What would be a functional way to zip two dictionaries in Scala?

map1 = new HashMap("A"->1,"B"->2)
map2 = new HashMap("B"->22,"D"->4) // B is the only common key

zipper(map1,map2) should give something similar to

 Seq( ("A",1,0), // no A in second map, so third value is zero
      ("D",0,4)) // no D in first map, so second value is zero 

If not functional, any other style is also appreciated

  • 3
    Haskell's Data.Map has a wonderful combinator called unionWith that would make this amazingly easy. It and its intersection counterpart are remarkably useful, and I regret that they're only available in Scala's IntMap and LongMap (mostly because those are translated from Haskell, I expect).
    – copumpkin
    Apr 28 '13 at 0:32
  • @copumpkin: Haskell is amazing! I will check out unionWith.I just checked IntMap and it is now superceded by HashMap from 2.8 on
    – RAbraham
    Apr 28 '13 at 0:36
  • It isn't really superseded by HashMap, despite what the documentation comment suggests. They're different structures, and IntMap has different properties. Sometimes you really don't want the hashing function in there, particularly when you want to maintain the ordering of data. IntMap could mostly implement SortedMap but I don't think it does right now. One gotcha is that it follows an "unsigned" ordering, but it's not hard to make it behave like a signed one if that's what you need.
    – copumpkin
    Apr 28 '13 at 1:58
def zipper(map1: Map[String, Int], map2: Map[String, Int]) = {
  for(key <- map1.keys ++ map2.keys)
    yield (key, map1.getOrElse(key, 0), map2.getOrElse(key, 0))

scala> val map1 = scala.collection.immutable.HashMap("A" -> 1, "B" -> 2)
map1: scala.collection.immutable.HashMap[String,Int] = Map(A -> 1, B -> 2)

scala> val map2 = scala.collection.immutable.HashMap("B" -> 22, "D" -> 4)
map2: scala.collection.immutable.HashMap[String,Int] = Map(B -> 22, D -> 4)

scala> :load Zipper.scala
Loading Zipper.scala...
zipper: (map1: Map[String,Int], map2: Map[String,Int])Iterable[(String, Int, Int)]

scala> zipper(map1, map2)
res1: Iterable[(String, Int, Int)] = Set((A,1,0), (B,2,22), (D,0,4))

Note using get is probably preferable to getOrElse in this case. None is used to specify that a value does not exist instead of using 0.

  • Is there some way to get the 'zero' of a type parameter? Zipper could be made generic apart from those pesky '0's Apr 28 '13 at 7:32
  • I'm not sure that'd be the right direction to generalize, but you could look at Monoid which has an (associative) operation and a zero. A zero on its own wouldn't make much sense, since what makes it a zero is how it interacts with other things. As I suggested in my other comment, I think unionWith[A,B](x: Map[A,B], y: Map[A,B])(f: (B, B) => B): Map[A, B] is the ideal approach here. The combining function is only used when there is overlap so you don't even need a notion of a zero. More general: unionWith[K,A,B,C])(x: Map[K,A], y: Map[K,B])(l: A => C, r: B => C, b: (A,B) => C): Map[K,C]. Apr 28 '13 at 15:10
  • Note that the more general one is only needed if you want to "remember" that one of the two sides was missing, and is effectively equivalent to using mapValues on both inputs and throwing them into Either before calling the less general unionWith. To go a little farther off the deep end, if you think of a Map as just an efficient datastructure to represent K => Option[V], then the various options are just variations on the essence of the K => _ monad. I say the essence because Map doesn't quite work as a Monad/Applicative, but if you drop the return/pure it does. Apr 28 '13 at 15:14

As an alternative to Brian's answer, this can be used to enhance the map class by way of implicit methods:

implicit class MapUtils[K, +V](map: collection.Map[K, V]) {
  def zipAllByKey[B >: V, C >: V](that: collection.Map[K, C], thisElem: B, thatElem: C): Iterable[(K, B, C)] =
  for (key <- map.keys ++ that.keys)
    yield (key, map.getOrElse(key, thisElem), that.getOrElse(key, thatElem))

The naming and API are similar to the sequence zipAll.

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