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I know that "union types" are not supported in Scala, but what about intersection types?

In short, I would like a function like this:

def intersect[A,B,C](a: A, b: B): C = ??? // a & b

Or a method :

class A {
    def intersect[B, C](b: B): C = ??? // this & b
}

A and B share a common superclass ensuring the validity of the intersect operation, and C would be a type at the intersection ofA or B.

In my use case, A or B represent either variables or constants (of the same type). I want to distinguish, class-wise, a constant from a variable with singleton domain. If I try to intersect a set with a value, I return the value (or return the empty set/throw an exception if the value is not in the set).

Here is an example of expected output:

trait IntExpression {
  // Correct signature to be determined
  def intersect [A <: IntExpression, B <: A & this.type] (that: A): B
}
case class IntVariable(domain: Seq[Int]) extends IntExpression
case class IntConstant(value: Int) extends IntExpression

val a = IntVariable(1,2,3)
val b = IntVariable(2,3,4)
val c = IntConstant(2)

And then:

a intersect b == b intersect a == IntVariable(2,3)
a intersect c == c intersect a == IntConstant(2)
share|improve this question
    
May be you can write a macro that derives such set? As long as it has access to the class hierarchy, it should be possible. – Ashalynd Oct 17 '13 at 14:12
    
I don't quite understand what output you expect. Could you maybe give an example for the possible input values and the expected output? – drexin Oct 17 '13 at 14:18
    
I don't see the use-case for this. Why don't you just use sets? – drexin Oct 17 '13 at 14:58
    
I want to implement a DSL for a constraint programming solver. I am referring to an existing external DSL which distinguishes variables from constants. There even exists a third type of expression which represents a sequence of expressions (and is hard to unify with the remaining of the type system :() This distinction is often useful because it can lead to interesting optimizations. They could also be triggered by checking the domain size, but I wanted to use pattern-matching and additional type safety to my system. – scand1sk Oct 17 '13 at 15:03
1  
If you want to specify that a type is a subtype of both A and B write A with B. – ziggystar Oct 17 '13 at 15:37

As ziggystar is correctly stated above: A & B is A with B in Scala.

Regarding the fact you want to create your adjoint types C in runtime, you must want to create this types in runtime, based on the types you got in A and B.

Solution for this, or at list a clue, you may find at scala and traits on object instances.

However, what you want at your use-case is a case of the http://en.wikipedia.org/wiki/Dependent_type. Despite the fact that dependent types are not supported in Scala, you may always try Agda ;)

share|improve this answer

I use ++ as implementation because it's there. And intersect on Set doesn't work because Set is invariant. If this doesn't make sense, ignore it.

def intersect[C, A <: C, B <: C](as: Seq[A], bs: Seq[B]): Seq[C] = as ++ bs
share|improve this answer
    
This is wrong. intersect(Seq(1,2,3), Seq(2,3,4)) == Seq(1,2,3,2,3,4) The op is looking for a result of Seq(2,3) – Ian McLaird Oct 17 '13 at 17:50
    
My answer is only about getting the types correct. – ziggystar Oct 17 '13 at 20:00

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