How can I convert immutable.Map to mutable.Map in Scala so I can update the values in Map?

6 Answers 6


The cleanest way would be to use the mutable.Map varargs factory. Unlike the ++ approach, this uses the CanBuildFrom mechanism, and so has the potential to be more efficient if library code was written to take advantage of this:

val m = collection.immutable.Map(1->"one",2->"Two")
val n = collection.mutable.Map(m.toSeq: _*) 

This works because a Map can also be viewed as a sequence of Pairs.

  • 2
    Can you explain, what syntax you use in the second line when passing the parameter? What does the colon do?
    – Heinzi
    Jun 1, 2012 at 15:29
  • 7
    : _* is much like type ascription, telling the compiler exactly what type to asign to a given expression. You can think of it here as saying "take this sequence, and treat it as a number of vararg params." Jun 6, 2012 at 10:58
  • 18
    There's something wrong with the collection libraries if this is the cleanest ;)
    – matanster
    Nov 8, 2015 at 20:57
  • 2
    @matt It could be made a bit shorter with aliased imports, but bear in mind that sacrificing immutability is very non-idiomatic for Scala, not exactly the sort of thing I'd enourage by making it look even easier... Out of curiosity, how else could you propose doing it more cleanly, if not via a copy? Nov 8, 2015 at 21:08
  • That is my point, I can't, but a better collections library could make this possible, IMHO.
    – matanster
    Nov 8, 2015 at 21:12
val myImmutableMap = collection.immutable.Map(1->"one",2->"two")
val myMutableMap = collection.mutable.Map() ++ myImmutableMap
  • 1
    Do you know hat the asymptotic time complexity of this is? I know that Clojure can turn any of its persistent collections into a "transient" one (i.e. a mutable one with linearly-typed mutation functions) and back into a persistent one in O(1) steps. This looks to be O(n), although that depends of course on how clever the implementation of ++ is. Feb 18, 2011 at 15:34
  • 1
    @Jörg - I'm pretty sure this one is O(n). In the limit as you change everything, it must be O(n), though you could try to defer the creation of the new copy to save time, or you double your access times by reading changesets instead of the original map. Which one performs best probably depends on your use case.
    – Rex Kerr
    Feb 18, 2011 at 16:00
  • 1
    @Rustem - Maps are unordered. They'll appear in whichever order they feel like (with a hash map, it's typically the order of the hash key). In particular, immutable maps have special cases for really tiny maps which are different from mutable maps.
    – Rex Kerr
    Feb 18, 2011 at 16:47
  • @Rustem Maps are not ordered. Feb 18, 2011 at 17:08

Starting Scala 2.13, via factory builders applied with .to(factory):

Map(1 -> "a", 2 -> "b").to(collection.mutable.Map)
// collection.mutable.Map[Int,String] = HashMap(1 -> "a", 2 -> "b")

How about using collection.breakOut?

import collection.{mutable, immutable, breakOut}
val myImmutableMap = immutable.Map(1->"one",2->"two")
val myMutableMap: mutable.Map[Int, String] = myImmutableMap.map(identity)(breakOut)
  • It is cool, but basically does the same thing as mutable.Map#apply with a bit more boilerplate. Feb 20, 2011 at 1:19

There is a variant to create an empty mutable Map that has default values taken from the immutable Map. You may store a value and override the default at any time:

scala> import collection.immutable.{Map => IMap}
//import collection.immutable.{Map=>IMap}

scala> import collection.mutable.HashMap
//import collection.mutable.HashMap

scala> val iMap = IMap(1 -> "one", 2 -> "two")
//iMap: scala.collection.immutable.Map[Int,java.lang.String] = Map((1,one), (2,two))

scala> val mMap = new HashMap[Int,String] {      
     | override def default(key: Int): String = iMap(key)
     | }
//mMap: scala.collection.mutable.HashMap[Int,String] = Map()

scala> mMap(1)
//res0: String = one

scala> mMap(2)
//res1: String = two

scala> mMap(3)
//java.util.NoSuchElementException: key not found: 3
//  at scala.collection.MapLike$class.default(MapLike.scala:223)
//  at scala.collection.immutable.Map$Map2.default(Map.scala:110)
//  at scala.collection.MapLike$class.apply(MapLike.scala:134)
//  at scala.collection.immutable.Map$Map2.apply(Map.scala:110)
//  at $anon$1.default(<console>:9)
//  at $anon$1.default(<console>:8)
//  at scala.collection.MapLike$class.apply(MapLike.scala:134)....

scala> mMap(2) = "three"

scala> mMap(2)          
//res4: String = three

Caveat (see the comment by Rex Kerr): You will not be able to remove the elements coming from the immutable map:

scala> mMap.remove(1)
//res5: Option[String] = None

scala> mMap(1)
//res6: String = one
  • 3
    This is useful in some cases, but note that you are unable to remove an element in your new map that was present in your default map; you can only cover and uncover the defaults.
    – Rex Kerr
    Feb 18, 2011 at 20:30
  • Right, this solution is partial. Feb 18, 2011 at 21:45

With scala 2.13, there are two alternatives: the to method of the source map instance, or the from method of the destination map's companion object.

scala> import scala.collection.mutable
import scala.collection.mutable

scala> val immutable = Map(1 -> 'a', 2 -> 'b');
val immutable: scala.collection.immutable.Map[Int,Char] = Map(1 -> a, 2 -> b)

scala> val mutableMap1 = mutable.Map.from(immutable)
val mutableMap1: scala.collection.mutable.Map[Int,Char] = HashMap(1 -> a, 2 -> b)

scala> val mutableMap2 = immutable.to(mutable.Map)
val mutableMap2: scala.collection.mutable.Map[Int,Char] = HashMap(1 -> a, 2 -> b)

As you can see, the mutable.Map implementation was decided by the library. If you want to choose a particular implementation, for example mutable.HashMap, replace all occurrences of mutable.Map with mutable.HashMap.

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