# Eliminating the duplicates completely in Haskell

I have this code but it does not do what I want totally, I takes a list of tuples;

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

and gives

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

but I want it to give

``````[(1,3),(4,3)]
``````

where am I doing wrong? Thanks in advance.

``````eliminate :: [(Int,Int)] -> [(Int,Int)]
eliminate [] = []
eliminate (x:xs)
| isTheSame xs x  = eliminate xs
| otherwise       = x : eliminate xs

isTheSame :: [(Int,Int)] -> (Int,Int) -> Bool
isTheSame [] _ = False
isTheSame (x:xs) a
| (fst x) == (fst a) && (snd x) == (snd a)  = True
| otherwise                 = isTheSame xs a
``````
-
What do you mean with "totally", why exactly should `(3,2)` and `(1,2)` be excluded? – Landei Apr 2 '13 at 18:50
I am searchin for a function that eliminates the duplicates completely, only the unique ones should be there, I guess I should change my implementation :/ – Karavana Apr 2 '13 at 18:55

The code is almost correct. Just change this line

``````    | isTheSame xs x  = eliminate xs
``````

to

``````    | isTheSame xs x  = eliminate \$ filter (/=x) xs
``````

The reason is that if `x` is contained in `xs`, you want to delete all occurences of `x`.

That said, there are a few parts in your code sample that could be expressed more elegantly:

• `(fst x) == (fst a) && (snd x) == (snd a)` is the same as `x == a`
• `isTheSame` is the same as `elem`, only with its arguments reversed

Thus, we could express the function `eliminate` like this:

``````eliminate [] = []
eliminate (x:xs)
| x `elem` xs = eliminate \$ filter (/=x) xs
| otherwise = x : eliminate xs
``````
-
ow yes! I was filtering that part to exclude x from the xs part but I was not able to manage it thank you :) – Karavana Apr 2 '13 at 18:59
@Karavana: Check my edit, you should use `elem` instead of your custom, highly specialized `isTheSame` function (which also has a strange name) – Niklas B. Apr 2 '13 at 19:01
I was just about to suggest that change. – Daniel Fischer Apr 2 '13 at 19:02
@Daniel: Which change? :) – Niklas B. Apr 2 '13 at 19:03
This one, you have just missed the grace period ;) – Daniel Fischer Apr 2 '13 at 19:04

This should do it:

``````-- all possibilities of picking one elt from a domain
pick :: [a] -> [([a], a)]
pick []     = []
pick (x:xs) = (xs,x) : [ (x:dom,y) | (dom,y) <- pick xs]

unique xs = [x | (xs,x) <- pick xs, not (elem x xs)]
``````

Testing:

``````*Main Data.List> unique [(3,2),(1,2),(1,3),(1,2),(4,3),(3,2),(1,2)]
[(1,3),(4,3)]
``````

Following Landei's lead, here's a short version (although it'll return its results sorted):

``````import Data.List

unique xs = [x | [x] <- group . sort \$ xs]
``````
-
good implementation Will, I appreciate your effort but I am interested in whats wrong with my implementation, but yours is perfect tho :) – Karavana Apr 2 '13 at 19:00
@Karavana no problem! :) – Will Ness Apr 2 '13 at 19:03

Inefficient reference implementation.

``````import Data.List

dups xs = xs \\ nub xs
eliminate xs = filter (`notElem` dups xs) xs
``````
-

A shorter version (but results will be sorted):

``````import Data.List

eliminate :: [(Int,Int)] -> [(Int,Int)]
eliminate = concat . filter ((== 1) . length) . group . sort
``````

Or with `Maybe` (thank you, Marimuthu):

``````import Data.List
import Data.Maybe

eliminate = mapMaybe f . group . sort where f [x] = Just x; f _ = Nothing
``````

Thinking about... we could use lists instead of `Maybe`:

``````import Data.List

eliminate = (>>= f) . group . sort where  f [x] = [x]; f _ = []
``````
-
Is there a reason for using join instead of concat? By using concat, the import of Control.Monad is not necessary. – kaan Apr 2 '13 at 19:12
No. Thank you, I fixed it. – Landei Apr 2 '13 at 19:19
`eliminate = mapMaybe f . group . sort where f [x] = Just x; f _ = Nothing` since `catMaybes . map f` is simply `mapMaybe f` – Marimuthu Madasamy Apr 2 '13 at 19:46
Thank you, I never used that one... – Landei Apr 2 '13 at 21:45
`[x | [x] <- group . sort \$ xs]`. :) – Will Ness Apr 2 '13 at 22:13