Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

after I learned that case classes extend Product, I wondered why they do not extend ProductN. E.g., given a code like:

case class Foo(a: Int)

I'd expect Foo(1).asInstanceOf[Product1[Int]] to work, but it does not (checked with Scala 2.9.1, and confirmed by other sources and by Product documentation).

I was interested in this, because I wanted to declare classes such as:

abstract class UnaryOp[T1 <: Exp[_], R](t1: T1) extends Exp[R] {
  this: Product1[T1] =>

This way, a node for a Unary operation must be implement Product1. It would be nice if being simply a case class with one parameter would be enough for this.

share|improve this question
I'm confused about the downvote here. Could the downvoter explain? –  Blaisorblade Feb 23 '13 at 18:25
add comment

3 Answers

up vote 6 down vote accepted

Consider this:

case class X(n: Int)
case class Y(x: String, y: Int) extends X(y)

If case classes extended ProductN, then that would extend both Product1 and Product2, but the type parameter changes, so there are two different overloads for _1. This is just one problem -- I bet there are others.

Now, case class inheriting case class has been deprecated, and Martin Odersky is now considering making them inherit ProductN. AFAIK, is has not been done yet, but the obstacle has been removed.

share|improve this answer
Yes, hopefully this will make it into a future Scala version as it allows one to write type safe, generic decomposition functions of case classes. –  Jesper Nordenberg Sep 8 '11 at 10:59
add comment

If Product1[Int] would have been automatically extended the val _1: Int would also have to be provided. Although I could imagine, that it could be automated that a gets assigned to _1 etc etc, but it is not. Probably just not to make things even more complicated.

share|improve this answer
Adding val _1: Int would waste memory in each instance, but Product1[T] has an abstract definition def _1: T, and adding an implementation for that (def _1: T = a) doesn't change the instance size. See Daniel C. Sobral's answer! –  Blaisorblade Sep 9 '11 at 11:41
Yeah you are right. I must have overlooked it. –  agilesteel Sep 9 '11 at 22:14
What would happen here? case class C(_2: String, _1: Int) –  nafg Nov 13 '12 at 10:51
add comment

I brought it back shortly after martin said we could do it. It doesn't work right yet, but to the extent that it does, it's behind -Xexperimental in trunk builds.

scala> case class Foo[T, U](x1: T, x2: U)
defined class Foo

scala> Foo(List("a"), "b")
res0: Foo[List[java.lang.String],java.lang.String] = Foo(List(a),b)

scala> res0.isInstanceOf[Product2[_,_]]
res1: Boolean = true
share|improve this answer
Thanks, that's great - it'd be nice to have that for next Scala release! I was unsure which answer to accept, but in that end I think I still have to accept Daniel C. Sobral's answer for providing the explanation. –  Blaisorblade Sep 9 '11 at 11:43
I tried this out in 2.10.0-M5, with confusing results. _1 and _2 are present on Foo, but it's not a subtype of Product2, and these members are not documented by Scaladoc: scala> Foo(List("a"), "b") res10: Foo[List[String],String] = Foo(List(a),b) scala> res10.isInstanceOf[Product2[_,_]] res11: Boolean = false scala> res10._1 res12: List[String] = List(a) scala> Some(1)._1 res13: Int = 1 –  Blaisorblade Jul 20 '12 at 14:30
add comment

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.