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In the following code:

def test(list: List[Any]): Unit = {
  list.foreach {
    v =>
    v match {
      case r: AnyRef => println(r + ": " + r.getClass.getName)
      case d: Double => println(d + ": Double")
      case f: Float=> println(f + ": Float")
      case b: Byte => println(b + ": Byte")
      case c: Char => println(c + ": Char")
      case s: Short => println(s + ": Short")
      case i: Int => println(i + ": Int")
      case l: Long=> println(l + ": Long")
      case b: Boolean => println(b + ": Boolean")
      case _ => throw new IllegalArgumentException("Unknown type: " + v)

test(List(0L, 1.asInstanceOf[Int], 2.asInstanceOf[Short]))

here is the output (Scala 2.8.1):

0: java.lang.Long
1: java.lang.Long
2: java.lang.Long

Why are the numbers being promoted to java.lang.Long? How can I do this so that they either keep their AnyVal types or get "boxed" to the equivalent AnyRef type?

share|improve this question
up vote 13 down vote accepted

I think the answer is in Section 3.5.3 of the language reference:

  • Byte weakly conforms to Short
  • Short weakly conforms to Int
  • Char weakly conforms to Int
  • Int weakly conforms to Long
  • Long weakly conforms to Float
  • Float weakly conforms to Double

Because of this, Scala infers that the common type between Short, Int and Long is Long and then converts the non-Long objects to Longs:

scala> List(0L, 0, 0: Short) 
res1: List[Long] = List(0, 0, 0)

If you want to use the whole chain of weak conformance, try:

scala> List(0: Byte, 1: Short, 'c', 3, 4L, 5.0f, 6.0)
res2: List[Double] = List(0.0, 1.0, 99.0, 3.0, 4.0, 5.0, 6.0)

And, of course to say that you want a List[Any], just add [Any] to your call to List:

scala> List[Any](0: Byte, 1: Short, 'c', 3, 4L, 5.0f, 6.0)
res11: List[Any] = List(0, 1, c, 3, 4, 5.0, 6.0)
share|improve this answer

Type inference works by starting with the most restrictive type (e.g. Nothing) and widening until one type can contain everything. For numeric values, this means widening from Int to Long. But now, since the call is effectively to List[Long](ls: Long*) all the numeric values are promoted in advance.

So, for instance, all of these give the same list:

List(1, 2: Byte, 3: Long)
List(1L, 2, 3: Short)
List(1: Byte, 2: Long, 3: Byte)

namely a List[Long](1L, 2L, 3L). Now, if you don't like this behavior, specify the type of the list as AnyVal or Any:

List[Any](1, 2: Byte, 3: Long)
List.head.asInstanceOf[AnyRef].getClass   // java.lang.Integer

Edit: P.S. if you are specifying a constant of a certain type, you should just state the type (e.g. (2: Short)) instead of casting it to that type (e.g. 2.asInstanceOf[Short]).

share|improve this answer
List[Any](0L, 1.asInstanceOf[Int], 2.asInstanceOf[Short])
share|improve this answer

Here is why (building on the answer by pst):

scala> val x = List(0L, 1.asInstanceOf[Int], 2.asInstanceOf[Short])
x: List[Long] = List(0, 1, 2)

It seems Scala tries to define the type of the list to be of the biggest object that can contain all the elements. For instance,

scala> val x = List(0.asInstanceOf[Short], 1.asInstanceOf[Int], 2.asInstanceOf[Short])
x: List[Int] = List(0, 1, 2)

So the workaround suggested by pst is the answer.

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