# Changing the nth element of a list

I want change the nth element of a list and return a new list.

I've thought of three rather inelegant solutions:

``````(defun set-nth1 (list n value)
(let ((list2 (copy-seq list)))
(setf (elt list2 n) value)
list2))

(defun set-nth2 (list n value)
(concatenate 'list (subseq list 0 n) (list value) (subseq list (1+ n))))

(defun set-nth3 (list n value)
(substitute value nil list
:test #'(lambda (a b) (declare (ignore a b)) t)
:start n
:count 1))
``````

What is the best way of doing this?

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Consider using `nthcdr` to reuse the tail of the original list. Also, as `subseq` always creates a new sequence, you can use the destructive `nconc` instead of `concatenate` for less consing and better performance. –  Terje Norderhaug May 19 '11 at 20:42
As far as naming goes, I'd expect any function named SET-... to be destructive, rather than copying. I'd probably call it COPY-WITH-SHADOWED-NTH or similar. Also, with the requirement to do tail-sharing, finding a correct, descriptive, short name becomes hard. –  Vatine May 20 '11 at 15:19

``````(defun set-nth4 (list n val)
(loop for i from 0 for j in list collect (if (= i n) val j)))
``````

Perhaps we should note the similarity to `substitute` and follow its convention:

``````(defun substitute-nth (val n list)
(loop for i from 0 for j in list collect (if (= i n) val j)))
``````

BTW, regarding `set-nth3`, there is a function, constantly, exactly for situation like this:

``````(defun set-nth3 (list n value)
(substitute value nil list :test (constantly t) :start n :count 1))
``````

### Edit:

Another possibility:

``````(defun set-nth5 (list n value)
(fill (copy-seq list) value :start n :end (1+ n)))
``````
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Thanks for those, and for telling me about 'constantly' - I've often needed that! –  johnsondavies May 20 '11 at 7:27

It depends on what you mean for "elegance", but what about...

``````(defun set-nth (list n val)
(if (> n 0)
(cons (car list)
(set-nth (cdr list) (1- n) val))
(cons val (cdr list))))
``````

If you have problems with easily understanding recursive definitions then a slight variation of nth-2 (as suggested by Terje Norderhaug) should be more "self-evident" for you:

``````(defun set-nth-2bis (list n val)
(nconc (subseq list 0 n)
(cons val (nthcdr (1+ n) list))))
``````

The only efficiency drawback I can see of this version is that traversal up to nth element is done three times instead of one in the recursive version (that's however not tail-recursive).

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By elegant I mean the purpose of the code should be self-evident by looking at it. Only set-nth1 passes this test so far. Also, it should be efficient, so no unnecessary consing. –  johnsondavies May 20 '11 at 7:25
`set-nth-2bis` should be pretty self-evident, and minimizes consing. Readability might perhaps be slightly improved by using `cons` instead of `list` as in `(cons val (nthcdr (1+ n) list))` but that a matter of taste. –  Terje Norderhaug May 20 '11 at 21:45
@Terje: changed from (list...) to (cons ...) –  6502 May 20 '11 at 22:23

``````(defun set-nth (list n value)
(loop
for cell on list
for i from 0
when (< i n) collect (car cell)
else collect value
and nconc (rest cell)
and do (loop-finish)
))
``````

On the minus side, it looks more like Algol than Lisp. But on the plus side:

• it traverses the leading portion of the input list only once

• it does not traverse the trailing portion of the input list at all

• the output list is constructed without having to traverse it again

• the result shares the same trailing cons cells as the original list (if this is not desired, change the `nconc` to `append`)

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