# Need to understand a LISP program with recursion

``````(defun help(a x)
(if (null x) nil
(cons (cons a (car x)) (help a (cdr x)))))

(defun partition(x)
(if (null x) '(nil)
(append (help (car x) (partition(cdr x))) (partition(cdr x)))))
``````

This works like this: `(partition '(a b)) -> ((A B) (A) (B) NIL)` I'm trying to understand how it works. Can someone illustrate what's going on to get the result? I tried following the code and writing down on paper but i failed.

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What are you trying to do? –  zellio May 10 '13 at 23:25
The program finds the partitions of a set given as a list. I'm trying to figure out how it does that. –  10001a May 10 '13 at 23:30
The example `(partition '(a b)) => ((A B) (A) (B) NIL)` looks more like the power set than “the partition.” I'm not sure what “the partition” is supposed to mean here. –  Joshua Taylor Jun 21 '13 at 2:19

The `trace` function allows you to visualize function calls in the LISP REPL.

Example output from `sbcl`

``````* (defun help(a x)
(if (null x) nil
(cons (cons a (car x)) (help a (cdr x)))))

HELP
* (defun partition(x)
(if (null x) '(nil)
(append (help (car x) (partition(cdr x))) (partition(cdr x)))))

PARTITION
* (trace help)

(HELP)
* (trace partition)

(PARTITION)
* (partition '(a b))
0: (PARTITION (A B))
1: (PARTITION (B))
2: (PARTITION NIL)
2: PARTITION returned (NIL)
2: (HELP B (NIL))
3: (HELP B NIL)
3: HELP returned NIL
2: HELP returned ((B))
2: (PARTITION NIL)
2: PARTITION returned (NIL)
1: PARTITION returned ((B) NIL)
1: (HELP A ((B) NIL))
2: (HELP A (NIL))
3: (HELP A NIL)
3: HELP returned NIL
2: HELP returned ((A))
1: HELP returned ((A B) (A))
1: (PARTITION (B))
2: (PARTITION NIL)
2: PARTITION returned (NIL)
2: (HELP B (NIL))
3: (HELP B NIL)
3: HELP returned NIL
2: HELP returned ((B))
2: (PARTITION NIL)
2: PARTITION returned (NIL)
1: PARTITION returned ((B) NIL)
0: PARTITION returned ((A B) (A) (B) NIL)
((A B) (A) (B) NIL)
``````

Out side of that I'm not entirely sure how to be of more help.

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This is great! I didn't knew about trace, thanks. –  10001a May 10 '13 at 23:39
It is not SBCL-specific, but in the standard. Just the form of output is implementation-specific. –  Svante May 11 '13 at 10:15
@Svante - That's cool, question updated to reflect this fact. –  zellio May 11 '13 at 19:14
Great this also exists in clojure and scheme. –  Kungi Nov 22 '13 at 22:14