You can make your functions monad-agnostic by using typeclasses instead of concrete monad stacks.
Let's say that you have this function, for example:
bangMe :: State String ()
bangMe = do
str <- get
put $ str ++ "!"
-- or just modify (++"!")
Of course, you realize that it works as a transformer as well, so one could write:
bangMe :: Monad m => StateT String m ()
However, if you have a function that uses a different stack, let's say
ReaderT [String] (StateT String IO) () or whatever, you'll have to use the dreaded
lift function! So how is that avoided?
The trick is to make the function signature even more generic, so that it says that the
State monad can appear anywhere in the monad stack. This is done like this:
bangMe :: MonadState String m => m ()
m to be a monad that supports state (virtually) anywhere in the monad stack, and the function will thus work without lifting for any such stack.
There's one problem, though; since
IO isn't part of the
mtl, it doesn't have a transformer (e.g.
IOT) nor a handy type class per default. So what should you do when you want to lift IO actions arbitrarily?
To the rescue comes
MonadIO! It behaves almost identically to
MonadReader etc, the only difference being that it has a slightly different lifting mechanism. It works like this: you can take any
IO action, and use
liftIO to turn it into a monad agnostic version. So:
action :: IO ()
liftIO action :: MonadIO m => m ()
By transforming all of the monadic actions you wish to use in this way, you can intertwine monads as much as you want without any tedious lifting.