# writing a recursive function using foldr

I am new in Haskell programming. While practicing I was asked to make a recursive function that looks like this:

``````repeat1 5 [1,2,3] = [[1,2,3],[1,2,3],[1,2,3],[1,2,3],[1,2,3]]
``````

which is

``````repeat1 :: Int -> a -> [a]
repeat1 0 x = []
repeat1 num x = x : repeat1 (num-1) x
``````

I want to convert it into a `foldr` function but I can't :(
I have read about the lambda functions and the folding(`foldr` and `foldl`) functions from http://en.wikibooks.org/wiki/Haskell/List_processing

Can anybody help please?
Thanks in advance

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You can of course write `repeat1 num x = foldr (\_ xs -> x : xs) [] [1 .. num]`, but that's not really a good way to write it. The explicit recursion is the best way. – Daniel Fischer Nov 14 '12 at 20:43
@hammar, you might expand your `unfoldr` comment into a full answer. – Jamey Sharp Nov 14 '12 at 21:09

## 3 Answers

`foldr` is for functions that consume lists. For producing lists, `unfoldr` is a more natural choice:

``````repeat1 :: Int -> a -> [a]
repeat1 n x = unfoldr f n
where f 0 = Nothing
f n = Just (x, n-1)
``````

That said, I think writing it as a plain recursion is more clear in this case.

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Thank you so much :) – MohamedMansour Nov 18 '12 at 6:04

As hammar pointed out, `foldr` isn't the right tool here, as you first need a list to work on. Why not simply...

``````repeat1 n = take n . repeat
``````
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why not just `replicate`? – John L Nov 15 '12 at 8:10
That would spoil the fun... – Landei Nov 15 '12 at 13:18

If you really want to use `foldr`, you could do something like that:

``````repeat' n x = foldr (\_ acc -> x:acc) [] [1..n]
``````

You basically create a list of size `n` with `[1..n]` and for each element of that list, you append `x` to your accumulator (base value `[]`). In the end you have a n-elements list of `x`.

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