Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Where I can learn how to construct the AST's that Scala's macros generate?

The Scaladoc isn't as helpful as I'd like. For example:

abstract def Apply(sym: Universe.Symbol, args: Universe.Tree*): Universe.Tree
A factory method for Apply nodes.

But how do I figure out what an Apply node is? Where can I find a list of the node types in AST's, and how they fit together?

share|improve this question

2 Answers 2

up vote 36 down vote accepted

There isn't a lot of documentation for the internals of the compiler available, but the things that are available should be enough to get started.

Mirko Stocker, has written his Master Thesis about Scala Refactoring. In Appendix D (p. 95) he describes the architecture of the AST. It includes also a graphical overview:

Scala AST

Another way to find information about the AST is to look directly into the sources of reflect.internal.Trees, which contains the AST.

If one needs to find out how a specific source code snippet is represented internally there is reify:

scala> import reflect.runtime.universe._
import reflect.runtime.universe._

scala> showRaw(reify{val i = 0}.tree)
res8: String = Block(List(ValDef(Modifiers(), newTermName("i"), TypeTree(),
  Literal(Constant(0)))), Literal(Constant(())))
share|improve this answer
Thanks! That thesis is a great resource. –  Bill Feb 9 '13 at 21:57
Thank you :-) I hope it's not too much outdated yet.. –  Mirko Stocker Feb 10 '13 at 8:50
How can we draw such a graph? –  Freewind 2 hours ago

You could take a look at the scaladoc (http://docs.scala-lang.org/overviews/reflection/symbols-trees-types.html#trees) or at the slides (http://scalamacros.org/talks/2012-04-28-MetaprogrammingInScala210.pdf, the "Learn to learn" part).

Here's what I usually do. I wrote a simple script called parse, which takes Scala code as an argument and then compiles it with -Xprint:parser -Ystop-after:parser -Yshow-trees-stringified -Yshow-trees-compact (parse uses another helper script: adhoc-scalac. click here to see its sources as well).

The advantage this approach has over showRaw is that it doesn't require the code to typecheck. You could write a small snippet of code, which refers to non-existent variables or classes, and it still will successfully run and show you the AST. Here's an example of output:

09:26 ~$ parse 'class C { def x = 2 }'
[[syntax trees at end of parser]]// Scala source: tmp36sVGp
package <empty> {
  class C extends scala.AnyRef {
    def <init>() = {
    def x = 2
PackageDef(Ident(TermName("<empty>")), List(ClassDef(Modifiers(), TypeName("C"), List(), Template(List(Select(Ident(scala), TypeName("AnyRef"))), emptyValDef, List(DefDef(Modifiers(), nme.CONSTRUCTOR, List(), List(List()), TypeTree(), Block(List(pendingSuperCall), Literal(Constant(())))), DefDef(Modifiers(), TermName("x"), List(), List(), TypeTree(), Literal(Constant(2))))))))

There's also a script called typecheck, which does the same, but stops after typer. That's sometimes useful to understand how exactly the typechecker transforms the parser trees. However, both toolboxes and macros work with parser trees, so I use typecheck for tree construction purposes very rarely.

share|improve this answer
Thanks, Eugene! The scalac call is very helpful. –  Bill Feb 12 '13 at 3:15

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.