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The scenario:

We have different classes A,B,C which have no common base class but they all provide a method foo which accepts one parameter of the same type as the class itself and returns a value of type Boolean.

Then we want to come up with a rather complex method bar which accepts three parameters which should all be of the same type, i.e. either all three parameters are of type A, or B, or C but not a mixture of them.

The idea (which does not compile):

import scalaz.UnionTypes._

class A { def foo(y: A): Boolean = ??? }
class B { def foo(y: B): Boolean = ??? }
class C { def foo(y: C): Boolean = ??? }

class Foo {

  type T <: t[A]#t[B]#t[C]

  def bar(x: T, y: T, z: T) = && // do more complex stuff

Of course I could solve this problem by implementing the method bar three times

def bar(x: A, y: A, z: A) = && // do more complex stuff
def bar(x: B, y: B, z: B) = && // do more complex stuff
def bar(x: C, y: c, z: C) = && // do more complex stuff

but since it is a rather complex method I do not want to duplicate the code.

I had hoped that UnionTypes from scalaz might help in this situation but I get a compile time error. Does someone has an idea how to solve this problem?

share|improve this question
up vote 3 down vote accepted

Use the type class pattern:

trait CanFoo[T] {
  def foo(x: T, y: T): Boolean

object CanFoo {
  implicit val ACanFoo: CanFoo[A] = new CanFoo[A] {
    def foo(x: A, y: A) =

  // similar definitions for B and C

class Foo {
  def bar[T](x: T, y: T, z: T)(implicit canFoo: CanFoo[T]) =, y) &&, z)
share|improve this answer
why would you call it a pattern? :) – Erik Allik Jun 25 '14 at 9:02
@ErikAllik It isn't a pattern, it's an application of one. If you are asking why the type class pattern is considered a pattern, it's because it fits the definition :) In e.g. Haskell type classes are a first-class part of the language; in Scala they have to be encoded from similar parts arranged in a similar way each time. – Alexey Romanov Jun 25 '14 at 9:49
This perfectly solves my problem. Thanks a lot! – Max Maier Jun 28 '14 at 17:49

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