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I already know the workaround for this problem, but I would like to really use this one approach, for at least one reason -- it should work.

This is rule taken from "The Definitive ANTLR Reference" by Terence Parr (the books is for ANTLR3):

expr : (INT -> INT) ('+' i=INT -> ^('+' $expr $i) )*;

If INT is not followed by + the result will be INT (single node), if it is -- subtree will be built with first INT (referred as $expr) as left branch.

I would like to build similar rule, yet with custom action:

mult_expr : (pow_expr -> pow_expr ) 
            (op=MUL exr=pow_expr 
              -> { new BinExpr($op,$mult_expr.tree,$exr.tree) })*; 

ANTLR accepts such rule, but when I run my parser with input (for example) "5 * 3" it gives me an error "line 1:1 missing EOF at '*'5".

QUESTION: how to use back reference with custom rewrite action?

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What "workaround"? –  Bart Kiers Aug 10 '12 at 19:31
@Bart Kiers, not to use custom actions in parser grammar, but rely on default AST. Then write tree grammar, and rewrite entire AST to custom one. I would like very much to avoid this, because it doubles my work, and more I see such workarounds the more I doubt in power of ANTLR (it supposed to save me work ;-D). –  greenoldman Aug 10 '12 at 19:45
Not sure if that is possible... However, would creating your own CommonTreeAdaptor be an option? (see: stackoverflow.com/questions/7635729/extend-antlr3-asts) –  Bart Kiers Aug 10 '12 at 21:01
you have your own adaptor already? Then why aren't you creating instances of your own node-classes in its create(Token) method and let your rule just be: mult_expr : pow_expr (MUL^ pow_expr)*? –  Bart Kiers Aug 10 '12 at 21:17
Yes, that is what I meant. In case of unary -, simply put U_SUB in your tokens { ... } block and do: unary_expr : SUB atom -> ^(U_SUB atom) | atom;. Then any occurrence of SUB inside the create(...) method of your adaptor will be the binary - and U_SUB the unary -. –  Bart Kiers Aug 11 '12 at 11:53

2 Answers 2

I'd recommend creating your own CommonTreeAdaptor and move the creation ow custom nodes to this CommonTreeAdaptor instead of doing this in your grammar file. More information on that, see: Extend ANTLR3 AST's

In case of operators that could have multiple meanings, like the minus sign (binary or unary operator), let your parser rule rewrite the unary operator like this:

grammar X;


tokens { U_SUB; } 

 : mult_expr ((SUB | ADD)^ mult_expr)*


 : SUB atom -> ^(U_SUB atom)
 | atom


And then in your implementation of your CommonTreeAdaptor, do something like this:

public Object create(Token t) {
  switch(t.getType()) {
    case X.SUB   : /* return a binary-tree */
    case X.U_SUB : /* return an unary-tree */
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I hope you won't be angry with me for switching "solution" mark, however I finally found the answer to my question. A direct one. –  greenoldman Aug 22 '12 at 16:14
up vote 1 down vote accepted

I am persistent guy, and this idea of using my custom nodes in one step was bothering me... ;-)

So, I did. The crucial points are:

  • putting EOF! at the end of the "main" rule,

  • when labeling the tokens, putting labels next to token, not to group, so (op='*'|op='/'), not op=('*'|'/')

I don't know for sure if this approach of using grammar rules to create immediately custom nodes will be a good a idea, but since this solves the problem asked in question I am marking this as solution.

And for the record, the most interesting rule looks now like this:

mult_expr : (exl=pow_expr -> $exl ) 
        ((op=MUL|op=IDIV|op=RDIV|op=MOD) exr=pow_expr 
        -> { new BinaryExpression($op,$exl.tree,$exr.tree) })*; 
share|improve this answer
No, of course not! :) Thanks for posting the solution. Although I won't be using your solution (I think), it is good to know it is possible. –  Bart Kiers Aug 22 '12 at 16:46

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