{-# LANGUAGE Safe #-} {- | Copyright: (c) 2016 Stephen Diehl (c) 2016-2018 Serokell (c) 2018-2019 Kowainik License: MIT Maintainer: Kowainik <xrom.xkov@gmail.com> Utility functions to work with 'Data.Maybe' data type as monad. -} module Relude.Monad.Maybe ( (?:) , whenJust , whenJustM , whenNothing , whenNothing_ , whenNothingM , whenNothingM_ ) where import Relude.Applicative (Applicative, pass, pure) import Relude.Monad.Reexport (Maybe (..), Monad (..), fromMaybe) -- $setup -- >>> import Relude {- | Similar to 'fromMaybe' but with flipped arguments. >>> readMaybe "True" ?: False True >>> readMaybe "Tru" ?: False False -} infixr 0 ?: (?:) :: Maybe a -> a -> a mA ?: b = fromMaybe b mA {-# INLINE (?:) #-} {- | Specialized version of 'for_' for 'Maybe'. It's used for code readability. Also helps to avoid space leaks: <http://www.snoyman.com/blog/2017/01/foldable-mapm-maybe-and-recursive-functions Foldable.mapM_ space leak>. >>> whenJust Nothing $ \b -> print (not b) >>> whenJust (Just True) $ \b -> print (not b) False -} whenJust :: Applicative f => Maybe a -> (a -> f ()) -> f () whenJust (Just x) f = f x whenJust Nothing _ = pass {-# INLINE whenJust #-} -- | Monadic version of 'whenJust'. whenJustM :: Monad m => m (Maybe a) -> (a -> m ()) -> m () whenJustM mm f = mm >>= \m -> whenJust m f {-# INLINE whenJustM #-} -- | Performs default 'Applicative' action if 'Nothing' is given. -- Otherwise returns content of 'Just' pured to 'Applicative'. -- -- >>> whenNothing Nothing [True, False] -- [True,False] -- >>> whenNothing (Just True) [True, False] -- [True] whenNothing :: Applicative f => Maybe a -> f a -> f a whenNothing (Just x) _ = pure x whenNothing Nothing m = m {-# INLINE whenNothing #-} -- | Performs default 'Applicative' action if 'Nothing' is given. -- Do nothing for 'Just'. Convenient for discarding 'Just' content. -- -- >>> whenNothing_ Nothing $ putTextLn "Nothing!" -- Nothing! -- >>> whenNothing_ (Just True) $ putTextLn "Nothing!" whenNothing_ :: Applicative f => Maybe a -> f () -> f () whenNothing_ Nothing m = m whenNothing_ _ _ = pass {-# INLINE whenNothing_ #-} -- | Monadic version of 'whenNothing'. whenNothingM :: Monad m => m (Maybe a) -> m a -> m a whenNothingM mm action = mm >>= \m -> whenNothing m action {-# INLINE whenNothingM #-} -- | Monadic version of 'whenNothingM_'. whenNothingM_ :: Monad m => m (Maybe a) -> m () -> m () whenNothingM_ mm action = mm >>= \m -> whenNothing_ m action {-# INLINE whenNothingM_ #-}