# Creating a function using subset language Core Haskell to remove duplicate items in a list

The language I'm using is a subset of Haskell called Core Haskell which does not allow the use of the built-in functions of Haskell. For example, if I were to create a function which counts the number of times that the item x appears in the list xs, then I would write:

``````count = \x ->
\xs -> if null xs
then 0
else if x == head xs
then 1 + count x(tail xs)
else count x(tail xs)
``````

I'm trying to create a function which outputs a list xs with its duplicate values removed. E.g. remdups (7:7:7:4:5:7:4:4:[]) => (7:4:5:[])

can anyone offer any advice?

Thanks!

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tail is in Core Haskell? –  DiegoNolan Jul 3 '13 at 17:04
Couldn't you just write it in Haskell and let GHC print the core code. This way, you only need to study the GHC manual. –  Ingo Jul 3 '13 at 17:47

I'm guessing that you're a student, and this is a homework problem, so I'll give you part of the answer and let you finish it. In order to write `remdups`, it would be useful to have a function that tells us if a list contains an element. We can do that using recursion. When using recursion, start by asking yourself what the "base case", or simplest possible case is. Well, when the list is empty, then obviously the answer is `False` (no matter what the character is). So now, what if the list isn't empty? We can check if the first character in the list is a match. If it is, then we know that the answer is `True`. Otherwise, we need to check the rest of the list -- which we do by calling the function again.

``````elem _ []       = False
elem x (y:ys)   = if x==y
then True
else elem x ys
``````

The underscore (`_`) simply means "I'm not going to use this variable, so I won't even bother to give it a name." That can be written more succinctly as:

``````elem _ []       = False
elem x (y:ys)   = x==y || elem x ys
``````

Writing `remdups` is a little tricky, but I suspect your teacher gave you some hints. One way to approach it is to imagine we're partway through processing the list. We have part of the list that hasn't been processed yet, and part of the list that has been processed (and doesn't contain any duplicates). Suppose we had a function called `remdupHelper`, which takes those two arguments, called `remaining` and `finished`. It would look at the first character in `remaining`, and return a different result depending on whether or not that character is in `finished`. (That result could call `remdupHelper` recursively). Can you write `remdupHelper`?

``````remdupHelper = ???
``````

Once you have `remdupHelper`, you're ready to write `remdups`. It just invokes `remdupHelper` in the initial condition, where none of the list has been processed yet:

``````remdups l = remdupHelper l []             -- '
``````
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This works with Ints:

``````removeDuplicates :: [Int] -> [Int]
removeDuplicates = foldr insertIfNotMember []
where
insertIfNotMember item list = if (notMember item list)
then item : list
else list

notMember :: Int -> [Int] -> Bool
notMember item [] = True
notMember item (x:xs)
| item == x = False
| otherwise = notMember item xs
``````

How it works should be obvious. The only "tricky" part is that the type of foldr is:

``````(a -> b -> b) -> b -> [a] -> b
``````

but in this case b unifies with [a], so it becomes:

``````(a -> [a] -> [a]) -> [a] -> [a] -> [a]
``````

and therefore, you can pass the function insertIfNotMember, which is of type:

``````Int -> [Int] -> [Int]   -- a unifies with Int
``````
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