Java tutorial
/* * 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. */ package org.apache.lucene.classification; import java.io.IOException; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Map; import org.apache.lucene.analysis.Analyzer; import org.apache.lucene.classification.utils.NearestFuzzyQuery; import org.apache.lucene.index.IndexReader; import org.apache.lucene.index.IndexableField; import org.apache.lucene.index.LeafReader; import org.apache.lucene.index.Term; import org.apache.lucene.search.BooleanClause; import org.apache.lucene.search.BooleanQuery; import org.apache.lucene.search.IndexSearcher; import org.apache.lucene.search.Query; import org.apache.lucene.search.ScoreDoc; import org.apache.lucene.search.TopDocs; import org.apache.lucene.search.WildcardQuery; import org.apache.lucene.search.similarities.BM25Similarity; import org.apache.lucene.search.similarities.Similarity; import org.apache.lucene.util.BytesRef; /** * A k-Nearest Neighbor classifier based on {@link NearestFuzzyQuery}. * * @lucene.experimental */ public class KNearestFuzzyClassifier implements Classifier<BytesRef> { /** * the name of the fields used as the input text */ private final String[] textFieldNames; /** * the name of the field used as the output text */ private final String classFieldName; /** * an {@link IndexSearcher} used to perform queries */ private final IndexSearcher indexSearcher; /** * the no. of docs to compare in order to find the nearest neighbor to the input text */ private final int k; /** * a {@link Query} used to filter the documents that should be used from this classifier's underlying {@link LeafReader} */ private final Query query; private final Analyzer analyzer; /** * Creates a {@link KNearestFuzzyClassifier}. * * @param indexReader the reader on the index to be used for classification * @param analyzer an {@link Analyzer} used to analyze unseen text * @param similarity the {@link Similarity} to be used by the underlying {@link IndexSearcher} or {@code null} * (defaults to {@link BM25Similarity}) * @param query a {@link Query} to eventually filter the docs used for training the classifier, or {@code null} * if all the indexed docs should be used * @param k the no. of docs to select in the MLT results to find the nearest neighbor * @param classFieldName the name of the field used as the output for the classifier * @param textFieldNames the name of the fields used as the inputs for the classifier, they can contain boosting indication e.g. title^10 */ public KNearestFuzzyClassifier(IndexReader indexReader, Similarity similarity, Analyzer analyzer, Query query, int k, String classFieldName, String... textFieldNames) { this.textFieldNames = textFieldNames; this.classFieldName = classFieldName; this.analyzer = analyzer; this.indexSearcher = new IndexSearcher(indexReader); if (similarity != null) { this.indexSearcher.setSimilarity(similarity); } else { this.indexSearcher.setSimilarity(new BM25Similarity()); } this.query = query; this.k = k; } @Override public ClassificationResult<BytesRef> assignClass(String text) throws IOException { TopDocs knnResults = knnSearch(text); List<ClassificationResult<BytesRef>> assignedClasses = buildListFromTopDocs(knnResults); ClassificationResult<BytesRef> assignedClass = null; double maxscore = -Double.MAX_VALUE; for (ClassificationResult<BytesRef> cl : assignedClasses) { if (cl.getScore() > maxscore) { assignedClass = cl; maxscore = cl.getScore(); } } return assignedClass; } @Override public List<ClassificationResult<BytesRef>> getClasses(String text) throws IOException { TopDocs knnResults = knnSearch(text); List<ClassificationResult<BytesRef>> assignedClasses = buildListFromTopDocs(knnResults); Collections.sort(assignedClasses); return assignedClasses; } @Override public List<ClassificationResult<BytesRef>> getClasses(String text, int max) throws IOException { TopDocs knnResults = knnSearch(text); List<ClassificationResult<BytesRef>> assignedClasses = buildListFromTopDocs(knnResults); Collections.sort(assignedClasses); return assignedClasses.subList(0, max); } private TopDocs knnSearch(String text) throws IOException { BooleanQuery.Builder bq = new BooleanQuery.Builder(); NearestFuzzyQuery nearestFuzzyQuery = new NearestFuzzyQuery(analyzer); for (String fieldName : textFieldNames) { nearestFuzzyQuery.addTerms(text, fieldName); } bq.add(nearestFuzzyQuery, BooleanClause.Occur.MUST); Query classFieldQuery = new WildcardQuery(new Term(classFieldName, "*")); bq.add(new BooleanClause(classFieldQuery, BooleanClause.Occur.MUST)); if (query != null) { bq.add(query, BooleanClause.Occur.MUST); } return indexSearcher.search(bq.build(), k); } /** * build a list of classification results from search results * * @param topDocs the search results as a {@link TopDocs} object * @return a {@link List} of {@link ClassificationResult}, one for each existing class * @throws IOException if it's not possible to get the stored value of class field */ private List<ClassificationResult<BytesRef>> buildListFromTopDocs(TopDocs topDocs) throws IOException { Map<BytesRef, Integer> classCounts = new HashMap<>(); Map<BytesRef, Double> classBoosts = new HashMap<>(); // this is a boost based on class ranking positions in topDocs float maxScore = topDocs.totalHits.value == 0 ? Float.NaN : topDocs.scoreDocs[0].score; for (ScoreDoc scoreDoc : topDocs.scoreDocs) { IndexableField storableField = indexSearcher.doc(scoreDoc.doc).getField(classFieldName); if (storableField != null) { BytesRef cl = new BytesRef(storableField.stringValue()); //update count classCounts.merge(cl, 1, (a, b) -> a + b); //update boost, the boost is based on the best score Double totalBoost = classBoosts.get(cl); double singleBoost = scoreDoc.score / maxScore; if (totalBoost != null) { classBoosts.put(cl, totalBoost + singleBoost); } else { classBoosts.put(cl, singleBoost); } } } List<ClassificationResult<BytesRef>> returnList = new ArrayList<>(); List<ClassificationResult<BytesRef>> temporaryList = new ArrayList<>(); int sumdoc = 0; for (Map.Entry<BytesRef, Integer> entry : classCounts.entrySet()) { Integer count = entry.getValue(); Double normBoost = classBoosts.get(entry.getKey()) / count; //the boost is normalized to be 0<b<1 temporaryList.add(new ClassificationResult<>(entry.getKey().clone(), (count * normBoost) / (double) k)); sumdoc += count; } //correction if (sumdoc < k) { for (ClassificationResult<BytesRef> cr : temporaryList) { returnList.add( new ClassificationResult<>(cr.getAssignedClass(), cr.getScore() * k / (double) sumdoc)); } } else { returnList = temporaryList; } return returnList; } @Override public String toString() { return "KNearestFuzzyClassifier{" + "textFieldNames=" + Arrays.toString(textFieldNames) + ", classFieldName='" + classFieldName + '\'' + ", k=" + k + ", query=" + query + ", similarity=" + indexSearcher.getSimilarity() + '}'; } }