#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 702
#endif
#ifndef MIN_VERSION_transformers
#define MIN_VERSION_transformers(x,y,z) 1
#endif
#ifndef MIN_VERSION_mtl
#define MIN_VERSION_mtl(x,y,z) 1
#endif
module Control.Monad.Catch.Pure (
CatchT(..), Catch
, runCatch
, mapCatchT
, module Control.Monad.Catch
) where
#if defined(__GLASGOW_HASKELL__) && (__GLASGOW_HASKELL__ >= 706)
import Prelude hiding (foldr)
#else
import Prelude hiding (catch, foldr)
#endif
import Control.Applicative
import Control.Monad.Catch
import Control.Monad.Reader as Reader
import Control.Monad.RWS
#if __GLASGOW_HASKELL__ < 710
import Data.Foldable
#endif
import Data.Functor.Identity
import Data.Traversable as Traversable
newtype CatchT m a = CatchT { runCatchT :: m (Either SomeException a) }
type Catch = CatchT Identity
runCatch :: Catch a -> Either SomeException a
runCatch = runIdentity . runCatchT
instance Monad m => Functor (CatchT m) where
fmap f (CatchT m) = CatchT (liftM (fmap f) m)
instance Monad m => Applicative (CatchT m) where
pure a = CatchT (return (Right a))
(<*>) = ap
instance Monad m => Monad (CatchT m) where
return = pure
CatchT m >>= k = CatchT $ m >>= \ea -> case ea of
Left e -> return (Left e)
Right a -> runCatchT (k a)
fail = CatchT . return . Left . toException . userError
instance MonadFix m => MonadFix (CatchT m) where
mfix f = CatchT $ mfix $ \a -> runCatchT $ f $ case a of
Right r -> r
_ -> error "empty mfix argument"
instance Foldable m => Foldable (CatchT m) where
foldMap f (CatchT m) = foldMap (foldMapEither f) m where
foldMapEither g (Right a) = g a
foldMapEither _ (Left _) = mempty
instance (Monad m, Traversable m) => Traversable (CatchT m) where
traverse f (CatchT m) = CatchT <$> Traversable.traverse (traverseEither f) m where
traverseEither g (Right a) = Right <$> g a
traverseEither _ (Left e) = pure (Left e)
instance Monad m => Alternative (CatchT m) where
empty = mzero
(<|>) = mplus
instance Monad m => MonadPlus (CatchT m) where
mzero = CatchT $ return $ Left $ toException $ userError ""
mplus (CatchT m) (CatchT n) = CatchT $ m >>= \ea -> case ea of
Left _ -> n
Right a -> return (Right a)
instance MonadTrans CatchT where
lift m = CatchT $ do
a <- m
return $ Right a
instance MonadIO m => MonadIO (CatchT m) where
liftIO m = CatchT $ do
a <- liftIO m
return $ Right a
instance Monad m => MonadThrow (CatchT m) where
throwM = CatchT . return . Left . toException
instance Monad m => MonadCatch (CatchT m) where
catch (CatchT m) c = CatchT $ m >>= \ea -> case ea of
Left e -> case fromException e of
Just e' -> runCatchT (c e')
Nothing -> return (Left e)
Right a -> return (Right a)
instance Monad m => MonadMask (CatchT m) where
mask a = a id
uninterruptibleMask a = a id
generalBracket acquire release cleanup use = CatchT $ do
eresource <- runCatchT acquire
case eresource of
Left e -> return $ Left e
Right resource -> do
eresult <- runCatchT (use resource)
case eresult of
Left e -> do
_ <- runCatchT (cleanup resource e)
return $ Left e
Right result -> do
_ <- runCatchT (release resource)
return $ Right result
instance MonadState s m => MonadState s (CatchT m) where
get = lift get
put = lift . put
#if MIN_VERSION_mtl(2,1,0)
state = lift . state
#endif
instance MonadReader e m => MonadReader e (CatchT m) where
ask = lift ask
local f (CatchT m) = CatchT (local f m)
instance MonadWriter w m => MonadWriter w (CatchT m) where
tell = lift . tell
listen = mapCatchT $ \ m -> do
(a, w) <- listen m
return $! fmap (\ r -> (r, w)) a
pass = mapCatchT $ \ m -> pass $ do
a <- m
return $! case a of
Left l -> (Left l, id)
Right (r, f) -> (Right r, f)
#if MIN_VERSION_mtl(2,1,0)
writer aw = CatchT (Right `liftM` writer aw)
#endif
instance MonadRWS r w s m => MonadRWS r w s (CatchT m)
mapCatchT :: (m (Either SomeException a) -> n (Either SomeException b))
-> CatchT m a
-> CatchT n b
mapCatchT f m = CatchT $ f (runCatchT m)