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bdc9216366
yacy_search_server/source/de/anomic/plasma/plasmaWordIndex.java
orbiter bdc9216366 - more asserts 
- some bugfixes
- some patches for bugs that are already in the database

git-svn-id: https://svn.berlios.de/svnroot/repos/yacy/trunk@2935 6c8d7289-2bf4-0310-a012-ef5d649a1542
2006-11-08 02:08:33 +00:00

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// plasmaWordIndex.java
// (C) 2005, 2006 by Michael Peter Christen; mc@anomic.de, Frankfurt a. M., Germany
// first published 2005 on http://www.anomic.de
//
// 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 de.anomic.plasma;
import java.io.File;
import java.io.IOException;
import java.util.Date;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.TreeSet;
import de.anomic.htmlFilter.htmlFilterContentScraper;
import de.anomic.index.indexCollectionRI;
import de.anomic.index.indexContainer;
import de.anomic.index.indexContainerOrder;
import de.anomic.index.indexEntry;
import de.anomic.index.indexEntryAttribute;
import de.anomic.index.indexRAMRI;
import de.anomic.index.indexRI;
import de.anomic.index.indexURLEntry;
import de.anomic.kelondro.kelondroBase64Order;
import de.anomic.kelondro.kelondroException;
import de.anomic.kelondro.kelondroMergeIterator;
import de.anomic.kelondro.kelondroNaturalOrder;
import de.anomic.kelondro.kelondroOrder;
import de.anomic.kelondro.kelondroRow;
import de.anomic.net.URL;
import de.anomic.plasma.urlPattern.plasmaURLPattern;
import de.anomic.server.logging.serverLog;
import de.anomic.yacy.yacyDHTAction;
public final class plasmaWordIndex implements indexRI {
private static final String indexAssortmentClusterPath = "ACLUSTER";
private static final int assortmentCount = 64;
private static final kelondroRow payloadrow = indexURLEntry.urlEntryRow;
private final File oldDatabaseRoot;
private final kelondroOrder indexOrder = new kelondroNaturalOrder(true);
private final indexRAMRI dhtOutCache, dhtInCache;
private final indexCollectionRI collections; // new database structure to replace AssortmentCluster and FileCluster
private int assortmentBufferSize; // kb
private final plasmaWordIndexAssortmentCluster assortmentCluster; // old database structure, to be replaced by CollectionRI
private final plasmaWordIndexFileCluster backend; // old database structure, to be replaced by CollectionRI
public boolean busyCacheFlush; // shows if a cache flush is currently performed
public boolean useCollectionIndex; // flag for usage of new collectionIndex db
private int idleDivisor, busyDivisor;
public plasmaWordIndex(File oldDatabaseRoot, File newIndexRoot, boolean dummy, int bufferkb, long preloadTime, serverLog log, boolean useCollectionIndex) throws IOException {
this.oldDatabaseRoot = oldDatabaseRoot;
this.backend = new plasmaWordIndexFileCluster(oldDatabaseRoot, payloadrow, log);
this.dhtOutCache = new indexRAMRI(oldDatabaseRoot, payloadrow, (useCollectionIndex) ? 1024 : 64, "indexDump1.array", log);
this.dhtInCache = new indexRAMRI(oldDatabaseRoot, payloadrow, (useCollectionIndex) ? 1024 : 64, "indexDump2.array", log);
// create assortment cluster path
File assortmentClusterPath = new File(oldDatabaseRoot, indexAssortmentClusterPath);
this.assortmentBufferSize = bufferkb;
// create collections storage path
File textindexpath = new File(newIndexRoot, "PUBLIC/TEXT");
if (!(textindexpath.exists())) textindexpath.mkdirs();
if (useCollectionIndex) {
this.collections = new indexCollectionRI(textindexpath, "test_generation1", bufferkb * 1024, preloadTime, payloadrow);
if (assortmentClusterPath.exists())
this.assortmentCluster = new plasmaWordIndexAssortmentCluster(assortmentClusterPath, assortmentCount, payloadrow, assortmentBufferSize, preloadTime, log);
else
this.assortmentCluster = null;
} else {
this.collections = null;
if (!(assortmentClusterPath.exists())) assortmentClusterPath.mkdirs();
this.assortmentCluster = new plasmaWordIndexAssortmentCluster(assortmentClusterPath, assortmentCount, payloadrow, assortmentBufferSize, preloadTime, log);
}
busyCacheFlush = false;
this.useCollectionIndex = useCollectionIndex;
this.busyDivisor = 5000;
this.idleDivisor = 420;
}
public kelondroRow payloadrow() {
return payloadrow;
}
public File getRoot() {
return oldDatabaseRoot;
}
public int maxURLinDHTOutCache() {
return dhtOutCache.maxURLinCache();
}
public long minAgeOfDHTOutCache() {
return dhtOutCache.minAgeOfCache();
}
public long maxAgeOfDHTOutCache() {
return dhtOutCache.maxAgeOfCache();
}
public int maxURLinDHTInCache() {
return dhtInCache.maxURLinCache();
}
public long minAgeOfDHTInCache() {
return dhtInCache.minAgeOfCache();
}
public long maxAgeOfDHTInCache() {
return dhtInCache.maxAgeOfCache();
}
public int dhtOutCacheSize() {
return dhtOutCache.size();
}
public int dhtInCacheSize() {
return dhtInCache.size();
}
public int[] assortmentsSizes() {
return (assortmentCluster == null) ? null : assortmentCluster.sizes();
}
public int assortmentsCacheChunkSizeAvg() {
return (assortmentCluster == null) ? 0 : assortmentCluster.cacheChunkSizeAvg();
}
public int assortmentsCacheObjectSizeAvg() {
return (assortmentCluster == null) ? 0 : assortmentCluster.cacheObjectSizeAvg();
}
public int[] assortmentsCacheNodeStatus() {
if (assortmentCluster != null) return assortmentCluster.cacheNodeStatus();
return new int[]{0,0,0,0,0,0,0,0,0,0};
}
public long[] assortmentsCacheObjectStatus() {
if (assortmentCluster != null) return assortmentCluster.cacheObjectStatus();
return new long[]{0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
}
public void setMaxWordCount(int maxWords) {
dhtOutCache.setMaxWordCount(maxWords);
}
public void setInMaxWordCount(int maxWords) {
dhtInCache.setMaxWordCount(maxWords);
}
public void setWordFlushDivisor(int idleDivisor, int busyDivisor) {
this.idleDivisor = idleDivisor;
this.busyDivisor = busyDivisor;
}
public void flushControl() {
// check for forced flush
synchronized (this) {
if (dhtOutCache.size() > dhtOutCache.getMaxWordCount()) {
flushCache(dhtOutCache, dhtOutCache.size() + 500 - dhtOutCache.getMaxWordCount());
}
if (dhtInCache.size() > dhtInCache.getMaxWordCount()) {
flushCache(dhtInCache, dhtInCache.size() + 500 - dhtInCache.getMaxWordCount());
}
}
}
public long getUpdateTime(String wordHash) {
indexContainer entries = getContainer(wordHash, null, false, -1);
if (entries == null) return 0;
return entries.updated();
}
public indexContainer emptyContainer(String wordHash) {
return new indexContainer(wordHash, payloadrow);
}
public indexContainer addEntry(String wordHash, indexEntry entry, long updateTime, boolean dhtInCase) {
// set dhtInCase depending on wordHash
if ((!dhtInCase) && (yacyDHTAction.shallBeOwnWord(wordHash))) dhtInCase = true;
// add the entry
if (dhtInCase) {
dhtInCache.addEntry(wordHash, entry, updateTime, true);
} else {
dhtOutCache.addEntry(wordHash, entry, updateTime, false);
flushControl();
}
return null;
}
public indexContainer addEntries(indexContainer entries, long updateTime, boolean dhtInCase) {
// set dhtInCase depending on wordHash
if ((!dhtInCase) && (yacyDHTAction.shallBeOwnWord(entries.getWordHash()))) dhtInCase = true;
// add the entry
if (dhtInCase) {
dhtInCache.addEntries(entries, updateTime, true);
} else {
dhtOutCache.addEntries(entries, updateTime, false);
flushControl();
}
return null;
}
public void flushCacheSome(boolean busy) {
flushCacheSome(dhtOutCache, busy);
flushCacheSome(dhtInCache, busy);
}
private void flushCacheSome(indexRAMRI ram, boolean busy) {
int flushCount = (busy) ? ram.size() / busyDivisor : ram.size() / idleDivisor;
if (flushCount > 100) flushCount = 100;
if (flushCount < 1) flushCount = Math.min(1, ram.size());
flushCache(ram, flushCount);
while (ram.maxURLinCache() > ((useCollectionIndex) ? 1024 : 64)) flushCache(ram, 1);
}
private void flushCache(indexRAMRI ram, int count) {
if (count <= 0) return;
if (count > 1000) count = 1000;
busyCacheFlush = true;
String wordHash;
//System.out.println("DEBUG-Started flush of " + count + " entries from RAM to DB");
//long start = System.currentTimeMillis();
for (int i = 0; i < count; i++) { // possible position of outOfMemoryError ?
if (ram.size() == 0) break;
synchronized (this) {
wordHash = ram.bestFlushWordHash();
// flush the wordHash
indexContainer c = ram.deleteContainer(wordHash);
if (c != null) {
if (useCollectionIndex) {
indexContainer feedback = collections.addEntries(c, c.updated(), false);
if (feedback != null) {
throw new RuntimeException("indexCollectionRI shall not return feedback entries; feedback = " + feedback.toString());
}
} else {
indexContainer feedback = assortmentCluster.addEntries(c, c.updated(), false);
if (feedback != null) {
backend.addEntries(feedback, System.currentTimeMillis(), true);
}
}
}
// pause to next loop to give other processes a chance to use IO
//try {this.wait(8);} catch (InterruptedException e) {}
}
}
//System.out.println("DEBUG-Finished flush of " + count + " entries from RAM to DB in " + (System.currentTimeMillis() - start) + " milliseconds");
busyCacheFlush = false;
}
private static final int hour = 3600000;
private static final int day = 86400000;
public static int microDateDays(Date modified) {
return microDateDays(modified.getTime());
}
public static int microDateDays(long modified) {
// this calculates a virtual age from a given date
// the purpose is to have an age in days of a given modified date
// from a fixed standpoint in the past
// one day has 60*60*24 seconds = 86400 seconds
// we take mod 64**3 = 262144, this is the mask of the storage
return (int) ((modified / day) % 262144);
}
public static String microDateHoursStr(long time) {
return kelondroBase64Order.enhancedCoder.encodeLong(microDateHoursInt(time), 3);
}
public static int microDateHoursInt(long time) {
return (int) ((time / hour) % 262144);
}
public static int microDateHoursAge(String mdhs) {
return microDateHoursInt(System.currentTimeMillis()) - (int) kelondroBase64Order.enhancedCoder.decodeLong(mdhs);
}
public static long reverseMicroDateDays(int microDateDays) {
return ((long) microDateDays) * ((long) day);
}
public int addPageIndex(URL url, String urlHash, Date urlModified, int size, plasmaParserDocument document, plasmaCondenser condenser, String language, char doctype, int outlinksSame, int outlinksOther) {
// this is called by the switchboard to put in a new page into the index
// use all the words in one condenser object to simultanous create index entries
// iterate over all words
Iterator i = condenser.words();
Map.Entry wentry;
String word;
indexEntry ientry;
plasmaCondenser.wordStatProp wprop;
String wordHash;
int urlLength = url.toString().length();
int urlComps = htmlFilterContentScraper.urlComps(url.toString()).length;
while (i.hasNext()) {
wentry = (Map.Entry) i.next();
word = (String) wentry.getKey();
wprop = (plasmaCondenser.wordStatProp) wentry.getValue();
// if ((s.length() > 4) && (c > 1)) System.out.println("# " + s + ":" + c);
wordHash = indexEntryAttribute.word2hash(word);
ientry = new indexURLEntry(urlHash,
urlLength, urlComps, (document == null) ? urlLength : document.getMainLongTitle().length(),
wprop.count,
condenser.RESULT_SIMI_WORDS,
condenser.RESULT_SIMI_SENTENCES,
wprop.posInText,
wprop.posInPhrase,
wprop.numOfPhrase,
0,
size,
urlModified.getTime(),
System.currentTimeMillis(),
condenser.RESULT_WORD_ENTROPHY,
language,
doctype,
outlinksSame, outlinksOther,
true);
addEntry(wordHash, ientry, System.currentTimeMillis(), false);
}
// System.out.println("DEBUG: plasmaSearch.addPageIndex: added " +
// condenser.getWords().size() + " words, flushed " + c + " entries");
return condenser.RESULT_SIMI_WORDS;
}
public indexContainer getContainer(String wordHash, Set urlselection, boolean deleteIfEmpty, long maxTime) {
long start = System.currentTimeMillis();
// get from cache
indexContainer container = dhtOutCache.getContainer(wordHash, urlselection, true, -1);
if (container == null) {
container = dhtInCache.getContainer(wordHash, urlselection, true, -1);
} else {
container.add(dhtInCache.getContainer(wordHash, urlselection, true, -1), -1);
}
// get from collection index
if (useCollectionIndex) {
if (container == null) {
container = collections.getContainer(wordHash, urlselection, true, (maxTime < 0) ? -1 : maxTime);
} else {
container.add(collections.getContainer(wordHash, urlselection, true, (maxTime < 0) ? -1 : maxTime), -1);
}
}
// get from assortments
if (assortmentCluster != null) {
if (container == null) {
container = assortmentCluster.getContainer(wordHash, urlselection, true, (maxTime < 0) ? -1 : maxTime);
} else {
// add containers from assortment cluster
container.add(assortmentCluster.getContainer(wordHash, urlselection, true, (maxTime < 0) ? -1 : maxTime), -1);
}
}
// get from backend
if (maxTime > 0) {
maxTime = maxTime - (System.currentTimeMillis() - start);
if (maxTime < 0) maxTime = 100;
}
if (container == null) {
container = backend.getContainer(wordHash, urlselection, deleteIfEmpty, (maxTime < 0) ? -1 : maxTime);
} else {
container.add(backend.getContainer(wordHash, urlselection, deleteIfEmpty, (maxTime < 0) ? -1 : maxTime), -1);
}
return container;
}
public Map getContainers(Set wordHashes, Set urlselection, boolean deleteIfEmpty, boolean interruptIfEmpty, long maxTime) {
// return map of wordhash:indexContainer
// retrieve entities that belong to the hashes
HashMap containers = new HashMap();
String singleHash;
indexContainer singleContainer;
Iterator i = wordHashes.iterator();
long start = System.currentTimeMillis();
long remaining;
while (i.hasNext()) {
// check time
remaining = maxTime - (System.currentTimeMillis() - start);
//if ((maxTime > 0) && (remaining <= 0)) break;
if ((maxTime >= 0) && (remaining <= 0)) remaining = 100;
// get next word hash:
singleHash = (String) i.next();
// retrieve index
singleContainer = getContainer(singleHash, urlselection, deleteIfEmpty, (maxTime < 0) ? -1 : remaining / (wordHashes.size() - containers.size()));
// check result
if (((singleContainer == null) || (singleContainer.size() == 0)) && (interruptIfEmpty)) return new HashMap();
containers.put(singleHash, singleContainer);
}
return containers;
}
public int size() {
if (useCollectionIndex)
return java.lang.Math.max(collections.size(),
java.lang.Math.max((assortmentCluster == null) ? 0 : assortmentCluster.size(),
java.lang.Math.max(backend.size(),
java.lang.Math.max(dhtInCache.size(), dhtOutCache.size()))));
else
return java.lang.Math.max((assortmentCluster == null) ? 0 : assortmentCluster.size(),
java.lang.Math.max(backend.size(),
java.lang.Math.max(dhtInCache.size(), dhtOutCache.size())));
}
public int indexSize(String wordHash) {
int size = 0;
try {
plasmaWordIndexFile entity = backend.getEntity(wordHash, true, -1);
if (entity != null) {
size += entity.size();
entity.close();
}
} catch (IOException e) {}
if (useCollectionIndex) size += collections.indexSize(wordHash);
size += (assortmentCluster == null) ? 0 : assortmentCluster.indexSize(wordHash);
size += dhtInCache.indexSize(wordHash);
size += dhtOutCache.indexSize(wordHash);
return size;
}
public void close(int waitingBoundSeconds) {
synchronized (this) {
dhtInCache.close(waitingBoundSeconds);
dhtOutCache.close(waitingBoundSeconds);
if (useCollectionIndex) collections.close(-1);
if (assortmentCluster != null) assortmentCluster.close(-1);
backend.close(10);
}
}
public indexContainer deleteContainer(String wordHash) {
indexContainer c = new indexContainer(wordHash, payloadrow);
c.add(dhtInCache.deleteContainer(wordHash), -1);
c.add(dhtOutCache.deleteContainer(wordHash), -1);
if (useCollectionIndex) c.add(collections.deleteContainer(wordHash), -1);
if (assortmentCluster != null) c.add(assortmentCluster.deleteContainer(wordHash), -1);
c.add(backend.deleteContainer(wordHash), -1);
return c;
}
public boolean removeEntry(String wordHash, String urlHash, boolean deleteComplete) {
boolean removed = false;
removed = removed | (dhtInCache.removeEntry(wordHash, urlHash, deleteComplete));
removed = removed | (dhtOutCache.removeEntry(wordHash, urlHash, deleteComplete));
if (useCollectionIndex) {removed = removed | (collections.removeEntry(wordHash, urlHash, deleteComplete));}
if (assortmentCluster != null) removed = removed | (assortmentCluster.removeEntry(wordHash, urlHash, deleteComplete));
removed = removed | backend.removeEntry(wordHash, urlHash, deleteComplete);
return removed;
}
public int removeEntries(String wordHash, Set urlHashes, boolean deleteComplete) {
int removed = 0;
removed += dhtInCache.removeEntries(wordHash, urlHashes, deleteComplete);
removed += dhtOutCache.removeEntries(wordHash, urlHashes, deleteComplete);
//if (removed == urlHashes.size()) return removed;
if (useCollectionIndex) {
removed += collections.removeEntries(wordHash, urlHashes, deleteComplete);
//if (removed == urlHashes.size()) return removed;
}
if (assortmentCluster != null) removed += assortmentCluster.removeEntries(wordHash, urlHashes, deleteComplete);
//if (removed == urlHashes.size()) return removed;
removed += backend.removeEntries(wordHash, urlHashes, deleteComplete);
return removed;
}
public String removeEntriesExpl(String wordHash, Set urlHashes, boolean deleteComplete) {
String removed = "";
removed += dhtInCache.removeEntries(wordHash, urlHashes, deleteComplete) + ", ";
removed += dhtOutCache.removeEntries(wordHash, urlHashes, deleteComplete) + ", ";
if (useCollectionIndex) {
removed += collections.removeEntries(wordHash, urlHashes, deleteComplete) + ", ";
} else removed += "0, ";
if (assortmentCluster != null) removed += assortmentCluster.removeEntries(wordHash, urlHashes, deleteComplete) + ", ";
removed += backend.removeEntries(wordHash, urlHashes, deleteComplete);
return removed;
}
public static final int RL_RAMCACHE = 0;
public static final int RL_COLLECTIONS = 1; // the new index structure
public static final int RL_ASSORTMENTS = 2; // (to be) outdated structure
public static final int RL_WORDFILES = 3; // (to be) outdated structure
public int tryRemoveURLs(String urlHash) {
// this tries to delete an index from the cache that has this
// urlHash assigned. This can only work if the entry is really fresh
// and can be found in the RAM cache
// this returns the number of deletion that had been possible
return dhtInCache.tryRemoveURLs(urlHash);
}
public TreeSet indexContainerSet(String startHash, int resourceLevel, boolean rot, int count) throws IOException {
// creates a set of indexContainers
// this does not use the dhtInCache
kelondroOrder containerOrder = new indexContainerOrder((kelondroOrder) indexOrder.clone());
containerOrder.rotate(startHash.getBytes());
TreeSet containers = new TreeSet(containerOrder);
Iterator i = wordContainers(startHash, resourceLevel, rot);
if (resourceLevel == plasmaWordIndex.RL_RAMCACHE) count = Math.min(dhtOutCache.size(), count);
indexContainer container;
while ((count > 0) && (i.hasNext())) {
container = (indexContainer) i.next();
if ((container != null) && (container.size() > 0)) {
containers.add(container);
count--;
}
}
return containers;
}
public Iterator wordContainers(String startHash, boolean rot) {
// returns an iteration of indexContainers
try {
return wordContainers(startHash, RL_WORDFILES, rot);
} catch (IOException e) {
return new HashSet().iterator();
}
}
public Iterator wordContainers(String startHash, int resourceLevel, boolean rot) throws IOException {
if (rot) return new rotatingContainerIterator(startHash, resourceLevel);
else return wordContainers(startHash, resourceLevel);
}
private Iterator wordContainers(String startWordHash, int resourceLevel) throws IOException {
if (resourceLevel == plasmaWordIndex.RL_RAMCACHE) {
return dhtOutCache.wordContainers(startWordHash, false);
}
if ((resourceLevel == plasmaWordIndex.RL_COLLECTIONS) && (useCollectionIndex)) {
return new kelondroMergeIterator(
dhtOutCache.wordContainers(startWordHash, false),
collections.wordContainers(startWordHash, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true);
}
if (resourceLevel == plasmaWordIndex.RL_ASSORTMENTS) {
if (useCollectionIndex) {
return new kelondroMergeIterator(
new kelondroMergeIterator(
dhtOutCache.wordContainers(startWordHash, false),
collections.wordContainers(startWordHash, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true),
(assortmentCluster == null) ? null : assortmentCluster.wordContainers(startWordHash, true, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true);
} else {
return new kelondroMergeIterator(
dhtOutCache.wordContainers(startWordHash, false),
(assortmentCluster == null) ? null : assortmentCluster.wordContainers(startWordHash, true, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true);
}
}
if (resourceLevel == plasmaWordIndex.RL_WORDFILES) {
if (useCollectionIndex) {
return new kelondroMergeIterator(
new kelondroMergeIterator(
new kelondroMergeIterator(
dhtOutCache.wordContainers(startWordHash, false),
collections.wordContainers(startWordHash, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true),
(assortmentCluster == null) ? null : assortmentCluster.wordContainers(startWordHash, true, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true),
backend.wordContainers(startWordHash, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true);
} else {
return new kelondroMergeIterator(
new kelondroMergeIterator(
dhtOutCache.wordContainers(startWordHash, false),
(assortmentCluster == null) ? null : assortmentCluster.wordContainers(startWordHash, true, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true),
backend.wordContainers(startWordHash, false),
new indexContainerOrder(kelondroNaturalOrder.naturalOrder),
indexContainer.containerMergeMethod,
true);
}
}
return null;
}
public class rotatingContainerIterator implements Iterator {
Iterator i;
int resourceLevel;
public rotatingContainerIterator(String startWordHash, int resourceLevel) throws IOException {
this.resourceLevel = resourceLevel;
i = wordContainers(startWordHash, resourceLevel);
}
public void finalize() {
i = null;
}
public boolean hasNext() {
if (i.hasNext()) return true;
else try {
i = wordContainers("------------", resourceLevel);
return i.hasNext();
} catch (IOException e) {
return false;
}
}
public Object next() {
return i.next();
}
public void remove() {
throw new java.lang.UnsupportedOperationException("rotatingWordIterator does not support remove");
}
} // class rotatingContainerIterator
public Object migrateWords2Assortment(String wordhash) throws IOException {
// returns the number of entries that had been added to the assortments
// can be negative if some assortments have been moved to the backend
File db = plasmaWordIndexFile.wordHash2path(oldDatabaseRoot, wordhash);
if (!(db.exists())) return "not available";
plasmaWordIndexFile entity = null;
try {
entity = new plasmaWordIndexFile(oldDatabaseRoot, wordhash, true);
int size = entity.size();
if (size > assortmentCluster.clusterCapacity) {
// this will be too big to integrate it
entity.close(); entity = null;
return "too big";
} else {
// take out all words from the assortment to see if it fits
// together with the extracted assortment
indexContainer container = assortmentCluster.deleteContainer(wordhash, -1);
if (size + container.size() > assortmentCluster.clusterCapacity) {
// this will also be too big to integrate, add to entity
entity.addEntries(container);
entity.close(); entity = null;
return new Integer(-container.size());
} else {
// the combined container will fit, read the container
try {
Iterator entries = entity.elements(true);
indexEntry entry;
while (entries.hasNext()) {
entry = (indexEntry) entries.next();
// System.out.println("ENTRY = " + entry.getUrlHash());
container.add(new indexEntry[]{entry}, System.currentTimeMillis());
}
// we have read all elements, now delete the entity
entity.deleteComplete();
entity.close(); entity = null;
// integrate the container into the assortments; this will work
assortmentCluster.addEntries(container, container.updated(), false);
return new Integer(size);
} catch (kelondroException e) {
// database corrupted, we simply give up the database and delete it
try {entity.close();} catch (Exception ee) {} entity = null;
try {db.delete();} catch (Exception ee) {}
return "database corrupted; deleted";
}
}
}
} finally {
if (entity != null) try {entity.close();}catch(Exception e){}
}
}
public Object migrateWords2index(String wordhash) throws IOException {
// returns the number of entries that had been added to the assortments
// can be negative if some assortments have been moved to the backend
File db = plasmaWordIndexFile.wordHash2path(oldDatabaseRoot, wordhash);
if (!(db.exists())) return "not available";
plasmaWordIndexFile entity = null;
try {
entity = new plasmaWordIndexFile(oldDatabaseRoot, wordhash, true);
int size = entity.size();
indexContainer container = new indexContainer(wordhash, payloadrow);
try {
Iterator entries = entity.elements(true);
indexEntry entry;
while (entries.hasNext()) {
entry = (indexEntry) entries.next();
// System.out.println("ENTRY = " + entry.getUrlHash());
container.add(new indexEntry[] { entry }, System.currentTimeMillis());
}
// we have read all elements, now delete the entity
entity.deleteComplete();
entity.close();
entity = null;
indexContainer feedback = collections.addEntries(container, container.updated(), false);
if (feedback != null) return feedback;
return new Integer(size);
} catch (kelondroException e) {
// database corrupted, we simply give up the database and delete it
try { entity.close(); } catch (Exception ee) { }
entity = null;
try { db.delete(); } catch (Exception ee) { }
return "database corrupted; deleted";
}
} finally {
if (entity != null) try {entity.close();}catch(Exception e){}
}
}
// The Cleaner class was provided as "UrldbCleaner" by Hydrox
// see http://www.yacy-forum.de/viewtopic.php?p=18093#18093
public Cleaner makeCleaner(plasmaCrawlLURL lurl, String startHash) {
return new Cleaner(lurl, startHash);
}
public class Cleaner extends Thread {
private String startHash;
private boolean run = true;
private boolean pause = false;
public int rwiCountAtStart = 0;
public String wordHashNow = "";
public String lastWordHash = "";
public int lastDeletionCounter = 0;
private plasmaCrawlLURL lurl;
public Cleaner(plasmaCrawlLURL lurl, String startHash) {
this.lurl = lurl;
this.startHash = startHash;
this.rwiCountAtStart = size();
}
public void run() {
serverLog.logInfo("INDEXCLEANER", "IndexCleaner-Thread started");
indexContainer container = null;
indexEntry entry = null;
URL url = null;
HashSet urlHashs = new HashSet();
try {
Iterator indexContainerIterator = indexContainerSet(startHash, plasmaWordIndex.RL_WORDFILES, false, 100).iterator();
while (indexContainerIterator.hasNext() && run) {
waiter();
container = (indexContainer) indexContainerIterator.next();
Iterator containerIterator = container.entries();
wordHashNow = container.getWordHash();
while (containerIterator.hasNext() && run) {
waiter();
entry = (indexEntry) containerIterator.next();
// System.out.println("Wordhash: "+wordHash+" UrlHash: "+entry.getUrlHash());
plasmaCrawlLURLEntry ue = lurl.load(entry.urlHash(), null);
if (ue == null) {
urlHashs.add(entry.urlHash());
} else {
url = ue.comp().url();
if ((url == null) || (plasmaSwitchboard.urlBlacklist.isListed(plasmaURLPattern.BLACKLIST_CRAWLER, url) == true)) {
urlHashs.add(entry.urlHash());
}
}
}
if (urlHashs.size() > 0) {
int removed = removeEntries(container.getWordHash(), urlHashs, true);
serverLog.logFine("INDEXCLEANER", container.getWordHash() + ": " + removed + " of " + container.size() + " URL-entries deleted");
lastWordHash = container.getWordHash();
lastDeletionCounter = urlHashs.size();
urlHashs.clear();
}
if (!containerIterator.hasNext()) {
// We may not be finished yet, try to get the next chunk of wordHashes
TreeSet containers = indexContainerSet(container.getWordHash(), plasmaWordIndex.RL_WORDFILES, false, 100);
indexContainerIterator = containers.iterator();
// Make sure we don't get the same wordhash twice, but don't skip a word
if ((indexContainerIterator.hasNext())&&(!container.getWordHash().equals(((indexContainer) indexContainerIterator.next()).getWordHash()))) {
indexContainerIterator = containers.iterator();
}
}
}
} catch (IOException e) {
serverLog.logSevere("INDEXCLEANER",
"IndexCleaner-Thread: unable to start: "
+ e.getMessage());
}
serverLog.logInfo("INDEXCLEANER", "IndexCleaner-Thread stopped");
}
public void abort() {
synchronized(this) {
run = false;
this.notifyAll();
}
}
public void pause() {
synchronized(this) {
if(pause == false) {
pause = true;
serverLog.logInfo("INDEXCLEANER", "IndexCleaner-Thread paused");
}
}
}
public void endPause() {
synchronized(this) {
if (pause == true) {
pause = false;
this.notifyAll();
serverLog.logInfo("INDEXCLEANER", "IndexCleaner-Thread resumed");
}
}
}
public void waiter() {
synchronized(this) {
if (this.pause) {
try {
this.wait();
} catch (InterruptedException e) {
this.run = false;
return;
}
}
}
}
}
public static void main(String[] args) {
// System.out.println(kelondroMSetTools.fastStringComparator(true).compare("RwGeoUdyDQ0Y", "rwGeoUdyDQ0Y"));
// System.out.println(new Date(reverseMicroDateDays(microDateDays(System.currentTimeMillis()))));
File plasmadb = new File("D:\\dev\\proxy\\DATA\\PLASMADB");
File indexdb = new File("D:\\dev\\proxy\\DATA\\INDEX");
try {
plasmaWordIndex index = new plasmaWordIndex(plasmadb, indexdb, true, 555, 1000, new serverLog("TESTAPP"), false);
Iterator containerIter = index.wordContainers("5A8yhZMh_Kmv", plasmaWordIndex.RL_WORDFILES, true);
while (containerIter.hasNext()) {
System.out.println("File: " + (indexContainer) containerIter.next());
}
} catch (IOException e) {
e.printStackTrace();
}
}
}
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