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annotate lshlib.h @ 519:fdcd436d7cbd multiprobeLSH

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lshlib MultiProbe glue added. Compiles and links against audioDB. Fails LSH tests at the moment.
author mas01mc
date Mon, 26 Jan 2009 05:42:15 +0000
parents 01cb73dfcddd
children 83e37b76b483
rev   line source
mas01mc@292 1 // lshlib.h - a library for locality sensitive hashtable insertion and retrieval
mas01mc@292 2 //
mas01mc@292 3 // Author: Michael Casey
mas01mc@292 4 // Copyright (c) 2008 Michael Casey, All Rights Reserved
mas01mc@292 5
mas01mc@292 6 /* GNU GENERAL PUBLIC LICENSE
mas01mc@292 7 Version 2, June 1991
mas01mc@292 8 See LICENSE.txt
mas01mc@292 9 */
mas01mc@292 10
mas01mc@292 11 #ifndef __LSHLIB_H
mas01mc@292 12 #define __LSHLIB_H
mas01mc@292 13
mas01mc@292 14 #include <vector>
mas01mc@292 15 #include <queue>
mas01mc@292 16 #include <stdio.h>
mas01mc@292 17 #include <stdlib.h>
mas01mc@292 18 #include <sys/types.h>
mas01mc@292 19 #include <sys/stat.h>
mas01mc@292 20 #include <sys/mman.h>
mas01mc@292 21 #include <fcntl.h>
mas01mc@292 22 #include <string.h>
mas01mc@292 23 #include <iostream>
mas01mc@292 24 #include <fstream>
mas01mc@292 25 #include <math.h>
mas01mc@292 26 #include <sys/time.h>
mas01mc@292 27 #include <assert.h>
mas01mc@292 28 #include <float.h>
mas01mc@292 29 #include <signal.h>
mas01mc@292 30 #include <time.h>
mas01mc@292 31 #include <limits.h>
mas01mc@292 32 #include <errno.h>
mas01mc@292 33 #ifdef MT19937
mas01mc@292 34 #include "mt19937/mt19937ar.h"
mas01mc@292 35 #endif
mas01mc@519 36 #include "multiprobe.h"
mas01mc@292 37
mas01mc@292 38 #define IntT int
mas01mc@292 39 #define LongUns64T long long unsigned
mas01mc@292 40 #define Uns32T unsigned
mas01mc@292 41 #define Int32T int
mas01mc@292 42 #define BooleanT int
mas01mc@292 43 #define TRUE 1
mas01mc@292 44 #define FALSE 0
mas01mc@292 45
mas01mc@292 46 // A big number (>> max # of points)
mas01mc@292 47 #define INDEX_START_EMPTY 1000000000U
mas01mc@292 48
mas01mc@292 49 // 4294967291 = 2^32-5
mas01mc@292 50 #define UH_PRIME_DEFAULT 4294967291U
mas01mc@292 51
mas01mc@292 52 // 2^29
mas01mc@292 53 #define MAX_HASH_RND 536870912U
mas01mc@292 54
mas01mc@292 55 // 2^32-1
mas01mc@292 56 #define TWO_TO_32_MINUS_1 4294967295U
mas01mc@292 57
mas01mc@292 58 #define O2_SERIAL_VERSION 1 // Sync with SVN version
mas01mc@292 59 #define O2_SERIAL_HEADER_SIZE sizeof(SerialHeaderT)
mas01mc@292 60 #define O2_SERIAL_ELEMENT_SIZE sizeof(SerialElementT)
mas01mc@292 61 #define O2_SERIAL_MAX_TABLES (200)
mas01mc@324 62 #define O2_SERIAL_MAX_ROWS (1000000000)
mas01mc@324 63 #define O2_SERIAL_MAX_COLS (1000000)
mas01mc@464 64 #define O2_SERIAL_MAX_DIM (20000)
mas01mc@292 65 #define O2_SERIAL_MAX_FUNS (100)
mas01mc@292 66 #define O2_SERIAL_MAX_BINWIDTH (200)
mas01mc@296 67 #define O2_SERIAL_MAXFILESIZE (4000000000UL)
mas01mc@292 68
mas01mc@292 69 // Flags for Serial Header
mas01mc@324 70 #define O2_SERIAL_FILEFORMAT1 (0x1U) // Optimize disk format for on-disk search
mas01mc@324 71 #define O2_SERIAL_FILEFORMAT2 (0x2U) // Optimize disk format for in-core search
mas01mc@324 72 #define O2_SERIAL_COREFORMAT1 (0x4U)
mas01mc@324 73 #define O2_SERIAL_COREFORMAT2 (0x8U)
mas01mc@292 74
mas01mc@292 75 // Flags for serialization fileformat2: use high 3 bits of Uns32T
mas01mc@324 76 #define O2_SERIAL_TOKEN_T1 (0xFFFFFFFCU)
mas01mc@306 77 #define O2_SERIAL_TOKEN_T2 (0xFFFFFFFDU)
mas01mc@306 78 #define O2_SERIAL_TOKEN_ENDTABLE (0xFFFFFFFEU)
mas01mc@292 79
mas01mc@324 80 #define O2_INDEX_MAXSTR (256)
mas01mc@309 81
mas01mc@292 82 unsigned align_up(unsigned x, unsigned w);
mas01mc@292 83
mas01mc@292 84 #define O2_SERIAL_FUNCTIONS_SIZE (align_up(sizeof(float) * O2_SERIAL_MAX_TABLES * O2_SERIAL_MAX_FUNS * O2_SERIAL_MAX_DIM \
mas01mc@292 85 + sizeof(float) * O2_SERIAL_MAX_TABLES * O2_SERIAL_MAX_FUNS + \
mas01mc@292 86 + sizeof(Uns32T) * O2_SERIAL_MAX_TABLES * O2_SERIAL_MAX_FUNS * 2 \
mas01mc@292 87 + O2_SERIAL_HEADER_SIZE,get_page_logn()))
mas01mc@292 88
mas01mc@292 89 #define O2_SERIAL_MAX_LSH_SIZE (O2_SERIAL_ELEMENT_SIZE * O2_SERIAL_MAX_TABLES \
mas01mc@292 90 * O2_SERIAL_MAX_ROWS * O2_SERIAL_MAX_COLS + O2_SERIAL_FUNCTIONS_SIZE)
mas01mc@292 91
mas01mc@292 92 #define O2_SERIAL_MAGIC ('o'|'2'<<8|'l'<<16|'s'<<24)
mas01mc@292 93
mas01mc@340 94 #define WRITE_UNS32(VAL, TOKENSTR) if( fwrite(VAL, sizeof(Uns32T), 1, dbFile) != 1 ){\
mas01mc@340 95 fclose(dbFile);error("write error in serial_write_format2",TOKENSTR);}
mas01mc@340 96
mas01mc@514 97 //#define LSH_DUMP_CORE_TABLES // set to dump hashtables on load
mas01mc@514 98 //#define USE_U_FUNCTIONS // set to use partial hashfunction re-use
mas01mc@514 99
mas01mc@514 100 // Backward-compatible CORE ARRAY lsh index
mas01mc@514 101 #define LSH_CORE_ARRAY // Set to use arrays for hashtables rather than linked-lists
mas01mc@514 102 #define LSH_LIST_HEAD_COUNTERS // Enable counters in hashtable list heads
mas01mc@514 103
mas01mc@514 104 // Critical path logic
mas01mc@514 105 #if defined LSH_CORE_ARRAY && !defined LSH_LIST_HEAD_COUNTERS
mas01mc@514 106 #define LSH_LIST_HEAD_COUNTERS
mas01mc@514 107 #endif
mas01mc@514 108
mas01mc@514 109 #define LSH_CORE_ARRAY_BIT (0x80000000) // LSH_CORE_ARRAY test bit for list head
mas01mc@514 110
mas01mc@519 111 #ifndef LSH_MULTI_PROBE_COUNT
mas01mc@519 112 #define LSH_MULTI_PROBE_COUNT 1 // How many adjacent hash-buckets to probe in LSH retrieval
mas01mc@519 113 #endif
mas01mc@292 114
mas01mc@292 115 Uns32T get_page_logn();
mas01mc@292 116
mas01mc@519 117 using namespace std;
mas01mc@519 118
mas01mc@292 119 // Disk table entry
mas01mc@292 120 typedef class SerialElement SerialElementT;
mas01mc@292 121 class SerialElement {
mas01mc@292 122 public:
mas01mc@292 123 Uns32T hashValue;
mas01mc@292 124 Uns32T pointID;
mas01mc@292 125
mas01mc@292 126 SerialElement(Uns32T h, Uns32T pID):
mas01mc@292 127 hashValue(h),
mas01mc@292 128 pointID(pID){}
mas01mc@292 129 };
mas01mc@292 130
mas01mc@292 131 // Disk header
mas01mc@292 132 typedef class SerialHeader SerialHeaderT;
mas01mc@292 133 class SerialHeader {
mas01mc@292 134 public:
mas01mc@292 135 Uns32T lshMagic; // unique identifier for file header
mas01mc@292 136 float binWidth; // hash-function bin width
mas01mc@292 137 Uns32T numTables; // number of hash tables in file
mas01mc@292 138 Uns32T numRows; // size of each hash table
mas01mc@292 139 Uns32T numCols; // max collisions in each hash table
mas01mc@292 140 Uns32T elementSize; // size of a hash bucket
mas01mc@292 141 Uns32T version; // version number of file format
mas01mc@292 142 Uns32T size; // total size of database (bytes)
mas01mc@292 143 Uns32T flags; // 32 bits of useful information
mas01mc@292 144 Uns32T dataDim; // vector dimensionality
mas01mc@292 145 Uns32T numFuns; // number of independent hash functions
mas01mc@292 146 float radius; // 32-bit floating point radius
mas01mc@292 147 Uns32T maxp; // number of unique IDs in the database
mas01mc@296 148 unsigned long long size_long; // long version of size
mas01mc@296 149 Uns32T pointCount; // number of points in the database
mas01mc@292 150
mas01mc@292 151 SerialHeader();
mas01mc@296 152 SerialHeader(float W, Uns32T L, Uns32T N, Uns32T C, Uns32T k, Uns32T d, float radius, Uns32T p, Uns32T FMT, Uns32T pointCount);
mas01mc@292 153
mas01mc@292 154 float get_binWidth(){return binWidth;}
mas01mc@292 155 Uns32T get_numTables(){return numTables;}
mas01mc@292 156 Uns32T get_numRows(){return numRows;}
mas01mc@292 157 Uns32T get_numCols(){return numCols;}
mas01mc@292 158 Uns32T get_elementSize(){return elementSize;}
mas01mc@292 159 Uns32T get_version(){return version;}
mas01mc@292 160 Uns32T get_flags(){return flags;}
mas01mc@296 161 unsigned long long get_size(){return size_long;}
mas01mc@292 162 Uns32T get_dataDim(){return dataDim;}
mas01mc@292 163 Uns32T get_numFuns(){return numFuns;}
mas01mc@292 164 Uns32T get_maxp(){return maxp;}
mas01mc@296 165 Uns32T get_pointCount(){return pointCount;}
mas01mc@292 166 };
mas01mc@292 167
mas01mc@292 168 #define IFLAG 0xFFFFFFFF
mas01mc@292 169
mas01mc@292 170 // Point-set collision bucket (sbucket).
mas01mc@292 171 // sbuckets form a collision chain that identifies PointIDs falling in the same locale.
mas01mc@292 172 // sbuckets are chained from a bucket containing the collision list's t2 identifier
mas01mc@292 173 class sbucket {
mas01mc@292 174 friend class bucket;
mas01mc@292 175 friend class H;
mas01mc@292 176 friend class G;
mas01mc@292 177
mas01mc@292 178 public:
mas01mc@292 179 class sbucket* snext;
mas01mc@292 180 unsigned int pointID;
mas01mc@292 181
mas01mc@292 182 sbucket(){
mas01mc@292 183 snext=0;
mas01mc@292 184 pointID=IFLAG;
mas01mc@292 185 }
mas01mc@292 186 ~sbucket(){delete snext;}
mas01mc@292 187 sbucket* get_snext(){return snext;}
mas01mc@292 188 };
mas01mc@292 189
mas01mc@292 190 // bucket structure for a linked list of locales that collide with the same hash value t1
mas01mc@292 191 // different buckets represent different locales, collisions within a locale are chained
mas01mc@292 192 // in sbuckets
mas01mc@292 193 class bucket {
mas01mc@292 194 friend class H;
mas01mc@292 195 friend class G;
mas01mc@292 196 bucket* next;
mas01mc@344 197 union {
mas01mc@344 198 sbucket* ptr;
mas01mc@344 199 Uns32T numBuckets;
mas01mc@344 200 } snext;
mas01mc@292 201 public:
mas01mc@292 202 unsigned int t2;
mas01mc@292 203 bucket(){
mas01mc@292 204 next=0;
mas01mc@344 205 snext.ptr=0;
mas01mc@292 206 t2=IFLAG;
mas01mc@292 207 }
mas01mc@344 208 ~bucket(){delete next;delete snext.ptr;}
mas01mc@292 209 bucket* get_next(){return next;}
mas01mc@292 210 };
mas01mc@292 211
mas01mc@292 212
mas01mc@292 213 // The hash_functions for locality-sensitive hashing
mas01mc@292 214 class H{
mas01mc@292 215 friend class G;
mas01mc@292 216 private:
mas01mc@293 217
mas01mc@293 218 float *** A; // m x k x d random projectors from R^d->R^k
mas01mc@293 219 float ** b; // m x k uniform additive constants
mas01mc@293 220
mas01mc@293 221 Uns32T ** g; // L x k random hash projections \in Z^k
mas01mc@292 222 Uns32T** r1; // random ints for hashing
mas01mc@292 223 Uns32T** r2; // random ints for hashing
mas01mc@293 224
mas01mc@293 225 bucket*** h; // The LSH hash tables
mas01mc@293 226
mas01mc@293 227 bool use_u_functions; // flag to optimize computation of hashes
mas01mc@514 228 #ifdef USE_U_FUNCTIONS
mas01mc@293 229 vector<vector<Uns32T> > uu; // Storage for m patial hash evaluations ( g_j = [u_a,u_b] )
mas01mc@514 230 #endif
mas01mc@293 231 Uns32T maxp; // highest pointID stored in database
mas01mc@293 232 Uns32T bucketCount; // count of number of point buckets allocated
mas01mc@293 233 Uns32T pointCount; // count of number of points inserted
mas01mc@296 234 Uns32T collisionCount; // number of points collided in a hash-table row
mas01mc@293 235
mas01mc@292 236 Uns32T t1; // first hash table key
mas01mc@292 237 Uns32T t2; // second hash table key
mas01mc@292 238 Uns32T P; // hash table prime number
mas01mc@292 239
mas01mc@519 240
mas01mc@292 241 Uns32T N; // num rows per table
mas01mc@292 242 Uns32T C; // num collision per row
mas01mc@292 243 Uns32T k; // num projections per hash function
mas01mc@292 244 Uns32T m; // ~sqrt num hash tables
mas01mc@292 245 Uns32T L; // L = m*(m-1)/2, conversely, m = (1 + sqrt(1 + 8.0*L)) / 2.0
mas01mc@292 246 Uns32T d; // dimensions
mas01mc@292 247 Uns32T p; // current point
mas01mc@293 248 float w; // width of hash slots (relative to normalized feature space)
mas01mc@293 249 float radius;// scaling coefficient for data (1./radius)
mas01mc@292 250
mas01mc@519 251 MultiProbe* multiProbePtr; // Utility class for handling multi-probe queries
mas01mc@519 252 float ** boundaryDistances; // Array of query bucket-boundary-distances per hashtable
mas01mc@519 253
mas01mc@293 254 void initialize_data_structures();
mas01mc@293 255 void initialize_lsh_functions();
mas01mc@293 256 void initialize_partial_functions();
mas01mc@293 257 void __bucket_insert_point(bucket*);
mas01mc@293 258 void __sbucket_insert_point(sbucket*);
mas01mc@340 259 bucket** get_pointer_to_bucket_linked_list(bucket* rowPtr);
mas01mc@293 260 Uns32T computeProductModDefaultPrime(Uns32T*,Uns32T*,IntT);
mas01mc@293 261 Uns32T randr();
mas01mc@293 262 float randn();
mas01mc@293 263 float ranf();
mas01mc@293 264 bucket** get_bucket(int j);
mas01mc@293 265 void error(const char* a, const char* b = "", const char *sysFunc = 0);
mas01mc@293 266
mas01mc@293 267 public:
mas01mc@293 268
mas01mc@293 269 H();
mas01mc@293 270 H(Uns32T k, Uns32T m, Uns32T d, Uns32T N, Uns32T C, float w, float r);
mas01mc@474 271 virtual ~H();
mas01mc@292 272
mas01mc@293 273 float get_w(){return w;}
mas01mc@293 274 float get_radius(){return radius;}
mas01mc@293 275 Uns32T get_numRows(){return N;}
mas01mc@293 276 Uns32T get_numCols(){return C;}
mas01mc@293 277 Uns32T get_numFuns(){return k;}
mas01mc@293 278 Uns32T get_numTables(){return L;}
mas01mc@293 279 Uns32T get_dataDim(){return d;}
mas01mc@293 280 Uns32T get_maxp(){return maxp;}
mas01mc@292 281
mas01mc@292 282 Uns32T bucket_insert_point(bucket**);
mas01mc@292 283
mas01mc@293 284 // Interface to hash functions
mas01mc@293 285 void compute_hash_functions(vector<float>& v);
mas01mc@293 286 void generate_hash_keys(Uns32T* g, Uns32T* r1, Uns32T* r2);
mas01mc@519 287 void generate_multiprobe_keys(Uns32T*g, Uns32T* r1, Uns32T* r2);
mas01mc@293 288 Uns32T get_t1(){return t1;} // hash-key t1
mas01mc@293 289 Uns32T get_t2(){return t2;} // hash-key t2
mas01mc@292 290 };
mas01mc@292 291
mas01mc@293 292 // Typedef for point-reporting callback function. Used to collect points during LSH retrieval
mas01mc@292 293 typedef void (*ReporterCallbackPtr)(void* objPtr, Uns32T pointID, Uns32T queryIndex, float squaredDistance);
mas01mc@292 294
mas01mc@292 295 // Interface for indexing and retrieval
mas01mc@292 296 class G: public H{
mas01mc@292 297 private:
mas01mc@308 298 char* indexName;
mas01mc@308 299
mas01mc@293 300 // LSH serial data structure file handling
mas01mc@292 301 void get_lock(int fd, bool exclusive);
mas01mc@292 302 void release_lock(int fd);
mas01mc@292 303 int serial_create(char* filename, Uns32T FMT);
mas01mc@292 304 int serial_create(char* filename, float binWidth, Uns32T nTables, Uns32T nRows, Uns32T nCols, Uns32T k, Uns32T d, Uns32T FMT);
mas01mc@292 305 char* serial_mmap(int dbfid, Uns32T sz, Uns32T w, off_t offset = 0);
mas01mc@292 306 void serial_munmap(char* db, Uns32T N);
mas01mc@292 307 int serial_open(char* filename,int writeFlag);
mas01mc@292 308 void serial_close(int dbfid);
mas01mc@292 309
mas01mc@292 310 // Function to write hashfunctions to disk
mas01mc@292 311 int serialize_lsh_hashfunctions(int fid);
mas01mc@292 312
mas01mc@292 313 // Functions to write hashtables to disk in format1 (optimized for on-disk retrieval)
mas01mc@292 314 int serialize_lsh_hashtables_format1(int fid, int merge);
mas01mc@292 315 void serial_write_hashtable_row_format1(SerialElementT*& pe, bucket* h, Uns32T& colCount);
mas01mc@292 316 void serial_write_element_format1(SerialElementT*& pe, sbucket* sb, Uns32T t2, Uns32T& colCount);
mas01mc@292 317 void serial_merge_hashtable_row_format1(SerialElementT* pr, bucket* h, Uns32T& colCount);
mas01mc@292 318 void serial_merge_element_format1(SerialElementT* pe, sbucket* sb, Uns32T t2, Uns32T& colCount);
mas01mc@292 319 int serial_can_merge(Uns32T requestedFormat); // Test to see whether core and on-disk structures are compatible
mas01mc@292 320
mas01mc@292 321 // Functions to write hashtables to disk in format2 (optimized for in-core retrieval)
mas01mc@336 322 int serialize_lsh_hashtables_format2(FILE* dbFile, int merge);
mas01mc@336 323 void serial_write_hashtable_row_format2(FILE* dbFile, bucket* h, Uns32T& colCount);
mas01mc@336 324 void serial_write_element_format2(FILE* dbFile, sbucket* sb, Uns32T& colCount);
mas01mc@340 325 Uns32T count_buckets_and_points_hashtable_row(bucket* bPtr);
mas01mc@340 326 Uns32T count_points_hashtable_row(bucket* bPtr);
mas01mc@292 327
mas01mc@292 328 // Functions to read serial header and hash functions (format1 and format2)
mas01mc@292 329 int unserialize_lsh_header(char* filename); // read lsh header from disk into core
mas01mc@292 330 void unserialize_lsh_functions(int fid); // read the lsh hash functions into core
mas01mc@292 331
mas01mc@292 332 // Functions to read hashtables in format1
mas01mc@292 333 void unserialize_lsh_hashtables_format1(int fid); // read FORMAT1 hash tables into core (disk format)
mas01mc@292 334 void unserialize_hashtable_row_format1(SerialElementT* pe, bucket** b); // read lsh hash table row into core
mas01mc@292 335
mas01mc@292 336 // Functions to read hashtables in format2
mas01mc@340 337 void unserialize_lsh_hashtables_format2(FILE* dbFile, bool forMerge = 0);
mas01mc@340 338 Uns32T unserialize_hashtable_row_format2(FILE* dbFile, bucket** b, Uns32T token=0); // to dynamic linked list
mas01mc@340 339 Uns32T unserialize_hashtable_row_to_array(FILE* dbFile, bucket** b, Uns32T numElements); // to core array
mas01mc@292 340
mas01mc@292 341 // Helper functions
mas01mc@292 342 void serial_print_header(Uns32T requestedFormat);
mas01mc@292 343 float* get_serial_hashfunction_base(char* db);
mas01mc@292 344 SerialElementT* get_serial_hashtable_base(char* db);
mas01mc@292 345 Uns32T get_serial_hashtable_offset(); // Size of SerialHeader + HashFunctions
mas01mc@292 346 SerialHeaderT* serial_get_header(char* db);
mas01mc@292 347 SerialHeaderT* lshHeader;
mas01mc@292 348
mas01mc@292 349 // Core Retrieval/Inspections Functions
mas01mc@292 350 void bucket_chain_point(bucket* p, Uns32T qpos);
mas01mc@292 351 void sbucket_chain_point(sbucket* p, Uns32T qpos);
mas01mc@292 352 void dump_hashtable_row(bucket* p);
mas01mc@513 353 void dump_core_hashtable_array(Uns32T* p);
mas01mc@292 354
mas01mc@292 355 // Serial (Format 1) Retrieval/Inspection Functions
mas01mc@292 356 void serial_bucket_chain_point(SerialElementT* pe, Uns32T qpos);
mas01mc@292 357 void serial_bucket_dump(SerialElementT* pe);
mas01mc@292 358
mas01mc@340 359 // Core ARRAY Retrieval Functions
mas01mc@340 360 void retrieve_from_core_hashtable_array(Uns32T* p, Uns32T qpos);
mas01mc@340 361
mas01mc@340 362
mas01mc@293 363 // Callback Function for point reporting
mas01mc@293 364 void* calling_instance; // store calling object instance for member-function callback
mas01mc@324 365 ReporterCallbackPtr add_point_callback; // Pointer to the callback function
mas01mc@292 366
mas01mc@292 367 public:
mas01mc@292 368 G(char* lshFile, bool lshInCore = false); // unserialize constructor
mas01mc@292 369 G(float w, Uns32T k,Uns32T m, Uns32T d, Uns32T N, Uns32T C, float r); // core constructor
mas01mc@474 370 virtual ~G();
mas01mc@292 371
mas01mc@292 372 Uns32T insert_point(vector<float>&, Uns32T pointID);
mas01mc@292 373 void insert_point_set(vector<vector<float> >& vv, Uns32T basePointID);
mas01mc@292 374
mas01mc@292 375 // point retrieval from core
mas01mc@292 376 void retrieve_point(vector<float>& v, Uns32T qpos, ReporterCallbackPtr, void* me=NULL);
mas01mc@292 377 // point set retrieval from core
mas01mc@292 378 void retrieve_point_set(vector<vector<float> >& vv, ReporterCallbackPtr, void* me=NULL);
mas01mc@292 379 // serial point set retrieval
mas01mc@292 380 void serial_retrieve_point_set(char* filename, vector<vector<float> >& vv, ReporterCallbackPtr, void* me=NULL);
mas01mc@292 381 // serial point retrieval
mas01mc@292 382 void serial_retrieve_point(char* filename, vector<float>& vv, Uns32T qpos, ReporterCallbackPtr, void* me=NULL);
mas01mc@292 383
mas01mc@292 384 void serialize(char* filename, Uns32T serialFormat = O2_SERIAL_FILEFORMAT1); // write hashfunctions and hashtables to disk
mas01mc@292 385
mas01mc@292 386 SerialHeaderT* get_lshHeader(){return lshHeader;}
mas01mc@292 387 void serial_dump_tables(char* filename);
mas01mc@292 388 float get_mean_collision_rate(){ return (float) pointCount / bucketCount ; }
mas01mc@308 389 char* get_indexName(){return indexName;}
mas01mc@513 390 void dump_hashtables();
mas01mc@513 391
mas01mc@292 392 };
mas01mc@292 393
mas01mc@292 394 typedef class G LSH;
mas01mc@292 395
mas01mc@292 396
mas01mc@292 397
mas01mc@292 398 #endif