Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I have a method that takes a Comparable and returns a Comparable and wraps another method that does the same thing:

def myMethod[T <: Comparable[T]](arg: T): T = otherMethod(arg)
def otherMethod[T <: Comparable[T]](arg: T): T = arg

This compiles, but doesn't allow me to call myMethod with an Int or any other type that requires an implicit conversion to implement Comparable. As I understand it, view bounds are meant to address this type of problem, but using the view bound

def myMethod[T <% Comparable[T]](arg: T): T = otherMethod(arg)

I get the compiler error:

inferred type arguments [T] do not conform to method otherMethod's type parameter bounds [T <: java.lang.Comparable[T]]

So far, the only workaround I've come up with is to use a second type parameter and cast between the two:

def myMethod[T <% Comparable[T], U <: Comparable[U]](arg: T): T =

This works, but it's ugly. Is there a better way?

share|improve this question

1 Answer 1

Would either of the following work?

  1. Make the T's view bound consistent in both methods,

    def otherMethod[T <% Comparable[T]](arg: T): T = arg
    def myMethod[T <% Comparable[T]](arg: T): T = otherMethod(arg)
  2. Introduce a new type parameter U <: Comparable[U] and an implicit conversion from T to U,

    def otherMethod[T <: Comparable[T]](arg: T): T = arg
    def myMethod[U <: Comparable[U], T <% U](arg: T): U = otherMethod(arg)

The problem with your version is that T <% Comparable[T] converts T to type Comparable[T], but this does not satisfy the recursive type T <: Comparable[T <: Comparable[T <: ...]] (pseudocode) that otherMethod expects.

Update. To use either otherMethod or myMethod with Scala's Int, you will need to help the type inferencer a little bit,

myMethod(2)                    // Int value types don't implement Comparable
myMethod(2: java.lang.Integer) // Apply implicit conversion (Int => java.lang.Integer)

Update 2. In the comments, you said you're willing to make myMethod a little uglier to improve type inference at the call site. Here's a way,

def myMethod[U <: Comparable[U], T](arg: T)
     (implicit ev1: T => U, ev2: T => Comparable[U]): U = otherMethod(arg)
myMethod(2) // returns java.lang.Integer(2)

The trick is to use two implicit conversions: ev1 actually gets applied, and ev2 is there only to aid type inference. The latter requires Scala to search its implicits for a conversion of type Int => Comparable[U]. In this case, only one such conversion can be found, which fixes U = java.lang.Integer.

By the way, try compiling this code with scalac -Xprint:typer. You'll see that the same implicit, Predef.int2Integer, is used for both ev1 and ev2 parameters.

Side note: it's best to avoid asInstanceOf casts because those defeat the soundness of the Scala type system.

share|improve this answer
1. No, unfortunately otherMethod is defined in third party library. 2. Yes! This seems to work. Thanks! – ethzero Aug 28 '11 at 0:22
Glad to help :-) – Kipton Barros Aug 28 '11 at 0:25
Actually, i spoke too soon ... the second solution does compile, but i still can't call it with an Int. Here's the error: "type arguments [Int,Int] do not conform to method myMethod's type parameter bounds [U <: java.lang.Comparable[U],T]" – ethzero Aug 28 '11 at 0:45
Isn't that also a problem with otherMethod defined in the third party library? I get the same error with otherMethod(2). – Kipton Barros Aug 28 '11 at 0:50
Yes, i can't call otherMethod directly with an Int. That's partly what i want the wrapper method to take care of for me :) – ethzero Aug 28 '11 at 1:10

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.