--- /dev/null
+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 java.io.Serializable;
+import java.text.Collator;
+import java.util.ArrayList;
+import java.util.BitSet;
+import java.util.HashMap;
+import java.util.Iterator;
+import java.util.Locale;
+import java.util.concurrent.ExecutorService;
+import java.util.concurrent.Executors;
+import java.util.concurrent.TimeUnit;
+
+import org.apache.lucene.analysis.MockAnalyzer;
+import org.apache.lucene.document.Document;
+import org.apache.lucene.document.Field;
+import org.apache.lucene.index.CorruptIndexException;
+import org.apache.lucene.index.IndexReader;
+import org.apache.lucene.index.IndexWriter;
+import org.apache.lucene.index.IndexWriterConfig;
+import org.apache.lucene.index.RandomIndexWriter;
+import org.apache.lucene.index.Term;
+import org.apache.lucene.queryParser.ParseException;
+import org.apache.lucene.search.BooleanClause.Occur;
+import org.apache.lucene.search.FieldValueHitQueue.Entry;
+import org.apache.lucene.store.LockObtainFailedException;
+import org.apache.lucene.store.Directory;
+import org.apache.lucene.util.DocIdBitSet;
+import org.apache.lucene.util.LuceneTestCase;
+import org.apache.lucene.util._TestUtil;
+import org.junit.BeforeClass;
+
+/**
+ * Unit tests for sorting code.
+ *
+ * <p>Created: Feb 17, 2004 4:55:10 PM
+ *
+ * @since lucene 1.4
+ */
+
+public class TestSort extends LuceneTestCase implements Serializable {
+
+ private static int NUM_STRINGS;
+ private IndexSearcher full;
+ private IndexSearcher searchX;
+ private IndexSearcher searchY;
+ private Query queryX;
+ private Query queryY;
+ private Query queryA;
+ private Query queryE;
+ private Query queryF;
+ private Query queryG;
+ private Query queryM;
+ private Sort sort;
+
+ @BeforeClass
+ public static void beforeClass() throws Exception {
+ NUM_STRINGS = atLeast(6000);
+ }
+ // document data:
+ // the tracer field is used to determine which document was hit
+ // the contents field is used to search and sort by relevance
+ // the int field to sort by int
+ // the float field to sort by float
+ // the string field to sort by string
+ // the i18n field includes accented characters for testing locale-specific sorting
+ private String[][] data = new String[][] {
+ // tracer contents int float string custom i18n long double, short, byte, 'custom parser encoding'
+ { "A", "x a", "5", "4f", "c", "A-3", "p\u00EAche", "10", "-4.0", "3", "126", "J"},//A, x
+ { "B", "y a", "5", "3.4028235E38", "i", "B-10", "HAT", "1000000000", "40.0", "24", "1", "I"},//B, y
+ { "C", "x a b c", "2147483647", "1.0", "j", "A-2", "p\u00E9ch\u00E9", "99999999","40.00002343", "125", "15", "H"},//C, x
+ { "D", "y a b c", "-1", "0.0f", "a", "C-0", "HUT", String.valueOf(Long.MAX_VALUE),String.valueOf(Double.MIN_VALUE), String.valueOf(Short.MIN_VALUE), String.valueOf(Byte.MIN_VALUE), "G"},//D, y
+ { "E", "x a b c d", "5", "2f", "h", "B-8", "peach", String.valueOf(Long.MIN_VALUE),String.valueOf(Double.MAX_VALUE), String.valueOf(Short.MAX_VALUE), String.valueOf(Byte.MAX_VALUE), "F"},//E,x
+ { "F", "y a b c d", "2", "3.14159f", "g", "B-1", "H\u00C5T", "-44", "343.034435444", "-3", "0", "E"},//F,y
+ { "G", "x a b c d", "3", "-1.0", "f", "C-100", "sin", "323254543543", "4.043544", "5", "100", "D"},//G,x
+ { "H", "y a b c d", "0", "1.4E-45", "e", "C-88", "H\u00D8T", "1023423423005","4.043545", "10", "-50", "C"},//H,y
+ { "I", "x a b c d e f", "-2147483648", "1.0e+0", "d", "A-10", "s\u00EDn", "332422459999", "4.043546", "-340", "51", "B"},//I,x
+ { "J", "y a b c d e f", "4", ".5", "b", "C-7", "HOT", "34334543543", "4.0000220343", "300", "2", "A"},//J,y
+ { "W", "g", "1", null, null, null, null, null, null, null, null, null},
+ { "X", "g", "1", "0.1", null, null, null, null, null, null, null, null},
+ { "Y", "g", "1", "0.2", null, null, null, null, null, null, null, null},
+ { "Z", "f g", null, null, null, null, null, null, null, null, null, null},
+
+ // Sort Missing first/last
+ { "a", "m", null, null, null, null, null, null, null, null, null, null},
+ { "b", "m", "4", "4.0", "4", null, null, "4", "4", "4", "4", null},
+ { "c", "m", "5", "5.0", "5", null, null, "5", "5", "5", "5", null},
+ { "d", "m", null, null, null, null, null, null, null, null, null, null}
+ };
+
+ // the sort order of Ø versus U depends on the version of the rules being used
+ // for the inherited root locale: Ø's order isnt specified in Locale.US since
+ // its not used in english.
+ private boolean oStrokeFirst = Collator.getInstance(new Locale("")).compare("Ø", "U") < 0;
+
+ // create an index of all the documents, or just the x, or just the y documents
+ private IndexSearcher getIndex (boolean even, boolean odd)
+ throws IOException {
+ Directory indexStore = newDirectory();
+ dirs.add(indexStore);
+ RandomIndexWriter writer = new RandomIndexWriter(random, indexStore, newIndexWriterConfig(TEST_VERSION_CURRENT, new MockAnalyzer(random)).setMergePolicy(newLogMergePolicy()));
+
+ for (int i=0; i<data.length; ++i) {
+ if (((i%2)==0 && even) || ((i%2)==1 && odd)) {
+ Document doc = new Document();
+ doc.add (new Field ("tracer", data[i][0], Field.Store.YES, Field.Index.NO));
+ doc.add (new Field ("contents", data[i][1], Field.Store.NO, Field.Index.ANALYZED));
+ if (data[i][2] != null) doc.add (new Field ("int", data[i][2], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][3] != null) doc.add (new Field ("float", data[i][3], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][4] != null) doc.add (new Field ("string", data[i][4], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][5] != null) doc.add (new Field ("custom", data[i][5], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][6] != null) doc.add (new Field ("i18n", data[i][6], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][7] != null) doc.add (new Field ("long", data[i][7], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][8] != null) doc.add (new Field ("double", data[i][8], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][9] != null) doc.add (new Field ("short", data[i][9], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][10] != null) doc.add (new Field ("byte", data[i][10], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ if (data[i][11] != null) doc.add (new Field ("parser", data[i][11], Field.Store.NO, Field.Index.NOT_ANALYZED));
+ doc.setBoost(2); // produce some scores above 1.0
+ writer.addDocument (doc);
+ }
+ }
+ IndexReader reader = writer.getReader();
+ writer.close ();
+ IndexSearcher s = newSearcher(reader);
+ s.setDefaultFieldSortScoring(true, true);
+ return s;
+ }
+
+ private IndexSearcher getFullIndex()
+ throws IOException {
+ return getIndex (true, true);
+ }
+
+ private IndexSearcher getFullStrings() throws CorruptIndexException, LockObtainFailedException, IOException {
+ Directory indexStore = newDirectory();
+ dirs.add(indexStore);
+ IndexWriter writer = new IndexWriter(
+ indexStore,
+ new IndexWriterConfig(TEST_VERSION_CURRENT, new MockAnalyzer(random)).
+ setMaxBufferedDocs(4).
+ setMergePolicy(newLogMergePolicy(97))
+ );
+ for (int i=0; i<NUM_STRINGS; i++) {
+ Document doc = new Document();
+ String num = getRandomCharString(getRandomNumber(2, 8), 48, 52);
+ doc.add (new Field ("tracer", num, Field.Store.YES, Field.Index.NO));
+ //doc.add (new Field ("contents", Integer.toString(i), Field.Store.NO, Field.Index.ANALYZED));
+ doc.add (new Field ("string", num, Field.Store.NO, Field.Index.NOT_ANALYZED));
+ String num2 = getRandomCharString(getRandomNumber(1, 4), 48, 50);
+ doc.add (new Field ("string2", num2, Field.Store.NO, Field.Index.NOT_ANALYZED));
+ doc.add (new Field ("tracer2", num2, Field.Store.YES, Field.Index.NO));
+ doc.setBoost(2); // produce some scores above 1.0
+ writer.addDocument (doc);
+
+ }
+ //writer.optimize ();
+ //System.out.println(writer.getSegmentCount());
+ writer.close ();
+ return new IndexSearcher (indexStore, true);
+ }
+
+ public String getRandomNumberString(int num, int low, int high) {
+ StringBuilder sb = new StringBuilder();
+ for (int i = 0; i < num; i++) {
+ sb.append(getRandomNumber(low, high));
+ }
+ return sb.toString();
+ }
+
+ public String getRandomCharString(int num) {
+ return getRandomCharString(num, 48, 122);
+ }
+
+ public String getRandomCharString(int num, int start, int end) {
+ StringBuilder sb = new StringBuilder();
+ for (int i = 0; i < num; i++) {
+ sb.append(new Character((char) getRandomNumber(start, end)));
+ }
+ return sb.toString();
+ }
+
+ public int getRandomNumber(final int low, final int high) {
+
+ int randInt = (Math.abs(random.nextInt()) % (high - low)) + low;
+
+ return randInt;
+ }
+
+ private IndexSearcher getXIndex()
+ throws IOException {
+ return getIndex (true, false);
+ }
+
+ private IndexSearcher getYIndex()
+ throws IOException {
+ return getIndex (false, true);
+ }
+
+ private IndexSearcher getEmptyIndex()
+ throws IOException {
+ return getIndex (false, false);
+ }
+
+ @Override
+ public void setUp() throws Exception {
+ super.setUp();
+ full = getFullIndex();
+ searchX = getXIndex();
+ searchY = getYIndex();
+ queryX = new TermQuery (new Term ("contents", "x"));
+ queryY = new TermQuery (new Term ("contents", "y"));
+ queryA = new TermQuery (new Term ("contents", "a"));
+ queryE = new TermQuery (new Term ("contents", "e"));
+ queryF = new TermQuery (new Term ("contents", "f"));
+ queryG = new TermQuery (new Term ("contents", "g"));
+ queryM = new TermQuery (new Term ("contents", "m"));
+ sort = new Sort();
+ }
+
+ private ArrayList<Directory> dirs = new ArrayList<Directory>();
+
+ @Override
+ public void tearDown() throws Exception {
+ full.reader.close();
+ searchX.reader.close();
+ searchY.reader.close();
+ full.close();
+ searchX.close();
+ searchY.close();
+ for (Directory dir : dirs)
+ dir.close();
+ super.tearDown();
+ }
+
+ // test the sorts by score and document number
+ public void testBuiltInSorts() throws Exception {
+ sort = new Sort();
+ assertMatches (full, queryX, sort, "ACEGI");
+ assertMatches (full, queryY, sort, "BDFHJ");
+
+ sort.setSort(SortField.FIELD_DOC);
+ assertMatches (full, queryX, sort, "ACEGI");
+ assertMatches (full, queryY, sort, "BDFHJ");
+ }
+
+ // test sorts where the type of field is specified
+ public void testTypedSort() throws Exception {
+ sort.setSort (new SortField ("int", SortField.INT), SortField.FIELD_DOC );
+ assertMatches (full, queryX, sort, "IGAEC");
+ assertMatches (full, queryY, sort, "DHFJB");
+
+ sort.setSort (new SortField ("float", SortField.FLOAT), SortField.FIELD_DOC );
+ assertMatches (full, queryX, sort, "GCIEA");
+ assertMatches (full, queryY, sort, "DHJFB");
+
+ sort.setSort (new SortField ("long", SortField.LONG), SortField.FIELD_DOC );
+ assertMatches (full, queryX, sort, "EACGI");
+ assertMatches (full, queryY, sort, "FBJHD");
+
+ sort.setSort (new SortField ("double", SortField.DOUBLE), SortField.FIELD_DOC );
+ assertMatches (full, queryX, sort, "AGICE");
+ assertMatches (full, queryY, sort, "DJHBF");
+
+ sort.setSort (new SortField ("byte", SortField.BYTE), SortField.FIELD_DOC );
+ assertMatches (full, queryX, sort, "CIGAE");
+ assertMatches (full, queryY, sort, "DHFBJ");
+
+ sort.setSort (new SortField ("short", SortField.SHORT), SortField.FIELD_DOC );
+ assertMatches (full, queryX, sort, "IAGCE");
+ assertMatches (full, queryY, sort, "DFHBJ");
+
+ sort.setSort (new SortField ("string", SortField.STRING), SortField.FIELD_DOC );
+ assertMatches (full, queryX, sort, "AIGEC");
+ assertMatches (full, queryY, sort, "DJHFB");
+ }
+
+ private static class SortMissingLastTestHelper {
+ final SortField sortField;
+ final Object min;
+ final Object max;
+
+ SortMissingLastTestHelper( SortField sortField, Object min, Object max ) {
+ this.sortField = sortField;
+ this.min = min;
+ this.max = max;
+ }
+ }
+
+ // test sorts where the type of field is specified
+ public void testSortMissingLast() throws Exception {
+
+ @SuppressWarnings("boxing")
+ SortMissingLastTestHelper[] ascendTesters = new SortMissingLastTestHelper[] {
+ new SortMissingLastTestHelper( new SortField( "byte", SortField.BYTE ), Byte.MIN_VALUE, Byte.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "short", SortField.SHORT ), Short.MIN_VALUE, Short.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "int", SortField.INT ), Integer.MIN_VALUE, Integer.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "long", SortField.LONG ), Long.MIN_VALUE, Long.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "float", SortField.FLOAT ), Float.MIN_VALUE, Float.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "double", SortField.DOUBLE ), Double.MIN_VALUE, Double.MAX_VALUE ),
+ };
+
+ @SuppressWarnings("boxing")
+ SortMissingLastTestHelper[] descendTesters = new SortMissingLastTestHelper[] {
+ new SortMissingLastTestHelper( new SortField( "byte", SortField.BYTE, true ), Byte.MIN_VALUE, Byte.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "short", SortField.SHORT, true ), Short.MIN_VALUE, Short.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "int", SortField.INT, true ), Integer.MIN_VALUE, Integer.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "long", SortField.LONG, true ), Long.MIN_VALUE, Long.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "float", SortField.FLOAT, true ), Float.MIN_VALUE, Float.MAX_VALUE ),
+ new SortMissingLastTestHelper( new SortField( "double", SortField.DOUBLE, true ), Double.MIN_VALUE, Double.MAX_VALUE ),
+ };
+
+ // Default order: ascending
+ for( SortMissingLastTestHelper t : ascendTesters ) {
+ sort.setSort (t.sortField, SortField.FIELD_DOC );
+ assertMatches("sortField:"+t.sortField, full, queryM, sort, "adbc" );
+
+ sort.setSort (t.sortField.setMissingValue( t.max ), SortField.FIELD_DOC );
+ assertMatches("sortField:"+t.sortField, full, queryM, sort, "bcad" );
+
+ sort.setSort (t.sortField.setMissingValue( t.min ), SortField.FIELD_DOC );
+ assertMatches("sortField:"+t.sortField, full, queryM, sort, "adbc" );
+ }
+
+ // Reverse order: descending (Note: Order for un-valued documents remains the same due to tie breaker: a,d)
+ for( SortMissingLastTestHelper t : descendTesters ) {
+ sort.setSort (t.sortField, SortField.FIELD_DOC );
+ assertMatches("sortField:"+t.sortField, full, queryM, sort, "cbad" );
+
+ sort.setSort (t.sortField.setMissingValue( t.max ), SortField.FIELD_DOC );
+ assertMatches("sortField:"+t.sortField, full, queryM, sort, "adcb" );
+
+ sort.setSort (t.sortField.setMissingValue( t.min ), SortField.FIELD_DOC );
+ assertMatches("sortField:"+t.sortField, full, queryM, sort, "cbad" );
+ }
+
+
+ }
+
+ /**
+ * Test String sorting: small queue to many matches, multi field sort, reverse sort
+ */
+ public void testStringSort() throws IOException, ParseException {
+ ScoreDoc[] result = null;
+ IndexSearcher searcher = getFullStrings();
+ sort.setSort(
+ new SortField("string", SortField.STRING),
+ new SortField("string2", SortField.STRING, true),
+ SortField.FIELD_DOC );
+
+ result = searcher.search(new MatchAllDocsQuery(), null, 500, sort).scoreDocs;
+
+ StringBuilder buff = new StringBuilder();
+ int n = result.length;
+ String last = null;
+ String lastSub = null;
+ int lastDocId = 0;
+ boolean fail = false;
+ for (int x = 0; x < n; ++x) {
+ Document doc2 = searcher.doc(result[x].doc);
+ String[] v = doc2.getValues("tracer");
+ String[] v2 = doc2.getValues("tracer2");
+ for (int j = 0; j < v.length; ++j) {
+ if (last != null) {
+ int cmp = v[j].compareTo(last);
+ if (!(cmp >= 0)) { // ensure first field is in order
+ fail = true;
+ System.out.println("fail:" + v[j] + " < " + last);
+ }
+ if (cmp == 0) { // ensure second field is in reverse order
+ cmp = v2[j].compareTo(lastSub);
+ if (cmp > 0) {
+ fail = true;
+ System.out.println("rev field fail:" + v2[j] + " > " + lastSub);
+ } else if(cmp == 0) { // ensure docid is in order
+ if (result[x].doc < lastDocId) {
+ fail = true;
+ System.out.println("doc fail:" + result[x].doc + " > " + lastDocId);
+ }
+ }
+ }
+ }
+ last = v[j];
+ lastSub = v2[j];
+ lastDocId = result[x].doc;
+ buff.append(v[j] + "(" + v2[j] + ")(" + result[x].doc+") ");
+ }
+ }
+ if(fail) {
+ System.out.println("topn field1(field2)(docID):" + buff);
+ }
+ assertFalse("Found sort results out of order", fail);
+ searcher.close();
+ }
+
+ /**
+ * test sorts where the type of field is specified and a custom field parser
+ * is used, that uses a simple char encoding. The sorted string contains a
+ * character beginning from 'A' that is mapped to a numeric value using some
+ * "funny" algorithm to be different for each data type.
+ */
+ public void testCustomFieldParserSort() throws Exception {
+ // since tests explicilty uses different parsers on the same fieldname
+ // we explicitly check/purge the FieldCache between each assertMatch
+ FieldCache fc = FieldCache.DEFAULT;
+
+
+ sort.setSort (new SortField ("parser", new FieldCache.IntParser(){
+ public final int parseInt(final String val) {
+ return (val.charAt(0)-'A') * 123456;
+ }
+ }), SortField.FIELD_DOC );
+ assertMatches (full, queryA, sort, "JIHGFEDCBA");
+ assertSaneFieldCaches(getName() + " IntParser");
+ fc.purgeAllCaches();
+
+ sort.setSort (new SortField ("parser", new FieldCache.FloatParser(){
+ public final float parseFloat(final String val) {
+ return (float) Math.sqrt( val.charAt(0) );
+ }
+ }), SortField.FIELD_DOC );
+ assertMatches (full, queryA, sort, "JIHGFEDCBA");
+ assertSaneFieldCaches(getName() + " FloatParser");
+ fc.purgeAllCaches();
+
+ sort.setSort (new SortField ("parser", new FieldCache.LongParser(){
+ public final long parseLong(final String val) {
+ return (val.charAt(0)-'A') * 1234567890L;
+ }
+ }), SortField.FIELD_DOC );
+ assertMatches (full, queryA, sort, "JIHGFEDCBA");
+ assertSaneFieldCaches(getName() + " LongParser");
+ fc.purgeAllCaches();
+
+ sort.setSort (new SortField ("parser", new FieldCache.DoubleParser(){
+ public final double parseDouble(final String val) {
+ return Math.pow( val.charAt(0), (val.charAt(0)-'A') );
+ }
+ }), SortField.FIELD_DOC );
+ assertMatches (full, queryA, sort, "JIHGFEDCBA");
+ assertSaneFieldCaches(getName() + " DoubleParser");
+ fc.purgeAllCaches();
+
+ sort.setSort (new SortField ("parser", new FieldCache.ByteParser(){
+ public final byte parseByte(final String val) {
+ return (byte) (val.charAt(0)-'A');
+ }
+ }), SortField.FIELD_DOC );
+ assertMatches (full, queryA, sort, "JIHGFEDCBA");
+ assertSaneFieldCaches(getName() + " ByteParser");
+ fc.purgeAllCaches();
+
+ sort.setSort (new SortField ("parser", new FieldCache.ShortParser(){
+ public final short parseShort(final String val) {
+ return (short) (val.charAt(0)-'A');
+ }
+ }), SortField.FIELD_DOC );
+ assertMatches (full, queryA, sort, "JIHGFEDCBA");
+ assertSaneFieldCaches(getName() + " ShortParser");
+ fc.purgeAllCaches();
+ }
+
+ // test sorts when there's nothing in the index
+ public void testEmptyIndex() throws Exception {
+ Searcher empty = getEmptyIndex();
+
+ sort = new Sort();
+ assertMatches (empty, queryX, sort, "");
+
+ sort.setSort(SortField.FIELD_DOC);
+ assertMatches (empty, queryX, sort, "");
+
+ sort.setSort (new SortField ("int", SortField.INT), SortField.FIELD_DOC );
+ assertMatches (empty, queryX, sort, "");
+
+ sort.setSort (new SortField ("string", SortField.STRING, true), SortField.FIELD_DOC );
+ assertMatches (empty, queryX, sort, "");
+
+ sort.setSort (new SortField ("float", SortField.FLOAT), new SortField ("string", SortField.STRING) );
+ assertMatches (empty, queryX, sort, "");
+ }
+
+ static class MyFieldComparator extends FieldComparator<Integer> {
+ int[] docValues;
+ int[] slotValues;
+ int bottomValue;
+
+ MyFieldComparator(int numHits) {
+ slotValues = new int[numHits];
+ }
+
+ @Override
+ public void copy(int slot, int doc) {
+ slotValues[slot] = docValues[doc];
+ }
+
+ @Override
+ public int compare(int slot1, int slot2) {
+ // values are small enough that overflow won't happen
+ return slotValues[slot1] - slotValues[slot2];
+ }
+
+ @Override
+ public int compareBottom(int doc) {
+ return bottomValue - docValues[doc];
+ }
+
+ @Override
+ public void setBottom(int bottom) {
+ bottomValue = slotValues[bottom];
+ }
+
+ private static final FieldCache.IntParser testIntParser = new FieldCache.IntParser() {
+ public final int parseInt(final String val) {
+ return (val.charAt(0)-'A') * 123456;
+ }
+ };
+
+ @Override
+ public void setNextReader(IndexReader reader, int docBase) throws IOException {
+ docValues = FieldCache.DEFAULT.getInts(reader, "parser", testIntParser);
+ }
+
+ @Override
+ public Integer value(int slot) {
+ return Integer.valueOf(slotValues[slot]);
+ }
+ }
+
+ static class MyFieldComparatorSource extends FieldComparatorSource {
+ @Override
+ public FieldComparator newComparator(String fieldname, int numHits, int sortPos, boolean reversed) {
+ return new MyFieldComparator(numHits);
+ }
+ }
+
+ // Test sorting w/ custom FieldComparator
+ public void testNewCustomFieldParserSort() throws Exception {
+ sort.setSort (new SortField ("parser", new MyFieldComparatorSource()));
+ assertMatches (full, queryA, sort, "JIHGFEDCBA");
+ }
+
+ // test sorts in reverse
+ public void testReverseSort() throws Exception {
+ sort.setSort (new SortField (null, SortField.SCORE, true), SortField.FIELD_DOC );
+ assertMatches (full, queryX, sort, "IEGCA");
+ assertMatches (full, queryY, sort, "JFHDB");
+
+ sort.setSort (new SortField (null, SortField.DOC, true));
+ assertMatches (full, queryX, sort, "IGECA");
+ assertMatches (full, queryY, sort, "JHFDB");
+
+ sort.setSort (new SortField ("int", SortField.INT, true) );
+ assertMatches (full, queryX, sort, "CAEGI");
+ assertMatches (full, queryY, sort, "BJFHD");
+
+ sort.setSort (new SortField ("float", SortField.FLOAT, true) );
+ assertMatches (full, queryX, sort, "AECIG");
+ assertMatches (full, queryY, sort, "BFJHD");
+
+ sort.setSort (new SortField ("string", SortField.STRING, true) );
+ assertMatches (full, queryX, sort, "CEGIA");
+ assertMatches (full, queryY, sort, "BFHJD");
+ }
+
+ // test sorting when the sort field is empty (undefined) for some of the documents
+ public void testEmptyFieldSort() throws Exception {
+ sort.setSort (new SortField ("string", SortField.STRING) );
+ assertMatches (full, queryF, sort, "ZJI");
+
+ sort.setSort (new SortField ("string", SortField.STRING, true) );
+ assertMatches (full, queryF, sort, "IJZ");
+
+ sort.setSort (new SortField ("i18n", Locale.ENGLISH));
+ assertMatches (full, queryF, sort, "ZJI");
+
+ sort.setSort (new SortField ("i18n", Locale.ENGLISH, true));
+ assertMatches (full, queryF, sort, "IJZ");
+
+ sort.setSort (new SortField ("int", SortField.INT) );
+ assertMatches (full, queryF, sort, "IZJ");
+
+ sort.setSort (new SortField ("int", SortField.INT, true) );
+ assertMatches (full, queryF, sort, "JZI");
+
+ sort.setSort (new SortField ("float", SortField.FLOAT) );
+ assertMatches (full, queryF, sort, "ZJI");
+
+ // using a nonexisting field as first sort key shouldn't make a difference:
+ sort.setSort (new SortField ("nosuchfield", SortField.STRING),
+ new SortField ("float", SortField.FLOAT) );
+ assertMatches (full, queryF, sort, "ZJI");
+
+ sort.setSort (new SortField ("float", SortField.FLOAT, true) );
+ assertMatches (full, queryF, sort, "IJZ");
+
+ // When a field is null for both documents, the next SortField should be used.
+ // Works for
+ sort.setSort (new SortField ("int", SortField.INT),
+ new SortField ("string", SortField.STRING),
+ new SortField ("float", SortField.FLOAT) );
+ assertMatches (full, queryG, sort, "ZWXY");
+
+ // Reverse the last criterium to make sure the test didn't pass by chance
+ sort.setSort (new SortField ("int", SortField.INT),
+ new SortField ("string", SortField.STRING),
+ new SortField ("float", SortField.FLOAT, true) );
+ assertMatches (full, queryG, sort, "ZYXW");
+
+ // Do the same for a MultiSearcher
+ Searcher multiSearcher=new MultiSearcher (new Searchable[] { full });
+
+ sort.setSort (new SortField ("int", SortField.INT),
+ new SortField ("string", SortField.STRING),
+ new SortField ("float", SortField.FLOAT) );
+ assertMatches (multiSearcher, queryG, sort, "ZWXY");
+
+ sort.setSort (new SortField ("int", SortField.INT),
+ new SortField ("string", SortField.STRING),
+ new SortField ("float", SortField.FLOAT, true) );
+ assertMatches (multiSearcher, queryG, sort, "ZYXW");
+ // Don't close the multiSearcher. it would close the full searcher too!
+
+ // Do the same for a ParallelMultiSearcher
+ ExecutorService exec = Executors.newFixedThreadPool(_TestUtil.nextInt(random, 2, 8));
+ Searcher parallelSearcher=new ParallelMultiSearcher (exec, full);
+
+ sort.setSort (new SortField ("int", SortField.INT),
+ new SortField ("string", SortField.STRING),
+ new SortField ("float", SortField.FLOAT) );
+ assertMatches (parallelSearcher, queryG, sort, "ZWXY");
+
+ sort.setSort (new SortField ("int", SortField.INT),
+ new SortField ("string", SortField.STRING),
+ new SortField ("float", SortField.FLOAT, true) );
+ assertMatches (parallelSearcher, queryG, sort, "ZYXW");
+ parallelSearcher.close();
+ exec.awaitTermination(1000, TimeUnit.MILLISECONDS);
+ }
+
+ // test sorts using a series of fields
+ public void testSortCombos() throws Exception {
+ sort.setSort (new SortField ("int", SortField.INT), new SortField ("float", SortField.FLOAT) );
+ assertMatches (full, queryX, sort, "IGEAC");
+
+ sort.setSort (new SortField ("int", SortField.INT, true), new SortField (null, SortField.DOC, true) );
+ assertMatches (full, queryX, sort, "CEAGI");
+
+ sort.setSort (new SortField ("float", SortField.FLOAT), new SortField ("string", SortField.STRING) );
+ assertMatches (full, queryX, sort, "GICEA");
+ }
+
+ // test using a Locale for sorting strings
+ public void testLocaleSort() throws Exception {
+ sort.setSort (new SortField ("string", Locale.US) );
+ assertMatches (full, queryX, sort, "AIGEC");
+ assertMatches (full, queryY, sort, "DJHFB");
+
+ sort.setSort (new SortField ("string", Locale.US, true) );
+ assertMatches (full, queryX, sort, "CEGIA");
+ assertMatches (full, queryY, sort, "BFHJD");
+ }
+
+ // test using various international locales with accented characters
+ // (which sort differently depending on locale)
+ public void testInternationalSort() throws Exception {
+ sort.setSort (new SortField ("i18n", Locale.US));
+ assertMatches (full, queryY, sort, oStrokeFirst ? "BFJHD" : "BFJDH");
+
+ sort.setSort (new SortField ("i18n", new Locale("sv", "se")));
+ assertMatches (full, queryY, sort, "BJDFH");
+
+ sort.setSort (new SortField ("i18n", new Locale("da", "dk")));
+ assertMatches (full, queryY, sort, "BJDHF");
+
+ sort.setSort (new SortField ("i18n", Locale.US));
+ assertMatches (full, queryX, sort, "ECAGI");
+
+ sort.setSort (new SortField ("i18n", Locale.FRANCE));
+ assertMatches (full, queryX, sort, "EACGI");
+ }
+
+ // Test the MultiSearcher's ability to preserve locale-sensitive ordering
+ // by wrapping it around a single searcher
+ public void testInternationalMultiSearcherSort() throws Exception {
+ Searcher multiSearcher = new MultiSearcher (new Searchable[] { full });
+
+ sort.setSort (new SortField ("i18n", new Locale("sv", "se")));
+ assertMatches (multiSearcher, queryY, sort, "BJDFH");
+
+ sort.setSort (new SortField ("i18n", Locale.US));
+ assertMatches (multiSearcher, queryY, sort, oStrokeFirst ? "BFJHD" : "BFJDH");
+
+ sort.setSort (new SortField ("i18n", new Locale("da", "dk")));
+ assertMatches (multiSearcher, queryY, sort, "BJDHF");
+ }
+
+ // test a variety of sorts using more than one searcher
+ public void testMultiSort() throws Exception {
+ MultiSearcher searcher = new MultiSearcher (new Searchable[] { searchX, searchY });
+ runMultiSorts(searcher, false);
+ }
+
+ // test a variety of sorts using a parallel multisearcher
+ public void testParallelMultiSort() throws Exception {
+ ExecutorService exec = Executors.newFixedThreadPool(_TestUtil.nextInt(random, 2, 8));
+ Searcher searcher = new ParallelMultiSearcher (exec, searchX, searchY);
+ runMultiSorts(searcher, false);
+ searcher.close();
+ exec.awaitTermination(1000, TimeUnit.MILLISECONDS);
+ }
+
+ // test that the relevancy scores are the same even if
+ // hits are sorted
+ public void testNormalizedScores() throws Exception {
+
+ // capture relevancy scores
+ HashMap<String,Float> scoresX = getScores (full.search (queryX, null, 1000).scoreDocs, full);
+ HashMap<String,Float> scoresY = getScores (full.search (queryY, null, 1000).scoreDocs, full);
+ HashMap<String,Float> scoresA = getScores (full.search (queryA, null, 1000).scoreDocs, full);
+
+ // we'll test searching locally, remote and multi
+
+ MultiSearcher multi = new MultiSearcher (new Searchable[] { searchX, searchY });
+
+ // change sorting and make sure relevancy stays the same
+
+ sort = new Sort();
+ assertSameValues (scoresX, getScores (full.search (queryX, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresX, getScores (multi.search (queryX, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresY, getScores (full.search (queryY, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresY, getScores (multi.search (queryY, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresA, getScores (full.search (queryA, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresA, getScores (multi.search (queryA, null, 1000, sort).scoreDocs, multi));
+
+ sort.setSort(SortField.FIELD_DOC);
+ assertSameValues (scoresX, getScores (full.search (queryX, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresX, getScores (multi.search (queryX, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresY, getScores (full.search (queryY, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresY, getScores (multi.search (queryY, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresA, getScores (full.search (queryA, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresA, getScores (multi.search (queryA, null, 1000, sort).scoreDocs, multi));
+
+ sort.setSort (new SortField("int", SortField.INT));
+ assertSameValues (scoresX, getScores (full.search (queryX, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresX, getScores (multi.search (queryX, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresY, getScores (full.search (queryY, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresY, getScores (multi.search (queryY, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresA, getScores (full.search (queryA, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresA, getScores (multi.search (queryA, null, 1000, sort).scoreDocs, multi));
+
+ sort.setSort (new SortField("float", SortField.FLOAT));
+ assertSameValues (scoresX, getScores (full.search (queryX, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresX, getScores (multi.search (queryX, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresY, getScores (full.search (queryY, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresY, getScores (multi.search (queryY, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresA, getScores (full.search (queryA, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresA, getScores (multi.search (queryA, null, 1000, sort).scoreDocs, multi));
+
+ sort.setSort (new SortField("string", SortField.STRING));
+ assertSameValues (scoresX, getScores (full.search (queryX, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresX, getScores (multi.search (queryX, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresY, getScores (full.search (queryY, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresY, getScores (multi.search (queryY, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresA, getScores (full.search (queryA, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresA, getScores (multi.search (queryA, null, 1000, sort).scoreDocs, multi));
+
+ sort.setSort (new SortField("int", SortField.INT),new SortField("float", SortField.FLOAT));
+ assertSameValues (scoresX, getScores (full.search (queryX, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresX, getScores (multi.search (queryX, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresY, getScores (full.search (queryY, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresY, getScores (multi.search (queryY, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresA, getScores (full.search (queryA, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresA, getScores (multi.search (queryA, null, 1000, sort).scoreDocs, multi));
+
+ sort.setSort (new SortField ("int", SortField.INT, true), new SortField (null, SortField.DOC, true) );
+ assertSameValues (scoresX, getScores (full.search (queryX, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresX, getScores (multi.search (queryX, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresY, getScores (full.search (queryY, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresY, getScores (multi.search (queryY, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresA, getScores (full.search (queryA, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresA, getScores (multi.search (queryA, null, 1000, sort).scoreDocs, multi));
+
+ sort.setSort (new SortField("int", SortField.INT),new SortField("string", SortField.STRING));
+ assertSameValues (scoresX, getScores (full.search (queryX, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresX, getScores (multi.search (queryX, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresY, getScores (full.search (queryY, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresY, getScores (multi.search (queryY, null, 1000, sort).scoreDocs, multi));
+ assertSameValues (scoresA, getScores (full.search (queryA, null, 1000, sort).scoreDocs, full));
+ assertSameValues (scoresA, getScores (multi.search (queryA, null, 1000, sort).scoreDocs, multi));
+
+ }
+
+ public void testTopDocsScores() throws Exception {
+
+ // There was previously a bug in FieldSortedHitQueue.maxscore when only a single
+ // doc was added. That is what the following tests for.
+ Sort sort = new Sort();
+ int nDocs=10;
+
+ // try to pick a query that will result in an unnormalized
+ // score greater than 1 to test for correct normalization
+ final TopDocs docs1 = full.search(queryE,null,nDocs,sort);
+
+ // a filter that only allows through the first hit
+ Filter filt = new Filter() {
+ @Override
+ public DocIdSet getDocIdSet(IndexReader reader) throws IOException {
+ BitSet bs = new BitSet(reader.maxDoc());
+ bs.set(0, reader.maxDoc());
+ bs.set(docs1.scoreDocs[0].doc);
+ return new DocIdBitSet(bs);
+ }
+ };
+
+ TopDocs docs2 = full.search(queryE, filt, nDocs, sort);
+
+ assertEquals(docs1.scoreDocs[0].score, docs2.scoreDocs[0].score, 1e-6);
+ }
+
+ public void testSortWithoutFillFields() throws Exception {
+
+ // There was previously a bug in TopFieldCollector when fillFields was set
+ // to false - the same doc and score was set in ScoreDoc[] array. This test
+ // asserts that if fillFields is false, the documents are set properly. It
+ // does not use Searcher's default search methods (with Sort) since all set
+ // fillFields to true.
+ Sort[] sort = new Sort[] { new Sort(SortField.FIELD_DOC), new Sort() };
+ for (int i = 0; i < sort.length; i++) {
+ Query q = new MatchAllDocsQuery();
+ TopDocsCollector<Entry> tdc = TopFieldCollector.create(sort[i], 10, false,
+ false, false, true);
+
+ full.search(q, tdc);
+
+ ScoreDoc[] sd = tdc.topDocs().scoreDocs;
+ for (int j = 1; j < sd.length; j++) {
+ assertTrue(sd[j].doc != sd[j - 1].doc);
+ }
+
+ }
+ }
+
+ public void testSortWithoutScoreTracking() throws Exception {
+
+ // Two Sort criteria to instantiate the multi/single comparators.
+ Sort[] sort = new Sort[] {new Sort(SortField.FIELD_DOC), new Sort() };
+ for (int i = 0; i < sort.length; i++) {
+ Query q = new MatchAllDocsQuery();
+ TopDocsCollector<Entry> tdc = TopFieldCollector.create(sort[i], 10, true, false,
+ false, true);
+
+ full.search(q, tdc);
+
+ TopDocs td = tdc.topDocs();
+ ScoreDoc[] sd = td.scoreDocs;
+ for (int j = 0; j < sd.length; j++) {
+ assertTrue(Float.isNaN(sd[j].score));
+ }
+ assertTrue(Float.isNaN(td.getMaxScore()));
+ }
+ }
+
+ public void testSortWithScoreNoMaxScoreTracking() throws Exception {
+
+ // Two Sort criteria to instantiate the multi/single comparators.
+ Sort[] sort = new Sort[] {new Sort(SortField.FIELD_DOC), new Sort() };
+ for (int i = 0; i < sort.length; i++) {
+ Query q = new MatchAllDocsQuery();
+ TopDocsCollector<Entry> tdc = TopFieldCollector.create(sort[i], 10, true, true,
+ false, true);
+
+ full.search(q, tdc);
+
+ TopDocs td = tdc.topDocs();
+ ScoreDoc[] sd = td.scoreDocs;
+ for (int j = 0; j < sd.length; j++) {
+ assertTrue(!Float.isNaN(sd[j].score));
+ }
+ assertTrue(Float.isNaN(td.getMaxScore()));
+ }
+ }
+
+ // MultiComparatorScoringNoMaxScoreCollector
+ public void testSortWithScoreNoMaxScoreTrackingMulti() throws Exception {
+
+ // Two Sort criteria to instantiate the multi/single comparators.
+ Sort[] sort = new Sort[] {new Sort(SortField.FIELD_DOC, SortField.FIELD_SCORE) };
+ for (int i = 0; i < sort.length; i++) {
+ Query q = new MatchAllDocsQuery();
+ TopDocsCollector<Entry> tdc = TopFieldCollector.create(sort[i], 10, true, true,
+ false, true);
+
+ full.search(q, tdc);
+
+ TopDocs td = tdc.topDocs();
+ ScoreDoc[] sd = td.scoreDocs;
+ for (int j = 0; j < sd.length; j++) {
+ assertTrue(!Float.isNaN(sd[j].score));
+ }
+ assertTrue(Float.isNaN(td.getMaxScore()));
+ }
+ }
+
+ public void testSortWithScoreAndMaxScoreTracking() throws Exception {
+
+ // Two Sort criteria to instantiate the multi/single comparators.
+ Sort[] sort = new Sort[] {new Sort(SortField.FIELD_DOC), new Sort() };
+ for (int i = 0; i < sort.length; i++) {
+ Query q = new MatchAllDocsQuery();
+ TopDocsCollector<Entry> tdc = TopFieldCollector.create(sort[i], 10, true, true,
+ true, true);
+
+ full.search(q, tdc);
+
+ TopDocs td = tdc.topDocs();
+ ScoreDoc[] sd = td.scoreDocs;
+ for (int j = 0; j < sd.length; j++) {
+ assertTrue(!Float.isNaN(sd[j].score));
+ }
+ assertTrue(!Float.isNaN(td.getMaxScore()));
+ }
+ }
+
+ public void testOutOfOrderDocsScoringSort() throws Exception {
+
+ // Two Sort criteria to instantiate the multi/single comparators.
+ Sort[] sort = new Sort[] {new Sort(SortField.FIELD_DOC), new Sort() };
+ boolean[][] tfcOptions = new boolean[][] {
+ new boolean[] { false, false, false },
+ new boolean[] { false, false, true },
+ new boolean[] { false, true, false },
+ new boolean[] { false, true, true },
+ new boolean[] { true, false, false },
+ new boolean[] { true, false, true },
+ new boolean[] { true, true, false },
+ new boolean[] { true, true, true },
+ };
+ String[] actualTFCClasses = new String[] {
+ "OutOfOrderOneComparatorNonScoringCollector",
+ "OutOfOrderOneComparatorScoringMaxScoreCollector",
+ "OutOfOrderOneComparatorScoringNoMaxScoreCollector",
+ "OutOfOrderOneComparatorScoringMaxScoreCollector",
+ "OutOfOrderOneComparatorNonScoringCollector",
+ "OutOfOrderOneComparatorScoringMaxScoreCollector",
+ "OutOfOrderOneComparatorScoringNoMaxScoreCollector",
+ "OutOfOrderOneComparatorScoringMaxScoreCollector"
+ };
+
+ BooleanQuery bq = new BooleanQuery();
+ // Add a Query with SHOULD, since bw.scorer() returns BooleanScorer2
+ // which delegates to BS if there are no mandatory clauses.
+ bq.add(new MatchAllDocsQuery(), Occur.SHOULD);
+ // Set minNrShouldMatch to 1 so that BQ will not optimize rewrite to return
+ // the clause instead of BQ.
+ bq.setMinimumNumberShouldMatch(1);
+ for (int i = 0; i < sort.length; i++) {
+ for (int j = 0; j < tfcOptions.length; j++) {
+ TopDocsCollector<Entry> tdc = TopFieldCollector.create(sort[i], 10,
+ tfcOptions[j][0], tfcOptions[j][1], tfcOptions[j][2], false);
+
+ assertTrue(tdc.getClass().getName().endsWith("$"+actualTFCClasses[j]));
+
+ full.search(bq, tdc);
+
+ TopDocs td = tdc.topDocs();
+ ScoreDoc[] sd = td.scoreDocs;
+ assertEquals(10, sd.length);
+ }
+ }
+ }
+
+ // OutOfOrderMulti*Collector
+ public void testOutOfOrderDocsScoringSortMulti() throws Exception {
+
+ // Two Sort criteria to instantiate the multi/single comparators.
+ Sort[] sort = new Sort[] {new Sort(SortField.FIELD_DOC, SortField.FIELD_SCORE) };
+ boolean[][] tfcOptions = new boolean[][] {
+ new boolean[] { false, false, false },
+ new boolean[] { false, false, true },
+ new boolean[] { false, true, false },
+ new boolean[] { false, true, true },
+ new boolean[] { true, false, false },
+ new boolean[] { true, false, true },
+ new boolean[] { true, true, false },
+ new boolean[] { true, true, true },
+ };
+ String[] actualTFCClasses = new String[] {
+ "OutOfOrderMultiComparatorNonScoringCollector",
+ "OutOfOrderMultiComparatorScoringMaxScoreCollector",
+ "OutOfOrderMultiComparatorScoringNoMaxScoreCollector",
+ "OutOfOrderMultiComparatorScoringMaxScoreCollector",
+ "OutOfOrderMultiComparatorNonScoringCollector",
+ "OutOfOrderMultiComparatorScoringMaxScoreCollector",
+ "OutOfOrderMultiComparatorScoringNoMaxScoreCollector",
+ "OutOfOrderMultiComparatorScoringMaxScoreCollector"
+ };
+
+ BooleanQuery bq = new BooleanQuery();
+ // Add a Query with SHOULD, since bw.scorer() returns BooleanScorer2
+ // which delegates to BS if there are no mandatory clauses.
+ bq.add(new MatchAllDocsQuery(), Occur.SHOULD);
+ // Set minNrShouldMatch to 1 so that BQ will not optimize rewrite to return
+ // the clause instead of BQ.
+ bq.setMinimumNumberShouldMatch(1);
+ for (int i = 0; i < sort.length; i++) {
+ for (int j = 0; j < tfcOptions.length; j++) {
+ TopDocsCollector<Entry> tdc = TopFieldCollector.create(sort[i], 10,
+ tfcOptions[j][0], tfcOptions[j][1], tfcOptions[j][2], false);
+
+ assertTrue(tdc.getClass().getName().endsWith("$"+actualTFCClasses[j]));
+
+ full.search(bq, tdc);
+
+ TopDocs td = tdc.topDocs();
+ ScoreDoc[] sd = td.scoreDocs;
+ assertEquals(10, sd.length);
+ }
+ }
+ }
+
+ public void testSortWithScoreAndMaxScoreTrackingNoResults() throws Exception {
+
+ // Two Sort criteria to instantiate the multi/single comparators.
+ Sort[] sort = new Sort[] {new Sort(SortField.FIELD_DOC), new Sort() };
+ for (int i = 0; i < sort.length; i++) {
+ TopDocsCollector<Entry> tdc = TopFieldCollector.create(sort[i], 10, true, true, true, true);
+ TopDocs td = tdc.topDocs();
+ assertEquals(0, td.totalHits);
+ assertTrue(Float.isNaN(td.getMaxScore()));
+ }
+ }
+
+ // runs a variety of sorts useful for multisearchers
+ private void runMultiSorts(Searcher multi, boolean isFull) throws Exception {
+ sort.setSort(SortField.FIELD_DOC);
+ String expected = isFull ? "ABCDEFGHIJ" : "ACEGIBDFHJ";
+ assertMatches(multi, queryA, sort, expected);
+
+ sort.setSort(new SortField ("int", SortField.INT));
+ expected = isFull ? "IDHFGJABEC" : "IDHFGJAEBC";
+ assertMatches(multi, queryA, sort, expected);
+
+ sort.setSort(new SortField ("int", SortField.INT), SortField.FIELD_DOC);
+ expected = isFull ? "IDHFGJABEC" : "IDHFGJAEBC";
+ assertMatches(multi, queryA, sort, expected);
+
+ sort.setSort(new SortField("int", SortField.INT));
+ expected = isFull ? "IDHFGJABEC" : "IDHFGJAEBC";
+ assertMatches(multi, queryA, sort, expected);
+
+ sort.setSort(new SortField ("float", SortField.FLOAT), SortField.FIELD_DOC);
+ assertMatches(multi, queryA, sort, "GDHJCIEFAB");
+
+ sort.setSort(new SortField("float", SortField.FLOAT));
+ assertMatches(multi, queryA, sort, "GDHJCIEFAB");
+
+ sort.setSort(new SortField("string", SortField.STRING));
+ assertMatches(multi, queryA, sort, "DJAIHGFEBC");
+
+ sort.setSort(new SortField("int", SortField.INT, true));
+ expected = isFull ? "CABEJGFHDI" : "CAEBJGFHDI";
+ assertMatches(multi, queryA, sort, expected);
+
+ sort.setSort(new SortField("float", SortField.FLOAT, true));
+ assertMatches(multi, queryA, sort, "BAFECIJHDG");
+
+ sort.setSort(new SortField("string", SortField.STRING, true));
+ assertMatches(multi, queryA, sort, "CBEFGHIAJD");
+
+ sort.setSort(new SortField("int", SortField.INT),new SortField("float", SortField.FLOAT));
+ assertMatches(multi, queryA, sort, "IDHFGJEABC");
+
+ sort.setSort(new SortField("float", SortField.FLOAT),new SortField("string", SortField.STRING));
+ assertMatches(multi, queryA, sort, "GDHJICEFAB");
+
+ sort.setSort(new SortField ("int", SortField.INT));
+ assertMatches(multi, queryF, sort, "IZJ");
+
+ sort.setSort(new SortField ("int", SortField.INT, true));
+ assertMatches(multi, queryF, sort, "JZI");
+
+ sort.setSort(new SortField ("float", SortField.FLOAT));
+ assertMatches(multi, queryF, sort, "ZJI");
+
+ sort.setSort(new SortField ("string", SortField.STRING));
+ assertMatches(multi, queryF, sort, "ZJI");
+
+ sort.setSort(new SortField ("string", SortField.STRING, true));
+ assertMatches(multi, queryF, sort, "IJZ");
+
+ // up to this point, all of the searches should have "sane"
+ // FieldCache behavior, and should have reused hte cache in several cases
+ assertSaneFieldCaches(getName() + " various");
+ // next we'll check Locale based (String[]) for 'string', so purge first
+ FieldCache.DEFAULT.purgeAllCaches();
+
+ sort.setSort(new SortField ("string", Locale.US) );
+ assertMatches(multi, queryA, sort, "DJAIHGFEBC");
+
+ sort.setSort(new SortField ("string", Locale.US, true) );
+ assertMatches(multi, queryA, sort, "CBEFGHIAJD");
+
+ sort.setSort(new SortField ("string", Locale.UK) );
+ assertMatches(multi, queryA, sort, "DJAIHGFEBC");
+
+ assertSaneFieldCaches(getName() + " Locale.US + Locale.UK");
+ FieldCache.DEFAULT.purgeAllCaches();
+
+ }
+
+ private void assertMatches(Searcher searcher, Query query, Sort sort, String expectedResult) throws IOException {
+ assertMatches( null, searcher, query, sort, expectedResult );
+ }
+
+ // make sure the documents returned by the search match the expected list
+ private void assertMatches(String msg, Searcher searcher, Query query, Sort sort,
+ String expectedResult) throws IOException {
+ //ScoreDoc[] result = searcher.search (query, null, 1000, sort).scoreDocs;
+ TopDocs hits = searcher.search (query, null, Math.max(1, expectedResult.length()), sort);
+ ScoreDoc[] result = hits.scoreDocs;
+ assertEquals(expectedResult.length(),hits.totalHits);
+ StringBuilder buff = new StringBuilder(10);
+ int n = result.length;
+ for (int i=0; i<n; ++i) {
+ Document doc = searcher.doc(result[i].doc);
+ String[] v = doc.getValues("tracer");
+ for (int j=0; j<v.length; ++j) {
+ buff.append (v[j]);
+ }
+ }
+ assertEquals (msg, expectedResult, buff.toString());
+ }
+
+ private HashMap<String,Float> getScores (ScoreDoc[] hits, Searcher searcher)
+ throws IOException {
+ HashMap<String,Float> scoreMap = new HashMap<String,Float>();
+ int n = hits.length;
+ for (int i=0; i<n; ++i) {
+ Document doc = searcher.doc(hits[i].doc);
+ String[] v = doc.getValues("tracer");
+ assertEquals (v.length, 1);
+ scoreMap.put (v[0], Float.valueOf(hits[i].score));
+ }
+ return scoreMap;
+ }
+
+ // make sure all the values in the maps match
+ private <K, V> void assertSameValues (HashMap<K,V> m1, HashMap<K,V> m2) {
+ int n = m1.size();
+ int m = m2.size();
+ assertEquals (n, m);
+ Iterator<K> iter = m1.keySet().iterator();
+ while (iter.hasNext()) {
+ K key = iter.next();
+ V o1 = m1.get(key);
+ V o2 = m2.get(key);
+ if (o1 instanceof Float) {
+ assertEquals(((Float)o1).floatValue(), ((Float)o2).floatValue(), 1e-6);
+ } else {
+ assertEquals (m1.get(key), m2.get(key));
+ }
+ }
+ }
+
+ public void testEmptyStringVsNullStringSort() throws Exception {
+ Directory dir = newDirectory();
+ IndexWriter w = new IndexWriter(dir, newIndexWriterConfig(
+ TEST_VERSION_CURRENT, new MockAnalyzer(random)));
+ Document doc = new Document();
+ doc.add(newField("f", "", Field.Store.NO, Field.Index.NOT_ANALYZED));
+ doc.add(newField("t", "1", Field.Store.NO, Field.Index.NOT_ANALYZED));
+ w.addDocument(doc);
+ w.commit();
+ doc = new Document();
+ doc.add(newField("t", "1", Field.Store.NO, Field.Index.NOT_ANALYZED));
+ w.addDocument(doc);
+
+ IndexReader r = IndexReader.open(w, true);
+ w.close();
+ IndexSearcher s = newSearcher(r);
+ TopDocs hits = s.search(new TermQuery(new Term("t", "1")), null, 10, new Sort(new SortField("f", SortField.STRING)));
+ assertEquals(2, hits.totalHits);
+ // null sorts first
+ assertEquals(1, hits.scoreDocs[0].doc);
+ assertEquals(0, hits.scoreDocs[1].doc);
+ s.close();
+ r.close();
+ dir.close();
+ }
+
+ public void testLUCENE2142() throws IOException {
+ Directory indexStore = newDirectory();
+ IndexWriter writer = new IndexWriter(indexStore, newIndexWriterConfig(
+ TEST_VERSION_CURRENT, new MockAnalyzer(random)));
+ for (int i=0; i<5; i++) {
+ Document doc = new Document();
+ doc.add (new Field ("string", "a"+i, Field.Store.NO, Field.Index.NOT_ANALYZED));
+ doc.add (new Field ("string", "b"+i, Field.Store.NO, Field.Index.NOT_ANALYZED));
+ writer.addDocument (doc);
+ }
+ writer.optimize(); // enforce one segment to have a higher unique term count in all cases
+ writer.close();
+ sort.setSort(
+ new SortField("string", SortField.STRING),
+ SortField.FIELD_DOC );
+ // this should not throw AIOOBE or RuntimeEx
+ IndexSearcher searcher = new IndexSearcher(indexStore, true);
+ searcher.search(new MatchAllDocsQuery(), null, 500, sort);
+ searcher.close();
+ indexStore.close();
+ }
+
+ public void testCountingCollector() throws Exception {
+ Directory indexStore = newDirectory();
+ RandomIndexWriter writer = new RandomIndexWriter(random, indexStore);
+ for (int i=0; i<5; i++) {
+ Document doc = new Document();
+ doc.add (new Field ("string", "a"+i, Field.Store.NO, Field.Index.NOT_ANALYZED));
+ doc.add (new Field ("string", "b"+i, Field.Store.NO, Field.Index.NOT_ANALYZED));
+ writer.addDocument (doc);
+ }
+ IndexReader reader = writer.getReader();
+ writer.close();
+
+ IndexSearcher searcher = newSearcher(reader);
+ TotalHitCountCollector c = new TotalHitCountCollector();
+ searcher.search(new MatchAllDocsQuery(), null, c);
+ assertEquals(5, c.getTotalHits());
+ searcher.close();
+ reader.close();
+ indexStore.close();
+ }
+}