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1 {-# LANGUAGE FlexibleInstances #-}
2 {-# OPTIONS_GHC -fno-warn-orphans #-}
3 module Control.Monad.Utils where
4
5 import Control.Applicative (Applicative(..))
6 import Control.Monad (Monad(..))
7 import Data.Bool
8 import Data.Foldable (Foldable(..))
9 import Data.Function (($), (.))
10 import Data.Functor (Functor, (<$>))
11 import Data.Functor.Compose (Compose(..))
12 import Data.Maybe (Maybe(..), maybe)
13 import Data.Monoid (Monoid(..))
14 import Data.Semigroup (Semigroup(..))
15 import qualified Control.Monad.Trans.State.Strict as S
16 import qualified Control.Monad.Trans.RWS.Strict as RWS
17
18 unless :: (Applicative f, Monoid a) => Bool -> f a -> f a
19 unless b fa = if b then pure mempty else fa
20 {-# INLINABLE unless #-}
21
22 when :: (Applicative f, Monoid a) => Bool -> f a -> f a
23 when b fa = if b then fa else pure mempty
24 {-# INLINABLE when #-}
25
26 -- * Type 'ComposeState'
27 -- | Composing state and a monadic type not affecting the state.
28 type ComposeState st = Compose (S.State st)
29 instance Semigroup (ComposeState st Maybe a) where
30 (<>) = (>>)
31 instance Monoid (ComposeState st Maybe ()) where
32 mempty = pure ()
33 mappend = (<>)
34 instance Monad (ComposeState st Maybe) where
35 return = pure
36 Compose sma >>= a2csmb =
37 Compose $ sma >>= \ma ->
38 maybe (return Nothing) getCompose $
39 ma >>= Just . a2csmb
40 {- NOTE: the 'st' may need to use the 'String', so no such instance.
41 instance Monad m => IsString (ComposeState st m ()) where
42 fromString = Compose . return . fromString
43 -}
44
45 -- * Type 'ComposeRWS'
46 -- | Composing reader-writer-state and a monad not affecting it.
47 type ComposeRWS r w s = Compose (RWS.RWS r w s)
48 instance Monoid w => Semigroup (ComposeRWS r w s Maybe a) where
49 (<>) = (>>)
50 instance Monoid w => Monoid (ComposeRWS r w s Maybe ()) where
51 mempty = pure ()
52 mappend = (<>)
53 instance Monoid w => Monad (ComposeRWS r w s Maybe) where
54 return = pure
55 Compose sma >>= a2csmb =
56 Compose $ sma >>= \ma ->
57 maybe (return Nothing) getCompose $
58 ma >>= Just . a2csmb
59
60 -- | Lift a function over 'm' to a 'ComposeState' one.
61 ($$) :: Functor f => (m a -> m b) -> Compose f m a -> Compose f m b
62 ($$) f m = Compose $ f <$> getCompose m
63 infixr 0 $$
64
65 composeLift :: (Applicative m, Functor f) => f a -> Compose f m a
66 composeLift = Compose . (pure <$>)
67
68 runComposeState :: st -> ComposeState st m a -> (m a, st)
69 runComposeState st = (`S.runState` st) . getCompose
70 evalComposeState :: st -> ComposeState st m a -> m a
71 evalComposeState st = (`S.evalState` st) . getCompose
72
73 localComposeRWS :: (r -> r) -> ComposeRWS r w s m a -> ComposeRWS r w s m a
74 localComposeRWS f = Compose . RWS.local f . getCompose
75 runComposeRWS :: r -> s -> ComposeRWS r w s m a -> (m a, s, w)
76 runComposeRWS r s c = RWS.runRWS (getCompose c) r s
77 evalComposeRWS :: r -> s -> ComposeRWS r w s m a -> (m a, w)
78 evalComposeRWS r s c = RWS.evalRWS (getCompose c) r s
79
80 -- * Folding
81 -- | Lazy in the monoidal accumulator.
82 foldlMapA :: (Foldable f, Monoid b, Applicative m) => (a -> m b) -> f a -> m b
83 foldlMapA f = foldr (liftA2 mappend . f) (pure mempty)
84
85 -- | Strict in the monoidal accumulator.
86 -- For monads strict in the left argument of bind ('>>='),
87 -- this will run in constant space.
88 foldlMapM :: (Foldable f, Monoid b, Monad m) => (a -> m b) -> f a -> m b
89 foldlMapM f xs = foldr go pure xs mempty
90 where
91 -- go :: a -> (b -> m b) -> b -> m b
92 go x k lb = f x >>= \rb -> let !b = lb`mappend`rb in k b
93