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For a library I'm working on, I need to provide an efficient, convenient and typesafe method of serializing scala classes. The ideal would be if a user can create a case class, and as long as all the members are serializable it should seemlessly be so too. I know precisely the type during both the serializing and deserializing stage so there's no need (and can not afford to) have any "schema" information as part of the seriazation format (like the Java object serialisation).

I've been playing with a few ideas, and this one seems to come pretty close. The major problem I see here, is how the user has to specify class's "apply" and "unapply" function. Since these are really static functions, I'm wondering if it's possible to get the compiler to find it.

Here's a self contained example:

trait InOut[T] {
  // just keeping things simple, for illustration purposes
  def toWire(x: T): Array[Byte]
  def fromWire(v: Array[Byte] ): T

object InOutConversions {
  // Pretend these are implemented properly

    implicit def Int = new InOut[Int] {
      def toWire(x: Int): Array[Byte] = Array[Byte]()
      def fromWire(v: Array[Byte] ): Int = 44

    implicit def String = new InOut[String] {
      def toWire(x: String): Array[Byte] = Array[Byte]()
      def fromWire(v: Array[Byte] ): String = "blah"

    // etc... for all the basic types

And then I need a function like this:

def serialize2[T, A1 : InOut, A2 : InOut](unapply : T => Option[Product2[A1, A2]])(obj : T) : Array[Byte] = {
  val product : Product2[A1, A2] = unapply(obj).get 
   implicitly[InOut[A1]].toWire(product._1) ++ implicitly[InOut[A2]].toWire(product._2)

Which would allow a user to use it pretty easy. e.g.

case class Jesus(a: Int, b: String)
val j = Jesus(4, "Testing")
serialize2 (Jesus.unapply(_)) (j)

But as you can see, that last line was really quite yuck. Surely it must be possible to improve on that? (Given a Jesus, surely I can find the 'unapply' static method)

share|improve this question
up vote 3 down vote accepted

Because don't have a generic way of getting the companion object of a given case class, you will add to do some extra work. I see three options:

  1. You can either use structural typing, but you will loose performance
  2. You can use a small type class to resolve implicitly the correct unapply method.
  3. You can add a toTuple method to the case class instances.

For instance:

trait ToTuple2[A1,A2] {
  def toTuple: (A1,A2)

case class Jesus(a: Int, b: String) extends ToTuple2[Int,String] {
  val toTuple = (a,b)

def serialize2[T <: ToTuple2[A1,A2], A1 : InOut, A2 : InOut](obj : T): Array[Byte] = {
  val product : Product2[A1, A2] = obj.toTuple
  implicitly[InOut[A1]].toWire(product._1) ++ implicitly[InOut[A2]].toWire(product._2)

Code example for option 2:

case class Jesus(a: Int, b: String)

trait Unapply2[T,A1,A2] {
  def asTuple( t: T ): (A1,A2)

implicit val UnapJesus = new Unapply2[Jesus,Int,String] {
  def asTuple( j: Jesus ) = Jesus.unapply(j).get

def serialize2[T, A1, A2](obj : T)
(implicit unap: Unapply2[T,A1,A2], inout1: InOut[A1], inout2: InOut[A2])  : Array[Byte] = {
  val product : Product2[A1, A2] = unap.asTuple(obj)
  inout1.toWire(product._1) ++ inout2.toWire(product._2)

You should have a look at SBinary, it looks similar.

share|improve this answer
Option 2 looks the most appealing, how would that be done? – Heptic Oct 13 '11 at 22:47
I added an example. And an advice... – paradigmatic Oct 14 '11 at 8:23
Note that shapeless can give you useful instances for case classes via a simple case class <-> HList typeclass, see… – ron Aug 13 '12 at 21:16

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