hs-functors-0.1.2.0: Functors from products of Haskell and its dual to Haskell

Safe HaskellNone
LanguageHaskell2010

Control.Monad.Trans.Compose

Documentation

newtype ComposeT s t m a Source #

Constructors

ComposeT 

Fields

Instances

(MFunctor k2 k3 s, MFunctor k1 k2 t) => MFunctor k1 k3 (ComposeT (k2 -> *) (k1 -> *) k3 s t) Source # 

Methods

mmap :: (forall (a :: ComposeT (k2 -> *) (k1 -> *) k3 s t). m a -> n a) -> t m a -> t n a Source #

(MFunctor * * s, MonadTrans s, MonadTrans t) => MonadTrans (ComposeT (* -> *) (* -> *) * s t) Source # 

Methods

lift :: Monad m => m a -> ComposeT (* -> *) (* -> *) * s t m a #

Monad (s (t m)) => Monad (ComposeT k1 k2 * s t m) Source # 

Methods

(>>=) :: ComposeT k1 k2 * s t m a -> (a -> ComposeT k1 k2 * s t m b) -> ComposeT k1 k2 * s t m b #

(>>) :: ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m b -> ComposeT k1 k2 * s t m b #

return :: a -> ComposeT k1 k2 * s t m a #

fail :: String -> ComposeT k1 k2 * s t m a #

Functor (s (t m)) => Functor (ComposeT k1 k2 * s t m) Source # 

Methods

fmap :: (a -> b) -> ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m b #

(<$) :: a -> ComposeT k1 k2 * s t m b -> ComposeT k1 k2 * s t m a #

Applicative (s (t m)) => Applicative (ComposeT k1 k2 * s t m) Source # 

Methods

pure :: a -> ComposeT k1 k2 * s t m a #

(<*>) :: ComposeT k1 k2 * s t m (a -> b) -> ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m b #

liftA2 :: (a -> b -> c) -> ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m b -> ComposeT k1 k2 * s t m c #

(*>) :: ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m b -> ComposeT k1 k2 * s t m b #

(<*) :: ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m b -> ComposeT k1 k2 * s t m a #

Foldable (s (t m)) => Foldable (ComposeT k1 k2 * s t m) Source # 

Methods

fold :: Monoid m => ComposeT k1 k2 * s t m m -> m #

foldMap :: Monoid m => (a -> m) -> ComposeT k1 k2 * s t m a -> m #

foldr :: (a -> b -> b) -> b -> ComposeT k1 k2 * s t m a -> b #

foldr' :: (a -> b -> b) -> b -> ComposeT k1 k2 * s t m a -> b #

foldl :: (b -> a -> b) -> b -> ComposeT k1 k2 * s t m a -> b #

foldl' :: (b -> a -> b) -> b -> ComposeT k1 k2 * s t m a -> b #

foldr1 :: (a -> a -> a) -> ComposeT k1 k2 * s t m a -> a #

foldl1 :: (a -> a -> a) -> ComposeT k1 k2 * s t m a -> a #

toList :: ComposeT k1 k2 * s t m a -> [a] #

null :: ComposeT k1 k2 * s t m a -> Bool #

length :: ComposeT k1 k2 * s t m a -> Int #

elem :: Eq a => a -> ComposeT k1 k2 * s t m a -> Bool #

maximum :: Ord a => ComposeT k1 k2 * s t m a -> a #

minimum :: Ord a => ComposeT k1 k2 * s t m a -> a #

sum :: Num a => ComposeT k1 k2 * s t m a -> a #

product :: Num a => ComposeT k1 k2 * s t m a -> a #

Traversable (s (t m)) => Traversable (ComposeT k1 k2 * s t m) Source # 

Methods

traverse :: Applicative f => (a -> f b) -> ComposeT k1 k2 * s t m a -> f (ComposeT k1 k2 * s t m b) #

sequenceA :: Applicative f => ComposeT k1 k2 * s t m (f a) -> f (ComposeT k1 k2 * s t m a) #

mapM :: Monad m => (a -> m b) -> ComposeT k1 k2 * s t m a -> m (ComposeT k1 k2 * s t m b) #

sequence :: Monad m => ComposeT k1 k2 * s t m (m a) -> m (ComposeT k1 k2 * s t m a) #

Eq1 (s (t m)) => Eq1 (ComposeT k1 k2 * s t m) Source # 

Methods

liftEq :: (a -> b -> Bool) -> ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m b -> Bool #

Ord1 (s (t m)) => Ord1 (ComposeT k1 k2 * s t m) Source # 

Methods

liftCompare :: (a -> b -> Ordering) -> ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m b -> Ordering #

Read1 (s (t m)) => Read1 (ComposeT k1 k2 * s t m) Source # 

Methods

liftReadsPrec :: (Int -> ReadS a) -> ReadS [a] -> Int -> ReadS (ComposeT k1 k2 * s t m a) #

liftReadList :: (Int -> ReadS a) -> ReadS [a] -> ReadS [ComposeT k1 k2 * s t m a] #

liftReadPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec (ComposeT k1 k2 * s t m a) #

liftReadListPrec :: ReadPrec a -> ReadPrec [a] -> ReadPrec [ComposeT k1 k2 * s t m a] #

Show1 (s (t m)) => Show1 (ComposeT k1 k2 * s t m) Source # 

Methods

liftShowsPrec :: (Int -> a -> ShowS) -> ([a] -> ShowS) -> Int -> ComposeT k1 k2 * s t m a -> ShowS #

liftShowList :: (Int -> a -> ShowS) -> ([a] -> ShowS) -> [ComposeT k1 k2 * s t m a] -> ShowS #

Alternative (s (t m)) => Alternative (ComposeT k1 k2 * s t m) Source # 

Methods

empty :: ComposeT k1 k2 * s t m a #

(<|>) :: ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m a #

some :: ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m [a] #

many :: ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m [a] #

MonadPlus (s (t m)) => MonadPlus (ComposeT k1 k2 * s t m) Source # 

Methods

mzero :: ComposeT k1 k2 * s t m a #

mplus :: ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m a -> ComposeT k1 k2 * s t m a #

Functor (s (t m)) => Functor (ComposeT k1 k2 * s t m) Source # 

Methods

gmap :: (a -> b) -> ComposeT k1 k2 * s t m b -> ComposeT k1 k2 * s t m a Source #

(>$) :: b -> ComposeT k1 k2 * s t m b -> ComposeT k1 k2 * s t m a Source #

Bounded (s (t m) a) => Bounded (ComposeT k1 k3 k2 s t m a) Source # 

Methods

minBound :: ComposeT k1 k3 k2 s t m a #

maxBound :: ComposeT k1 k3 k2 s t m a #

Eq (s (t m) a) => Eq (ComposeT k1 k3 k2 s t m a) Source # 

Methods

(==) :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> Bool #

(/=) :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> Bool #

Ord (s (t m) a) => Ord (ComposeT k1 k3 k2 s t m a) Source # 

Methods

compare :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> Ordering #

(<) :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> Bool #

(<=) :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> Bool #

(>) :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> Bool #

(>=) :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> Bool #

max :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a #

min :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a #

Read (s (t m) a) => Read (ComposeT k1 k3 k2 s t m a) Source # 

Methods

readsPrec :: Int -> ReadS (ComposeT k1 k3 k2 s t m a) #

readList :: ReadS [ComposeT k1 k3 k2 s t m a] #

readPrec :: ReadPrec (ComposeT k1 k3 k2 s t m a) #

readListPrec :: ReadPrec [ComposeT k1 k3 k2 s t m a] #

Show (s (t m) a) => Show (ComposeT k1 k3 k2 s t m a) Source # 

Methods

showsPrec :: Int -> ComposeT k1 k3 k2 s t m a -> ShowS #

show :: ComposeT k1 k3 k2 s t m a -> String #

showList :: [ComposeT k1 k3 k2 s t m a] -> ShowS #

Semigroup (s (t m) a) => Semigroup (ComposeT k1 k3 k2 s t m a) Source # 

Methods

(<>) :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a #

sconcat :: NonEmpty (ComposeT k1 k3 k2 s t m a) -> ComposeT k1 k3 k2 s t m a #

stimes :: Integral b => b -> ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a #

Monoid (s (t m) a) => Monoid (ComposeT k1 k3 k2 s t m a) Source # 

Methods

mempty :: ComposeT k1 k3 k2 s t m a #

mappend :: ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a -> ComposeT k1 k3 k2 s t m a #

mconcat :: [ComposeT k1 k3 k2 s t m a] -> ComposeT k1 k3 k2 s t m a #