I am learning Scheme and as a toy example I am doing a solution verifier (not a solver) for Towers of Hanoi. I want to use a purely functional style (just to get into the mindset) and I represent the tower as a simple list of three lists. The starting state can look something like this: '((0 1 2 3 4) () ())

How would I implement a function that takes a state, a source index and a target index and returns the new state? In an imperative style this would be something trivial like:

```
state[target].push(state[source].pop())
```

But every functional solution I can think of is terribly convoluted. For example:

```
(define (makeMove state source target)
(letrec ((recMake (lambda(tower pos disc)
(if (null? tower) '()
(cons (if (eqv? pos source)
(cdr (car tower))
(if (eqv? pos target)
(cons disc (car tower))
(car tower)))
(recMake (cdr tower)
(+ pos 1)
disc))))))
(recMake state 0 (car (list-ref state source)))))
```

This seems to work, but there must be a better way. I suppose a map would be somewhat better than recursion, but still too much. Would it be easier if I represented state differently?

Also, feel free to criticize my code. I don't really know what I am doing.

EDIT: If possible, I prefer that you not assume that the number of towers are always 3.