[[ngrams-compound-words]] === Ngrams for Compound Words
Finally, let's take a look at how n-grams can be used to search languages with compound words. ((("languages", "using many compound words, indexing of")))((("n-grams", "using with compound words")))((("partial matching", "using n-grams for compound words")))((("German", "compound words in"))) German is famous for combining several small words into one massive compound word in order to capture precise or complex meanings. For example:
Aussprachewörterbuch:: Pronunciation dictionary
Militärgeschichte:: Military history
Weißkopfseeadler:: White-headed sea eagle, or bald eagle
Weltgesundheitsorganisation:: World Health Organization
Rindfleischetikettierungsüberwachungsaufgabenübertragungsgesetz:: The law concerning the delegation of duties for the supervision of cattle marking and the labeling of beef
Somebody searching for Wörterbuch'' (dictionary) would probably expect to see Aussprachewörtebuch'' in the results list. Similarly, a search for
Adler'' (eagle) should include Weißkopfseeadler.''
One approach to indexing languages like this is to break compound words into their constituent parts using the http://bit.ly/1ygdjjC[compound word token filter]. However, the quality of the results depends on how good your compound-word dictionary is.
Another approach is just to break all words into n-grams and to search for any matching fragments--the more fragments that match, the more relevant the document.
Given that an n-gram is a moving window on a word, an n-gram of any length will cover all of the word. We want to choose a length that is long enough to be meaningful, but not so long that we produce far too many unique terms. A trigram (length 3) is ((("trigrams")))probably a good starting point:
PUT /my_index { "settings": { "analysis": { "filter": { "trigrams_filter": { "type": "ngram", "min_gram": 3, "max_gram": 3 } }, "analyzer": { "trigrams": { "type": "custom", "tokenizer": "standard", "filter": [ "lowercase", "trigrams_filter" ] } } } }, "mappings": { "my_type": { "properties": { "text": { "type": "string", "analyzer": "trigrams" <1> } } } } }
// SENSE: 130_Partial_Matching/40_Compound_words.json
<1> The text field uses the trigrams analyzer to index its contents as
n-grams of length 3.
Testing the trigrams analyzer with the analyze API
// SENSE: 130_Partial_Matching/40_Compound_words.json
returns these terms:
wei, eiß, ißk, ßko, kop, opf, pfs, fse, see, eea,ead, adl, dle, ler
We can index our example compound words to test this approach:
POST /my_index/my_type/_bulk { "index": { "_id": 1 }} { "text": "Aussprachewörterbuch" } { "index": { "_id": 2 }} { "text": "Militärgeschichte" } { "index": { "_id": 3 }} { "text": "Weißkopfseeadler" } { "index": { "_id": 4 }} { "text": "Weltgesundheitsorganisation" } { "index": { "_id": 5 }} { "text": "Rindfleischetikettierungsüberwachungsaufgabenübertragungsgesetz" }
// SENSE: 130_Partial_Matching/40_Compound_words.json
A search for ``Adler'' (eagle) becomes a query for the three terms adl, `dle`,
and `ler`:
// SENSE: 130_Partial_Matching/40_Compound_words.json
which correctly matches ``Weißkopfsee-adler'':
// SENSE: 130_Partial_Matching/40_Compound_words.json
A similar query for Gesundheit'' (health) correctly matches Welt-gesundheit-sorganisation,'' but it also matches
Militär-__ges__-chichte'' and Rindfleischetikettierungsüberwachungsaufgabenübertragungs-ges-etz,''
both of which also contain the trigram ges.
Judicious use of the minimum_should_match parameter can remove these
spurious results by requiring that a minimum number of trigrams must be
present for a document to be considered a match:
GET /my_index/my_type/_search { "query": { "match": { "text": { "query": "Gesundheit", "minimum_should_match": "80%" } } } }
// SENSE: 130_Partial_Matching/40_Compound_words.json
This is a bit of a shotgun approach to full-text search and can result in a large inverted index, but it is an effective generic way of indexing languages that use many compound words or that don't use whitespace between words, such as Thai.
This technique is used to increase recall—the number of relevant documents that a search returns. It is usually used in combination with other techniques, such as shingles (see <>) to improve precision and the relevance score of each document.