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So I have some Haskell code in which I'd like to work with Data.Set. Basically because I didn't look into alternatives much and need a structure to store elements of Ord without duplicates.

I've now come to a situation where I'd like to have something like mapM for Data.Set so that I can perform monadic operations on a sets individual elements. I already searched Hayoo for a type like (a -> m b) -> Set a -> m (Set b) but didn't find anything useful.

I also looked into Data.Traversable just to find out that it has instances for [], Maybe and (Map k) but not for Set.

So my questions are:

  1. Why is there no mapM for Set in Data.Set?
  2. Is there already a package that delivers something like mapM that I missed?
  3. Is it discouraged to want to mapM over Sets? (why and what are alternatives?)
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2 Answers

up vote 4 down vote accepted

The main problem is that Traversable requires Functor, and sets cannot be functors since they require an Ord constraint while functors must be unconstrained.

However, sets are foldable so if you don't need to collect the results, you can use mapM_ from Data.Foldable.

If you do need the results, you can go via lists, e.g.

fromList <$> mapM f (toList s)
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Yeah - I thought about doing it via lists, I just hoped that there was a better solution. – Jakob Runge Dec 5 '12 at 19:18
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If your map function is not monotonic (i.e. does not satisfy x < y implies f x < f y) then going via lists is not significantly worse than the best you could do. If it is monotonic, then yeah, it's too bad there is no mapMonotonicM. – luqui Dec 6 '12 at 19:08
up vote 2 down vote

You might be interested in the lens package. It provides a more general abstraction for traversals (among many other things). While it doesn't solve the problem of having an efficient mapM for Sets, it allows to express traversals for constrained data types:

import Control.Lens.Traversal
import Data.Traversable (traverse)
import Data.Set (Set)
import qualified Data.Set as Set

-- forall f. Applicative f => (a -> f b) -> Set a -> f (Set b)
setTraversal :: (Ord b) => Traversal (Set a) (Set b) a b
setTraversal f = (fmap Set.fromList) . traverse f . Set.toList

main = do
    print $ mapMOf setTraversal (\x -> [x+1, x-1]) $ Set.fromList [0, 10, 20]

Note that the documentation for Set.toList says that it's subject to list fusion. With some luck (depending on the applicative in question) the intermediate lists could get fused away.

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Keep is mind that your setTraversal isn't a legal Traversal (which is why Data.Set.Lens doesn't export it). In particular, it can change the number of elements in the Set, which can break the Traversal laws. – shachaf Dec 5 '12 at 22:05
@shachaf Yes, that's true. If the traversing function isn't injective on a set then the result will have less elements than the original. – Petr Pudlák Dec 6 '12 at 8:38

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