Safe Haskell | None |
---|---|
Language | Haskell2010 |
This module defines the Persistent entity syntax used in the quasiquoter to generate persistent entities.
The basic structure of the syntax looks like this:
TableName fieldName FieldType otherField String nullableField Int Maybe
You start an entity definition with the table name, in this case, TableName
. It's followed by a list of fields on the entity, which have the basic form fieldName FieldType
. You can indicate that a field is nullable with Maybe
at the end of the type.
persistent
automatically generates an ID column for you, if you don't specify one, so the above table definition corresponds to the following SQL:
CREATE TABLE table_name ( id SERIAL PRIMARY KEY, field_name field_type NOT NULL, other_field varchar NOT NULL, nullable_field int NULL );
Note that the exact SQL that is generated can be customized using the PersistSettings
that are passed to the parse
function.
It generates a Haskell datatype with the following form:
data TableName = TableName { tableNameFieldName :: FieldType , tableNameOtherField :: String , tableNameNullableField :: Maybe Int }
As with the SQL generated, the specifics of this are customizable. See the Database.Persist.TH module for details.
Deriving
You can add a deriving clause to a table, and the generated Haskell type will have a deriving clause with that. Unlike normal Haskell syntax, you don't need parentheses or commas to separate the classes, and you can even have multiple deriving clauses.
User name String age Int deriving Eq Show deriving Ord
Unique Keys
You can define a uniqueness key on a table with the following format:
User name String age Int UniqueUserName name
This will put a unique index on the user
table and the name
field.
Setting defaults
You can use a default=${sql expression}
clause to set a default for a field.
The thing following the `=` is interpreted as SQL that will be put directly into the table definition.
User name Text admin Bool default=false
This creates a SQL definition like this:
CREATE TABLE user ( id SERIAL PRIMARY KEY, name VARCHAR NOT NULL, admin BOOL DEFAULT=false );
A restriction here is that you still need to provide a value when performing an insert
, because the generated Haskell type has the form:
data User = User { userName :: Text , userAdmin :: Bool }
You can work around this by using a 'Maybe Bool' and supplying Nothing
by default.
Custom ID column
If you don't want to use the default ID column type of Int64
, you can set a custom type with an Id
field.
This User
has a Text
ID.
User Id Text name Text age Int
If you do this, it's a good idea to set a default for the ID.
Otherwise, you will need to use insertKey
instead of insert
when performing inserts.
insertKey
(UserKey "Hello world!") (User Bob 32)
If you attempt to do
, then you will receive a runtime error because the SQL database doesn't know how to make an ID for you anymore.
So instead just use a default expression, like this:insert
(User Bob 32)
User Id Text default=generate_user_id() name Text age Int
Custom Primary Keys
Sometimes you don't want to have an ID column, and you want a different sort of primary key.
This is a table that stores unique email addresses, and the email is the primary key.
We store the first and second part (eg first@second
) separately.
Email firstPart Text secondPart Text Primary firstPart secondPart
This creates a table with the following form:
CREATE TABLE email ( first_part varchar, second_part varchar, PRIMARY KEY (first_part, second_part)
Since the primary key for this table is part of the record, it's called a "natural key" in the SQL lingo. As a key with multiple fields, it is also a "composite key."
You can specify a Primary
key with a single field, too.
Overriding SQL
You can use a sql=custom
annotation to provide some customization on the entity and field.
For example, you might prefer to name a table differently than what persistent
will do by default.
You may also prefer to name a field differently.
User sql=big_user_table fullName String sql=name age Int
This will alter the generated SQL to be:
CREATE TABEL big_user_table ( id SERIAL PRIMARY KEY, name VARCHAR, age INT );
Attributes
The QuasiQuoter allows you to provide arbitrary attributes to an entity or field. This can be used to extend the code in ways that the library hasn't anticipated. If you use this feature, we'd definitely appreciate hearing about it and potentially supporting your use case directly!
User !funny field String !sad good Dog !sogood
We can see the attributes using the entityAttrs
field and the fieldAttrs
field.
userAttrs = do let userDefinition =entityDef
(Proxy
::Proxy
User) let userAttributes =entityAttrs
userDefinition let fieldAttributes =map
fieldAttrs
(entityFields
userDefinition) print userAttributes -- ["funny"] print fieldAttributes -- [["sad"],["sogood"]]
Foreign Keys
If you define an entity and want to refer to it in another table, you can use the entity's Id type in a column directly.
Person name Text Dog name Text owner PersonId
This automatically creates a foreign key reference from Dog
to Person
.
The foreign key constraint means that, if you have a PersonId
on the Dog
, the database guarantees that the corresponding Person
exists in the database.
If you try to delete a Person
out of the database that has a Dog
, you'll receive an exception that a foreign key violation has occurred.
OnUpdate and OnDelete
These options affects how a referring record behaves when the target record is changed. There are several options:
Restrict
- This is the default. It prevents the action from occurring.Cascade
- this copies the change to the child record. If a parent record is deleted, then the child record will be deleted too.SetNull
- If the parent record is modified, then this sets the reference toNULL
. This only works onMaybe
foreign keys.SetDefault
- This will set the column's value to thedefault
for the column, if specified.
To specify the behavior for a reference, write OnUpdate
or OnDelete
followed by the action.
Record
-- If the referred Foo is deleted or updated, then this record will
-- also be deleted or updated.
fooId FooId OnDeleteCascade OnUpdateCascade
-- If the referred Bar is deleted, then we'll set the reference to
-- Nothing
. If the referred Bar is updated, then we'll cascade the
-- update.
barId BarId Maybe OnDeleteSetNull OnUpdateCascade
-- If the referred Baz is deleted, then we set to the default ID.
bazId BazId OnDeleteSetDefault default=1
Let's demonstrate this with a shopping cart example.
User name Text Cart user UserId Maybe CartItem cartId CartId itemId ItemId Item name Text price Int
Let's consider how we want to handle deletions and updates.
If a User
is deleted or update, then we want to cascade the action to the associated Cart
.
Cart user UserId Maybe OnDeleteCascade OnUpdateCascade
If an Item
is deleted, then we want to set the CartItem
to refer to a special "deleted item" in the database.
If a Cart
is deleted, though, then we just want to delete the CartItem
.
CartItem cartId CartId OnDeleteCascade itemId ItemId OnDeleteSetDefault default=1
Foreign
keyword
The above example is a "simple" foreign key. It refers directly to the Id column, and it only works with a non-composite primary key. We can define more complicated foreign keys using the Foreign
keyword.
A pseudo formal syntax for Foreign
is:
Foreign $(TargetEntity) [$(cascade-actions)] $(constraint-name) $(columns) [ $(references) ] columns := column0 [column1 column2 .. columnX] references := References $(target-columns) target-columns := target-column0 [target-column1 target-columns2 .. target-columnX]
Columns are the columns as defined on this entity.
target-columns
are the columns as defined on the target entity.
Let's look at some examples.
Composite Primary Key References
The most common use for this is to refer to a composite primary key.
Since composite primary keys take up more than one column, we can't refer to them with a single persistent
column.
Email firstPart Text secondPart Text Primary firstPart secondPart User name Text emailFirstPart Text emailSecondPart Text Foreign Email fk_user_email emailFirstPart emailSecondPart
If you omit the References
keyword, then it assumes that the foreign key reference is for the target table's primary key.
If we wanted to be fully redundant, we could specify the References
keyword.
Foreign Email fk_user_email emailFirstPart emailSecondPart References firstPart secondPart
We can specify delete/cascade behavior directly after the target table.
Foreign Email OnDeleteCascade OnUpdateCascade fk_user_email emailFirstPart emailSecondPart
Now, if the email is deleted or updated, the user will be deleted or updated to match.
Non-Primary Key References
SQL database backends allow you to create a foreign key to any column(s) with a Unique constraint.
Persistent does not check this, because you might be defining your uniqueness constraints outside of Persistent.
To do this, we must use the References
keyword.
User name Text email Text UniqueEmail email Notification content Text sentTo Text Foreign User fk_noti_user sentTo References email
If the target uniqueness constraint has multiple columns, then you must specify them independently.
User name Text emailFirst Text emailSecond Text UniqueEmail emailFirst emailSecond Notification content Text sentToFirst Text sentToSecond Text Foreign User fk_noti_user sentToFirst sentToSecond References emailFirst emailSecond
Documentation Comments
The quasiquoter supports ordinary comments with --
and #
.
Since persistent-2.10.5.1
, it also supports documentation comments.
The grammar for documentation comments is similar to Haskell's Haddock syntax, with a few restrictions:
- Only the
-- |
form is allowed. - You must put a space before and after the
|
pipe character. - The comment must be indented at the same level as the entity or field it documents.
An example of the field documentation is:
-- | I am a doc comment for a User. Users are important -- | to the application, and should be treasured. User -- | Users have names. Call them by names. name String -- | A user can be old, or young, and we care about -- | this for some reason. age Int
The documentation is present on the entityComments
field on the EntityDef
for the entity:
>>> let userDefinition = entityDef (Proxy :: Proxy User) >>> entityComments userDefinition "I am a doc comment for a User. Users are importantnto the application, and should be treasured.n"
Likewise, the field documentation is present in the fieldComments
field on the FieldDef
present in the EntityDef
:
>>> let userFields = entityFields userDefinition >>> let comments = map fieldComments userFields >>> mapM_ putStrLn comments "Users have names. Call them by names." "A user can be old, or young, and we care aboutnthis for some reason."
Unfortunately, we can't use this to create Haddocks for you, because Template Haskell does not support Haddock yet.
persistent
backends *can* use this to generate SQL COMMENT
s, which are useful for a database perspective, and you can use the @persistent-documentation@ library to render a Markdown document of the entity definitions.
Synopsis
- parse :: PersistSettings -> Text -> [UnboundEntityDef]
- data PersistSettings
- upperCaseSettings :: PersistSettings
- lowerCaseSettings :: PersistSettings
- nullable :: [FieldAttr] -> IsNullable
- getPsToDBName :: PersistSettings -> Text -> Text
- setPsToDBName :: (Text -> Text) -> PersistSettings -> PersistSettings
- setPsToFKName :: (EntityNameHS -> ConstraintNameHS -> Text) -> PersistSettings -> PersistSettings
- setPsUseSnakeCaseForiegnKeys :: PersistSettings -> PersistSettings
- getPsStrictFields :: PersistSettings -> Bool
- setPsStrictFields :: Bool -> PersistSettings -> PersistSettings
- getPsIdName :: PersistSettings -> Text
- setPsIdName :: Text -> PersistSettings -> PersistSettings
Documentation
parse :: PersistSettings -> Text -> [UnboundEntityDef] Source #
Parses a quasi-quoted syntax into a list of entity definitions.
PersistSettings
data PersistSettings Source #
nullable :: [FieldAttr] -> IsNullable Source #
Getters and Setters
getPsToDBName :: PersistSettings -> Text -> Text Source #
Retrieve the function in the PersistSettings
that modifies the names into
database names.
Since: 2.13.0.0
setPsToDBName :: (Text -> Text) -> PersistSettings -> PersistSettings Source #
Set the name modification function that translates the QuasiQuoted names for use in the database.
Since: 2.13.0.0
setPsToFKName :: (EntityNameHS -> ConstraintNameHS -> Text) -> PersistSettings -> PersistSettings Source #
Set a custom function used to create the constraint name for a foreign key.
Since: 2.13.0.0
setPsUseSnakeCaseForiegnKeys :: PersistSettings -> PersistSettings Source #
A preset configuration function that puts an underscore between the entity name and the constraint name when creating a foreign key constraint name
Since: 2.13.0.0
getPsStrictFields :: PersistSettings -> Bool Source #
Retrieve whether or not the PersistSettings
will generate code with
strict fields.
Since: 2.13.0.0
setPsStrictFields :: Bool -> PersistSettings -> PersistSettings Source #
Set whether or not the PersistSettings
will make fields strict.
Since: 2.13.0.0
getPsIdName :: PersistSettings -> Text Source #
Retrievce the default name of the id
column.
Since: 2.13.0.0
setPsIdName :: Text -> PersistSettings -> PersistSettings Source #
Set the default name of the id
column.
Since: 2.13.0.0