# Bubble Sorting in Scheme

I am writing a recursive code to Bubble Sort (smallest to largest by swapping)
I have a code to do the bubble sort just once

``````(define (bubble-up L)
(if (null? (cdr L))
L
(if (< (car L) (cadr L))
(cons (car L) (bubble-up (cdr L)))
(cons (cadr L) (bubble-up (cons (car L) (cddr L))))
)
)
``````

if i put a list into this code, it returns the list with the largest number at the end
EX.. (bubble-up ' (8 9 4 2 6 7)) -> ' (8 4 2 6 7 9)

Now i am trying to write a code to do the (bubble-up L) N times (the number of integers in list)
I have this code:

``````  (define (bubble-sort-aux N L)
(cond ((= N 1) (bubble-up L))
(else (bubble-sort-aux (- N 1) L)
(bubble-up L))))
(bubble-sort-aux 6 (list 8 9 4 2 6 7))  -> ' (8 4 2 6 7 9)
``````

But the recursion doesn't seem to happen because it only sorts once!
Any suggestions would be welcome, i'm just stumped!

-
"I am writing a recursive code to Bubble Sort " - don't!! – Mitch Wheat Oct 9 '13 at 0:27
@MitchWheat AveryPoole is writing in Scheme, where tail-call optimization is mandated by the specification. Iteration is typically achieved through tail-recursion in Scheme. Recusion is the natural to implement this in Scheme. – Joshua Taylor Oct 9 '13 at 0:32
Is there an alternative method? Just started with writing code, tail-recursion is the only way i've learned. @MitchWheat – Avery Poole Oct 9 '13 at 1:29
@Joshua Taylor: I was referring to using BubbleSort in general. – Mitch Wheat Oct 9 '13 at 5:14
Scheme (at least R5RS) supports a `do` iteration construct, but it will be much more common to see tail recursion used to express iteration in Scheme. For instance, ÓscarLópez's answer is superficially recursive, but because the call to `bubble-sort-aux` is in tail position, it's essentially iterative. Your `bubble-up` isn't tail recursive, though. You might consider trying to make it tail recursive, too. – Joshua Taylor Oct 9 '13 at 12:32

Try this:

``````(define (bubble-sort-aux N L)
(cond ((= N 1) (bubble-up L))
(else (bubble-sort-aux (- N 1) (bubble-up L)))))
``````

If you keep "bubbling-up" the list `N` times it'll be sorted at the end. The problem with your code is that you weren't using the result of `bubble-up` for anything - but if we pass the value returned by `bubble-up` to the next call of the function, it'll eventually be sorted. Now the procedure works as expected:

``````(bubble-sort-aux 6 (list 8 9 4 2 6 7))
=> '(2 4 6 7 8 9)
``````
-
thanks a ton Oscar! I think i'm a little burned out, that was kind of a big mistake =/ – Avery Poole Oct 9 '13 at 1:25
@AveryPoole you're welcome! always my pleasure :) – Óscar López Oct 9 '13 at 1:29