// RankingProcess.java
// (C) 2007 by Michael Peter Christen; mc@yacy.net, Frankfurt a. M., Germany
// first published 07.11.2007 on http://yacy.net
//
// This is a part of YaCy, a peer-to-peer based web search engine
//
// $LastChangedDate$
// $LastChangedRevision$
// $LastChangedBy$
//
// LICENSE
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
package net.yacy.search.query ;
import java.util.Comparator ;
import java.util.ConcurrentModificationException ;
import java.util.HashMap ;
import java.util.Iterator ;
import java.util.Map ;
import java.util.SortedMap ;
import java.util.concurrent.BlockingQueue ;
import java.util.concurrent.ConcurrentHashMap ;
import java.util.concurrent.TimeUnit ;
import java.util.concurrent.atomic.AtomicInteger ;
import java.util.regex.Pattern ;
import net.yacy.cora.document.ASCII ;
import net.yacy.cora.document.Classification ;
import net.yacy.cora.document.Classification.ContentDomain ;
import net.yacy.cora.document.MultiProtocolURI ;
import net.yacy.cora.lod.JenaTripleStore ;
import net.yacy.cora.lod.vocabulary.Tagging ;
import net.yacy.cora.lod.vocabulary.YaCyMetadata ;
import net.yacy.cora.protocol.Scanner ;
import net.yacy.cora.services.federated.yacy.CacheStrategy ;
import net.yacy.cora.sorting.ClusteredScoreMap ;
import net.yacy.cora.sorting.ConcurrentScoreMap ;
import net.yacy.cora.sorting.ScoreMap ;
import net.yacy.cora.sorting.WeakPriorityBlockingQueue ;
import net.yacy.cora.sorting.WeakPriorityBlockingQueue.ReverseElement ;
import net.yacy.document.Condenser ;
import net.yacy.document.LibraryProvider ;
import net.yacy.kelondro.data.meta.DigestURI ;
import net.yacy.kelondro.data.meta.URIMetadataRow ;
import net.yacy.kelondro.data.word.Word ;
import net.yacy.kelondro.data.word.WordReference ;
import net.yacy.kelondro.data.word.WordReferenceVars ;
import net.yacy.kelondro.index.HandleSet ;
import net.yacy.kelondro.index.RowSpaceExceededException ;
import net.yacy.kelondro.logging.Log ;
import net.yacy.kelondro.rwi.ReferenceContainer ;
import net.yacy.kelondro.rwi.TermSearch ;
import net.yacy.peers.graphics.ProfilingGraph ;
import net.yacy.repository.Blacklist.BlacklistType ;
import net.yacy.search.EventTracker ;
import net.yacy.search.Switchboard ;
import net.yacy.search.index.Segment ;
import net.yacy.search.ranking.ReferenceOrder ;
import net.yacy.search.snippet.ResultEntry ;
import com.hp.hpl.jena.rdf.model.RDFNode ;
import com.hp.hpl.jena.rdf.model.Resource ;
public final class RWIProcess extends Thread
{
private static final long maxWaitPerResult = 300 ;
private static final int max_results_preparation = 3000 , max_results_preparation_special = - 1 ; // -1 means 'no limit'
private final QueryParams query ;
private final HandleSet urlhashes ; // map for double-check; String/Long relation, addresses ranking number (backreference for deletion)
private final int [ ] flagcount ; // flag counter
private final HandleSet misses ; // contains url-hashes that could not been found in the LURL-DB
private int sortout ; // counter for referenced that had been sorted out for other reasons
//private final int[] domZones;
private SortedMap < byte [ ] , ReferenceContainer < WordReference > > localSearchInclusion ;
private int remote_resourceSize ;
private int remote_indexCount ;
private int remote_peerCount ;
private int local_indexCount ;
private final AtomicInteger maxExpectedRemoteReferences , expectedRemoteReferences ,
receivedRemoteReferences ;
private final WeakPriorityBlockingQueue < WordReferenceVars > stack ;
private final AtomicInteger feedersAlive , feedersTerminated ;
private final ConcurrentHashMap < String , WeakPriorityBlockingQueue < WordReferenceVars > > doubleDomCache ; // key = domhash (6 bytes); value = like stack
//private final HandleSet handover; // key = urlhash; used for double-check of urls that had been handed over to search process
private final ScoreMap < String > ref ; // reference score computation for the commonSense heuristic
private final Map < String , byte [ ] > hostResolver ; // a mapping from a host hash (6 bytes) to the full url hash of one of these urls that have the host hash
private final ReferenceOrder order ;
private boolean addRunning ;
private final boolean remote ;
private final long maxtime ;
// navigation scores
private final ScoreMap < String > hostNavigator ; // a counter for the appearance of the host hash
private final ScoreMap < String > authorNavigator ; // a counter for the appearances of authors
private final ScoreMap < String > namespaceNavigator ; // a counter for name spaces
private final ScoreMap < String > protocolNavigator ; // a counter for protocol types
private final ScoreMap < String > filetypeNavigator ; // a counter for file types
private final Map < String , ScoreMap < String > > vocabularyNavigator ; // counters for Vocabularies; key is metatag.getVocabularyName()
private final Map < String , String > taggingPredicates ; // a map from tagging vocabulary names to tagging predicate uris
public RWIProcess ( final QueryParams query , final ReferenceOrder order , final boolean remote ) {
// we collect the urlhashes and construct a list with urlEntry objects
// attention: if minEntries is too high, this method will not terminate within the maxTime
// sortorder: 0 = hash, 1 = url, 2 = ranking
this . addRunning = true ;
this . localSearchInclusion = null ;
this . stack = new WeakPriorityBlockingQueue < WordReferenceVars > ( query . snippetCacheStrategy = = null | | query . snippetCacheStrategy = = CacheStrategy . CACHEONLY ? max_results_preparation_special : max_results_preparation , false ) ;
this . doubleDomCache = new ConcurrentHashMap < String , WeakPriorityBlockingQueue < WordReferenceVars > > ( ) ;
this . query = query ;
this . order = order ;
this . remote = remote ;
this . remote_peerCount = 0 ;
this . remote_resourceSize = 0 ;
this . remote_indexCount = 0 ;
this . local_indexCount = 0 ;
this . urlhashes = new HandleSet ( URIMetadataRow . rowdef . primaryKeyLength , URIMetadataRow . rowdef . objectOrder , 100 ) ;
this . misses = new HandleSet ( URIMetadataRow . rowdef . primaryKeyLength , URIMetadataRow . rowdef . objectOrder , 100 ) ;
this . sortout = 0 ;
this . flagcount = new int [ 32 ] ;
for ( int i = 0 ; i < 32 ; i + + ) {
this . flagcount [ i ] = 0 ;
}
this . hostNavigator = new ConcurrentScoreMap < String > ( ) ;
this . hostResolver = new ConcurrentHashMap < String , byte [ ] > ( ) ;
this . authorNavigator = new ConcurrentScoreMap < String > ( ) ;
this . namespaceNavigator = new ConcurrentScoreMap < String > ( ) ;
this . protocolNavigator = new ConcurrentScoreMap < String > ( ) ;
this . filetypeNavigator = new ConcurrentScoreMap < String > ( ) ;
this . vocabularyNavigator = new ConcurrentHashMap < String , ScoreMap < String > > ( ) ;
this . ref = new ConcurrentScoreMap < String > ( ) ;
this . feedersAlive = new AtomicInteger ( 0 ) ;
this . feedersTerminated = new AtomicInteger ( 0 ) ;
this . maxExpectedRemoteReferences = new AtomicInteger ( 0 ) ;
this . expectedRemoteReferences = new AtomicInteger ( 0 ) ;
this . receivedRemoteReferences = new AtomicInteger ( 0 ) ;
this . maxtime = query . maxtime ;
// pre-calculate some values for navigation
this . taggingPredicates = new HashMap < String , String > ( ) ;
for ( Tagging t : LibraryProvider . autotagging . getVocabularies ( ) ) {
this . taggingPredicates . put ( t . getName ( ) , t . getPredicate ( ) ) ;
}
}
public void addExpectedRemoteReferences ( int x ) {
if ( x > 0 ) {
this . maxExpectedRemoteReferences . addAndGet ( x ) ;
}
this . expectedRemoteReferences . addAndGet ( x ) ;
}
public boolean expectMoreRemoteReferences ( ) {
return this . expectedRemoteReferences . get ( ) > 0 ;
}
public long waitTimeRecommendation ( ) {
return
this . maxExpectedRemoteReferences . get ( ) = = 0 ? 0 :
Math . min ( maxWaitPerResult ,
Math . min (
maxWaitPerResult * this . expectedRemoteReferences . get ( ) / this . maxExpectedRemoteReferences . get ( ) ,
maxWaitPerResult * ( 100 - Math . min ( 100 , this . receivedRemoteReferences . get ( ) ) ) / 100 ) ) ;
}
public QueryParams getQuery ( ) {
return this . query ;
}
public ReferenceOrder getOrder ( ) {
return this . order ;
}
@Override
public void run ( ) {
// do a search
oneFeederStarted ( ) ;
// sort the local containers and truncate it to a limited count,
// so following sortings together with the global results will be fast
try {
final long timer = System . currentTimeMillis ( ) ;
final TermSearch < WordReference > search =
this . query
. getSegment ( )
. termIndex ( )
. query (
this . query . query_include_hashes ,
this . query . query_exclude_hashes ,
null ,
Segment . wordReferenceFactory ,
this . query . maxDistance ) ;
this . localSearchInclusion = search . inclusion ( ) ;
final ReferenceContainer < WordReference > index = search . joined ( ) ;
EventTracker . update (
EventTracker . EClass . SEARCH ,
new ProfilingGraph . EventSearch (
this . query . id ( true ) ,
SearchEvent . Type . JOIN ,
this . query . queryString ,
index . size ( ) ,
System . currentTimeMillis ( ) - timer ) ,
false ) ;
if ( ! index . isEmpty ( ) ) {
add ( index , true , "local index: " + this . query . getSegment ( ) . getLocation ( ) , - 1 , true , this . maxtime ) ;
}
} catch ( final Exception e ) {
Log . logException ( e ) ;
} finally {
oneFeederTerminated ( ) ;
}
}
public void add (
final ReferenceContainer < WordReference > index ,
final boolean local ,
final String resourceName ,
final int fullResource ,
final boolean finalizeAddAtEnd ,
final long maxtime ) {
// we collect the urlhashes and construct a list with urlEntry objects
// attention: if minEntries is too high, this method will not terminate within the maxTime
//Log.logInfo("RWIProcess", "added a container, size = " + index.size());
this . addRunning = true ;
assert ( index ! = null ) ;
if ( index . isEmpty ( ) ) {
return ;
}
if ( ! local ) {
assert fullResource > = 0 : "fullResource = " + fullResource ;
this . remote_resourceSize + = fullResource ;
this . remote_peerCount + + ;
}
long timer = System . currentTimeMillis ( ) ;
// normalize entries
final BlockingQueue < WordReferenceVars > decodedEntries = this . order . normalizeWith ( index , maxtime ) ;
int is = index . size ( ) ;
EventTracker . update ( EventTracker . EClass . SEARCH , new ProfilingGraph . EventSearch (
this . query . id ( true ) ,
SearchEvent . Type . NORMALIZING ,
resourceName ,
is ,
System . currentTimeMillis ( ) - timer ) , false ) ;
if ( ! local ) {
this . receivedRemoteReferences . addAndGet ( is ) ;
}
// iterate over normalized entries and select some that are better than currently stored
timer = System . currentTimeMillis ( ) ;
final boolean nav_hosts =
this . query . navigators . equals ( "all" ) | | this . query . navigators . indexOf ( "hosts" , 0 ) > = 0 ;
// apply all constraints
long timeout = System . currentTimeMillis ( ) + maxtime ;
try {
WordReferenceVars iEntry ;
final String pattern = this . query . urlMask . pattern ( ) ;
final boolean httpPattern = pattern . equals ( "http://.*" ) ;
final boolean noHttpButProtocolPattern =
pattern . equals ( "https://.*" )
| | pattern . equals ( "ftp://.*" )
| | pattern . equals ( "smb://.*" )
| | pattern . equals ( "file://.*" ) ;
long remaining ;
pollloop : while ( true ) {
remaining = timeout - System . currentTimeMillis ( ) ;
if ( remaining < = 0 ) {
Log . logWarning ( "RWIProcess" , "terminated 'add' loop before poll time-out = " + remaining + ", decodedEntries.size = " + decodedEntries . size ( ) ) ;
break ;
}
iEntry = decodedEntries . poll ( remaining , TimeUnit . MILLISECONDS ) ;
if ( iEntry = = null ) {
Log . logWarning ( "RWIProcess" , "terminated 'add' loop after poll time-out = " + remaining + ", decodedEntries.size = " + decodedEntries . size ( ) ) ;
break pollloop ;
}
if ( iEntry = = WordReferenceVars . poison ) {
break pollloop ;
}
assert ( iEntry . urlhash ( ) . length = = index . row ( ) . primaryKeyLength ) ;
//if (iEntry.urlHash().length() != index.row().primaryKeyLength) continue;
// increase flag counts
for ( int j = 0 ; j < 32 ; j + + ) {
if ( iEntry . flags ( ) . get ( j ) ) {
this . flagcount [ j ] + + ;
}
}
// check constraints
if ( ! testFlags ( iEntry ) ) {
continue pollloop ;
}
// check document domain
if ( this . query . contentdom ! = Classification . ContentDomain . ALL ) {
if ( ( this . query . contentdom = = ContentDomain . AUDIO )
& & ( ! ( iEntry . flags ( ) . get ( Condenser . flag_cat_hasaudio ) ) ) ) {
continue pollloop ;
}
if ( ( this . query . contentdom = = ContentDomain . VIDEO )
& & ( ! ( iEntry . flags ( ) . get ( Condenser . flag_cat_hasvideo ) ) ) ) {
continue pollloop ;
}
if ( ( this . query . contentdom = = ContentDomain . IMAGE )
& & ( ! ( iEntry . flags ( ) . get ( Condenser . flag_cat_hasimage ) ) ) ) {
continue pollloop ;
}
if ( ( this . query . contentdom = = ContentDomain . APP )
& & ( ! ( iEntry . flags ( ) . get ( Condenser . flag_cat_hasapp ) ) ) ) {
continue pollloop ;
}
}
// count domZones
//this.domZones[DigestURI.domDomain(iEntry.metadataHash())]++;
// check site constraints
final String hosthash = iEntry . hosthash ( ) ;
if ( this . query . sitehash = = null ) {
if ( this . query . siteexcludes ! = null & & this . query . siteexcludes . contains ( hosthash ) ) {
continue pollloop ;
}
} else {
if ( ! hosthash . equals ( this . query . sitehash ) ) {
// filter out all domains that do not match with the site constraint
continue pollloop ;
}
}
// collect host navigation information (even if we have only one; this is to provide a switch-off button)
if ( this . query . navigators . isEmpty ( ) & & ( nav_hosts | | this . query . urlMask_isCatchall ) ) {
this . hostNavigator . inc ( hosthash ) ;
this . hostResolver . put ( hosthash , iEntry . urlhash ( ) ) ;
}
// check protocol
if ( ! this . query . urlMask_isCatchall ) {
final boolean httpFlagSet = DigestURI . flag4HTTPset ( iEntry . urlHash ) ;
if ( httpPattern & & ! httpFlagSet ) {
continue pollloop ;
}
if ( noHttpButProtocolPattern & & httpFlagSet ) {
continue pollloop ;
}
}
// check vocabulary constraint
String subject = YaCyMetadata . hashURI ( iEntry . urlhash ( ) ) ;
Resource resource = JenaTripleStore . getResource ( subject ) ;
if ( this . query . metatags ! = null & & this . query . metatags . size ( ) > 0 ) {
// all metatags must appear in the tags list
for ( Tagging . Metatag metatag : this . query . metatags ) {
Iterator < RDFNode > ni = JenaTripleStore . getObjects ( resource , metatag . getPredicate ( ) ) ;
if ( ! ni . hasNext ( ) ) continue pollloop ;
String tags = ni . next ( ) . toString ( ) ;
if ( tags . indexOf ( metatag . getObject ( ) ) < 0 ) continue pollloop ;
}
}
// add navigators using the triplestore
for ( Map . Entry < String , String > v : this . taggingPredicates . entrySet ( ) ) {
Iterator < RDFNode > ni = JenaTripleStore . getObjects ( resource , v . getValue ( ) ) ;
while ( ni . hasNext ( ) ) {
String [ ] tags = ni . next ( ) . toString ( ) . split ( "," ) ;
for ( String tag : tags ) {
ScoreMap < String > voc = this . vocabularyNavigator . get ( v . getKey ( ) ) ;
if ( voc = = null ) {
voc = new ConcurrentScoreMap < String > ( ) ;
this . vocabularyNavigator . put ( v . getKey ( ) , voc ) ;
}
voc . inc ( tag ) ;
}
}
}
// finally make a double-check and insert result to stack
// the url hashes should be unique, no reason to check that
//if (!this.urlhashes.has(iEntry.urlhash())) {
this . urlhashes . putUnique ( iEntry . urlhash ( ) ) ;
rankingtryloop : while ( true ) {
try {
this . stack . put ( new ReverseElement < WordReferenceVars > ( iEntry , this . order . cardinal ( iEntry ) ) ) ; // inserts the element and removes the worst (which is smallest)
break rankingtryloop ;
} catch ( final ArithmeticException e ) {
// this may happen if the concurrent normalizer changes values during cardinal computation
continue rankingtryloop ;
}
}
// increase counter for statistics
if ( local ) {
this . local_indexCount + + ;
} else {
this . remote_indexCount + + ;
//}
}
}
if ( System . currentTimeMillis ( ) > = timeout ) Log . logWarning ( "RWIProcess" , "rwi normalization ended with timeout = " + maxtime ) ;
} catch ( final InterruptedException e ) {
} catch ( final RowSpaceExceededException e ) {
} finally {
if ( finalizeAddAtEnd ) {
this . addRunning = false ;
}
}
//if ((query.neededResults() > 0) && (container.size() > query.neededResults())) remove(true, true);
EventTracker . update ( EventTracker . EClass . SEARCH , new ProfilingGraph . EventSearch (
this . query . id ( true ) ,
SearchEvent . Type . PRESORT ,
resourceName ,
index . size ( ) ,
System . currentTimeMillis ( ) - timer ) , false ) ;
}
/ * *
* method to signal the incoming stack that one feeder has terminated
* /
public void oneFeederTerminated ( ) {
this . feedersTerminated . incrementAndGet ( ) ;
final int c = this . feedersAlive . decrementAndGet ( ) ;
assert c > = 0 : "feeders = " + c ;
}
public void oneFeederStarted ( ) {
this . feedersAlive . addAndGet ( 1 ) ;
}
public boolean feedingIsFinished ( ) {
return
this . feedersTerminated . intValue ( ) > ( this . remote ? 1 : 0 ) & &
this . feedersAlive . get ( ) = = 0 & &
( ! this . remote | | this . remote_indexCount > 0 ) ;
}
private boolean testFlags ( final WordReference ientry ) {
if ( this . query . constraint = = null ) {
return true ;
}
// test if ientry matches with filter
// if all = true: let only entries pass that has all matching bits
// if all = false: let all entries pass that has at least one matching bit
if ( this . query . allofconstraint ) {
for ( int i = 0 ; i < 32 ; i + + ) {
if ( ( this . query . constraint . get ( i ) ) & & ( ! ientry . flags ( ) . get ( i ) ) ) {
return false ;
}
}
return true ;
}
for ( int i = 0 ; i < 32 ; i + + ) {
if ( ( this . query . constraint . get ( i ) ) & & ( ientry . flags ( ) . get ( i ) ) ) {
return true ;
}
}
return false ;
}
public Map < byte [ ] , ReferenceContainer < WordReference > > searchContainerMap ( ) {
// direct access to the result maps is needed for abstract generation
// this is only available if execQuery() was called before
return this . localSearchInclusion ;
}
private WeakPriorityBlockingQueue . Element < WordReferenceVars > takeRWI (
final boolean skipDoubleDom ,
final long waitingtime ) {
// returns from the current RWI list the best entry and removes this entry from the list
WeakPriorityBlockingQueue < WordReferenceVars > m ;
WeakPriorityBlockingQueue . Element < WordReferenceVars > rwi = null ;
// take one entry from the stack if there are entries on that stack or the feeding is not yet finished
try {
//System.out.println("stack.poll: feeders = " + this.feeders + ", stack.sizeQueue = " + stack.sizeQueue());
int loops = 0 ; // a loop counter to terminate the reading if all the results are from the same domain
// wait some time if we did not get so much remote results so far to get a better ranking over remote results
// we wait at most 30 milliseconds to get a maximum total waiting time of 300 milliseconds for 10 results
long wait = waitTimeRecommendation ( ) ;
if ( wait > 0 ) {
//System.out.println("*** RWIProcess extra wait: " + wait + "ms; expectedRemoteReferences = " + this.expectedRemoteReferences.get() + ", receivedRemoteReferences = " + this.receivedRemoteReferences.get() + ", initialExpectedRemoteReferences = " + this.maxExpectedRemoteReferences.get());
Thread . sleep ( wait ) ;
}
// loop as long as we can expect that we should get more results
final long timeout = System . currentTimeMillis ( ) + waitingtime ;
while ( ( ( ! feedingIsFinished ( ) & & this . addRunning ) | | this . stack . sizeQueue ( ) > 0 ) & &
( this . query . itemsPerPage < 1 | |
loops + + < this . query . itemsPerPage | |
( loops > 1000 & & this . doubleDomCache . size ( ) > 0 ) ) ) {
if ( waitingtime < = 0 ) {
rwi = this . addRunning ? this . stack . poll ( waitingtime ) : this . stack . poll ( ) ;
} else {
timeoutloop : while ( System . currentTimeMillis ( ) < timeout ) {
if ( feedingIsFinished ( ) & & this . stack . sizeQueue ( ) = = 0 ) {
break timeoutloop ;
}
rwi = this . stack . poll ( 50 ) ;
if ( rwi ! = null ) {
break timeoutloop ;
}
}
}
if ( rwi = = null ) {
//Log.logWarning("RWIProcess", "terminated takeRWI with rwi == null");
break ;
}
if ( ! skipDoubleDom ) {
//System.out.println("!skipDoubleDom");
return rwi ;
}
// check doubledom
final String hosthash = rwi . getElement ( ) . hosthash ( ) ;
m = this . doubleDomCache . get ( hosthash ) ;
if ( m = = null ) {
synchronized ( this . doubleDomCache ) {
m = this . doubleDomCache . get ( hosthash ) ;
if ( m = = null ) {
// first appearance of dom. we create an entry to signal that one of that domain was already returned
m = new WeakPriorityBlockingQueue < WordReferenceVars > ( this . query . snippetCacheStrategy = = null | | this . query . snippetCacheStrategy = = CacheStrategy . CACHEONLY ? max_results_preparation_special : max_results_preparation , false ) ;
this . doubleDomCache . put ( hosthash , m ) ;
return rwi ;
}
// second appearances of dom
m . put ( rwi ) ;
}
} else {
m . put ( rwi ) ;
}
}
} catch ( final InterruptedException e1 ) {
}
if ( this . doubleDomCache . isEmpty ( ) ) {
return null ;
}
// no more entries in sorted RWI entries. Now take Elements from the doubleDomCache
// find best entry from all caches
WeakPriorityBlockingQueue . Element < WordReferenceVars > bestEntry = null ;
WeakPriorityBlockingQueue . Element < WordReferenceVars > o ;
final Iterator < WeakPriorityBlockingQueue < WordReferenceVars > > i = this . doubleDomCache . values ( ) . iterator ( ) ;
while ( i . hasNext ( ) ) {
try {
m = i . next ( ) ;
} catch ( final ConcurrentModificationException e ) {
Log . logException ( e ) ;
continue ; // not the best solution...
}
if ( m = = null ) {
continue ;
}
if ( m . isEmpty ( ) ) {
continue ;
}
if ( bestEntry = = null ) {
bestEntry = m . peek ( ) ;
continue ;
}
o = m . peek ( ) ;
if ( o = = null ) {
continue ;
}
if ( o . getWeight ( ) < bestEntry . getWeight ( ) ) {
bestEntry = o ;
}
}
if ( bestEntry = = null ) {
return null ;
}
// finally remove the best entry from the doubledom cache
m = this . doubleDomCache . get ( bestEntry . getElement ( ) . hosthash ( ) ) ;
if ( m ! = null ) {
bestEntry = m . poll ( ) ;
if ( bestEntry ! = null & & m . sizeAvailable ( ) = = 0 ) {
synchronized ( this . doubleDomCache ) {
if ( m . sizeAvailable ( ) = = 0 ) {
this . doubleDomCache . remove ( bestEntry . getElement ( ) . hosthash ( ) ) ;
}
}
}
}
return bestEntry ;
}
/ * *
* get one metadata entry from the ranked results . This will be the ' best ' entry so far according to the
* applied ranking . If there are no more entries left or the timeout limit is reached then null is
* returned . The caller may distinguish the timeout case from the case where there will be no more also in
* the future by calling this . feedingIsFinished ( )
*
* @param skipDoubleDom should be true if it is wanted that double domain entries are skipped
* @param waitingtime the time this method may take for a result computation
* @return a metadata entry for a url
* /
public URIMetadataRow takeURL ( final boolean skipDoubleDom , final long waitingtime ) {
// returns from the current RWI list the best URL entry and removes this entry from the list
final long timeout = System . currentTimeMillis ( ) + Math . max ( 10 , waitingtime ) ;
int p = - 1 ;
long timeleft ;
while ( ( timeleft = timeout - System . currentTimeMillis ( ) ) > 0 ) {
//System.out.println("timeleft = " + timeleft);
final WeakPriorityBlockingQueue . Element < WordReferenceVars > obrwi = takeRWI ( skipDoubleDom , timeleft ) ;
if ( obrwi = = null ) {
return null ; // all time was already wasted in takeRWI to get another element
}
final URIMetadataRow page = this . query . getSegment ( ) . urlMetadata ( ) . load ( obrwi ) ;
if ( page = = null ) {
try {
this . misses . putUnique ( obrwi . getElement ( ) . urlhash ( ) ) ;
} catch ( final RowSpaceExceededException e ) {
}
continue ;
}
if ( ! this . query . urlMask_isCatchall ) {
// check url mask
if ( ! page . matches ( this . query . urlMask ) ) {
this . sortout + + ;
continue ;
}
// in case that we do not have e catchall filter for urls
// we must also construct the domain navigator here
//if (query.sitehash == null) {
// this.hostNavigator.inc(UTF8.String(urlhash, 6, 6));
// this.hostResolver.put(UTF8.String(urlhash, 6, 6), UTF8.String(urlhash));
//}
}
// check for more errors
if ( page . url ( ) = = null ) {
this . sortout + + ;
continue ; // rare case where the url is corrupted
}
// check content domain
if ( this . query . contentdom ! = Classification . ContentDomain . ALL & &
page . url ( ) . getContentDomain ( ) ! = Classification . ContentDomain . ALL & &
page . url ( ) . getContentDomain ( ) ! = this . query . contentdom ) {
this . sortout + + ;
continue ;
}
// Check for blacklist
if ( Switchboard . urlBlacklist . isListed ( BlacklistType . SEARCH , page ) ) {
this . sortout + + ;
continue ;
}
final String pageurl = page . url ( ) . toNormalform ( true , true ) ;
final String pageauthor = page . dc_creator ( ) ;
final String pagetitle = page . dc_title ( ) . toLowerCase ( ) ;
// check exclusion
if ( this . query . query_exclude_hashes ! = null & & ! this . query . query_exclude_hashes . isEmpty ( ) & &
( ( QueryParams . anymatch ( pagetitle , this . query . query_exclude_hashes ) )
| | ( QueryParams . anymatch ( pageurl . toLowerCase ( ) , this . query . query_exclude_hashes ) )
| | ( QueryParams . anymatch ( pageauthor . toLowerCase ( ) , this . query . query_exclude_hashes ) ) ) ) {
this . sortout + + ;
continue ;
}
// check index-of constraint
if ( ( this . query . constraint ! = null )
& & ( this . query . constraint . get ( Condenser . flag_cat_indexof ) )
& & ( ! ( pagetitle . startsWith ( "index of" ) ) ) ) {
final Iterator < byte [ ] > wi = this . query . query_include_hashes . iterator ( ) ;
while ( wi . hasNext ( ) ) {
this . query . getSegment ( ) . termIndex ( ) . removeDelayed ( wi . next ( ) , page . hash ( ) ) ;
}
this . sortout + + ;
continue ;
}
// check location constraint
if ( ( this . query . constraint ! = null )
& & ( this . query . constraint . get ( Condenser . flag_cat_haslocation ) )
& & ( page . lat ( ) = = 0.0f | | page . lon ( ) = = 0.0f ) ) {
this . sortout + + ;
continue ;
}
// check geo coordinates
double lat , lon ;
if ( this . query . radius > 0.0d & & this . query . lat ! = 0.0d & & this . query . lon ! = 0.0d & & ( lat = page . lat ( ) ) ! = 0.0d & & ( lon = page . lon ( ) ) ! = 0.0d ) {
double latDelta = this . query . lat - lat ;
double lonDelta = this . query . lon - lon ;
double distance = Math . sqrt ( latDelta * latDelta + lonDelta * lonDelta ) ; // pythagoras
if ( distance > this . query . radius ) {
this . sortout + + ;
continue ;
}
}
// evaluate information of metadata for navigation
// author navigation:
if ( pageauthor ! = null & & pageauthor . length ( ) > 0 ) {
// add author to the author navigator
final String authorhash = ASCII . String ( Word . word2hash ( pageauthor ) ) ;
// check if we already are filtering for authors
if ( this . query . authorhash ! = null & & ! this . query . authorhash . equals ( authorhash ) ) {
this . sortout + + ;
continue ;
}
// add author to the author navigator
this . authorNavigator . inc ( pageauthor ) ;
} else if ( this . query . authorhash ! = null ) {
this . sortout + + ;
continue ;
}
// check Scanner
if ( ! Scanner . acceptURL ( page . url ( ) ) ) {
this . sortout + + ;
continue ;
}
// from here: collect navigation information
// collect host navigation information (even if we have only one; this is to provide a switch-off button)
if ( ! this . query . navigators . isEmpty ( ) & & ( this . query . urlMask_isCatchall | | this . query . navigators . equals ( "all" ) | | this . query . navigators . indexOf ( "hosts" , 0 ) > = 0 ) ) {
final String hosthash = page . hosthash ( ) ;
this . hostNavigator . inc ( hosthash ) ;
this . hostResolver . put ( hosthash , page . hash ( ) ) ;
}
// namespace navigation
String pagepath = page . url ( ) . getPath ( ) ;
if ( ( p = pagepath . indexOf ( ':' ) ) > = 0 ) {
pagepath = pagepath . substring ( 0 , p ) ;
p = pagepath . lastIndexOf ( '/' ) ;
if ( p > = 0 ) {
pagepath = pagepath . substring ( p + 1 ) ;
this . namespaceNavigator . inc ( pagepath ) ;
}
}
// protocol navigation
final String protocol = page . url ( ) . getProtocol ( ) ;
this . protocolNavigator . inc ( protocol ) ;
// file type navigation
final String fileext = page . url ( ) . getFileExtension ( ) ;
if ( fileext . length ( ) > 0 ) {
this . filetypeNavigator . inc ( fileext ) ;
}
// accept url
return page ;
}
return null ;
}
final static Pattern SPACE_PATTERN = Pattern . compile ( " " ) ;
public int sizeQueue ( ) {
int c = this . stack . sizeQueue ( ) ;
for ( final WeakPriorityBlockingQueue < WordReferenceVars > s : this . doubleDomCache . values ( ) ) {
c + = s . sizeQueue ( ) ;
}
return c ;
}
public int sizeAvailable ( ) {
int c = this . stack . sizeAvailable ( ) ;
for ( final WeakPriorityBlockingQueue < WordReferenceVars > s : this . doubleDomCache . values ( ) ) {
c + = s . sizeAvailable ( ) ;
}
return c ;
}
public boolean isEmpty ( ) {
if ( ! this . stack . isEmpty ( ) ) {
return false ;
}
for ( final WeakPriorityBlockingQueue < WordReferenceVars > s : this . doubleDomCache . values ( ) ) {
if ( ! s . isEmpty ( ) ) {
return false ;
}
}
return true ;
}
public int [ ] flagCount ( ) {
return this . flagcount ;
}
// "results from a total number of <remote_resourceSize + local_resourceSize> known (<local_resourceSize> local, <remote_resourceSize> remote), <remote_indexCount> links from <remote_peerCount> other YaCy peers."
public int filteredCount ( ) {
// the number of index entries that are considered as result set
return this . stack . sizeAvailable ( ) ;
}
public int getLocalIndexCount ( ) {
// the number of results in the local peer after filtering
return this . local_indexCount ;
}
public int getRemoteIndexCount ( ) {
// the number of result contributions from all the remote peers
return this . remote_indexCount ;
}
public int getRemoteResourceSize ( ) {
// the number of all hits in all the remote peers
return Math . max ( this . remote_resourceSize , this . remote_indexCount ) ;
}
public int getRemotePeerCount ( ) {
// the number of remote peers that have contributed
return this . remote_peerCount ;
}
public Iterator < byte [ ] > miss ( ) {
return this . misses . iterator ( ) ;
}
public int getMissCount ( ) {
return this . misses . size ( ) ;
}
public int getSortOutCount ( ) {
return this . sortout ;
}
public ScoreMap < String > getNamespaceNavigator ( ) {
if ( ! this . query . navigators . equals ( "all" ) & & this . query . navigators . indexOf ( "namespace" , 0 ) < 0 ) {
return new ClusteredScoreMap < String > ( ) ;
}
return this . namespaceNavigator ;
}
public ScoreMap < String > getHostNavigator ( ) {
final ScoreMap < String > result = new ConcurrentScoreMap < String > ( ) ;
if ( ! this . query . navigators . equals ( "all" ) & & this . query . navigators . indexOf ( "hosts" , 0 ) < 0 ) {
return result ;
}
final Iterator < String > domhashs = this . hostNavigator . keys ( false ) ;
URIMetadataRow row ;
byte [ ] urlhash ;
String hosthash , hostname ;
if ( this . hostResolver ! = null ) {
while ( domhashs . hasNext ( ) & & result . sizeSmaller ( 30 ) ) {
hosthash = domhashs . next ( ) ;
if ( hosthash = = null ) {
continue ;
}
urlhash = this . hostResolver . get ( hosthash ) ;
row = urlhash = = null ? null : this . query . getSegment ( ) . urlMetadata ( ) . load ( urlhash ) ;
hostname = row = = null ? null : row . url ( ) . getHost ( ) ;
if ( hostname ! = null ) {
result . set ( hostname , this . hostNavigator . get ( hosthash ) ) ;
}
}
}
return result ;
}
public ScoreMap < String > getProtocolNavigator ( ) {
if ( ! this . query . navigators . equals ( "all" ) & & this . query . navigators . indexOf ( "protocol" , 0 ) < 0 ) {
return new ClusteredScoreMap < String > ( ) ;
}
return this . protocolNavigator ;
}
public ScoreMap < String > getFiletypeNavigator ( ) {
if ( ! this . query . navigators . equals ( "all" ) & & this . query . navigators . indexOf ( "filetype" , 0 ) < 0 ) {
return new ClusteredScoreMap < String > ( ) ;
}
return this . filetypeNavigator ;
}
public Map < String , ScoreMap < String > > getVocabularyNavigators ( ) {
return this . vocabularyNavigator ;
}
public static final Comparator < Map . Entry < String , Integer > > mecomp =
new Comparator < Map . Entry < String , Integer > > ( ) {
@Override
public int compare ( final Map . Entry < String , Integer > o1 , final Map . Entry < String , Integer > o2 ) {
if ( o1 . getValue ( ) . intValue ( ) < o2 . getValue ( ) . intValue ( ) ) {
return 1 ;
}
if ( o2 . getValue ( ) . intValue ( ) < o1 . getValue ( ) . intValue ( ) ) {
return - 1 ;
}
return 0 ;
}
} ;
public ScoreMap < String > getTopicNavigator ( final int count ) {
// create a list of words that had been computed by statistics over all
// words that appeared in the url or the description of all urls
final ScoreMap < String > result = new ConcurrentScoreMap < String > ( ) ;
if ( ! this . query . navigators . equals ( "all" ) & & this . query . navigators . indexOf ( "topics" , 0 ) < 0 ) {
return result ;
}
if ( this . ref . sizeSmaller ( 2 ) ) {
this . ref . clear ( ) ; // navigators with one entry are not useful
}
final Map < String , Float > counts = new HashMap < String , Float > ( ) ;
final Iterator < String > i = this . ref . keys ( false ) ;
String word ;
byte [ ] termHash ;
int c ;
float q , min = Float . MAX_VALUE , max = Float . MIN_VALUE ;
int ic = count ;
while ( ic - - > 0 & & i . hasNext ( ) ) {
word = i . next ( ) ;
if ( word = = null ) {
continue ;
}
termHash = Word . word2hash ( word ) ;
c = this . query . getSegment ( ) . termIndex ( ) . count ( termHash ) ;
if ( c > 0 ) {
q = ( ( float ) this . ref . get ( word ) ) / ( ( float ) c ) ;
min = Math . min ( min , q ) ;
max = Math . max ( max , q ) ;
counts . put ( word , q ) ;
}
}
if ( max > min ) {
for ( final Map . Entry < String , Float > ce : counts . entrySet ( ) ) {
result . set ( ce . getKey ( ) , ( int ) ( ( ( double ) count ) * ( ce . getValue ( ) - min ) / ( max - min ) ) ) ;
}
}
return this . ref ;
}
private final static Pattern lettermatch = Pattern . compile ( "[a-z]+" ) ;
public void addTopic ( final String [ ] words ) {
String word ;
for ( final String w : words ) {
word = w . toLowerCase ( ) ;
if ( word . length ( ) > 2
& & "http_html_php_ftp_www_com_org_net_gov_edu_index_home_page_for_usage_the_and_zum_der_die_das_und_the_zur_bzw_mit_blog_wiki_aus_bei_off"
. indexOf ( word ) < 0
& & ! this . query . query_include_hashes . has ( Word . word2hash ( word ) )
& & lettermatch . matcher ( word ) . matches ( )
& & ! Switchboard . badwords . contains ( word )
& & ! Switchboard . stopwords . contains ( word ) ) {
this . ref . inc ( word ) ;
}
}
}
public void addTopics ( final ResultEntry resultEntry ) {
// take out relevant information for reference computation
if ( ( resultEntry . url ( ) = = null ) | | ( resultEntry . title ( ) = = null ) ) {
return ;
}
//final String[] urlcomps = htmlFilterContentScraper.urlComps(resultEntry.url().toNormalform(true, true)); // word components of the url
final String [ ] descrcomps = MultiProtocolURI . splitpattern . split ( resultEntry . title ( ) . toLowerCase ( ) ) ; // words in the description
// add references
//addTopic(urlcomps);
addTopic ( descrcomps ) ;
}
public ScoreMap < String > getAuthorNavigator ( ) {
// create a list of words that had been computed by statistics over all
// words that appeared in the url or the description of all urls
if ( ! this . query . navigators . equals ( "all" ) & & this . query . navigators . indexOf ( "authors" , 0 ) < 0 ) {
return new ConcurrentScoreMap < String > ( ) ;
}
return this . authorNavigator ;
}
}
