{-# LANGUAGE PackageImports #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE MonoLocalBinds #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE TypeSynonymInstances #-} {-# LANGUAGE UndecidableInstances #-} ----------------------------------------------------------------------------- -- | -- Module : Data.Generics.Sum.Subtype -- Copyright : (C) 2020 Csongor Kiss -- License : BSD3 -- Maintainer : Csongor Kiss <kiss.csongor.kiss@gmail.com> -- Stability : experimental -- Portability : non-portable -- -- Structural subtype relationships between sum types. -- ----------------------------------------------------------------------------- module Data.Generics.Sum.Subtype ( -- *Prisms -- -- $setup AsSubtype (..) ) where import "this" Data.Generics.Internal.VL.Prism import "generic-lens-core" Data.Generics.Internal.Void import qualified "generic-lens-core" Data.Generics.Sum.Internal.Subtype as Core -- $setup -- == /Running example:/ -- -- >>> :set -XTypeApplications -- >>> :set -XDataKinds -- >>> :set -XDeriveGeneric -- >>> import GHC.Generics -- >>> import Control.Lens -- >>> :{ -- data Animal -- = Dog Dog -- | Cat Name Age -- | Duck Age -- deriving (Generic, Show) -- data FourLeggedAnimal -- = Dog4 Dog -- | Cat4 Name Age -- deriving (Generic, Show) -- data Dog = MkDog -- { name :: Name -- , age :: Age -- } -- deriving (Generic, Show) -- type Name = String -- type Age = Int -- dog, cat, duck :: Animal -- dog = Dog (MkDog "Shep" 3) -- cat = Cat "Mog" 5 -- duck = Duck 2 -- dog4, cat4 :: FourLeggedAnimal -- dog4 = Dog4 (MkDog "Snowy" 4) -- cat4 = Cat4 "Garfield" 6 -- :} -- |Structural subtyping between sums. A sum 'Sub' is a subtype of another sum -- 'Sup' if a value of 'Sub' can be given (modulo naming of constructors) -- whenever a value of 'Sup' is expected. In the running example for instance, -- 'FourLeggedAnimal` is a subtype of 'Animal' since a value of the former can -- be given as a value of the latter (renaming 'Dog4' to 'Dog' and 'Cat4' to -- 'Cat'). class AsSubtype sub sup where -- |A prism that captures structural subtyping. Allows a substructure to be -- injected (upcast) into a superstructure or a superstructure to be downcast -- into a substructure (which may fail). -- -- >>> _Sub # dog4 :: Animal -- Dog (MkDog {name = "Snowy", age = 4}) -- -- >>> cat ^? _Sub :: Maybe FourLeggedAnimal -- Just (Cat4 "Mog" 5) -- -- >>> duck ^? _Sub :: Maybe FourLeggedAnimal -- Nothing _Sub :: Prism' sup sub _Sub = prism injectSub (\i -> maybe (Left i) Right (projectSub i)) {-# INLINE _Sub #-} -- |Injects a subtype into a supertype (upcast). injectSub :: sub -> sup injectSub = build (_Sub @sub @sup) -- |Projects a subtype from a supertype (downcast). projectSub :: sup -> Maybe sub projectSub = either (const Nothing) Just . match (_Sub @sub @sup) {-# MINIMAL (injectSub, projectSub) | _Sub #-} instance Core.Context sub sup => AsSubtype sub sup where _Sub f = prism2prismvl Core.derived f {-# INLINE _Sub #-} -- | Reflexive case -- >>> _Sub # dog :: Animal -- Dog (MkDog {name = "Shep", age = 3}) instance {-# OVERLAPPING #-} AsSubtype a a where _Sub = id {-# INLINE _Sub #-} -- | See Note [Uncluttering type signatures] --_Sub -- :: (AsSubtype sub sup, Data.Profunctor.Choice.Choice p, -- Applicative f) => -- p sub (f sub) -> p sup (f sup) instance {-# OVERLAPPING #-} AsSubtype a Void where injectSub = undefined projectSub = undefined -- | See Note [Uncluttering type signatures] -- >>> :t _Sub @Int -- _Sub @Int -- :: (AsSubtype Int sup, Choice p, Applicative f) => -- p Int (f Int) -> p sup (f sup) instance {-# OVERLAPPING #-} AsSubtype Void a where injectSub = undefined projectSub = undefined