Consider the following Scala code:

abstract class A
abstract class B[T <: A]
class ConcreteA extends A
class ConcreteB extends B[ConcreteA]

class Example[U <: B[T], T <: A]( resolver: U )
object Test {
    new Example( new ConcreteB )

The last line new Example( new ConcreteB ) fails to compile with the following error:

error: inferred type arguments [ConcreteB,Nothing] do not conform to class Example's type parameter bounds [U <: B[T],T <: A]

But ConcreteB has all the necessary data to resolve both U and T. What am I missing here?


Kipton got close with his higher-kinded solution. Unfortunately he tripped over what appears to be a bug in Scala < 2.9.1.RC1. The following works as expected with 2.9.1.RC1 and trunk,

Welcome to Scala version 2.9.1.RC1 (Java HotSpot(TM) Server VM, Java 1.7.0).
Type in expressions to have them evaluated.
Type :help for more information.

scala> abstract class A
defined class A

scala> abstract class B[T <: A]
defined class B

scala> class ConcreteA extends A
defined class ConcreteA

scala> class ConcreteB[T <: A] extends B[T]
defined class ConcreteB

scala> class Example[T <: A, U[X <: A] <: B[X]](resolver: U[T])
defined class Example

scala> new Example(new ConcreteB[ConcreteA])
res0: Example[ConcreteA,ConcreteB] = Example@ec48e7
  • It's close, but then ConcreteB isn't really concrete. Does this work for you without having to explicitly parameterize ConcreteB? – Tomer Gabel Aug 1 '11 at 15:36
  • I can't get inference to work without the explicit parameterization of ConcreteB (but the type member approach I mentioned at first works fine). – Kipton Barros Aug 1 '11 at 16:11
  • Thanks, I guess this is as close as it gets at this point. – Tomer Gabel Aug 1 '11 at 23:50

(See also two related questions: Scala fails to infer the right type arguments and Type infered to Nothing in Scala)

It looks like a limitation of Scala's type inference, which is intentionally not spec'ed. As work-around, you can get inference by making T a type member of B rather than parameter,

abstract class A
abstract class B { type T <: A }
class ConcreteA extends A
class ConcreteB extends B { type T = ConcreteA }
class Example[U <: B]( resolver: U )
object Test {
    new Example( new ConcreteB )

When using type members, it's useful to know that they can be surfaced as type parameters using refinement, as in Miles Sabin's answer to: Why is this cyclic reference with a type projection illegal?

In Jean-Philippe Pellet's answer to a related question, type inference was aided by making the type parameter higher kinded. If you introduce an extra type parameter in ConcreteB, then type inference can work,

abstract class A
abstract class B[T <: A]
class ConcreteA extends A
class ConcreteB[T <: A] extends B[T]
class Example[T <: A, U[T0 <: A] <: B[T0]]( resolver: U[T] )
object Test {
  new Example( new ConcreteB[ConcreteA] )

Scala 2.9 gives the mysterious error message below, but Miles Sabin points out it is a bug that will be fixed for 2.9.1

<console>:15: error: kinds of the type arguments (ConcreteA,ConcreteB[T0]) do not conform to the expected kinds of the type parameters (type T,type U) in class Example.
ConcreteB[T0]'s type parameters do not match type U's expected parameters: class ConcreteB has one type parameter, but type U has one
         new Example( new ConcreteB[ConcreteA] )
  • 1
    See continued discussion on Miles's answer below. – Tomer Gabel Aug 1 '11 at 15:35
  • Miles's answer is now above as it has become the accepted answer. – ArtB Jan 9 '12 at 21:29

I have composed a document of type inference workarounds on GitHub for my own learning.

A few simple rules that I find useful are:

  • Type parameters of type parameters cannot be inferred: Scala type inference only sees types specified in the parameter list (not to be confused with type parameter list).

  • Previous parameters are not used to infer future parameters: Type information only flows across parameter lists, not parameters.

However, in this particular example type members are the way forward (thanks @Kipton Barros!)

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