{-# LANGUAGE ExistentialQuantification #-} -- | Welcome to @persistent@! -- -- This library intends to provide an easy, flexible, and convenient interface -- to various data storage backends. Backends include SQL databases, like -- @mysql@, @postgresql@, and @sqlite@, as well as NoSQL databases, like -- @mongodb@ and @redis@. -- -- If you intend on using a SQL database, then check out "Database.Persist.Sql". module Database.Persist ( -- * Defining Database Models -- -- | @persistent@ lets you define your database models using a special syntax. -- This syntax allows you to customize the resulting Haskell datatypes and -- database schema. See "Database.Persist.Quasi" for details on that definition -- language. -- ** Reference Schema & Dataset -- -- | For a quick example of the syntax, we'll introduce this database schema, and -- we'll use it to explain the update and filter combinators. -- -- @ -- 'share' ['mkPersist' 'sqlSettings', 'mkMigrate' "migrateAll"] ['persistLowerCase'| -- User -- name String -- age Int -- deriving Show -- |] -- @ -- -- This creates a Haskell datatype that looks like this: -- -- @ -- data User = User -- { userName :: String -- , userAge :: Int -- } -- deriving Show -- @ -- -- In a SQL database, we'd get a migration like this: -- -- @ -- CREATE TABLE "user" ( -- id SERIAL PRIMARY KEY, -- name TEXT NOT NULL, -- age INT NOT NULL -- ); -- @ -- -- The examples below will refer to this as dataset-1. -- -- #dataset# -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |1 |SPJ |40 | -- > +-----+-----+-----+ -- > |2 |Simon|41 | -- > +-----+-----+-----+ -- * Database Operations -- | The module "Database.Persist.Class" defines how to operate with -- @persistent@ database models. Check that module out for basic -- operations, like 'get', 'insert', and 'selectList'. module Database.Persist.Class -- * Types -- | This module re-export contains a lot of the important types for -- working with @persistent@ datatypes and underlying values. , module Database.Persist.Types -- * Query Operators -- | A convention that @persistent@ tries to follow is that operators on -- Database types correspond to a Haskell (or database) operator with a @.@ -- character at the end. So to do @a || b@ , you'd write @a '||.' b@. To -- ** Query update combinators -- | These operations are used when performing updates against the database. -- Functions like 'upsert' use them to provide new or modified values. , (=.), (+=.), (-=.), (*=.), (/=.) -- ** Query filter combinators -- | These functions are useful in the 'PersistQuery' class, like -- 'selectList', 'updateWhere', etc. , (==.), (!=.), (<.), (>.), (<=.), (>=.), (<-.), (/<-.), (||.) -- * JSON Utilities , listToJSON , mapToJSON , toJsonText , getPersistMap -- * Other utilities , limitOffsetOrder ) where import Data.Aeson (toJSON, ToJSON) import Data.Aeson.Text (encodeToTextBuilder) import qualified Data.Text as T import Data.Text.Lazy (toStrict) import Data.Text.Lazy.Builder (toLazyText) import Database.Persist.Types import Database.Persist.Class import Database.Persist.Class.PersistField (getPersistMap) infixr 3 =., +=., -=., *=., /=. (=.), (+=.), (-=.), (*=.), (/=.) :: forall v typ. PersistField typ => EntityField v typ -> typ -> Update v -- | Assign a field a value. -- -- === Examples -- -- @ -- updateAge :: MonadIO m => ReaderT SqlBackend m () -- updateAge = updateWhere [UserName ==. \"SPJ\" ] [UserAge =. 45] -- @ -- -- Similar to `updateWhere` which is shown in the above example you can use other functions present in the module "Database.Persist.Class". Note that the first parameter of `updateWhere` is [`Filter` val] and second parameter is [`Update` val]. By comparing this with the type of `==.` and `=.`, you can see that they match up in the above usage. -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+--------+ -- > |id |name |age | -- > +-----+-----+--------+ -- > |1 |SPJ |40 -> 45| -- > +-----+-----+--------+ -- > |2 |Simon|41 | -- > +-----+-----+--------+ f =. a = Update f a Assign -- | Assign a field by addition (@+=@). -- -- === Examples -- -- @ -- addAge :: MonadIO m => ReaderT SqlBackend m () -- addAge = updateWhere [UserName ==. \"SPJ\" ] [UserAge +=. 1] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+---------+ -- > |id |name |age | -- > +-----+-----+---------+ -- > |1 |SPJ |40 -> 41 | -- > +-----+-----+---------+ -- > |2 |Simon|41 | -- > +-----+-----+---------+ f +=. a = Update f a Add -- | Assign a field by subtraction (@-=@). -- -- === Examples -- -- @ -- subtractAge :: MonadIO m => ReaderT SqlBackend m () -- subtractAge = updateWhere [UserName ==. \"SPJ\" ] [UserAge -=. 1] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+---------+ -- > |id |name |age | -- > +-----+-----+---------+ -- > |1 |SPJ |40 -> 39 | -- > +-----+-----+---------+ -- > |2 |Simon|41 | -- > +-----+-----+---------+ f -=. a = Update f a Subtract -- | Assign a field by multiplication (@*=@). -- -- === Examples -- -- @ -- multiplyAge :: MonadIO m => ReaderT SqlBackend m () -- multiplyAge = updateWhere [UserName ==. \"SPJ\" ] [UserAge *=. 2] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+--------+ -- > |id |name |age | -- > +-----+-----+--------+ -- > |1 |SPJ |40 -> 80| -- > +-----+-----+--------+ -- > |2 |Simon|41 | -- > +-----+-----+--------+ f *=. a = Update f a Multiply -- | Assign a field by division (@/=@). -- -- === Examples -- -- @ -- divideAge :: MonadIO m => ReaderT SqlBackend m () -- divideAge = updateWhere [UserName ==. \"SPJ\" ] [UserAge /=. 2] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+---------+ -- > |id |name |age | -- > +-----+-----+---------+ -- > |1 |SPJ |40 -> 20 | -- > +-----+-----+---------+ -- > |2 |Simon|41 | -- > +-----+-----+---------+ f /=. a = Update f a Divide infix 4 ==., <., <=., >., >=., !=. (==.), (!=.), (<.), (<=.), (>.), (>=.) :: forall v typ. PersistField typ => EntityField v typ -> typ -> Filter v -- | Check for equality. -- -- === Examples -- -- @ -- selectSPJ :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectSPJ = selectList [UserName ==. \"SPJ\" ] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |1 |SPJ |40 | -- > +-----+-----+-----+ f ==. a = Filter f (FilterValue a) Eq -- | Non-equality check. -- -- === Examples -- -- @ -- selectSimon :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectSimon = selectList [UserName !=. \"SPJ\" ] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |2 |Simon|41 | -- > +-----+-----+-----+ f !=. a = Filter f (FilterValue a) Ne -- | Less-than check. -- -- === Examples -- -- @ -- selectLessAge :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectLessAge = selectList [UserAge <. 41 ] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |1 |SPJ |40 | -- > +-----+-----+-----+ f <. a = Filter f (FilterValue a) Lt -- | Less-than or equal check. -- -- === Examples -- -- @ -- selectLessEqualAge :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectLessEqualAge = selectList [UserAge <=. 40 ] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |1 |SPJ |40 | -- > +-----+-----+-----+ f <=. a = Filter f (FilterValue a) Le -- | Greater-than check. -- -- === Examples -- -- @ -- selectGreaterAge :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectGreaterAge = selectList [UserAge >. 40 ] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |2 |Simon|41 | -- > +-----+-----+-----+ f >. a = Filter f (FilterValue a) Gt -- | Greater-than or equal check. -- -- === Examples -- -- @ -- selectGreaterEqualAge :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectGreaterEqualAge = selectList [UserAge >=. 41 ] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |2 |Simon|41 | -- > +-----+-----+-----+ f >=. a = Filter f (FilterValue a) Ge infix 4 <-., /<-. (<-.), (/<-.) :: forall v typ. PersistField typ => EntityField v typ -> [typ] -> Filter v -- | Check if value is in given list. -- -- === Examples -- -- @ -- selectUsers :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectUsers = selectList [UserAge <-. [40, 41]] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |1 |SPJ |40 | -- > +-----+-----+-----+ -- > |2 |Simon|41 | -- > +-----+-----+-----+ -- -- -- @ -- selectSPJ :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectSPJ = selectList [UserAge <-. [40]] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |1 |SPJ |40 | -- > +-----+-----+-----+ f <-. a = Filter f (FilterValues a) In -- | Check if value is not in given list. -- -- === Examples -- -- @ -- selectSimon :: MonadIO m => ReaderT SqlBackend m [Entity User] -- selectSimon = selectList [UserAge /<-. [40]] [] -- @ -- -- The above query when applied on <#dataset dataset-1>, will produce this: -- -- > +-----+-----+-----+ -- > |id |name |age | -- > +-----+-----+-----+ -- > |2 |Simon|41 | -- > +-----+-----+-----+ f /<-. a = Filter f (FilterValues a) NotIn infixl 3 ||. (||.) :: forall v. [Filter v] -> [Filter v] -> [Filter v] -- | The OR of two lists of filters. For example: -- -- > selectList -- > ([ PersonAge >. 25 -- > , PersonAge <. 30 ] ||. -- > [ PersonIncome >. 15000 -- > , PersonIncome <. 25000 ]) -- > [] -- -- will filter records where a person's age is between 25 and 30 /or/ a -- person's income is between (15000 and 25000). -- -- If you are looking for an @(&&.)@ operator to do @(A AND B AND (C OR D))@ -- you can use the @(++)@ operator instead as there is no @(&&.)@. For -- example: -- -- > selectList -- > ([ PersonAge >. 25 -- > , PersonAge <. 30 ] ++ -- > ([PersonCategory ==. 1] ||. -- > [PersonCategory ==. 5])) -- > [] -- -- will filter records where a person's age is between 25 and 30 /and/ -- (person's category is either 1 or 5). a ||. b = [FilterOr [FilterAnd a, FilterAnd b]] -- | Convert list of 'PersistValue's into textual representation of JSON -- object. This is a type-constrained synonym for 'toJsonText'. listToJSON :: [PersistValue] -> T.Text listToJSON = toJsonText -- | Convert map (list of tuples) into textual representation of JSON -- object. This is a type-constrained synonym for 'toJsonText'. mapToJSON :: [(T.Text, PersistValue)] -> T.Text mapToJSON = toJsonText -- | A more general way to convert instances of `ToJSON` type class to -- strict text 'T.Text'. toJsonText :: ToJSON j => j -> T.Text toJsonText = toStrict . toLazyText . encodeToTextBuilder . toJSON -- | FIXME What's this exactly? limitOffsetOrder :: PersistEntity val => [SelectOpt val] -> (Int, Int, [SelectOpt val]) limitOffsetOrder opts = foldr go (0, 0, []) opts where go (LimitTo l) (_, b, c) = (l, b ,c) go (OffsetBy o) (a, _, c) = (a, o, c) go x (a, b, c) = (a, b, x : c)