Warning
The gem is not currently maintained and the development is put on hold. If you're interested in taking over, feel free to reach out to me.
Need a fast full-text search for your Ruby script, but Solr and Elasticsearch are an overkill? 😏
You're in the right place. Tantiny is a minimalistic full-text search library for Ruby based on Tantivy (an awesome alternative to Apache Lucene written in Rust). It's great for cases when your task at hand requires a full-text search, but configuring a full-blown distributed search engine would take more time than the task itself. And even if you already use such an engine in your project (which is highly likely, actually), it still might be easier to just use Tantiny instead because unlike Solr and Elasticsearch it doesn't need anything to work (no separate server or process or whatever), it's purely embeddable. So, when you find yourself in a situation when using your search engine of choice would be tricky/inconvinient or would require additional setup you can always revert back to a quick and dirty solution that is nontheless flexible and fast.
Tantiny is not exactly Ruby bindings to Tantivy, but it tries to be close. The main philosophy is to provide low-level access to Tantivy's inverted index, but with a nice Ruby-esque API, sensible defaults, and additional functionality sprinkled on top.
Take a look at the most basic example:
index = Tantiny::Index.new("/path/to/index") { text :description }
index << { id: 1, description: "Hello World!" }
index << { id: 2, description: "What's up?" }
index << { id: 3, description: "Goodbye World!" }
index.reload
index.search("world") # 1, 3
Add this line to your application's Gemfile:
gem "tantiny"
And then execute:
$ bundle install
Or install it yourself as:
$ gem install tantiny
You don't have to have Rust installed on your system since Tantiny will try to download the pre-compiled binaries hosted on GitHub releases during the installation. However, if no pre-compiled binaries were found for your system (which is a combination of platform, architecture, and Ruby version) you will need to install Rust first.
Warning
Only Rust versions up to 1.77
are supported. See this issue for more details.
Important
Please, make sure to specify the minor version when declaring dependency on tantiny
. The API is a subject to change, and until it reaches 1.0.0
a bump in the minor version will most likely signify a breaking change.
You have to specify a path to where the index would be stored and a block that defines the schema:
Tantiny::Index.new "/tmp/index" do
id :imdb_id
facet :category
string :title
text :description
integer :duration
double :rating
date :release_date
end
Here are the descriptions for every field type:
Type | Description |
---|---|
id | Specifies where documents' ids are stored (defaults to :id ). |
facet | Fields with values like /animals/birds (i.e. hierarchial categories). |
string | Fields with text that are not tokenized. |
text | Fields with text that are tokenized by the specified tokenizer. |
integer | Fields with integer values. |
double | Fields with float values. |
date | Fields with either DateTime type or something that converts to it. |
You can feed the index any kind of object that has methods specified in your schema, but plain hashes also work:
rio_bravo = OpenStruct.new(
imdb_id: "tt0053221",
type: '/western/US',
title: "Rio Bravo",
description: "A small-town sheriff enlists a drunk, a kid and an old man to help him fight off a ruthless cattle baron.",
duration: 141,
rating: 8.0,
release_date: Date.parse("March 18, 1959")
)
index << rio_bravo
hanabi = {
imdb_id: "tt0119250",
type: "/crime/Japan",
title: "Hana-bi",
description: "Nishi leaves the police in the face of harrowing personal and professional difficulties. Spiraling into depression, he makes questionable decisions.",
duration: 103,
rating: 7.7,
release_date: Date.parse("December 1, 1998")
}
index << hanabi
brother = {
imdb_id: "tt0118767",
type: "/crime/Russia",
title: "Brother",
description: "An ex-soldier with a personal honor code enters the family crime business in St. Petersburg, Russia.",
duration: 99,
rating: 7.9,
release_date: Date.parse("December 12, 1997")
}
index << brother
In order to update the document just add it again (as long as the id is the same):
rio_bravo.rating = 10.0
index << rio_bravo
You can also delete it if you want:
index.delete(rio_bravo.imdb_id)
If you need to perform multiple writing operations (i.e. more than one) you should always use transaction
:
index.transaction do
index << rio_bravo
index << hanabi
index << brother
end
Transactions group changes and commit them to the index in one go. This is dramatically more efficient than performing these changes one by one. In fact, all writing operations (i.e. <<
and delete
) are wrapped in a transaction implicitly when you call them outside of a transaction, so calling <<
10 times outside of a transaction is the same thing as performing 10 separate transactions.
Tantiny is thread-safe meaning that you can safely share a single instance of the index between threads. You can also spawn separate processes that could write to and read from the same index. However, while reading from the index should be parallel, writing to it is not. Whenever you call transaction
or any other operation that modify the index (i.e. <<
and delete
) it will lock the index for the duration of the operation or wait for another process or thread to release the lock. The only exception to this is when there is another process with an index with an exclusive writer running somewhere in which case the methods that modify the index will fail immediately.
Thus, it's best to have a single writer process and many reader processes if you want to avoid blocking calls. The proper way to do this is to set exclusive_writer
to true
when initializing the index:
index = Tantiny::Index.new("/path/to/index", exclusive_writer: true) {}
This way the index writer will only be acquired once which means the memory for it and indexing threads will only be allocated once as well. Otherwise a new index writer is acquired every time you perform a writing operation.
Make sure that your index is up-to-date by reloading it first:
index.reload
And search it (finally!):
index.search("a drunk, a kid, and an old man")
By default it will return ids of 10 best matching documents, but you can customize it:
index.search("a drunk, a kid, and an old man", limit: 100)
You may wonder, how exactly does it conduct the search? Well, the default behavior is to use smart_query
search (see below for details) over all text
fields defined in your schema. So, you can pass the parameters that the smart_query
accepts right here:
index.search("a dlunk, a kib, and an olt mab", fuzzy_distance: 1)
However, you can customize it by composing your own query out of basic building blocks:
popular_movies = index.range_query(:rating, 8.0..10.0)
about_sheriffs = index.term_query(:description, "sheriff")
crime_movies = index.facet_query(:cetegory, "/crime")
long_ass_movies = index.range_query(:duration, 180..9999)
something_flashy = index.smart_query(:description, "bourgeoisie")
index.search((popular_movies & about_sheriffs) | (crime_movies & !long_ass_movies) | something_flashy)
I know, weird taste! But pretty cool, huh? Take a look at all the available queries below.
Query | Behavior |
---|---|
all_query | Returns all indexed documents. |
empty_query | Returns exactly nothing (used internally). |
term_query | Documents that contain the specified term. |
fuzzy_term_query | Documents that contain the specified term within a Levenshtein distance. |
phrase_query | Documents that contain the specified sequence of terms. |
regex_query | Documents that contain a term that matches the specified regex. |
prefix_query | Documents that contain a term with the specified prefix. |
range_query | Documents that with an integer , double or date field within the specified range. |
facet_query | Documents that belong to the specified category. |
smart_query | A combination of term_query , fuzzy_term_query and prefix_query . |
Take a look at the signatures file to see what parameters do queries accept.
All queries can search on multuple fields (except for facet_query
because it doesn't make sense there).
So, the following query:
index.term_query(%i[title description], "hello")
Is equivalent to:
index.term_query(:title, "hello") | index.term_query(:description, "hello")
All queries support the boost
parameter that allows to bump documents position in the search:
about_cowboys = index.term_query(:description, "cowboy", boost: 2.0)
about_samurai = index.term_query(:description, "samurai") # sorry, Musashi...
index.search(about_cowboys | about_samurai)
The smart_query
search will extract terms from your query string using the respective field tokenizers and search the index for documents that contain those terms via the term_query
. If the fuzzy_distance
parameter is specified it will use the fuzzy_term_query
. Also, it allows the last term to be unfinished by using the prefix_query
.
So, the following query:
index.smart_query(%i[en_text ru_text], "dollars рубли eur", fuzzy_distance: 1)
Is equivalent to:
t1_en = index.fuzzy_term_query(:en_text, "dollar")
t2_en = index.fuzzy_term_query(:en_text, "рубли")
t3_en = index.fuzzy_term_query(:en_text, "eur")
t3_prefix_en = index.prefix_query(:en_text, "eur")
t1_ru = index.fuzzy_term_query(:ru_text, "dollars")
t2_ru = index.fuzzy_term_query(:ru_text, "рубл")
t3_ru = index.fuzzy_term_query(:ru_text, "eur")
t3_prefix_ru = index.prefix_query(:ru_text, "eur")
(t1_en & t2_en & (t3_en | t3_prefix_en)) | (t1_ru & t2_ru & (t3_ru | t3_prefix_ru))
Notice how words "dollars" and "рубли" are stemmed differently depending on the field we are searching. This is assuming we have en_text
and ru_text
fields in our schema that use English and Russian stemmer tokenizers respectively.
The regex_query
accepts the regex pattern, but it has to be a Rust regex, not a Ruby Regexp
. So, instead of index.regex_query(:description, /hel[lp]/)
you need to use index.regex_query(:description, "hel[lp]")
. As a side note, the regex_query
is pretty fast because it uses the fst crate internally.
So, we've mentioned tokenizers more than once already. What are they?
Tokenizers is what Tantivy uses to chop your text onto terms to build an inverted index. Then you can search the index by these terms. It's an important concept to understand so that you don't get confused when index.term_query(:description, "Hello")
returns nothing because Hello
isn't a term, but hello
is. You have to extract the terms from the query before searching the index. Currently, only smart_query
does that for you. Also, the only field type that is tokenized is text
, so for string
fields you should use the exact match (i.e. index.term_query(:title, "Hello")
).
By default the simple
tokenizer is used, but you can specify the desired tokenizer globally via index options or locally via field specific options:
en_stemmer = Tantiny::Tokenizer.new(:stemmer)
ru_stemmer = Tantiny::Tokenizer.new(:stemmer, language: :ru)
Tantiny::Index.new "/tmp/index", tokenizer: en_stemmer do
text :description_en
text :description_ru, tokenizer: ru_stemmer
end
Simple tokenizer chops the text on punctuation and whitespaces, removes long tokens, and lowercases the text.
tokenizer = Tantiny::Tokenizer.new(:simple)
tokenizer.terms("Hello World!") # ["hello", "world"]
Stemmer tokenizers is exactly like simple tokenizer, but with additional stemming according to the specified language (defaults to English).
tokenizer = Tantiny::Tokenizer.new(:stemmer, language: :ru)
tokenizer.terms("Привет миру сему!") # ["привет", "мир", "сем"]
Take a look at the source to see what languages are supported.
Ngram tokenizer chops your text onto ngrams of specified size.
tokenizer = Tantiny::Tokenizer.new(:ngram, min: 5, max: 10, prefix_only: true)
tokenizer.terms("Morrowind") # ["Morro", "Morrow", "Morrowi", "Morrowin", "Morrowind"]
You may have noticed that search
method returns only documents ids. This is by design. The documents themselves are not stored in the index. Tantiny is a minimalistic library, so it tries to keep things simple. If you need to retrieve a full document, use a key-value store like Redis alongside.
After checking out the repo, run bin/setup
to install dependencies. Then, run rake build
to build native extensions, and then rake spec
to run the tests. You can also run bin/console
for an interactive prompt that will allow you to experiment.
We use conventional commits to automatically generate the CHANGELOG, bump the semantic version, and to publish and release the gem. All you need to do is stick to the convention and CI will take care of everything else for you.
Bug reports and pull requests are welcome on GitHub at https://github.com/baygeldin/tantiny.
The gem is available as open source under the terms of the MIT License.