MonadConts is more restricted and gives more power than plain
Monads, thanks to its
callCC. This means less instances of it, and more you can do with it.
When look at defined instances of
MonadCont, it looks like everything listed there require either
ContT or an already existing
MonadCont instance. That means we have to start with some
ContT and in particular cannot turn
IO into a
However, I believe it makes sense to use
callCC in a
IO context, so we can simplify the following (adjusted from the official Hackage page
whatsYourName :: IO () whatsYourName = do name <- getLine let response = flip runCont id $ do callCC $ \exit -> do when (null name) (exit "You forgot to tell me your name!") return $ "Welcome, " ++ name ++ "!" print response
whatsYourName' :: IO () whatsYourName' = do name <- getLine response <- callCC $ \exit -> do when (null name) (exit "You forgot to tell me your name!") return $ "Welcome, " ++ name ++ "!" print response
callCC in a do block in a cleaner way.
Of cause, to make
IO an instance of
MonadCont we must have some magic, since
IO means "call the given function with the future computation specifies what to happen next in the real world", so only the interpreter or the compiler can actually know what this mean. On the other hand, I didn't see any theoretical reason that this is importable, since Scheme already have it for a long time, and making such an instance requires no language change at all.
One factor I can think of is that the semantic of
callCC is conflict with proper cleanup guarantee. A lot of languages provides "try...finally" control for proper cleanup, and C++'s destructor is also garantee that. I am not sure what is it in Haskell, but if
callCC is available for
IO one can then use it to escape from any
IO involved context that requires cleanup, so providing sush a garantee will become impossible, as you can see what happens in Ruby.
Discussion of opinions
The answer from @jozefg is very good. I just want to write down my opinions here.
It is true that
MonadContcome from mtl. But that does not means GHC or other compiler cannot define a
unsafeCallCCand define the instance if
MonadContwith the correct definition is in scope of the compiling module and
I already talked about exception safety and it looks hard to be sure about that. However, Haskell already have
unsafePerformIO, which basically even more unsafe than
unsafeCallCC, in my opinion.
callCCis, in most case, too powerful and should be avoid when possible. However, in my opinion, continuation passing style can be used to make lazy evaluation explicit, which can help better understand the program and thus easier to find possible optimizations. Of cause CPS is not
MonadCont, but it is a natural step to use it and convert the deep nested inner functions into do notations.