Let's say I have a computation

```
class A πͺ where
foo :: πͺ () -> πͺ ()
instance A IO where
foo x = do
print "prefix"
x
print "suffix"
```

Now, suppose I want to write

```
instance A πͺ => A (MyMonadTransformerT Ξ³ πͺ)
```

Then, in implementing `foo`

, I'm forced to "unwrap" its argument, e.g. `foo x = lift (foo (unlift x))`

. This `unlift`

function can be bad for monadic computation. For a state transformer, it would be forced to forget any changes in the program's state.

It seems to work to create a more general method, which also takes a lifting function, and results in computation `t () -> t ()`

, where `t`

is the lifted (tranformed) monad.

```
class Monad πͺ => A' πͺ where
foo' :: Monad t =>
(forall z . πͺ z -> t z) -- lifting function
-> t ()
-> t ()
foo :: πͺ () -> πͺ ()
foo = foo' id
instance A' IO where
foo' lift x = do
lift (print "prefix")
x
lift (print "suffix")
instance A' πͺ => A' (StateT Ξ³ πͺ) where
foo' lift' x = foo' (lift' . lift) x
computation :: Num a => StateT a IO ()
computation = do
foo (put 1 >> lift (print "middle"))
v <- get
lift $ print ("value", v)
run_computation :: Num a => IO a
run_computation = execStateT computation 0
```

*Question*. Is this the best way? Is there something more general one can write? CPS-style code? Thanks!!