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okay, this is probably going to be in the prelude, but: is there a standard library function for finding the unique elements in a list? my (re)implementation, for clarification, is:

has :: (Eq a) => [a] -> a -> Bool
has [] _ = False
has (x:xs) a
  | x == a    = True
  | otherwise = has xs a

unique :: (Eq a) => [a] -> [a]
unique [] = []
unique (x:xs)
  | has xs x  = unique xs
  | otherwise = x : unique xs
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Your has is also standard; it's just flip elem. –  Nefrubyr Jun 23 '10 at 8:19
Or even has xs = (`elem` xs). –  yatima2975 Jun 23 '10 at 9:08

5 Answers 5

up vote 76 down vote accepted

I searched for (Eq a) => [a] -> [a] on Hoogle.

First result was nub (remove duplicate elements from a list).

Hoogle is awesome.

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Also, you can provide you own equality function like this : nubBy :: (a -> a -> Bool) -> [a] -> [a] –  jd.k Jun 23 '10 at 10:22
And if Bart ever gets time we might see a nubOrd, which will be more reasonable performance wise. –  Thomas M. DuBuisson Jun 24 '10 at 7:16
It's worth saying that the nub function is from Data.List package. –  Dmitry Ginzburg Oct 7 '14 at 21:25

Another way to remove duplicates:

unique :: [Int] -> [Int]
unique xs = [x | (x,y) <- zip xs [0..], x `notElem` (take y xs)]
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import Data.Set (toList, fromList)
uniquify lst = toList $ fromList lst
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uniquify = toList . fromList –  muhmuhten Sep 16 '12 at 2:29

I think that unique should return a list of elements that only appear once in the original list; that is, any elements of the orginal list that appear more than once should not be included in the result.

May I suggest an alternative definition, unique_alt:

    unique_alt :: [Int] -> [Int]
    unique_alt [] = []
    unique_alt (x:xs)
        | elem x ( unique_alt xs ) = [ y | y <- ( unique_alt xs ), y /= x ]
        | otherwise                = x : ( unique_alt xs )

Here are some examples that highlight the differences between unique_alt and unqiue:

    unique     [1,2,1]          = [2,1]
    unique_alt [1,2,1]          = [2]

    unique     [1,2,1,2]        = [1,2]
    unique_alt [1,2,1,2]        = []

    unique     [4,2,1,3,2,3]    = [4,1,2,3]
    unique_alt [4,2,1,3,2,3]    = [4,1]
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The nub function from Data.List (no, it's actually not in the Prelude) definitely does something like what you want, but it is not quite the same as your unique function. They both preserve the original order of the elements, but unique retains the last occurrence of each element, while nub retains the first occurrence.

You can do this to make nub act exactly like unique, if that's important (though I have a feeling it's not):

unique = reverse . nub . reverse

Also, nub is only good for small lists. Its complexity is quadratic, so it starts to get slow if your list can contain hundreds of elements.

If you limit your types to types having an Ord instance, you can make it scale better. This variation on nub still preserves the order of the list elements, but its complexity is O(n * log n):

import qualified Data.Set as Set

nubOrd :: Ord e => [a] -> [a] 
nubOrd xs = go Set.empty xs where
  go s (x:xs)
   | x `Set.member` s = go s xs
   | otherwise        = x : go (Set.insert x s) xs
  go _ _              = []

In fact, it has been proposed to add nubOrd to Data.Set.

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Arguably its best to simply leave it as a set instead of using a list in the first place –  alternative Oct 16 '13 at 13:27

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