# Using monadic functions with Data.Map (fx unionWith)

I would like to union two Map instances with a monadic function. This becomes a problem because of the `unionWith` type signature:

``````unionWith :: Ord k => (a -> a -> a) -> Map k a -> Map k a -> Map k a
``````

I'm looking for a smart way to do this. Here is my naive implementation:

``````monadicUnionWith :: (Monad m, Ord k) => (a -> a -> m a) -> Map k a -> Map k a -> m (Map k a)
monadicUnionWith f mapA mapB = do
let overlapping = toList \$ intersectionWith (\a b -> (a,b)) mapA mapB
mergedOverlapping <- liftM fromList \$ mapM helper overlapping
return \$ union (union mergedOverlapping mapA) mapB
where
helper (k, (a,b)) = do
c <- f a b
return (k, c)
``````

Note that `union` is left biased

-
Your code doesn’t look too bad ;-) –  Joachim Breitner Nov 10 '13 at 22:51

Not sure if it is more efficient, but it is somewhat cooler (as it involves storing monadic values in the map):

``````monadicUnionWith :: (Monad m, Ord k) => (a -> a -> m a) -> Map k a -> Map k a -> m (Map k a)
Data.Traversable.sequence \$ unionWith (\a b -> do {x <- a; y <- b; f x y}) (map return mapA) (map return mapB)
``````

And if you want you can use

``````(\a b -> join (liftM2 f a b))
``````

as the parameter to `unionWith`, or even

``````((join.).(liftM2 f))
``````
-
Hmm, it probably is more efficient, as the tree structure of the map is not destroyed (as with `fromList` and `toList`). –  Joachim Breitner Nov 11 '13 at 8:11
Yes, that was why I called my own solution "stupid". It didn't keep the tree structure. I should have just looked up how `mapM` was implemented, but didn't think of that then. –  RasmusWL Nov 11 '13 at 10:51