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I am designing an API using type classes in some cases however I have encountered a problem with implicit resolution. As shown below, if there is an implicit object for type A but an object of type B extends A is passed to the method, then an implicit object cannot be found. Is there a way to make this work or do callers have to put implicit objects into scope for each subclass?

Here is an example:

class A
class B extends A

class T[+X]

object T {
  implicit object TA extends T[A]

def call[X:T](x:X) = println(x)

// compiles
call(new A)
// doesn't compile
call(new B)

var a = new A
// compiles

a = new B
// compiles

val b = new B
// doesn't compile

This fails to compile with the following output:

/private/tmp/tc.scala:16: error: could not find implicit value for evidence parameter of type this.T[this.B]
call(new B)
/private/tmp/tc.scala:28: error: could not find implicit value for evidence parameter of type this.T[this.B]
share|improve this question
I also tried changing the definition of call to: def call[X,X2 <: X](x:X2)(implicit x2:T[X]) = println(x) And that did not help – Jesse Eichar Oct 6 '10 at 6:41

Try this:

object T {
  implicit def TA[X <: A] = new T[X]

import T._

or simply:

implicit def TA[X <: A] = new T[X]
share|improve this answer

The following works fine:

scala> def call[X](x: X)(implicit evidence: T[X]<:<T[X])  = println(x)
call: [X](x: X)(implicit evidence: <:<[T[X],T[X]])Unit

scala> call(new A)

scala> call(new B)

scala> val b = new B
b: B = B@30e4a7

scala> call(b)

In your case compilation fails, because def call[X:T](x:X) = println(x) is treated as call: [X](x: X)(implicit evidence$1: T[X])Unit. In order to pass the subtype, you may use generalized type constraints.

share|improve this answer
Is there a way to actually get evidence$1? For example suppose T was a function and x was the parameter. I cannot call evidence(x) – Jesse Eichar Oct 6 '10 at 9:33
Why you cannot? You can call it by name evidence$1, like any other [implicit] parameter. – Vasil Remeniuk Oct 6 '10 at 9:57
If you have several type parameters on the method, there will be evidence$1, evidence$2 etc: [X,Z](x: X)(implicit evidence$1: T[X],implicit evidence$2: T[Z])Unit – Vasil Remeniuk Oct 6 '10 at 10:00
My question did not quite capture my needs. I loved learning this tip but my actual needs turned out to be: <code>trait T[X] extends Function1[X,Boolean]</code>. and call is: <code>def call[X](x:X)(implicit x2:T[X]) = x2(x)</code>. Turned out using T[-X] worked for me. Cool to learn about the <:< though. – Jesse Eichar Oct 6 '10 at 19:20
def foo[A: M] = { val ma = implicitly[M[A]; ... } – retronym Oct 6 '10 at 22:42

The call call(new B) means call[B](new B)(tB) such that tb is of type T[B] or subclass of it. (A method that expects argument of type T can only expect T or subclass of T, e.g., def foo(s: String) cannot be called with argument of type Any). T[A] is not a subtype of T[B]

To fix, you can change T to be defined T[-X]. This means that the compiler will consider T[A] to be a subtype of T[B]

share|improve this answer
Problem is, even if you also define implicit object TB extends T[B], implicitly[T[B]] == T.TA. – retronym Oct 6 '10 at 22:40
sounds reasonable, because TA is then more specific than TB and TA is-a TB so should be usable where T[B] is. if you want the implicit to match the type exactly, define T as T[X] – IttayD Oct 7 '10 at 4:27

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