# how to modify the i-th element of a Haskell List?

I'm looking for a way to modify the i-th element of haskell List. let says `foobar` is such a function, then the following works.

``````let xs = ["a","b","c","d"]
foobar xs 2 "baba" -- xs = ["a","b","baba","d"]
``````

-
Keep in mind that if you are doing this sort of random-access-modification, either modifying your algorithm or using a (mutable in the ST monad if possible) vector would be appropriate –  alternative Feb 10 '12 at 1:01

You can do it with `splitAt`:

``````Prelude> let xs = ["a","b","c","d"]
Prelude> (\(l,_:r)->l++"baba":r) \$ splitAt 2 xs
["a","b","baba","d"]
``````
-
thanks a lot for your response –  Fopa Léon Constantin Feb 9 '12 at 22:58
@FOPALéonConstantin: Bear in mind the original list is not modified - a new list is created containing the desired element at the specified position. –  rampion Feb 10 '12 at 0:16
I cannot imagine we have to create a self-made function for such a common paradigm even though in pure functional programming. –  ning Feb 10 '12 at 1:42
``````let xs = ["a","b","c","d"]
take 2 xs ++ ["baba"] ++ drop 3 xs
``````
-
Probably easier to understand, but I think the behaviour if the list is too short is problematic: in that case `"baba"` is appended, whatever position the end is at. (My solution gives an error in that case, also not optimal but easy to fix.) Furthermore, it needs to calculate 3=2+1 and needs to do two list traversals to the desired position, but that performance loss may not matter. –  leftaroundabout Feb 9 '12 at 23:38
@leftaroundabout: there are thousands of ways to do that, including manual constructing of the new list element by element. I just took the most elegant I could think of. New element will be added only if list is empty, but behavior of the function is undefined for this case. –  ffriend Feb 10 '12 at 0:46
It's not undefined, I wouldn't have complained in that case – but `take n` simply takes the whole list if its length is less than n, and `drop n` returns an empty list then. So, e.g., `take 37 xs ++ ["baba"] ++ drop 38 xs` returns `["a","b","c","d","baba"]`, where `"baba"` is nowhere near position 37. –  leftaroundabout Feb 10 '12 at 1:04
@leftaroundabout: author of the question asked about only one case, additional conditions were not mentioned and are not obvious. So it is undefined what to do if position to insert element to exceeds length of the list. But if you want particular conditions, you can always add them separately. –  ffriend Feb 10 '12 at 2:12
Oh, sorry, I thought you meant the behaviour of `take` and `drop` were undefined in that case. –  leftaroundabout Feb 10 '12 at 13:11
``````change n x = zipWith (\k e -> if k == n then x else e) [0..]
``````
-
Clever, but suboptimal. If you're changing index k, the `splitAt` method is O(k), while this one is always O(n). Though I guess it could be argued that if you're worried about speed, you shouldn't be using lists for this in the first place. –  hammar Feb 10 '12 at 9:20
You are right, but I think my version is more flexible (e.g. can be adapted easily to work for multiple indexes). –  Landei Feb 10 '12 at 19:14
@Landei true, however the simplistic approach to this (`... zipWith (\k e -> if elem k nList then ...`) would be even more ineffective: O (nl) while max( O (n), O (l ln(l) ) ) is achievable. –  leftaroundabout Feb 11 '12 at 14:39
Putting the indices in a set would be good enough for many applications. –  Landei Feb 11 '12 at 19:12

A simple function to do it directly:

``````replaceAt _ _ []     = []
replaceAt 0 x (_:ys) = x:ys
replaceAt n x (y:ys) = y:replaceAt (n - 1) x ys
``````
-