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For this case class:

case class People(names: Set[Int])

Travis Brown explained how to create PeopleReads: Reads[People] at this answer:

implicit val PeopleReads = 
       (__ \ "names").read[Set[Id]].map(People)

But, I'm trying to implement PeopleWrites: Writes[People]:

 implicit val PeopleWrites: Writes[People] = 
    (JsPath \  "names").write[Set[Int]].map(unlift(x => Some((x.names)))

with the following compile-time error:

scala> People( Set(1,2,3))
res5: People = People(Set(1, 2, 3))

scala>  implicit val PeopleWrites: Writes[People] = 
      (JsPath \  "names").write[Set[Int]].map(unlift(x => Some((x.names))))
<console>:21: error: value map is not a member of 
                play.api.libs.json.OWrites[Set[Int]]
              implicit val PeopleWrites: Writes[People] = 
                (JsPath \  "names").write[Set[Int]].
                                      map(unlift(x => Some((x.names)))

How can I resolve this error?

Also, how can I write Format[People] where I get/define both Reads and Writes:

val peopleFormat: Format[People] = ...?

share|improve this question

1 Answer 1

up vote 1 down vote accepted

Good question! The reason you can't use map is because Writes isn't a functor.

You can think of Writes[A] as something kind of like A => JsValue. But suppose I've got a A => JsValue and a A => B. Try to come up with some way of composing those functions to get a B => JsValue—it's just not possible.

Reads[A], on the other hand, is kind of like JsValue => A, and is a functor—it has a map method that takes a A => B, composes it with the Reads[A] / JsValue => A, and returns a Reads[B] / JsValue => B.

Writes is, however, a contravariant functor, and luckily enough Play knows that. When F is a contravariant functor, F[A] has a method contramap[B](f: B => A) instead of the usual map[B](f: A => B). So you can just write this:

case class People(names: Set[Int])

import play.api.libs.json._
import play.api.libs.functional.syntax._

implicit val PeopleWrites: Writes[People] =
  (__ \ 'names).write[Set[Int]].contramap(_.names)

Here (__ \ 'names).write[Set[Int]] is a Writes[Set[Int]] and (_.names) is a function People => Set[Int]. Combining them with contramap gives us a Writes[People].

share|improve this answer
    
Thanks, Travis. Could you please show how to write, if possible, Writes[People] using unlift? Also, what would Format[People] look like? Thanks again. –  Kevin Meredith Feb 12 at 1:37
1  
Updated with some additional information about the argument to contramap. Also, you don't need unlift when you're not dealing with something like a case class's unapply, and you've already got a Format[People] once you've got implicit Reads and Writes instances in scope, thanks to the implicit Format.GenericFormat. –  Travis Brown Feb 12 at 1:48
    
So Writes[Set[Int]].contramap(f) where f has signature: Set[Int] => People. _.names expands to (x => x.names). And contra in contra`map` means that, for the function: B => A, we're passing in Person => Set[Int], but the reverse actually occurs - Set[Int] => Person? –  Kevin Meredith Feb 12 at 1:55
1  
Not exactly. Think of Reads and Writes as pipes between A and JsValue. contramap puts a B => A in front of the Writes pipe. map puts a A => B after the Reads pipe. –  Travis Brown Feb 12 at 2:00

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