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Full-text, vector, and hybrid search with a unique API.
On your browser, server, mobile app, or at the edge.
In less than 2kb.
If you need more info, help, or want to provide general feedback on Orama, join the Orama Slack channel
- Vector Search
- Hybrid Search
- Search Filters
- Geosearch
- Facets
- Fields Boosting
- Typo Tolerance
- Exact Match
- BM25
- Stemming and tokenization in 30 languages
- Plugin System
You can install Orama using npm
, yarn
, pnpm
, bun
:
npm i @orama/orama
Or import it directly in a browser module:
<html>
<body>
<script type="module">
import { create, search, insert } from 'https://unpkg.com/@orama/orama@latest/dist/index.js'
// ...
</script>
</body>
</html>
With Deno, you can just use the same CDN URL or use npm specifiers:
import { create, search, insert } from 'npm:@orama/orama'
Read the complete documentation at https://docs.oramasearch.com.
Orama is quite simple to use. The first thing to do is to create a new database instance and set an indexing schema:
import { create, insert, remove, search, searchVector } from '@orama/orama'
const db = await create({
schema: {
name: 'string',
description: 'string',
price: 'number',
embedding: 'vector[1536]', // Vector size must be expressed during schema initialization
meta: {
rating: 'number',
},
},
})
Orama currently supports 10 different data types:
Type | Description | example |
---|---|---|
string |
A string of characters. | 'Hello world' |
number |
A numeric value, either float or integer. | 42 |
boolean |
A boolean value. | true |
enum |
An enum value. | 'drama' |
geopoint |
A geopoint value. | { lat: 40.7128, lon: 74.0060 } |
string[] |
An array of strings. | ['red', 'green', 'blue'] |
number[] |
An array of numbers. | [42, 91, 28.5] |
boolean[] |
An array of booleans. | [true, false, false] |
enum[] |
An array of enums. | ['comedy', 'action', 'romance'] |
vector[<size>] |
A vector of numbers to perform vector search on. | [0.403, 0.192, 0.830] |
Orama will only index properties specified in the schema but will allow you to set and store additional data if needed.
Once the db instance is created, you can start adding some documents:
await insert(db, {
name: 'Wireless Headphones',
description: 'Experience immersive sound quality with these noise-cancelling wireless headphones.',
price: 99.99,
embedding: [...],
meta: {
rating: 4.5,
},
})
await insert(db, {
name: 'Smart LED Bulb',
description: 'Control the lighting in your home with this energy-efficient smart LED bulb, compatible with most smart home systems.',
price: 24.99,
embedding: [...],
meta: {
rating: 4.3,
},
})
await insert(db, {
name: 'Portable Charger',
description: 'Never run out of power on-the-go with this compact and fast-charging portable charger for your devices.',
price: 29.99,
embedding: [...],
meta: {
rating: 3.6,
},
})
After the data has been inserted, you can finally start to query the database.
const searchResult = await search(db, {
term: 'headphones',
})
In the case above, you will be searching for all the documents containing the
word "headphones"
, looking up in every string
property specified in the schema:
{
elapsed: {
raw: 99512,
formatted: '99ΞΌs',
},
hits: [
{
id: '41013877-56',
score: 0.925085832971998432,
document: {
name: 'Wireless Headphones',
description: 'Experience immersive sound quality with these noise-cancelling wireless headphones.',
price: 99.99,
meta: {
rating: 4.5
}
}
}
],
count: 1
}
You can also restrict the lookup to a specific property:
const searchResult = await search(db, {
term: 'immersive sound quality',
properties: ['description'],
})
Result:
{
elapsed: {
raw: 21492,
formatted: '21ΞΌs',
},
hits: [
{
id: '41013877-56',
score: 0.925085832971998432,
document: {
name: 'Wireless Headphones',
description: 'Experience immersive sound quality with these noise-cancelling wireless headphones.',
price: 99.99,
meta: {
rating: 4.5
}
}
}
],
count: 1
}
You can use non-string data to filter, group, and create facets:
const searchResult = await search(db, {
term: 'immersive sound quality',
where: {
price: {
lte: 199.99
},
rating: {
gt: 4
}
},
})
Orama is a full-text and vector search engine. This allows you to adopt different kinds of search paradigms depending on your specific use case.
To perform vector or hybrid search, you can use the same search
method used for full-text search.
You'll just have to specify which property you want to perform vector search on, and a vector to be used to perform vector similarity:
const searchResult = await searchVector(db, {
mode: 'vector', // or 'hybrid'
vector: {
value: [...], // OpenAI embedding or similar vector to be used as an input
property: 'embedding' // Property to search through. Mandatory for vector search
}
})
If you're using the Orama Secure AI Proxy (highly recommended), you can skip the vector configuration at search time, since the official Orama Secure AI Proxy plugin will take care of it automatically for you:
import { create } from '@orama/orama'
import { pluginSecureProxy } from '@orama/plugin-secure-proxy'
const secureProxy = secureProxyPlugin({
apiKey: '<YOUR-PUBLIC-API-KEY>',
defaultProperty: 'embedding', // the default property to perform vector and hybrid search on
model: 'openai/text-embedding-ada-002' // the model to use to generate embeddings
})
const db = await create({
schema: {
name: 'string',
description: 'string',
price: 'number',
embedding: 'vector[1536]',
meta: {
rating: 'number',
},
},
plugins: [secureProxy]
})
const resultsHybrid = await search(db, {
mode: 'vector', // or 'hybrid'
term: 'Videogame for little kids with a passion about ice cream',
where: {
price: {
lte: 19.99
},
'meta.rating': {
gte: 4.5
}
}
})
Orama supports Geosearch as a search filter. It will search through all the properties specified as geopoint
in the schema:
import { create, insert } from '@orama/orama'
const db = await create({
schema: {
name: 'string',
location: 'geopoint'
}
})
await insert(db, { name: 'Duomo di Milano', location: { lat: 45.46409, lon: 9.19192 } })
await insert(db, { name: 'Piazza Duomo', location: { lat: 45.46416, lon: 9.18945 } })
await insert(db, { name: 'Piazzetta Reale', location: { lat: 45.46339, lon: 9.19092 } })
const searchResult = await search(db, {
term: 'Duomo',
where: {
location: { // The property we want to filter by
radius: { // The filter we want to apply (in that case: "radius")
coordinates: { // The central coordinate
lat: 45.4648,
lon: 9.18998
},
unit: 'm', // The unit of measurement. The default is "m" (meters)
value: 1000, // The radius length. In that case, 1km
inside: true // Whether we want to return the documents inside or outside the radius. The default is "true"
}
}
}
})
Orama Geosearch APIs support distance-based search (via radius
), or polygon-based search (via polygon
).
By default, Orama will use the Haversine formula to perform Geosearch, but high-precision search can be enabled by passing the highPrecision
option in your radius
or polygon
configuration. This will tell Orama to use the Vicenty Formulae instead, which is more precise for longer distances.
Read more in the official docs.
Read the complete documentation at https://docs.oramasearch.com.
- Plugin Vitepress
- Plugin Docusaurus
- Plugin Telemetry
- Plugin Astro
- Plugin Data Persistence
- Plugin Nextra
Write your own plugin: https://docs.oramasearch.com/open-source/plugins/writing-your-own-plugins
Orama is licensed under the Apache 2.0 license.