[[analysis-icu]] === ICU Analysis Plugin The ICU Analysis plugin integrates the Lucene ICU module into elasticsearch, adding extended Unicode support using the http://site.icu-project.org/[ICU] libraries, including better analysis of Asian languages, Unicode normalization, Unicode-aware case folding, collation support, and transliteration. [IMPORTANT] .ICU analysis and backwards compatibility ================================================ From time to time, the ICU library receives updates such as adding new characters and emojis, and improving collation (sort) orders. These changes may or may not affect search and sort orders, depending on which characters sets you are using. While we restrict ICU upgrades to major versions, you may find that an index created in the previous major version will need to be reindexed in order to return correct (and correctly ordered) results, and to take advantage of new characters. ================================================ :plugin_name: analysis-icu include::install_remove.asciidoc[] [[analysis-icu-normalization-charfilter]] ==== ICU Normalization Character Filter Normalizes characters as explained http://userguide.icu-project.org/transforms/normalization[here]. It registers itself as the `icu_normalizer` character filter, which is available to all indices without any further configuration. The type of normalization can be specified with the `name` parameter, which accepts `nfc`, `nfkc`, and `nfkc_cf` (default). Set the `mode` parameter to `decompose` to convert `nfc` to `nfd` or `nfkc` to `nfkd` respectively: Which letters are normalized can be controlled by specifying the `unicodeSetFilter` parameter, which accepts a http://icu-project.org/apiref/icu4j/com/ibm/icu/text/UnicodeSet.html[UnicodeSet]. Here are two examples, the default usage and a customised character filter: [source,js] -------------------------------------------------- PUT icu_sample { "settings": { "index": { "analysis": { "analyzer": { "nfkc_cf_normalized": { <1> "tokenizer": "icu_tokenizer", "char_filter": [ "icu_normalizer" ] }, "nfd_normalized": { <2> "tokenizer": "icu_tokenizer", "char_filter": [ "nfd_normalizer" ] } }, "char_filter": { "nfd_normalizer": { "type": "icu_normalizer", "name": "nfc", "mode": "decompose" } } } } } } -------------------------------------------------- // CONSOLE <1> Uses the default `nfkc_cf` normalization. <2> Uses the customized `nfd_normalizer` token filter, which is set to use `nfc` normalization with decomposition. [[analysis-icu-tokenizer]] ==== ICU Tokenizer Tokenizes text into words on word boundaries, as defined in http://www.unicode.org/reports/tr29/[UAX #29: Unicode Text Segmentation]. It behaves much like the {ref}/analysis-standard-tokenizer.html[`standard` tokenizer], but adds better support for some Asian languages by using a dictionary-based approach to identify words in Thai, Lao, Chinese, Japanese, and Korean, and using custom rules to break Myanmar and Khmer text into syllables. [source,js] -------------------------------------------------- PUT icu_sample { "settings": { "index": { "analysis": { "analyzer": { "my_icu_analyzer": { "tokenizer": "icu_tokenizer" } } } } } } -------------------------------------------------- // CONSOLE ===== Rules customization experimental[] You can customize the `icu-tokenizer` behavior by specifying per-script rule files, see the http://userguide.icu-project.org/boundaryanalysis#TOC-RBBI-Rules[RBBI rules syntax reference] for a more detailed explanation. To add icu tokenizer rules, set the `rule_files` settings, which should contain a comma-separated list of `code:rulefile` pairs in the following format: http://unicode.org/iso15924/iso15924-codes.html[four-letter ISO 15924 script code], followed by a colon, then a rule file name. Rule files are placed `ES_HOME/config` directory. As a demonstration of how the rule files can be used, save the following user file to `$ES_HOME/config/KeywordTokenizer.rbbi`: [source,text] ----------------------- .+ {200}; ----------------------- Then create an analyzer to use this rule file as follows: [source,js] -------------------------------------------------- PUT icu_sample { "settings": { "index":{ "analysis":{ "tokenizer" : { "icu_user_file" : { "type" : "icu_tokenizer", "rule_files" : "Latn:KeywordTokenizer.rbbi" } }, "analyzer" : { "my_analyzer" : { "type" : "custom", "tokenizer" : "icu_user_file" } } } } } } GET icu_sample/_analyze { "analyzer": "my_analyzer", "text": "Elasticsearch. Wow!" } -------------------------------------------------- // CONSOLE The above `analyze` request returns the following: [source,js] -------------------------------------------------- { "tokens": [ { "token": "Elasticsearch. Wow!", "start_offset": 0, "end_offset": 19, "type": "", "position": 0 } ] } -------------------------------------------------- // TESTRESPONSE [[analysis-icu-normalization]] ==== ICU Normalization Token Filter Normalizes characters as explained http://userguide.icu-project.org/transforms/normalization[here]. It registers itself as the `icu_normalizer` token filter, which is available to all indices without any further configuration. The type of normalization can be specified with the `name` parameter, which accepts `nfc`, `nfkc`, and `nfkc_cf` (default). Which letters are normalized can be controlled by specifying the `unicodeSetFilter` parameter, which accepts a http://icu-project.org/apiref/icu4j/com/ibm/icu/text/UnicodeSet.html[UnicodeSet]. You should probably prefer the <>. Here are two examples, the default usage and a customised token filter: [source,js] -------------------------------------------------- PUT icu_sample { "settings": { "index": { "analysis": { "analyzer": { "nfkc_cf_normalized": { <1> "tokenizer": "icu_tokenizer", "filter": [ "icu_normalizer" ] }, "nfc_normalized": { <2> "tokenizer": "icu_tokenizer", "filter": [ "nfc_normalizer" ] } }, "filter": { "nfc_normalizer": { "type": "icu_normalizer", "name": "nfc" } } } } } } -------------------------------------------------- // CONSOLE <1> Uses the default `nfkc_cf` normalization. <2> Uses the customized `nfc_normalizer` token filter, which is set to use `nfc` normalization. [[analysis-icu-folding]] ==== ICU Folding Token Filter Case folding of Unicode characters based on `UTR#30`, like the {ref}/analysis-asciifolding-tokenfilter.html[ASCII-folding token filter] on steroids. It registers itself as the `icu_folding` token filter and is available to all indices: [source,js] -------------------------------------------------- PUT icu_sample { "settings": { "index": { "analysis": { "analyzer": { "folded": { "tokenizer": "icu_tokenizer", "filter": [ "icu_folding" ] } } } } } } -------------------------------------------------- // CONSOLE The ICU folding token filter already does Unicode normalization, so there is no need to use Normalize character or token filter as well. Which letters are folded can be controlled by specifying the `unicodeSetFilter` parameter, which accepts a http://icu-project.org/apiref/icu4j/com/ibm/icu/text/UnicodeSet.html[UnicodeSet]. The following example exempts Swedish characters from folding. It is important to note that both upper and lowercase forms should be specified, and that these filtered character are not lowercased which is why we add the `lowercase` filter as well: [source,js] -------------------------------------------------- PUT icu_sample { "settings": { "index": { "analysis": { "analyzer": { "swedish_analyzer": { "tokenizer": "icu_tokenizer", "filter": [ "swedish_folding", "lowercase" ] } }, "filter": { "swedish_folding": { "type": "icu_folding", "unicodeSetFilter": "[^åäöÅÄÖ]" } } } } } } -------------------------------------------------- // CONSOLE [[analysis-icu-collation]] ==== ICU Collation Token Filter [WARNING] ====== This token filter has been deprecated since Lucene 5.0. Please use <>. ====== [[analysis-icu-collation-keyword-field]] ==== ICU Collation Keyword Field Collations are used for sorting documents in a language-specific word order. The `icu_collation_keyword` field type is available to all indices and will encode the terms directly as bytes in a doc values field and a single indexed token just like a standard {ref}/keyword.html[Keyword Field]. Defaults to using {defguide}/sorting-collations.html#uca[DUCET collation], which is a best-effort attempt at language-neutral sorting. Below is an example of how to set up a field for sorting German names in ``phonebook'' order: [source,js] -------------------------- PUT my_index { "mappings": { "user": { "properties": { "name": { <1> "type": "text", "fields": { "sort": { <2> "type": "icu_collation_keyword", "index": false, "language": "de", "country": "DE", "variant": "@collation=phonebook" } } } } } } } GET _search <3> { "query": { "match": { "name": "Fritz" } }, "sort": "name.sort" } -------------------------- // CONSOLE <1> The `name` field uses the `standard` analyzer, and so support full text queries. <2> The `name.sort` field is an `icu_collation_keyword` field that will preserve the name as a single token doc values, and applies the German ``phonebook'' order. <3> An example query which searches the `name` field and sorts on the `name.sort` field. ==== Parameters for ICU Collation Keyword Fields The following parameters are accepted by `icu_collation_keyword` fields: [horizontal] `doc_values`:: Should the field be stored on disk in a column-stride fashion, so that it can later be used for sorting, aggregations, or scripting? Accepts `true` (default) or `false`. `index`:: Should the field be searchable? Accepts `true` (default) or `false`. `null_value`:: Accepts a string value which is substituted for any explicit `null` values. Defaults to `null`, which means the field is treated as missing. `store`:: Whether the field value should be stored and retrievable separately from the {ref}/mapping-source-field.html[`_source`] field. Accepts `true` or `false` (default). `fields`:: Multi-fields allow the same string value to be indexed in multiple ways for different purposes, such as one field for search and a multi-field for sorting and aggregations. ===== Collation options `strength`:: The strength property determines the minimum level of difference considered significant during comparison. Possible values are : `primary`, `secondary`, `tertiary`, `quaternary` or `identical`. See the http://icu-project.org/apiref/icu4j/com/ibm/icu/text/Collator.html[ICU Collation documentation] for a more detailed explanation for each value. Defaults to `tertiary` unless otherwise specified in the collation. `decomposition`:: Possible values: `no` (default, but collation-dependent) or `canonical`. Setting this decomposition property to `canonical` allows the Collator to handle unnormalized text properly, producing the same results as if the text were normalized. If `no` is set, it is the user's responsibility to insure that all text is already in the appropriate form before a comparison or before getting a CollationKey. Adjusting decomposition mode allows the user to select between faster and more complete collation behavior. Since a great many of the world's languages do not require text normalization, most locales set `no` as the default decomposition mode. The following options are expert only: `alternate`:: Possible values: `shifted` or `non-ignorable`. Sets the alternate handling for strength `quaternary` to be either shifted or non-ignorable. Which boils down to ignoring punctuation and whitespace. `case_level`:: Possible values: `true` or `false` (default). Whether case level sorting is required. When strength is set to `primary` this will ignore accent differences. `case_first`:: Possible values: `lower` or `upper`. Useful to control which case is sorted first when case is not ignored for strength `tertiary`. The default depends on the collation. `numeric`:: Possible values: `true` or `false` (default) . Whether digits are sorted according to their numeric representation. For example the value `egg-9` is sorted before the value `egg-21`. `variable_top`:: Single character or contraction. Controls what is variable for `alternate`. `hiragana_quaternary_mode`:: Possible values: `true` or `false`. Distinguishing between Katakana and Hiragana characters in `quaternary` strength. [[analysis-icu-transform]] ==== ICU Transform Token Filter Transforms are used to process Unicode text in many different ways, such as case mapping, normalization, transliteration and bidirectional text handling. You can define which transformation you want to apply with the `id` parameter (defaults to `Null`), and specify text direction with the `dir` parameter which accepts `forward` (default) for LTR and `reverse` for RTL. Custom rulesets are not yet supported. For example: [source,js] -------------------------------------------------- PUT icu_sample { "settings": { "index": { "analysis": { "analyzer": { "latin": { "tokenizer": "keyword", "filter": [ "myLatinTransform" ] } }, "filter": { "myLatinTransform": { "type": "icu_transform", "id": "Any-Latin; NFD; [:Nonspacing Mark:] Remove; NFC" <1> } } } } } } GET icu_sample/_analyze { "analyzer": "latin", "text": "你好" <2> } GET icu_sample/_analyze { "analyzer": "latin", "text": "здравствуйте" <3> } GET icu_sample/_analyze { "analyzer": "latin", "text": "こんにちは" <4> } -------------------------------------------------- // CONSOLE <1> This transforms transliterates characters to Latin, and separates accents from their base characters, removes the accents, and then puts the remaining text into an unaccented form. <2> Returns `ni hao`. <3> Returns `zdravstvujte`. <4> Returns `kon'nichiha`. For more documentation, Please see the http://userguide.icu-project.org/transforms/general[user guide of ICU Transform].