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The spray-json library extends basic Scala types with a toJson method. I'd like to convert an Any into a JsValue if there is such a pimp for the underlying type. My best attempt works, but is verbose:

import cc.spray._

val maybeJson1: PartialFunction[Any, JsValue] = {
  case x: BigDecimal => x.toJson
  case x: BigInt => x.toJson
  case x: Boolean => x.toJson
  case x: Byte => x.toJson
  case x: Char => x.toJson
  case x: Double => x.toJson
  case x: Float => x.toJson
  case x: Int => x.toJson
  case x: Long => x.toJson
  case x: Short => x.toJson
  case x: String => x.toJson
  case x: Symbol => x.toJson
  case x: Unit => x.toJson

Ideally, I'd prefer something (impossible) like this:

def maybeJson2(any: Any): Option[JsValue] = {
  if (pimpExistsFor(any))

Is there a way to do this without enumerating every type that has been enriched?

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2 Answers

up vote 3 down vote accepted

There is a way, but it requires a lot of reflection and therefore is quite a headache. The basic idea is as follows. The DefaultJsonProtocol object inherits a bunch of traits that contain implicit objects which contain write methods. Each of those will have an accessor function, but you won't know what it's called. Basically, you'll just take all methods that take no parameters and return one object that has a write method that takes the class of your object and returns a JsValue. If you find exactly one such method that returns one such class, use reflection to call it. Otherwise, bail.

It would look something like this (warning, untested):

def canWriteMe(writer: java.lang.Class[_], me: java.lang.Class[_]): 
  Option[java.lang.reflect.Method] =
  writer.getMethods.find(_.getName == "write").filter{ m =>
    classOf[JsValue].isAssignableFrom(m.getReturnType) && {
      val parm = m.getParameterTypes()
      m.length == 1 && parm(0).isAssignableFrom(me)
def maybeJson2(any: Any): Option[JsValue] = {
  val couldWork = {
      flatMap(m => canWriteMe(m.getReturnType, any.getClass).map(_ -> m))
  if (couldWork.length != 1) None else {
    couldWork.headOption.map{ case (wrMeth, obMeth) =>
      val wrObj = obMeth.invoke(DefaultJsonProtocol)
      val answer = wrMeth.invoke(wrObj, any)

Anyway, you're best off pulling the DefaultJsonProtocol class apart in the REPL step by step and finding out how to reliably identify the objects that define the writers, and then get the write methods out of them.

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Yes, it looks like quite a headache! :) I think I'll stick with my current setup. Perhaps this is a job for (the future implementation of) macros? –  MidoriKid May 27 '12 at 23:24
@MidoriKid - Macros are unlikely to help that much--the core of your problem is run-time type identification. Dynamics or type tags might help a little, but I think the problem is actually this hard. This is essentially what you are doing when you solve the problem by hand using javadocs. If you really are using a wide diversity of types, something like this is, despite the nontrivial amount of work, the way to do it. Anything else invites error as you repeat yourself many times, and invites getting out of date whenever anything changes. –  Rex Kerr May 28 '12 at 2:48
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I'm not sure it will fit you needs, but here is an alternative approach wich is really simple and type-safe.

If you kept the type of the argument (instead of using Any) you could rely on implicit parameter resolution to find the correct conversion at compile time:

def toJson[T:JsonFormat]( t: T ): JsValue = implicitly[JsonFormat[T]].write(t)

You won't need an option, because the program will fail at compile time if you try to pass an argument which is not "pimpable".

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I expect this will be very useful in the future (+1), but it doesn't fit my current need, which has a signature something like: Seq[Any] => Seq[Option[JsValue]] –  MidoriKid May 27 '12 at 23:21
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