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I'd like to link 2 columns of unique identifiers and be able to get a first column value by a second column value as well as a second column value by a first column value. Something like

Map(1 <-> "one", 2 <-> "two", 3 <-> "three")

Is there such a facility in Scala?

Actually I need even more: 3 columns to select any in a triplet by another in a triplet (individual values will never be met more than once in the entire map). But a 2-column bidirectional map can help too.

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Did you mean to have both "two" and "three" associated with 2? Because that's what you have here, and I'm not sure you wanted that, given that that breaks any point of having a bidirectional map. –  Ptharien's Flame Mar 24 '12 at 10:17
    
No. I've corrected the example. –  Ivan Mar 24 '12 at 10:33
    
@Ptharien'sFlame that's called multimap –  om-nom-nom Mar 24 '12 at 10:42
    
MultiMap is for map K -> Seq –  andy petrella Mar 24 '12 at 11:11
    
@andypetrella have both "two" and "three" associated with 2 so 2 would be key and "two" and "three" Sequence of values. –  om-nom-nom Mar 24 '12 at 11:41

5 Answers 5

I have a really simple BiMap in Scala:

  case class BiMap[A, B](elems: (A, B)*) {

    def groupBy[X, Y](pairs: Seq[(X, Y)]) = pairs groupBy {_._1} mapValues {_ map {_._2} toSet}

    val (left, right) = (groupBy(elems), groupBy(elems map {_.swap}))

    def apply(key: A) = left(key)
    def apply[C: ClassTag](key: B) = right(key)
  }

Usage:

  val biMap = BiMap(1 -> "x", 2 -> "y", 3 -> "x", 1 -> "y")
  assert(biMap(1) == Set("x", "y"))
  assert(biMap("x") == Set(1, 3))
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Guava has a bimap that you can use along with import scala.collections.JavaConversions._

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I happen to have one of these in the works. A primitive version of it can be found here. This one isn't entirely complete or elegant or idiomatic, but it does what you want—and, at a glance, more smoothly than the other solutions posted here. At the moment, I'm actually working on creating both mutable and immutable versions of it, and bringing the code in line with the rest of the Scala collections library, which will be a while yet. Anyway... what's there works, and you can see this class for how I'm currently using it.

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Nice! The only bad thing is this Map is a pariah to scala collections (I mean from the point of supporting common traits such as MapLike or Iterable) –  om-nom-nom Mar 24 '12 at 16:47
1  
@om-nom-nom Yes, you're entirely correct, and I'm working on fixing that. BiHashMap was actually one of the very first things that I wrote in Scala, and I just threw it together so I could get on to other things. As I said in my answer, though, I'm currently working on one that does use all of the standard Scala library traits. The enhancement isn't really that complicated; it's just that I'm learning about the Collections API in-dept for the first time. Anyway, I expect the mutable version to be done sometime in the next week. And the immutable version will be done... eventually. –  Destin Mar 24 '12 at 17:32
    
Interesting, how you solved the problem of having the same method signature for apply with by-name parameter. –  Peter Schmitz Mar 24 '12 at 18:12
    
@PeterSchmitz I also happen to find your solution interesting for similar reasons! I'm still trying to grasp how it is that your BiMap.MethodDistinctor is playing into things. Is it simply there to give the two apply methods different signatures, like the pass-by-name hack that I used? –  Destin Mar 24 '12 at 19:09
    
@Destin I think so, the additional implicit parameter list makes the signature different, but if you want to know for sure you should ask one of the scala gurus :D –  Peter Schmitz Mar 24 '12 at 23:28

My BiMap approach:

object BiMap {
  private[BiMap] trait MethodDistinctor
  implicit final object MethodDistinctor extends MethodDistinctor
}

case class BiMap[X, Y](map: Map[X, Y]) {
  def this(tuples: (X,Y)*) = this(tuples.toMap)
  private val reverseMap = map map (_.swap)
  require(map.size == reverseMap.size, "no 1 to 1 relation")
  def apply(x: X): Y = map(x)
  def apply(y: Y)(implicit d: BiMap.MethodDistinctor): X = reverseMap(y)
  val domain = map.keys
  val codomain = reverseMap.keys
}

val biMap = new BiMap(1 -> "A", 2 -> "B")
println(biMap(1)) // A
println(biMap("B")) // 2

Of course one can add syntax for <-> instead of ->.

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This map couldn't be extended? (I have to make new one, in order to add new key-value pairs) –  om-nom-nom Mar 24 '12 at 12:19
    
@om-nom-nom You are referring to mutable versus immutable (this one)?! –  Peter Schmitz Mar 24 '12 at 12:31
    
yes, exactly!!! –  om-nom-nom Mar 24 '12 at 12:35
2  
@andypetrella But that means the original map is swapped every time apply(y: Y) is called, so you have a runtime problem at codomain! –  Peter Schmitz Mar 24 '12 at 12:45
1  
Using double the memory for double Map capability seems like a fair tradeoff to me. –  Dan Burton Mar 24 '12 at 20:53

I don't think it exists out of the box, because the generic behavior is not easy to extract

How to handle values matching several keys in a clean api?

However for specific cases here is a good exercise that might help. It must be updated because no hash is used and getting a key or value is O(n).

But the idea is to let you write something similar to what you propose, but using Seq instead of Map...

With the help of implicit and trait, plus find, you could emulate what you need with a kind of clean api (fromKey, fromValue).

The specificities is that a value is not supposed to appear in several places... In this implementation at least.

  trait BiMapEntry[K, V] {
    def key:K
    def value:V
  }

  trait Sem[K] {

    def k:K

    def <->[V](v:V):BiMapEntry[K, V] = new BiMapEntry[K,  V]() { val key = k; val value = v}
  }

  trait BiMap[K, V] {

    def fromKey(k:K):Option[V]

    def fromValue(v:V):Option[K]
  }


  object BiMap {
    implicit def fromInt(i:Int):Sem[Int] = new Sem[Int] {
      def k = i
    }

    implicit def fromSeq[K, V](s:Seq[BiMapEntry[K, V]]) = new BiMap[K, V] {
      def fromKey(k:K):Option[V] = s.find(_.key == k).map(_.value)
      def fromValue(v:V):Option[K] = s.find(_.value == v).map(_.key)
    }

  }




  object test extends App {

    import BiMap._



    val a = 1 <-> "a"

    val s = Seq(1 <-> "a", 2 <-> "b")

    println(s.fromKey(2))
    println(s.fromValue("a"))

  }
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Thanks for the typo ^^ –  andy petrella Mar 24 '12 at 12:37

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