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.analysis.MockAnalyzer;
import org.apache.lucene.document.Document;
import org.apache.lucene.document.Field;
import org.apache.lucene.document.FieldType;
import org.apache.lucene.document.FloatField;
import org.apache.lucene.document.IntField;
import org.apache.lucene.index.AtomicReaderContext;
import org.apache.lucene.index.DirectoryReader;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.index.MultiFields;
import org.apache.lucene.index.RandomIndexWriter;
import org.apache.lucene.index.SlowCompositeReaderWrapper;
import org.apache.lucene.index.StoredDocument;
import org.apache.lucene.index.Terms;
import org.apache.lucene.index.TermsEnum;
import org.apache.lucene.store.Directory;
import org.apache.lucene.util.BytesRef;
import org.apache.lucene.util.LuceneTestCase;
import org.apache.lucene.util.NumericUtils;
import org.apache.lucene.util.TestNumericUtils; // NaN arrays
import org.apache.lucene.util.TestUtil;
import org.junit.AfterClass;
import org.junit.BeforeClass;
import org.junit.Test;
public class TestNumericRangeQuery32 extends LuceneTestCase {
// distance of entries
private static int distance;
// shift the starting of the values to the left, to also have negative values:
private static final int startOffset = - 1 << 15;
// number of docs to generate for testing
private static int noDocs;
private static Directory directory = null;
private static IndexReader reader = null;
private static IndexSearcher searcher = null;
@BeforeClass
public static void beforeClass() throws Exception {
noDocs = atLeast(4096);
distance = (1 << 30) / noDocs;
directory = newDirectory();
RandomIndexWriter writer = new RandomIndexWriter(random(), directory,
newIndexWriterConfig(TEST_VERSION_CURRENT, new MockAnalyzer(random()))
.setMaxBufferedDocs(TestUtil.nextInt(random(), 100, 1000))
.setMergePolicy(newLogMergePolicy()));
final FieldType storedInt = new FieldType(IntField.TYPE_NOT_STORED);
storedInt.setStored(true);
storedInt.freeze();
final FieldType storedInt8 = new FieldType(storedInt);
storedInt8.setNumericPrecisionStep(8);
final FieldType storedInt4 = new FieldType(storedInt);
storedInt4.setNumericPrecisionStep(4);
final FieldType storedInt2 = new FieldType(storedInt);
storedInt2.setNumericPrecisionStep(2);
final FieldType storedIntNone = new FieldType(storedInt);
storedIntNone.setNumericPrecisionStep(Integer.MAX_VALUE);
final FieldType unstoredInt = IntField.TYPE_NOT_STORED;
final FieldType unstoredInt8 = new FieldType(unstoredInt);
unstoredInt8.setNumericPrecisionStep(8);
final FieldType unstoredInt4 = new FieldType(unstoredInt);
unstoredInt4.setNumericPrecisionStep(4);
final FieldType unstoredInt2 = new FieldType(unstoredInt);
unstoredInt2.setNumericPrecisionStep(2);
IntField
field8 = new IntField("field8", 0, storedInt8),
field4 = new IntField("field4", 0, storedInt4),
field2 = new IntField("field2", 0, storedInt2),
fieldNoTrie = new IntField("field"+Integer.MAX_VALUE, 0, storedIntNone),
ascfield8 = new IntField("ascfield8", 0, unstoredInt8),
ascfield4 = new IntField("ascfield4", 0, unstoredInt4),
ascfield2 = new IntField("ascfield2", 0, unstoredInt2);
Document doc = new Document();
// add fields, that have a distance to test general functionality
doc.add(field8); doc.add(field4); doc.add(field2); doc.add(fieldNoTrie);
// add ascending fields with a distance of 1, beginning at -noDocs/2 to test the correct splitting of range and inclusive/exclusive
doc.add(ascfield8); doc.add(ascfield4); doc.add(ascfield2);
// Add a series of noDocs docs with increasing int values
for (int l=0; l<noDocs; l++) {
int val=distance*l+startOffset;
field8.setIntValue(val);
field4.setIntValue(val);
field2.setIntValue(val);
fieldNoTrie.setIntValue(val);
val=l-(noDocs/2);
ascfield8.setIntValue(val);
ascfield4.setIntValue(val);
ascfield2.setIntValue(val);
writer.addDocument(doc);
}
reader = writer.getReader();
searcher=newSearcher(reader);
writer.close();
}
@AfterClass
public static void afterClass() throws Exception {
searcher = null;
reader.close();
reader = null;
directory.close();
directory = null;
}
@Override
public void setUp() throws Exception {
super.setUp();
// set the theoretical maximum term count for 8bit (see docs for the number)
// super.tearDown will restore the default
BooleanQuery.setMaxClauseCount(3*255*2 + 255);
}
/** test for both constant score and boolean query, the other tests only use the constant score mode */
private void testRange(int precisionStep) throws Exception {
String field="field"+precisionStep;
int count=3000;
int lower=(distance*3/2)+startOffset, upper=lower + count*distance + (distance/3);
NumericRangeQuery<Integer> q = NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, true, true);
NumericRangeFilter<Integer> f = NumericRangeFilter.newIntRange(field, precisionStep, lower, upper, true, true);
for (byte i=0; i<3; i++) {
TopDocs topDocs;
String type;
switch (i) {
case 0:
type = " (constant score filter rewrite)";
q.setRewriteMethod(MultiTermQuery.CONSTANT_SCORE_FILTER_REWRITE);
topDocs = searcher.search(q, null, noDocs, Sort.INDEXORDER);
break;
case 1:
type = " (constant score boolean rewrite)";
q.setRewriteMethod(MultiTermQuery.CONSTANT_SCORE_BOOLEAN_QUERY_REWRITE);
topDocs = searcher.search(q, null, noDocs, Sort.INDEXORDER);
break;
case 2:
type = " (filter)";
topDocs = searcher.search(new MatchAllDocsQuery(), f, noDocs, Sort.INDEXORDER);
break;
default:
return;
}
ScoreDoc[] sd = topDocs.scoreDocs;
assertNotNull(sd);
assertEquals("Score doc count"+type, count, sd.length );
StoredDocument doc=searcher.doc(sd[0].doc);
assertEquals("First doc"+type, 2*distance+startOffset, doc.getField(field).numericValue().intValue());
doc=searcher.doc(sd[sd.length-1].doc);
assertEquals("Last doc"+type, (1+count)*distance+startOffset, doc.getField(field).numericValue().intValue());
}
}
@Test
public void testRange_8bit() throws Exception {
testRange(8);
}
@Test
public void testRange_4bit() throws Exception {
testRange(4);
}
@Test
public void testRange_2bit() throws Exception {
testRange(2);
}
@Test
public void testInverseRange() throws Exception {
AtomicReaderContext context = SlowCompositeReaderWrapper.wrap(reader).getContext();
NumericRangeFilter<Integer> f = NumericRangeFilter.newIntRange("field8", 8, 1000, -1000, true, true);
assertNull("A inverse range should return the null instance", f.getDocIdSet(context, context.reader().getLiveDocs()));
f = NumericRangeFilter.newIntRange("field8", 8, Integer.MAX_VALUE, null, false, false);
assertNull("A exclusive range starting with Integer.MAX_VALUE should return the null instance", f.getDocIdSet(context, context.reader().getLiveDocs()));
f = NumericRangeFilter.newIntRange("field8", 8, null, Integer.MIN_VALUE, false, false);
assertNull("A exclusive range ending with Integer.MIN_VALUE should return the null instance", f.getDocIdSet(context, context.reader().getLiveDocs()));
}
@Test
public void testOneMatchQuery() throws Exception {
NumericRangeQuery<Integer> q = NumericRangeQuery.newIntRange("ascfield8", 8, 1000, 1000, true, true);
TopDocs topDocs = searcher.search(q, noDocs);
ScoreDoc[] sd = topDocs.scoreDocs;
assertNotNull(sd);
assertEquals("Score doc count", 1, sd.length );
}
private void testLeftOpenRange(int precisionStep) throws Exception {
String field="field"+precisionStep;
int count=3000;
int upper=(count-1)*distance + (distance/3) + startOffset;
NumericRangeQuery<Integer> q=NumericRangeQuery.newIntRange(field, precisionStep, null, upper, true, true);
TopDocs topDocs = searcher.search(q, null, noDocs, Sort.INDEXORDER);
ScoreDoc[] sd = topDocs.scoreDocs;
assertNotNull(sd);
assertEquals("Score doc count", count, sd.length );
StoredDocument doc=searcher.doc(sd[0].doc);
assertEquals("First doc", startOffset, doc.getField(field).numericValue().intValue());
doc=searcher.doc(sd[sd.length-1].doc);
assertEquals("Last doc", (count-1)*distance+startOffset, doc.getField(field).numericValue().intValue());
q=NumericRangeQuery.newIntRange(field, precisionStep, null, upper, false, true);
topDocs = searcher.search(q, null, noDocs, Sort.INDEXORDER);
sd = topDocs.scoreDocs;
assertNotNull(sd);
assertEquals("Score doc count", count, sd.length );
doc=searcher.doc(sd[0].doc);
assertEquals("First doc", startOffset, doc.getField(field).numericValue().intValue());
doc=searcher.doc(sd[sd.length-1].doc);
assertEquals("Last doc", (count-1)*distance+startOffset, doc.getField(field).numericValue().intValue());
}
@Test
public void testLeftOpenRange_8bit() throws Exception {
testLeftOpenRange(8);
}
@Test
public void testLeftOpenRange_4bit() throws Exception {
testLeftOpenRange(4);
}
@Test
public void testLeftOpenRange_2bit() throws Exception {
testLeftOpenRange(2);
}
private void testRightOpenRange(int precisionStep) throws Exception {
String field="field"+precisionStep;
int count=3000;
int lower=(count-1)*distance + (distance/3) +startOffset;
NumericRangeQuery<Integer> q=NumericRangeQuery.newIntRange(field, precisionStep, lower, null, true, true);
TopDocs topDocs = searcher.search(q, null, noDocs, Sort.INDEXORDER);
ScoreDoc[] sd = topDocs.scoreDocs;
assertNotNull(sd);
assertEquals("Score doc count", noDocs-count, sd.length );
StoredDocument doc=searcher.doc(sd[0].doc);
assertEquals("First doc", count*distance+startOffset, doc.getField(field).numericValue().intValue());
doc=searcher.doc(sd[sd.length-1].doc);
assertEquals("Last doc", (noDocs-1)*distance+startOffset, doc.getField(field).numericValue().intValue());
q=NumericRangeQuery.newIntRange(field, precisionStep, lower, null, true, false);
topDocs = searcher.search(q, null, noDocs, Sort.INDEXORDER);
sd = topDocs.scoreDocs;
assertNotNull(sd);
assertEquals("Score doc count", noDocs-count, sd.length );
doc=searcher.doc(sd[0].doc);
assertEquals("First doc", count*distance+startOffset, doc.getField(field).numericValue().intValue() );
doc=searcher.doc(sd[sd.length-1].doc);
assertEquals("Last doc", (noDocs-1)*distance+startOffset, doc.getField(field).numericValue().intValue() );
}
@Test
public void testRightOpenRange_8bit() throws Exception {
testRightOpenRange(8);
}
@Test
public void testRightOpenRange_4bit() throws Exception {
testRightOpenRange(4);
}
@Test
public void testRightOpenRange_2bit() throws Exception {
testRightOpenRange(2);
}
@Test
public void testInfiniteValues() throws Exception {
Directory dir = newDirectory();
RandomIndexWriter writer = new RandomIndexWriter(random(), dir,
newIndexWriterConfig( TEST_VERSION_CURRENT, new MockAnalyzer(random())));
Document doc = new Document();
doc.add(new FloatField("float", Float.NEGATIVE_INFINITY, Field.Store.NO));
doc.add(new IntField("int", Integer.MIN_VALUE, Field.Store.NO));
writer.addDocument(doc);
doc = new Document();
doc.add(new FloatField("float", Float.POSITIVE_INFINITY, Field.Store.NO));
doc.add(new IntField("int", Integer.MAX_VALUE, Field.Store.NO));
writer.addDocument(doc);
doc = new Document();
doc.add(new FloatField("float", 0.0f, Field.Store.NO));
doc.add(new IntField("int", 0, Field.Store.NO));
writer.addDocument(doc);
for (float f : TestNumericUtils.FLOAT_NANs) {
doc = new Document();
doc.add(new FloatField("float", f, Field.Store.NO));
writer.addDocument(doc);
}
writer.close();
IndexReader r = DirectoryReader.open(dir);
IndexSearcher s = newSearcher(r);
Query q=NumericRangeQuery.newIntRange("int", null, null, true, true);
TopDocs topDocs = s.search(q, 10);
assertEquals("Score doc count", 3, topDocs.scoreDocs.length );
q=NumericRangeQuery.newIntRange("int", null, null, false, false);
topDocs = s.search(q, 10);
assertEquals("Score doc count", 3, topDocs.scoreDocs.length );
q=NumericRangeQuery.newIntRange("int", Integer.MIN_VALUE, Integer.MAX_VALUE, true, true);
topDocs = s.search(q, 10);
assertEquals("Score doc count", 3, topDocs.scoreDocs.length );
q=NumericRangeQuery.newIntRange("int", Integer.MIN_VALUE, Integer.MAX_VALUE, false, false);
topDocs = s.search(q, 10);
assertEquals("Score doc count", 1, topDocs.scoreDocs.length );
q=NumericRangeQuery.newFloatRange("float", null, null, true, true);
topDocs = s.search(q, 10);
assertEquals("Score doc count", 3, topDocs.scoreDocs.length );
q=NumericRangeQuery.newFloatRange("float", null, null, false, false);
topDocs = s.search(q, 10);
assertEquals("Score doc count", 3, topDocs.scoreDocs.length );
q=NumericRangeQuery.newFloatRange("float", Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY, true, true);
topDocs = s.search(q, 10);
assertEquals("Score doc count", 3, topDocs.scoreDocs.length );
q=NumericRangeQuery.newFloatRange("float", Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY, false, false);
topDocs = s.search(q, 10);
assertEquals("Score doc count", 1, topDocs.scoreDocs.length );
q=NumericRangeQuery.newFloatRange("float", Float.NaN, Float.NaN, true, true);
topDocs = s.search(q, 10);
assertEquals("Score doc count", TestNumericUtils.FLOAT_NANs.length, topDocs.scoreDocs.length );
r.close();
dir.close();
}
private void testRandomTrieAndClassicRangeQuery(int precisionStep) throws Exception {
String field="field"+precisionStep;
int totalTermCountT=0,totalTermCountC=0,termCountT,termCountC;
int num = TestUtil.nextInt(random(), 10, 20);
for (int i = 0; i < num; i++) {
int lower=(int)(random().nextDouble()*noDocs*distance)+startOffset;
int upper=(int)(random().nextDouble()*noDocs*distance)+startOffset;
if (lower>upper) {
int a=lower; lower=upper; upper=a;
}
final BytesRef lowerBytes = new BytesRef(NumericUtils.BUF_SIZE_INT), upperBytes = new BytesRef(NumericUtils.BUF_SIZE_INT);
NumericUtils.intToPrefixCodedBytes(lower, 0, lowerBytes);
NumericUtils.intToPrefixCodedBytes(upper, 0, upperBytes);
// test inclusive range
NumericRangeQuery<Integer> tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, true, true);
TermRangeQuery cq=new TermRangeQuery(field, lowerBytes, upperBytes, true, true);
TopDocs tTopDocs = searcher.search(tq, 1);
TopDocs cTopDocs = searcher.search(cq, 1);
assertEquals("Returned count for NumericRangeQuery and TermRangeQuery must be equal", cTopDocs.totalHits, tTopDocs.totalHits );
totalTermCountT += termCountT = countTerms(tq);
totalTermCountC += termCountC = countTerms(cq);
checkTermCounts(precisionStep, termCountT, termCountC);
// test exclusive range
tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, false, false);
cq=new TermRangeQuery(field, lowerBytes, upperBytes, false, false);
tTopDocs = searcher.search(tq, 1);
cTopDocs = searcher.search(cq, 1);
assertEquals("Returned count for NumericRangeQuery and TermRangeQuery must be equal", cTopDocs.totalHits, tTopDocs.totalHits );
totalTermCountT += termCountT = countTerms(tq);
totalTermCountC += termCountC = countTerms(cq);
checkTermCounts(precisionStep, termCountT, termCountC);
// test left exclusive range
tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, false, true);
cq=new TermRangeQuery(field, lowerBytes, upperBytes, false, true);
tTopDocs = searcher.search(tq, 1);
cTopDocs = searcher.search(cq, 1);
assertEquals("Returned count for NumericRangeQuery and TermRangeQuery must be equal", cTopDocs.totalHits, tTopDocs.totalHits );
totalTermCountT += termCountT = countTerms(tq);
totalTermCountC += termCountC = countTerms(cq);
checkTermCounts(precisionStep, termCountT, termCountC);
// test right exclusive range
tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, true, false);
cq=new TermRangeQuery(field, lowerBytes, upperBytes, true, false);
tTopDocs = searcher.search(tq, 1);
cTopDocs = searcher.search(cq, 1);
assertEquals("Returned count for NumericRangeQuery and TermRangeQuery must be equal", cTopDocs.totalHits, tTopDocs.totalHits );
totalTermCountT += termCountT = countTerms(tq);
totalTermCountC += termCountC = countTerms(cq);
checkTermCounts(precisionStep, termCountT, termCountC);
}
checkTermCounts(precisionStep, totalTermCountT, totalTermCountC);
if (VERBOSE && precisionStep != Integer.MAX_VALUE) {
System.out.println("Average number of terms during random search on '" + field + "':");
System.out.println(" Numeric query: " + (((double)totalTermCountT)/(num * 4)));
System.out.println(" Classical query: " + (((double)totalTermCountC)/(num * 4)));
}
}
@Test
public void testEmptyEnums() throws Exception {
int count=3000;
int lower=(distance*3/2)+startOffset, upper=lower + count*distance + (distance/3);
// test empty enum
assert lower < upper;
assertTrue(0 < countTerms(NumericRangeQuery.newIntRange("field4", 4, lower, upper, true, true)));
assertEquals(0, countTerms(NumericRangeQuery.newIntRange("field4", 4, upper, lower, true, true)));
// test empty enum outside of bounds
lower = distance*noDocs+startOffset;
upper = 2 * lower;
assert lower < upper;
assertEquals(0, countTerms(NumericRangeQuery.newIntRange("field4", 4, lower, upper, true, true)));
}
private int countTerms(MultiTermQuery q) throws Exception {
final Terms terms = MultiFields.getTerms(reader, q.getField());
if (terms == null)
return 0;
final TermsEnum termEnum = q.getTermsEnum(terms);
assertNotNull(termEnum);
int count = 0;
BytesRef cur, last = null;
while ((cur = termEnum.next()) != null) {
count++;
if (last != null) {
assertTrue(last.compareTo(cur) < 0);
}
last = BytesRef.deepCopyOf(cur);
}
// LUCENE-3314: the results after next() already returned null are undefined,
// assertNull(termEnum.next());
return count;
}
private void checkTermCounts(int precisionStep, int termCountT, int termCountC) {
if (precisionStep == Integer.MAX_VALUE) {
assertEquals("Number of terms should be equal for unlimited precStep", termCountC, termCountT);
} else {
assertTrue("Number of terms for NRQ should be <= compared to classical TRQ", termCountT <= termCountC);
}
}
@Test
public void testRandomTrieAndClassicRangeQuery_8bit() throws Exception {
testRandomTrieAndClassicRangeQuery(8);
}
@Test
public void testRandomTrieAndClassicRangeQuery_4bit() throws Exception {
testRandomTrieAndClassicRangeQuery(4);
}
@Test
public void testRandomTrieAndClassicRangeQuery_2bit() throws Exception {
testRandomTrieAndClassicRangeQuery(2);
}
@Test
public void testRandomTrieAndClassicRangeQuery_NoTrie() throws Exception {
testRandomTrieAndClassicRangeQuery(Integer.MAX_VALUE);
}
private void testRangeSplit(int precisionStep) throws Exception {
String field="ascfield"+precisionStep;
// 10 random tests
int num = TestUtil.nextInt(random(), 10, 20);
for (int i =0; i< num; i++) {
int lower=(int)(random().nextDouble()*noDocs - noDocs/2);
int upper=(int)(random().nextDouble()*noDocs - noDocs/2);
if (lower>upper) {
int a=lower; lower=upper; upper=a;
}
// test inclusive range
Query tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, true, true);
TopDocs tTopDocs = searcher.search(tq, 1);
assertEquals("Returned count of range query must be equal to inclusive range length", upper-lower+1, tTopDocs.totalHits );
// test exclusive range
tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, false, false);
tTopDocs = searcher.search(tq, 1);
assertEquals("Returned count of range query must be equal to exclusive range length", Math.max(upper-lower-1, 0), tTopDocs.totalHits );
// test left exclusive range
tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, false, true);
tTopDocs = searcher.search(tq, 1);
assertEquals("Returned count of range query must be equal to half exclusive range length", upper-lower, tTopDocs.totalHits );
// test right exclusive range
tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, true, false);
tTopDocs = searcher.search(tq, 1);
assertEquals("Returned count of range query must be equal to half exclusive range length", upper-lower, tTopDocs.totalHits );
}
}
@Test
public void testRangeSplit_8bit() throws Exception {
testRangeSplit(8);
}
@Test
public void testRangeSplit_4bit() throws Exception {
testRangeSplit(4);
}
@Test
public void testRangeSplit_2bit() throws Exception {
testRangeSplit(2);
}
/** we fake a float test using int2float conversion of NumericUtils */
private void testFloatRange(int precisionStep) throws Exception {
final String field="ascfield"+precisionStep;
final int lower=-1000, upper=+2000;
Query tq=NumericRangeQuery.newFloatRange(field, precisionStep,
NumericUtils.sortableIntToFloat(lower), NumericUtils.sortableIntToFloat(upper), true, true);
TopDocs tTopDocs = searcher.search(tq, 1);
assertEquals("Returned count of range query must be equal to inclusive range length", upper-lower+1, tTopDocs.totalHits );
Filter tf=NumericRangeFilter.newFloatRange(field, precisionStep,
NumericUtils.sortableIntToFloat(lower), NumericUtils.sortableIntToFloat(upper), true, true);
tTopDocs = searcher.search(new MatchAllDocsQuery(), tf, 1);
assertEquals("Returned count of range filter must be equal to inclusive range length", upper-lower+1, tTopDocs.totalHits );
}
@Test
public void testFloatRange_8bit() throws Exception {
testFloatRange(8);
}
@Test
public void testFloatRange_4bit() throws Exception {
testFloatRange(4);
}
@Test
public void testFloatRange_2bit() throws Exception {
testFloatRange(2);
}
private void testSorting(int precisionStep) throws Exception {
String field="field"+precisionStep;
// 10 random tests, the index order is ascending,
// so using a reverse sort field should retun descending documents
int num = TestUtil.nextInt(random(), 10, 20);
for (int i = 0; i < num; i++) {
int lower=(int)(random().nextDouble()*noDocs*distance)+startOffset;
int upper=(int)(random().nextDouble()*noDocs*distance)+startOffset;
if (lower>upper) {
int a=lower; lower=upper; upper=a;
}
Query tq=NumericRangeQuery.newIntRange(field, precisionStep, lower, upper, true, true);
TopDocs topDocs = searcher.search(tq, null, noDocs, new Sort(new SortField(field, SortField.Type.INT, true)));
if (topDocs.totalHits==0) continue;
ScoreDoc[] sd = topDocs.scoreDocs;
assertNotNull(sd);
int last = searcher.doc(sd[0].doc).getField(field).numericValue().intValue();
for (int j=1; j<sd.length; j++) {
int act = searcher.doc(sd[j].doc).getField(field).numericValue().intValue();
assertTrue("Docs should be sorted backwards", last>act );
last=act;
}
}
}
@Test
public void testSorting_8bit() throws Exception {
testSorting(8);
}
@Test
public void testSorting_4bit() throws Exception {
testSorting(4);
}
@Test
public void testSorting_2bit() throws Exception {
testSorting(2);
}
@Test
public void testEqualsAndHash() throws Exception {
QueryUtils.checkHashEquals(NumericRangeQuery.newIntRange("test1", 4, 10, 20, true, true));
QueryUtils.checkHashEquals(NumericRangeQuery.newIntRange("test2", 4, 10, 20, false, true));
QueryUtils.checkHashEquals(NumericRangeQuery.newIntRange("test3", 4, 10, 20, true, false));
QueryUtils.checkHashEquals(NumericRangeQuery.newIntRange("test4", 4, 10, 20, false, false));
QueryUtils.checkHashEquals(NumericRangeQuery.newIntRange("test5", 4, 10, null, true, true));
QueryUtils.checkHashEquals(NumericRangeQuery.newIntRange("test6", 4, null, 20, true, true));
QueryUtils.checkHashEquals(NumericRangeQuery.newIntRange("test7", 4, null, null, true, true));
QueryUtils.checkEqual(
NumericRangeQuery.newIntRange("test8", 4, 10, 20, true, true),
NumericRangeQuery.newIntRange("test8", 4, 10, 20, true, true)
);
QueryUtils.checkUnequal(
NumericRangeQuery.newIntRange("test9", 4, 10, 20, true, true),
NumericRangeQuery.newIntRange("test9", 8, 10, 20, true, true)
);
QueryUtils.checkUnequal(
NumericRangeQuery.newIntRange("test10a", 4, 10, 20, true, true),
NumericRangeQuery.newIntRange("test10b", 4, 10, 20, true, true)
);
QueryUtils.checkUnequal(
NumericRangeQuery.newIntRange("test11", 4, 10, 20, true, true),
NumericRangeQuery.newIntRange("test11", 4, 20, 10, true, true)
);
QueryUtils.checkUnequal(
NumericRangeQuery.newIntRange("test12", 4, 10, 20, true, true),
NumericRangeQuery.newIntRange("test12", 4, 10, 20, false, true)
);
QueryUtils.checkUnequal(
NumericRangeQuery.newIntRange("test13", 4, 10, 20, true, true),
NumericRangeQuery.newFloatRange("test13", 4, 10f, 20f, true, true)
);
// the following produces a hash collision, because Long and Integer have the same hashcode, so only test equality:
Query q1 = NumericRangeQuery.newIntRange("test14", 4, 10, 20, true, true);
Query q2 = NumericRangeQuery.newLongRange("test14", 4, 10L, 20L, true, true);
assertFalse(q1.equals(q2));
assertFalse(q2.equals(q1));
}
}