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Why does foo1 fail and foo2 succeeds? Shouldn't the compiler automatically check all the supertypes of Blah?

trait Foo[A] {
  def bar: A

trait Bleh;
case class Blah extends Bleh;
implicit object BlehFoo extends Foo[Bleh]

def foo1[A:Foo](a:A) = a

def foo2[A,B:Foo](a:A)(implicit aToB: A => B) = aToB(a)

// Shouldn't it automatically use Bleh?
// Failure: could not find implicit value for evidence parameter of type Foo[Blah]

// Success: Bleh = Blah()
share|improve this question
Good question, but the variable names you chose make me want to vomit. Couldn't they have been more descriptive, like SuperClass/SubClass? –  Quantum7 Oct 2 '14 at 9:54
Foo, Bar, etc are perfectly standard (and loved) in the industry. –  Erik Allik Nov 2 '14 at 20:35

1 Answer 1

up vote 6 down vote accepted

You can't use Foo[Bleh] as Foo[Blah] since Foo[Bleh] is not a Foo[Blah]. You should make Foo contravariant on A to use Foo[Bleh] as Foo[Blah].

trait Foo[-A] {
  def bar(a: A) = println(a) // to make Foo contravariant 

This works just fine:

scala> foo1(Blah())
res0: Blah = Blah()

Your original code contains an answer to your question. Let's assume you could use your original Foo[Bleh] as Foo[Blah]:

def foo1[A:Foo](): A = implicitly[Foo[A]].bar

val b: Blah = foo1[Blah]()

In case Foo[Bleh] is used here you'll get Bleh as result of bar, but you are expecting Blah and Bleh is not a Blah.

Fortunately compiler will not allow you to use your original Foo[Bleh] as Foo[Blah]:

scala> trait Foo[-A] {
     |   def bar: A
     | }
<console>:8: error: contravariant type A occurs in covariant position in type => A of method bar
         def bar: A

Type inference

This works fine:


But compiler will not infer type parameter A here as Bleh. In order to understand "why" we should know what A:Foo means:

def foo1[A:Foo](a:A) = a // syntax sugar
def foo1[A](a:A)(implicit ev: Foo[A]) = a // same method

A:Foo is a syntax sugar for addition implicit parameter.

If you have 2 parameter groups compiler will infer type in first group and then considers that types known. So after type inference on first parameter group (a:A) type Blah is known and second parameter group can't affect on type parameter.

share|improve this answer
I completely agree that a Foo[Bleh] is distinct from a Foo[Blah]. However,a Blah instance is by definition also a Bleh: the questions I'm really trying to get at is why, in absence of an explicit Foo[Blah], the compiler isn't using Blah as a Bleh and resolving the type class correctly? –  Refefer Aug 9 '13 at 14:32
@Refefer: I've updated my answer. If you'd like to know why type inference works with parameter groups one by one I can give you 2 reasons: 1) it's useful with lambda as last parameter; 2) it's faster. –  senia Aug 9 '13 at 14:48

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