{-# LANGUAGE Safe #-} {- | Copyright: (c) 2016 Stephen Diehl (c) 2016-2018 Serokell (c) 2018-2020 Kowainik SPDX-License-Identifier: MIT Maintainer: Kowainik <xrom.xkov@gmail.com> Stability: Stable Portability: Portable Monadic boolean combinators. -} module Relude.Bool.Guard ( guarded , guardM , ifM , unlessM , whenM , (&&^) , (||^) ) where import Relude.Applicative (Alternative, Applicative (..), empty) import Relude.Bool.Reexport (Bool (..), guard, unless, when) import Relude.Function (flip) import Relude.Monad (Monad, MonadPlus, (>>=)) -- $setup -- >>> import Relude.Applicative (pure) -- >>> import Relude.Bool.Reexport (Bool (..)) -- >>> import Relude.Debug (error) -- >>> import Relude.Function (($)) -- >>> import Relude.Monad (Maybe (..)) -- >>> import Relude.Print (putTextLn) -- >>> import Relude (Int, String, even, const) {- | Monadic version of 'when'. >>> whenM (pure False) $ putTextLn "No text :(" >>> whenM (pure True) $ putTextLn "Yes text :)" Yes text :) >>> whenM (Just True) (pure ()) Just () >>> whenM (Just False) (pure ()) Just () >>> whenM Nothing (pure ()) Nothing -} whenM :: Monad m => m Bool -> m () -> m () whenM p m = p >>= flip when m {-# INLINE whenM #-} {- | Monadic version of 'unless'. >>> unlessM (pure False) $ putTextLn "No text :(" No text :( >>> unlessM (pure True) $ putTextLn "Yes text :)" -} unlessM :: Monad m => m Bool -> m () -> m () unlessM p m = p >>= flip unless m {-# INLINE unlessM #-} {- | Monadic version of @if-then-else@. >>> ifM (pure True) (putTextLn "True text") (putTextLn "False text") True text -} ifM :: Monad m => m Bool -> m a -> m a -> m a ifM p x y = p >>= \b -> if b then x else y {-# INLINE ifM #-} {- | Monadic version of 'guard'. Occasionally useful. Here some complex but real-life example: @ findSomePath :: IO (Maybe FilePath) somePath :: MaybeT IO FilePath somePath = do path <- MaybeT findSomePath guardM $ liftIO $ doesDirectoryExist path return path @ -} guardM :: MonadPlus m => m Bool -> m () guardM f = f >>= guard {-# INLINE guardM #-} {- | Either lifts a value into an alternative context or gives a minimal value depending on a predicate. >>> guarded even 3 :: [Int] [] >>> guarded even 2 :: [Int] [2] >>> guarded (const True) "hello" :: Maybe String Just "hello" >>> guarded (const False) "world" :: Maybe String Nothing You can use this function to implement smart constructors simpler: @ __newtype__ HttpHost = HttpHost { unHttpHost :: Text } mkHttpHost :: Text -> Maybe HttpHost mkHttpHost host = HttpHost \<$\> 'guarded' (not . Text.null) host @ @since 0.6.0.0 -} guarded :: Alternative f => (a -> Bool) -> a -> f a guarded p a = if p a then pure a else empty {-# INLINE guarded #-} {- | Monadic version of 'Data.Bool.(&&)' operator. >>> Just False &&^ Just True Just False >>> Just True &&^ Just True Just True >>> Just True &&^ Nothing Nothing >>> Just False &&^ Nothing Just False >>> Just False &&^ error "Shouldn't be evaluated" Just False @since 0.4.0 -} (&&^) :: Monad m => m Bool -> m Bool -> m Bool (&&^) e1 e2 = ifM e1 e2 (pure False) {-# INLINE (&&^) #-} {- | Monadic version of 'Data.Bool.(||)' operator. >>> Just False ||^ Just True Just True >>> Just False ||^ Just False Just False >>> Just False ||^ Nothing Nothing >>> Just True ||^ Nothing Just True >>> Just True ||^ error "Shouldn't be evaluated" Just True @since 0.4.0 -} (||^) :: Monad m => m Bool -> m Bool -> m Bool e1 ||^ e2 = ifM e1 (pure True) e2 {-# INLINE (||^) #-}