Namespace Lucene.Net.Analysis.Icu
This module exposes functionality from ICU to Apache Lucene. ICU4N is a .NET library that enhances .NET's internationalization support by improving performance, keeping current with the Unicode Standard, and providing richer APIs.
Note
The Lucene.Net.Analysis.Icu namespace was ported from Lucene 7.1.0 to get a more up-to-date version of Unicode than what shipped with Lucene 4.8.0.
Note
Since the .NET platform doesn't provide a BreakIterator class (or similar), the functionality that utilizes it was consolidated from Java Lucene's analyzers-icu package, <xref:Lucene.Net.Analysis.Common> and <xref:Lucene.Net.Highlighter> into this unified package.
Warning
While ICU4N's BreakIterator has customizable rules, its default behavior is not the same as the one in the JDK. When using any features of this package outside of the Lucene.Net.Analysis.Icu namespace, they will behave differently than they do in Java Lucene and the rules may need some tweaking to fit your needs. See the Break Rules ICU documentation for details on how to customize ICU4N.Text.RuleBaseBreakIterator.
For an introduction to Lucene's analysis API, see the <xref:Lucene.Net.Analysis> package documentation.
This module exposes the following functionality:
Text Segmentation: Tokenizes text based on properties and rules defined in Unicode.
Collation: Compare strings according to the conventions and standards of a particular language, region or country.
Normalization: Converts text to a unique, equivalent form.
Case Folding: Removes case distinctions with Unicode's Default Caseless Matching algorithm.
Search Term Folding: Removes distinctions (such as accent marks) between similar characters for a loose or fuzzy search.
Text Transformation: Transforms Unicode text in a context-sensitive fashion: e.g. mapping Traditional to Simplified Chinese
Text Segmentation
Text Segmentation (Tokenization) divides document and query text into index terms (typically words). Unicode provides special properties and rules so that this can be done in a manner that works well with most languages.
Text Segmentation implements the word segmentation specified in Unicode Text Segmentation. Additionally the algorithm can be tailored based on writing system, for example text in the Thai script is automatically delegated to a dictionary-based segmentation algorithm.
Use Cases
- As a more thorough replacement for StandardTokenizer that works well for most languages.
Example Usages
Tokenizing multilanguage text
// This tokenizer will work well in general for most languages.
Tokenizer tokenizer = new ICUTokenizer(reader);
Collation
ICUCollationKeyAnalyzer converts each token into its binary CollationKey using the provided Collator, allowing it to be stored as an index term.
ICUCollationKeyAnalyzer depends on ICU4N to produce the CollationKeys.
Use Cases
Efficient sorting of terms in languages that use non-Unicode character orderings. (Lucene Sort using a CultureInfo can be very slow.)
Efficient range queries over fields that contain terms in languages that use non-Unicode character orderings. (Range queries using a CultureInfo can be very slow.)
Effective Locale-specific normalization (case differences, diacritics, etc.). (<xref:Lucene.Net.Analysis.Core.LowerCaseFilter> and <xref:Lucene.Net.Analysis.Miscellaneous.ASCIIFoldingFilter> provide these services in a generic way that doesn't take into account locale-specific needs.)
Example Usages
Farsi Range Queries
const LuceneVersion matchVersion = LuceneVersion.LUCENE_48;
Collator collator = Collator.GetInstance(new UCultureInfo("ar"));
ICUCollationKeyAnalyzer analyzer = new ICUCollationKeyAnalyzer(matchVersion, collator);
RAMDirectory ramDir = new RAMDirectory();
using IndexWriter writer = new IndexWriter(ramDir, new IndexWriterConfig(matchVersion, analyzer));
writer.AddDocument(new Document {
new TextField("content", "\u0633\u0627\u0628", Field.Store.YES)
});
using IndexReader reader = writer.GetReader(applyAllDeletes: true);
writer.Dispose();
IndexSearcher searcher = new IndexSearcher(reader);
QueryParser queryParser = new QueryParser(matchVersion, "content", analyzer)
{
AnalyzeRangeTerms = 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 = searcher.Search(queryParser.Parse("[ \u062F TO \u0698 ]"), null, 1000).ScoreDocs;
Assert.AreEqual(0, result.Length, "The index Term should not be included.");
Danish Sorting
const LuceneVersion matchVersion = LuceneVersion.LUCENE_48;
Analyzer analyzer = new ICUCollationKeyAnalyzer(matchVersion, Collator.GetInstance(new UCultureInfo("da-dk")));
string indexPath = Path.Combine(Path.GetTempPath(), Path.GetFileNameWithoutExtension(Path.GetTempFileName()));
Directory dir = FSDirectory.Open(indexPath);
using IndexWriter writer = new IndexWriter(dir, new IndexWriterConfig(matchVersion, analyzer));
string[] tracer = new string[] { "A", "B", "C", "D", "E" };
string[] data = new string[] { "HAT", "HUT", "H\u00C5T", "H\u00D8T", "HOT" };
string[] sortedTracerOrder = new string[] { "A", "E", "B", "D", "C" };
for (int i = 0; i < data.Length; ++i)
{
writer.AddDocument(new Document
{
new StringField("tracer", tracer[i], Field.Store.YES),
new TextField("contents", data[i], Field.Store.NO)
});
}
using IndexReader reader = writer.GetReader(applyAllDeletes: true);
writer.Dispose();
IndexSearcher searcher = new IndexSearcher(reader);
Sort sort = new Sort();
sort.SetSort(new SortField("contents", SortFieldType.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);
Assert.AreEqual(sortedTracerOrder[i], doc.GetValues("tracer")[0]);
}
Turkish Case Normalization
const LuceneVersion matchVersion = LuceneVersion.LUCENE_48;
Collator collator = Collator.GetInstance(new UCultureInfo("tr-TR"));
collator.Strength = CollationStrength.Primary;
Analyzer analyzer = new ICUCollationKeyAnalyzer(matchVersion, collator);
string indexPath = Path.Combine(Path.GetTempPath(), Path.GetFileNameWithoutExtension(Path.GetTempFileName()));
Directory dir = FSDirectory.Open(indexPath);
using IndexWriter writer = new IndexWriter(dir, new IndexWriterConfig(matchVersion, analyzer));
writer.AddDocument(new Document {
new TextField("contents", "DIGY", Field.Store.NO)
});
using IndexReader reader = writer.GetReader(applyAllDeletes: true);
writer.Dispose();
IndexSearcher searcher = new IndexSearcher(reader);
QueryParser parser = new QueryParser(matchVersion, "contents", analyzer);
Query query = parser.Parse("d\u0131gy"); // U+0131: dotless i
ScoreDoc[] result = searcher.Search(query, null, 1000).ScoreDocs;
Assert.AreEqual(1, result.Length, "The index Term should be included.");
Caveats and Comparisons
ICUCollationKeyAnalyzer uses ICU4N's Collator, which makes its version available, thus allowing collation to be versioned independently from the .NET target framework. ICUCollationKeyAnalyzer is also fast.
SortKeys generated by CompareInfos 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.
Normalization
ICUNormalizer2Filter normalizes term text to a Unicode Normalization Form, so that equivalent forms are standardized to a unique form.
Use Cases
Removing differences in width for Asian-language text.
Standardizing complex text with non-spacing marks so that characters are ordered consistently.
Example Usages
Normalizing text to NFC
// Normalizer2 objects are unmodifiable and immutable.
Normalizer2 normalizer = Normalizer2.GetInstance(null, "nfc", Normalizer2Mode.Compose);
// This filter will normalize to NFC.
TokenStream tokenstream = new ICUNormalizer2Filter(tokenizer, normalizer);
Case Folding
Default caseless matching, or case-folding is more than just conversion to lowercase. For example, it handles cases such as the Greek sigma, so that "Μάϊος" and "ΜΆΪΟΣ" will match correctly.
Case-folding is still only an approximation of the language-specific rules governing case. If the specific language is known, consider using ICUCollationKeyFilter and indexing collation keys instead. This implementation performs the "full" case-folding specified in the Unicode standard, and this may change the length of the term. For example, the German ß is case-folded to the string 'ss'.
Case folding is related to normalization, and as such is coupled with it in this integration. To perform case-folding, you use normalization with the form "nfkc_cf" (which is the default).
Use Cases
- As a more thorough replacement for LowerCaseFilter that has good behavior for most languages.
Example Usages
Lowercasing text
// This filter will case-fold and normalize to NFKC.
TokenStream tokenstream = new ICUNormalizer2Filter(tokenizer);
Search Term Folding
Search term folding removes distinctions (such as accent marks) between similar characters. It is useful for a fuzzy or loose search.
Search term folding implements many of the foldings specified in Character Foldings as a special normalization form. This folding applies NFKC, Case Folding, and many character foldings recursively.
Use Cases
- As a more thorough replacement for ASCIIFoldingFilter and LowerCaseFilter that applies the same ideas to many more languages.
Example Usages
Removing accents
// This filter will case-fold, remove accents and other distinctions, and
// normalize to NFKC.
TokenStream tokenstream = new ICUFoldingFilter(tokenizer);
Text Transformation
ICU provides text-transformation functionality via its Transliteration API. This allows you to transform text in a variety of ways, taking context into account.
For more information, see the User's Guide and Rule Tutorial.
Use Cases
Convert Traditional to Simplified
Transliterate between different writing systems: e.g. Romanization
Example Usages
Convert Traditional to Simplified
// This filter will map Traditional Chinese to Simplified Chinese
TokenStream tokenstream = new ICUTransformFilter(tokenizer, Transliterator.GetInstance("Traditional-Simplified"));
Transliterate Serbian Cyrillic to Serbian Latin
// This filter will map Serbian Cyrillic to Serbian Latin according to BGN rules
TokenStream tokenstream = new ICUTransformFilter(tokenizer, Transliterator.GetInstance("Serbian-Latin/BGN"));
Backwards Compatibility
This module exists to provide up-to-date Unicode functionality that supports the most recent version of Unicode (currently 8.0). However, some users who wish for stronger backwards compatibility can restrict ICUNormalizer2Filter to operate on only a specific Unicode Version by using a FilteredNormalizer2.
Example Usages
Restricting normalization to Unicode 5.0
// This filter will do NFC normalization, but will ignore any characters that
// did not exist as of Unicode 5.0. Because of the normalization stability policy
// of Unicode, this is an easy way to force normalization to a specific version.
Normalizer2 normalizer = Normalizer2.GetInstance(null, "nfc", Normalizer2Mode.Compose);
UnicodeSet set = new UnicodeSet("[:age=5.0:]");
// see FilteredNormalizer2 docs, the set should be frozen or performance will suffer
set.Freeze();
FilteredNormalizer2 unicode50 = new FilteredNormalizer2(normalizer, set);
TokenStream tokenstream = new ICUNormalizer2Filter(tokenizer, unicode50);
Classes
ICUFoldingFilter
A Lucene.Net.Analysis.TokenFilter that applies search term folding to Unicode text, applying foldings from UTR#30 Character Foldings.
ICUFoldingFilterFactory
Factory for ICUFoldingFilter.
ICUNormalizer2CharFilter
Normalize token text with ICU's ICU4N.Text.Normalizer2.
ICUNormalizer2CharFilterFactory
Factory for ICUNormalizer2CharFilter.
ICUNormalizer2Filter
Normalize token text with ICU's ICU4N.Text.Normalizer2.
ICUNormalizer2FilterFactory
Factory for ICUNormalizer2Filter.
ICUTransformFilter
A Lucene.Net.Analysis.TokenFilter that transforms text with ICU.
ICUTransformFilterFactory
Factory for ICUTransformFilter.