I'm having compilation issues between Scala and Java.

My Java code needs a

java.util.Map<Double, java.lang.Iterable<Foo>>

My scala code has a

Map[Double, Vector[Foo]]

I get the compilation error:

error: type mismatch;
found   : scala.collection.immutable.Map[scala.Double,Vector[Foo]
required: java.util.Map[java.lang.Double,java.lang.Iterable[Foo]]

It seems the scala.collection.JavaConversions don't apply to nested collections, even though a Vector can be implictly converted to an Iterable. Short of iterating through the scala collection and doing the conversion by hand, is there something I can do to make the types work?


scala.collection.JavaConversions should be deprecated IMHO. You are better off being explicit about where and when the conversion happens by using scala.collection.JavaConverters. In your case:

import scala.collection.JavaConverters._

type Foo = Int // Just to make it compile
val scalaMap = Map(1.0 -> Vector(1, 2)) // As an example

val javaMap = scalaMap.map { 
  case (d, v) => d -> v.toIterable.asJava
  • Thanks for pointing me to JavaConversions. I didn't know about those. I also needed to do some nasty Java Generics Wildcarding for my method in order to get the return types working, i.e. converting my declared return type to public <T extends Iterable<Foo>> Map<Double,T> createMap() – Adam K Dec 21 '12 at 4:27

I wrote this general purpose function, which works well for my needs.

def toJava(x: Any): Any = {
  import scala.collection.JavaConverters._
  x match {
    case y: scala.collection.MapLike[_, _, _] => 
      y.map { case (d, v) => toJava(d) -> toJava(v) } asJava
    case y: scala.collection.SetLike[_,_] => 
      y map { item: Any => toJava(item) } asJava
    case y: Iterable[_] => 
      y.map { item: Any => toJava(item) } asJava
    case y: Iterator[_] => 
    case _ => 
  • Nice! I also wonder if you wrote a similar recursive toScala function.. – vishvAs vAsuki Apr 15 '17 at 15:14
  • ''' The recursive toScala function I ended up writing: def toScala(x: Any): Any = { import collection.JavaConversions._ x match { case y: java.util.Map[, _] => mapAsScalaMap(y).map{ case (d, v) => toScala(d) -> toScala(v) } case y: java.lang.Iterable[] => iterableAsScalaIterable(y).toList.map { item: Any => toScala(item) } case y: java.util.Iterator[_] => toScala(y) case _ => x } } ''' – vishvAs vAsuki Apr 18 '17 at 1:20
  • Separately, I posted a related question here: stackoverflow.com/questions/43462034/… – vishvAs vAsuki Apr 18 '17 at 1:20

This better suited my needs:

  def toJava(m: Any): Any = {
    import java.util
    import scala.collection.JavaConverters._
    m match {
      case sm: Map[_, _] => sm.map(kv => (kv._1, toJava(kv._2))).asJava
      case sl: Iterable[_] => new util.ArrayList(sl.map( toJava ).asJava.asInstanceOf[util.Collection[_]])
      case _ => m

Try this if anyone looking for solution in spark-scala,

import org.apache.spark.sql.catalyst.expressions.GenericRowWithSchema

Here, y is nested WrapperArray

y match {
          case x : WrappedArray[x] =>
             (x.map(f => f match {case z: GenericRowWithSchema => z.mkString(",").toString()
                                                case z:Any => z  })).asJavaCollection
          case _ => row.get(i).asInstanceOf[Object]

The above code, does two things, 1) If wrapper Array has primitive data type, condition case_ gets through 2) If wrapper Array has Complex data type (say struts), case GenericRowWithSchema executes.

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