I'm confused by the implementation of the 'nub' (select unique values) function in the Haskell standard library *Data.List*. The GHC implementation is

```
nub l = nub' l []
where
nub' [] _ = []
nub' (x:xs) ls
| x `elem` ls = nub' xs ls
| otherwise = x : nub' xs (x:ls)
```

As far as I can tell, this has a worst-case time complexity of O(n^2), since for a list of unique values it has to compare them all once to see that they are in fact unique.

If one used a hash table, the complexity could be reduced to O(n) for building the table + O(1) for checking each value against previous values in the hash table. Granted, this would not produce an ordered list but that would also be possible in O(n log n) using GHC's own ordered Data.Map, if that is necessary.

Why choose such an inefficient implementation for an important library function? I understand efficiency is not a main concern in Haskell but at least the standard library could make an effort to choose the (asymptotically) best data structure for the job.

`Ord`

or`Hashable`

constraints, this is the only possible implentation – Niklas B. Jan 18 '14 at 21:21