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1. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

   base	Control.Monad

   Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

   do b <- bs a
   cs b
   

   or in terms of (>>=) as

   bs a >>= cs
   

2. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

   xml-conduit	Text.XML.Cursor

   Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

   do b <- bs a
   cs b
   

   or in terms of (>>=) as

   bs a >>= cs
   

3. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

   xml-conduit	Text.XML.Cursor.Generic

   Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

   do b <- bs a
   cs b
   

   or in terms of (>>=) as

   bs a >>= cs
   

4. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

   haskell-gi-base	Data.GI.Base.ShortPrelude

   Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

   do b <- bs a
   cs b
   

   or in terms of (>>=) as

   bs a >>= cs
   

5. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

   rio	RIO.Prelude

   Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

   do b <- bs a
   cs b
   

   or in terms of (>>=) as

   bs a >>= cs
   

6. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

   relude	Relude.Monad.Reexport

   Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

   do b <- bs a
   cs b
   

   or in terms of (>>=) as

   bs a >>= cs
   

7. type family ((a1 :: a ~> m b) >=> (a2 :: b ~> m c)) (a3 :: a) :: m c

   singletons-base	Control.Monad.Singletons

   No documentation available.

8. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

   base-compat-batteries	Control.Monad.Compat

   Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

   do b <- bs a
   cs b
   

   or in terms of (>>=) as

   bs a >>= cs
   

9. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

   ghc-internal	GHC.Internal.Control.Monad

   Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

   do b <- bs a
   cs b
   

   or in terms of (>>=) as

   bs a >>= cs
   

10. (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c

    protolude	Protolude.Monad

    Left-to-right composition of Kleisli arrows. '(bs >=> cs) a' can be understood as the do expression

    do b <- bs a
    cs b
    

    or in terms of (>>=) as

    bs a >>= cs
    

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