0	1220 }
mas01cr@0	1221 meanQdur/=k;
mas01cr@0	1222 meanDBdur = new double[dbH->numFiles];
mas01cr@0	1223 for(k=0; k<dbH->numFiles; k++){
mas01cr@0	1224 meanDBdur[k]=0.0;
mas01cr@0	1225 for(j=0; j<segTable[k]-1 ; j++)
mas01cr@0	1226 meanDBdur[k]+=timesTable[j+1]-timesTable[j];
mas01cr@0	1227 meanDBdur[k]/=j;
mas01cr@0	1228 }
mas01cr@0	1229 }
mas01cr@0	1230
mas01cr@0	1231 if(usingQueryPoint)
mas01cr@0	1232 if(queryPoint>numVectors-1)
mas01cr@0	1233 error("queryPoint > numVectors in query");
mas01cr@0	1234 else{
mas01cr@0	1235 if(verbosity>1)
mas01cr@0	1236 cerr << "query point: " << queryPoint << endl; cerr.flush();
mas01cr@0	1237 query=query+queryPoint*dbH->dim;
mas01cr@0	1238 numVectors=queryPoint+1;
mas01cr@0	1239 }
mas01cr@0	1240
mas01cr@0	1241 // build segment offset table
mas01cr@0	1242 unsigned *segOffsetTable = new unsigned[dbH->numFiles];
mas01cr@0	1243 unsigned cumSeg=0;
mas01cr@0	1244 unsigned segIndexOffset;
mas01cr@0	1245 for(k=0; k<dbH->numFiles;k++){
mas01cr@0	1246 segOffsetTable[k]=cumSeg;
mas01cr@0	1247 cumSeg+=segTable[k]*dbH->dim;
mas01cr@0	1248 }
mas01cr@0	1249
mas01cr@0	1250 char nextKey[MAXSTR];
mas01cr@0	1251
mas01cr@0	1252 gettimeofday(&tv1, NULL);
mas01cr@0	1253
mas01mc@13	1254 for(processedSegs=0, seg=0 ; processedSegs < dbH->numFiles ; seg++, processedSegs++){
mas01cr@0	1255 if(segFile){
mas01cr@0	1256 if(!segFile->eof()){
mas01cr@0	1257 segFile->getline(nextKey,MAXSTR);
mas01cr@0	1258 seg=getKeyPos(nextKey);
mas01cr@0	1259 }
mas01cr@0	1260 else
mas01cr@0	1261 break;
mas01cr@0	1262 }
mas01cr@0	1263 segOffset=segOffsetTable[seg]; // numDoubles offset
mas01cr@0	1264 segIndexOffset=segOffset/dbH->dim; // numVectors offset
mas01cr@0	1265 if(verbosity>7)
mas01cr@0	1266 cerr << seg << "." << segOffset/(dbH->dim) << "." << segTable[seg] << " \| ";cerr.flush();
mas01cr@0	1267
mas01cr@0	1268 if(dbH->flags & O2_FLAG_L2NORM)
mas01cr@0	1269 usingQueryPoint?query=queryCopy+queryPoint*dbH->dim:query=queryCopy;
mas01cr@0	1270 else
mas01cr@0	1271 usingQueryPoint?query=(double)(indata+sizeof(int))+queryPointdbH->dim:query=(double*)(indata+sizeof(int));
mas01cr@0	1272 if(usingQueryPoint)
mas01cr@0	1273 j=1;
mas01cr@0	1274 else
mas01cr@0	1275 j=numVectors;
mas01cr@0	1276 while(j--){
mas01cr@0	1277 k=segTable[seg]; // number of vectors in seg
mas01cr@0	1278 data=dataBuf+segOffset; // data for seg
mas01cr@0	1279 while(k--){
mas01cr@0	1280 thisDist=0;
mas01cr@0	1281 l=dbH->dim;
mas01cr@0	1282 double* q=query;
mas01cr@0	1283 while(l--)
mas01cr@0	1284 thisDist+=q++*data++;
mas01cr@0	1285 if(!usingTimes \|\|
mas01cr@0	1286 (usingTimes
mas01cr@0	1287 && fabs(meanDBdur[seg]-meanQdur)<meanQdur*timesTol)){
mas01cr@0	1288 n=pointNN;
mas01cr@0	1289 while(n--){
mas01cr@0	1290 if(thisDist>=distances[n]){
mas01cr@0	1291 if((n==0 \|\| thisDist<=distances[n-1])){
mas01cr@0	1292 // Copy all values above up the queue
mas01cr@0	1293 for( l=pointNN-1 ; l > n ; l--){
mas01cr@0	1294 distances[l]=distances[l-1];
mas01cr@0	1295 qIndexes[l]=qIndexes[l-1];
mas01cr@0	1296 sIndexes[l]=sIndexes[l-1];
mas01cr@0	1297 }
mas01cr@0	1298 distances[n]=thisDist;
mas01cr@0	1299 qIndexes[n]=numVectors-j-1;
mas01cr@0	1300 sIndexes[n]=segTable[seg]-k-1;
mas01cr@0	1301 break;
mas01cr@0	1302 }
mas01cr@0	1303 }
mas01cr@0	1304 else
mas01cr@0	1305 break;
mas01cr@0	1306 }
mas01cr@0	1307 }
mas01cr@0	1308 } // seg
mas01cr@0	1309 // Move query pointer to next query point
mas01cr@0	1310 query+=dbH->dim;
mas01cr@0	1311 } // query
mas01cr@0	1312 // Take the average of this seg's distance
mas01cr@0	1313 // Test the seg distances
mas01cr@0	1314 thisDist=0;
mas01cr@0	1315 n=pointNN;
mas01cr@0	1316 while(n--)
mas01cr@0	1317 thisDist+=distances[pointNN-n-1];
mas01cr@0	1318 thisDist/=pointNN;
mas01cr@0	1319 n=segNN;
mas01cr@0	1320 while(n--){
mas01cr@0	1321 if(thisDist>=segDistances[n]){
mas01cr@0	1322 if((n==0 \|\| thisDist<=segDistances[n-1])){
mas01cr@0	1323 // Copy all values above up the queue
mas01cr@0	1324 for( l=pointNN-1 ; l > n ; l--){
mas01cr@0	1325 segDistances[l]=segDistances[l-1];
mas01cr@0	1326 segQIndexes[l]=segQIndexes[l-1];
mas01cr@0	1327 segSIndexes[l]=segSIndexes[l-1];
mas01cr@0	1328 segIDs[l]=segIDs[l-1];
mas01cr@0	1329 }
mas01cr@0	1330 segDistances[n]=thisDist;
mas01cr@0	1331 segQIndexes[n]=qIndexes[0];
mas01cr@0	1332 segSIndexes[n]=sIndexes[0];
mas01cr@0	1333 segIDs[n]=seg;
mas01cr@0	1334 break;
mas01cr@0	1335 }
mas01cr@0	1336 }
mas01cr@0	1337 else
mas01cr@0	1338 break;
mas01cr@0	1339 }
mas01cr@0	1340 for(unsigned k=0; k<pointNN; k++){
mas01cr@0	1341 distances[k]=0.0;
mas01cr@0	1342 qIndexes[k]=~0;
mas01cr@0	1343 sIndexes[k]=~0;
mas01cr@0	1344 }
mas01cr@0	1345 } // segs
mas01cr@0	1346 gettimeofday(&tv2, NULL);
mas01cr@0	1347
mas01cr@0	1348 if(verbosity>1)
mas01cr@0	1349 cerr << endl << "processed segs :" << processedSegs
mas01cr@0	1350 << " elapsed time:" << ( tv2.tv_sec1000 + tv2.tv_usec/1000 ) - ( tv1.tv_sec1000+tv1.tv_usec/1000 ) << " msec" << endl;
mas01cr@0	1351
mas01cr@0	1352 if(adbQueryResult==0){
mas01cr@0	1353 if(verbosity>1)
mas01cr@0	1354 cerr<<endl;
mas01cr@0	1355 // Output answer
mas01cr@0	1356 // Loop over nearest neighbours
mas01cr@0	1357 for(k=0; k < min(segNN,processedSegs); k++)
mas01cr@0	1358 cout << fileTable+segIDs[k]*O2_FILETABLESIZE
mas01cr@0	1359 << " " << segDistances[k] << " " << segQIndexes[k] << " " << segSIndexes[k] << endl;
mas01cr@0	1360 }
mas01cr@0	1361 else{ // Process Web Services Query
mas01cr@0	1362 int listLen = min(segNN, processedSegs);
mas01cr@0	1363 adbQueryResult->__sizeRlist=listLen;
mas01cr@0	1364 adbQueryResult->__sizeDist=listLen;
mas01cr@0	1365 adbQueryResult->__sizeQpos=listLen;
mas01cr@0	1366 adbQueryResult->__sizeSpos=listLen;
mas01cr@0	1367 adbQueryResult->Rlist= new char*[listLen];
mas01cr@0	1368 adbQueryResult->Dist = new double[listLen];
mas01cr@0	1369 adbQueryResult->Qpos = new int[listLen];
mas01cr@0	1370 adbQueryResult->Spos = new int[listLen];
mas01cr@0	1371 for(k=0; k<adbQueryResult->__sizeRlist; k++){
mas01cr@0	1372 adbQueryResult->Rlist[k]=new char[O2_MAXFILESTR];
mas01cr@0	1373 adbQueryResult->Dist[k]=segDistances[k];
mas01cr@0	1374 adbQueryResult->Qpos[k]=segQIndexes[k];
mas01cr@0	1375 adbQueryResult->Spos[k]=segSIndexes[k];
mas01cr@0	1376 sprintf(adbQueryResult->Rlist[k], "%s", fileTable+segIDs[k]*O2_FILETABLESIZE);
mas01cr@0	1377 }
mas01cr@0	1378 }
mas01cr@0	1379
mas01cr@0	1380
mas01cr@0	1381 // Clean up
mas01cr@0	1382 if(segOffsetTable)
mas01cr@0	1383 delete segOffsetTable;
mas01cr@0	1384 if(queryCopy)
mas01cr@0	1385 delete queryCopy;
mas01cr@0	1386 if(qNorm)
mas01cr@0	1387 delete qNorm;
mas01cr@0	1388 if(timesdata)
mas01cr@0	1389 delete timesdata;
mas01cr@0	1390 if(meanDBdur)
mas01cr@0	1391 delete meanDBdur;
mas01cr@0	1392
mas01cr@0	1393 }
mas01cr@0	1394
mas01cr@0	1395 void audioDB::deleteDB(const char* dbName, const char* inFile){
mas01cr@0	1396
mas01cr@0	1397 }
mas01cr@0	1398
mas01cr@0	1399 // NBest matched filter distance between query and target segs
mas01cr@0	1400 // efficient implementation
mas01cr@0	1401 // outputs average of N minimum matched filter distances
mas01cr@0	1402 void audioDB::segSequenceQuery(const char* dbName, const char* inFile, adb__queryResult *adbQueryResult){
mas01cr@0	1403
mas01cr@0	1404 initTables(dbName, inFile);
mas01cr@0	1405
mas01cr@0	1406 // For each input vector, find the closest pointNN matching output vectors and report
mas01cr@0	1407 // we use stdout in this stub version
mas01cr@0	1408 unsigned numVectors = (statbuf.st_size-sizeof(int))/(sizeof(double)*dbH->dim);
mas01cr@0	1409 unsigned numSegs = dbH->numFiles;
mas01cr@0	1410
mas01cr@0	1411 double* query = (double*)(indata+sizeof(int));
mas01cr@0	1412 double* data = dataBuf;
mas01cr@0	1413 double* queryCopy = 0;
mas01cr@0	1414
mas01cr@0	1415 double qMeanL2;
mas01cr@0	1416 double* sMeanL2;
mas01cr@0	1417
mas01cr@0	1418 unsigned USE_THRESH=0;
mas01cr@0	1419 double SILENCE_THRESH=0;
mas01cr@0	1420 double DIFF_THRESH=0;
mas01cr@0	1421
mas01cr@0	1422 if(!(dbH->flags & O2_FLAG_L2NORM) )
mas01cr@0	1423 error("Database must be L2 normed for sequence query","use -l2norm");
mas01cr@0	1424
mas01cr@0	1425 if(verbosity>1)
mas01cr@0	1426 cerr << "performing norms ... "; cerr.flush();
mas01cr@0	1427 unsigned dbVectors = dbH->length/(sizeof(double)*dbH->dim);
mas01cr@0	1428 // Make a copy of the query
mas01cr@0	1429 queryCopy = new double[numVectors*dbH->dim];
mas01cr@0	1430 memcpy(queryCopy, query, numVectorsdbH->dimsizeof(double));
mas01cr@0	1431 qNorm = new double[numVectors];
mas01cr@0	1432 sNorm = new double[dbVectors];
mas01cr@0	1433 sMeanL2=new double[dbH->numFiles];
mas01cr@0	1434 assert(qNorm&&sNorm&&queryCopy&&sMeanL2&&sequenceLength);
mas01cr@0	1435 unitNorm(queryCopy, dbH->dim, numVectors, qNorm);
mas01cr@0	1436 query = queryCopy;
mas01cr@0	1437 // Make norm measurements relative to sequenceLength
mas01cr@0	1438 unsigned w = sequenceLength-1;
mas01cr@0	1439 unsigned i,j;
mas01cr@0	1440 double* ps;
mas01cr@0	1441 double tmp1,tmp2;
mas01cr@0	1442 // Copy the L2 norm values to core to avoid disk random access later on
mas01cr@0	1443 memcpy(sNorm, l2normTable, dbVectors*sizeof(double));
mas01cr@0	1444 double* snPtr = sNorm;
mas01cr@0	1445 for(i=0; i<dbH->numFiles; i++){
mas01cr@0	1446 if(segTable[i]>sequenceLength){
mas01cr@0	1447 tmp1=*snPtr;
mas01cr@0	1448 j=1;
mas01cr@0	1449 w=sequenceLength-1;
mas01cr@0	1450 while(w--)
mas01cr@0	1451 *snPtr+=snPtr[j++];
mas01cr@0	1452 ps = snPtr+1;
mas01cr@0	1453 w=segTable[i]-sequenceLength; // +1 - 1
mas01cr@0	1454 while(w--){
mas01cr@0	1455 tmp2=*ps;
mas01cr@0	1456 ps=(ps-1)-tmp1+*(ps+sequenceLength);
mas01cr@0	1457 tmp1=tmp2;
mas01cr@0	1458 ps++;
mas01cr@0	1459 }
mas01cr@0	1460 }
mas01cr@0	1461 snPtr+=segTable[i];
mas01cr@0	1462 }
mas01cr@0	1463
mas01cr@0	1464 double* pn = sMeanL2;
mas01cr@0	1465 w=dbH->numFiles;
mas01cr@0	1466 while(w--)
mas01cr@0	1467 *pn++=0.0;
mas01cr@0	1468 ps=sNorm;
mas01cr@0	1469 unsigned processedSegs=0;
mas01cr@0	1470 for(i=0; i<dbH->numFiles; i++){
mas01cr@0	1471 if(segTable[i]>sequenceLength-1){
mas01cr@0	1472 w = segTable[i]-sequenceLength+1;
mas01cr@0	1473 pn = sMeanL2+i;
mas01cr@0	1474 while(w--)
mas01cr@0	1475 pn+=ps++;
mas01cr@0	1476 *pn/=segTable[i]-sequenceLength+1;
mas01cr@0	1477 SILENCE_THRESH+=*pn;
mas01cr@0	1478 processedSegs++;
mas01cr@0	1479 }
mas01mc@12	1480 ps = sNorm + segTable[i];
mas01cr@0	1481 }
mas01cr@0	1482 if(verbosity>1)
mas01cr@0	1483 cerr << "processedSegs: " << processedSegs << endl;
mas01cr@0	1484 SILENCE_THRESH/=processedSegs;
mas01cr@0	1485 USE_THRESH=1; // Turn thresholding on
mas01mc@17	1486 DIFF_THRESH=SILENCE_THRESH/2; // 50% of the mean shingle power
mas01cr@0	1487 SILENCE_THRESH/=10; // 10% of the mean shingle power is SILENCE
mas01cr@0	1488
mas01cr@0	1489 w=sequenceLength-1;
mas01cr@0	1490 i=1;
mas01cr@0	1491 tmp1=*qNorm;
mas01cr@0	1492 while(w--)
mas01cr@0	1493 *qNorm+=qNorm[i++];
mas01cr@0	1494 ps = qNorm+1;
mas01cr@0	1495 qMeanL2 = *qNorm;
mas01cr@0	1496 w=numVectors-sequenceLength;
mas01cr@0	1497 while(w--){
mas01cr@0	1498 tmp2=*ps;
mas01cr@0	1499 ps=(ps-1)-tmp1+*(ps+sequenceLength);
mas01cr@0	1500 tmp1=tmp2;
mas01cr@0	1501 qMeanL2+=*ps;
mas01cr@0	1502 *ps++;
mas01cr@0	1503 }
mas01cr@0	1504 qMeanL2 /= numVectors-sequenceLength+1;
mas01cr@0	1505 if(verbosity>1)
mas01cr@0	1506 cerr << "done." << endl;
mas01cr@0	1507
mas01cr@0	1508
mas01cr@0	1509 if(verbosity>1)
mas01cr@0	1510 cerr << "matching segs..." << endl;
mas01cr@0	1511
mas01cr@0	1512 assert(pointNN>0 && pointNN<=O2_MAXNN);
mas01cr@0	1513 assert(segNN>0 && segNN<=O2_MAXNN);
mas01cr@0	1514
mas01cr@0	1515 // Make temporary dynamic memory for results
mas01cr@0	1516 double segDistances[segNN];
mas01cr@0	1517 unsigned segIDs[segNN];
mas01cr@0	1518 unsigned segQIndexes[segNN];
mas01cr@0	1519 unsigned segSIndexes[segNN];
mas01cr@0	1520
mas01cr@0	1521 double distances[pointNN];
mas01cr@0	1522 unsigned qIndexes[pointNN];
mas01cr@0	1523 unsigned sIndexes[pointNN];
mas01cr@0	1524
mas01cr@0	1525
mas01cr@0	1526 unsigned k,l,m,n,seg,segOffset=0, HOP_SIZE=sequenceHop, wL=sequenceLength;
mas01cr@0	1527 double thisDist;
mas01cr@0	1528 double oneOverWL=1.0/wL;
mas01cr@0	1529
mas01cr@0	1530 for(k=0; k<pointNN; k++){
mas01cr@0	1531 distances[k]=0.0;
mas01cr@0	1532 qIndexes[k]=~0;
mas01cr@0	1533 sIndexes[k]=~0;
mas01cr@0	1534 }
mas01cr@0	1535
mas01cr@0	1536 for(k=0; k<segNN; k++){
mas01cr@0	1537 segDistances[k]=0.0;
mas01cr@0	1538 segQIndexes[k]=~0;
mas01cr@0	1539 segSIndexes[k]=~0;
mas01cr@0	1540 segIDs[k]=~0;
mas01cr@0	1541 }
mas01cr@0	1542
mas01cr@0	1543 // Timestamp and durations processing
mas01cr@0	1544 double meanQdur = 0;
mas01cr@0	1545 double* timesdata = 0;
mas01cr@0	1546 double* meanDBdur = 0;
mas01cr@0	1547
mas01cr@0	1548 if(usingTimes && !(dbH->flags & O2_FLAG_TIMES)){
mas01cr@0	1549 cerr << "warning: ignoring query timestamps for non-timestamped database" << endl;
mas01cr@0	1550 usingTimes=0;
mas01cr@0	1551 }
mas01cr@0	1552
mas01cr@0	1553 else if(!usingTimes && (dbH->flags & O2_FLAG_TIMES))
mas01cr@0	1554 cerr << "warning: no timestamps given for query. Ignoring database timestamps." << endl;
mas01cr@0	1555
mas01cr@0	1556 else if(usingTimes && (dbH->flags & O2_FLAG_TIMES)){
mas01cr@0	1557 timesdata = new double[numVectors];
mas01cr@0	1558 assert(timesdata);
mas01cr@0	1559 insertTimeStamps(numVectors, timesFile, timesdata);
mas01cr@0	1560 // Calculate durations of points
mas01cr@0	1561 for(k=0; k<numVectors-1; k++){
mas01cr@0	1562 timesdata[k]=timesdata[k+1]-timesdata[k];
mas01cr@0	1563 meanQdur+=timesdata[k];
mas01cr@0	1564 }
mas01cr@0	1565 meanQdur/=k;
mas01cr@0	1566 if(verbosity>1)
mas01cr@0	1567 cerr << "mean query file duration: " << meanQdur << endl;
mas01cr@0	1568 meanDBdur = new double[dbH->numFiles];
mas01cr@0	1569 assert(meanDBdur);
mas01cr@0	1570 for(k=0; k<dbH->numFiles; k++){
mas01cr@0	1571 meanDBdur[k]=0.0;
mas01cr@0	1572 for(j=0; j<segTable[k]-1 ; j++)
mas01cr@0	1573 meanDBdur[k]+=timesTable[j+1]-timesTable[j];
mas01cr@0	1574 meanDBdur[k]/=j;
mas01cr@0	1575 }
mas01cr@0	1576 }
mas01cr@0	1577
mas01cr@0	1578 if(usingQueryPoint)
mas01cr@0	1579 if(queryPoint>numVectors \|\| queryPoint>numVectors-wL+1)
mas01cr@0	1580 error("queryPoint > numVectors-wL+1 in query");
mas01cr@0	1581 else{
mas01cr@0	1582 if(verbosity>1)
mas01cr@0	1583 cerr << "query point: " << queryPoint << endl; cerr.flush();
mas01cr@0	1584 query=query+queryPoint*dbH->dim;
mas01cr@0	1585 qNorm=qNorm+queryPoint;
mas01cr@0	1586 numVectors=wL;
mas01cr@0	1587 }
mas01cr@0	1588
mas01cr@0	1589 double ** D = 0; // Cross-correlation between query and target
mas01cr@0	1590 double ** DD = 0; // Matched filter distance
mas01cr@0	1591
mas01cr@0	1592 D = new double*[numVectors];
mas01cr@0	1593 assert(D);
mas01cr@0	1594 DD = new double*[numVectors];
mas01cr@0	1595 assert(DD);
mas01cr@0	1596
mas01cr@0	1597 gettimeofday(&tv1, NULL);
mas01cr@0	1598 processedSegs=0;
mas01cr@0	1599 unsigned successfulSegs=0;
mas01cr@0	1600
mas01cr@0	1601 double* qp;
mas01cr@0	1602 double* sp;
mas01cr@0	1603 double* dp;
mas01cr@0	1604 double diffL2;
mas01cr@0	1605
mas01cr@0	1606 // build segment offset table
mas01cr@0	1607 unsigned *segOffsetTable = new unsigned[dbH->numFiles];
mas01cr@0	1608 unsigned cumSeg=0;
mas01cr@0	1609 unsigned segIndexOffset;
mas01cr@0	1610 for(k=0; k<dbH->numFiles;k++){
mas01cr@0	1611 segOffsetTable[k]=cumSeg;
mas01cr@0	1612 cumSeg+=segTable[k]*dbH->dim;
mas01cr@0	1613 }
mas01cr@0	1614
mas01cr@0	1615 char nextKey [MAXSTR];
mas01mc@12	1616 for(processedSegs=0, seg=0 ; processedSegs < dbH->numFiles ; seg++, processedSegs++){
mas01cr@0	1617
mas01cr@0	1618 // get segID from file if using a control file
mas01cr@0	1619 if(segFile){
mas01cr@0	1620 if(!segFile->eof()){
mas01cr@0	1621 segFile->getline(nextKey,MAXSTR);
mas01cr@0	1622 seg=getKeyPos(nextKey);
mas01cr@0	1623 }
mas01cr@0	1624 else
mas01cr@0	1625 break;
mas01cr@0	1626 }
mas01mc@12	1627
mas01cr@0	1628 segOffset=segOffsetTable[seg]; // numDoubles offset
mas01cr@0	1629 segIndexOffset=segOffset/dbH->dim; // numVectors offset
mas01cr@0	1630
mas01cr@0	1631 if(sequenceLength<segTable[seg]){ // test for short sequences
mas01cr@0	1632
mas01cr@0	1633 if(verbosity>7)
mas01cr@0	1634 cerr << seg << "." << segIndexOffset << "." << segTable[seg] << " \| ";cerr.flush();
mas01cr@0	1635
mas01cr@0	1636 // Cross-correlation matrix
mas01cr@0	1637 for(j=0; j<numVectors;j++){
mas01cr@0	1638 D[j]=new double[segTable[seg]];
mas01cr@0	1639 assert(D[j]);
mas01cr@0	1640
mas01cr@0	1641 }
mas01cr@0	1642
mas01cr@0	1643 // Matched filter matrix
mas01cr@0	1644 for(j=0; j<numVectors;j++){
mas01cr@0	1645 DD[j]=new double[segTable[seg]];
mas01cr@0	1646 assert(DD[j]);
mas01cr@0	1647 }
mas01cr@0	1648
mas01cr@0	1649 // Cross Correlation
mas01cr@0	1650 for(j=0; j<numVectors; j++)
mas01cr@0	1651 for(k=0; k<segTable[seg]; k++){
mas01cr@0	1652 qp=query+j*dbH->dim;
mas01cr@0	1653 sp=dataBuf+segOffset+k*dbH->dim;
mas01cr@0	1654 DD[j][k]=0.0; // Initialize matched filter array
mas01cr@0	1655 dp=&D[j][k]; // point to correlation cell j,k
mas01cr@0	1656 *dp=0.0; // initialize correlation cell
mas01cr@0	1657 l=dbH->dim; // size of vectors
mas01cr@0	1658 while(l--)
mas01cr@0	1659 dp+=qp++**sp++;
mas01cr@0	1660 }
mas01cr@0	1661
mas01cr@0	1662 // Matched Filter
mas01cr@0	1663 // HOP SIZE == 1
mas01cr@0	1664 double* spd;
mas01cr@0	1665 if(HOP_SIZE==1){ // HOP_SIZE = shingleHop
mas01cr@0	1666 for(w=0; w<wL; w++)
mas01cr@0	1667 for(j=0; j<numVectors-w; j++){
mas01cr@0	1668 sp=DD[j];
mas01cr@0	1669 spd=D[j+w]+w;
mas01cr@0	1670 k=segTable[seg]-w;
mas01cr@0	1671 while(k--)
mas01cr@0	1672 sp+++=spd++;
mas01cr@0	1673 }
mas01cr@0	1674 }
mas01cr@0	1675 else{ // HOP_SIZE != 1
mas01cr@0	1676 for(w=0; w<wL; w++)
mas01cr@0	1677 for(j=0; j<numVectors-w; j+=HOP_SIZE){
mas01cr@0	1678 sp=DD[j];
mas01cr@0	1679 spd=D[j+w]+w;
mas01cr@0	1680 for(k=0; k<segTable[seg]-w; k+=HOP_SIZE){
mas01cr@0	1681 sp+=spd;
mas01cr@0	1682 sp+=HOP_SIZE;
mas01cr@0	1683 spd+=HOP_SIZE;
mas01cr@0	1684 }
mas01cr@0	1685 }
mas01cr@0	1686 }
mas01cr@0	1687
mas01mc@12	1688 if(verbosity>3 && usingTimes){
mas01cr@0	1689 cerr << "meanQdur=" << meanQdur << " meanDBdur=" << meanDBdur[seg] << endl;
mas01cr@0	1690 cerr.flush();
mas01cr@0	1691 }
mas01cr@0	1692
mas01cr@0	1693 if(!usingTimes \|\|
mas01cr@0	1694 (usingTimes
mas01cr@0	1695 && fabs(meanDBdur[seg]-meanQdur)<meanQdur*timesTol)){
mas01cr@0	1696
mas01mc@12	1697 if(verbosity>3 && usingTimes){
mas01cr@0	1698 cerr << "within duration tolerance." << endl;
mas01cr@0	1699 cerr.flush();
mas01cr@0	1700 }
mas01cr@0	1701
mas01cr@0	1702 // Search for minimum distance by shingles (concatenated vectors)
mas01cr@0	1703 for(j=0;j<numVectors-wL+1;j+=HOP_SIZE)
mas01cr@0	1704 for(k=0;k<segTable[seg]-wL+1;k+=HOP_SIZE){
mas01cr@0	1705
mas01cr@0	1706 diffL2 = fabs(qNorm[j] - sNorm[k]);
mas01cr@0	1707 // Power test
mas01cr@0	1708 if(!USE_THRESH \|\|
mas01cr@0	1709 // Threshold on mean L2 of Q and S sequences
mas01cr@0	1710 (USE_THRESH && qNorm[j]>SILENCE_THRESH && sNorm[k]>SILENCE_THRESH &&
mas01cr@0	1711 // Are both query and target windows above mean energy?
mas01mc@12	1712 (qNorm[j]>qMeanL2 && sNorm[k]>sMeanL2[seg] && diffL2 < DIFF_THRESH )))
mas01cr@0	1713 thisDist=DD[j][k]*oneOverWL;
mas01cr@0	1714 else
mas01cr@0	1715 thisDist=0.0;
mas01cr@0	1716
mas01cr@0	1717 // NBest match algorithm
mas01cr@0	1718 for(m=0; m<pointNN; m++){
mas01cr@0	1719 if(thisDist>=distances[m]){
mas01cr@0	1720 // Shuffle distances up the list
mas01cr@0	1721 for(l=pointNN-1; l>m; l--){
mas01cr@0	1722 distances[l]=distances[l-1];
mas01cr@0	1723 qIndexes[l]=qIndexes[l-1];
mas01cr@0	1724 sIndexes[l]=sIndexes[l-1];
mas01cr@0	1725 }
mas01cr@0	1726 distances[m]=thisDist;
mas01cr@0	1727 if(usingQueryPoint)
mas01cr@0	1728 qIndexes[m]=queryPoint;
mas01cr@0	1729 else
mas01cr@0	1730 qIndexes[m]=j;
mas01cr@0	1731 sIndexes[m]=k;
mas01cr@0	1732 break;
mas01cr@0	1733 }
mas01cr@0	1734 }
mas01cr@0	1735 }
mas01cr@0	1736 // Calculate the mean of the N-Best matches
mas01cr@0	1737 thisDist=0.0;
mas01cr@0	1738 for(m=0; m<pointNN; m++)
mas01mc@17	1739 if(distances[m]<0.000001){ // Stop rubbish songs getting good scores
mas01mc@17	1740 thisDist=0.0;
mas01mc@17	1741 break;
mas01mc@17	1742 }
mas01mc@17	1743 else
mas01mc@17	1744 thisDist+=distances[m];
mas01cr@0	1745 thisDist/=pointNN;
mas01cr@0	1746
mas01mc@12	1747 // Let's see the distances then...
mas01mc@12	1748 if(verbosity>3)
mas01mc@17	1749 cerr << fileTable+seg*O2_FILETABLESIZE << " " << thisDist << endl;
mas01mc@12	1750
mas01cr@0	1751 // All the seg stuff goes here
mas01cr@0	1752 n=segNN;
mas01cr@0	1753 while(n--){
mas01cr@0	1754 if(thisDist>=segDistances[n]){
mas01cr@0	1755 if((n==0 \|\| thisDist<=segDistances[n-1])){
mas01cr@0	1756 // Copy all values above up the queue
mas01cr@0	1757 for( l=segNN-1 ; l > n ; l--){
mas01cr@0	1758 segDistances[l]=segDistances[l-1];
mas01cr@0	1759 segQIndexes[l]=segQIndexes[l-1];
mas01cr@0	1760 segSIndexes[l]=segSIndexes[l-1];
mas01cr@0	1761 segIDs[l]=segIDs[l-1];
mas01cr@0	1762 }
mas01cr@0	1763 segDistances[n]=thisDist;
mas01cr@0	1764 segQIndexes[n]=qIndexes[0];
mas01cr@0	1765 segSIndexes[n]=sIndexes[0];
mas01cr@0	1766 successfulSegs++;
mas01cr@0	1767 segIDs[n]=seg;
mas01cr@0	1768 break;
mas01cr@0	1769 }
mas01cr@0	1770 }
mas01cr@0	1771 else
mas01cr@0	1772 break;
mas01cr@0	1773 }
mas01cr@0	1774 } // Duration match
mas01cr@0	1775
mas01cr@0	1776 // per-seg reset array values
mas01cr@0	1777 for(unsigned k=0; k<pointNN; k++){
mas01cr@0	1778 distances[k]=0.0;
mas01cr@0	1779 qIndexes[k]=~0;
mas01cr@0	1780 sIndexes[k]=~0;
mas01cr@0	1781 }
mas01cr@0	1782
mas01cr@0	1783 // Clean up current seg
mas01cr@0	1784 if(D!=NULL){
mas01cr@0	1785 for(j=0; j<numVectors; j++)
mas01cr@0	1786 delete[] D[j];
mas01cr@0	1787 }
mas01cr@0	1788
mas01cr@0	1789 if(DD!=NULL){
mas01cr@0	1790 for(j=0; j<numVectors; j++)
mas01cr@0	1791 delete[] DD[j];
mas01cr@0	1792 }
mas01cr@0	1793 }
mas01cr@0	1794 }
mas01cr@0	1795
mas01cr@0	1796 gettimeofday(&tv2,NULL);
mas01cr@0	1797 if(verbosity>1)
mas01cr@0	1798 cerr << endl << "processed segs :" << processedSegs << " matched segments: " << successfulSegs << " elapsed time:"
mas01cr@0	1799 << ( tv2.tv_sec1000 + tv2.tv_usec/1000 ) - ( tv1.tv_sec1000+tv1.tv_usec/1000 ) << " msec" << endl;
mas01cr@0	1800
mas01cr@0	1801 if(adbQueryResult==0){
mas01cr@0	1802 if(verbosity>1)
mas01cr@0	1803 cerr<<endl;
mas01cr@0	1804 // Output answer
mas01cr@0	1805 // Loop over nearest neighbours
mas01cr@0	1806 for(k=0; k < min(segNN,successfulSegs); k++)
mas01cr@0	1807 cout << fileTable+segIDs[k]*O2_FILETABLESIZE << " " << segDistances[k] << " " << segQIndexes[k] << " " << segSIndexes[k] << endl;
mas01cr@0	1808 }
mas01cr@0	1809 else{ // Process Web Services Query
mas01cr@0	1810 int listLen = min(segNN, processedSegs);
mas01cr@0	1811 adbQueryResult->__sizeRlist=listLen;
mas01cr@0	1812 adbQueryResult->__sizeDist=listLen;
mas01cr@0	1813 adbQueryResult->__sizeQpos=listLen;
mas01cr@0	1814 adbQueryResult->__sizeSpos=listLen;
mas01cr@0	1815 adbQueryResult->Rlist= new char*[listLen];
mas01cr@0	1816 adbQueryResult->Dist = new double[listLen];
mas01cr@0	1817 adbQueryResult->Qpos = new int[listLen];
mas01cr@0	1818 adbQueryResult->Spos = new int[listLen];
mas01cr@0	1819 for(k=0; k<adbQueryResult->__sizeRlist; k++){
mas01cr@0	1820 adbQueryResult->Rlist[k]=new char[O2_MAXFILESTR];
mas01cr@0	1821 adbQueryResult->Dist[k]=segDistances[k];
mas01cr@0	1822 adbQueryResult->Qpos[k]=segQIndexes[k];
mas01cr@0	1823 adbQueryResult->Spos[k]=segSIndexes[k];
mas01cr@0	1824 sprintf(adbQueryResult->Rlist[k], "%s", fileTable+segIDs[k]*O2_FILETABLESIZE);
mas01cr@0	1825 }
mas01cr@0	1826 }
mas01cr@0	1827
mas01cr@0	1828
mas01cr@0	1829 // Clean up
mas01cr@0	1830 if(segOffsetTable)
mas01cr@0	1831 delete segOffsetTable;
mas01cr@0	1832 if(queryCopy)
mas01cr@0	1833 delete queryCopy;
mas01cr@0	1834 //if(qNorm)
mas01cr@0	1835 //delete qNorm;
mas01cr@0	1836 if(D)
mas01cr@0	1837 delete[] D;
mas01cr@0	1838 if(DD)
mas01cr@0	1839 delete[] DD;
mas01cr@0	1840 if(timesdata)
mas01cr@0	1841 delete timesdata;
mas01cr@0	1842 if(meanDBdur)
mas01cr@0	1843 delete meanDBdur;
mas01cr@0	1844
mas01cr@0	1845
mas01cr@0	1846 }
mas01cr@0	1847
mas01mc@17	1848 // NBest matched filter distance between query and target segs
mas01mc@17	1849 // efficient implementation
mas01mc@17	1850 // outputs average of N minimum matched filter distances
mas01mc@17	1851 void audioDB::segSequenceQueryEuc(const char* dbName, const char* inFile, adb__queryResult *adbQueryResult){
mas01mc@17	1852
mas01mc@17	1853 initTables(dbName, inFile);
mas01mc@17	1854
mas01mc@17	1855 // For each input vector, find the closest pointNN matching output vectors and report
mas01mc@17	1856 // we use stdout in this stub version
mas01mc@17	1857 unsigned numVectors = (statbuf.st_size-sizeof(int))/(sizeof(double)*dbH->dim);
mas01mc@17	1858 unsigned numSegs = dbH->numFiles;
mas01mc@17	1859
mas01mc@17	1860 double* query = (double*)(indata+sizeof(int));
mas01mc@17	1861 double* data = dataBuf;
mas01mc@17	1862 double* queryCopy = 0;
mas01mc@17	1863
mas01mc@17	1864 double qMeanL2;
mas01mc@17	1865 double* sMeanL2;
mas01mc@17	1866
mas01mc@17	1867 unsigned USE_THRESH=0;
mas01mc@17	1868 double SILENCE_THRESH=0;
mas01mc@17	1869 double DIFF_THRESH=0;
mas01mc@17	1870
mas01mc@17	1871 if(!(dbH->flags & O2_FLAG_L2NORM) )
mas01mc@17	1872 error("Database must be L2 normed for sequence query","use -l2norm");
mas01mc@17	1873
mas01mc@17	1874 if(verbosity>1)
mas01mc@17	1875 cerr << "performing norms ... "; cerr.flush();
mas01mc@17	1876 unsigned dbVectors = dbH->length/(sizeof(double)*dbH->dim);
mas01mc@17	1877 // Make a copy of the query
mas01mc@17	1878 queryCopy = new double[numVectors*dbH->dim];
mas01mc@17	1879 memcpy(queryCopy, query, numVectorsdbH->dimsizeof(double));
mas01mc@17	1880 qNorm = new double[numVectors];
mas01mc@17	1881 sNorm = new double[dbVectors];
mas01mc@17	1882 sMeanL2=new double[dbH->numFiles];
mas01mc@17	1883 assert(qNorm&&sNorm&&queryCopy&&sMeanL2&&sequenceLength);
mas01mc@17	1884 unitNorm(queryCopy, dbH->dim, numVectors, qNorm);
mas01mc@17	1885 query = queryCopy;
mas01mc@17	1886 // Make norm measurements relative to sequenceLength
mas01mc@17	1887 unsigned w = sequenceLength-1;
mas01mc@17	1888 unsigned i,j;
mas01mc@17	1889 double* ps;
mas01mc@17	1890 double tmp1,tmp2;
mas01mc@17	1891 // Copy the L2 norm values to core to avoid disk random access later on
mas01mc@17	1892 memcpy(sNorm, l2normTable, dbVectors*sizeof(double));
mas01mc@17	1893 double* snPtr = sNorm;
mas01mc@17	1894 for(i=0; i<dbH->numFiles; i++){
mas01mc@17	1895 if(segTable[i]>=sequenceLength){
mas01mc@17	1896 tmp1=*snPtr;
mas01mc@17	1897 j=1;
mas01mc@17	1898 w=sequenceLength-1;
mas01mc@17	1899 while(w--)
mas01mc@17	1900 *snPtr+=snPtr[j++];
mas01mc@17	1901 ps = snPtr+1;
mas01mc@17	1902 w=segTable[i]-sequenceLength; // +1 - 1
mas01mc@17	1903 while(w--){
mas01mc@17	1904 tmp2=*ps;
mas01mc@17	1905 ps=(ps-1)-tmp1+*(ps+sequenceLength-1);
mas01mc@17	1906 tmp1=tmp2;
mas01mc@17	1907 ps++;
mas01mc@17	1908 }
mas01mc@17	1909 ps = snPtr;
mas01mc@17	1910 w=segTable[i]-sequenceLength+1;
mas01mc@17	1911 while(w--){
mas01mc@17	1912 ps=sqrt(ps);
mas01mc@17	1913 ps++;
mas01mc@17	1914 }
mas01mc@17	1915 }
mas01mc@17	1916 snPtr+=segTable[i];
mas01mc@17	1917 }
mas01mc@17	1918
mas01mc@17	1919 double* pn = sMeanL2;
mas01mc@17	1920 w=dbH->numFiles;
mas01mc@17	1921 while(w--)
mas01mc@17	1922 *pn++=0.0;
mas01mc@17	1923 ps=sNorm;
mas01mc@17	1924 unsigned processedSegs=0;
mas01mc@17	1925 for(i=0; i<dbH->numFiles; i++){
mas01mc@17	1926 if(segTable[i]>sequenceLength-1){
mas01mc@17	1927 w = segTable[i]-sequenceLength;
mas01mc@17	1928 pn = sMeanL2+i;
mas01mc@17	1929 *pn=0;
mas01mc@17	1930 while(w--)
mas01mc@17	1931 if(*ps>0)
mas01mc@17	1932 pn+=ps++;
mas01mc@17	1933 *pn/=segTable[i]-sequenceLength;
mas01mc@17	1934 SILENCE_THRESH+=*pn;
mas01mc@17	1935 processedSegs++;
mas01mc@17	1936 }
mas01mc@17	1937 ps = sNorm + segTable[i];
mas01mc@17	1938 }
mas01mc@17	1939 if(verbosity>1)
mas01mc@17	1940 cerr << "processedSegs: " << processedSegs << endl;
mas01mc@17	1941
mas01mc@17	1942
mas01mc@17	1943 SILENCE_THRESH/=processedSegs;
mas01mc@17	1944 USE_THRESH=1; // Turn thresholding on
mas01mc@17	1945 DIFF_THRESH=SILENCE_THRESH; // 50% of the mean shingle power
mas01mc@17	1946 SILENCE_THRESH/=5; // 20% of the mean shingle power is SILENCE
mas01mc@17	1947 if(verbosity>4)
mas01mc@17	1948 cerr << "silence thresh: " << SILENCE_THRESH;
mas01mc@17	1949 w=sequenceLength-1;
mas01mc@17	1950 i=1;
mas01mc@17	1951 tmp1=*qNorm;
mas01mc@17	1952 while(w--)
mas01mc@17	1953 *qNorm+=qNorm[i++];
mas01mc@17	1954 ps = qNorm+1;
mas01mc@17	1955 w=numVectors-sequenceLength; // +1 -1
mas01mc@17	1956 while(w--){
mas01mc@17	1957 tmp2=*ps;
mas01mc@17	1958 ps=(ps-1)-tmp1+*(ps+sequenceLength-1);
mas01mc@17	1959 tmp1=tmp2;
mas01mc@17	1960 ps++;
mas01mc@17	1961 }
mas01mc@17	1962 ps = qNorm;
mas01mc@17	1963 qMeanL2 = 0;
mas01mc@17	1964 w=numVectors-sequenceLength+1;
mas01mc@17	1965 while(w--){
mas01mc@17	1966 ps=sqrt(ps);
mas01mc@17	1967 qMeanL2+=*ps++;
mas01mc@17	1968 }
mas01mc@17	1969 qMeanL2 /= numVectors-sequenceLength+1;
mas01mc@17	1970
mas01mc@17	1971 if(verbosity>1)
mas01mc@17	1972 cerr << "done." << endl;
mas01mc@17	1973
mas01mc@17	1974
mas01mc@17	1975 if(verbosity>1)
mas01mc@17	1976 cerr << "matching segs..." << endl;
mas01mc@17	1977
mas01mc@17	1978 assert(pointNN>0 && pointNN<=O2_MAXNN);
mas01mc@17	1979 assert(segNN>0 && segNN<=O2_MAXNN);
mas01mc@17	1980
mas01mc@17	1981 // Make temporary dynamic memory for results
mas01mc@17	1982 double segDistances[segNN];
mas01mc@17	1983 unsigned segIDs[segNN];
mas01mc@17	1984 unsigned segQIndexes[segNN];
mas01mc@17	1985 unsigned segSIndexes[segNN];
mas01mc@17	1986
mas01mc@17	1987 double distances[pointNN];
mas01mc@17	1988 unsigned qIndexes[pointNN];
mas01mc@17	1989 unsigned sIndexes[pointNN];
mas01mc@17	1990
mas01mc@17	1991
mas01mc@17	1992 unsigned k,l,m,n,seg,segOffset=0, HOP_SIZE=sequenceHop, wL=sequenceLength;
mas01mc@17	1993 double thisDist;
mas01mc@17	1994 double oneOverWL=1.0/wL;
mas01mc@17	1995
mas01mc@17	1996 for(k=0; k<pointNN; k++){
mas01mc@17	1997 distances[k]=0.0;
mas01mc@17	1998 qIndexes[k]=~0;
mas01mc@17	1999 sIndexes[k]=~0;
mas01mc@17	2000 }
mas01mc@17	2001
mas01mc@17	2002 for(k=0; k<segNN; k++){
mas01mc@17	2003 segDistances[k]=0.0;
mas01mc@17	2004 segQIndexes[k]=~0;
mas01mc@17	2005 segSIndexes[k]=~0;
mas01mc@17	2006 segIDs[k]=~0;
mas01mc@17	2007 }
mas01mc@17	2008
mas01mc@17	2009 // Timestamp and durations processing
mas01mc@17	2010 double meanQdur = 0;
mas01mc@17	2011 double* timesdata = 0;
mas01mc@17	2012 double* meanDBdur = 0;
mas01mc@17	2013
mas01mc@17	2014 if(usingTimes && !(dbH->flags & O2_FLAG_TIMES)){
mas01mc@17	2015 cerr << "warning: ignoring query timestamps for non-timestamped database" << endl;
mas01mc@17	2016 usingTimes=0;
mas01mc@17	2017 }
mas01mc@17	2018
mas01mc@17	2019 else if(!usingTimes && (dbH->flags & O2_FLAG_TIMES))
mas01mc@17	2020 cerr << "warning: no timestamps given for query. Ignoring database timestamps." << endl;
mas01mc@17	2021
mas01mc@17	2022 else if(usingTimes && (dbH->flags & O2_FLAG_TIMES)){
mas01mc@17	2023 timesdata = new double[numVectors];
mas01mc@17	2024 assert(timesdata);
mas01mc@17	2025 insertTimeStamps(numVectors, timesFile, timesdata);
mas01mc@17	2026 // Calculate durations of points
mas01mc@17	2027 for(k=0; k<numVectors-1; k++){
mas01mc@17	2028 timesdata[k]=timesdata[k+1]-timesdata[k];
mas01mc@17	2029 meanQdur+=timesdata[k];
mas01mc@17	2030 }
mas01mc@17	2031 meanQdur/=k;
mas01mc@17	2032 if(verbosity>1)
mas01mc@17	2033 cerr << "mean query file duration: " << meanQdur << endl;
mas01mc@17	2034 meanDBdur = new double[dbH->numFiles];
mas01mc@17	2035 assert(meanDBdur);
mas01mc@17	2036 for(k=0; k<dbH->numFiles; k++){
mas01mc@17	2037 meanDBdur[k]=0.0;
mas01mc@17	2038 for(j=0; j<segTable[k]-1 ; j++)
mas01mc@17	2039 meanDBdur[k]+=timesTable[j+1]-timesTable[j];
mas01mc@17	2040 meanDBdur[k]/=j;
mas01mc@17	2041 }
mas01mc@17	2042 }
mas01mc@17	2043
mas01mc@17	2044 if(usingQueryPoint)
mas01mc@17	2045 if(queryPoint>numVectors \|\| queryPoint>numVectors-wL+1)
mas01mc@17	2046 error("queryPoint > numVectors-wL+1 in query");
mas01mc@17	2047 else{
mas01mc@17	2048 if(verbosity>1)
mas01mc@17	2049 cerr << "query point: " << queryPoint << endl; cerr.flush();
mas01mc@17	2050 query=query+queryPoint*dbH->dim;
mas01mc@17	2051 qNorm=qNorm+queryPoint;
mas01mc@17	2052 numVectors=wL;
mas01mc@17	2053 }
mas01mc@17	2054
mas01mc@17	2055 double ** D = 0; // Differences query and target
mas01mc@17	2056 double ** DD = 0; // Matched filter distance
mas01mc@17	2057
mas01mc@17	2058 D = new double*[numVectors];
mas01mc@17	2059 assert(D);
mas01mc@17	2060 DD = new double*[numVectors];
mas01mc@17	2061 assert(DD);
mas01mc@17	2062
mas01mc@17	2063 gettimeofday(&tv1, NULL);
mas01mc@17	2064 processedSegs=0;
mas01mc@17	2065 unsigned successfulSegs=0;
mas01mc@17	2066
mas01mc@17	2067 double* qp;
mas01mc@17	2068 double* sp;
mas01mc@17	2069 double* dp;
mas01mc@17	2070 double diffL2;
mas01mc@17	2071
mas01mc@17	2072 // build segment offset table
mas01mc@17	2073 unsigned *segOffsetTable = new unsigned[dbH->numFiles];
mas01mc@17	2074 unsigned cumSeg=0;
mas01mc@17	2075 unsigned segIndexOffset;
mas01mc@17	2076 for(k=0; k<dbH->numFiles;k++){
mas01mc@17	2077 segOffsetTable[k]=cumSeg;
mas01mc@17	2078 cumSeg+=segTable[k]*dbH->dim;
mas01mc@17	2079 }
mas01mc@17	2080
mas01mc@17	2081 char nextKey [MAXSTR];
mas01mc@17	2082
mas01mc@17	2083 // chi^2 statistics
mas01mc@17	2084 double sampleCount = 0;
mas01mc@17	2085 double sampleSum = 0;
mas01mc@17	2086 double logSampleSum = 0;
mas01mc@17	2087 double minSample = 1e9;
mas01mc@17	2088 double maxSample = 0;
mas01mc@17	2089
mas01mc@17	2090 // Track loop
mas01mc@17	2091 for(processedSegs=0, seg=0 ; processedSegs < dbH->numFiles ; seg++, processedSegs++){
mas01mc@17	2092
mas01mc@17	2093 // get segID from file if using a control file
mas01mc@17	2094 if(segFile){
mas01mc@17	2095 if(!segFile->eof()){
mas01mc@17	2096 segFile->getline(nextKey,MAXSTR);
mas01mc@17	2097 seg=getKeyPos(nextKey);
mas01mc@17	2098 }
mas01mc@17	2099 else
mas01mc@17	2100 break;
mas01mc@17	2101 }
mas01mc@17	2102
mas01mc@17	2103 segOffset=segOffsetTable[seg]; // numDoubles offset
mas01mc@17	2104 segIndexOffset=segOffset/dbH->dim; // numVectors offset
mas01mc@17	2105
mas01mc@17	2106 if(sequenceLength<segTable[seg]){ // test for short sequences
mas01mc@17	2107
mas01mc@17	2108 if(verbosity>7)
mas01mc@17	2109 cerr << seg << "." << segIndexOffset << "." << segTable[seg] << " \| ";cerr.flush();
mas01mc@17	2110
mas01mc@17	2111 // Sum products matrix
mas01mc@17	2112 for(j=0; j<numVectors;j++){
mas01mc@17	2113 D[j]=new double[segTable[seg]];
mas01mc@17	2114 assert(D[j]);
mas01mc@17	2115
mas01mc@17	2116 }
mas01mc@17	2117
mas01mc@17	2118 // Matched filter matrix
mas01mc@17	2119 for(j=0; j<numVectors;j++){
mas01mc@17	2120 DD[j]=new double[segTable[seg]];
mas01mc@17	2121 assert(DD[j]);
mas01mc@17	2122 }
mas01mc@17	2123
mas01mc@17	2124 double tmp;
mas01mc@17	2125 // Dot product
mas01mc@17	2126 for(j=0; j<numVectors; j++)
mas01mc@17	2127 for(k=0; k<segTable[seg]; k++){
mas01mc@17	2128 qp=query+j*dbH->dim;
mas01mc@17	2129 sp=dataBuf+segOffset+k*dbH->dim;
mas01mc@17	2130 DD[j][k]=0.0; // Initialize matched filter array
mas01mc@17	2131 dp=&D[j][k]; // point to correlation cell j,k
mas01mc@17	2132 *dp=0.0; // initialize correlation cell
mas01mc@17	2133 l=dbH->dim; // size of vectors
mas01mc@17	2134 while(l--)
mas01mc@17	2135 dp+=qp++**sp++;
mas01mc@17	2136 }
mas01mc@17	2137
mas01mc@17	2138 // Matched Filter
mas01mc@17	2139 // HOP SIZE == 1
mas01mc@17	2140 double* spd;
mas01mc@17	2141 if(HOP_SIZE==1){ // HOP_SIZE = shingleHop
mas01mc@17	2142 for(w=0; w<wL; w++)
mas01mc@17	2143 for(j=0; j<numVectors-w; j++){
mas01mc@17	2144 sp=DD[j];
mas01mc@17	2145 spd=D[j+w]+w;
mas01mc@17	2146 k=segTable[seg]-w;
mas01mc@17	2147 while(k--)
mas01mc@17	2148 sp+++=spd++;
mas01mc@17	2149 }
mas01mc@17	2150 }
mas01mc@17	2151
mas01mc@17	2152 else{ // HOP_SIZE != 1
mas01mc@17	2153 for(w=0; w<wL; w++)
mas01mc@17	2154 for(j=0; j<numVectors-w; j+=HOP_SIZE){
mas01mc@17	2155 sp=DD[j];
mas01mc@17	2156 spd=D[j+w]+w;
mas01mc@17	2157 for(k=0; k<segTable[seg]-w; k+=HOP_SIZE){
mas01mc@17	2158 sp+=spd;
mas01mc@17	2159 sp+=HOP_SIZE;
mas01mc@17	2160 spd+=HOP_SIZE;
mas01mc@17	2161 }
mas01mc@17	2162 }
mas01mc@17	2163 }
mas01mc@17	2164
mas01mc@17	2165 if(verbosity>3 && usingTimes){
mas01mc@17	2166 cerr << "meanQdur=" << meanQdur << " meanDBdur=" << meanDBdur[seg] << endl;
mas01mc@17	2167 cerr.flush();
mas01mc@17	2168 }
mas01mc@17	2169
mas01mc@17	2170 if(!usingTimes \|\|
mas01mc@17	2171 (usingTimes
mas01mc@17	2172 && fabs(meanDBdur[seg]-meanQdur)<meanQdur*timesTol)){
mas01mc@17	2173
mas01mc@17	2174 if(verbosity>3 && usingTimes){
mas01mc@17	2175 cerr << "within duration tolerance." << endl;
mas01mc@17	2176 cerr.flush();
mas01mc@17	2177 }
mas01mc@17	2178
mas01mc@17	2179 // Search for minimum distance by shingles (concatenated vectors)
mas01mc@17	2180 for(j=0;j<numVectors-wL;j+=HOP_SIZE)
mas01mc@17	2181 for(k=0;k<segTable[seg]-wL;k+=HOP_SIZE){
mas01mc@17	2182 thisDist=2-(2/(qNorm[j]sNorm[segIndexOffset+k]))DD[j][k];
mas01mc@17	2183 if(verbosity>10)
mas01mc@17	2184 cerr << thisDist << " " << qNorm[j] << " " << sNorm[segIndexOffset+k] << endl;
mas01mc@17	2185 // Gather chi^2 statistics
mas01mc@17	2186 if(thisDist<minSample)
mas01mc@17	2187 minSample=thisDist;
mas01mc@17	2188 else if(thisDist>maxSample)
mas01mc@17	2189 maxSample=thisDist;
mas01mc@17	2190 if(thisDist>1e-9){
mas01mc@17	2191 sampleCount++;
mas01mc@17	2192 sampleSum+=thisDist;
mas01mc@17	2193 logSampleSum+=log(thisDist);
mas01mc@17	2194 }
mas01mc@17	2195
mas01mc@17	2196 diffL2 = fabs(qNorm[j] - sNorm[segIndexOffset+k]);
mas01mc@17	2197 // Power test
mas01mc@17	2198 if(!USE_THRESH \|\|
mas01mc@17	2199 // Threshold on mean L2 of Q and S sequences
mas01mc@17	2200 (USE_THRESH && qNorm[j]>SILENCE_THRESH && sNorm[segIndexOffset+k]>SILENCE_THRESH &&
mas01mc@17	2201 // Are both query and target windows above mean energy?
mas01mc@17	2202 (qNorm[j]>qMeanL2.25 && sNorm[segIndexOffset+k]>sMeanL2[seg].25))) // && diffL2 < DIFF_THRESH )))
mas01mc@17	2203 thisDist=thisDist; // Computed above
mas01mc@17	2204 else
mas01mc@17	2205 thisDist=1000000.0;
mas01mc@17	2206 if(thisDist>=0 && thisDist<=radius){
mas01mc@17	2207 distances[0]++; // increment count
mas01mc@17	2208 break; // only need one seg point per query point
mas01mc@17	2209 }
mas01mc@17	2210 }
mas01mc@17	2211 // How many points were below threshold ?
mas01mc@17	2212 thisDist=distances[0];
mas01mc@17	2213
mas01mc@17	2214 // Let's see the distances then...
mas01mc@17	2215 if(verbosity>3)
mas01mc@17	2216 cerr << fileTable+seg*O2_FILETABLESIZE << " " << thisDist << endl;
mas01mc@17	2217
mas01mc@17	2218 // All the seg stuff goes here
mas01mc@17	2219 n=segNN;
mas01mc@17	2220 while(n--){
mas01mc@17	2221 if(thisDist>segDistances[n]){
mas01mc@17	2222 if((n==0 \|\| thisDist<=segDistances[n-1])){
mas01mc@17	2223 // Copy all values above up the queue
mas01mc@17	2224 for( l=segNN-1 ; l > n ; l--){
mas01mc@17	2225 segDistances[l]=segDistances[l-1];
mas01mc@17	2226 segQIndexes[l]=segQIndexes[l-1];
mas01mc@17	2227 segSIndexes[l]=segSIndexes[l-1];
mas01mc@17	2228 segIDs[l]=segIDs[l-1];
mas01mc@17	2229 }
mas01mc@17	2230 segDistances[n]=thisDist;
mas01mc@17	2231 segQIndexes[n]=qIndexes[0];
mas01mc@17	2232 segSIndexes[n]=sIndexes[0];
mas01mc@17	2233 successfulSegs++;
mas01mc@17	2234 segIDs[n]=seg;
mas01mc@17	2235 break;
mas01mc@17	2236 }
mas01mc@17	2237 }
mas01mc@17	2238 else
mas01mc@17	2239 break;
mas01mc@17	2240 }
mas01mc@17	2241 } // Duration match
mas01mc@17	2242
mas01mc@17	2243 // Clean up current seg
mas01mc@17	2244 if(D!=NULL){
mas01mc@17	2245 for(j=0; j<numVectors; j++)
mas01mc@17	2246 delete[] D[j];
mas01mc@17	2247 }
mas01mc@17	2248
mas01mc@17	2249 if(DD!=NULL){
mas01mc@17	2250 for(j=0; j<numVectors; j++)
mas01mc@17	2251 delete[] DD[j];
mas01mc@17	2252 }
mas01mc@17	2253 }
mas01mc@17	2254 // per-seg reset array values
mas01mc@17	2255 for(unsigned k=0; k<pointNN; k++){
mas01mc@17	2256 distances[k]=0.0;
mas01mc@17	2257 qIndexes[k]=~0;
mas01mc@17	2258 sIndexes[k]=~0;
mas01mc@17	2259 }
mas01mc@17	2260 }
mas01mc@17	2261
mas01mc@17	2262 gettimeofday(&tv2,NULL);
mas01mc@17	2263 if(verbosity>1){
mas01mc@17	2264 cerr << endl << "processed segs :" << processedSegs << " matched segments: " << successfulSegs << " elapsed time:"
mas01mc@17	2265 << ( tv2.tv_sec1000 + tv2.tv_usec/1000 ) - ( tv1.tv_sec1000+tv1.tv_usec/1000 ) << " msec" << endl;
mas01mc@17	2266 cerr << "sampleCount: " << sampleCount << " sampleSum: " << sampleSum << " logSampleSum: " << logSampleSum
mas01mc@17	2267 << " minSample: " << minSample << " maxSample: " << maxSample << endl;
mas01mc@17	2268 }
mas01mc@17	2269
mas01mc@17	2270 if(adbQueryResult==0){
mas01mc@17	2271 if(verbosity>1)
mas01mc@17	2272 cerr<<endl;
mas01mc@17	2273 // Output answer
mas01mc@17	2274 // Loop over nearest neighbours
mas01mc@17	2275 for(k=0; k < min(segNN,successfulSegs); k++)
mas01mc@17	2276 cout << fileTable+segIDs[k]*O2_FILETABLESIZE << " " << segDistances[k] << endl;
mas01mc@17	2277 }
mas01mc@17	2278 else{ // Process Web Services Query
mas01mc@17	2279 int listLen = min(segNN, processedSegs);
mas01mc@17	2280 adbQueryResult->__sizeRlist=listLen;
mas01mc@17	2281 adbQueryResult->__sizeDist=listLen;
mas01mc@17	2282 adbQueryResult->__sizeQpos=listLen;
mas01mc@17	2283 adbQueryResult->__sizeSpos=listLen;
mas01mc@17	2284 adbQueryResult->Rlist= new char*[listLen];
mas01mc@17	2285 adbQueryResult->Dist = new double[listLen];
mas01mc@17	2286 adbQueryResult->Qpos = new int[listLen];
mas01mc@17	2287 adbQueryResult->Spos = new int[listLen];
mas01mc@17	2288 for(k=0; k<adbQueryResult->__sizeRlist; k++){
mas01mc@17	2289 adbQueryResult->Rlist[k]=new char[O2_MAXFILESTR];
mas01mc@17	2290 adbQueryResult->Dist[k]=segDistances[k];
mas01mc@17	2291 adbQueryResult->Qpos[k]=segQIndexes[k];
mas01mc@17	2292 adbQueryResult->Spos[k]=segSIndexes[k];
mas01mc@17	2293 sprintf(adbQueryResult->Rlist[k], "%s", fileTable+segIDs[k]*O2_FILETABLESIZE);
mas01mc@17	2294 }
mas01mc@17	2295 }
mas01mc@17	2296
mas01mc@17	2297
mas01mc@17	2298 // Clean up
mas01mc@17	2299 if(segOffsetTable)
mas01mc@17	2300 delete[] segOffsetTable;
mas01mc@17	2301 if(queryCopy)
mas01mc@17	2302 delete[] queryCopy;
mas01mc@17	2303 //if(qNorm)
mas01mc@17	2304 //delete qNorm;
mas01mc@17	2305 if(D)
mas01mc@17	2306 delete[] D;
mas01mc@17	2307 if(DD)
mas01mc@17	2308 delete[] DD;
mas01mc@17	2309 if(timesdata)
mas01mc@17	2310 delete[] timesdata;
mas01mc@17	2311 if(meanDBdur)
mas01mc@17	2312 delete[] meanDBdur;
mas01mc@17	2313
mas01mc@17	2314
mas01mc@17	2315 }
mas01mc@17	2316
mas01cr@0	2317 void audioDB::normalize(double* X, int dim, int n){
mas01cr@0	2318 unsigned c = n*dim;
mas01cr@0	2319 double minval,maxval,v,*p;
mas01cr@0	2320
mas01cr@0	2321 p=X;
mas01cr@0	2322 while(c--){
mas01cr@0	2323 v=*p++;
mas01cr@0	2324 if(v<minval)
mas01cr@0	2325 minval=v;
mas01cr@0	2326 else if(v>maxval)
mas01cr@0	2327 maxval=v;
mas01cr@0	2328 }
mas01cr@0	2329
mas01cr@0	2330 normalize(X, dim, n, minval, maxval);
mas01cr@0	2331
mas01cr@0	2332 }
mas01cr@0	2333
mas01cr@0	2334 void audioDB::normalize(double* X, int dim, int n, double minval, double maxval){
mas01cr@0	2335 unsigned c = n*dim;
mas01cr@0	2336 double *p;
mas01cr@0	2337
mas01cr@0	2338
mas01cr@0	2339 if(maxval==minval)
mas01cr@0	2340 return;
mas01cr@0	2341
mas01cr@0	2342 maxval=1.0/(maxval-minval);
mas01cr@0	2343 c=n*dim;
mas01cr@0	2344 p=X;
mas01cr@0	2345
mas01cr@0	2346 while(c--){
mas01cr@0	2347 p=(p-minval)*maxval;
mas01cr@0	2348 p++;
mas01cr@0	2349 }
mas01cr@0	2350 }
mas01cr@0	2351
mas01cr@0	2352 // Unit norm block of features
mas01cr@0	2353 void audioDB::unitNorm(double* X, unsigned dim, unsigned n, double* qNorm){
mas01cr@0	2354 unsigned d;
mas01cr@0	2355 double L2, oneOverL2, *p;
mas01cr@0	2356 if(verbosity>2)
mas01cr@0	2357 cerr << "norming " << n << " vectors...";cerr.flush();
mas01cr@0	2358 while(n--){
mas01cr@0	2359 p=X;
mas01cr@0	2360 L2=0.0;
mas01cr@0	2361 d=dim;
mas01cr@0	2362 while(d--){
mas01cr@0	2363 L2+=p*p;
mas01cr@0	2364 p++;
mas01cr@0	2365 }
mas01mc@17	2366 /* L2=sqrt(L2);*/
mas01cr@0	2367 if(qNorm)
mas01cr@0	2368 *qNorm++=L2;
mas01mc@17	2369 /*
mas01cr@0	2370 oneOverL2 = 1.0/L2;
mas01cr@0	2371 d=dim;
mas01cr@0	2372 while(d--){
mas01cr@0	2373 X=oneOverL2;
mas01cr@0	2374 X++;
mas01mc@17	2375 */
mas01mc@17	2376 X+=dim;
mas01cr@0	2377 }
mas01cr@0	2378 if(verbosity>2)
mas01cr@0	2379 cerr << "done..." << endl;
mas01cr@0	2380 }
mas01cr@0	2381
mas01cr@0	2382 // Unit norm block of features
mas01cr@0	2383 void audioDB::unitNormAndInsertL2(double* X, unsigned dim, unsigned n, unsigned append=0){
mas01cr@0	2384 unsigned d;
mas01cr@0	2385 double L2, oneOverL2, *p;
mas01cr@0	2386 unsigned nn = n;
mas01cr@0	2387
mas01cr@0	2388 assert(l2normTable);
mas01cr@0	2389
mas01cr@0	2390 if( !append && (dbH->flags & O2_FLAG_L2NORM) )
mas01cr@0	2391 error("Database is already L2 normed", "automatic norm on insert is enabled");
mas01cr@0	2392
mas01cr@0	2393 if(verbosity>2)
mas01cr@0	2394 cerr << "norming " << n << " vectors...";cerr.flush();
mas01cr@0	2395
mas01cr@0	2396 double* l2buf = new double[n];
mas01cr@0	2397 double* l2ptr = l2buf;
mas01cr@0	2398 assert(l2buf);
mas01cr@0	2399 assert(X);
mas01cr@0	2400
mas01cr@0	2401 while(nn--){
mas01cr@0	2402 p=X;
mas01cr@0	2403 *l2ptr=0.0;
mas01cr@0	2404 d=dim;
mas01cr@0	2405 while(d--){
mas01cr@0	2406 l2ptr+=p**p;
mas01cr@0	2407 p++;
mas01cr@0	2408 }
mas01mc@17	2409 l2ptr++;
mas01mc@17	2410 /*
mas01mc@17	2411 oneOverL2 = 1.0/(*l2ptr++);
mas01mc@17	2412 d=dim;
mas01mc@17	2413 while(d--){
mas01cr@0	2414 X=oneOverL2;
mas01cr@0	2415 X++;
mas01mc@17	2416 }
mas01mc@17	2417 */
mas01mc@17	2418 X+=dim;
mas01cr@0	2419 }
mas01cr@0	2420 unsigned offset;
mas01cr@0	2421 if(append)
mas01cr@0	2422 offset=dbH->length/(dbH->dim*sizeof(double)); // number of vectors
mas01cr@0	2423 else
mas01cr@0	2424 offset=0;
mas01cr@0	2425 memcpy(l2normTable+offset, l2buf, n*sizeof(double));
mas01cr@0	2426 if(l2buf)
mas01mc@17	2427 delete[] l2buf;
mas01cr@0	2428 if(verbosity>2)
mas01cr@0	2429 cerr << "done..." << endl;
mas01cr@0	2430 }
mas01cr@0	2431
mas01cr@0	2432
mas01cr@0	2433 // Start an audioDB server on the host
mas01cr@0	2434 void audioDB::startServer(){
mas01cr@0	2435 struct soap soap;
mas01cr@0	2436 int m, s; // master and slave sockets
mas01cr@0	2437 soap_init(&soap);
mas01cr@0	2438 m = soap_bind(&soap, NULL, port, 100);
mas01cr@0	2439 if (m < 0)
mas01cr@0	2440 soap_print_fault(&soap, stderr);
mas01cr@0	2441 else
mas01cr@0	2442 {
mas01cr@0	2443 fprintf(stderr, "Socket connection successful: master socket = %d\n", m);
mas01cr@0	2444 for (int i = 1; ; i++)
mas01cr@0	2445 {
mas01cr@0	2446 s = soap_accept(&soap);
mas01cr@0	2447 if (s < 0)
mas01cr@0	2448 {
mas01cr@0	2449 soap_print_fault(&soap, stderr);
mas01cr@0	2450 break;
mas01cr@0	2451 }
mas01cr@0	2452 fprintf(stderr, "%d: accepted connection from IP=%d.%d.%d.%d socket=%d\n", i,
mas01cr@0	2453 (soap.ip >> 24)&0xFF, (soap.ip >> 16)&0xFF, (soap.ip >> 8)&0xFF, soap.ip&0xFF, s);
mas01cr@0	2454 if (soap_serve(&soap) != SOAP_OK) // process RPC request
mas01cr@0	2455 soap_print_fault(&soap, stderr); // print error
mas01cr@0	2456 fprintf(stderr, "request served\n");
mas01cr@0	2457 soap_destroy(&soap); // clean up class instances
mas01cr@0	2458 soap_end(&soap); // clean up everything and close socket
mas01cr@0	2459 }
mas01cr@0	2460 }
mas01cr@0	2461 soap_done(&soap); // close master socket and detach environment
mas01cr@0	2462 }
mas01cr@0	2463
mas01cr@0	2464
mas01cr@0	2465 // web services
mas01cr@0	2466
mas01cr@0	2467 // SERVER SIDE
mas01cr@0	2468 int adb__status(struct soap* soap, xsd__string dbName, xsd__int &adbCreateResult){
mas01cr@0	2469 char* const argv[]={"audioDB",COM_STATUS,dbName};
mas01cr@0	2470 const unsigned argc = 3;
mas01cr@0	2471 audioDB(argc,argv);
mas01cr@0	2472 adbCreateResult=100;
mas01cr@0	2473 return SOAP_OK;
mas01cr@0	2474 }
mas01cr@0	2475
mas01cr@0	2476 // Literal translation of command line to web service
mas01cr@0	2477
mas01cr@0	2478 int adb__query(struct soap* soap, xsd__string dbName, xsd__string qKey, xsd__string keyList, xsd__string timesFileName, xsd__int qType, xsd__int qPos, xsd__int pointNN, xsd__int segNN, xsd__int seqLen, adb__queryResult &adbQueryResult){
mas01cr@0	2479 char queryType[256];
mas01cr@0	2480 for(int k=0; k<256; k++)
mas01cr@0	2481 queryType[k]='\0';
mas01cr@0	2482 if(qType == O2_FLAG_POINT_QUERY)
mas01cr@0	2483 strncpy(queryType, "point", strlen("point"));
mas01cr@0	2484 else if (qType == O2_FLAG_SEQUENCE_QUERY)
mas01cr@0	2485 strncpy(queryType, "sequence", strlen("sequence"));
mas01cr@0	2486 else if(qType == O2_FLAG_SEG_QUERY)
mas01cr@0	2487 strncpy(queryType,"segment", strlen("segment"));
mas01cr@0	2488 else
mas01cr@0	2489 strncpy(queryType, "", strlen(""));
mas01cr@0	2490
mas01cr@0	2491 if(pointNN==0)
mas01cr@0	2492 pointNN=10;
mas01cr@0	2493 if(segNN==0)
mas01cr@0	2494 segNN=10;
mas01cr@0	2495 if(seqLen==0)
mas01cr@0	2496 seqLen=16;
mas01cr@0	2497
mas01cr@0	2498 char qPosStr[256];
mas01cr@0	2499 sprintf(qPosStr, "%d", qPos);
mas01cr@0	2500 char pointNNStr[256];
mas01cr@0	2501 sprintf(pointNNStr,"%d",pointNN);
mas01cr@0	2502 char segNNStr[256];
mas01cr@0	2503 sprintf(segNNStr,"%d",segNN);
mas01cr@0	2504 char seqLenStr[256];
mas01cr@0	2505 sprintf(seqLenStr,"%d",seqLen);
mas01cr@0	2506
mas01cr@0	2507 const char* argv[] ={
mas01cr@0	2508 "./audioDB",
mas01cr@0	2509 COM_QUERY,
mas01cr@0	2510 queryType, // Need to pass a parameter
mas01cr@0	2511 COM_DATABASE,
mas01cr@0	2512 dbName,
mas01cr@0	2513 COM_FEATURES,
mas01cr@0	2514 qKey,
mas01cr@0	2515 COM_KEYLIST,
mas01cr@0	2516 keyList==0?"":keyList,
mas01cr@0	2517 COM_TIMES,
mas01cr@0	2518 timesFileName==0?"":timesFileName,
mas01cr@0	2519 COM_QPOINT,
mas01cr@0	2520 qPosStr,
mas01cr@0	2521 COM_POINTNN,
mas01cr@0	2522 pointNNStr,
mas01cr@0	2523 COM_SEGNN,
mas01cr@0	2524 segNNStr, // Need to pass a parameter
mas01cr@0	2525 COM_SEQLEN,
mas01cr@0	2526 seqLenStr
mas01cr@0	2527 };
mas01cr@0	2528
mas01cr@0	2529 const unsigned argc = 19;
mas01cr@0	2530 audioDB(argc, (char* const*)argv, &adbQueryResult);
mas01cr@0	2531 return SOAP_OK;
mas01cr@0	2532 }
mas01cr@0	2533
mas01cr@0	2534 int main(const unsigned argc, char* const argv[]){
mas01cr@0	2535 audioDB(argc, argv);
mas01cr@0	2536 }

Mercurial > hg > audiodb

annotate audioDB.cpp @ 17:6d899df0cfe4