{-# LANGUAGE CPP #-} {-# LANGUAGE FunctionalDependencies #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE UndecidableInstances #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE KindSignatures #-} #if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 707 {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE PolyKinds #-} {-# LANGUAGE RoleAnnotations #-} #endif #ifndef MIN_VERSION_base #define MIN_VERSION_base(x,y,z) 1 #endif ----------------------------------------------------------------------------- -- | -- Module : Control.Lens.Internal.Exception -- Copyright : (C) 2013-2016 Edward Kmett -- License : BSD-style (see the file LICENSE) -- Maintainer : Edward Kmett <ekmett@gmail.com> -- Stability : experimental -- Portability : non-portable -- -- This module uses dirty tricks to generate a 'Handler' from an arbitrary -- 'Fold'. ---------------------------------------------------------------------------- module Control.Lens.Internal.Exception ( Handleable(..) , HandlingException(..) ) where import Control.Exception as Exception import Control.Lens.Fold import Control.Lens.Getter import Control.Monad.Catch as Catch import Data.Monoid import Data.Proxy import Data.Reflection import Data.Typeable -- This is needed because ghc 7.8-rc2 has Typeable1 as a type alias. #if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 707 #define Typeable1 Typeable #endif ------------------------------------------------------------------------------ -- Handlers ------------------------------------------------------------------------------ -- | Both @exceptions@ and "Control.Exception" provide a 'Handler' type. -- -- This lets us write combinators to build handlers that are agnostic about the choice of -- which of these they use. class Handleable e (m :: * -> *) (h :: * -> *) | h -> e m where -- | This builds a 'Handler' for just the targets of a given 'Control.Lens.Type.Prism' (or any 'Getter', really). -- -- @ -- 'catches' ... [ 'handler' 'Control.Exception.Lens._AssertionFailed' (\s -> 'print' '$' \"Assertion Failed\\n\" '++' s) -- , 'handler' 'Control.Exception.Lens._ErrorCall' (\s -> 'print' '$' \"Error\\n\" '++' s) -- ] -- @ -- -- This works ith both the 'Exception.Handler' type provided by @Control.Exception@: -- -- @ -- 'handler' :: 'Getter' 'SomeException' a -> (a -> 'IO' r) -> 'Exception.Handler' r -- 'handler' :: 'Fold' 'SomeException' a -> (a -> 'IO' r) -> 'Exception.Handler' r -- 'handler' :: 'Control.Lens.Prism.Prism'' 'SomeException' a -> (a -> 'IO' r) -> 'Exception.Handler' r -- 'handler' :: 'Control.Lens.Lens.Lens'' 'SomeException' a -> (a -> 'IO' r) -> 'Exception.Handler' r -- 'handler' :: 'Control.Lens.Traversal.Traversal'' 'SomeException' a -> (a -> 'IO' r) -> 'Exception.Handler' r -- @ -- -- and with the 'Catch.Handler' type provided by @Control.Monad.Catch@: -- -- @ -- 'handler' :: 'Getter' 'SomeException' a -> (a -> m r) -> 'Catch.Handler' m r -- 'handler' :: 'Fold' 'SomeException' a -> (a -> m r) -> 'Catch.Handler' m r -- 'handler' :: 'Control.Lens.Prism.Prism'' 'SomeException' a -> (a -> m r) -> 'Catch.Handler' m r -- 'handler' :: 'Control.Lens.Lens.Lens'' 'SomeException' a -> (a -> m r) -> 'Catch.Handler' m r -- 'handler' :: 'Control.Lens.Traversal.Traversal'' 'SomeException' a -> (a -> m r) -> 'Catch.Handler' m r -- @ -- -- and with the 'Control.Monad.Error.Lens.Handler' type provided by @Control.Monad.Error.Lens@: -- -- @ -- 'handler' :: 'Getter' e a -> (a -> m r) -> 'Control.Monad.Error.Lens.Handler' e m r -- 'handler' :: 'Fold' e a -> (a -> m r) -> 'Control.Monad.Error.Lens.Handler' e m r -- 'handler' :: 'Control.Lens.Prism.Prism'' e a -> (a -> m r) -> 'Control.Monad.Error.Lens.Handler' e m r -- 'handler' :: 'Control.Lens.Lens.Lens'' e a -> (a -> m r) -> 'Control.Monad.Error.Lens.Handler' e m r -- 'handler' :: 'Control.Lens.Traversal.Traversal'' e a -> (a -> m r) -> 'Control.Monad.Error.Lens.Handler' e m r -- @ handler :: Typeable a => Getting (First a) e a -> (a -> m r) -> h r -- | This builds a 'Handler' for just the targets of a given 'Control.Lens.Prism.Prism' (or any 'Getter', really). -- that ignores its input and just recovers with the stated monadic action. -- -- @ -- 'catches' ... [ 'handler_' 'Control.Exception.Lens._NonTermination' ('return' \"looped\") -- , 'handler_' 'Control.Exception.Lens._StackOverflow' ('return' \"overflow\") -- ] -- @ -- -- This works with the 'Exception.Handler' type provided by @Control.Exception@: -- -- @ -- 'handler_' :: 'Getter' 'SomeException' a -> 'IO' r -> 'Exception.Handler' r -- 'handler_' :: 'Fold' 'SomeException' a -> 'IO' r -> 'Exception.Handler' r -- 'handler_' :: 'Control.Lens.Prism.Prism'' 'SomeException' a -> 'IO' r -> 'Exception.Handler' r -- 'handler_' :: 'Control.Lens.Lens.Lens'' 'SomeException' a -> 'IO' r -> 'Exception.Handler' r -- 'handler_' :: 'Control.Lens.Traversal.Traversal'' 'SomeException' a -> 'IO' r -> 'Exception.Handler' r -- @ -- -- and with the 'Catch.Handler' type provided by @Control.Monad.Catch@: -- -- @ -- 'handler_' :: 'Getter' 'SomeException' a -> m r -> 'Catch.Handler' m r -- 'handler_' :: 'Fold' 'SomeException' a -> m r -> 'Catch.Handler' m r -- 'handler_' :: 'Control.Lens.Prism.Prism'' 'SomeException' a -> m r -> 'Catch.Handler' m r -- 'handler_' :: 'Control.Lens.Lens.Lens'' 'SomeException' a -> m r -> 'Catch.Handler' m r -- 'handler_' :: 'Control.Lens.Traversal.Traversal'' 'SomeException' a -> m r -> 'Catch.Handler' m r -- @ -- -- and with the 'Control.Monad.Error.Lens.Handler' type provided by @Control.Monad.Error.Lens@: -- -- @ -- 'handler_' :: 'Getter' e a -> m r -> 'Control.Monad.Error.Lens.Handler' e m r -- 'handler_' :: 'Fold' e a -> m r -> 'Control.Monad.Error.Lens.Handler' e m r -- 'handler_' :: 'Control.Lens.Prism.Prism'' e a -> m r -> 'Control.Monad.Error.Lens.Handler' e m r -- 'handler_' :: 'Control.Lens.Lens.Lens'' e a -> m r -> 'Control.Monad.Error.Lens.Handler' e m r -- 'handler_' :: 'Control.Lens.Traversal.Traversal'' e a -> m r -> 'Control.Monad.Error.Lens.Handler' e m r -- @ handler_ :: Typeable a => Getting (First a) e a -> m r -> h r handler_ l = handler l . const {-# INLINE handler_ #-} instance Handleable SomeException IO Exception.Handler where handler = handlerIO instance Typeable1 m => Handleable SomeException m (Catch.Handler m) where handler = handlerCatchIO handlerIO :: forall a r. Typeable a => Getting (First a) SomeException a -> (a -> IO r) -> Exception.Handler r handlerIO l f = reifyTypeable (preview l) $ \ (_ :: Proxy s) -> Exception.Handler (\(Handling a :: Handling a s IO) -> f a) handlerCatchIO :: forall m a r. (Typeable a, Typeable1 m) => Getting (First a) SomeException a -> (a -> m r) -> Catch.Handler m r handlerCatchIO l f = reifyTypeable (preview l) $ \ (_ :: Proxy s) -> Catch.Handler (\(Handling a :: Handling a s m) -> f a) ------------------------------------------------------------------------------ -- Helpers ------------------------------------------------------------------------------ -- | There was an 'Exception' caused by abusing the internals of a 'Handler'. data HandlingException = HandlingException deriving (Show,Typeable) instance Exception HandlingException {- -- | This supplies a globally unique set of IDs so we can hack around the default use of 'cast' in 'SomeException' -- if someone, somehow, somewhere decides to reach in and catch and rethrow a @Handling@ 'Exception' by existentially -- opening a 'Handler' that uses it. supply :: IORef Int supply = unsafePerformIO $ newIORef 0 {-# NOINLINE supply #-} -} -- | This permits the construction of an \"impossible\" 'Control.Exception.Handler' that matches only if some function does. newtype Handling a s (m :: * -> *) = Handling a #if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 707 deriving Typeable type role Handling representational nominal nominal #else -- the m parameter exists simply to break the Typeable1 pattern, so we can provide this without overlap. -- here we simply generate a fresh TypeRep so we'll fail to compare as equal to any other TypeRep. instance (Typeable a, Typeable s, Typeable1 m) => Typeable (Handling a s m) where typeOf _ = mkTyConApp handlingTyCon [typeOf (undefined :: a), typeOf (undefined :: s), typeOf1 (undefined :: m a)] {-# INLINE typeOf #-} handlingTyCon :: TyCon handlingTyCon = mkTyCon3 "lens" "Control.Lens.Internal.Exception" "Handling" {-# NOINLINE handlingTyCon #-} #endif -- The @Handling@ wrapper is uninteresting, and should never be thrown, so you won't get much benefit here. instance Show (Handling a s m) where showsPrec d _ = showParen (d > 10) $ showString "Handling ..." {-# INLINE showsPrec #-} instance (Reifies s (SomeException -> Maybe a), Typeable (Handling a s m)) => Exception (Handling a s m) where toException _ = SomeException HandlingException {-# INLINE toException #-} fromException = fmap Handling . reflect (Proxy :: Proxy s) {-# INLINE fromException #-}