# Creating repetitions of list with mapcan freezes?

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

You could

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

then

``````? (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
NIL
``````

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

``````CL-USER> (setf *print-circle* t)
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))
b))
``````

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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