{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE UndecidableInstances #-}
module Polysemy.ConstraintAbsorber.MonadError
( absorbError
) where
import qualified Control.Monad.Error.Class as S
import Polysemy
import Polysemy.ConstraintAbsorber
import Polysemy.Error
absorbError
:: Member (Error e) r
=> (S.MonadError e (Sem r) => Sem r a)
-> Sem r a
absorbError :: (MonadError e (Sem r) => Sem r a) -> Sem r a
absorbError = ErrorDict e (Sem r)
-> (forall s.
Reifies s (ErrorDict e (Sem r)) :- MonadError e (Action (Sem r) s))
-> (MonadError e (Sem r) => Sem r a)
-> Sem r a
forall (p :: (* -> *) -> Constraint) (x :: (* -> *) -> * -> * -> *)
d (r :: EffectRow) a.
d
-> (forall s. Reifies s d :- p (x (Sem r) s))
-> (p (Sem r) => Sem r a)
-> Sem r a
absorbWithSem @(S.MonadError _) @Action
((forall a. e -> Sem r a)
-> (forall a. Sem r a -> (e -> Sem r a) -> Sem r a)
-> ErrorDict e (Sem r)
forall k e (m :: k -> *).
(forall (a :: k). e -> m a)
-> (forall (a :: k). m a -> (e -> m a) -> m a) -> ErrorDict e m
ErrorDict forall a. e -> Sem r a
forall e (r :: EffectRow) a. Member (Error e) r => e -> Sem r a
throw forall a. Sem r a -> (e -> Sem r a) -> Sem r a
forall e (r :: EffectRow) a.
Member (Error e) r =>
Sem r a -> (e -> Sem r a) -> Sem r a
catch)
((Reifies s (ErrorDict e (Sem r)) =>
Dict (MonadError e (Action (Sem r) s)))
-> Reifies s (ErrorDict e (Sem r))
:- MonadError e (Action (Sem r) s)
forall (a :: Constraint) (b :: Constraint). (a => Dict b) -> a :- b
Sub Reifies s (ErrorDict e (Sem r)) =>
Dict (MonadError e (Action (Sem r) s))
forall (a :: Constraint). a => Dict a
Dict)
{-# INLINEABLE absorbError #-}
data ErrorDict e m = ErrorDict
{ ErrorDict e m -> forall (a :: k). e -> m a
throwError_ :: forall a. e -> m a
, ErrorDict e m -> forall (a :: k). m a -> (e -> m a) -> m a
catchError_ :: forall a. m a -> (e -> m a) -> m a
}
newtype Action m s' a = Action { Action m s' a -> m a
action :: m a }
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(a -> b) -> Action m s' a -> Action m s' b
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instance ( Monad m
, Reifies s' (ErrorDict e m)
) => S.MonadError e (Action m s') where
throwError :: e -> Action m s' a
throwError e
e = m a -> Action m s' a
forall k k (m :: k -> *) (s' :: k) (a :: k). m a -> Action m s' a
Action (m a -> Action m s' a) -> m a -> Action m s' a
forall a b. (a -> b) -> a -> b
$ ErrorDict e m -> e -> m a
forall e k (m :: k -> *).
ErrorDict e m -> forall (a :: k). e -> m a
throwError_ (Proxy s' -> ErrorDict e m
forall k (s :: k) a (proxy :: k -> *). Reifies s a => proxy s -> a
reflect (Proxy s' -> ErrorDict e m) -> Proxy s' -> ErrorDict e m
forall a b. (a -> b) -> a -> b
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forall k (t :: k). Proxy t
Proxy @s') e
e
{-# INLINEABLE throwError #-}
catchError :: Action m s' a -> (e -> Action m s' a) -> Action m s' a
catchError Action m s' a
x e -> Action m s' a
f = m a -> Action m s' a
forall k k (m :: k -> *) (s' :: k) (a :: k). m a -> Action m s' a
Action (m a -> Action m s' a) -> m a -> Action m s' a
forall a b. (a -> b) -> a -> b
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catchError_ (Proxy s' -> ErrorDict e m
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action Action m s' a
x) (Action m s' a -> m a
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action (Action m s' a -> m a) -> (e -> Action m s' a) -> e -> m a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. e -> Action m s' a
f)
{-# INLINEABLE catchError #-}