dyoo's solution is nice and succinct in a Scheme like Racket that has useful iteration routines built in. Just FYI, though, your 'outputListData' is not far from being the standard recursive way to do this. You just need to change a couple of lines:
(define (outputListData list)
[(null? list) #f] ; actually doesn't really matter what we return
[else (printf "~s\n" (first list)) ; display the first item ...
(outputListData (rest list))])) ; and start over with the rest
Since this is an "imperative" kind of procedure that isn't designed to return a value, it doesn't really matter what we do with an empty list so long as we stop recurring (to avoid an infinite loop). If the list isn't empty, we output the first element and start over recursively with the rest of the list.
BTW, here's another way you could write something almost identical if you just needed a "for" loop in the middle of some other function:
(let loop ((l (list 'foo 'bar 'baz 'quux))) ; or put whatever input you need
(cond ((null? l) #f)
(printf "~s\n" (first l))
(loop (rest l)))))
One way to think about this "named let" is that it defines a temporary function called
loop, which works just like
outputListData above. Scheme has the nice property that it won't grow the stack for "tail calls" like these, so you can always write what would be an "iterative"
while loop in this recursive style.
I highly recommend The Little Schemer by Friedman and Felleisen for a quick intro to this style of function writing! I found it through Douglas Crockford's page here.