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Is the monadic interface to hash sets and maps gone in Haskell? What kind of performance model should I have in mind when using the modern versions? (Data.Map, Data.HashMap, Data.HashSet). They do not appear to have any IO code in the version I have (ghc 7.0.2),

> :browse Data.HashSet
type HashSet a = Set a
newtype Set a
  = Data.HashSet.Set (Data.IntMap.IntMap (Data.HashSet.Some a))
(\\) :: Ord a => Set a -> Set a -> Set a
delete :: (Data.Hashable.Hashable a, Ord a) => a -> Set a -> Set a
difference :: Ord a => Set a -> Set a -> Set a
elems :: Set a -> [a]
empty :: Set a
Data.HashSet.filter :: Ord a => (a -> Bool) -> Set a -> Set a
fold :: (a -> b -> b) -> b -> Set a -> b
fromList :: (Data.Hashable.Hashable a, Ord a) => [a] -> Set a
insert :: (Data.Hashable.Hashable a, Ord a) => a -> Set a -> Set a
intersection :: Ord a => Set a -> Set a -> Set a
isProperSubsetOf :: Ord a => Set a -> Set a -> Bool
isSubsetOf :: Ord a => Set a -> Set a -> Bool
Data.HashSet.map ::
  (Data.Hashable.Hashable b, Ord b) => (a -> b) -> Set a -> Set b
member :: (Data.Hashable.Hashable a, Ord a) => a -> Set a -> Bool
notMember ::
  (Data.Hashable.Hashable a, Ord a) => a -> Set a -> Bool
Data.HashSet.null :: Set a -> Bool
partition :: Ord a => (a -> Bool) -> Set a -> (Set a, Set a)
singleton :: Data.Hashable.Hashable a => a -> Set a
size :: Set a -> Int
toList :: Set a -> [a]
union :: Ord a => Set a -> Set a -> Set a
unions :: Ord a => [Set a] -> Set a
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3 Answers

up vote 5 down vote accepted

Is the monadic interface to hash sets and maps gone in Haskell?

No, there's still a monadic hash map, Data.HashTable, which lives in the IO monad. (It's pretty annoying that it doesn't live in the ST monad, but that would make it slightly less portable and slightly less easy to understand I suppose, because ST isn't Haskell 98.) It works pretty much like a hashtable in any imperative language. The performance characteristics should be the same as well.

And of course from any map, including a hashtable, you can create a set, by storing dummy values (e.g. just map every key to itself).

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Nitpick on the whole discussion: calling this a "monadic hash map" is pretty misleading, and I was confused by it. I was expecting a MonadHashTable class or something. I'd call it an "impure hash table" or even a "hashtable with operations in IO". The word "monad" doesn't really belong here. –  luqui May 23 '11 at 7:49
I don't see why. What's wrong with calling something "monadic" if has a bunch of functions which return values in a monad? –  Robin Green May 23 '11 at 7:53
I think to call something "monadic" those functions should return results in an arbitrary monad, or at least any monad in a given type class. If they return only values in IO, well... IO is a functor and a type constructor as well as a monad; why not call it "functorial" or "type constructoric"? –  Alexey Romanov May 23 '11 at 7:59
@Alexey I just Googled monadic. The usage of the term "monadic parsing", including in a well-cited paper by Hutton, doesn't conform to your restricted definition of the word. –  Robin Green May 23 '11 at 8:02
Would you call functions that return lists monadic? If functions returning IO are called monadic then functions returning lists should be as well. –  augustss May 23 '11 at 10:00
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Data.HashMap and Data.HashSet use Patricia trees to store the hash, so the performance for the operations have the same asymptotic complexity as Data.Map. But that said, the constant factor is much smaller and they perform quite a lot faster in my experience.

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There is still a HashTable, living in IO, available. However, that one is deprecated (precisely because it is not living in the ST monad) and will be removed in GHC 7.8.

Yet there is a monadic hashtable available, which is living in ST. See the hashtables package in the hackageDB.

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