EdgeDB is a graph-relational database that aims to solve design problems posed by relational models such as object–relational impedance. Tables are defined as object types with links representing dependencies between tables.
It is paired with its own query language EdgeQL, that provides composable queries (that are compiled into optimized SQL) and a simplified interface for database development. EdgeDB is powered by PostgreSQL in the backend and thus inherits its ACID compliance, reliability, and performance.
Yury Selivanov and Elvis Pranskevichus founded MagicStack, the parent company of EdgeDB, in 2008 as a boutique software development shop. Initially, the founders worked as consultants and developed a data layer Caos, that functioned as a "super" ORM. It featured an object oriented SDL and its own query language, CaosQL, that supported deep fetching and query composition.
From 2014-2018, MagicStack developed features to support fast Python async I/O such as
async/await and uvloop. These were necessary to convert Caos into a full fledged database server. In mid-2016, they built asyncpg to support Postgres drivers in Python. With all the building blocks ready, they released their first preview at PyCon 2018. As of 2023, the latest version is EdgeDB 3.0.
EdgeDB does not support checkpointing.
EdgeDB describes itself as a "graph-relational" database that inherits many characteristics from a relational DBMS. Data is represented as strongly-typed objects which are the equivalent of tuples in a relational DBMS. Each object has an associated immutable id, so it doesn't require an extra column for uniqueness. Objects contain properties, which is the same as attributes in a RDBMS. They are connected to one another via links, thus creating a graph of dependencies between objects. All values in EdgeDB are stored as strongly-typed sets with cardinality constraints and an associated type. This removes any distinction between scalar-valued and table-valued expressions (unlike SQL). As the underlying backend is PostgreSQL, all object type and links are converted to tables for storage.
EdgeDB uses directional links to connect objects together, making them first-class members. These are can have the cardinality "single" (to-one) or "multi" (to-many) . Additionally, links can be "required" or "optional" and "exclusive" (no other link can refer to the same object). Thus, using the cardinality and exclusive constraints, all the relation types: one-to-one (single + exclusive), one-to-many (multi + exclusive) , many-to-one (single only), many-to-many (multi only) can be modeled. A user can also specify a backlink which allows them to access the relationship in reverse. Links can also have properties, which can be used to store metadata about the relationship.
In the backend, single links are represented as a column in the object type whereas multi links are stored in a separate association table, making single links marginally faster. Users can also setup deletion policies or triggers to delete a link if the source or target is deleted. Polymorphic links can allowing for abstract targets (OOPs style) while abstract links allow the source to be abstract as well.
EdgeDB supports indexes on single and multiple properties (columns/attributes) as well as arbitrary singleton expressions. Primary keys, links and properties declared with exclusive constraint are automatically indexed. Link properties can also be indexed.
Indexes are specified via
index on() in EdgeQL which is then compiled into
CREATE INDEX on PostgreSQL. EdgeDB supports hash, Btree, GIN, GiST, SP-GiST and BRIN indexes.
EdgeDB only supports serializable isolation. As of 2023, there is no plan to support other isolation levels.
EdgeDB does not have the concept of joins since it uses first class members called links to model connections between objects (see section on foreign keys). As such, different joins can represented as a path traversal across links (along with other graph based operations). Additionally, filters can use predicates on nested linked objects.
EdgeDB supports parallel execution for sequential scans, joins and aggregations through PostgesSQL's query execution engine.
EdgeDB uses PostgreSQL as its backend and storage layer and so has the same disk-oriented storage architecture as PostgresSQL.
EdgeDB uses PostgreSQL as its backend and storage layer and so has the same n-ary storage model as PostgresSQL.
EdgeDB uses PostgreSQL as its backend and storage layer and so has the same storage organization as PostgresSQL.
Stored procedures are represented using query aliases. As with object type aliases, these are computed on the fly.
EdgeDB uses PostgreSQL as its backend and storage layer and so has the same system architecture as PostgresSQL.
Views are referred to as aliases in EdgeDB. An alias is a pointer to a set of values and is computed on the fly whenever the alias is called (hence the support for virtual views).
Aliases are standalone expressions and are thus not limited to object types (tables), but can also be defined for scalars and queries. Object type aliases can also contain shapes that can define additional computed properties or links (e.g. trimmed strings).