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I'm having trouble developing a recursive function that will see if two list's are equal to each other, including looking at the sub list's. So far I have:

(defun are-equal2 (X Y)
    ((null X) nil)
    ((and (listp (first X)) (listp (first Y)))
        (are-equal2 (first X) (first Y))
    ((eq (first X) (first Y))

It seems to work sometimes. for example (are-equal2 '((A) B) '((A) B)) returns T and (are-equal2 '((A) B) '(A B)) returns nil. but (are-equal2 '(F (A G) B) '(F (T G) B)) returns T..... I think it might have to do with my last conditional. I'm not sure how to re-work it though.

Never mind lol. Did some tinkering waiting for a reply and got it. Did a bunch of nested if statements. Code:

(defun are-equal2 (X Y)
    (if (and (listp (first X)) (listp (first Y)))
        (are-equal2 (first X) (first Y))
        (if (and (eq (first X) (first Y)))
            (if (and (endp (rest X)) (endp (rest Y)))
                (are-equal2 (rest X) (rest Y))


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I got it. But thanks anyway. –  user2326106 Sep 29 '13 at 4:11
Your rewrite doesn't actually work. Try running (are-equal2 '((a) b) '((a) c)). –  zck Sep 29 '13 at 7:44
Please invest a few minutes in learning how to format Lisp code –  danlei Sep 29 '13 at 15:04
Listp checks for proper list. You should use consp. If it is then its (and (eq... (car X) (car Y)) (eq... (cdr X) (cdr Y)). For everything else it's (eql X Y) –  Sylwester Sep 29 '13 at 16:09

1 Answer 1

I don't think you can get away with a tail-recursive version here.

I am afraid you will have to think of your arguments as trees, not sequences.


(defun are-equal (x y &key (test #'eql))
  (or (funcall test x y) 
      (and (consp x)
           (consp y)
           (are-equal (car x) (car y))
           (are-equal (cdr x) (cdr y)))))

This compares leaves using eql by default (cf. Rules about Test Functions), as opposed to eq in your example:

(are-equal '((1) a) '((1) a))
==> T
(are-equal '((1) a) '((1) b))
==> NIL
(are-equal '((1) a) '((2) a))
==> NIL
(are-equal '(("1") a) '(("1") a))
==> NIL
share|improve this answer
The OP used eq rather than eql, so it makes sense that this answer does as well. However, for the sake of future readers, note that eq is stricter than eql. E.g., with this definition in SBCL,(are-equal (1+ most-positive-fixnum) (1+ most-positive-fixnum))` returns NIL. –  Joshua Taylor Sep 29 '13 at 19:46
Huh. How about that. I guess in my midnight programming mind set I only tested the begging of the lists. This seems to make a lot more sense. Didn't know about consp either. Interesting. This may help with my subset function as well. Thank you sds. Have a good one! –  user2326106 Sep 29 '13 at 19:47
@user2326106 If you need a subset predicate, you should consider Common Lisp's subsetp. –  Joshua Taylor Sep 29 '13 at 19:49

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