Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I noticed that tuple.productIterator always returns an Iterator[Any] an wondered if it's not possible to set multiple lower bounds (so it could be an Iterator of the lowest common super type).

I tried and searched a bit, but only found this question for multiple upper bounds.

This is my test on how to define the the type of the iterator:

def f[A,B](a:A, b:B) = List(a,b)
// return type is List[Any]

def f[A,B, T >: A "and" T >: B](a:A, b:B) = List[T](a,b)
// doesn't compile, but
//  f(1, true) should give a List[AnyVal] and
//  f("x", "y") a List[String]

Is this a limitation of the JVM?

Edit: Here's a slightly bigger example which doesn't seem to be solvable using IttayD approach when T should be defined in the method:

class Foo[A, B](a: A, b: B) {
  def f[T >: A] = List[T](a) // works
  def g[T >: A "and" T >: B] = List[T](a) // doesn't work
share|improve this question
up vote 9 down vote accepted

For the simple case where A and B are bound by the compiler as the same time as T, IttayD's answer works fine:

def f[T, A <: T,B <: T](a:A, b:B) = List[T](a,b)

When A and B are already bound as in your class Foo[A, B] example, you need to introduce temporary dummy variables to have the compiler do this job:

class Foo[A, B](a: A, b: B) {
  def g[T, A1 >: A <: T, B1 >: B <: T] = List[T](a.asInstanceOf[T], b.asInstanceOf[T])

(For the sake of clarity: A1 >: A <: T means that type A1 must be a supertype of A and a subtype of T, and not that A is a subtype of both A1 and T.)

A1 and B1 are here for the sole purpose of inferring a correct type for T. If the compiler has to infer them, they will resolve to A1 = A and B1 = B, and then T as the most specific type which is a superclass of both A and B.

One thing that the compiler doesn't realize, though, is that, by transitivity, we have both T >: A and T >: B, which follows directly from the constraints with respect to A1 and B1. So we must explicitly cast here. But here, the cast is always safe.

Now, Product#productIterator could not use this technique, as it's defined in a place where we don't even know A and B, or indeed how many type parameters there are in the concrete subclass.

share|improve this answer

It sounds like what you need is an HList:

To answer the specific question:

scala> def f[T, A <: T,B <: T](a:A, b:B) = List[T](a,b)
f: [T, A <: T, B <: T](a: A, b: B)List[T]

scala> f(1, true)
res0: List[AnyVal] = List(1, true)

scala> f("x", "y")
res1: List[java.lang.String] = List(x, y)
share|improve this answer
This is almost equivalent to a simple def f[T](a:T, b:T) = List[T](a,b) – Jean-Philippe Pellet May 25 '11 at 7:26
f(1,2.0) will result in List[Double] = List(1.0, 2.0) – IttayD May 25 '11 at 7:46
What if A and B were defined in an outer scope? Would I need to move the definition of T also to that outer scope? (@IttayD fixed the example) – kassens May 25 '11 at 10:24
@IttayD Your update is dangerous: look at the return type, a List[Int with Double]… Funny type. You make the compiler believe it's a list of elements that are all both Ints and Doubles. Try this and get an unwanted ClassCastException: val res = (new Foo(1, "hi")).g; res.head.size – Jean-Philippe Pellet May 25 '11 at 12:09
The fact that type ascription doesn't work is a hint that the compiler is not happy with it. – Jean-Philippe Pellet May 25 '11 at 12:11

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.