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Clusterdb.h
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Clusterdb.h
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// Copyright Matt Wells, Jul 2002
// . a clusterRec now no longer exists, per se
// . it is the same thing as the key of the titleRec in titledb
// . titleRecs now contain the site and content hashes in the low bits
// of their key.
// . this allows us to store much cluster info in Titledb's RdbMap
// . so to get cluster info, just read in the titleRec, you do not even
// need to uncompress it, just get the info from its key
// . we still use the cache here, however, to cache the keys (clusterRecs)
// . later, i may have to do some fancy footwork if we want to store all
// clusterRecs (titleKeys) in memory.
// . TODO: what if stored file offsets in tfndb, too, then titledb RdbMap
// would not be necessary?
//
// . clusterdb will now serve to help do fast site clustering by retaining
// docids and site hashes in memory
//
// 00000000 00000000 0000000d dddddddd d = docid
// dddddddd dddddddd dddddddd dddddfll f = family filter bit
// llllssss ssssssss ssssssss sssssshz q = year quarter bits
// l = language bits
// s = site hash
// h = half bit
// z = del bit
#ifndef _CLUSTERDB_H_
#define _CLUSTERDB_H_
//#include "TitleRec.h" // SAMPLE_VECTOR_SIZE
#include "Rdb.h"
#include "Url.h"
#include "Conf.h"
#include "Titledb.h"
//#include "DiskPageCache.h"
// these are now just TitleRec keys
#define CLUSTER_REC_SIZE (sizeof(key_t))
// this now includes the gigabit vector
#define VECTOR_REC_SIZE (sizeof(key_t)+SAMPLE_VECTOR_SIZE+GIGABIT_VECTOR_SIZE)
class Clusterdb {
public:
// reset rdb
void reset();
// set up our private rdb
bool init ( );
// init the rebuild/secondary rdb, used by PageRepair.cpp
bool init2 ( int32_t treeMem );
bool verify ( char *coll );
bool addColl ( char *coll, bool doVerify = true );
Rdb *getRdb ( ) { return &m_rdb; };
// make the cluster rec
void makeRecFromTitleRec ( char *rec,
class TitleRec *titleRec,
bool isDelKey );
// make the cluster rec
void makeRecFromTitleRecKey ( char *rec,
char *key,
bool isDelKey );
// make the cluster rec key
key_t makeClusterRecKey ( int64_t docId,
bool familyFilter,
uint8_t languageBits,
int32_t siteHash,
bool isDelKey,
bool isHalfKey = false );
key_t makeFirstClusterRecKey ( int64_t docId ) {
return makeClusterRecKey ( docId, false, 0, 0, true ); };
key_t makeLastClusterRecKey ( int64_t docId ) {
return makeClusterRecKey ( docId, true, 0xff, 0xffffffff,
false, true ); };
// convert a titlerec key into a clusterec key
key_t convertTitleRecKey ( key_t titleKey );
/*
uint32_t getGroupId ( int64_t docId ) {
return g_titledb.getGroupId ( docId ); };
// cluster rec should be stored on same host as titleRec with the
// same docId that this key contains
uint32_t getGroupIdFromKey ( key_t *key ) {
return g_titledb.getGroupId ( getDocId ( *key ) ); };
*/
// NOTE: THESE NOW USE THE REAL CLUSTERDB REC
// // docId occupies the most significant bytes of the key
// now docId occupies the bits after the first 23
int64_t getDocId ( void *k ) {
//int64_t docId = (k.n0) >> (32+24);
//docId |= ( ((uint64_t)(k.n1)) << 8 );
int64_t docId = (((key_t *)k)->n0) >> 35;
docId |= ( ((uint64_t)(((key_t *)k)->n1)) << 29 );
return docId;
};
//int64_t getDocId ( char *r ) {
// return getDocId(*(key_t*)r);
//}
uint32_t getSiteHash26 ( char *r ) {
//return g_titledb.getSiteHash ( (key_t *)r ); };
return ((uint32_t)(((key_t*)r)->n0 >> 2) & 0x03FFFFFF);
};
uint32_t hasAdultContent ( char *r ) {
//return g_titledb.hasAdultContent ( *(key_t *)r ); };
return ((uint32_t)(((key_t*)r)->n0 >> 34) & 0x00000001);
};
unsigned char getLanguage ( char *r ) {
return ((unsigned char)(((key_t*)r)->n0 >> 28) & 0x0000003F);
}
// NOTE: THESE USE THE OLD "CLUSTERDB" REC GENERATED BY MSG22 (VECTOR)
//uint32_t getContentHash ( char *r ) {
// return g_titledb.getContentHash ( *(key_t *)r ); };
char getFamilyFilter ( char *r ) {
if ( (*(int64_t *)r) & 0x0000000400000000LL ) return 1;
return 0;
};
//uint32_t hasAdultWords ( char *r ) {
// return g_titledb.hasAdultWords ( *(key_t *)r ); };
//uint32_t hasAdultCategory ( char *r ) {
// return g_titledb.hasAdultCategory ( *(key_t *)r ); };
//unsigned char getLanguageFromVector ( char *r ) {
// return 0;
//}
// the random sample vector
/*
void getSampleVector ( char *vec ,
class Doc *doc,
char *coll ,
int32_t collLen ,
int32_t niceness = 0 );
*/
//void getSampleVector ( char *vec , class TermTable *table );
char getSampleSimilarity ( char *vec0 , char *vec1 , int32_t size );
// get the content vector from a cluster rec (used by Msg38.cpp)
//char *getSampleVector ( char *rec ) { return rec + sizeof(key_t); };
//char *getGigabitVector ( char *rec ) {
// return rec + sizeof(key_t) + SAMPLE_VECTOR_SIZE ; };
//char getGigabitSimilarity ( char *vec0 , char *vec1 ,
// int32_t *qtable , int32_t numSlots ) ;
//DiskPageCache *getDiskPageCache() { return &m_pc; };
private:
// this rdb holds urls waiting to be spidered or being spidered
Rdb m_rdb;
//DiskPageCache m_pc;
};
extern class Clusterdb g_clusterdb;
extern class Clusterdb g_clusterdb2;
#endif