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I've have read a lot trying to find a way to cleanly consume lists in ANTLR's tree grammar. Here is what I have tried and their results (I really hope I'm missing something trivial)...

Using += Syntax

program returns [someInterface result]
  : m+=method* EOF {result = new SomeClass(m);};

method returns [SomeMethod result] : <definition here>

This fails with...

rule '+=' list labels are not allowed w/o output option

If I set the output to either "AST" or "template" (the only options) the method signatures of the generated class change. That is, m will not by a List of SomeMethod(s) but rather a List of Nodes or Templates respectively. I am open to suggestions if there is a way to make this method work.

Using Rule Scopes

program returns [CompilesToJavaByteCode result]
    scope {
      List<SomeMethod> methods;
    }
    @init {
      $program::methods = new ArrayList<SomeMethod>();
    }
    : (m=method {$program::methods.add(m);})*
      EOF {result = new SomeClass($program::methods);};

This seems to work, though I'll admit that I haven't tested it with nested/recursive cases yet.

The End Goal

I want to build a set of classes that represent my language (Class, Method, Variable, Statement, ect) so that I can do some static analysis and optimization before I generate compiled code. To that end, I need to be able to consume lists. I expected += syntax to "just work" but I might be missing something. The second method works but seem overly verbose and inelegant.

The Question

What is the proper why to consume a list, in ANTLR's tree grammar, to pass to my concrete classes?

share|improve this question
    
+= only works if you "tell" ANTLR before hand what type of objects your rules return (output=AST makes them of type CommonTree). I think it has to do with the fact that ANTLR's code base is pretty much Java 1.4, and since rules could also return primitives like int or double etc. because 1.4 didn't have auto-boxing. – Bart Kiers Apr 3 '11 at 7:30
    
+1 looking for this – Tasawer Khan May 17 '11 at 19:29
up vote 6 down vote accepted

You can cut the scope from your example and do it all with local variables.

program returns [CompilesToJavaByteCode result]
    @init {
      List<SomeMethod> methods = new ArrayList<SomeMethod>();
    }
    : (m=method { methods.add($m.result); })* EOF 
      { $result = new SomeClass(methods); };

This is what we do for this case at work. Another option is to have your method rule handle it:

program returns [CompilesToJavaByteCode result]
    @init {
      List<SomeMethod> methods = new ArrayList<SomeMethod>();
    }
    : method[methods]* EOF { $result = new SomeClass(methods); };

method [List<SomeMethod> methods]
    : ...
      { methods.add(new SomeMethod(...); };

I don't really like the second option as a method rule probably shouldn't care what is being done with its results like that. But you can imagine a structure where the top rule creates a ClassBeingCompiled and the rest of the code incrementally fills it out with .addMethod().

share|improve this answer
    
+1 I agree: the first option is IMO the "cleanest". – Bart Kiers Apr 3 '11 at 7:30

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