A key ability of
Monad is to "look inside" the
m a type and see an
a; but a key restriction of
Monad is that it must be possible for monads to be "inescapable," i.e., the
Monad typeclass operations should not be sufficient to write a function of type
Monad m => m a -> a.
(>>=) :: Monad m => m a -> (a -> m b) -> m b gives you exactly this ability.
But there's more than one way to achieve that. The
Monad class could be defined like this:
class Functor f where
fmap :: (a -> b) -> f a -> f b
class Functor f => Monad m where
return :: a -> m a
join :: m (m a) -> m a
You ask why could we not have a
Monad m => m a -> (m a -> m b) -> m b function. Well, given
f :: a -> b,
fmap f :: ma -> mb is basically that. But
fmap by itself doesn't give you the ability to "look inside" a
Monad m => m a yet not be able to escape from it. However
fmap together give you that ability.
(>>=) can be written generically with
(>>=) :: Monad m => m a -> (a -> m b) -> m b
ma >>= f = join (fmap f ma)
In fact this is a common trick for defining a
Monad instance when you're having trouble coming up with a definition for
join function for your would-be monad, then use the generic definition of
Well, that answers the "does it have to be the way it is" part of the question with a "no." But, why is it the way it is?
I can't speak for the designers of Haskell, but I like to think of it this way: in Haskell monadic programming, the basic building blocks are actions like these:
getLine :: IO String
putStrLn :: String -> IO ()
More generally, these basic building blocks have types that look like
Monad m => m a,
Monad m => a -> m b,
Monad m => a -> b -> m c, ...,
Monad m => a -> b -> ... -> m z. People informally call these actions.
Monad m => m a is a no-argument action,
Monad m => a -> m b is a one-argument action, and so on.
(>>=) :: Monad m => m a -> (a -> m b) -> m b is basically the simplest function that "connects" two actions.
getLine >>= putStrLn is the action that first executes
getLine, and then executes
putStrLn passing it the result that was obtained from executing
getLine. If you had
join and not
>>= you'd have to write this:
join (fmap putStrLn getLine)
Even more generally,
(>>=) embodies a notion much like a "pipeline" of actions, and as such is the more useful operator for using monads as a kind of programming language.
Final thing: make sure you are aware of the
Control.Monad module. While
(>>=) are the basic functions for monads, there's endless other more high-level functions that you can define using those two, and that module gathers a few dozen of the more common ones. Your code should not be forced into a straitjacket by
(>>=); it's a crucial building block that's useful both on its own and as a component for larger building blocks.