{-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE KindSignatures #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE UndecidableInstances #-} {-# OPTIONS_GHC -Wno-redundant-constraints #-} module Data.Diverse.Cases ( Cases , cases , cases' , CasesN , casesN , casesN' ) where import Data.Diverse.Case import Data.Diverse.Many import Data.Diverse.Reiterate import Data.Diverse.TypeLevel import Data.Kind import Data.Proxy import GHC.TypeLits -- | Contains a 'Many' of handlers/continuations for all the types in the 'xs' typelist. -- This uses __'fetch'__ to get the unique handler for the type at the 'Head' of @xs@. -- -- Use 'cases' to construct this with 'SameLength' constraint to reduce programming confusion. newtype Cases (fs :: [Type]) r (xs :: [Type]) = Cases (Many fs) type instance CaseResult (Cases fs r) x = r instance Reiterate (Cases fs r) xs where reiterate (Cases s) = Cases s -- | UndecidableInstances because @fs@ appers more often. instance UniqueMember (Head xs -> r) fs => Case (Cases fs r) xs where case' (Cases s) = fetch @(Head xs -> r) s -- | Create an instance of 'Case' for either handling 'Data.Diverse.Which.switch'ing a 'Which'. -- -- @ -- let y = 'Data.Diverse.Which.pick' (5 :: Int) :: 'Data.Diverse.Which.Which' '[Int, Bool] -- 'Data.Diverse.Which.switch' y ( -- 'cases' (show \@Bool -- './' show \@Int -- './' 'nul')) \`shouldBe` "5" -- @ -- -- Or for handling 'collect' from a 'Many'. -- -- @ -- let x = (5 :: Int) './' False './' \'X' './' Just \'O' './' (6 :: Int) './' Just \'A' './' 'nul' -- y = show \@Int './' show \@Char './' show \@(Maybe Char) './' show \@Bool './' 'nul' -- 'Data.Diverse.AFoldable.afoldr' (:) [] ('collect' x ('cases' y)) \`shouldBe` -- [\"5", \"False", \"'X'", \"Just \'O'", \"6", \"Just \'A'"] -- @ -- -- This function imposes additional @SameLength@ constraints than when using the 'Cases' constructor directly. -- It is better practice to use 'cases' to prevent programming confusion with dead code. -- However, the 'Cases' constructor is still exported to allow creating a master-of-all-'Case'. cases :: forall r xs fs. (AllConstrained ((~) r) (CaseResults (Cases fs r) fs), SameLength fs (Nub xs)) => Many fs -> Cases fs r xs cases = Cases -- | A variation of 'cases' without the @SameLength@ constraint to allow creating a master-of-all-'Case'. cases' :: forall r xs fs. (AllConstrained ((~) r) (CaseResults (Cases fs r) fs)) => Many fs -> Cases fs r xs cases' = Cases -- -- | Create a partially appliable contraint :: [Type] -> Constraint -- -- Idea from https://hackage.haskell.org/package/constraint-manip-0.1.0.0/docs/src/Control.ConstraintManip.html -- -- type MyC f xs = (f xs) -- class (f xs) => MyC f xs -- instance (f xs) => MyC f xs ----------------------------------------------- -- | A variation of 'Cases' which uses __'fetchN'__ to get the handler by index. -- There may be different handlers for the same type, but the handlers must be in the same order -- as the input @xs@ typelist. -- Use 'casesN' to construct this safely ensuring @n@ starts at 0. newtype CasesN (fs :: [Type]) r (n :: Nat) (xs :: [Type]) = CasesN (Many fs) type instance CaseResult (CasesN fs r n) x = r instance ReiterateN (CasesN fs r) n xs where reiterateN (CasesN s) = CasesN s -- | UndecidableInstances because @fs@ appears more often. instance (MemberAt n (Head xs -> r) fs) => Case (CasesN fs r n) xs where case' (CasesN s) = fetchN (Proxy @n) s -- | Safe Constructor for 'CasesN' ensuring that the @n@ Nat starts at 0. -- It is an instance of 'CaseN' for either handling 'Data.Diverse.Which.switchN'ing a 'Which' in index order. -- -- @ -- let y = 'Data.Diverse.Which.pickN' @0 Proxy (5 :: Int) :: Which '[Int, Bool, Bool, Int] -- 'Data.Diverse.Which.switchN' y ( -- 'casesN' (show \@Int -- './' show \@Bool -- './' show \@Bool -- './' show \@Int -- './' 'nul')) \`shouldBe` "5" -- @ -- -- Or for handling 'collectN' from a 'Many'. -- -- @ -- let x = (5 :: Int) './' False './' \'X' './' Just \'O' './' (6 :: Int) './' Just \'A' './' 'nul' -- y = show \@Int './' show \@Bool './' show \@Char './' show \@(Maybe Char) './' show \@Int './' show \@(Maybe Char) './' 'nul' -- 'Data.Diverse.AFoldable.afoldr' (:) [] ('collectN' x ('casesN' y)) \`shouldBe` -- [\"5", \"False", \"'X'", \"Just \'O'", \"6", \"Just \'A'"] -- @ casesN :: forall r xs fs. (AllConstrained ((~) r) (CaseResults (CasesN fs r 0) fs), SameLength fs xs) => Many fs -> CasesN fs r 0 xs casesN = CasesN -- | A variation of 'casesN' without the @SameLength@ constraint to allow creating a master-of-all-'Case'. casesN' :: forall r xs fs. (AllConstrained ((~) r) (CaseResults (CasesN fs r 0) fs)) => Many fs -> CasesN fs r 0 xs casesN' = CasesN