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 ()
```

This forces `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 `MonadState`

, `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.