Consider the following example program:

```
next :: Int -> Int
next i
| 0 == m2 = d2
| otherwise = 3 * i + 1
where
(d2, m2) = i `divMod` 2
loopIteration :: MaybeT (StateT Int IO) ()
loopIteration = do
i <- get
guard $ i > 1
liftIO $ print i
modify next
main :: IO ()
main = do
(`runStateT` 31) . runMaybeT . forever $ loopIteration
return ()
```

It can only use `get`

instead of `lift get`

because `instance MonadState s m => MonadState s (MaybeT m)`

is defined in the MaybeT module.

Many such instances are defined in kind of a combinatoric explosion manner.

It would have been nice (although impossible? why?) if we had the following type-class:

```
{-# LANGUAGE MultiParamTypeClasses #-}
class SuperMonad m s where
lifts :: m a -> s a
```

Let's try to define it as such:

```
{-# LANGUAGE FlexibleInstances, ... #-}
instance SuperMonad a a where
lifts = id
instance (SuperMonad a b, MonadTrans t, Monad b) => SuperMonad a (t b) where
lifts = lift . lifts
```

Using `lifts $ print i`

instead of `liftIO $ print i`

works, which is nice.

But using `lifts (get :: StateT Int IO Int)`

instead of `(get :: MaybeT (StateT Int IO) Int)`

doesn't work.

GHC (6.10.3) gives the following error:

```
Overlapping instances for SuperMonad
(StateT Int IO) (StateT Int IO)
arising from a use of `lifts'
Matching instances:
instance SuperMonad a a
instance (SuperMonad a b, MonadTrans t, Monad b) =>
SuperMonad a (t b)
In a stmt of a 'do' expression:
i <- lifts (get :: StateT Int IO Int)
```

I can see why "`instance SuperMonad a a`

" applies. But why does GHC think that the other one does, too?