module Control.Monad.Either ------------------------------------------------- -- The monad transformer `EitherT e m a` equips a monad with the ability to -- return a choice of two values. -- Sequenced actions of `Either e m a` produce a value `a` only if none of the -- actions in the sequence returned `e`. Because returning `e` exits the -- computation early, this can be seen as equipping a monad with the ability to -- throw an exception. -- This is more powerful than MaybeT which instead equips a monad with the -- ability to not return a result. ------------------------------------------------- import Control.Monad.Trans import Control.Monad.Reader import Control.Monad.State public export data EitherT : (e : Type) -> (m : Type -> Type) -> (a : Type) -> Type where MkEitherT : (1 _ : m (Either e a)) -> EitherT e m a export %inline runEitherT : EitherT e m a -> m (Either e a) runEitherT (MkEitherT x) = x export eitherT : Monad m => (a -> m c) -> (b -> m c) -> EitherT a m b -> m c eitherT f g x = runEitherT x >>= either f g ||| map the underlying computation ||| The basic 'unwrap, apply, rewrap' of this transformer. export %inline mapEitherT : (m (Either e a) -> n (Either e' a')) -> EitherT e m a -> EitherT e' n a' mapEitherT f = MkEitherT . f . runEitherT export bimapEitherT : Functor m => (a -> c) -> (b -> d) -> EitherT a m b -> EitherT c m d bimapEitherT f g x = mapEitherT (map (either (Left . f) (Right . g))) x ||| Analogous to Left, aka throwE export %inline left : Applicative m => e -> EitherT e m a left = MkEitherT . pure . Left ||| Analogous to Right, aka pure for EitherT export %inline right : Applicative m => a -> EitherT e m a right = MkEitherT . pure . Right export swapEitherT : Functor m => EitherT e m a -> EitherT a m e swapEitherT = mapEitherT (map (either Right Left)) ------------------------------------------------- -- Methods of the 'exception' theme ------------------------------------------------- ||| aka `left` export %inline throwE : Applicative m => e -> EitherT e m a throwE = MkEitherT . pure . Left export catchE : Monad m => EitherT e m a -> (e -> EitherT e' m a) -> EitherT e' m a catchE et f = MkEitherT $ runEitherT et >>= either (runEitherT . f) (pure . Right) ------------------------------------------------- -- Interface Implementations ------------------------------------------------- on : (b -> b -> c) -> (a -> b) -> a -> a -> c on f g x y = g x `f` g y public export Eq (m (Either e a)) => Eq (EitherT e m a) where (==) = (==) `on` runEitherT public export Ord (m (Either e a)) => Ord (EitherT e m a) where compare = compare `on` runEitherT public export Show (m (Either e a)) => Show (EitherT e m a) where showPrec d (MkEitherT x) = showCon d "MkEitherT" $ showArg x -- I'm not actually confident about having this instance but it is a sane -- default and since idris has named implementations it can be swapped out at -- the use site. public export Monad m => Semigroup (EitherT e m a) where MkEitherT x <+> MkEitherT y = MkEitherT $ do r@(Right _) <- x | Left _ => y pure r public export Functor m => Functor (EitherT e m) where map f e = MkEitherT $ map f <$> runEitherT e public export Foldable m => Foldable (EitherT e m) where foldr f acc (MkEitherT e) = foldr (\x,xs => either (const acc) (`f` xs) x) acc e null (MkEitherT e) = null e public export Traversable m => Traversable (EitherT e m) where traverse f (MkEitherT x) = MkEitherT <$> traverse (either (pure . Left) (map Right . f)) x public export Applicative m => Applicative (EitherT e m) where pure = MkEitherT . pure . Right f <*> x = MkEitherT [| runEitherT f <*> runEitherT x |] public export Monad m => Monad (EitherT e m) where x >>= k = MkEitherT $ runEitherT x >>= either (pure . Left) (runEitherT . k) ||| Alternative instance that collects left results, allowing you to try ||| multiple possibilities and combine failures. public export (Monad m, Monoid e) => Alternative (EitherT e m) where empty = left neutral MkEitherT x <|> MkEitherT y = MkEitherT $ do Left l <- x | Right r => pure (Right r) Left l' <- y | Right r => pure (Right r) pure (Left (l <+> l')) public export MonadTrans (EitherT e) where lift = MkEitherT . map Right public export HasIO m => HasIO (EitherT e m) where liftIO act = MkEitherT $ liftIO (io_bind act (pure . Right)) public export MonadReader r m => MonadReader r (EitherT e m) where ask = lift ask local f (MkEitherT x) = MkEitherT (local f x) public export MonadState s m => MonadState s (EitherT e m) where get = lift get put = lift . put