cleff-0.2.0.0: src/Cleff/Error.hs
{-# LANGUAGE AllowAmbiguousTypes #-}
{-# LANGUAGE Trustworthy #-}
-- |
-- Copyright: (c) 2021 Xy Ren
-- License: BSD3
-- Maintainer: xy.r@outlook.com
-- Stability: experimental
-- Portability: non-portable (GHC only)
module Cleff.Error
( -- * Effect
Error (..)
, -- * Operations
throwError, catchError, fromEither, fromException, fromExceptionVia, fromExceptionEff, fromExceptionEffVia,
note, catchErrorJust, catchErrorIf, handleError, handleErrorJust, handleErrorIf, tryError, tryErrorJust
, -- * Interpretations
runError, mapError
) where
import Cleff
import Cleff.Internal.Any
import Cleff.Internal.Base
import Control.Exception (Exception)
import Data.Bool (bool)
import Data.Unique (Unique, hashUnique, newUnique)
import qualified UnliftIO.Exception as Exc
-- * Effect
-- | An effect capable of breaking out of current control flow by raising an exceptional value @e@. This effect roughly
-- corresponds to the @MonadError@ typeclass and @ExceptT@ monad transformer in @mtl@.
data Error e :: Effect where
ThrowError :: e -> Error e m a
CatchError :: m a -> (e -> m a) -> Error e m a
-- * Operations
makeEffect ''Error
-- | Lift an 'Either' value into the 'Error' effect.
fromEither :: Error e :> es => Either e a -> Eff es a
fromEither = either throwError pure
-- | Lift exceptions generated by an 'IO' computation into the 'Error' effect.
fromException :: ∀ e es a. (Exc.Exception e, '[Error e, IOE] :>> es) => IO a -> Eff es a
fromException m = Exc.catch (liftIO m) (throwError @e)
-- | Like 'fromException', but allows to transform the exception into another error type.
fromExceptionVia :: (Exc.Exception ex, '[Error er, IOE] :>> es) => (ex -> er) -> IO a -> Eff es a
fromExceptionVia f m = Exc.catch (liftIO m) (throwError . f)
-- | Lift exceptions generated by an 'Eff' computation into the 'Error' effect.
fromExceptionEff :: ∀ e es a. (Exc.Exception e, '[Error e, IOE] :>> es) => Eff es a -> Eff es a
fromExceptionEff m = withRunInIO \unlift -> Exc.catch (unlift m) (unlift . throwError @e)
-- | Like 'fromExceptionEff', but allows to transform the exception into another error type.
fromExceptionEffVia :: (Exc.Exception ex, '[Error er, IOE] :>> es) => (ex -> er) -> Eff es a -> Eff es a
fromExceptionEffVia f m = withRunInIO \unlift -> Exc.catch (unlift m) (unlift . throwError . f)
-- | Try to extract a value from 'Maybe', throw an error otherwise.
note :: Error e :> es => e -> Maybe a -> Eff es a
note e = maybe (throwError e) pure
-- | A variant of 'catchError' that allows a predicate to choose whether to catch ('Just') or rethrow ('Nothing') the
-- error.
catchErrorJust :: Error e :> es => (e -> Maybe b) -> Eff es a -> (b -> Eff es a) -> Eff es a
catchErrorJust f m h = m `catchError` \e -> maybe (throwError e) h $ f e
-- | A variant of 'catchError' that allows a predicate to choose whether to catch ('True') or rethrow ('False') the
-- error.
catchErrorIf :: Error e :> es => (e -> Bool) -> Eff es a -> (e -> Eff es a) -> Eff es a
catchErrorIf f m h = m `catchError` \e -> bool (throwError e) (h e) $ f e
-- | Flipped version of 'catchError'.
handleError :: Error e :> es => (e -> Eff es a) -> Eff es a -> Eff es a
handleError = flip catchError
-- | Flipped version of 'catchErrorJust'.
handleErrorJust :: Error e :> es => (e -> Maybe b) -> (b -> Eff es a) -> Eff es a -> Eff es a
handleErrorJust = flip . catchErrorJust
-- | Flipped version of 'catchErrorIf'.
handleErrorIf :: Error e :> es => (e -> Bool) -> (e -> Eff es a) -> Eff es a -> Eff es a
handleErrorIf = flip . catchErrorIf
-- | Runs a computation, returning a 'Left' value if an error was thrown.
tryError :: Error e :> es => Eff es a -> Eff es (Either e a)
tryError m = (Right <$> m) `catchError` (pure . Left)
-- | A variant of 'tryError' that allows a predicate to choose whether to catch ('True') or rethrow ('False') the
-- error.
tryErrorJust :: Error e :> es => (e -> Maybe b) -> Eff es a -> Eff es (Either b a)
tryErrorJust f m = (Right <$> m) `catchError` \e -> maybe (throwError e) (pure . Left) $ f e
-- * Interpretations
-- | Exception wrapper used in 'runError' in order not to conflate error types with exception types.
data ErrorExc = ErrorExc !Unique Any
instance Exception ErrorExc
instance Show ErrorExc where
showsPrec _ (ErrorExc uid _) =
("Cleff.Error.runError: Escaped error (error UID hash: " <>) . shows (hashUnique uid) . ("). This is possibly due \
\to trying to 'throwError' in a forked thread, or trying to 'wait' on an error-throwing 'Async' computation out \
\of the effect scope where it is created. Refer to the haddock of 'runError' for details on the caveats. If all \
\those shenanigans mentioned or other similar ones seem unlikely, please report this as a bug." <>)
catch' :: ∀ e m a. MonadUnliftIO m => Unique -> m a -> (e -> m a) -> m a
catch' eid m h = m `Exc.catch` \ex@(ErrorExc eid' e) -> if eid == eid' then h (fromAny e) else Exc.throwIO ex
{-# INLINE catch' #-}
try' :: ∀ e m a. MonadUnliftIO m => Unique -> m a -> m (Either e a)
try' eid m = catch' eid (Right <$> m) (pure . Left)
{-# INLINE try' #-}
errorHandler :: Unique -> Handler (Error e) (IOE ': es)
errorHandler eid = \case
ThrowError e -> Exc.throwIO $ ErrorExc eid (toAny e)
CatchError m' h' -> withToIO \toIO -> liftIO $ catch' eid (toIO m') (toIO . h')
{-# INLINE errorHandler #-}
-- | Run an 'Error' effect.
--
-- __Caveat__: 'runError' is implemented with 'Exc.Exception's therefore inherits some of its unexpected behaviors.
-- Errors thrown in forked threads will /not/ be directly caught by 'catchError's in the parent thread. Instead it will
-- incur an exception, and we won't be quite able to display the details of that exception properly at that point.
-- Therefore please properly handle the errors in the forked threads separately.
--
-- However if you use @async@ and @wait@ for the action in the same effect scope (i.e. they get to be interpreted by
-- the same 'runError' handler), the error /will/ be caught in the parent thread even if you don't deal with it in the
-- forked thread. But if you passed the @Async@ value out of the effect scope and @wait@ed for it elsewhere, the error
-- will again not be caught. The best choice is /not to pass @Async@ values around randomly/.
runError :: ∀ e es a. Eff (Error e ': es) a -> Eff es (Either e a)
runError m = thisIsPureTrustMe do
eid <- liftIO newUnique
try' eid $ reinterpret (errorHandler eid) m
{-# INLINE runError #-}
-- | Transform an 'Error' into another. This is useful for aggregating multiple errors into one type.
mapError :: ∀ e e' es. Error e' :> es => (e -> e') -> Eff (Error e ': es) ~> Eff es
mapError f = thisIsPureTrustMe . reinterpret \case
ThrowError e -> throwError $ f e
CatchError m h -> do
eid <- liftIO newUnique
res <- try' @e eid $ toEffWith (errorHandler eid) m
case res of
Left e -> toEff (h e)
Right a -> pure a
{-# INLINE mapError #-}