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I have two lists: (1 2 3) and (a b) and I need to create something like this (1 2 3 1 2 3). The result is a concatenation of the first list as many times as there are elements in the second. I should use some of the functions (maplist/mapcar/mapcon, etc.). This is exactly what I need, although I need to pass first list as argument:

(mapcan #'(lambda (x) (list 1 2 3)) (list 'a 'b))
;=> (1 2 3 1 2 3)

When I try to abstract it into a function, though, Allegro freezes:

(defun foo (a b)
  (mapcan #'(lambda (x) a) b))

(foo (list 1 2 3) (list 'a 'b))
; <freeze>

Why doesn't this definition work?

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So, what's the specification? "Given lists a and b, construct a new list c such, that it is a concatenation of a with itself; the number of repetitions of elements of a in c is the length of b". Is that it? –  Dirk Apr 25 '14 at 13:33
Yes, that's it. –  chriemmy Apr 25 '14 at 13:39

3 Answers 3

up vote 1 down vote accepted

You could

(defun f (lst1 lst2)
  (reduce #'append (mapcar (lambda (e) lst1) lst2)))


? (f '(1 2 3) '(a b))
(1 2 3 1 2 3)
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You should be careful with (reduce 'append ...) though, since makes lots and lots of copies of the lists. E.g., see this comment. (You were actually involved in that thread, too.) As such, this should really be (reduce 'append ... :from-end t). –  Joshua Taylor Apr 25 '14 at 14:06

There's already an accepted answer, but I think some more explanation about what's going wrong in the original code is in order. mapcan applies a function to each element of a list to generate a bunch of lists which are destructively concatenated together. If you destructively concatenate a list with itself, you get a circular list. E.g.,

(let ((x (list 1 2 3)))
  (nconc x x))
;=> (1 2 3 1 2 3 1 2 3 ...)

Now, if you have more concatenations than one, you can't finish, because to concatenate something to the end of a list requires walking to the end of the list. So

(let ((x (list 1 2 3)))
  (nconc (nconc x x) x))
;        -----------      (a)
; ---------------------   (b)

(a) terminates, and returns the list (1 2 3 1 2 3 1 2 3 ...), but (b) can't terminate since we can't get to the end of (1 2 3 1 2 3 ...) in order to add things to the end.

Now that leaves the question of why

(defun foo (a b)
  (mapcan #'(lambda (x) a) b))

(foo (list 1 2 3) '(a b))

leads to a freeze. Since there are only two elements in (a b), this amounts to:

(let ((x (list 1 2 3)))
  (nconc x x))

That should terminate and return an infinite list (1 2 3 1 2 3 1 2 3 ...). In fact, it does. The problem is that printing that list in the REPL will hang. For instance, in SBCL:

CL-USER> (let ((x (list 1 2 3)))
           (nconc x x))
; <I manually stopped this, because it hung.

CL-USER> (let ((x (list 1 2 3)))
           (nconc x x)            ; terminates
           nil)                   ; return nil, which is easy to print

If you set *print-circle* to true, you can see the result from the first form, though:

CL-USER> (setf *print-circle* t)
CL-USER> (let ((x (list 1 2 3)))
           (nconc x x))
#1=(1 2 3 . #1#)                  ; special notation for reading and
                                  ; writing circular structures

The simplest way (i.e., fewest number of changes) to adjust your code to remove the problematic behavior is to use copy-list in the lambda function:

(defun foo (a b)
  (mapcan #'(lambda (x)
              (copy-list a))

This also has an advantage over a (reduce 'append (mapcar ...) :from-end t) solution in that it doesn't necessarily allocate an intermediate list of results.

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I ran both functions: (defun foo1 (a b) (reduce #'append (mapcar (lambda (x) a) b) :from-end t)) and (defun foo2 (a b) (mapcan #'(lambda (x) (copy-list a)) b)) with (time (foo1 '(a b c d e f g h i j k l m n o p r s t u v w x y z) '(0 1 2 3 4 5 6 7 8 9))) and the result was: foo1: 245 cons cells, foo2: 251 cons cells. Doesn't that mean foo1 is more effective? –  chriemmy Apr 25 '14 at 14:48
@chriemmy the mapcan/copy-list solution produces one more copy of the first list than reduce/append/mapcar (since append doesn't copy its tail). However, the mapcan/copy-list doesn't store an intermediate list of results that's the length of the second list. Try the same test with a first list that's longer than the second (e.g., swap (0 ... 9) and (a ... z)). That difference doesn't matter so much, but both are much better than reduce/.../:from-end nil. –  Joshua Taylor Apr 25 '14 at 15:24

Rule of thumb is to make sure the function supplied to mapcan (and destructive friends) creates the list or else you'll make a loop. The same applies to arguments supplied to other destructive functions. Usually it's best if the function has made them which makes it only a linear update.

This will work:

(defun foo (a b)
  (mapcan #'(lambda (x) (copy-list a)) b))

Here is some alternatives:

(defun foo (a b)
  ;; NB! apply sets restrictions on the length of b. Stack might blow
  (apply #'append (mapcar #'(lambda (x) a) b)) 

(defun foo (a b)
   ;; uses loop macro
   (loop for i in b
         append a))

I really don't understand why b cannot be a number? You're really using it as church numbers so I think I would have done this instead:

(defun x (list multiplier)
   ;; uses loop
   (loop for i from 1 to multiplier
         append list))

(x '(a b c) 0) ; ==> nil
(x '(a b c) 1) ; ==> (a b c)
(x '(a b c) 2) ; ==> (a b c a b c)

;; you can still do the same:
(x '(1 2 3) (length '(a b))) ; ==> (1 2 3 1 2 3)
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