Class | Description |
---|---|
CollationAttributeFactory |
Converts each token into its
CollationKey , and then
encodes the bytes as an index term. |
CollationDocValuesField |
Indexes collation keys as a single-valued
SortedDocValuesField . |
CollationKeyAnalyzer |
Configures
KeywordTokenizer with CollationAttributeFactory . |
Collation
converts each token into its binary CollationKey
using the provided Collator
, allowing it to be stored as an index term.
LowerCaseFilter
and
ASCIIFoldingFilter
provide these services
in a generic way that doesn't take into account locale-specific needs.)
// "fa" Locale is not supported by Sun JDK 1.4 or 1.5 Collator collator = Collator.getInstance(new Locale("ar")); CollationKeyAnalyzer analyzer = new CollationKeyAnalyzer(collator); RAMDirectory ramDir = new RAMDirectory(); IndexWriter writer = new IndexWriter(ramDir, new IndexWriterConfig(analyzer)); Document doc = new Document(); doc.add(new TextField("content", "ساب", Field.Store.YES)); writer.addDocument(doc); writer.close(); IndexReader ir = DirectoryReader.open(ramDir); IndexSearcher is = new IndexSearcher(ir); QueryParser aqp = new QueryParser("content", analyzer); aqp.setAnalyzeRangeTerms(true); // Unicode order would include U+0633 in [ U+062F - U+0698 ], but Farsi // orders the U+0698 character before the U+0633 character, so the single // indexed Term above should NOT be returned by a ConstantScoreRangeQuery // with a Farsi Collator (or an Arabic one for the case when Farsi is not // supported). ScoreDoc[] result = is.search(aqp.parse("[ د TO ژ ]"), null, 1000).scoreDocs; assertEquals("The index Term should not be included.", 0, result.length);
Analyzer analyzer = new CollationKeyAnalyzer(Collator.getInstance(new Locale("da", "dk"))); RAMDirectory indexStore = new RAMDirectory(); IndexWriter writer = new IndexWriter(indexStore, new IndexWriterConfig(analyzer)); String[] tracer = new String[] { "A", "B", "C", "D", "E" }; String[] data = new String[] { "HAT", "HUT", "HÅT", "HØT", "HOT" }; String[] sortedTracerOrder = new String[] { "A", "E", "B", "D", "C" }; for (int i = 0 ; i < data.length ; ++i) { Document doc = new Document(); doc.add(new StoredField("tracer", tracer[i])); doc.add(new TextField("contents", data[i], Field.Store.NO)); writer.addDocument(doc); } writer.close(); IndexReader ir = DirectoryReader.open(indexStore); IndexSearcher searcher = new IndexSearcher(ir); Sort sort = new Sort(); sort.setSort(new SortField("contents", SortField.STRING)); Query query = new MatchAllDocsQuery(); ScoreDoc[] result = searcher.search(query, null, 1000, sort).scoreDocs; for (int i = 0 ; i < result.length ; ++i) { Document doc = searcher.doc(result[i].doc); assertEquals(sortedTracerOrder[i], doc.getValues("tracer")[0]); }
Collator collator = Collator.getInstance(new Locale("tr", "TR")); collator.setStrength(Collator.PRIMARY); Analyzer analyzer = new CollationKeyAnalyzer(collator); RAMDirectory ramDir = new RAMDirectory(); IndexWriter writer = new IndexWriter(ramDir, new IndexWriterConfig(analyzer)); Document doc = new Document(); doc.add(new TextField("contents", "DIGY", Field.Store.NO)); writer.addDocument(doc); writer.close(); IndexReader ir = DirectoryReader.open(ramDir); IndexSearcher is = new IndexSearcher(ir); QueryParser parser = new QueryParser("contents", analyzer); Query query = parser.parse("dıgy"); // U+0131: dotless i ScoreDoc[] result = is.search(query, null, 1000).scoreDocs; assertEquals("The index Term should be included.", 1, result.length);
WARNING: Make sure you use exactly the same
Collator
at index and query time -- CollationKey
s
are only comparable when produced by
the same Collator
. Since RuleBasedCollator
s
are not independently versioned, it is unsafe to search against stored
CollationKey
s unless the following are exactly the same (best
practice is to store this information with the index and check that they
remain the same at query time):
Collator.getInstance(java.util.Locale)
.
Collator.setStrength(int)
ICUCollationKeyAnalyzer
, available in the icu analysis module,
uses ICU4J's Collator
, which
makes its version available, thus allowing collation to be versioned
independently from the JVM. ICUCollationKeyAnalyzer
is also
significantly faster and generates significantly shorter keys than
CollationKeyAnalyzer
. See
http://site.icu-project.org/charts/collation-icu4j-sun for key
generation timing and key length comparisons between ICU4J and
java.text.Collator
over several languages.
CollationKey
s generated by java.text.Collator
s are
not compatible with those those generated by ICU Collators. Specifically, if
you use CollationKeyAnalyzer
to generate index terms, do not use
ICUCollationKeyAnalyzer
on the query side, or vice versa.
Copyright © 2000-2017 Apache Software Foundation. All Rights Reserved.