{-# LANGUAGE AllowAmbiguousTypes #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE FunctionalDependencies #-} {-# LANGUAGE PolyKinds #-} {-# LANGUAGE Rank2Types #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE UndecidableInstances #-} ----------------------------------------------------------------------------- -- | -- Module : Data.Generics.Record.HasField -- Copyright : (C) 2017 Csongor Kiss -- License : BSD3 -- Maintainer : Csongor Kiss <kiss.csongor.kiss@gmail.com> -- Stability : experimental -- Portability : non-portable -- -- Derive record field getters and setters generically. -- ----------------------------------------------------------------------------- module Data.Generics.Record.HasField ( -- * Lens -- $example HasField (..) -- * Getter and setter functions , getField , setField -- * Internals , GHasField (..) ) where import Data.Generics.Record.Internal.Contains import Data.Generics.Internal.Lens import GHC.TypeLits (Symbol) import Data.Kind (Type) import GHC.Generics -- $example -- @ -- -- module Example where -- -- import GHC.Generics -- import Data.Generics.Record -- -- data Human = Human -- { name :: String -- , age :: Int -- , address :: String -- } deriving (Generic, Show) -- -- human :: Human -- human = Human \"Tunyasz\" 50 \"London\" -- -- @ -- | Get 'field' -- -- >>> getField @"name" human -- "Tunyasz" getField :: forall field a s. HasField field a s => s -> a getField s = s ^. label @field -- | Set 'field' -- -- >>> setField @"age" (setField @"name" "Tamas" human) 30 -- Human {name = "Tamas", age = 30, address = "London"} setField :: forall field a s. HasField field a s => a -> s -> s setField = set (label @field) -- | Records that have a field with a given name. class HasField (field :: Symbol) a s | s field -> a where -- ^ Lens focusing on a field with a given name. -- Compatible with the lens package. -- -- @ -- type Lens' s a -- = forall f. Functor f => (a -> f a) -> s -> f s -- @ -- -- >>> human & label @"name" .~ "Tamas" -- Human {name = "Tamas", age = 50, address = "London"} label :: Lens' s a -- | Instances are generated on the fly for all records that have the required -- field. instance ( Generic s , Contains field (Rep s) ~ 'Just a -- this is needed for the fundep for some reason , GHasField field (Rep s) a ) => HasField field a s where label = repIso . glabel @field class GHasFieldProd field a b ret (w :: Maybe Type) | field a b -> ret where prodLabel :: Lens' ((a :*: b) x) ret instance (GHasField field f ret) => GHasFieldProd field f g ret ('Just ret) where prodLabel = first . glabel @field instance (GHasField field g ret) => GHasFieldProd field f g ret 'Nothing where prodLabel = second . glabel @field -------------------------------------------------------------------------------- -- | Like 'HasField', but on the generic representation class GHasField (field :: Symbol) (s :: Type -> Type) a | field s -> a where glabel :: Lens' (s x) a instance (GHasFieldProd field s s' a (Contains field s)) => GHasField field (s :*: s') a where glabel = prodLabel @field @_ @_ @_ @(Contains field s) instance (GHasField field s a, GHasField field s' a) => GHasField field (s :+: s') a where glabel = combine (glabel @field @s) (glabel @field @s') instance GHasField field (S1 ('MetaSel ('Just field) p f b) (Rec0 a)) a where glabel = lensM . glabel @field instance GHasField field (K1 R a) a where glabel f (K1 x) = fmap K1 (f x) instance GHasField field s a => GHasField field (M1 D c s) a where glabel = lensM . glabel @field instance GHasField field s a => GHasField field (M1 C c s) a where glabel = lensM . glabel @field