# Foldr to union lists

Consider the following `myUnion` function, that must begin as follows:

``````myUnion xs ys = foldr ....
``````

What I am trying to do is use `foldr` to create a new list that contains all elements of `xs` and `ys` without any duplicates. I must do this by first copying over all elements of `xs` that are not in `ys`, and then all the `ys` elements that remain after this check.

I have been trying to solve this problem for quite a while now without any success. I would naturally, try to break down `xs` or `ys` to `x:rest` and `y:rest2` and use the prelude function `elem` to check if some element is in a list, however having to use `foldr` suggests that there may be an easier way to go about it and makes it difficult for me to think about a way to solve this problem given that it must begin with foldr.

I appreciate any suggestions about how to tackle this problem.

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Start with this definition: `foldr (:)` and then try to make it filter out the elements that are present in `ys`. – Mikhail Glushenkov Apr 19 '13 at 1:09
Thanks for the reply. I don't understand how to implement this because xs and ys are passed as lists and are not split up to head/tail. I am having a hard time matching every single element from list xs against list ys, considering how the function must start. – AnchovyLegend Apr 19 '13 at 1:11
Your function will have the following form: `myUnion xs ys = foldr (\x rest -> ...) ys xs`. – Mikhail Glushenkov Apr 19 '13 at 1:20
Another take: first find out how to use `foldr` to filter `ys` so it does not contain any element that equals `x`. Then modify it so that scalar `x` becomes the list `xs`. Note: efficiency is not the point of this exercise, but if you can spot the inefficiency, good for you. – 9000 Apr 19 '13 at 1:32

Note that having list used for set isn't good idea:

``````myUnion xs ys = Data.List.foldr Data.Set.insert Data.Set.empty (xs ++ ys)
``````

If you have sorted lists of uniq value you probably want to use unfoldr:

``````myUnions xs0 ys0 = unfoldr walk (xs0, ys0) where
walk ([], []) = Nothing
walk ([], (y:ys')) = Just (y, ([], ys'))
walk ((x:xs'), []) = Just (x, (xs', []))
walk (xs@(x:xs'), ys@(y:ys')) | x < y = Just (x, (xs', ys))
| x > y = Just (y, (xs, ys'))
| otherwise = Just (x, (xs', ys'))
``````

But if you still insist:

``````myUnion xs ys = foldr myInsert [] (xs++ys) where
myInsert x zs = if x `elem` zs then zs else (x:zs)

-- this one expects that both lists have uniq items
-- and checks only elements from xs for presence in ys
myUnion xs ys = foldr myInsert ys xs where
myInsert x zs = if x `elem` ys then zs else (x:zs)
-- but this should be written differently I guess
myUnion xs ys = filter (`notElem` ys) xs ++ ys
``````
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+1, Thanks for the reply. I have a question, doesn't `foldr` take 3 parameters? `foldr <func> <val> <list>`? I don't understand how foldr ends up not returning any error. Your helper function returns `zs` which is a list, if one condition is true, and `x:zs` which is also a list if another condition is true. Either way, wouldn't we end up with `foldr <list>` and insufficient number of arguments? I appreciate any clarification. – AnchovyLegend Apr 19 '13 at 12:25
Yes `foldr` takes 3 arguments: function to transform last result with next element (`myInsert` or `Data.Set.insert`), first "result" to pass first time to combine function (`[]` or `Data.Set.empty`) and of course list of elements (`xs ++ ys`). But I can't understand how you've got "we end up with `foldr <list>`". – ony Apr 19 '13 at 12:32
@AnchovyLegend, Consider `foldr f b [x0,x1,x2] = f x0 (f x1 (f x2 b))`. Possible implementation `{ myFoldr _ b [] = b; myFoldr f b (x:xs) = f x (myFoldr f b xs) }` – ony Apr 19 '13 at 12:41
thanks for the reply. Sorry I don't understand your example, I am relatively new to Haskell. Do you mind breaking down the logic? I am under the impression that we ended up with foldr <list> because we are calling the helper function myInsert that takes two arguments and returns a list, so foldr arguments end up being a single list? – AnchovyLegend Apr 19 '13 at 15:28
@AnchovyLegend, Agghhh.... Got it! :) You think that `foldr myInsert [] (xs ++ ys)` is evaluated as first `result = myInsert [] (xs ++ ys)` and then `foldr (result)`. No syntax is different `foldr` takes `myInsert` (function) as a first argument, then `[]` as a second argument and `(xs ++ ys)` as its third argument. In C-like languages that call might look like `foldr(myInsert, {}, listConcat(xs, ys))`. So it may be written like `foldr (myInsert) ([]) (xs ++ ys)`. – ony Apr 19 '13 at 15:46