Collections

Collections allow you to store documents and you can use them to group records of similar kinds together

A collection can contain a set of documents, similar to how a folder contains files. You can store documents with varying data structures in a single collection, but a collection is typically used to only store one type of entities. For example, you can use one collection for products, another for customers, and yet another for orders.

Collection types

  • The regular type of collection is a document collection. If you use document collections for a graph, then they are referred to as vertex collections.

  • To store connections between the vertices of a graph, you need to use edge collections. The documents they contain have a _from and a _to attribute to reference documents by their ID.

  • Collection that are used internally by ArangoDB are prefixed with an underscore (like _users) and are called system collections. They can be document collections as well as edge collections.

You need to specify whether you want a document collection or an edge collection when you create the collection. The type cannot be changed later.

Collection names

You can give each collection a name to identify and access it. The name needs to be unique within a database, but not globally for the entire ArangoDB instance.

The namespace for collections is shared with Views. There cannot exist a collection and a View with the same name in the same database.

The collection name needs to be a string that adheres to the following constraints:

  • The names must only consist of the letters A to Z (both in lower and upper case), the digits 0 to 9, and underscore (_) and dash (-) characters. This also means that any non-ASCII names are not allowed.

  • Names of user-defined collections must always start with a letter. System collection names must start with an underscore. You should not use system collection names for your own collections.

  • The maximum allowed length of a name is 256 bytes.

  • Collection names are case-sensitive.

You can rename collections (except in cluster deployments). This changes the collection name, but not the collection identifier.

Collection identifiers

A collection identifier lets you refer to a collection in a database, similar to the name. It is a string value and is unique within a database. Unlike collection names, ArangoDB assigns collection IDs automatically and you have no control over them.

ArangoDB internally uses collection IDs to look up collections. However, you should use the collection name to access a collection instead of its identifier.

ArangoDB uses 64-bit unsigned integer values to maintain collection IDs internally. When returning collection IDs to clients, ArangoDB returns them as strings to ensure the identifiers are not clipped or rounded by clients that do not support big integers. Clients should treat the collection IDs returned by ArangoDB as opaque strings when they store or use them locally.

Key generators

ArangoDB allows using key generators for each collection. Key generators have the purpose of auto-generating values for the _key attribute of a document if none was specified by the user. By default, ArangoDB uses the traditional key generator. The traditional key generator auto-generates key values that are strings with ever-increasing numbers. The increment values it uses are non-deterministic.

Contrary, the auto-increment key generator auto-generates deterministic key values. Both the start value and the increment value can be defined when the collection is created. The default start value is 0 and the default increment is 1, meaning the key values it creates by default are:

1, 2, 3, 4, 5, …

When creating a collection with the auto-increment key generator and an increment of 5, the generated keys would be:

1, 6, 11, 16, 21, …

The auto-increment values are increased and handed out on each document insert attempt. Even if an insert fails, the auto-increment value is never rolled back. That means there may exist gaps in the sequence of assigned auto-increment values if inserts fails.

Collections API

The following descriptions cover the JavaScript interface for collections that you can use to handle collections from the arangosh command-line tool, as well as in server-side JavaScript code like Foxx microservices. For other languages see the corresponding language API.

Create a collection

db._create(collection-name)

This call creates a new collection called collection-name. See the db object for details.

Get a collection

db._collection(collection-name)

Returns the specified collection.

For example, assume that the collection identifier is 7254820 and the name is demo, then the collection can be accessed as follows:

db._collection("demo")

If no collection with such a name exists, then null is returned.


There is a short-cut that you can use:

db.collection-name
// or
db["collection-name"]

This property access returns the collection named collection-name.

Synchronous replication of collections

Distributed ArangoDB setups offer synchronous replication, which means that there is the option to replicate all data automatically within an ArangoDB cluster. This is configured for sharded collections on a per-collection basis by specifying a replication factor. A replication factor of k means that altogether k copies of each shard are kept in the cluster on k different servers, and are kept in sync. That is, every write operation is automatically replicated on all copies.

This is organized using a leader/follower model. At all times, one of the servers holding replicas for a shard is “the leader” and all others are “followers”, this configuration is held in the Agency (see Cluster for details of the ArangoDB cluster architecture). Every write operation is sent to the leader by one of the Coordinators, and then replicated to all followers before the operation is reported to have succeeded. The leader keeps a record of which followers are currently in sync. In case of network problems or a failure of a follower, a leader can and will drop a follower temporarily after 3 seconds, such that service can resume. In due course, the follower will automatically resynchronize with the leader to restore resilience.

If a leader fails, the cluster Agency automatically initiates a failover routine after around 15 seconds, promoting one of the followers to leader. The other followers (and the former leader, when it comes back), automatically resynchronize with the new leader to restore resilience. Usually, this whole failover procedure can be handled transparently for the Coordinator, such that the user code does not even see an error message.

This fault tolerance comes at a cost of increased latency. Each write operation needs an additional network roundtrip for the synchronous replication of the followers (but all replication operations to all followers happen concurrently). Therefore, the default replication factor is 1, which means no replication.

For details on how to switch on synchronous replication for a collection, see the db object.