{-# LANGUAGE DeriveDataTypeable , EmptyDataDecls , FlexibleContexts , FlexibleInstances , FunctionalDependencies , MultiParamTypeClasses , TypeFamilies , UndecidableInstances , GADTs #-} -- | This is an internal module, anything exported by this module -- may change without a major version bump. Please use only -- "Database.Esqueleto" if possible. module Database.Esqueleto.Internal.Language ( -- * The pretty face Esqueleto(..) , from , Value(..) , ValueList(..) , SomeValue(..) , ToSomeValues(..) , InnerJoin(..) , CrossJoin(..) , LeftOuterJoin(..) , RightOuterJoin(..) , FullOuterJoin(..) , OnClauseWithoutMatchingJoinException(..) , OrderBy , Update , Insertion -- * The guts , JoinKind(..) , IsJoinKind(..) , PreprocessedFrom , From , FromPreprocess ) where import Control.Applicative (Applicative(..), (<$>)) import Control.Exception (Exception) import Data.Int (Int64) import Data.String (IsString) import Data.Typeable (Typeable) import Database.Esqueleto.Internal.PersistentImport -- | Finally tagless representation of @esqueleto@'s EDSL. class (Functor query, Applicative query, Monad query) => Esqueleto query expr backend | query -> expr backend, expr -> query backend where -- | (Internal) Start a 'from' query with an entity. 'from' -- does two kinds of magic using 'fromStart', 'fromJoin' and -- 'fromFinish': -- -- 1. The simple but tedious magic of allowing tuples to be -- used. -- -- 2. The more advanced magic of creating @JOIN@s. The -- @JOIN@ is processed from right to left. The rightmost -- entity of the @JOIN@ is created with 'fromStart'. Each -- @JOIN@ step is then translated into a call to 'fromJoin'. -- In the end, 'fromFinish' is called to materialize the -- @JOIN@. fromStart :: ( PersistEntity a , PersistEntityBackend a ~ backend ) => query (expr (PreprocessedFrom (expr (Entity a)))) -- | (Internal) Same as 'fromStart', but entity may be missing. fromStartMaybe :: ( PersistEntity a , PersistEntityBackend a ~ backend ) => query (expr (PreprocessedFrom (expr (Maybe (Entity a))))) -- | (Internal) Do a @JOIN@. fromJoin :: IsJoinKind join => expr (PreprocessedFrom a) -> expr (PreprocessedFrom b) -> query (expr (PreprocessedFrom (join a b))) -- | (Internal) Finish a @JOIN@. fromFinish :: expr (PreprocessedFrom a) -> query a -- | @WHERE@ clause: restrict the query's result. where_ :: expr (Value Bool) -> query () -- | @ON@ clause: restrict the a @JOIN@'s result. The @ON@ -- clause will be applied to the /last/ @JOIN@ that does not -- have an @ON@ clause yet. If there are no @JOIN@s without -- @ON@ clauses (either because you didn't do any @JOIN@, or -- because all @JOIN@s already have their own @ON@ clauses), a -- runtime exception 'OnClauseWithoutMatchingJoinException' is -- thrown. @ON@ clauses are optional when doing @JOIN@s. -- -- On the simple case of doing just one @JOIN@, for example -- -- @ -- select $ -- from $ \\(foo ``InnerJoin`` bar) -> do -- on (foo ^. FooId ==. bar ^. BarFooId) -- ... -- @ -- -- there's no ambiguity and the rules above just mean that -- you're allowed to call 'on' only once (as in SQL). If you -- have many joins, then the 'on's are applied on the /reverse/ -- order that the @JOIN@s appear. For example: -- -- @ -- select $ -- from $ \\(foo ``InnerJoin`` bar ``InnerJoin`` baz) -> do -- on (baz ^. BazId ==. bar ^. BarBazId) -- on (foo ^. FooId ==. bar ^. BarFooId) -- ... -- @ -- -- The order is /reversed/ in order to improve composability. -- For example, consider @query1@ and @query2@ below: -- -- @ -- let query1 = -- from $ \\(foo ``InnerJoin`` bar) -> do -- on (foo ^. FooId ==. bar ^. BarFooId) -- query2 = -- from $ \\(mbaz ``LeftOuterJoin`` quux) -> do -- return (mbaz ?. BazName, quux) -- test1 = (,) \<$\> query1 \<*\> query2 -- test2 = flip (,) \<$\> query2 \<*\> query1 -- @ -- -- If the order was /not/ reversed, then @test2@ would be -- broken: @query1@'s 'on' would refer to @query2@'s -- 'LeftOuterJoin'. on :: expr (Value Bool) -> query () -- | @GROUP BY@ clause. You can enclose multiple columns -- in a tuple. -- -- @ -- select $ from \\(foo ``InnerJoin`` bar) -> do -- on (foo ^. FooBarId ==. bar ^. BarId) -- groupBy (bar ^. BarId, bar ^. BarName) -- return (bar ^. BarId, bar ^. BarName, countRows) -- @ -- -- With groupBy you can sort by aggregate functions, like so (we -- used @let@ to restrict the more general `countRows` to -- @SqlExpr (Value Int)@ to avoid ambiguity): -- -- @ -- r \<- select $ from \\(foo ``InnerJoin`` bar) -> do -- on (foo ^. FooBarId ==. bar ^. BarId) -- groupBy $ bar ^. BarName -- let countRows' = countRows -- orderBy [asc countRows'] -- return (bar ^. BarName, countRows') -- forM_ r $ \\((Value name), (Value count)) -> do -- print name -- print (count :: Int) -- @ groupBy :: (ToSomeValues expr a) => a -> query () -- | @ORDER BY@ clause. See also 'asc' and 'desc'. orderBy :: [expr OrderBy] -> query () -- | Ascending order of this field or expression. asc :: PersistField a => expr (Value a) -> expr OrderBy -- | Descending order of this field or expression. desc :: PersistField a => expr (Value a) -> expr OrderBy -- | @LIMIT@. Limit the number of returned rows. limit :: Int64 -> query () -- | @OFFSET@. Usually used with 'limit'. offset :: Int64 -> query () -- | @ORDER BY random()@ clause. -- -- /Since: 1.3.10/ rand :: expr OrderBy -- | @HAVING@. -- -- /Since: 1.2.2/ having :: expr (Value Bool) -> query () -- | Execute a subquery @SELECT@ in an expression. Returns a -- simple value so should be used only when the @SELECT@ query -- is guaranteed to return just one row. sub_select :: PersistField a => query (expr (Value a)) -> expr (Value a) -- | Same as 'sub_select' but using @SELECT DISTINCT@. sub_selectDistinct :: PersistField a => query (expr (Value a)) -> expr (Value a) -- | Project a field of an entity. (^.) :: (PersistEntity val, PersistField typ) => expr (Entity val) -> EntityField val typ -> expr (Value typ) -- | Project a field of an entity that may be null. (?.) :: (PersistEntity val, PersistField typ) => expr (Maybe (Entity val)) -> EntityField val typ -> expr (Value (Maybe typ)) -- | Lift a constant value from Haskell-land to the query. val :: PersistField typ => typ -> expr (Value typ) -- | @IS NULL@ comparison. isNothing :: PersistField typ => expr (Value (Maybe typ)) -> expr (Value Bool) -- | Analogous to 'Just', promotes a value of type @typ@ into -- one of type @Maybe typ@. It should hold that @val . Just -- === just . val@. just :: expr (Value typ) -> expr (Value (Maybe typ)) -- | @NULL@ value. nothing :: expr (Value (Maybe typ)) -- | Join nested 'Maybe's in a 'Value' into one. This is useful when -- calling aggregate functions on nullable fields. joinV :: expr (Value (Maybe (Maybe typ))) -> expr (Value (Maybe typ)) -- | @COUNT(*)@ value. countRows :: Num a => expr (Value a) -- | @COUNT@. count :: (Num a) => expr (Value typ) -> expr (Value a) not_ :: expr (Value Bool) -> expr (Value Bool) (==.) :: PersistField typ => expr (Value typ) -> expr (Value typ) -> expr (Value Bool) (>=.) :: PersistField typ => expr (Value typ) -> expr (Value typ) -> expr (Value Bool) (>.) :: PersistField typ => expr (Value typ) -> expr (Value typ) -> expr (Value Bool) (<=.) :: PersistField typ => expr (Value typ) -> expr (Value typ) -> expr (Value Bool) (<.) :: PersistField typ => expr (Value typ) -> expr (Value typ) -> expr (Value Bool) (!=.) :: PersistField typ => expr (Value typ) -> expr (Value typ) -> expr (Value Bool) (&&.) :: expr (Value Bool) -> expr (Value Bool) -> expr (Value Bool) (||.) :: expr (Value Bool) -> expr (Value Bool) -> expr (Value Bool) (+.) :: PersistField a => expr (Value a) -> expr (Value a) -> expr (Value a) (-.) :: PersistField a => expr (Value a) -> expr (Value a) -> expr (Value a) (/.) :: PersistField a => expr (Value a) -> expr (Value a) -> expr (Value a) (*.) :: PersistField a => expr (Value a) -> expr (Value a) -> expr (Value a) random_ :: (PersistField a, Num a) => expr (Value a) round_ :: (PersistField a, Num a, PersistField b, Num b) => expr (Value a) -> expr (Value b) ceiling_ :: (PersistField a, Num a, PersistField b, Num b) => expr (Value a) -> expr (Value b) floor_ :: (PersistField a, Num a, PersistField b, Num b) => expr (Value a) -> expr (Value b) sum_ :: (PersistField a, PersistField b) => expr (Value a) -> expr (Value (Maybe b)) min_ :: (PersistField a) => expr (Value a) -> expr (Value (Maybe a)) max_ :: (PersistField a) => expr (Value a) -> expr (Value (Maybe a)) avg_ :: (PersistField a, PersistField b) => expr (Value a) -> expr (Value (Maybe b)) -- | @LIKE@ operator. like :: (PersistField s, IsString s) => expr (Value s) -> expr (Value s) -> expr (Value Bool) -- | The string @'%'@. May be useful while using 'like' and -- concatenation ('concat_' or '++.', depending on your -- database). Note that you always to type the parenthesis, -- for example: -- -- @ -- name ``'like'`` (%) ++. val "John" ++. (%) -- @ (%) :: (PersistField s, IsString s) => expr (Value s) -- | The @CONCAT@ function with a variable number of -- parameters. Supported by MySQL and PostgreSQL. concat_ :: (PersistField s, IsString s) => [expr (Value s)] -> expr (Value s) -- | The @||@ string concatenation operator (named after -- Haskell's '++' in order to avoid naming clash with '||.'). -- Supported by SQLite and PostgreSQL. (++.) :: (PersistField s, IsString s) => expr (Value s) -> expr (Value s) -> expr (Value s) -- | Execute a subquery @SELECT@ in an expression. Returns a -- list of values. subList_select :: PersistField a => query (expr (Value a)) -> expr (ValueList a) -- | Same as 'sublist_select' but using @SELECT DISTINCT@. subList_selectDistinct :: PersistField a => query (expr (Value a)) -> expr (ValueList a) -- | Lift a list of constant value from Haskell-land to the query. valList :: PersistField typ => [typ] -> expr (ValueList typ) -- | @IN@ operator. in_ :: PersistField typ => expr (Value typ) -> expr (ValueList typ) -> expr (Value Bool) -- | @NOT IN@ operator. notIn :: PersistField typ => expr (Value typ) -> expr (ValueList typ) -> expr (Value Bool) -- | @EXISTS@ operator. For example: -- -- @ -- select $ -- from $ \\person -> do -- where_ $ exists $ -- from $ \\post -> do -- where_ (post ^. BlogPostAuthorId ==. person ^. PersonId) -- return person -- @ exists :: query () -> expr (Value Bool) -- | @NOT EXISTS@ operator. notExists :: query () -> expr (Value Bool) -- | @SET@ clause used on @UPDATE@s. Note that while it's not -- a type error to use this function on a @SELECT@, it will -- most certainly result in a runtime error. set :: PersistEntity val => expr (Entity val) -> [expr (Update val)] -> query () (=.) :: (PersistEntity val, PersistField typ) => EntityField val typ -> expr (Value typ) -> expr (Update val) (+=.) :: (PersistEntity val, PersistField a) => EntityField val a -> expr (Value a) -> expr (Update val) (-=.) :: (PersistEntity val, PersistField a) => EntityField val a -> expr (Value a) -> expr (Update val) (*=.) :: (PersistEntity val, PersistField a) => EntityField val a -> expr (Value a) -> expr (Update val) (/=.) :: (PersistEntity val, PersistField a) => EntityField val a -> expr (Value a) -> expr (Update val) -- | Apply a 'PersistField' constructor to @expr Value@ arguments. (<#) :: (a -> b) -> expr (Value a) -> expr (Insertion b) -- | Apply extra @expr Value@ arguments to a 'PersistField' constructor (<&>) :: expr (Insertion (a -> b)) -> expr (Value a) -> expr (Insertion b) -- Fixity declarations infixl 9 ^. infixl 7 *., /. infixl 6 +., -. infixr 5 ++. infix 4 ==., >=., >., <=., <., !=. infixr 3 &&., =., +=., -=., *=., /=. infixr 2 ||., `InnerJoin`, `CrossJoin`, `LeftOuterJoin`, `RightOuterJoin`, `FullOuterJoin`, `like` -- | A single value (as opposed to a whole entity). You may use -- @('^.')@ or @('?.')@ to get a 'Value' from an 'Entity'. data Value a = Value a deriving (Eq, Ord, Show, Typeable) -- Note: because of GHC bug #6124 we use @data@ instead of @newtype@. -- | A list of single values. There's a limited set of funcitons -- able to work with this data type (such as 'subList_select', -- 'valList', 'in_' and 'exists'). data ValueList a = ValueList a deriving (Eq, Ord, Show, Typeable) -- Note: because of GHC bug #6124 we use @data@ instead of @newtype@. -- | A wrapper type for for any @expr (Value a)@ for all a. data SomeValue expr where SomeValue :: Esqueleto query expr backend => expr (Value a) -> SomeValue expr -- | A class of things that can be converted into a list of SomeValue. It has -- instances for tuples and is the reason why groupBy can take tuples, like -- @groupBy (foo ^. FooId, foo ^. FooName, foo ^. FooType)@. class ToSomeValues expr a where toSomeValues :: a -> [SomeValue expr] instance ( ToSomeValues expr a , ToSomeValues expr b ) => ToSomeValues expr (a, b) where toSomeValues (a,b) = toSomeValues a ++ toSomeValues b instance ( ToSomeValues expr a , ToSomeValues expr b , ToSomeValues expr c ) => ToSomeValues expr (a, b, c) where toSomeValues (a,b,c) = toSomeValues a ++ toSomeValues b ++ toSomeValues c instance ( ToSomeValues expr a , ToSomeValues expr b , ToSomeValues expr c , ToSomeValues expr d ) => ToSomeValues expr (a, b, c, d) where toSomeValues (a,b,c,d) = toSomeValues a ++ toSomeValues b ++ toSomeValues c ++ toSomeValues d instance ( ToSomeValues expr a , ToSomeValues expr b , ToSomeValues expr c , ToSomeValues expr d , ToSomeValues expr e ) => ToSomeValues expr (a, b, c, d, e) where toSomeValues (a,b,c,d,e) = toSomeValues a ++ toSomeValues b ++ toSomeValues c ++ toSomeValues d ++ toSomeValues e instance ( ToSomeValues expr a , ToSomeValues expr b , ToSomeValues expr c , ToSomeValues expr d , ToSomeValues expr e , ToSomeValues expr f ) => ToSomeValues expr (a, b, c, d, e, f) where toSomeValues (a,b,c,d,e,f) = toSomeValues a ++ toSomeValues b ++ toSomeValues c ++ toSomeValues d ++ toSomeValues e ++ toSomeValues f instance ( ToSomeValues expr a , ToSomeValues expr b , ToSomeValues expr c , ToSomeValues expr d , ToSomeValues expr e , ToSomeValues expr f , ToSomeValues expr g ) => ToSomeValues expr (a, b, c, d, e, f, g) where toSomeValues (a,b,c,d,e,f,g) = toSomeValues a ++ toSomeValues b ++ toSomeValues c ++ toSomeValues d ++ toSomeValues e ++ toSomeValues f ++ toSomeValues g instance ( ToSomeValues expr a , ToSomeValues expr b , ToSomeValues expr c , ToSomeValues expr d , ToSomeValues expr e , ToSomeValues expr f , ToSomeValues expr g , ToSomeValues expr h ) => ToSomeValues expr (a, b, c, d, e, f, g, h) where toSomeValues (a,b,c,d,e,f,g,h) = toSomeValues a ++ toSomeValues b ++ toSomeValues c ++ toSomeValues d ++ toSomeValues e ++ toSomeValues f ++ toSomeValues g ++ toSomeValues h -- | Data type that represents an @INNER JOIN@ (see 'LeftOuterJoin' for an example). data InnerJoin a b = a `InnerJoin` b -- | Data type that represents a @CROSS JOIN@ (see 'LeftOuterJoin' for an example). data CrossJoin a b = a `CrossJoin` b -- | Data type that represents a @LEFT OUTER JOIN@. For example, -- -- @ -- select $ -- from $ \\(person ``LeftOuterJoin`` pet) -> -- ... -- @ -- -- is translated into -- -- @ -- SELECT ... -- FROM Person LEFT OUTER JOIN Pet -- ... -- @ -- -- See also: 'from'. data LeftOuterJoin a b = a `LeftOuterJoin` b -- | Data type that represents a @RIGHT OUTER JOIN@ (see 'LeftOuterJoin' for an example). data RightOuterJoin a b = a `RightOuterJoin` b -- | Data type that represents a @FULL OUTER JOIN@ (see 'LeftOuterJoin' for an example). data FullOuterJoin a b = a `FullOuterJoin` b -- | (Internal) A kind of @JOIN@. data JoinKind = InnerJoinKind -- ^ @INNER JOIN@ | CrossJoinKind -- ^ @CROSS JOIN@ | LeftOuterJoinKind -- ^ @LEFT OUTER JOIN@ | RightOuterJoinKind -- ^ @RIGHT OUTER JOIN@ | FullOuterJoinKind -- ^ @FULL OUTER JOIN@ -- | (Internal) Functions that operate on types (that should be) -- of kind 'JoinKind'. class IsJoinKind join where -- | (Internal) @smartJoin a b@ is a @JOIN@ of the correct kind. smartJoin :: a -> b -> join a b -- | (Internal) Reify a @JoinKind@ from a @JOIN@. This -- function is non-strict. reifyJoinKind :: join a b -> JoinKind instance IsJoinKind InnerJoin where smartJoin a b = a `InnerJoin` b reifyJoinKind _ = InnerJoinKind instance IsJoinKind CrossJoin where smartJoin a b = a `CrossJoin` b reifyJoinKind _ = CrossJoinKind instance IsJoinKind LeftOuterJoin where smartJoin a b = a `LeftOuterJoin` b reifyJoinKind _ = LeftOuterJoinKind instance IsJoinKind RightOuterJoin where smartJoin a b = a `RightOuterJoin` b reifyJoinKind _ = RightOuterJoinKind instance IsJoinKind FullOuterJoin where smartJoin a b = a `FullOuterJoin` b reifyJoinKind _ = FullOuterJoinKind -- | Exception thrown whenever 'on' is used to create an @ON@ -- clause but no matching @JOIN@ is found. data OnClauseWithoutMatchingJoinException = OnClauseWithoutMatchingJoinException String deriving (Eq, Ord, Show, Typeable) instance Exception OnClauseWithoutMatchingJoinException where -- | (Internal) Phantom type used to process 'from' (see 'fromStart'). data PreprocessedFrom a -- | Phantom type used by 'orderBy', 'asc' and 'desc'. data OrderBy -- | Phantom type for a @SET@ operation on an entity of the given -- type (see 'set' and '(=.)'). data Update typ -- | Phantom type used by 'insertSelect'. data Insertion a -- | @FROM@ clause: bring entities into scope. -- -- This function internally uses two type classes in order to -- provide some flexibility of how you may call it. Internally -- we refer to these type classes as the two different magics. -- -- The innermost magic allows you to use @from@ with the -- following types: -- -- * @expr (Entity val)@, which brings a single entity into -- scope. -- -- * @expr (Maybe (Entity val))@, which brings a single entity -- that may be @NULL@ into scope. Used for @OUTER JOIN@s. -- -- * A @JOIN@ of any other two types allowed by the innermost -- magic, where a @JOIN@ may be an 'InnerJoin', a 'CrossJoin', a -- 'LeftOuterJoin', a 'RightOuterJoin', or a 'FullOuterJoin'. -- The @JOINs@ have right fixity, the same as in SQL. -- -- The outermost magic allows you to use @from@ on any tuples of -- types supported by innermost magic (and also tuples of tuples, -- and so on), up to 8-tuples. -- -- Note that using @from@ for the same entity twice does work and -- corresponds to a self-join. You don't even need to use two -- different calls to @from@, you may use a @JOIN@ or a tuple. -- -- The following are valid examples of uses of @from@ (the types -- of the arguments of the lambda are inside square brackets): -- -- @ -- from $ \\person -> ... -- from $ \\(person, blogPost) -> ... -- from $ \\(p ``LeftOuterJoin`` mb) -> ... -- from $ \\(p1 ``InnerJoin`` f ``InnerJoin`` p2) -> ... -- from $ \\((p1 ``InnerJoin`` f) ``InnerJoin`` p2) -> ... -- @ -- -- The types of the arguments to the lambdas above are, -- respectively: -- -- @ -- person -- :: ( Esqueleto query expr backend -- , PersistEntity Person -- , PersistEntityBackend Person ~ backend -- ) => expr (Entity Person) -- (person, blogPost) -- :: (...) => (expr (Entity Person), expr (Entity BlogPost)) -- (p ``LeftOuterJoin`` mb) -- :: (...) => InnerJoin (expr (Entity Person)) (expr (Maybe (Entity BlogPost))) -- (p1 ``InnerJoin`` f ``InnerJoin`` p2) -- :: (...) => InnerJoin -- (expr (Entity Person)) -- (InnerJoin (expr (Entity Follow)) -- (expr (Entity Person))) -- ((p1 ``InnerJoin`` f) ``InnerJoin`` p2) :: -- :: (...) => InnerJoin -- (InnerJoin (expr (Entity Person)) -- (expr (Entity Follow))) -- (expr (Entity Person)) -- @ -- -- Note that some backends may not support all kinds of @JOIN@s. -- For example, when using the SQL backend with SQLite, it will -- not accept the last example above (which is associated to the -- left, instead of being to the right) and will not accept -- 'RightOuterJoin's or 'FullOuterJoin's. from :: From query expr backend a => (a -> query b) -> query b from = (from_ >>=) -- | (Internal) Class that implements the tuple 'from' magic (see -- 'fromStart'). class Esqueleto query expr backend => From query expr backend a where from_ :: query a instance ( Esqueleto query expr backend , FromPreprocess query expr backend (expr (Entity val)) ) => From query expr backend (expr (Entity val)) where from_ = fromPreprocess >>= fromFinish instance ( Esqueleto query expr backend , FromPreprocess query expr backend (expr (Maybe (Entity val))) ) => From query expr backend (expr (Maybe (Entity val))) where from_ = fromPreprocess >>= fromFinish instance ( Esqueleto query expr backend , FromPreprocess query expr backend (InnerJoin a b) ) => From query expr backend (InnerJoin a b) where from_ = fromPreprocess >>= fromFinish instance ( Esqueleto query expr backend , FromPreprocess query expr backend (CrossJoin a b) ) => From query expr backend (CrossJoin a b) where from_ = fromPreprocess >>= fromFinish instance ( Esqueleto query expr backend , FromPreprocess query expr backend (LeftOuterJoin a b) ) => From query expr backend (LeftOuterJoin a b) where from_ = fromPreprocess >>= fromFinish instance ( Esqueleto query expr backend , FromPreprocess query expr backend (RightOuterJoin a b) ) => From query expr backend (RightOuterJoin a b) where from_ = fromPreprocess >>= fromFinish instance ( Esqueleto query expr backend , FromPreprocess query expr backend (FullOuterJoin a b) ) => From query expr backend (FullOuterJoin a b) where from_ = fromPreprocess >>= fromFinish instance ( From query expr backend a , From query expr backend b ) => From query expr backend (a, b) where from_ = (,) <$> from_ <*> from_ instance ( From query expr backend a , From query expr backend b , From query expr backend c ) => From query expr backend (a, b, c) where from_ = (,,) <$> from_ <*> from_ <*> from_ instance ( From query expr backend a , From query expr backend b , From query expr backend c , From query expr backend d ) => From query expr backend (a, b, c, d) where from_ = (,,,) <$> from_ <*> from_ <*> from_ <*> from_ instance ( From query expr backend a , From query expr backend b , From query expr backend c , From query expr backend d , From query expr backend e ) => From query expr backend (a, b, c, d, e) where from_ = (,,,,) <$> from_ <*> from_ <*> from_ <*> from_ <*> from_ instance ( From query expr backend a , From query expr backend b , From query expr backend c , From query expr backend d , From query expr backend e , From query expr backend f ) => From query expr backend (a, b, c, d, e, f) where from_ = (,,,,,) <$> from_ <*> from_ <*> from_ <*> from_ <*> from_ <*> from_ instance ( From query expr backend a , From query expr backend b , From query expr backend c , From query expr backend d , From query expr backend e , From query expr backend f , From query expr backend g ) => From query expr backend (a, b, c, d, e, f, g) where from_ = (,,,,,,) <$> from_ <*> from_ <*> from_ <*> from_ <*> from_ <*> from_ <*> from_ instance ( From query expr backend a , From query expr backend b , From query expr backend c , From query expr backend d , From query expr backend e , From query expr backend f , From query expr backend g , From query expr backend h ) => From query expr backend (a, b, c, d, e, f, g, h) where from_ = (,,,,,,,) <$> from_ <*> from_ <*> from_ <*> from_ <*> from_ <*> from_ <*> from_ <*> from_ -- | (Internal) Class that implements the @JOIN@ 'from' magic -- (see 'fromStart'). class Esqueleto query expr backend => FromPreprocess query expr backend a where fromPreprocess :: query (expr (PreprocessedFrom a)) instance ( Esqueleto query expr backend , PersistEntity val , PersistEntityBackend val ~ backend ) => FromPreprocess query expr backend (expr (Entity val)) where fromPreprocess = fromStart instance ( Esqueleto query expr backend , PersistEntity val , PersistEntityBackend val ~ backend ) => FromPreprocess query expr backend (expr (Maybe (Entity val))) where fromPreprocess = fromStartMaybe instance ( Esqueleto query expr backend , FromPreprocess query expr backend a , FromPreprocess query expr backend b , IsJoinKind join ) => FromPreprocess query expr backend (join a b) where fromPreprocess = do a <- fromPreprocess b <- fromPreprocess fromJoin a b