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 java.io.IOException; import org.apache.lucene.index.IndexReader; import org.apache.lucene.index.Term; import org.apache.lucene.index.IndexWriter; import org.apache.lucene.analysis.MockAnalyzer; import org.apache.lucene.document.Document; import org.apache.lucene.document.Field; import org.apache.lucene.store.Directory; import org.junit.Test; /** * A basic 'positive' Unit test class for the FieldCacheRangeFilter class. * *

* NOTE: at the moment, this class only tests for 'positive' results, * it does not verify the results to ensure there are no 'false positives', * nor does it adequately test 'negative' results. It also does not test * that garbage in results in an Exception. */ public class TestFieldCacheRangeFilter extends BaseTestRangeFilter { @Test public void testRangeFilterId() throws IOException { IndexReader reader = signedIndexReader; IndexSearcher search = newSearcher(reader); int medId = ((maxId - minId) / 2); String minIP = pad(minId); String maxIP = pad(maxId); String medIP = pad(medId); int numDocs = reader.numDocs(); assertEquals("num of docs", numDocs, 1+ maxId - minId); ScoreDoc[] result; Query q = new TermQuery(new Term("body","body")); // test id, bounded on both ends FieldCacheRangeFilter fcrf; result = search.search(q,fcrf = FieldCacheRangeFilter.newStringRange("id",minIP,maxIP,T,T), numDocs).scoreDocs; assertTrue(fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,maxIP,T,F), numDocs).scoreDocs; assertEquals("all but last", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,maxIP,F,T), numDocs).scoreDocs; assertEquals("all but first", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,maxIP,F,F), numDocs).scoreDocs; assertEquals("all but ends", numDocs-2, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",medIP,maxIP,T,T), numDocs).scoreDocs; assertEquals("med and up", 1+ maxId-medId, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,medIP,T,T), numDocs).scoreDocs; assertEquals("up to med", 1+ medId-minId, result.length); // unbounded id result = search.search(q,FieldCacheRangeFilter.newStringRange("id",null,null,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,null,T,F), numDocs).scoreDocs; assertEquals("min and up", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",null,maxIP,F,T), numDocs).scoreDocs; assertEquals("max and down", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,null,F,F), numDocs).scoreDocs; assertEquals("not min, but up", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",null,maxIP,F,F), numDocs).scoreDocs; assertEquals("not max, but down", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",medIP,maxIP,T,F), numDocs).scoreDocs; assertEquals("med and up, not max", maxId-medId, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,medIP,F,T), numDocs).scoreDocs; assertEquals("not min, up to med", medId-minId, result.length); // very small sets result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,minIP,F,F), numDocs).scoreDocs; assertEquals("min,min,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",medIP,medIP,F,F), numDocs).scoreDocs; assertEquals("med,med,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",maxIP,maxIP,F,F), numDocs).scoreDocs; assertEquals("max,max,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",minIP,minIP,T,T), numDocs).scoreDocs; assertEquals("min,min,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",null,minIP,F,T), numDocs).scoreDocs; assertEquals("nul,min,F,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",maxIP,maxIP,T,T), numDocs).scoreDocs; assertEquals("max,max,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",maxIP,null,T,F), numDocs).scoreDocs; assertEquals("max,nul,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("id",medIP,medIP,T,T), numDocs).scoreDocs; assertEquals("med,med,T,T", 1, result.length); search.close(); } @Test public void testFieldCacheRangeFilterRand() throws IOException { IndexReader reader = signedIndexReader; IndexSearcher search = newSearcher(reader); String minRP = pad(signedIndexDir.minR); String maxRP = pad(signedIndexDir.maxR); int numDocs = reader.numDocs(); assertEquals("num of docs", numDocs, 1+ maxId - minId); ScoreDoc[] result; Query q = new TermQuery(new Term("body","body")); // test extremes, bounded on both ends result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",minRP,maxRP,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",minRP,maxRP,T,F), numDocs).scoreDocs; assertEquals("all but biggest", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",minRP,maxRP,F,T), numDocs).scoreDocs; assertEquals("all but smallest", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",minRP,maxRP,F,F), numDocs).scoreDocs; assertEquals("all but extremes", numDocs-2, result.length); // unbounded result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",minRP,null,T,F), numDocs).scoreDocs; assertEquals("smallest and up", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",null,maxRP,F,T), numDocs).scoreDocs; assertEquals("biggest and down", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",minRP,null,F,F), numDocs).scoreDocs; assertEquals("not smallest, but up", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",null,maxRP,F,F), numDocs).scoreDocs; assertEquals("not biggest, but down", numDocs-1, result.length); // very small sets result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",minRP,minRP,F,F), numDocs).scoreDocs; assertEquals("min,min,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",maxRP,maxRP,F,F), numDocs).scoreDocs; assertEquals("max,max,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",minRP,minRP,T,T), numDocs).scoreDocs; assertEquals("min,min,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",null,minRP,F,T), numDocs).scoreDocs; assertEquals("nul,min,F,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",maxRP,maxRP,T,T), numDocs).scoreDocs; assertEquals("max,max,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newStringRange("rand",maxRP,null,T,F), numDocs).scoreDocs; assertEquals("max,nul,T,T", 1, result.length); search.close(); } // byte-ranges cannot be tested, because all ranges are too big for bytes, need an extra range for that @Test public void testFieldCacheRangeFilterShorts() throws IOException { IndexReader reader = signedIndexReader; IndexSearcher search = newSearcher(reader); int numDocs = reader.numDocs(); int medId = ((maxId - minId) / 2); Short minIdO = Short.valueOf((short) minId); Short maxIdO = Short.valueOf((short) maxId); Short medIdO = Short.valueOf((short) medId); assertEquals("num of docs", numDocs, 1+ maxId - minId); ScoreDoc[] result; Query q = new TermQuery(new Term("body","body")); // test id, bounded on both ends FieldCacheRangeFilter fcrf; result = search.search(q,fcrf=FieldCacheRangeFilter.newShortRange("id",minIdO,maxIdO,T,T), numDocs).scoreDocs; assertTrue(fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,maxIdO,T,F), numDocs).scoreDocs; assertEquals("all but last", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,maxIdO,F,T), numDocs).scoreDocs; assertEquals("all but first", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,maxIdO,F,F), numDocs).scoreDocs; assertEquals("all but ends", numDocs-2, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",medIdO,maxIdO,T,T), numDocs).scoreDocs; assertEquals("med and up", 1+ maxId-medId, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,medIdO,T,T), numDocs).scoreDocs; assertEquals("up to med", 1+ medId-minId, result.length); // unbounded id result = search.search(q,FieldCacheRangeFilter.newShortRange("id",null,null,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,null,T,F), numDocs).scoreDocs; assertEquals("min and up", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",null,maxIdO,F,T), numDocs).scoreDocs; assertEquals("max and down", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,null,F,F), numDocs).scoreDocs; assertEquals("not min, but up", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",null,maxIdO,F,F), numDocs).scoreDocs; assertEquals("not max, but down", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",medIdO,maxIdO,T,F), numDocs).scoreDocs; assertEquals("med and up, not max", maxId-medId, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,medIdO,F,T), numDocs).scoreDocs; assertEquals("not min, up to med", medId-minId, result.length); // very small sets result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,minIdO,F,F), numDocs).scoreDocs; assertEquals("min,min,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",medIdO,medIdO,F,F), numDocs).scoreDocs; assertEquals("med,med,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",maxIdO,maxIdO,F,F), numDocs).scoreDocs; assertEquals("max,max,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",minIdO,minIdO,T,T), numDocs).scoreDocs; assertEquals("min,min,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",null,minIdO,F,T), numDocs).scoreDocs; assertEquals("nul,min,F,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",maxIdO,maxIdO,T,T), numDocs).scoreDocs; assertEquals("max,max,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",maxIdO,null,T,F), numDocs).scoreDocs; assertEquals("max,nul,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",medIdO,medIdO,T,T), numDocs).scoreDocs; assertEquals("med,med,T,T", 1, result.length); // special cases result = search.search(q,FieldCacheRangeFilter.newShortRange("id",Short.valueOf(Short.MAX_VALUE),null,F,F), numDocs).scoreDocs; assertEquals("overflow special case", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",null,Short.valueOf(Short.MIN_VALUE),F,F), numDocs).scoreDocs; assertEquals("overflow special case", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newShortRange("id",maxIdO,minIdO,T,T), numDocs).scoreDocs; assertEquals("inverse range", 0, result.length); search.close(); } @Test public void testFieldCacheRangeFilterInts() throws IOException { IndexReader reader = signedIndexReader; IndexSearcher search = newSearcher(reader); int numDocs = reader.numDocs(); int medId = ((maxId - minId) / 2); Integer minIdO = Integer.valueOf(minId); Integer maxIdO = Integer.valueOf(maxId); Integer medIdO = Integer.valueOf(medId); assertEquals("num of docs", numDocs, 1+ maxId - minId); ScoreDoc[] result; Query q = new TermQuery(new Term("body","body")); // test id, bounded on both ends FieldCacheRangeFilter fcrf; result = search.search(q,fcrf=FieldCacheRangeFilter.newIntRange("id",minIdO,maxIdO,T,T), numDocs).scoreDocs; assertTrue(fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,maxIdO,T,F), numDocs).scoreDocs; assertEquals("all but last", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,maxIdO,F,T), numDocs).scoreDocs; assertEquals("all but first", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,maxIdO,F,F), numDocs).scoreDocs; assertEquals("all but ends", numDocs-2, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",medIdO,maxIdO,T,T), numDocs).scoreDocs; assertEquals("med and up", 1+ maxId-medId, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,medIdO,T,T), numDocs).scoreDocs; assertEquals("up to med", 1+ medId-minId, result.length); // unbounded id result = search.search(q,FieldCacheRangeFilter.newIntRange("id",null,null,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,null,T,F), numDocs).scoreDocs; assertEquals("min and up", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",null,maxIdO,F,T), numDocs).scoreDocs; assertEquals("max and down", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,null,F,F), numDocs).scoreDocs; assertEquals("not min, but up", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",null,maxIdO,F,F), numDocs).scoreDocs; assertEquals("not max, but down", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",medIdO,maxIdO,T,F), numDocs).scoreDocs; assertEquals("med and up, not max", maxId-medId, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,medIdO,F,T), numDocs).scoreDocs; assertEquals("not min, up to med", medId-minId, result.length); // very small sets result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,minIdO,F,F), numDocs).scoreDocs; assertEquals("min,min,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",medIdO,medIdO,F,F), numDocs).scoreDocs; assertEquals("med,med,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",maxIdO,maxIdO,F,F), numDocs).scoreDocs; assertEquals("max,max,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",minIdO,minIdO,T,T), numDocs).scoreDocs; assertEquals("min,min,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",null,minIdO,F,T), numDocs).scoreDocs; assertEquals("nul,min,F,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",maxIdO,maxIdO,T,T), numDocs).scoreDocs; assertEquals("max,max,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",maxIdO,null,T,F), numDocs).scoreDocs; assertEquals("max,nul,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",medIdO,medIdO,T,T), numDocs).scoreDocs; assertEquals("med,med,T,T", 1, result.length); // special cases result = search.search(q,FieldCacheRangeFilter.newIntRange("id",Integer.valueOf(Integer.MAX_VALUE),null,F,F), numDocs).scoreDocs; assertEquals("overflow special case", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",null,Integer.valueOf(Integer.MIN_VALUE),F,F), numDocs).scoreDocs; assertEquals("overflow special case", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newIntRange("id",maxIdO,minIdO,T,T), numDocs).scoreDocs; assertEquals("inverse range", 0, result.length); search.close(); } @Test public void testFieldCacheRangeFilterLongs() throws IOException { IndexReader reader = signedIndexReader; IndexSearcher search = newSearcher(reader); int numDocs = reader.numDocs(); int medId = ((maxId - minId) / 2); Long minIdO = Long.valueOf(minId); Long maxIdO = Long.valueOf(maxId); Long medIdO = Long.valueOf(medId); assertEquals("num of docs", numDocs, 1+ maxId - minId); ScoreDoc[] result; Query q = new TermQuery(new Term("body","body")); // test id, bounded on both ends FieldCacheRangeFilter fcrf; result = search.search(q,fcrf=FieldCacheRangeFilter.newLongRange("id",minIdO,maxIdO,T,T), numDocs).scoreDocs; assertTrue(fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,maxIdO,T,F), numDocs).scoreDocs; assertEquals("all but last", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,maxIdO,F,T), numDocs).scoreDocs; assertEquals("all but first", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,maxIdO,F,F), numDocs).scoreDocs; assertEquals("all but ends", numDocs-2, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",medIdO,maxIdO,T,T), numDocs).scoreDocs; assertEquals("med and up", 1+ maxId-medId, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,medIdO,T,T), numDocs).scoreDocs; assertEquals("up to med", 1+ medId-minId, result.length); // unbounded id result = search.search(q,FieldCacheRangeFilter.newLongRange("id",null,null,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,null,T,F), numDocs).scoreDocs; assertEquals("min and up", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",null,maxIdO,F,T), numDocs).scoreDocs; assertEquals("max and down", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,null,F,F), numDocs).scoreDocs; assertEquals("not min, but up", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",null,maxIdO,F,F), numDocs).scoreDocs; assertEquals("not max, but down", numDocs-1, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",medIdO,maxIdO,T,F), numDocs).scoreDocs; assertEquals("med and up, not max", maxId-medId, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,medIdO,F,T), numDocs).scoreDocs; assertEquals("not min, up to med", medId-minId, result.length); // very small sets result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,minIdO,F,F), numDocs).scoreDocs; assertEquals("min,min,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",medIdO,medIdO,F,F), numDocs).scoreDocs; assertEquals("med,med,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",maxIdO,maxIdO,F,F), numDocs).scoreDocs; assertEquals("max,max,F,F", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",minIdO,minIdO,T,T), numDocs).scoreDocs; assertEquals("min,min,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",null,minIdO,F,T), numDocs).scoreDocs; assertEquals("nul,min,F,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",maxIdO,maxIdO,T,T), numDocs).scoreDocs; assertEquals("max,max,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",maxIdO,null,T,F), numDocs).scoreDocs; assertEquals("max,nul,T,T", 1, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",medIdO,medIdO,T,T), numDocs).scoreDocs; assertEquals("med,med,T,T", 1, result.length); // special cases result = search.search(q,FieldCacheRangeFilter.newLongRange("id",Long.valueOf(Long.MAX_VALUE),null,F,F), numDocs).scoreDocs; assertEquals("overflow special case", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",null,Long.valueOf(Long.MIN_VALUE),F,F), numDocs).scoreDocs; assertEquals("overflow special case", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newLongRange("id",maxIdO,minIdO,T,T), numDocs).scoreDocs; assertEquals("inverse range", 0, result.length); search.close(); } // float and double tests are a bit minimalistic, but its complicated, because missing precision @Test public void testFieldCacheRangeFilterFloats() throws IOException { IndexReader reader = signedIndexReader; IndexSearcher search = newSearcher(reader); int numDocs = reader.numDocs(); Float minIdO = Float.valueOf(minId + .5f); Float medIdO = Float.valueOf(minIdO.floatValue() + ((maxId-minId))/2.0f); ScoreDoc[] result; Query q = new TermQuery(new Term("body","body")); result = search.search(q,FieldCacheRangeFilter.newFloatRange("id",minIdO,medIdO,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs/2, result.length); int count = 0; result = search.search(q,FieldCacheRangeFilter.newFloatRange("id",null,medIdO,F,T), numDocs).scoreDocs; count += result.length; result = search.search(q,FieldCacheRangeFilter.newFloatRange("id",medIdO,null,F,F), numDocs).scoreDocs; count += result.length; assertEquals("sum of two concenatted ranges", numDocs, count); result = search.search(q,FieldCacheRangeFilter.newFloatRange("id",null,null,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newFloatRange("id",Float.valueOf(Float.POSITIVE_INFINITY),null,F,F), numDocs).scoreDocs; assertEquals("infinity special case", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newFloatRange("id",null,Float.valueOf(Float.NEGATIVE_INFINITY),F,F), numDocs).scoreDocs; assertEquals("infinity special case", 0, result.length); search.close(); } @Test public void testFieldCacheRangeFilterDoubles() throws IOException { IndexReader reader = signedIndexReader; IndexSearcher search = newSearcher(reader); int numDocs = reader.numDocs(); Double minIdO = Double.valueOf(minId + .5); Double medIdO = Double.valueOf(minIdO.floatValue() + ((maxId-minId))/2.0); ScoreDoc[] result; Query q = new TermQuery(new Term("body","body")); result = search.search(q,FieldCacheRangeFilter.newDoubleRange("id",minIdO,medIdO,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs/2, result.length); int count = 0; result = search.search(q,FieldCacheRangeFilter.newDoubleRange("id",null,medIdO,F,T), numDocs).scoreDocs; count += result.length; result = search.search(q,FieldCacheRangeFilter.newDoubleRange("id",medIdO,null,F,F), numDocs).scoreDocs; count += result.length; assertEquals("sum of two concenatted ranges", numDocs, count); result = search.search(q,FieldCacheRangeFilter.newDoubleRange("id",null,null,T,T), numDocs).scoreDocs; assertEquals("find all", numDocs, result.length); result = search.search(q,FieldCacheRangeFilter.newDoubleRange("id",Double.valueOf(Double.POSITIVE_INFINITY),null,F,F), numDocs).scoreDocs; assertEquals("infinity special case", 0, result.length); result = search.search(q,FieldCacheRangeFilter.newDoubleRange("id",null, Double.valueOf(Double.NEGATIVE_INFINITY),F,F), numDocs).scoreDocs; assertEquals("infinity special case", 0, result.length); search.close(); } // test using a sparse index (with deleted docs). The DocIdSet should be not cacheable, as it uses TermDocs if the range contains 0 @Test public void testSparseIndex() throws IOException { Directory dir = newDirectory(); IndexWriter writer = new IndexWriter(dir, newIndexWriterConfig( TEST_VERSION_CURRENT, new MockAnalyzer(random))); for (int d = -20; d <= 20; d++) { Document doc = new Document(); doc.add(newField("id",Integer.toString(d), Field.Store.NO, Field.Index.NOT_ANALYZED)); doc.add(newField("body","body", Field.Store.NO, Field.Index.NOT_ANALYZED)); writer.addDocument(doc); } writer.optimize(); writer.deleteDocuments(new Term("id","0")); writer.close(); IndexReader reader = IndexReader.open(dir, true); IndexSearcher search = newSearcher(reader); assertTrue(reader.hasDeletions()); ScoreDoc[] result; FieldCacheRangeFilter fcrf; Query q = new TermQuery(new Term("body","body")); result = search.search(q,fcrf=FieldCacheRangeFilter.newByteRange("id",Byte.valueOf((byte) -20),Byte.valueOf((byte) 20),T,T), 100).scoreDocs; assertFalse("DocIdSet must be not cacheable", fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", 40, result.length); result = search.search(q,fcrf=FieldCacheRangeFilter.newByteRange("id",Byte.valueOf((byte) 0),Byte.valueOf((byte) 20),T,T), 100).scoreDocs; assertFalse("DocIdSet must be not cacheable", fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", 20, result.length); result = search.search(q,fcrf=FieldCacheRangeFilter.newByteRange("id",Byte.valueOf((byte) -20),Byte.valueOf((byte) 0),T,T), 100).scoreDocs; assertFalse("DocIdSet must be not cacheable", fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", 20, result.length); result = search.search(q,fcrf=FieldCacheRangeFilter.newByteRange("id",Byte.valueOf((byte) 10),Byte.valueOf((byte) 20),T,T), 100).scoreDocs; assertTrue("DocIdSet must be cacheable", fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", 11, result.length); result = search.search(q,fcrf=FieldCacheRangeFilter.newByteRange("id",Byte.valueOf((byte) -20),Byte.valueOf((byte) -10),T,T), 100).scoreDocs; assertTrue("DocIdSet must be cacheable", fcrf.getDocIdSet(reader.getSequentialSubReaders()[0]).isCacheable()); assertEquals("find all", 11, result.length); search.close(); reader.close(); dir.close(); } }