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 am pretty new to Scala and advanced programming languages. I try to solve the following problem.

I have got:

val s: Seq[SomeMutableType[_]]

I assume that all elements in the sequence are of the same type (but do not know which one at this point).

How may I call :

def proc[T](v0: SomeMutableType[T], v1: SomeMutableType[T]) { /* ... */ }

with something like

proc(s(0), s(1))

The compiler complains :

  • type mismatch; found : SomeMutableType[_$351] where type _$351 required: SomeMutableType[Any] Note: _$351 <: Any, but class SomeMutableType is invariant in type T. You may wish to define T as +T instead. (SLS 4.5)

I thought about that covariant thing, but I do not believe it makes sense in my case. I just want the compiler believe me when I say that s(0) and s(1) are of the same type! I usually do this via some casting, but I cannot cast to SomeMutableType[T] here since T is unknown due to erasure. Of course, I cannot change the definition of proc.

share|improve this question
How do you obtain s? Ideally, you should bind your _ to some type parameter declared in a method or class… – Jean-Philippe Pellet May 9 '11 at 19:10
Actually, it is quite complicated. SomeMutableType is parameterized because it make sens to parameterize it. However, s is an attribute of a class C that usually does not care about the parameter, except in my particular use case (where all elements should be of the same type). I can assume that in my instance of C, all elements of s are of the same type, but it is not true in the general case. Maybe I should use some subclass of C at this point, but it would make some other code quite complicated (introduce factory methods and so on), since classes are generated by a parser. – scand1sk May 9 '11 at 19:23
"I didn't keep track of the type, but I know it's X." - then cast it to X and manifest your assumption in code. If you don't want to cast then you HAVE TO keep track of the type. It's that simple! – ziggystar Sep 22 '11 at 14:20

The problem is that you truly cannot make such a guarantee. For example:

scala> import scala.collection.mutable.Buffer
import scala.collection.mutable.Buffer

scala> val s: Seq[Buffer[_]] = Seq(Buffer(1), Buffer("a"))
s: Seq[scala.collection.mutable.Buffer[_]] = List(ArrayBuffer(1), ArrayBuffer(a))

See? You don't know that s(0) and s(1) are of the same type, because they may not be of the same type.

At this point, you should ask a question about what you want to accomplish, instead of asking how to solve a problem in how you want to accomplish it. They way you took won't work. Step back, think what problem you were trying to solve with this approach, and ask how to solve that problem.

For instance, you say:

I assume that all elements in the sequence are of the same type (but do not know which one at this point).

It may be that what you want to do is parameterize a class or method, and use its type parameter when declaring s. Or, maybe, not have an s at all.

share|improve this answer
@scand1sk Why don't you cast it to Seq[SomeMutableType[AnyRef]], then? Or, if you know the type at the time you are making this call, use collect to generate a known-type collection? – Daniel C. Sobral May 9 '11 at 20:41
@scand1sk Well, [_] will sometimes mean [Any], but you should really never use it with that meaning. Instead, stay on the safe side and always say [Any] if that's what you mean. The other meaning of [_], which is the case here, is an existential type. Seq[Buffer[_]] is a shortcut for Seq[Buffer[t]] forSome { type t }. That means Buffer's type parameter is an unspecified type t. Any is the supertype of all types, including "primitives". AnyRef is like Java's Object. – Daniel C. Sobral May 9 '11 at 23:40
@scand1sk Here I used AnyRef because I know that type erasure turns everything into AnyRef at run time -- and even primitives will get boxed. So, whatever else, Buffer will contain AnyRef. – Daniel C. Sobral May 9 '11 at 23:42
@scand1sk Note that any use of asInstanceOf is a change to introduce bugs. For instance, the function being called could store an object of a different type, which might cause an exception elsewhere. – Daniel C. Sobral May 9 '11 at 23:43
@scand1sk For more information on the types, look existential types as well as Any, AnyRef, Null and Nothing, or Scala type hierarchy. – Daniel C. Sobral May 9 '11 at 23:44

I am new to Scala, but as far as I can see your problem is the use of a wildcard type parameter when you declare s:

val s: Seq[SomeMutableType[_]]

As far as I understand, type erasure will always happen and what you really want here is a parameterised type bound to where s is initialised.

For example:

scala> class Erased(val s: List[_])
defined class Erased

scala> new Erased(List(1,2,3)).s.head
res21: Any = 1

If instead you use

scala> class Kept[T](val s: List[T])
defined class Kept

scala> new Kept(List(1,2,3)).s.head
res22: Int = 1

Then the contents of s retain their type information as it is bound to T. i.e. This is exactly how you tell the compiler "that s(0) and s(1) are of the same type".

share|improve this answer

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.