26 unstable releases (8 breaking)

new 0.9.1	Nov 4, 2024
0.8.2	Sep 5, 2024
0.7.2	Jul 14, 2024
0.6.8	Mar 16, 2024
0.3.0	Jul 23, 2023

#95 in Database interfaces

73 downloads per month
Used in 2 crates

Apache-2.0

705KB
17K SLoC

agdb

The graph database.

python java cpp csharp

Agnesoft Graph Database

Quickstart Db | Quickstart Client | QUERIES | DECISION TREE

Why not SQL?

The Agnesoft Graph Database (aka agdb) is persistent, optionally memory mapped graph database with native object 'no-text' queries. It can be used as a main persistent storage, data analytics platform as well as fast in-memory cache. Its typed schema-less data store allows for flexible and seamless data updates with no downtime or costly migrations. All queries are constructed via a builder pattern or directly as objects with no special language or text parsing.

Key Features
At a glance
Crate Features
Decision Tree
Roadmap
Reference

Key Features

Data plotted on a graph
Typed key-value properties attached to graph elements (nodes & edges)
Persistent platform agnostic file based storage (transferable between platforms)
ACID compliant
Object queries with builder pattern (no text, no query language)
Memory mapped for fast querying
Server mode
OpenAPI clients in any programming language
Cloud hosted SaaS database
Db itself has no dependencies

At a glance [Db]

cargo add agdb

Basic usage demonstrating creating a database, inserting graph elements with data and querying them back with select and search. The function using this code must handle agdb::DbError and agdb::QueryError error types for operator ? to work:

use agdb::{Db, DbId, QueryBuilder, UserValue, DbUserValue, Comparison::Equal};

let mut db = Db::new("db_file.agdb")?;

db.exec_mut(QueryBuilder::insert().nodes().aliases("users").query())?;

#[derive(Debug, UserValue)]
struct User { db_id: Option<DbId>, name: String, }
let users = vec![User { db_id: None, name: "Alice".to_string(), },
                 User { db_id: None, name: "Bob".to_string(), },
                 User { db_id: None, name: "John".to_string(), }];

let users_ids = db.exec_mut(QueryBuilder::insert().nodes().values(&users).query())?;

db.exec_mut(
    QueryBuilder::insert()
        .edges()
        .from("users")
        .to(&users_ids)
        .query(),
)?;

This code creates a database called user_db.agdb with a simple graph of 4 nodes. The first node is aliased users and 3 user nodes for Alice, Bob and John are then connected with edges to the users node. The arbitrary name property is attached to the user nodes. Rather than inserting values directly with keys (which is also possible) we use our own type and derive from agdb::UserValue to allow it to be used with the database.

You can select the graph elements (both nodes & edges) with their ids to get them back with their associated data (key-value properties). Lets select our users and convert the result into the list (notice we select only values relevant to our User type with passing User::db_keys()):

let users: Vec<User> = db
    .exec(
        QueryBuilder::select()
            .values(User::db_keys())
            .ids(&users_ids)
            .query(),
    )?
    .try_into()?;

println!("{:?}", users);
// [User { db_id: Some(DbId(2)), username: "Alice" },
//  User { db_id: Some(DbId(3)), username: "Bob" },
//  User { db_id: Some(DbId(4)), username: "John" }]

You can also search through the graph to get back only certain elements based on conditions. For example:

let user: User = db
    .exec(
        QueryBuilder::select()
            .elements::<User>()
            .search()
            .from("users")
            .where_()
            .key("name")
            .value(Equal("Bob".into()))
            .query(),
    )?
    .try_into()?;

println!("{:?}", user);
// User { db_id: Some(DbId(3)), username: "Bob" }

For database concepts and primitive data types see concepts. For comprehensive overview of all queries see the queries reference or continue with more in-depth efficient agdb.

Crate Features

agdb

Feature	Default	Description
derive	yes	Enables derive macro to enable custom user types to be directly used with the database.
opeanapi	no	Enables `ToSchema` macro on query structs so they can be exported to json OpeanAPI/Swagger schema.
serde	no	Enables serialiation/deserialization of queries and QueryResult using `serde`.

agdb_api

Feature	Default	Description
reqwest	no	Enables referential implementation of the `HttpClient` trait for agdb API client using `reqwest`.

Decision Tree

flowchart TD;
    A[Embedded or server?] --> Embedded
    A --> B[Client or hosting?]
    Embedded --> Studio[<a href='https://agdb.agnesoft.com/docs/references/studio'>Studio</a>]
    Embedded --> Queries[<a href='https://agdb.agnesoft.com/docs/references/queries'>Queries</a>]
    B --> Client
    B --> Hosting
    Client --> API[<a href='https://agdb.agnesoft.com/api-docs/openapi'>API</a>]
    Client --> Studio
    Client --> Queries
    Hosting --> Server[<a href='https://agdb.agnesoft.com/docs/references/server'>Server</a>]
    Hosting --> Cloud[<a href='https://agdb.agnesoft.com/enterprise/cloud'>Cloud</a>]

Roadmap

The following are planned features:

Feature	Description
Agdb Studio	Graphical interface to `agdb`
Python Client	Convenience client using bindings genereated from OpenAPI.
Java Client	Convenience client using bindings genereated from OpenAPI.
C# Client	Convenience client using bindings genereated from OpenAPI.
C Client	Convenience client using bindings genereated from OpenAPI.
C++ Client	Convenience client using bindings genereated from OpenAPI.
Data replication & consensus protocol	Allow replication by connecting several database nodes together with a RAFT protocol.
Agdb Playground	Free public cloud-based playground to tinker with `agdb`.
#[no_std]	The `agdb` does not require any dependencies and thus should be (in theory) `no_std` friendly but it will likely require some development & testing.
Public Cloud Offering	Commercial & supported `agdb` instance hosted in a public cloud.

Reference

Dependencies

~0–550KB
~10K SLoC