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Beam: a type-safe, non-TH Haskell relational database library and ORM
If you use beam commercially, please consider a donation to make this project possible: https://liberapay.com/tathougies
Beam is a Haskell interface to relational databases. Beam uses the Haskell type system to verify that queries are type-safe before sending them to the database server. Queries are written in a straightforward, natural monadic syntax. Combinators are provided for all standard SQL92 features, and a significant subset of SQL99, SQL2003, and SQL2008 features. For your convenience a thorough compatibility matrix is maintained here.
Beam is standards compliant but not naive. We recognize that different database backends provide different guarantees, syntaxes, and advantages. To reflect this, beam maintains a modular design. While the core package provides standard functionality, beam is split up into a variety of backends which provide a means to interface Beam's data query and update DSLs with particular RDBMS backends. Backends can be written and maintained independently of this repository. For example, the beam-mysql and beam-firebird backends are packaged independently.
Recognizing that over-abstraction frequently means caving in to the lowest common denominator, Beam does not do connection or transaction management. Rather, the user is free to perform these functions using the appropriate Haskell interface library for their backend of choice. Additionally, beam backends provide a significant portion of backend-specific functionality which seamlessly fits into the beam ecosystem.
For example, the beam-postgres
backend is built off of the postgresql-simple
interface library. When using beam-postgres
, the user manages connections and
transactions with postgresql-simple
. The user is free to issue queries
directly with postgresql-simple
, only using beam when desired. Postgres offers
a number of rich data types on top of the standard SQL data types. To reflect
this, beam-postgres
offers pluggable support for postgres-specific data types
and features.
For more information, see the user guide.
For questions, feel free to join
our mailing list or
head over to #haskell-beam
on freenode.
A word on testing
beam-core
has in-depth unit tests to test query generation over an idealized
ANSI SQL-compliant backend. You may be concerned that there are no tests in
either beam-sqlite
or beam-postgres
. Do not be alarmed. The documentation
contains many, many examples of queries written over the sample Chinook
database, the schema for which can be found at
beam-sqlite/examples/Chinook/Schema.hs
. The included mkdocs
configuration
and custom beam_query
python Markdown extension automatically run every query
in the documentation against a live database connection. Any errors in
serializion/deserialization or invalid syntax are caught while building the
documentation. Feel free to open pull-requests with additional examples/tests.
Tests are written
!beam-query
```haskell
!example <template-name> <requirements>
do x <- all_ (customer chinookDb) -- chinookDb available under chinook and chinookdml examples
pure x
```
The !beam-query
declaration indicates this is markdown code block that
contains beam query code. The !example
declaration indicates that this example
should be built against applicable backends and included in the code. The
template_name
is either chinook
or chinookdml
(depending on whether you
have quest a query or a DML statement). For chinook
, the included code should
produce a Q
query. For chinookdml
, the included code should be a monadic
action in a MonadBeam
. The requirements
can be used to select which backends
to run this against. See the documentation for examples.
Building the documentation
Beam uses mkdocs
for its documentation generation. The included
build-docs.sh
script can take care of building the documentation and serving
it locally. In order to use the tool though, make sure you have a python
installation with the mkdocs
module installed. You can do this by creating a
virtualenv, and pip installing mkdocs
, or by using the supplied shell.nix
script.
The documentation uses a custom Markdown preprocessor to automatically build
examples against the canonical Chinook database. By default, beam will build
examples for every beam backend it knows about, including ones not in the main
source tree (see docs/beam.yaml
for the full configuration). This means you
will need to have an instance of all these database servers running and
available. This is usually not what you want.
To only build examples for a particular backend, modify mkdocs.yaml
and set
the enabled_backends
configuration setting for the docs.markdown.beam_query
preprocessor. For example, to only build docs for beam-sqlite
, change
- docs.markdown.beam_query:
template_dir: 'docs/beam-templates'
cache_dir: 'docs/.beam-query-cache'
conf: 'docs/beam.yaml'
base_dir: '.'
to
- docs.markdown.beam_query:
template_dir: 'docs/beam-templates'
cache_dir: 'docs/.beam-query-cache'
conf: 'docs/beam.yaml'
base_dir: '.'
enabled_backends:
- beam-sqlite