package org.apache.lucene.search; /** * 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 org.apache.lucene.store.Directory; import org.apache.lucene.util.LuceneTestCase; import org.apache.lucene.analysis.MockAnalyzer; import org.apache.lucene.document.Document; import org.apache.lucene.document.Field; import org.apache.lucene.document.Field.Store; import org.apache.lucene.document.Field.Index; import org.apache.lucene.index.IndexReader; import org.apache.lucene.index.RandomIndexWriter; import org.apache.lucene.index.Term; import org.apache.lucene.queryParser.QueryParser; import java.io.IOException; /** * TestWildcard tests the '*' and '?' wildcard characters. */ public class TestWildcard extends LuceneTestCase { @Override public void setUp() throws Exception { super.setUp(); } public void testEquals() { WildcardQuery wq1 = new WildcardQuery(new Term("field", "b*a")); WildcardQuery wq2 = new WildcardQuery(new Term("field", "b*a")); WildcardQuery wq3 = new WildcardQuery(new Term("field", "b*a")); // reflexive? assertEquals(wq1, wq2); assertEquals(wq2, wq1); // transitive? assertEquals(wq2, wq3); assertEquals(wq1, wq3); assertFalse(wq1.equals(null)); FuzzyQuery fq = new FuzzyQuery(new Term("field", "b*a")); assertFalse(wq1.equals(fq)); assertFalse(fq.equals(wq1)); } /** * Tests if a WildcardQuery that has no wildcard in the term is rewritten to a single * TermQuery. The boost should be preserved, and the rewrite should return * a ConstantScoreQuery if the WildcardQuery had a ConstantScore rewriteMethod. */ public void testTermWithoutWildcard() throws IOException { Directory indexStore = getIndexStore("field", new String[]{"nowildcard", "nowildcardx"}); IndexReader reader = IndexReader.open(indexStore); IndexSearcher searcher = new IndexSearcher(reader); MultiTermQuery wq = new WildcardQuery(new Term("field", "nowildcard")); assertMatches(searcher, wq, 1); wq.setRewriteMethod(MultiTermQuery.SCORING_BOOLEAN_QUERY_REWRITE); wq.setBoost(0.1F); Query q = searcher.rewrite(wq); assertTrue(q instanceof TermQuery); assertEquals(q.getBoost(), wq.getBoost(), 0); wq.setRewriteMethod(MultiTermQuery.CONSTANT_SCORE_FILTER_REWRITE); wq.setBoost(0.2F); q = searcher.rewrite(wq); assertTrue(q instanceof ConstantScoreQuery); assertEquals(q.getBoost(), wq.getBoost(), 0.1); wq.setRewriteMethod(MultiTermQuery.CONSTANT_SCORE_AUTO_REWRITE_DEFAULT); wq.setBoost(0.3F); q = searcher.rewrite(wq); assertTrue(q instanceof ConstantScoreQuery); assertEquals(q.getBoost(), wq.getBoost(), 0.1); wq.setRewriteMethod(MultiTermQuery.CONSTANT_SCORE_BOOLEAN_QUERY_REWRITE); wq.setBoost(0.4F); q = searcher.rewrite(wq); assertTrue(q instanceof ConstantScoreQuery); assertEquals(q.getBoost(), wq.getBoost(), 0.1); searcher.close(); reader.close(); indexStore.close(); } /** * Tests if a WildcardQuery with an empty term is rewritten to an empty BooleanQuery */ public void testEmptyTerm() throws IOException { Directory indexStore = getIndexStore("field", new String[]{"nowildcard", "nowildcardx"}); IndexReader reader = IndexReader.open(indexStore); IndexSearcher searcher = new IndexSearcher(reader); MultiTermQuery wq = new WildcardQuery(new Term("field", "")); wq.setRewriteMethod(MultiTermQuery.SCORING_BOOLEAN_QUERY_REWRITE); assertMatches(searcher, wq, 0); Query q = searcher.rewrite(wq); assertTrue(q instanceof BooleanQuery); assertEquals(0, ((BooleanQuery) q).clauses().size()); searcher.close(); reader.close(); indexStore.close(); } /** * Tests if a WildcardQuery that has only a trailing * in the term is * rewritten to a single PrefixQuery. The boost and rewriteMethod should be * preserved. */ public void testPrefixTerm() throws IOException { Directory indexStore = getIndexStore("field", new String[]{"prefix", "prefixx"}); IndexReader reader = IndexReader.open(indexStore); IndexSearcher searcher = new IndexSearcher(reader); MultiTermQuery wq = new WildcardQuery(new Term("field", "prefix*")); assertMatches(searcher, wq, 2); assertTrue(wq.getEnum(searcher.getIndexReader()) instanceof PrefixTermEnum); searcher.close(); reader.close(); indexStore.close(); } /** * Tests Wildcard queries with an asterisk. */ public void testAsterisk() throws IOException { Directory indexStore = getIndexStore("body", new String[] {"metal", "metals"}); IndexReader reader = IndexReader.open(indexStore); IndexSearcher searcher = new IndexSearcher(reader); Query query1 = new TermQuery(new Term("body", "metal")); Query query2 = new WildcardQuery(new Term("body", "metal*")); Query query3 = new WildcardQuery(new Term("body", "m*tal")); Query query4 = new WildcardQuery(new Term("body", "m*tal*")); Query query5 = new WildcardQuery(new Term("body", "m*tals")); BooleanQuery query6 = new BooleanQuery(); query6.add(query5, BooleanClause.Occur.SHOULD); BooleanQuery query7 = new BooleanQuery(); query7.add(query3, BooleanClause.Occur.SHOULD); query7.add(query5, BooleanClause.Occur.SHOULD); // Queries do not automatically lower-case search terms: Query query8 = new WildcardQuery(new Term("body", "M*tal*")); assertMatches(searcher, query1, 1); assertMatches(searcher, query2, 2); assertMatches(searcher, query3, 1); assertMatches(searcher, query4, 2); assertMatches(searcher, query5, 1); assertMatches(searcher, query6, 1); assertMatches(searcher, query7, 2); assertMatches(searcher, query8, 0); assertMatches(searcher, new WildcardQuery(new Term("body", "*tall")), 0); assertMatches(searcher, new WildcardQuery(new Term("body", "*tal")), 1); assertMatches(searcher, new WildcardQuery(new Term("body", "*tal*")), 2); searcher.close(); reader.close(); indexStore.close(); } /** * LUCENE-2620 */ public void testLotsOfAsterisks() throws IOException { Directory indexStore = getIndexStore("body", new String[] {"metal", "metals"}); IndexSearcher searcher = new IndexSearcher(indexStore, true); StringBuilder term = new StringBuilder(); term.append("m"); for (int i = 0; i < 512; i++) term.append("*"); term.append("tal"); Query query3 = new WildcardQuery(new Term("body", term.toString())); assertMatches(searcher, query3, 1); searcher.close(); indexStore.close(); } /** * Tests Wildcard queries with a question mark. * * @throws IOException if an error occurs */ public void testQuestionmark() throws IOException { Directory indexStore = getIndexStore("body", new String[] {"metal", "metals", "mXtals", "mXtXls"}); IndexReader reader = IndexReader.open(indexStore); IndexSearcher searcher = new IndexSearcher(reader); Query query1 = new WildcardQuery(new Term("body", "m?tal")); Query query2 = new WildcardQuery(new Term("body", "metal?")); Query query3 = new WildcardQuery(new Term("body", "metals?")); Query query4 = new WildcardQuery(new Term("body", "m?t?ls")); Query query5 = new WildcardQuery(new Term("body", "M?t?ls")); Query query6 = new WildcardQuery(new Term("body", "meta??")); assertMatches(searcher, query1, 1); assertMatches(searcher, query2, 1); assertMatches(searcher, query3, 0); assertMatches(searcher, query4, 3); assertMatches(searcher, query5, 0); assertMatches(searcher, query6, 1); // Query: 'meta??' matches 'metals' not 'metal' searcher.close(); reader.close(); indexStore.close(); } private Directory getIndexStore(String field, String[] contents) throws IOException { Directory indexStore = newDirectory(); RandomIndexWriter writer = new RandomIndexWriter(random, indexStore); for (int i = 0; i < contents.length; ++i) { Document doc = new Document(); doc.add(newField(field, contents[i], Field.Store.YES, Field.Index.ANALYZED)); writer.addDocument(doc); } writer.close(); return indexStore; } private void assertMatches(IndexSearcher searcher, Query q, int expectedMatches) throws IOException { ScoreDoc[] result = searcher.search(q, null, 1000).scoreDocs; assertEquals(expectedMatches, result.length); } /** * Test that wild card queries are parsed to the correct type and are searched correctly. * This test looks at both parsing and execution of wildcard queries. * Although placed here, it also tests prefix queries, verifying that * prefix queries are not parsed into wild card queries, and viceversa. * @throws Exception */ public void testParsingAndSearching() throws Exception { String field = "content"; QueryParser qp = new QueryParser(TEST_VERSION_CURRENT, field, new MockAnalyzer(random)); qp.setAllowLeadingWildcard(true); String docs[] = { "\\ abcdefg1", "\\79 hijklmn1", "\\\\ opqrstu1", }; // queries that should find all docs String matchAll[] = { "*", "*1", "**1", "*?", "*?1", "?*1", "**", "***", "\\\\*" }; // queries that should find no docs String matchNone[] = { "a*h", "a?h", "*a*h", "?a", "a?", }; // queries that should be parsed to prefix queries String matchOneDocPrefix[][] = { {"a*", "ab*", "abc*", }, // these should find only doc 0 {"h*", "hi*", "hij*", "\\\\7*"}, // these should find only doc 1 {"o*", "op*", "opq*", "\\\\\\\\*"}, // these should find only doc 2 }; // queries that should be parsed to wildcard queries String matchOneDocWild[][] = { {"*a*", "*ab*", "*abc**", "ab*e*", "*g?", "*f?1", "abc**"}, // these should find only doc 0 {"*h*", "*hi*", "*hij**", "hi*k*", "*n?", "*m?1", "hij**"}, // these should find only doc 1 {"*o*", "*op*", "*opq**", "op*q*", "*u?", "*t?1", "opq**"}, // these should find only doc 2 }; // prepare the index Directory dir = newDirectory(); RandomIndexWriter iw = new RandomIndexWriter(random, dir, newIndexWriterConfig(TEST_VERSION_CURRENT, new MockAnalyzer(random)) .setMergePolicy(newLogMergePolicy())); for (int i = 0; i < docs.length; i++) { Document doc = new Document(); doc.add(newField(field,docs[i],Store.NO,Index.ANALYZED)); iw.addDocument(doc); } iw.close(); IndexReader reader = IndexReader.open(dir); IndexSearcher searcher = new IndexSearcher(reader); // test queries that must find all for (int i = 0; i < matchAll.length; i++) { String qtxt = matchAll[i]; Query q = qp.parse(qtxt); if (VERBOSE) System.out.println("matchAll: qtxt="+qtxt+" q="+q+" "+q.getClass().getName()); ScoreDoc[] hits = searcher.search(q, null, 1000).scoreDocs; assertEquals(docs.length,hits.length); } // test queries that must find none for (int i = 0; i < matchNone.length; i++) { String qtxt = matchNone[i]; Query q = qp.parse(qtxt); if (VERBOSE) System.out.println("matchNone: qtxt="+qtxt+" q="+q+" "+q.getClass().getName()); ScoreDoc[] hits = searcher.search(q, null, 1000).scoreDocs; assertEquals(0,hits.length); } // test queries that must be prefix queries and must find only one doc for (int i = 0; i < matchOneDocPrefix.length; i++) { for (int j = 0; j < matchOneDocPrefix[i].length; j++) { String qtxt = matchOneDocPrefix[i][j]; Query q = qp.parse(qtxt); if (VERBOSE) System.out.println("match 1 prefix: doc="+docs[i]+" qtxt="+qtxt+" q="+q+" "+q.getClass().getName()); assertEquals(PrefixQuery.class, q.getClass()); ScoreDoc[] hits = searcher.search(q, null, 1000).scoreDocs; assertEquals(1,hits.length); assertEquals(i,hits[0].doc); } } // test queries that must be wildcard queries and must find only one doc for (int i = 0; i < matchOneDocPrefix.length; i++) { for (int j = 0; j < matchOneDocWild[i].length; j++) { String qtxt = matchOneDocWild[i][j]; Query q = qp.parse(qtxt); if (VERBOSE) System.out.println("match 1 wild: doc="+docs[i]+" qtxt="+qtxt+" q="+q+" "+q.getClass().getName()); assertEquals(WildcardQuery.class, q.getClass()); ScoreDoc[] hits = searcher.search(q, null, 1000).scoreDocs; assertEquals(1,hits.length); assertEquals(i,hits[0].doc); } } searcher.close(); reader.close(); dir.close(); } }