{-# LANGUAGE PackageImports #-} {-# LANGUAGE AllowAmbiguousTypes #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE FunctionalDependencies #-} {-# LANGUAGE KindSignatures #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE UndecidableInstances #-} {-# LANGUAGE FlexibleContexts #-} ----------------------------------------------------------------------------- -- | -- Module : Data.Generics.Sum.Constructors -- Copyright : (C) 2020 Csongor Kiss -- License : BSD3 -- Maintainer : Csongor Kiss -- Stability : experimental -- Portability : non-portable -- -- Derive constructor-name-based prisms generically. -- ----------------------------------------------------------------------------- module Data.Generics.Sum.Constructors ( -- *Prisms -- $setup AsConstructor (..) , AsConstructor_ (..) , AsConstructor' (..) , AsConstructor0 (..) ) where import "this" Data.Generics.Internal.Optics import "generic-lens-core" Data.Generics.Internal.Void import qualified "generic-lens-core" Data.Generics.Sum.Internal.Constructors as Core import GHC.TypeLits (Symbol) -- $setup -- == /Running example:/ -- -- >>> :set -XTypeApplications -- >>> :set -XDataKinds -- >>> :set -XDeriveGeneric -- >>> :set -XFlexibleContexts -- >>> :set -XTypeFamilies -- >>> import GHC.Generics -- >>> import Optics.Core -- >>> :m +Data.Generics.Product.Fields -- >>> :m +Data.Function -- >>> :{ -- data Animal a -- = Dog (Dog a) -- | Cat Name Age -- | Duck Age -- deriving (Generic, Show) -- data Dog a -- = MkDog -- { name :: Name -- , age :: Age -- , fieldA :: a -- } -- deriving Show -- type Name = String -- type Age = Int -- dog, cat, duck :: Animal Int -- dog = Dog (MkDog "Shep" 3 30) -- cat = Cat "Mog" 5 -- duck = Duck 2 -- :} -- |Sums that have a constructor with a given name. class AsConstructor (ctor :: Symbol) s t a b | ctor s -> a, ctor t -> b where -- |A prism that projects a named constructor from a sum. -- -- >>> dog ^? _Ctor @"Dog" -- Just (MkDog {name = "Shep", age = 3, fieldA = 30}) -- -- >>> dog ^? _Ctor @"Cat" -- Nothing -- -- >>> cat ^? _Ctor @"Cat" -- Just ("Mog",5) -- -- >>> _Ctor @"Cat" # ("Garfield", 6) :: Animal Int -- Cat "Garfield" 6 -- -- === /Type errors/ -- -- >>> cat ^? _Ctor @"Turtle" -- ... -- ... -- ... The type Animal Int does not contain a constructor named "Turtle" -- ... _Ctor :: Prism s t a b -- |Sums that have a constructor with a given name. -- -- The difference between 'HasConstructor' and 'HasConstructor_' is similar to -- the one between 'Data.Generics.Product.Fields.HasField' and -- 'Data.Generics.Product.Fields.HasField_'. -- See 'Data.Generics.Product.Fields.HasField_'. class AsConstructor_ (ctor :: Symbol) s t a b where _Ctor_ :: Prism s t a b class AsConstructor' (ctor :: Symbol) s a | ctor s -> a where _Ctor' :: Prism s s a a -- |Sums that have a constructor with a given name. -- -- This class gives the minimal constraints needed to define this prism. -- For common uses, see 'HasConstructor'. class AsConstructor0 (ctor :: Symbol) s t a b where _Ctor0 :: Prism s t a b instance (Core.Context' ctor s a, AsConstructor0 ctor s s a a) => AsConstructor' ctor s a where _Ctor' = _Ctor0 @ctor {-# INLINE _Ctor' #-} instance (Core.Context ctor s t a b, AsConstructor0 ctor s t a b) => AsConstructor ctor s t a b where _Ctor = _Ctor0 @ctor {-# INLINE _Ctor #-} -- | See Note [Uncluttering type signatures] -- >>> :t _Ctor -- _Ctor :: AsConstructor ctor s t a b => Prism s t a b instance {-# OVERLAPPING #-} AsConstructor ctor (Void1 a) (Void1 b) a b where _Ctor = undefined instance (Core.Context_ ctor s t a b, AsConstructor0 ctor s t a b) => AsConstructor_ ctor s t a b where _Ctor_ = _Ctor0 @ctor {-# INLINE _Ctor_ #-} instance {-# OVERLAPPING #-} AsConstructor_ ctor (Void1 a) (Void1 b) a b where _Ctor_ = undefined instance Core.Context0 ctor s t a b => AsConstructor0 ctor s t a b where _Ctor0 = normalisePrism (Optic (Core.derived0 @ctor)) {-# INLINE _Ctor0 #-}