Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

In the Play framework source file, there is the following method inside the trait Reads[A]:

def andThen[B](rb: Reads[B])(implicit witness: A <:< JsValue): Reads[B] =
    rb.compose(this.map(witness))

and a map method like this:

def map[B](f: A => B): Reads[B] =
    Reads[B] { json => self.reads(json).map(f) }

witness is of type A <:< JsValue (which is a generalized type constraint). So how come it's being passed into the map method as an argument when the map method's parameter takes a function f: A => B??

Could someone explain? Thanks!

share|improve this question
add comment

1 Answer

up vote 3 down vote accepted

This is because this type witness is also a function. It is declared in Predef as:

sealed abstract class <:<[-From, +To] extends (From => To) with Serializable

So A <:< JsValue is also a function (A) => JsValue. You might wonder what the function does: it does nothing, it takes an A and directly returns it (as a JsValue).

To see why this is useful consider this example:

sealed trait Root { def bip() { println("bip") } }

def makeBip[A <: Root](a: A) {
  a.bip() // works because a is known to the type system to be a Root
}

def makeBip2[A](a: A)(implicit ev: A <:< Root) {
  a.bip() // works, because implicit resolution turns it into `ev(a).bip()`
}

The last method makeBip2 would not compile without the implicit because even though you know that a is a Root thanks to the evidence, the type system doesn't. You could cast it, it would be sure to work:

def makeBip3[A](a: A)(implicit ev: A <:< Root) {
  a.asInstanceOf[Root].bip() // ugly
}

But this doesn't feel right. If only you had a way you convert a to a Root... but wait, you do: the evidence itself!

def makeBip4[A](a: A)(implicit ev: A <:< Root) {
  ev(a).bip() // works!
}

And since implicit parameters are available as implicits within the method, a.bip() will be automatically converted to ev(a).bip() and you never need to know a function was involved.

However, the type system only uses the implicit to resolve an A into a JsValue, but not a Seq[A] into a Seq[JsValue] or a Reads[A] into a Reads[JsValue].

So in you case, this.map(witness) just makes the type system understand that a Reads[A] is a Reads[JsValue] by applying that function that does nothing, so that it can be composed with something that takes a JsValue and returns a B.

See the Generalized type constraits question on SO for more.

share|improve this answer
add comment

Your Answer

 
discard

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.