# Haskell - alternating elements from two lists

I'm trying to write a haskell function that takes in two lists of integers and generates a list with elements that have been taken alternatingly from the two lists.

I have the function:

``````blend xs ys
``````

An example:

``````blend [1,2,3] [4,5,6]
``````

should return

``````[1,4,2,5,3,6]
``````

My logic is to zip the two lists together, generating the pairs of alternate elements, then somehow remove them from their tuples.

It's removing them from their tuples that I can't figure out how to implement.

-

How about exchanging the arguments during recursion-descend?

``````blend (x:xs) ys = x:(blend ys xs)
blend _ _ = []
``````

You can even generalise this approach for any number of lists (I'll leave this to you) or take the remaining elements of a list if the other is empty:

``````blend _ ys = ys
``````
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Very cool way to do it! Thanks. –  Shabu Dec 12 '11 at 6:41

I will assume that this is homework. Provided that you can create the following list (as you said):

``````[(1,4),(2,5),(3,6)]
``````

... you can solve it with 2 functions:

1. You need to convert a tuple `(a, b)` into a list `[a, b]`. Try using pattern matching! This function needs to be applied (aka. mapped) over all elements of the list you have.
2. You will have a list of lists, like `[[1,4],[2,5],[3,6]]`, so you need a function for concatenating the sublists into one big list.

There are of course other, maybe superior, ways to solve this problem, but it might be a good idea to continue with your original approach.

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I think an answer to a `[homework]` question that continues on in the original direction is particularly helpful (unless the direction was completely wrong, which, in this case, it wasn't). –  Tikhon Jelvis Dec 12 '11 at 7:56

If you want to zip, generate lists instead of tuples:

``````concat \$ zipWith (\x y -> [x,y]) [1,2,3] [4,5,6]
``````

Some pointless fun:

``````concat \$ zipWith ((flip(:)).(:[])) [1,2,3] [4,5,6]
``````

Probably the easiest way:

``````import Data.List
concat \$ transpose [[1,2,3],[4,5,6]]
``````
-

A solution without using `concat` or explicit recursion:

``````blend l = foldr(\$)[] . zipWith(.) (map(:)l) . map(:)
``````

We can make also make this point-free

``````blend' = (foldr(\$)[].) . (.map(:)) . zipWith(.) . map(:)
``````

How it works: first decorate both lists with cons operators

``````\[1,2,3] [4,5,6] -> [1:, 2:, 3:] [4:, 5:, 6:]
``````

then we zip this together with function composition

``````-> [(1:).(4:), (2:).(5:), (3:).(6:)]
``````

and finally fold the application of all these compositions from the right to the empty list

``````-> (1:).(4:) \$ (2:).(5:) \$ (3:).(6:) \$ [] = 1:4:2:5:3:6:[] = [1,4,2,5,3,6]
``````
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What's wrong with this? –  leftaroundabout Dec 12 '11 at 12:07