Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Say I have two maps:

val a = Map(1 -> "one", 2 -> "two", 3 -> "three")
val b = Map(1 -> "un", 2 -> "deux", 3 -> "trois")

I want to merge these maps by key, applying some function to collect the values (in this particular case I want to collect them into a seq, giving:

val c = Map(1 -> Seq("one", "un"), 2->Seq("two", "deux"), 3->Seq("three", "trois"))

It feels like there should be a nice, idiomatic way of doing this - any suggestions? Am happy if the solution involves scalaz.

share|improve this question
You should include the information, how to handle elements which happen to exist only in one Map, preferably in the example data for easy testing, to avoid ambiguity. – user unknown Oct 14 '11 at 10:21
up vote 15 down vote accepted

scala.collection.immutable.IntMap has an intersectionWith method that does precisely what you want (I believe):

import scala.collection.immutable.IntMap

val a = IntMap(1 -> "one", 2 -> "two", 3 -> "three", 4 -> "four")
val b = IntMap(1 -> "un", 2 -> "deux", 3 -> "trois")

val merged = a.intersectionWith(b, (_, av, bv: String) => Seq(av, bv))

This gives you IntMap(1 -> List(one, un), 2 -> List(two, deux), 3 -> List(three, trois)). Note that it correctly ignores the key that only occurs in a.

As a side note: I've often found myself wanting the unionWith, intersectionWith, etc. functions from Haskell's Data.Map in Scala. I don't think there's any principled reason that they should only be available on IntMap, instead of in the base collection.Map trait.

share|improve this answer
unionWith, interesectionWith etc look exactly like what I'm looking for. Just a shame they're in the wrong language! – Submonoid Oct 14 '11 at 8:44
I just tested the scalaz functionality intersectionWith and found out, that keys which occur in b are ignored as well as in a. – OliverKK Sep 15 '15 at 8:33

Scalaz adds a method |+| for any type A for which a Semigroup[A] is available.

If you mapped your Maps so that each value was a single-element sequence, then you could use this quite simply:

scala> a.mapValues(Seq(_)) |+| b.mapValues(Seq(_))
res3: scala.collection.immutable.Map[Int,Seq[java.lang.String]] = Map(1 -> List(one, un), 2 -> List(two, deux), 3 -> List(three, trois))
share|improve this answer
Actually, my values in the real case are Sequences, but I want to combine them by building into another sequence, rather than by appending one to the other. – Submonoid Oct 13 '11 at 14:15
I'm not sure if I understand you, sorry - do you want the values to be nested sequences or not? – Ben James Oct 13 '11 at 14:34
Yes, I would want nested sequences, which I could do by wrapping my existing sequences in a Seq, but this feels somewhat like cheating - and in other cases I might want to use a completely different combiner that wouldn't fit into the semigroup structure - giving the size of the intersection of the value sequences, for example. – Submonoid Oct 13 '11 at 14:53
I see, admittedly this is just a cheat that I would consider using in this particular situation, not a general solution. – Ben James Oct 13 '11 at 15:31
val a = Map(1 -> "one", 2 -> "two", 3 -> "three")
val b = Map(1 -> "un", 2 -> "deux", 3 -> "trois")

val c = a.toList ++ b.toList
val d = c.groupBy(_._1).map{case(k, v) => k ->}
//res0: scala.collection.immutable.Map[Int,Seq[java.lang.String]] =
        //Map((2,List(two, deux)), (1,List(one, un), (3,List(three, trois)))
share|improve this answer
Would you mind explaining that _._1 for a complete scala newbie ? – Cristiano Fontes Oct 13 '11 at 14:22
A map is collection of Tuples2. For example: val tuple: Tuple3[Int, Int, String] = (100, 10, "one") , if you want get a string "one" you can use tuple._3 . Tuples are useful e.g. if you want return more than one value – Infinity Oct 13 '11 at 14:31
And the first part of _._1 (underscore before dot) is an anonymous name of argument. For example: List(1,2,3,4).map(_.toDouble) will cast all of the list members to Double. It is like i in for(i <- List(1,2,3,4)) ... – om-nom-nom Oct 13 '11 at 14:47
+ 1 but you can simplify by leaving off the final .toSeq as it doesn't do anything useful – Luigi Plinge Oct 13 '11 at 16:43
This doesn't correctly handle cases where a key is in one map but not the other, and rebuilding the map also makes it more expensive than intersectionWith, which is linear with the total number of elements. – Travis Brown Oct 13 '11 at 19:53

So I wasn't quite happy with either solution (I want to build a new type, so semigroup doesn't really feel appropriate, and Infinity's solution seemed quite complex), so I've gone with this for the moment. I'd be happy to see it improved:

def merge[A,B,C](a : Map[A,B], b : Map[A,B])(c : (B,B) => C) = {
  for (
    key <- (a.keySet ++ b.keySet);
    aval <- a.get(key); bval <- b.get(key)
  ) yield c(aval, bval)

I wanted the behaviour of returning nothing when a key wasn't present in either map (which differs from other solutions), but a way of specifying this would be nice.

share|improve this answer
You've implemented a hash join. You could write different methods for each type of join, like left outer, right outer, outer, and inner that would give you the behavior you needed in each circumstance. – Joshua Hartman Oct 13 '11 at 15:45
Note that IntMap's intersectionWith handles the case of a key only occurring in one map as you specify here. – Travis Brown Oct 13 '11 at 17:57
A shorter more efficent alternative that does the same would be: def merge[A,B,C](a : Map[A,B], b : Map[A,B])(c : (B,B) => C) = { for((k,v1) <-a; v2 <- b.get(k)) yield (k, c(v1, v2)) } merge(a,b){Seq(_,_)} – Markus Knecht Dec 25 '15 at 16:06

Here is my first approach before looking for the other solutions:

for (x <- a) yield 
  x._1 -> Seq (a.get (x._1), b.get (x._1)).flatten

To avoid elements which happen to exist only in a or b, a filter is handy:

(for (x <- a) yield 
  x._1 -> Seq (a.get (x._1), b.get (x._1)).flatten).filter (_._2.size == 2)

Flatten is needed, because b.get (x._1) returns an Option. To make flatten work, the first element has to be an option too, so we can't just use x._2 here.

For sequences, it works too:

scala> val b = Map (1 -> Seq(1, 11, 111), 2 -> Seq(2, 22), 3 -> Seq(33, 333), 5 -> Seq(55, 5, 5555))
b: scala.collection.immutable.Map[Int,Seq[Int]] = Map(1 -> List(1, 11, 111), 2 -> List(2, 22), 3 -> List(33, 333), 5 -> List(55, 5, 5555))

scala> val a = Map (1 -> Seq(1, 101), 2 -> Seq(2, 212, 222), 3 -> Seq (3, 3443), 4 -> (44, 4, 41214))
a: scala.collection.immutable.Map[Int,ScalaObject with Equals] = Map(1 -> List(1, 101), 2 -> List(2, 212, 222), 3 -> List(3, 3443), 4 -> (44,4,41214))

scala> (for (x <- a) yield x._1 -> Seq (a.get (x._1), b.get (x._1)).flatten).filter (_._2.size == 2) 
res85: scala.collection.immutable.Map[Int,Seq[ScalaObject with Equals]] = Map(1 -> List(List(1, 101), List(1, 11, 111)), 2 -> List(List(2, 212, 222), List(2, 22)), 3 -> List(List(3, 3443), List(33, 333)))
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.