{-# LANGUAGE CPP #-} {-# LANGUAGE Rank2Types #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE FlexibleContexts #-} ----------------------------------------------------------------------------- -- | -- Module : Generics.Deriving.Lens -- Copyright : (C) 2012-13 Edward Kmett -- License : BSD-style (see the file LICENSE) -- Maintainer : Edward Kmett <ekmett@gmail.com> -- Stability : experimental -- Portability : GHC -- -- Note: @Generics.Deriving@ exports a number of names that collide with @Control.Lens@. -- -- You can use hiding or imports to mitigate this to an extent, and the following imports, -- represent a fair compromise for user code: -- -- > import Control.Lens hiding (Rep) -- > import Generics.Deriving hiding (from, to) -- -- You can use 'generic' to replace 'Generics.Deriving.from' and 'Generics.Deriving.to' from @Generics.Deriving@, -- and probably won't be explicitly referencing 'Control.Lens.Representable.Rep' from @Control.Lens@ -- in code that uses generics. ---------------------------------------------------------------------------- module Generics.Deriving.Lens ( -- * Isomorphisms for @GHC.Generics@ generic , generic1 -- * Generic Traversal , tinplate , GTraversal ) where import Control.Applicative import Control.Lens import Data.Maybe (fromJust) import Data.Typeable import qualified Generics.Deriving as Generic import Generics.Deriving hiding (from, to) -- $setup -- >>> :set -XNoOverloadedStrings -- | Convert from the data type to its representation (or back) -- -- >>> "hello"^.generic.from generic :: String -- "hello" generic :: Generic a => Iso' a (Generic.Rep a b) generic = iso Generic.from Generic.to {-# INLINE generic #-} -- | Convert from the data type to its representation (or back) generic1 :: Generic1 f => Iso' (f a) (Rep1 f a) generic1 = iso from1 to1 {-# INLINE generic1 #-} -- | A 'GHC.Generics.Generic' 'Traversal' that visits every occurrence -- of something 'Typeable' anywhere in a container. -- -- >>> allOf tinplate (=="Hello") (1::Int,2::Double,(),"Hello",["Hello"]) -- True -- -- >>> mapMOf_ tinplate putStrLn ("hello",[(2 :: Int, "world!")]) -- hello -- world! tinplate :: (Generic a, GTraversal (Generic.Rep a), Typeable b) => Traversal' a b tinplate = generic . tinplated True {-# INLINE tinplate #-} maybeArg1Of :: Maybe c -> (c -> d) -> Maybe c maybeArg1Of = const {-# INLINE maybeArg1Of #-} -- | Used to traverse 'Generic' data by 'uniplate'. class GTraversal f where tinplated :: Typeable b => Bool -> Traversal' (f a) b instance (Generic a, GTraversal (Generic.Rep a), Typeable a) => GTraversal (K1 i a) where tinplated rec f (K1 a) = case cast a `maybeArg1Of` f of Just b -> K1 . fromJust . cast <$> f b Nothing | rec -> K1 <$> fmap generic (tinplated False) f a | otherwise -> pure $ K1 a {-# INLINE tinplated #-} instance GTraversal U1 where tinplated _ _ U1 = pure U1 {-# INLINE tinplated #-} instance (GTraversal f, GTraversal g) => GTraversal (f :*: g) where tinplated _ f (x :*: y) = (:*:) <$> tinplated True f x <*> tinplated True f y {-# INLINE tinplated #-} instance (GTraversal f, GTraversal g) => GTraversal (f :+: g) where tinplated _ f (L1 x) = L1 <$> tinplated True f x tinplated _ f (R1 x) = R1 <$> tinplated True f x {-# INLINE tinplated #-} instance GTraversal a => GTraversal (M1 i c a) where tinplated rec f (M1 x) = M1 <$> tinplated rec f x {-# INLINE tinplated #-} -- ? instance (Traversable f, GTraversal g) => GTraversal (f :.: g) where tinplated _ f (Comp1 fgp) = Comp1 <$> traverse (tinplated True f) fgp {-# INLINE tinplated #-}