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.

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Without `Ord` or `Hashable` constraints, this is the only possible implentation –  Niklas B. Jan 18 at 21:21
By the way, using a hash table is still O(n^2) in the worst case. –  newacct Jan 20 at 8:14
@newacct Please explain your reasoning. By my count, since insertion and lookup for hash tables are O(1), we have n(O(1) + O(1)) = O(n). –  jforberg Jan 21 at 9:21
@jforberg: insertion and lookup for hash tables are both O(n) in the worst case –  newacct Jan 22 at 0:25

Efficiency is quite a concern in Haskell, after all the language performs on par with Java, and beats it in terms of memory consumption, but of course it's not C.

The answer to your question is pretty simple: the Prelude's `nub` requires only an `Eq` constraint, while any implementation based on `Map` or `Set` would also require either an `Ord` or `Hashable`.

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Thanks, I didn't see that. But if we had function overloading or a universal hash operator, we could specify a more efficient behaviour for Hashable lists, could we not? –  jforberg Jan 18 at 21:25
@jforberg If you really want to, you can achieve that with typeclasses and newtype or existential wrappers. However I'd simply prefer descriptive names like `nubOrd`, `nubHashable`. –  Nikita Volkov Jan 18 at 21:31
@jforberg, how would a "universal hash operator" work exactly? –  dfeuer Jan 18 at 23:40
@dfeuer Java provides a hash method for all objects, typically it just returns the memory address of the object, this makes sure all Java types can be put in hashtables. I'm sure something similar could be done in Haskell, but it probably would involve contaminating the purity of the language, maybe to the point where it's not beneficial. –  jforberg Jan 19 at 1:53
@jforberg, the biggest problem with that concept is that Haskell values don't have identity. They simply are not objects. Two identical pointers in the runtime system will of course always point to the same thing, but there's absolutely no guarantee that two equal things will be at the same address. For example, `let {a=[1,2];b=[1,2]} in a==b` will most certainly evaluate to True, but if you apply a mythical universal hash function, `let {a=[1,2];b=[1,2]} in uHash a == uHash b` will give a result that depends on what optimizations the compiler applies! It just doesn't work. –  dfeuer Jan 19 at 2:35

You're absolutely correct - `nub` is an O(n^2) algorithm. However, there are still reasons why you might want to use it instead of using a hashmap:

• for small lists it still might be faster
• `nub` only requires the `Eq` constraint; by comparison `Data.Map` requires an `Ord` constraint on keys and `Data.HashMap` requires a key type with both `Hashable` and `Ord` type classes
• it's lazy - you don't have to run through the entire input list to start getting results

Edit: Slight correction on the third point -- you don't have to process the entire list to start getting results; you'll still have to examine every element of the input list (so `nub` won't work on infinite lists), but you'll start returning results as soon as you find a unique element.

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Agreed. But a hashtable could also be lazy since you can output unique values the first time you see them. But, well. –  jforberg Jan 18 at 21:28
yes - you're right about that –  user5402 Jan 18 at 21:48