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I don' mind admitting that this is a homework task that has me stumped. Any push in the right direction would be useful.

I'm required to write a function that returns the union of the two given lists. My logic is sound, but Lisp syntax is driving me up a wall.

My solution so far is this.

(defun inList (e L)
   ((null L) 
   ((equal (first L) e) 
    (inList e (rest L)))))

(defun union2 (L1 L2)
   ((null L2) 
   ((not (inList (first L2) L1)) 
    (append (union2 L1 (rest L2)) (first L2))) 
    (union2 L1 (rest L2)))))

When I test the function with an empty list as the second argument, or with the second argument being a list in which every item is a member of the first list, it works correctly.

However, when tested with (union2 '(1 2 3) '(4 5 6)) I get 6 is not of type list.

I'm fairly certain that my error is in: (append (union2 L1 (rest L2)) (first L2)

As at that point, (first L2) is obviously not a list. However, writing it as ((first L2)) is giving me Badly formed lambda.

As I said, any tips or pointers would be appreciated.

share|improve this question
You don't need to indent the code by hand. The editor does it. Also: no dangling parentheses in Lisp. Never. Next: no camelCase. Use in-list instead of inList. Lisp converts case of the symbols by default. – Rainer Joswig Nov 16 '13 at 18:35
Use member or find rather than writing in-list. (member item list :test #'equal) – Kaz Nov 18 '13 at 4:34

4 Answers 4

up vote 5 down vote accepted

You really need to indent your code. The following is understood by most Lisp users. It is automatically and properly indented and has no parentheses on their own lines.

(defun union2 (L1 L2)
   ((null L2) L1)
   ((not (inList (first L2) L1)) 
    (append (union2 L1 (rest L2))
            (first L2))) 
   (T (union2 L1 (rest L2)))))

So you think, (append ... (first L2)) is a problem?

append expects lists as arguments. The first element of l2 probably is not a list.

How do you make a list?

  • (append l1 l2 ...) returns a list of the appended lists
  • (cons item l1) returns a list with the item added to the front of l1.
  • (list e1 ...) returns a list with the items e1 ... as elements. It takes zero or more arguments.

One of the above should help you to create a new list from an item.

Also note that appending to the end of a list is not an efficient list operation in Lisp. Adding elements to the front of a list is preferred.

share|improve this answer

Rainer Joswig's answer is correct, and since this is a homework assignment, it may be the most appropriate, since you might not be allowed to use certain functions. Otherwise you could just use Common Lisp's union function:

(union '(1 2 3) '(4 5 6))
;=> (3 2 1 4 5 6)

Using that, you could write a definition like the following (though you probably won't get credit for it, unless someone says, "Finally, a student who skimmed the standard library!"):

(defun easy-union (list1 list2)
  (union list1 list2))

However, in general, this might be a bit easier if you use the standard function adjoin which takes an element and adds it to a list unless the element is already in the list. Using it, you don't need to write an inList function (for which you could already have been using member):

(defun recursive-union (list1 list2)
  (if (endp list1)
      (recursive-union (rest list1)
                       (adjoin (first list1)

(recursive-union '(1 2 3) '(4 5 6))
;=> (3 2 1 4 5 6)

(recursive-union '(1 2 3) '(2 3 4))
;=> (1 2 3 4)

That's tail recursive, you could also do the same thing iteratively (which might be a good idea if your particular implementation doesn't perform tail call optimization):

(defun iterative-union (list1 list2)
  (do ((list2 list2 (adjoin (first list1) list2))
       (list1 list1 (rest list1)))
      ((endp list1) list2)))

(iterative-union '(1 2 3) '(4 5 6))
;=> (3 2 1 4 5 6)

(iterative-union '(1 2 3) '(2 3 4))
;=> (1 2 3 4)

There are some other useful library functions that could help you out here, too, such as set-difference. For instance, based on the identity A ∪ B = (A / B) ∪ B, you might write:

(defun another-union (list1 list2)
  (nconc (set-difference list1 list2)

You might be prohibited from using set-difference, of course, in which case remove-if and member are helpful for simulating it:

(defun yet-another-union (list1 list2)
  (nconc (remove-if #'(lambda (e)
                        (member e list2))
share|improve this answer
Great answer. However, the purpose of the assignment is learning basic Lisp syntax and practicing recursive thinking. The recursion is fine, but the syntax was tripping me up. No library functions allowed... – mnitchie Nov 16 '13 at 21:06
@barkbark Well, not all library functions. Your code already demonstrates that you're using null, equal, first, rest, not, and append, and those are all part of the standard library, too (but are things that you could implement yourself). Common Lisp is convenient in that a lot of stuff is provided right out of the box. – Joshua Taylor Nov 16 '13 at 21:11
@barkbark Also, in the future, if "the purpose of the assignment is learning basic Lisp syntax and practicing recursive thinking. The recursion is fine, but the syntax was tripping me up. No library functions allowed", it's better to make that explicit, so that answers can focus on it, as opposed to "the best way" to do it. Anyhow, glad you got this working, and happy Lisping! – Joshua Taylor Nov 16 '13 at 21:13

FWIW, this iterative version is what I use most of the time. It is essentially the same as cl-union (formerly union) in Emacs cl-seq.el, but with no keyword treatment.

(defun icicle-set-union (list1 list2)
  "Combine LIST1 and LIST2 using a set-union operation.
The result list contains all items that appear in either LIST1 or
LIST2.  This is a non-destructive function; it copies the data if
  (cond ((null list1)         list2)
        ((null list2)         list1)
        ((equal list1 list2)  list1)
         (unless (>= (length list1) (length list2))
           (setq list1  (prog1 list2 (setq list2  list1)))) ; Swap them.
         (while list2
           (unless (member (car list2) list1)  (setq list1  (cons (car list2) list1)))
           (setq list2  (cdr list2)))
share|improve this answer
 (defun my-union (x y)
    (cond ((null x) y)
          ((member (car x) y) (my-union (cdr x) y))
          (t (cons (car x) (my-union (cdr x) y)))))

CL-USER> (my-union '(1 3 5 7) '(2 4 6 8))
 0: (MY-UNION (1 3 5 7) (2 4 6 8))
   1: (MY-UNION (3 5 7) (2 4 6 8))
     2: (MY-UNION (5 7) (2 4 6 8))
       3: (MY-UNION (7) (2 4 6 8))
         4: (MY-UNION NIL (2 4 6 8))
         4: MY-UNION returned (2 4 6 8)
       3: MY-UNION returned (7 2 4 6 8)
     2: MY-UNION returned (5 7 2 4 6 8)
   1: MY-UNION returned (3 5 7 2 4 6 8)
 0: MY-UNION returned (1 3 5 7 2 4 6 8)
       (1 3 5 7 2 4 6 8)

This is my recursion-union code.

Hope it can help you or anybody

share|improve this answer
Consider explaining why this should work. :) – Nitai J. Perez Nov 12 at 13:04
I'm a CL newbie from Taiwan .. my english poor lol~ thanks for your comment – programer5566 Nov 12 at 13:06

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