Consider the specific example of
IOT Maybe. How would you write a
Monad instance for that? You could start with something like this:
instance Monad (IOT Maybe) where
return x = IOT (Just (return x))
IOT Nothing >>= _ = IOT Nothing
IOT (Just m) >>= k = IOT $ error "what now?"
where m' = liftM (runIOT . k) m
Now you have
m' :: IO (Maybe (IO b)), but you need something of type
Maybe (IO b), where--most importantly--the choice between
Nothing should be determined by
m'. How would that be implemented?
The answer, of course, is that it wouldn't, because it can't. Nor can you justify an
unsafePerformIO in there, hidden behind a pure interface, because fundamentally you're asking for a pure value--the choice of
Maybe constructor--to depend on the result of something in
IO. Nnnnnope, not gonna happen.
The situation is even worse in the general case, because an arbitrary (universally quantified)
Monad is even more impossible to unwrap than
ST transformer you mention is implemented differently from your suggested
IOT. It uses the internal implementation of
ST as a
State-like monad using
magic pixie dust special primitives provided by the compiler, and defines a
StateT-like transformer based on that.
IO is implemented internally as an even more magical
ST, and so a hypothetical
IOT could be defined in a similar way.
Not that this really changes anything, other than possibly giving you better control over the relative ordering of impure side effects caused by