{-# OPTIONS -fallow-undecidable-instances #-} {-# OPTIONS_GHC -fno-warn-orphans #-} -- Temporary, I hope. SLPJ Aug08 -- Needed for the same reasons as in Reader, State etc {- | Module : Control.Monad.Error Copyright : (c) Michael Weber <michael.weber@post.rwth-aachen.de> 2001, (c) Jeff Newbern 2003-2006, (c) Andriy Palamarchuk 2006 License : BSD-style (see the file libraries/base/LICENSE) Maintainer : libraries@haskell.org Stability : experimental Portability : non-portable (multi-parameter type classes) [Computation type:] Computations which may fail or throw exceptions. [Binding strategy:] Failure records information about the cause\/location of the failure. Failure values bypass the bound function, other values are used as inputs to the bound function. [Useful for:] Building computations from sequences of functions that may fail or using exception handling to structure error handling. [Zero and plus:] Zero is represented by an empty error and the plus operation executes its second argument if the first fails. [Example type:] @'Data.Either' String a@ The Error monad (also called the Exception monad). -} {- Rendered by Michael Weber <mailto:michael.weber@post.rwth-aachen.de>, inspired by the Haskell Monad Template Library from Andy Gill (<http://www.cse.ogi.edu/~andy/>) -} module Control.Monad.Error ( module Control.Monad.Error.Class, ErrorT(..), mapErrorT, module Control.Monad, module Control.Monad.Fix, module Control.Monad.Trans, -- * Example 1: Custom Error Data Type -- $customErrorExample -- * Example 2: Using ErrorT Monad Transformer -- $ErrorTExample ) where import Control.Monad import Control.Monad.Cont.Class import Control.Monad.Error.Class import Control.Monad.Fix import Control.Monad.Reader.Class import Control.Monad.State.Class import Control.Monad.Trans import Control.Monad.Writer.Class import Control.Monad.RWS.Class import Control.Monad.Instances () instance MonadPlus IO where mzero = ioError (userError "mzero") m `mplus` n = m `catch` \_ -> n instance MonadError IOError IO where throwError = ioError catchError = catch -- --------------------------------------------------------------------------- -- Our parameterizable error monad instance (Error e) => Monad (Either e) where return = Right Left l >>= _ = Left l Right r >>= k = k r fail msg = Left (strMsg msg) instance (Error e) => MonadPlus (Either e) where mzero = Left noMsg Left _ `mplus` n = n m `mplus` _ = m instance (Error e) => MonadFix (Either e) where mfix f = let a = f $ case a of Right r -> r _ -> error "empty mfix argument" in a instance (Error e) => MonadError e (Either e) where throwError = Left Left l `catchError` h = h l Right r `catchError` _ = Right r {- | The error monad transformer. It can be used to add error handling to other monads. The @ErrorT@ Monad structure is parameterized over two things: * e - The error type. * m - The inner monad. Here are some examples of use: > -- wraps IO action that can throw an error e > type ErrorWithIO e a = ErrorT e IO a > ==> ErrorT (IO (Either e a)) > > -- IO monad wrapped in StateT inside of ErrorT > type ErrorAndStateWithIO e s a = ErrorT e (StateT s IO) a > ==> ErrorT (StateT s IO (Either e a)) > ==> ErrorT (StateT (s -> IO (Either e a,s))) -} newtype ErrorT e m a = ErrorT { runErrorT :: m (Either e a) } mapErrorT :: (m (Either e a) -> n (Either e' b)) -> ErrorT e m a -> ErrorT e' n b mapErrorT f m = ErrorT $ f (runErrorT m) instance (Monad m) => Functor (ErrorT e m) where fmap f m = ErrorT $ do a <- runErrorT m case a of Left l -> return (Left l) Right r -> return (Right (f r)) instance (Monad m, Error e) => Monad (ErrorT e m) where return a = ErrorT $ return (Right a) m >>= k = ErrorT $ do a <- runErrorT m case a of Left l -> return (Left l) Right r -> runErrorT (k r) fail msg = ErrorT $ return (Left (strMsg msg)) instance (Monad m, Error e) => MonadPlus (ErrorT e m) where mzero = ErrorT $ return (Left noMsg) m `mplus` n = ErrorT $ do a <- runErrorT m case a of Left _ -> runErrorT n Right r -> return (Right r) instance (MonadFix m, Error e) => MonadFix (ErrorT e m) where mfix f = ErrorT $ mfix $ \a -> runErrorT $ f $ case a of Right r -> r _ -> error "empty mfix argument" instance (Monad m, Error e) => MonadError e (ErrorT e m) where throwError l = ErrorT $ return (Left l) m `catchError` h = ErrorT $ do a <- runErrorT m case a of Left l -> runErrorT (h l) Right r -> return (Right r) -- --------------------------------------------------------------------------- -- Instances for other mtl transformers instance (Error e) => MonadTrans (ErrorT e) where lift m = ErrorT $ do a <- m return (Right a) instance (Error e, MonadIO m) => MonadIO (ErrorT e m) where liftIO = lift . liftIO instance (Error e, MonadCont m) => MonadCont (ErrorT e m) where callCC f = ErrorT $ callCC $ \c -> runErrorT (f (\a -> ErrorT $ c (Right a))) instance (Error e, MonadRWS r w s m) => MonadRWS r w s (ErrorT e m) instance (Error e, MonadReader r m) => MonadReader r (ErrorT e m) where ask = lift ask local f m = ErrorT $ local f (runErrorT m) instance (Error e, MonadState s m) => MonadState s (ErrorT e m) where get = lift get put = lift . put instance (Error e, MonadWriter w m) => MonadWriter w (ErrorT e m) where tell = lift . tell listen m = ErrorT $ do (a, w) <- listen (runErrorT m) case a of Left l -> return $ Left l Right r -> return $ Right (r, w) pass m = ErrorT $ pass $ do a <- runErrorT m case a of Left l -> return (Left l, id) Right (r, f) -> return (Right r, f) {- $customErrorExample Here is an example that demonstrates the use of a custom 'Error' data type with the 'throwError' and 'catchError' exception mechanism from 'MonadError'. The example throws an exception if the user enters an empty string or a string longer than 5 characters. Otherwise it prints length of the string. >-- This is the type to represent length calculation error. >data LengthError = EmptyString -- Entered string was empty. > | StringTooLong Int -- A string is longer than 5 characters. > -- Records a length of the string. > | OtherError String -- Other error, stores the problem description. > >-- We make LengthError an instance of the Error class >-- to be able to throw it as an exception. >instance Error LengthError where > noMsg = OtherError "A String Error!" > strMsg s = OtherError s > >-- Converts LengthError to a readable message. >instance Show LengthError where > show EmptyString = "The string was empty!" > show (StringTooLong len) = > "The length of the string (" ++ (show len) ++ ") is bigger than 5!" > show (OtherError msg) = msg > >-- For our monad type constructor, we use Either LengthError >-- which represents failure using Left LengthError >-- or a successful result of type a using Right a. >type LengthMonad = Either LengthError > >main = do > putStrLn "Please enter a string:" > s <- getLine > reportResult (calculateLength s) > >-- Wraps length calculation to catch the errors. >-- Returns either length of the string or an error. >calculateLength :: String -> LengthMonad Int >calculateLength s = (calculateLengthOrFail s) `catchError` Left > >-- Attempts to calculate length and throws an error if the provided string is >-- empty or longer than 5 characters. >-- The processing is done in Either monad. >calculateLengthOrFail :: String -> LengthMonad Int >calculateLengthOrFail [] = throwError EmptyString >calculateLengthOrFail s | len > 5 = throwError (StringTooLong len) > | otherwise = return len > where len = length s > >-- Prints result of the string length calculation. >reportResult :: LengthMonad Int -> IO () >reportResult (Right len) = putStrLn ("The length of the string is " ++ (show len)) >reportResult (Left e) = putStrLn ("Length calculation failed with error: " ++ (show e)) -} {- $ErrorTExample @'ErrorT'@ monad transformer can be used to add error handling to another monad. Here is an example how to combine it with an @IO@ monad: >import Control.Monad.Error > >-- An IO monad which can return String failure. >-- It is convenient to define the monad type of the combined monad, >-- especially if we combine more monad transformers. >type LengthMonad = ErrorT String IO > >main = do > -- runErrorT removes the ErrorT wrapper > r <- runErrorT calculateLength > reportResult r > >-- Asks user for a non-empty string and returns its length. >-- Throws an error if user enters an empty string. >calculateLength :: LengthMonad Int >calculateLength = do > -- all the IO operations have to be lifted to the IO monad in the monad stack > liftIO $ putStrLn "Please enter a non-empty string: " > s <- liftIO getLine > if null s > then throwError "The string was empty!" > else return $ length s > >-- Prints result of the string length calculation. >reportResult :: Either String Int -> IO () >reportResult (Right len) = putStrLn ("The length of the string is " ++ (show len)) >reportResult (Left e) = putStrLn ("Length calculation failed with error: " ++ (show e)) -}