Skip to content

An Haskell ORM (Object Relational Mapping) and migrations DSL for PostgreSQL.

License

Notifications You must be signed in to change notification settings

memcachier/postgresql-orm

 
 

Repository files navigation

Hackage version Build Status Join the chat at https://gitter.im/alevy/postgresql-orm

PostgreSQL-ORM is an Object Relational Mapper (ORM) that compliments Simple. It knows how to map high-level operations to PostgreSQL flavored SQL for Haskell types that are instances of the Model type-class, as well as perform join operations on associations between Model instances.

Declaration

Creating a Model in Haskell is easy. We simply declare a datatype using record syntax, include a field of type DBKey to hold the primary key and let Haskell Generics do the rest:

{-# LANGUAGE DeriveGeneric #-}

...

data Post = Post {
    postId :: DBKey
  , postTitle :: Text
  , postBody :: Text
  } deriving (Generic)

instance Model Post

Voila! Post is now an instance of Model that maps to a SQL table named "post". We can use post to talk to a database containing a table declaration like that matches:

CREATE TABLE "post" {
  postId serial primary key,
  postTitle text NOT NULL,
  postBody text NOT NULL
}
`DBKey` is the only special in our model. It represents the primary key of a table. A `DBKey` is either an 64-bit integer or `NullKey`. Since PostgreSQL will generate the primary id for us, we'll use `NullKey` when creating a new `Post` that has not yet been stored in the database.

Usage

There are several high level functions that operate on Models:

findAll :: Model a => Connection -> IO [a]
findRow :: Model a => Connection -> DBKey -> IO a
save    :: Model a => Connection -> a -> IO a
destroy :: Model a => Connection -> a -> IO ()

Instances of the Model typeclass implement three methods:

class Model a where
  modelInfo  :: ModelInfo a
  modelRead  :: RowParser a
  modelWrite :: a -> [Action]
  • modelInfo contains information about how the Model is stored in the database. This includes the name of the database table, the names of the database columns, the index of the primary key in the list of columns and a function to get the primary key from the Model.

  • modelRead returns a RowParser --- a type from the underlying PostgreSQL library that takes a SQL row and parses it into a Haskell type (a Model in this case). Assuming the order of columns in modelInfo and the Haskell type is the same, modelRead is trivially implemented using the field function: MyConstructor <$> field <*> field ...

  • modelWrite takes the Model as an argument and returns a list of Actions --- another type from the underlying PostgreSQL library which more or less is a wrapper around ByteString. modelWrite must marshal all fields except for the primary id. This allow the primary id to be included separately for update queries and excluded for insert queries (as it will be auto-generated by PostgreSQL).

That is enough information for the library to implement a low-level typed-SQL API as well as high level operations like save, find a row by key and list all rows. It also allows PostgreSQL-ORM to provide typed model associations (join relations). There are subtleties though. As mentioned above, the implementations of modelInfo, modelRead and modelWrite are closely intertwined, and careless implementations will lead to bugs that cannot be dedected at compile time. However, for common cases, where a Model is a record, PostgreSQL-ORM (optionally) uses Haskell Generics to automate the instance definition. In such cases, the a model definition might look like:

data User = User {
    userId :: DBKey
  , userFirstName :: String
  , userLastName :: String
  , userAge :: Integer
  } deriving (Generic)


instance Model User

Such an instance maps the User Haskell data type to a SQL table called "user" with columns "userId", "userFirstName", "userLastName" and "userAge". Note that the Generic implementation of a modelInfo simply uses the contructor in lower case for the table name and the records as-is for the colum names. This makes modelInfo a convenient point of interposition customizing the naming policy. For example, table names can be customized by updating the modelTable field of defaultModelInfo:

instance Model User where
  modelInfo = defaultModelInfo
    { modelTable = "myprefix_user" }

Of course, this task can be standardized with combinators. The library comes with a combinator, underscoreModelInfo which discards a prefix of the column names and converts the remainder from camel-case to underscore notation (a common convention for naming in SQL).

Get involved!

We are happy to receive bug reports, fixes, documentation enhancements, and other improvements.

Please report bugs via the github issue tracker.

Master git repository:

  • git clone git://github.com/alevy/postgresql-orm.git

Licensing

GPL-3 license.

About

An Haskell ORM (Object Relational Mapping) and migrations DSL for PostgreSQL.

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Haskell 100.0%