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I make extensive use of the Pimp my Library pattern, and I'd like to remove the boilerplate. For example, say I have some trait PrettyPrint:

trait PrettyPrint { def prettyPrint: String }

If I want to pimp Int and Double, I need to write code like this:

implicit def int2PrettyPrint(self: Int) = 
  new PrettyPrint { def prettyPrint = "Int: " + self }
implicit def double2PrettyPrint(self: Double) = 
  new PrettyPrint { def prettyPrint = "Double: " + self }

In the above, I'd classify as boilerplate: 1) The name of the implicit conversion, 2) The "new" keyword, 3) Perhaps the argument name "self", 4) Perhaps the "implicit" keyword. I'd rather write something like this:

@pimp[Int, PrettyPrint] { def prettyPrint = "Int: " + self }
@pimp[Double, PrettyPrint] { def prettyPrint = "Double: " + self }

On the right hand sides of the above code, the name "self" is assumed to be the conversion argument.

Ideas on how to do this?

Some notes:

1) I'm amenable to using Scala 2.10 if necessary.

2) The new implicit classes in Scala 2.10 don't suffice as far as I can tell. This is because there is only one implicit conversion for each implicit class. In other words, code like the following wouldn't compile because PrettyPrint is declared twice:

implicit class PrettyPrint(self: Int) = ...
implicit class PrettyPrint(self: Double) = ...
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Would a macro be acceptable? –  pr1001 Nov 4 '12 at 21:21
    
@pr1001, yes. Do you have pointers for how to do this, or good links to read? –  emchristiansen Nov 4 '12 at 21:22
    
So far macros cannot make globally visible changes (e.g. add public members or classes). We might add this functionality in one of the 2.10.x releases, but no promises. –  Eugene Burmako Nov 4 '12 at 21:43
1  
Not from me, since I don't really do the SBT/Eclipse thing. But given that I was automatically building stuff with code generators in C 20 years ago, I have to imagine it's still possible. –  Rex Kerr Nov 4 '12 at 22:29
1  
@emchristiansen Looks like that's the only way to satisfy all your requirements. –  Eugene Burmako Nov 5 '12 at 6:31
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4 Answers

up vote 2 down vote accepted

Follow-up on our discussion on NativeLibs4Java's mailing list, where I gave an example of such a compiler plugin (which expands @extend(Int) def foo = blah into implicit class foo(self: Int) extends AnyVal { def foo = blah }).

I've written a more elaborated plugin that expands these definitions into... macros (giving macro-expandable extensions / "pimps", with no runtime dependency!).

Given:

@extend(Any) def quoted(quote: String): String = quote + self + quote

It expands to:

import scala.language.experimental.macros
implicit class scalaxy$extensions$quoted$1(self: Any) {
  def quoted(quote: String) = macro scalaxy$extensions$quoted$1.quoted
}
object scalaxy$extensions$quoted$1 {
  def quoted(c: scala.reflect.macros.Context)
            (quote: c.Expr[String]): c.Expr[String] = {
    import c.universe._
    val Apply(_, List(selfTree$1)) = c.prefix.tree
    val self = c.Expr[Any](selfTree$1)
    {
      reify(quote.splice + self.splice + quote.splice)
    }
  }
}
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Summary after 1 week: It appears I need to write a compiler plugin to get the exact behavior I specified.

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Here is another solution that requires signiicantly more boilerplate up front, in exchange for slightly less clutter for each specific instanciation of PrettyPrint:

implicit class PrettyPrintable[T]( val self: T ) extends AnyVal { 
  def prettyPrint( implicit impl: PrettyPrint[T]): String = impl.prettyPrint( self ) 
}
trait PrettyPrint[T]{ def prettyPrint( self: T ): String }
object PrettyPrint {
  def apply[T]( impl: T => String ): PrettyPrint[T] = new PrettyPrint[T] {
    def prettyPrint( self: T ) = impl( self )
  }
}

implicit val int2PrettyPrint = PrettyPrint[Int]( "Int: " + _ )
implicit val double2PrettyPrint = PrettyPrint[Double]( "Double: " + _ )
// Or more explicitly:
//implicit val int2PrettyPrint = PrettyPrint{self: Int => "Int: " + self }
//implicit val double2PrettyPrint = PrettyPrint{self: Double => "Double: " + self }

Compare:

implicit def int2PrettyPrint(self: Int) = new PrettyPrint { def prettyPrint = "Int: " + self } 

to:

implicit val int2PrettyPrint = PrettyPrint[Int]( "Int: " + _ )

You still need the implicit keyword though, as well as a unique name for the implicit value

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+1 This is pretty good, but it looks to me like the compiler plugin is the way to go. –  emchristiansen Nov 5 '12 at 22:58
    
BTW, isn't the "extends AnyVal" in your answer unnecessary? I think all reference types extend AnyVal automatically. –  emchristiansen Nov 5 '12 at 23:04
    
No, they extend AnyRef by default. Extending AnyVal makes it a "value class" (works in scala 2.10 only(. You can remove it, it is only an optimization. –  Régis Jean-Gilles Nov 5 '12 at 23:37
    
Note though that I used another feature of scala 2.10: PrettyPrintable is an implicit class. For scala < 2.10, make it a normal class and add an implicit conversion by hand. –  Régis Jean-Gilles Nov 5 '12 at 23:47
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You could just name your implicit classes differently:

implicit class PrettyPrintInt(self: Int) = ...
implicit class PrettyPrintDouble(self: Double) = ...
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This has two problems: 1) It only slightly reduces boilerplate, 2) (Major problem) It changes the semantics. If I have some function "def foo(prettyPrint: PrettyPrint) ...", I can no longer pass it an Int or a Double. –  emchristiansen Nov 4 '12 at 21:21
1  
@emchristiansen: Why not? PrettyPrint is a trait and the implicit classes can extend PrettyPrint. –  sschaef Nov 4 '12 at 21:30
1  
@sschaef, you don't end up saving characters if you do that. The whole point of implicit classes is to collapse the trait definition and the implicit definition into one definition. If you used implicit classes but also had to define a PrettyPrint super trait, you'd lose that savings. Plus, you'd have to write "extends PrettyPrint" at each implicit class definition. –  emchristiansen Nov 4 '12 at 21:35
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