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yacy_search_server/source/net/yacy/search/ranking/ReferenceOrder.java

299 lines
18 KiB

// ReferenceOrder.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.ranking;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.LinkedBlockingQueue;
import java.util.concurrent.Semaphore;
import net.yacy.cora.sorting.ConcurrentScoreMap;
import net.yacy.document.Condenser;
import net.yacy.document.LargeNumberCache;
import net.yacy.kelondro.data.meta.DigestURI;
import net.yacy.kelondro.data.meta.URIMetadataNode;
import net.yacy.kelondro.data.word.WordReference;
import net.yacy.kelondro.data.word.WordReferenceRow;
import net.yacy.kelondro.data.word.WordReferenceVars;
import net.yacy.kelondro.logging.Log;
import net.yacy.kelondro.rwi.ReferenceContainer;
import net.yacy.kelondro.util.Bitfield;
import net.yacy.kelondro.util.ByteBuffer;
public class ReferenceOrder {
private static int cores = Runtime.getRuntime().availableProcessors();
private int maxdomcount;
private WordReferenceVars min, max;
private final ConcurrentScoreMap<String> doms; // collected for "authority" heuristic
private final RankingProfile ranking;
private final byte[] language;
public ReferenceOrder(final RankingProfile profile, final byte[] language) {
this.min = null;
this.max = null;
this.ranking = profile;
this.doms = new ConcurrentScoreMap<String>();
this.maxdomcount = 0;
this.language = language;
}
public BlockingQueue<WordReferenceVars> normalizeWith(final ReferenceContainer<WordReference> container, long maxtime, final boolean local) {
final LinkedBlockingQueue<WordReferenceVars> out = new LinkedBlockingQueue<WordReferenceVars>();
int threads = cores;
if (container.size() < 100) threads = 2;
final Thread distributor = new NormalizeDistributor(container, out, threads, maxtime, local);
distributor.start();
// return the resulting queue while the processing queues are still working
return out;
}
private final class NormalizeDistributor extends Thread {
ReferenceContainer<WordReference> container;
LinkedBlockingQueue<WordReferenceVars> out;
private final int threads;
private final long maxtime;
private final boolean local;
public NormalizeDistributor(final ReferenceContainer<WordReference> container, final LinkedBlockingQueue<WordReferenceVars> out, final int threads, final long maxtime, final boolean local) {
this.container = container;
this.out = out;
this.threads = threads;
this.maxtime = maxtime;
this.local = local;
}
@Override
public void run() {
// transform the reference container into a stream of parsed entries
final BlockingQueue<WordReferenceVars> vars = WordReferenceVars.transform(this.container, this.maxtime, this.local);
// start the transformation threads
final Semaphore termination = new Semaphore(this.threads);
final NormalizeWorker[] worker = new NormalizeWorker[this.threads];
for (int i = 0; i < this.threads; i++) {
worker[i] = new NormalizeWorker(this.out, termination, this.maxtime);
worker[i].start();
}
// fill the queue
WordReferenceVars iEntry;
int p = 0;
long timeout = this.maxtime == Long.MAX_VALUE ? Long.MAX_VALUE : System.currentTimeMillis() + this.maxtime;
try {
while ((iEntry = vars.take()) != WordReferenceVars.poison) {
worker[p % this.threads].add(iEntry);
p++;
if (System.currentTimeMillis() > timeout) {
Log.logWarning("NormalizeDistributor", "adding of decoded rows to workers ended with timeout = " + this.maxtime);
}
}
} catch (final InterruptedException e) {
}
// insert poison to stop the queues
for (int i = 0; i < this.threads; i++) worker[i].add(WordReferenceVars.poison);
// wait for termination but not too long to make it possible that this
// is called from outside with a join to get some normalization results
// before going on
for (int i = 0; i < this.threads; i++) try {worker[i].join(100);} catch (final InterruptedException e) {}
}
}
/**
* normalize ranking: find minimum and maximum of separate ranking criteria
*/
private class NormalizeWorker extends Thread {
private final BlockingQueue<WordReferenceVars> out;
private final Semaphore termination;
private final BlockingQueue<WordReferenceVars> decodedEntries;
private final long maxtime;
public NormalizeWorker(final BlockingQueue<WordReferenceVars> out, final Semaphore termination, long maxtime) {
this.out = out;
this.termination = termination;
this.decodedEntries = new LinkedBlockingQueue<WordReferenceVars>();
this.maxtime = maxtime;
}
public void add(final WordReferenceVars entry) {
try {
this.decodedEntries.put(entry);
} catch (final InterruptedException e) {
}
}
@Override
public void run() {
try {
WordReferenceVars iEntry;
final Map<String, Integer> doms0 = new HashMap<String, Integer>();
String dom;
Integer count;
final Integer int1 = 1;
long timeout = this.maxtime == Long.MAX_VALUE ? Long.MAX_VALUE : System.currentTimeMillis() + this.maxtime;
while ((iEntry = this.decodedEntries.take()) != WordReferenceVars.poison) {
// find min/max
if (ReferenceOrder.this.min == null) ReferenceOrder.this.min = iEntry.clone(); else ReferenceOrder.this.min.min(iEntry);
if (ReferenceOrder.this.max == null) ReferenceOrder.this.max = iEntry.clone(); else ReferenceOrder.this.max.max(iEntry);
this.out.put(iEntry); // must be after the min/max check to prevent that min/max is null in cardinal()
// update domcount
dom = iEntry.hosthash();
count = doms0.get(dom);
if (count == null) {
doms0.put(dom, int1);
} else {
doms0.put(dom, LargeNumberCache.valueOf(count.intValue() + 1));
}
if (System.currentTimeMillis() > timeout) {
Log.logWarning("NormalizeWorker", "normlization of decoded rows ended with timeout = " + this.maxtime);
break;
}
}
// update domain score
Map.Entry<String, Integer> entry;
final Iterator<Map.Entry<String, Integer>> di = doms0.entrySet().iterator();
while (di.hasNext()) {
entry = di.next();
ReferenceOrder.this.doms.inc(entry.getKey(), (entry.getValue()).intValue());
}
if (!ReferenceOrder.this.doms.isEmpty()) ReferenceOrder.this.maxdomcount = ReferenceOrder.this.doms.getMaxScore();
} catch (final InterruptedException e) {
Log.logException(e);
} catch (final Exception e) {
Log.logException(e);
} finally {
// insert poison to signal the termination to next queue
try {
this.termination.acquire();
if (this.termination.availablePermits() == 0) this.out.put(WordReferenceVars.poison);
} catch (final InterruptedException e) {}
}
}
}
public int authority(final String hostHash) {
assert hostHash.length() == 6;
return (this.doms.get(hostHash) << 8) / (1 + this.maxdomcount);
}
/**
* return the ranking of a given word entry
* @param t
* @return a ranking: the higher the number, the better is the ranking
*/
public long cardinal(final WordReference t) {
//return Long.MAX_VALUE - preRanking(ranking, iEntry, this.entryMin, this.entryMax, this.searchWords);
// the normalizedEntry must be a normalized indexEntry
final Bitfield flags = t.flags();
assert this.min != null;
assert this.max != null;
assert t != null;
assert this.ranking != null;
final long tf = ((this.max.termFrequency() == this.min.termFrequency()) ? 0 : (((int)(((t.termFrequency()-this.min.termFrequency())*256.0)/(this.max.termFrequency() - this.min.termFrequency())))) << this.ranking.coeff_termfrequency);
//System.out.println("tf(" + t.urlHash + ") = " + Math.floor(1000 * t.termFrequency()) + ", min = " + Math.floor(1000 * min.termFrequency()) + ", max = " + Math.floor(1000 * max.termFrequency()) + ", tf-normed = " + tf);
final int maxmaxpos = this.max.maxposition();
final int minminpos = this.min.minposition();
final long r =
((256 - DigestURI.domLengthNormalized(t.urlhash())) << this.ranking.coeff_domlength)
+ ((this.ranking.coeff_ybr > 12) ? ((256 - (BlockRank.ranking(t.urlhash()) << 4)) << this.ranking.coeff_ybr) : 0)
+ ((this.max.urlcomps() == this.min.urlcomps() ) ? 0 : (256 - (((t.urlcomps() - this.min.urlcomps() ) << 8) / (this.max.urlcomps() - this.min.urlcomps()) )) << this.ranking.coeff_urlcomps)
+ ((this.max.urllength() == this.min.urllength() ) ? 0 : (256 - (((t.urllength() - this.min.urllength() ) << 8) / (this.max.urllength() - this.min.urllength()) )) << this.ranking.coeff_urllength)
+ ((maxmaxpos == minminpos) ? 0 : (256 - (((t.minposition() - minminpos) << 8) / (maxmaxpos - minminpos))) << this.ranking.coeff_posintext)
+ ((this.max.posofphrase() == this.min.posofphrase()) ? 0 : (256 - (((t.posofphrase() - this.min.posofphrase() ) << 8) / (this.max.posofphrase() - this.min.posofphrase()) )) << this.ranking.coeff_posofphrase)
+ ((this.max.posinphrase() == this.min.posinphrase()) ? 0 : (256 - (((t.posinphrase() - this.min.posinphrase() ) << 8) / (this.max.posinphrase() - this.min.posinphrase()) )) << this.ranking.coeff_posinphrase)
+ ((this.max.distance() == this.min.distance() ) ? 0 : (256 - (((t.distance() - this.min.distance() ) << 8) / (this.max.distance() - this.min.distance()) )) << this.ranking.coeff_worddistance)
+ ((this.max.virtualAge() == this.min.virtualAge()) ? 0 : (((t.virtualAge() - this.min.virtualAge() ) << 8) / (this.max.virtualAge() - this.min.virtualAge()) ) << this.ranking.coeff_date)
+ ((this.max.wordsintitle() == this.min.wordsintitle()) ? 0 : (((t.wordsintitle() - this.min.wordsintitle() ) << 8) / (this.max.wordsintitle() - this.min.wordsintitle()) ) << this.ranking.coeff_wordsintitle)
+ ((this.max.wordsintext() == this.min.wordsintext()) ? 0 : (((t.wordsintext() - this.min.wordsintext() ) << 8) / (this.max.wordsintext() - this.min.wordsintext()) ) << this.ranking.coeff_wordsintext)
+ ((this.max.phrasesintext() == this.min.phrasesintext()) ? 0 : (((t.phrasesintext()- this.min.phrasesintext() ) << 8) / (this.max.phrasesintext()- this.min.phrasesintext()) ) << this.ranking.coeff_phrasesintext)
+ ((this.max.llocal() == this.min.llocal()) ? 0 : (((t.llocal() - this.min.llocal() ) << 8) / (this.max.llocal() - this.min.llocal()) ) << this.ranking.coeff_llocal)
+ ((this.max.lother() == this.min.lother()) ? 0 : (((t.lother() - this.min.lother() ) << 8) / (this.max.lother() - this.min.lother()) ) << this.ranking.coeff_lother)
+ ((this.max.hitcount() == this.min.hitcount()) ? 0 : (((t.hitcount() - this.min.hitcount() ) << 8) / (this.max.hitcount() - this.min.hitcount()) ) << this.ranking.coeff_hitcount)
+ tf
+ ((this.ranking.coeff_authority > 12) ? (authority(t.hosthash()) << this.ranking.coeff_authority) : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_identifier)) ? 255 << this.ranking.coeff_appurl : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_title)) ? 255 << this.ranking.coeff_app_dc_title : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_creator)) ? 255 << this.ranking.coeff_app_dc_creator : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_subject)) ? 255 << this.ranking.coeff_app_dc_subject : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_description)) ? 255 << this.ranking.coeff_app_dc_description : 0)
+ ((flags.get(WordReferenceRow.flag_app_emphasized)) ? 255 << this.ranking.coeff_appemph : 0)
+ ((flags.get(Condenser.flag_cat_indexof)) ? 255 << this.ranking.coeff_catindexof : 0)
+ ((flags.get(Condenser.flag_cat_hasimage)) ? 255 << this.ranking.coeff_cathasimage : 0)
+ ((flags.get(Condenser.flag_cat_hasaudio)) ? 255 << this.ranking.coeff_cathasaudio : 0)
+ ((flags.get(Condenser.flag_cat_hasvideo)) ? 255 << this.ranking.coeff_cathasvideo : 0)
+ ((flags.get(Condenser.flag_cat_hasapp)) ? 255 << this.ranking.coeff_cathasapp : 0)
+ ((ByteBuffer.equals(t.getLanguage(), this.language)) ? 255 << this.ranking.coeff_language : 0);
//if (searchWords != null) r += (yacyURL.probablyWordURL(t.urlHash(), searchWords) != null) ? 256 << ranking.coeff_appurl : 0;
return r; // the higher the number the better the ranking.
}
public long cardinal(final URIMetadataNode t) {
//return Long.MAX_VALUE - preRanking(ranking, iEntry, this.entryMin, this.entryMax, this.searchWords);
// the normalizedEntry must be a normalized indexEntry
final Bitfield flags = t.flags();
assert t != null;
assert this.ranking != null;
final long r =
((256 - DigestURI.domLengthNormalized(t.hash())) << this.ranking.coeff_domlength)
+ ((this.ranking.coeff_ybr > 12) ? ((256 - (BlockRank.ranking(t.hash()) << 4)) << this.ranking.coeff_ybr) : 0)
+ ((256 - (t.urllength() << 8)) << this.ranking.coeff_urllength)
+ (t.virtualAge() << this.ranking.coeff_date)
+ (t.wordsintitle()<< this.ranking.coeff_wordsintitle)
+ (t.wordCount() << this.ranking.coeff_wordsintext)
+ (t.llocal() << this.ranking.coeff_llocal)
+ (t.lother() << this.ranking.coeff_lother)
+ ((this.ranking.coeff_authority > 12) ? (authority(t.hosthash()) << this.ranking.coeff_authority) : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_identifier)) ? 255 << this.ranking.coeff_appurl : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_title)) ? 255 << this.ranking.coeff_app_dc_title : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_creator)) ? 255 << this.ranking.coeff_app_dc_creator : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_subject)) ? 255 << this.ranking.coeff_app_dc_subject : 0)
+ ((flags.get(WordReferenceRow.flag_app_dc_description)) ? 255 << this.ranking.coeff_app_dc_description : 0)
+ ((flags.get(WordReferenceRow.flag_app_emphasized)) ? 255 << this.ranking.coeff_appemph : 0)
+ ((flags.get(Condenser.flag_cat_indexof)) ? 255 << this.ranking.coeff_catindexof : 0)
+ ((flags.get(Condenser.flag_cat_hasimage)) ? 255 << this.ranking.coeff_cathasimage : 0)
+ ((flags.get(Condenser.flag_cat_hasaudio)) ? 255 << this.ranking.coeff_cathasaudio : 0)
+ ((flags.get(Condenser.flag_cat_hasvideo)) ? 255 << this.ranking.coeff_cathasvideo : 0)
+ ((flags.get(Condenser.flag_cat_hasapp)) ? 255 << this.ranking.coeff_cathasapp : 0)
+ ((ByteBuffer.equals(t.language(), this.language)) ? 255 << this.ranking.coeff_language : 0);
return r; // the higher the number the better the ranking.
}
}