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Learning Scala currently and needed to invert a Map to do some inverted value->key lookups. I was looking for a simple way to do this, but came up with only:

(Map() ++ origMap.map(kvp=>(kvp._2->kvp._1)))

Anybody have a more elegant approach?

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6 Answers 6

up vote 66 down vote accepted

Assuming values are unique, this works:

(Map() ++ origMap.map(_.swap))

On Scala 2.8, however, it's easier:

origMap.map(_.swap)

Being able to do that is part of the reason why Scala 2.8 has a new collection library.

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1  
If there are multiple keys associated with the same value, this is going to give you only the later one. If you want all the values, see my answer. –  Rok Kralj Jun 15 at 11:44

You can avoid the ._1 stuff while iterating in few ways.

Here's one way. This uses a partial function that covers the one and only case that matters for the map:

Map() ++ (origMap map {case (k,v) => (v,k)})

Here's another way:

import Function.tupled        
Map() ++ (origMap map tupled {(k,v) => (v,k)})

The map iteration calls a function with a two element tuple, and the anonymous function wants two parameters. Function.tupled makes the translation.

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Mathematically, the mapping might not be ivertible, e.g., from Map[A,B], you can't get Map[B,A], but rather you get Map[B,Seq[A]], because there might be different keys associated with same values. So, if you are interested in knowing all the keys, here's the code:

scala> Map(1 -> "a", 2 -> "b", 4 -> "b").groupBy(_._2).mapValues(_.map(_._1))
res40: Map(b -> List(2, 4), a -> List(1))
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In scala REPL:

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

scala> val reversedM = m map { case (k, v) => (v, k) }
reversedM: scala.collection.immutable.Map[java.lang.String,Int] = Map(one -> 1, two -> 2)

Note that duplicate values will be overwritten by the last addition to the map:

scala> val m = Map(1 -> "one", 2 -> "two", 3 -> "one")
m: scala.collection.immutable.Map[Int,java.lang.String] = Map(1 -> one, 2 -> two, 3 -> one)

scala> val reversedM = m map { case (k, v) => (v, k) }
reversedM: scala.collection.immutable.Map[java.lang.String,Int] = Map(one -> 3, two -> 2)
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  1. Inverse is a better name for this operation than reverse (as in "inverse of a mathematical function")

  2. I often do this inverse transformation not only on maps but on other (including Seq) collections. I find it best not to limit the definition of my inverse operation to one-to-one maps. Here's the definition I operate with for maps (please suggest improvements to my implementation).

    def invertMap[A,B]( m: Map[A,B] ) : Map[B,List[A]] = {
      val k = ( ( m values ) toList ) distinct
      val v = k map { e => ( ( m keys ) toList ) filter { x => m(x) == e } }
      ( k zip v ) toMap
    }
    

If it's a one-to-one map, you end up with singleton lists which can be trivially tested and transformed to a Map[B,A] rather than Map[B,List[A]].

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I edited the original question to say "invert". –  Seth Tisue Jan 25 at 13:36

I came here looking for a way to invert a Map of type Map[A, Seq[B]] to Map[B, Seq[A]], where each B in the new map is associated with every A in the old map for which the B was contained in A's associated sequence.

E.g.,
Map(1 -> Seq("a", "b"), 2-> Seq("b", "c"))
would invert to
Map("a" -> Seq(1), "b" -> Seq(1, 2), "c" -> Seq(2))

Here's my solution :

val newMap = oldMap.foldLeft(Map[B, Seq[A]]().withDefaultValue(Seq())) {
  case (m, (a, bs)) => bs.foldLeft(m)((map, b) => map.updated(b, m(b) :+ a))
}

where oldMap is of type Map[A, Seq[B]] and newMap is of type Map[B, Seq[A]]

The nested foldLefts make me cringe a little bit, but this is the most straightforward way I could find to accomplish this type of inversion. Anyone have a cleaner solution?

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Yes, I do. See above. –  Rok Kralj Oct 11 at 11:03

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