A tuple does not have to be homogenous and the compiler didn't try to apply magic type unification across the elements1. Take
(1, "hello") as an example of such a a heterogenous tuple (
This means that
x is typed as
it.foreach( (x: Int) => println(x) ), with the original tuple, to get a better error message indicating that the iterator is not unified over the types of the tuple elements (it is an
Iterators[Any]). The error reported should be similar to:
error: type mismatch;
found : (Int) => Unit
required: (Any) => ?
(1, 2).productIterator.foreach( (x: Int) => println(x) )
In this particular case
isInstanceOf[Int] can be used to refine the type - from the
Any that the type-system gave us - because we know, from manual code inspection, that it will "be safe" with the given tuple.
Here is another look at the iterators/types involved:
(1, 2) // -> Tuple2[Int,Int]
.productIterator // -> Iterator[Any]
.map(_.asInstanceOf[Int]) // -> Iterator[Int]
.foreach(x => println(x+1))
While I would recommend treating tuples as finite sets of homogenous elements and not a sequence, the same rules can be used as when dealing with any
Iterator[Any] such as using pattern matching (e.g.
match) that discriminates by the actual object type. (In this case the code is using an implicit PartialFunction.)
case s: String => println("string: " + s)
case i: Int => println("int: " + i)
1 While it might be possible to make the compiler unify the types in this scenario, it sounds like a special case that requires extra work for minimal gain. Normally sequences like lists - not tuples - are used for homogenous elements and the compiler/type-system correctly gives us a good refinement for something like
List(1,2) (which is typed as
List[Int] as expected).