# Improvements for a Map merge function

I'm writing a function to merge two Map's together. This is what I have so far:

``````def merge[K, V1, V2, V3](left: Map[K, V1], right: Map[K, V2])
(fn: (Option[V1], Option[V2]) => V3): Map[K, V3] = {
val r = (left.keySet ++ right.keySet) map {
key =>
(key -> fn(left.get(key), right.get(key)))
}
r.toMap
}
``````

The function itself works. You use the function as so:

``````val m1 = Map(1 -> "one", 3 -> "three", 5 -> "five")
val m2 = Map(1 -> "I", 5 -> "V", 10 -> "X")
merge(m1, m2) { (_, _) }
// returns:
// Map(1 -> (Some(one),Some(I)),
//     3 -> (Some(three),None),
//     5 -> (Some(five),Some(V)),
//     10 -> (None,Some(X)))
``````

I have two questions:

1. I'm worried about the performance computational complexity of the `.get` and `.toMap` calls. Can anyone improve the implementation?
2. I'd like the default function to make a pair of the values (`{ (_, _) }`). I can't quite get the syntax to do so properly.

Edit: While I originally said performance, I meant computational complexity. My guess is that this function performs in O(n•ln(n)) time. Looks like my function performs roughly in O(n). Can it be done in O(ln(n))?

-
In response to question 1: you might have a look at Scalaz's monoid typeclass for maps, as illustrated by Eric Torreborre. Your problem is a little different, but it might give you some ideas. –  Kipton Barros Sep 22 '11 at 2:50
Please have a look at the above example. –  AndreasScheinert Sep 22 '11 at 11:37
@Kipton The map monoid is impressive. I'll have to give that some thought to see if that can apply. –  dave Sep 22 '11 at 14:22

For the default function literal use:

``````(fn: (Option[V1], Option[V2]) => V3 =
(x: Option[V1], y: Option[V2]) => Tuple2(x,y))
``````

You'll have to use merge like this: `merge(m1,m2)()`

I would say don't be worried about performance until you perform some measurements on actual data.

Edit: about performance, by providing a view instead of constructing a map you can get quick "construction" at the expense of lookup - assuming we are dealing with immutable maps. So depending on actual data and use case, you can get better performance for certain operations, but it has a trade-off.

``````class MergedView[K, V1, V2, V3](
left: Map[K, V1], right: Map[K, V2]
)(fn: (Option[V1], Option[V2]) => V3 = (x: Option[V1], y: Option[V2]) => Tuple2(x,y)
) extends collection.DefaultMap[K, V3] {
def get(key: K): Option[V3] = (left.get(key), right.get(key)) match {
case (None, None) => None
case t => Some(fn(t._1, t._2))
}
lazy val tuples = (left.keys ++ right.keys).map(key => key -> get(key).get)
def iterator: Iterator[(K, V3)] = tuples.iterator
}

val r1 = new MergedView(m1, m2)() // use parens here for second param list.
``````
-
Never thought about creating a view object. Very interesting! It won't help my use case, but I'll keep that in mind in the future. –  dave Sep 23 '11 at 14:26
huynhjl this is awesome. @dave I'm confused by your reply because isn't this a generic solution. I can turn the view back into a map with... r1.toMap –  Core May 23 '12 at 19:11
@huynhjl, how do I introduce my own key ordering into this? Thanks. –  Core May 23 '12 at 19:17
@Core - I've forgotten why it didn't work in my particular situation. –  dave May 24 '12 at 13:50
You shouldn't worry about `get` -- yes, it will create a wrapper object, but doing anything else will be awkward enough that you shouldn't try unless a profiler shows that to be a problem.
As for `toMap`, yes, that might well slow you down. You may try using breakOut.
Regarding complexity of `get` and `toMap`, lookup and add are effective constant time for immutable `HashMap`, which is the default `Map`. See Performance Characteristics of Scala Collections.
@dave Looking up (ie, `get`) is effective constant time (subject to quality of hash) for the default map (HashMap). See performance characteristics of Scala Collections. –  Daniel C. Sobral Sep 22 '11 at 21:08