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package org.apache.lucene.benchmark.byTask;

/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

import java.io.Closeable;
import java.io.File;
import java.io.IOException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Locale;

import org.apache.lucene.analysis.Analyzer;
import org.apache.lucene.benchmark.byTask.feeds.ContentSource;
import org.apache.lucene.benchmark.byTask.feeds.DocMaker;
import org.apache.lucene.benchmark.byTask.feeds.FacetSource;
import org.apache.lucene.benchmark.byTask.feeds.QueryMaker;
import org.apache.lucene.benchmark.byTask.stats.Points;
import org.apache.lucene.benchmark.byTask.tasks.NewAnalyzerTask;
import org.apache.lucene.benchmark.byTask.tasks.PerfTask;
import org.apache.lucene.benchmark.byTask.tasks.ReadTask;
import org.apache.lucene.benchmark.byTask.tasks.SearchTask;
import org.apache.lucene.benchmark.byTask.utils.Config;
import org.apache.lucene.benchmark.byTask.utils.FileUtils;
import org.apache.lucene.facet.taxonomy.TaxonomyReader;
import org.apache.lucene.facet.taxonomy.TaxonomyWriter;
import org.apache.lucene.index.DirectoryReader;
import org.apache.lucene.index.IndexWriter;
import org.apache.lucene.search.IndexSearcher;
import org.apache.lucene.store.Directory;
import org.apache.lucene.store.FSDirectory;
import org.apache.lucene.store.RAMDirectory;
import org.apache.lucene.util.IOUtils;

/**
 * Data maintained by a performance test run.
 * 

* Data includes: *

    *
  • Configuration. *
  • Directory, Writer, Reader. *
  • Taxonomy Directory, Writer, Reader. *
  • DocMaker, FacetSource and a few instances of QueryMaker. *
  • Analyzer. *
  • Statistics data which updated during the run. *
* Config properties: *
    *
  • work.dir=<path to root of docs and index dirs| Default: work> *
  • analyzer=<class name for analyzer| Default: StandardAnalyzer> *
  • doc.maker=<class name for doc-maker| Default: DocMaker> *
  • facet.source=<class name for facet-source| Default: RandomFacetSource> *
  • query.maker=<class name for query-maker| Default: SimpleQueryMaker> *
  • log.queries=<whether queries should be printed| Default: false> *
  • directory=<type of directory to use for the index| Default: RAMDirectory> *
  • taxonomy.directory=<type of directory for taxonomy index| Default: RAMDirectory> *
*/ public class PerfRunData implements Closeable { private Points points; // objects used during performance test run // directory, analyzer, docMaker - created at startup. // reader, writer, searcher - maintained by basic tasks. private Directory directory; private Analyzer analyzer; private DocMaker docMaker; private ContentSource contentSource; private FacetSource facetSource; private Locale locale; private Directory taxonomyDir; private TaxonomyWriter taxonomyWriter; private TaxonomyReader taxonomyReader; // we use separate (identical) instances for each "read" task type, so each can iterate the quries separately. private HashMap,QueryMaker> readTaskQueryMaker; private Class qmkrClass; private DirectoryReader indexReader; private IndexSearcher indexSearcher; private IndexWriter indexWriter; private Config config; private long startTimeMillis; private final HashMap perfObjects = new HashMap(); // constructor public PerfRunData (Config config) throws Exception { this.config = config; // analyzer (default is standard analyzer) analyzer = NewAnalyzerTask.createAnalyzer(config.get("analyzer", "org.apache.lucene.analysis.standard.StandardAnalyzer")); // content source String sourceClass = config.get("content.source", "org.apache.lucene.benchmark.byTask.feeds.SingleDocSource"); contentSource = Class.forName(sourceClass).asSubclass(ContentSource.class).newInstance(); contentSource.setConfig(config); // doc maker docMaker = Class.forName(config.get("doc.maker", "org.apache.lucene.benchmark.byTask.feeds.DocMaker")).asSubclass(DocMaker.class).newInstance(); docMaker.setConfig(config, contentSource); // facet source facetSource = Class.forName(config.get("facet.source", "org.apache.lucene.benchmark.byTask.feeds.RandomFacetSource")).asSubclass(FacetSource.class).newInstance(); facetSource.setConfig(config); // query makers readTaskQueryMaker = new HashMap,QueryMaker>(); qmkrClass = Class.forName(config.get("query.maker","org.apache.lucene.benchmark.byTask.feeds.SimpleQueryMaker")).asSubclass(QueryMaker.class); // index stuff reinit(false); // statistic points points = new Points(config); if (Boolean.valueOf(config.get("log.queries","false")).booleanValue()) { System.out.println("------------> queries:"); System.out.println(getQueryMaker(new SearchTask(this)).printQueries()); } } @Override public void close() throws IOException { IOUtils.close(indexWriter, indexReader, directory, taxonomyWriter, taxonomyReader, taxonomyDir, docMaker, facetSource, contentSource); // close all perf objects that are closeable. ArrayList perfObjectsToClose = new ArrayList(); for (Object obj : perfObjects.values()) { if (obj instanceof Closeable) { perfObjectsToClose.add((Closeable) obj); } } IOUtils.close(perfObjectsToClose); } // clean old stuff, reopen public void reinit(boolean eraseIndex) throws Exception { // cleanup index IOUtils.close(indexWriter, indexReader, directory); indexWriter = null; indexReader = null; IOUtils.close(taxonomyWriter, taxonomyReader, taxonomyDir); taxonomyWriter = null; taxonomyReader = null; // directory (default is ram-dir). directory = createDirectory(eraseIndex, "index", "directory"); taxonomyDir = createDirectory(eraseIndex, "taxo", "taxonomy.directory"); // inputs resetInputs(); // release unused stuff System.runFinalization(); System.gc(); // Re-init clock setStartTimeMillis(); } private Directory createDirectory(boolean eraseIndex, String dirName, String dirParam) throws IOException { if ("FSDirectory".equals(config.get(dirParam,"RAMDirectory"))) { File workDir = new File(config.get("work.dir","work")); File indexDir = new File(workDir,dirName); if (eraseIndex && indexDir.exists()) { FileUtils.fullyDelete(indexDir); } indexDir.mkdirs(); return FSDirectory.open(indexDir); } return new RAMDirectory(); } /** Returns an object that was previously set by {@link #setPerfObject(String, Object)}. */ public synchronized Object getPerfObject(String key) { return perfObjects.get(key); } /** * Sets an object that is required by {@link PerfTask}s, keyed by the given * {@code key}. If the object implements {@link Closeable}, it will be closed * by {@link #close()}. */ public synchronized void setPerfObject(String key, Object obj) { perfObjects.put(key, obj); } public long setStartTimeMillis() { startTimeMillis = System.currentTimeMillis(); return startTimeMillis; } /** * @return Start time in milliseconds */ public long getStartTimeMillis() { return startTimeMillis; } /** * @return Returns the points. */ public Points getPoints() { return points; } /** * @return Returns the directory. */ public Directory getDirectory() { return directory; } /** * @param directory The directory to set. */ public void setDirectory(Directory directory) { this.directory = directory; } /** * @return Returns the taxonomy directory */ public Directory getTaxonomyDir() { return taxonomyDir; } /** * Set the taxonomy reader. Takes ownership of that taxonomy reader, that is, * internally performs taxoReader.incRef() (If caller no longer needs that * reader it should decRef()/close() it after calling this method, otherwise, * the reader will remain open). * @param taxoReader The taxonomy reader to set. */ public synchronized void setTaxonomyReader(TaxonomyReader taxoReader) throws IOException { if (taxoReader == this.taxonomyReader) { return; } if (taxonomyReader != null) { taxonomyReader.decRef(); } if (taxoReader != null) { taxoReader.incRef(); } this.taxonomyReader = taxoReader; } /** * @return Returns the taxonomyReader. NOTE: this returns a * reference. You must call TaxonomyReader.decRef() when * you're done. */ public synchronized TaxonomyReader getTaxonomyReader() { if (taxonomyReader != null) { taxonomyReader.incRef(); } return taxonomyReader; } /** * @param taxoWriter The taxonomy writer to set. */ public void setTaxonomyWriter(TaxonomyWriter taxoWriter) { this.taxonomyWriter = taxoWriter; } public TaxonomyWriter getTaxonomyWriter() { return taxonomyWriter; } /** * @return Returns the indexReader. NOTE: this returns a * reference. You must call IndexReader.decRef() when * you're done. */ public synchronized DirectoryReader getIndexReader() { if (indexReader != null) { indexReader.incRef(); } return indexReader; } /** * @return Returns the indexSearcher. NOTE: this returns * a reference to the underlying IndexReader. You must * call IndexReader.decRef() when you're done. */ public synchronized IndexSearcher getIndexSearcher() { if (indexReader != null) { indexReader.incRef(); } return indexSearcher; } /** * Set the index reader. Takes ownership of that index reader, that is, * internally performs indexReader.incRef() (If caller no longer needs that * reader it should decRef()/close() it after calling this method, otherwise, * the reader will remain open). * @param indexReader The indexReader to set. */ public synchronized void setIndexReader(DirectoryReader indexReader) throws IOException { if (indexReader == this.indexReader) { return; } if (this.indexReader != null) { // Release current IR this.indexReader.decRef(); } this.indexReader = indexReader; if (indexReader != null) { // Hold reference to new IR indexReader.incRef(); indexSearcher = new IndexSearcher(indexReader); } else { indexSearcher = null; } } /** * @return Returns the indexWriter. */ public IndexWriter getIndexWriter() { return indexWriter; } /** * @param indexWriter The indexWriter to set. */ public void setIndexWriter(IndexWriter indexWriter) { this.indexWriter = indexWriter; } /** * @return Returns the anlyzer. */ public Analyzer getAnalyzer() { return analyzer; } public void setAnalyzer(Analyzer analyzer) { this.analyzer = analyzer; } /** Returns the ContentSource. */ public ContentSource getContentSource() { return contentSource; } /** Returns the DocMaker. */ public DocMaker getDocMaker() { return docMaker; } /** Returns the facet source. */ public FacetSource getFacetSource() { return facetSource; } /** * @return the locale */ public Locale getLocale() { return locale; } /** * @param locale the locale to set */ public void setLocale(Locale locale) { this.locale = locale; } /** * @return Returns the config. */ public Config getConfig() { return config; } public void resetInputs() throws IOException { contentSource.resetInputs(); docMaker.resetInputs(); facetSource.resetInputs(); for (final QueryMaker queryMaker : readTaskQueryMaker.values()) { queryMaker.resetInputs(); } } /** * @return Returns the queryMaker by read task type (class) */ synchronized public QueryMaker getQueryMaker(ReadTask readTask) { // mapping the query maker by task class allows extending/adding new search/read tasks // without needing to modify this class. Class readTaskClass = readTask.getClass(); QueryMaker qm = readTaskQueryMaker.get(readTaskClass); if (qm == null) { try { qm = qmkrClass.newInstance(); qm.setConfig(config); } catch (Exception e) { throw new RuntimeException(e); } readTaskQueryMaker.put(readTaskClass,qm); } return qm; } }




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