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val map1 = Map(1 -> 9 , 2 -> 20)
val map2 = Map(1 -> 100, 3 -> 300)

I want to merge them, and sum the values of same keys. So the result will be:

Map(2->20, 1->109, 3->300)

Now I have 2 solutions:

val list = map1.toList ++ map2.toList
val merged = list.groupBy ( _._1) .map { case (k,v) => k -> v.map(_._2).sum }


val merged = (map1 /: map2) { case (map, (k,v)) =>
    map + ( k -> (v + map.getOrElse(k, 0)) )

But I want to know if there are any better solutions.

share|improve this question
Did you mean: Map(2 -> 20, 1 -> 109, 3 -> 300)? –  Tomasz Nurkiewicz Aug 16 '11 at 9:43
@Tomasz: it's the same... –  paradigmatic Aug 16 '11 at 9:52

7 Answers 7

up vote 66 down vote accepted

Scalaz has the concept of a Semigroup which captures what you want to do here, and leads to arguably the shortest/cleanest solution:

scala> import scalaz._
import scalaz._

scala> import Scalaz._
import Scalaz._

scala> val map1 = Map(1 -> 9 , 2 -> 20)
map1: scala.collection.immutable.Map[Int,Int] = Map(1 -> 9, 2 -> 20)

scala> val map2 = Map(1 -> 100, 3 -> 300)
map2: scala.collection.immutable.Map[Int,Int] = Map(1 -> 100, 3 -> 300)

scala> map1 |+| map2
res2: scala.collection.immutable.Map[Int,Int] = Map(1 -> 109, 3 -> 300, 2 -> 20)

Specifically, the binary operator for Map[K, V] combines the keys of the maps, folding V's semigroup operator over any duplicate values. The standard semigroup for Int uses the addition operator, so you get the sum of values for each duplicate key.

Edit: A little more detail, as per user482745's request.

Mathematically a semigroup is just a set of values, together with an operator that takes two values from that set, and produces another value from that set. So integers under addition are a semigroup, for example - the + operator combines two ints to make another int.

You can also define a semigroup over the set of "all maps with a given key type and value type", so long as you can come up with some operation that combines two maps to produce a new one which is somehow the combination of the two inputs.

If there are no keys that appear in both maps, this is trivial. If the same key exists in both maps, then we need to combine the two values that the key maps to. Hmm, haven't we just described an operator which combines two entities of the same type? This is why in Scalaz a semigroup for Map[K, V] exists if and only if a Semigroup for V exists - V's semigroup is used to combine the values from two maps which are assigned to the same key.

So because Int is the value type here, the "collision" on the 1 key is resolved by integer addition of the two mapped values (as that's what Int's semigroup operator does), hence 100 + 9. If the values had been Strings, a collision would have resulted in string concatenation of the two mapped values (again, because that's what the semigroup operator for String does).

(And interestingly, because string concatenation is not commutative - that is, "a" + "b" != "b" + "a" - the resulting semigroup operation isn't either. So map1 |+| map2 is different from map2 |+| map1 in the String case, but not in the Int case.)

share|improve this answer
Brilliant! First practical example where scalaz made sense. –  soc Aug 16 '11 at 11:34
No kidding! If you start looking for it ... it's all over the place. To quote erric torrebone author of specs and specs2:"First you learn Option and you start seeing it everywhere. Then you learn Applicative and it's the same thing. Next?" Next are even more functional concepts. And those greatly help you structure your code and solve problems nicely. –  AndreasScheinert Aug 16 '11 at 12:00
Actually, I'd been looking for Option for five years when I finally found Scala. The difference between a Java object reference that might be null and one that cannot be (i.e. between A and Option[A]) is so huge, I couldn't believe they were really the same type. I just started looking at Scalaz. I'm not sure I'm smart enough... –  Malvolio Aug 17 '11 at 0:39
There is Option for Java too, see Functional Java. Do not have any fear, learning is fun. And functional programming doesn't teach you new things (only) but instead offers you the programmer help with providing terms, vocabulary to tackle problems. The OP question is a perfect example. The concept of a Semigroup is so simple, you use it every day say for e.g. Strings. The real power appears if you identify this abstraction, name it and finally apply it to other types then just String. –  AndreasScheinert Aug 17 '11 at 16:56
How it is possible that it will result in 1 -> (100 + 9) ? Can you please show me "stack trace"? Thx. P.S.: I am asking here to make answer more clear. –  user482745 Feb 2 '12 at 12:33

The shortest answer I know of that uses only the standard library is

map1 ++ map2.map{ case (k,v) => k -> (v + map1.getOrElse(k,0)) }
share|improve this answer
Nice solution. I like to add the hint, that ++ replaces any (k,v) from the map on the left side of ++ (here map1) by (k,v) from the right side map, if (k,_) already exists in the left side map (here map1), e.g. Map(1->1) ++ Map(1->2) results in Map(1->2) –  Lutz Aug 17 '11 at 9:49
A kind of neater version: for ((k, v) <- (aa ++ bb)) yield k -> (if ((aa contains k) && (bb contains k)) aa(k) + v else v) –  dividebyzero Dec 13 '14 at 1:05
I did somehting different previously, but here is a version of what you did, replacing the map for a for map1 ++ (for ((k,v) <- map2) yield k -> (v + map1.getOrElse(k,0))) –  dividebyzero Dec 13 '14 at 1:41
@dividebyzero - Yes, that's exactly what AmigoNico did in an answer below. –  Rex Kerr Dec 13 '14 at 7:55

Quick solution:

(map1.keySet ++ map2.keySet).map (i=> (i,map1.getOrElse(i,0) + map2.getOrElse(i,0))}.toMap
share|improve this answer

Well, now in scala library (at least in 2.10) there is something you wanted - merged function. BUT it's presented only in HashMap not in Map. It's somewhat confusing. Also the signature is cumbersome - can't imagine why I'd need a key twice and when I'd need to produce a pair with another key. But nevertheless, it works and much cleaner than previous "native" solutions.

val map1 = collection.immutable.HashMap(1 -> 11 , 2 -> 12)
val map2 = collection.immutable.HashMap(1 -> 11 , 2 -> 12)
map1.merged(map2)({ case ((k,v1),(_,v2)) => (k,v1+v2) })

Also in scaladoc mentioned that

The merged method is on average more performant than doing a traversal and reconstructing a new immutable hash map from scratch, or ++.

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As of right now, it's only in immutable Hashmap, not mutable Hashmap. –  Kevin Wheeler Oct 25 '14 at 2:33
This is pretty annoying that they only have that for HashMaps to be honest. –  Johan S Nov 15 '14 at 15:04
map1 ++ ( for ( (k,v) <- map2 ) yield ( k -> ( v + map1.getOrElse(k,0) ) ) )
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This appears to be exactly identical to Rex Kerr's earlier answer except expressed using a for operator rather than map. –  Urban Vagabond Aug 4 '12 at 4:57
Ah -- I think you're right. Sorry, Rex! –  AmigoNico Aug 4 '12 at 20:59

I wrote a blog post about this , check it out :


basically using scalaz semi group you can achieve this pretty easily

would look something like :

  import scalaz.Scalaz._
  map1 |+| map2
share|improve this answer
You need to put a little more detail in your answer, preferably some implementation code. Do this also for the other similar answers you've posted, and tailor each answer to the specific question that was asked. Rule of Thumb: The asker should be able to benefit from your answer without clicking the blog link. –  Robert Harvey Jul 29 '14 at 14:24

I've got a small function to do the job, it's in my small library for some frequently used functionality which isn't in standard lib. It should work for all types of maps, mutable and immutable, not only HashMaps

Here is the usage

scala> import com.daodecode.scalax.collection.extensions._
scala> val merged = Map("1" -> 1, "2" -> 2).mergedWith(Map("1" -> 1, "2" -> 2))(_ + _)
merged: scala.collection.immutable.Map[String,Int] = Map(1 -> 2, 2 -> 4)


And here's the body

def mergedWith(another: Map[K, V])(f: (V, V) => V): Repr =
  if (another.isEmpty) mapLike.asInstanceOf[Repr]
  else {
    val mapBuilder = new mutable.MapBuilder[K, V, Repr](mapLike.asInstanceOf[Repr])
    another.foreach { case (k, v) =>
      mapLike.get(k) match {
        case Some(ev) => mapBuilder += k -> f(ev, v)
        case _ => mapBuilder += k -> v


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