Triggered by this question, I was wondering if one could write a def-macro to achieve the result:

import scala.reflect.macros.Context
import language.experimental.macros

object CarImpl {
  def impl(c: Context)(fun: c.Expr[Unit]): c.Expr[Unit] = {
    import c.universe._
    val all  = "_": TermName
    val imp  = c.Expr(Import(c.prefix.tree, ImportSelector(all, -1, all, -1) :: Nil))
    val tree = reify {
    } .tree
class Car(var speed: Int, var color: String) {
  def set(fun: Unit): Unit = macro CarImpl.impl


val myCar = new Car(5, "red")
myCar.set { color = "blue" }

This fails to compile because: not found: value color. It seems its not enough to "paste" the import statement in front of it. Any clues if the general idea can be realised? That is, the following should be the synthetic output

val myCar = new Car(5, "red")

  import myCar._
  color = "blue"
  • Would you settle for something like set { 'color -> "blue" }? Because that's definitely possible, and not too hard. You could get the set { color = "blue" } syntax with some cleverness with structural types and an extra import (one for every class), but it would be messy. Aug 30, 2013 at 17:09
  • No, what I would really like is pass the function body as is into the macro body, before the compiler tries to resolve symbols, I guess... You know, you could write Button { text = "foo"; enabled = false } instead of new Button { ... }.
    – 0__
    Aug 30, 2013 at 17:12
  • You'd need untyped macros for that, unfortunately, and they're now off the table. Aug 30, 2013 at 17:20
  • 2
    I've just written up a blog post with a kind of solution to this problem. Aug 30, 2013 at 21:59
  • 1
    It's cool that one can upvote comments as well :) Aug 30, 2013 at 22:12

1 Answer 1


It is possible to get this syntax, but it takes a kind of crazy trick involving structural types (and requires one extra line of boilerplate). I've written a blog post discussing the trick in detail, and will give a simplified version here.

First for the macro implementation for set (note that I'm using quasiquotes, which are now available as a plugin in 2.10):

import scala.reflect.macros.Context
import scala.language.experimental.macros

trait SetterBuilder {
  def set_impl(c: Context)(assignments: c.Expr[Unit]): c.Expr[Unit] = {
    import c.universe._

     val rewriteOne: PartialFunction[Tree, Tree] = {
       case q"${_}.$n($v)" => q"${c.prefix}.$n($v)"

     val rewrite: PartialFunction[Tree, Tree] = rewriteOne orElse {
       case block: Block => q"{ ..${block collect rewriteOne} }"

         c.abort(c.enclosingPosition, "Not a set of assignments!")

And then the structural type stuff:

trait SyntaxBuilder {
  def syntax_impl[A: c.WeakTypeTag](c: Context) = {
    import c.universe._

    val anon = newTypeName(c.fresh())
    val declarations = c.weakTypeOf[A].declarations

    val (getters, setters) = declarations.collect {
      case sym: MethodSymbol if sym.isSetter => (
        q"def ${sym.getter.name} = ???",
        q"def ${sym.name}(x: ${sym.paramss.head.head.typeSignature}) = ???"

    c.Expr[Any](q"class $anon { ..$getters; ..$setters }; new $anon {}")

Now we tie it all together and define our class:

object Evil extends SyntaxBuilder with SetterBuilder {
  def syntax[A] = macro syntax_impl[A]

case class Car(var speed: Int, var color: String) {
  def set(assignments: Unit): Unit = macro Evil.set_impl

object Car {
  val syntax = Evil.syntax[Car]

We get the boilerplate out of the way:

import Car.syntax._

And we're done:

scala> val car = new Car(0, "blue")
car: Car = Car(0,blue)

scala> car set {
     |   color = "red"
     |   speed = 10000
     | }

scala> car
res0: Car = Car(10000,red)

See the blog post for a more fully-featured version, an explanation, and an apology for introducing this awful code into the world.

  • Plugging the plug: in M5, use q"$_" instead of q"${_}" to save your eyesight.
    – som-snytt
    Aug 31, 2013 at 2:03
  • 1
    @som-snytt: If that's the part that hurts your eyes, I envy you. Aug 31, 2013 at 3:51

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