# Merge two lists

I am looking to merge 2 lists in F# in a purely functional way. I am having a hard time understanding the syntax.

Let say I have a tuple `([5;3;8],[2;9;4])`

When I call the function, it should return `[5;2;3;9;8;4]`

Here is why I have so far, which is wrong I am sure. If someone could explain it in a simple way I would be grateful.

``````let rec interleave (xs,ys) = function
|([], ys) -> ys
|(x::xs, y::ys) -> x :: y::  interleave (xs,ys)
``````
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## 3 Answers

Your function is almost right. `let f = function` is shorthand for `let f x = match x with` so you don't need explicit args. Also, your algorithm needs some tweaking.

``````let rec interleave = function //same as: let rec interleave (xs, ys) = match xs, ys with
|([], ys) -> ys
|(xs, []) -> xs
|(x::xs, y::ys) -> x :: y :: interleave (xs,ys)

interleave ([5;3;8],[2;9;4]) //output: [5; 2; 3; 9; 8; 4]
``````
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Thanks for the speedy response but I don't quite understand why there is no argument . > ] How would I call the function? [ < –  user1072706 Feb 1 '12 at 4:40
You call the function as you normally would. The last line of code demonstrates usage. See this MSDN article (top of page). It shows two forms of (equivalent) function declaration. –  Daniel Feb 1 '12 at 4:43

One important point is that the function is not correct. It fails with the input `([1;2;3], [])` since you missed the case of `(xs, [])` in pattern matching. Moreover, arguments are better in the curried form in order that it's easier to use with partial application. Here is the corrected version:

``````let rec interleave xs ys =
match xs, ys with
| [], ys -> ys
| xs, [] -> xs
| x::xs', y::ys' -> x::y::interleave xs' ys'
``````

You can see that the function is not tail-recursive since it applies cons `(::)` constructor twice after the recursive call returned. One interesting way to make it tail-recursive is using sequence expression:

``````let interleave xs ys =
let rec loop xs ys =
seq {
match xs, ys with
| [], ys -> yield! ys
| xs, [] -> yield! xs
| x::xs', y::ys' ->
yield x
yield y
yield! loop xs' ys'
}
loop xs ys |> List.ofSeq
``````
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+1 for giving a tail-recursive solution, though personally I would have used continuations or an accumulator + `List.reverse` rather than a sequence expression. –  ildjarn Feb 1 '12 at 19:23
@ildjarn: You might be interested in the findings in this answer (they tend to be consistent regardless of algo). In short, using an accumulator + `List.rev` generally performs much better than continuations. –  Daniel Feb 1 '12 at 19:44
Cool, thanks for the link @Daniel. Continuations and accumulator + `List.rev` are interesting possibilities, but I wrote this version using `Seq` to keep it close to the non tail-recursive one. –  pad Feb 1 '12 at 22:27

You can use this opportunity to define a more general higher order function - `zipWith`, and then implement `interleave` using it.

``````let rec zipWith f xlist ylist =
match f, xlist, ylist with
| f, (x :: xs), (y :: ys) -> f x y :: zipWith f xs ys
| _, _, _ -> []

let interleave xs ys = zipWith (fun a b -> [a; b]) xs ys |> List.concat
``````

Edit:

As @pad said below, F# already has `zipWith` under the name`List.map2`. So you can rewrite `interleave` as follows:

``````let interleave xs ys = List.map2 (fun a b -> [a; b]) xs ys |> List.concat
``````
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`List.map2` does the same thing as `zipWith` in Haskell. And F# list is not lazy, so using `zipWith` as in your solution will create a temporary list. –  pad Feb 4 '12 at 23:47
@pad, ah, thanks. I had seen `List.map2` before, but somehow forgot about it. Regarding creation of intermediate collection, yes I am aware of that, but this is something that's true of almost every higher order function on `List`. :-) –  missingfaktor Feb 5 '12 at 5:40