I'm learning about CPS with Racket, and I've managed to write up these functions:

```
;lift a regular single-arg function into CPS
(define (lift/k f)
(lambda (x k)
(k (f x))))
;compose two CPS functions
(define (compose/k f g)
(lambda (x k)
(g x (lambda (y)
(f y k)))))
```

They seem to work correctly

```
(define (is-two/k x k)
(k (= x 2)))
(define is-not-two/k (compose/k (lift/k not) is-two/k))
(is-not-two/k 3 display)
(is-not-two/k 2 display)
#t#f
```

I'm wondering if these functions are still "true CPS". Have I messed up "true" continuation-passing with these functions? Is it kosher to use function composition techniques in CPS? Is it encouraged? Or would it be considered a "compromise" to do this? Is there a more CPS-y way to do it?

Yes I know I just asked 5 questions, but the basic idea behind them all (which I'm not sure I understand correctly) is the same. Explanations in other Lisps, Haskell, Erlang, or other functional languages are fine.