persistent-1.2.3.0: Type-safe, multi-backend data serialization.

Safe HaskellNone

Database.Persist.Types

Synopsis

Documentation

data Checkmark Source

A Checkmark should be used as a field type whenever a uniqueness constraint should guarantee that a certain kind of record may appear at most once, but other kinds of records may appear any number of times.

NOTE: You need to mark any Checkmark fields as nullable (see the following example).

For example, suppose there's a Location entity that represents where a user has lived:

 Location
     user    UserId
     name    Text
     current Checkmark nullable

UniqueLocation user current

The UniqueLocation constraint allows any number of Inactive Locations to be current. However, there may be at most one current Location per user (i.e., either zero or one per user).

This data type works because of the way that SQL treats NULLable fields within uniqueness constraints. The SQL standard says that NULL values should be considered different, so we represent Inactive as SQL NULL, thus allowing any number of Inactive records. On the other hand, we represent Active as TRUE, so the uniqueness constraint will disallow more than one Active record.

Note: There may be DBMSs that do not respect the SQL standard's treatment of NULL values on uniqueness constraints, please check if this data type works before relying on it.

The SQL BOOLEAN type is used because it's the smallest data type available. Note that we never use FALSE, just TRUE and NULL. Provides the same behavior Maybe () would if () was a valid PersistField.

Constructors

Active

When used on a uniqueness constraint, there may be at most one Active record.

Inactive

When used on a uniqueness constraint, there may be any number of Inactive records.

data WhyNullable Source

The reason why a field is nullable is very important. A field that is nullable because of a Maybe tag will have its type changed from A to Maybe A. OTOH, a field that is nullable because of a nullable tag will remain with the same type.

data EntityDef sqlType Source

Instances

Functor EntityDef 
Eq sqlType => Eq (EntityDef sqlType) 
Ord sqlType => Ord (EntityDef sqlType) 
Read sqlType => Read (EntityDef sqlType) 
Show sqlType => Show (EntityDef sqlType) 

newtype DBName Source

Constructors

DBName 

Fields

unDBName :: Text
 

data FieldDef sqlType Source

Constructors

FieldDef 

Fields

fieldHaskell :: !HaskellName

name of the field

fieldDB :: !DBName
 
fieldType :: !FieldType
 
fieldSqlType :: !sqlType
 
fieldAttrs :: ![Attr]

user annotations for a field

fieldStrict :: !Bool

a strict field in the data type. Default: true

fieldEmbedded :: Maybe (EntityDef ())

indicates that the field uses an embedded entity

Instances

Functor FieldDef 
Eq sqlType => Eq (FieldDef sqlType) 
Ord sqlType => Ord (FieldDef sqlType) 
Read sqlType => Read (FieldDef sqlType) 
Show sqlType => Show (FieldDef sqlType) 

newtype ZT Source

Avoid orphan instances.

Constructors

ZT ZonedTime 

Instances

data SqlType Source

A SQL data type. Naming attempts to reflect the underlying Haskell datatypes, eg SqlString instead of SqlVarchar. Different SQL databases may have different translations for these types.

newtype KeyBackend backend entity Source

Constructors

Key 

Fields

unKey :: PersistValue
 

Instances

Eq (KeyBackend backend entity) 
Ord (KeyBackend backend entity) 
Read (KeyBackend backend entity) 
Show (KeyBackend backend entity) 
ToJSON (KeyBackend backend entity) 
FromJSON (KeyBackend backend entity) 
PathPiece (KeyBackend SqlBackend entity) 
PersistField (KeyBackend backend entity) 

type family KeyEntity key Source

data Update v Source

Constructors

forall typ . PersistField typ => Update 

data SelectOpt v Source

Constructors

forall typ . Asc (EntityField v typ) 
forall typ . Desc (EntityField v typ) 
OffsetBy Int 
LimitTo Int 

data Filter v Source

Filters which are available for select, updateWhere and deleteWhere. Each filter constructor specifies the field being filtered on, the type of comparison applied (equals, not equals, etc) and the argument for the comparison.

Constructors

forall typ . PersistField typ => Filter 
FilterAnd [Filter v]

convenient for internal use, not needed for the API

FilterOr [Filter v] 
BackendFilter (BackendSpecificFilter (PersistEntityBackend v) v) 

type Key val = KeyBackend (PersistEntityBackend val) valSource

Helper wrapper, equivalent to Key (PersistEntityBackend val) val.

Since 1.1.0

data Entity entity Source

Datatype that represents an entity, with both its Key and its Haskell representation.

When using a SQL-based backend (such as SQLite or PostgreSQL), an Entity may take any number of columns depending on how many fields it has. In order to reconstruct your entity on the Haskell side, persistent needs all of your entity columns and in the right order. Note that you don't need to worry about this when using persistent's API since everything is handled correctly behind the scenes.

However, if you want to issue a raw SQL command that returns an Entity, then you have to be careful with the column order. While you could use SELECT Entity.* WHERE ... and that would work most of the time, there are times when the order of the columns on your database is different from the order that persistent expects (for example, if you add a new field in the middle of you entity definition and then use the migration code -- persistent will expect the column to be in the middle, but your DBMS will put it as the last column). So, instead of using a query like the one above, you may use rawSql (from the Database.Persist.GenericSql module) with its /entity selection placeholder/ (a double question mark ??). Using rawSql the query above must be written as SELECT ?? WHERE ... Then rawSql will replace ?? with the list of all columns that we need from your entity in the right order. If your query returns two entities (i.e. (Entity backend a, Entity backend b)), then you must you use SELECT ??, ?? WHERE ..., and so on.

Constructors

Entity 

Fields

entityKey :: Key entity
 
entityVal :: entity
 

Instances

Eq entity => Eq (Entity entity) 
Ord entity => Ord (Entity entity) 
Read entity => Read (Entity entity) 
Show entity => Show (Entity entity) 
ToJSON e => ToJSON (Entity e) 
FromJSON e => FromJSON (Entity e) 
PersistField entity => PersistField (Entity entity) 
PersistField entity => PersistFieldSql (Entity entity) 
PersistEntity a => RawSql (Entity a)