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In ANTLR 3 you could just do the following:

  :  (andnotExpression        -> andnotExpression)
     (AND? a=andnotExpression -> ^(AndNode $andExpression $a))* 

Any idea how to do it in the new version?

share|improve this question
up vote 25 down vote accepted

As mentioned by Sam (280Z28), ANTLR 4 does not have rewrite operators.

When generating the parser, ANTLR 4 creates some listener classes that you can use to listen for "enter" and "exit" events of all parser rules.

Also, ANTLR 4 supports "direct left recursive rules", so your expression rules can be defined in a single rule as demonstrated below:

grammar Expr;

 : expression EOF

 : '(' expression ')'
 | NOT expression
 | expression AND? expression
 | expression OR expression

LPAREN     : '(';
RPAREN     : ')';
NOT        : 'NOT';
AND        : 'AND';
OR         : 'OR';
IDENTIFIER : [a-zA-Z_] [a-zA-Z_0-9]*;
SPACE      : [ \t\r\n]+ -> skip;

When parsing the input "a b OR NOT c AND d", the following parse tree will be created:

enter image description here

(image created using ANTLRWorks2, thank you Sam! Very impressive IDE, I love it!)

Generate the parser and listener classes:

java -cp antlr-4.0-complete.jar org.antlr.v4.Tool Expr.g4

and the following class is generated that will let you help "walk" the tree:

public class ExprBaseListener implements ExprListener {

    @Override public void enterExpression(ExprParser.ExpressionContext ctx) { }
    @Override public void exitExpression(ExprParser.ExpressionContext ctx) { }

    @Override public void enterParse(ExprParser.ParseContext ctx) { }
    @Override public void exitParse(ExprParser.ParseContext ctx) { }

    @Override public void enterEveryRule(ParserRuleContext<Token> ctx) { }
    @Override public void exitEveryRule(ParserRuleContext<Token> ctx) { }
    @Override public void visitTerminal(TerminalNode<Token> node) { }
    @Override public void visitErrorNode(ErrorNode<Token> node) { }

Now you'll need to inspect the ExprParser.ExpressionContext to see which of the alternatives in expression is matched, which is where "tree-labels" come in handy. Change the expression rule as follows:

 : '(' expression ')'           # EXPR
 | IDENTIFIER                   # ID_EXPR
 | 'NOT' expression             # NOT_EXPR
 | expression 'AND'? expression # AND_EXPR
 | expression 'OR' expression   # OR_EXPR

and regenerate the parser and listeners, and you'll see that ExprBaseListener now looks like this:

public class ExprBaseListener implements ExprListener {
    @Override public void enterAND_EXPR(ExprParser.AND_EXPRContext ctx) { }
    @Override public void exitAND_EXPR(ExprParser.AND_EXPRContext ctx) { }

    @Override public void enterOR_EXPR(ExprParser.OR_EXPRContext ctx) { }
    @Override public void exitOR_EXPR(ExprParser.OR_EXPRContext ctx) { }

    @Override public void enterEXPR(ExprParser.EXPRContext ctx) { }
    @Override public void exitEXPR(ExprParser.EXPRContext ctx) { }

    @Override public void enterNOT_EXPR(ExprParser.NOT_EXPRContext ctx) { }
    @Override public void exitNOT_EXPR(ExprParser.NOT_EXPRContext ctx) { }

    @Override public void enterID_EXPR(ExprParser.ID_EXPRContext ctx) { }
    @Override public void exitID_EXPR(ExprParser.ID_EXPRContext ctx) { }

    @Override public void enterParse(ExprParser.ParseContext ctx) { }
    @Override public void exitParse(ExprParser.ParseContext ctx) { }

    @Override public void enterEveryRule(ParserRuleContext ctx) { }
    @Override public void exitEveryRule(ParserRuleContext ctx) { }
    @Override public void visitTerminal(TerminalNode node) { }
    @Override public void visitErrorNode(ErrorNode node) { }

I.e., for each label in expression a separate enter- and exit-method is created.

Now, let's say you're only interested in enter-events of the AND expression. You could create a custom class that extends this ExprBaseListener and override enterAND_EXPR:

public class ExprWalker extends ExprBaseListener {

    public void enterAND_EXPR(ExprParser.AND_EXPRContext ctx) { 
        java.util.List<ExprParser.ExpressionContext> e = ctx.expression();
        System.out.println("AND -> " + e.get(0).getText() + ", " + e.get(1).getText());

To test this all, create a small driver class:

import org.antlr.v4.runtime.*;
import org.antlr.v4.runtime.tree.*;

public class Main {

    public static void main(String[] args) throws Exception {

        String input = "a b OR NOT c AND d";
        ExprLexer lexer = new ExprLexer(new ANTLRInputStream(input));
        ExprParser parser = new ExprParser(new CommonTokenStream(lexer));
        ParseTree tree = parser.parse();
        ParseTreeWalker walker = new ParseTreeWalker();
        walker.walk(new ExprWalker(), tree);

and run it:

java -cp antlr-4.0-complete.jar org.antlr.v4.Tool Expr.g4
javac -cp antlr-4.0-complete.jar *.java
java -cp .:antlr-4.0-complete.jar Main

after which you'll see the following being printed to your console:

AND -> NOTc, d
share|improve this answer
Thank you so much, very detailed answer!!!! – Windys Jan 28 '13 at 19:55
You're welcome, @Windys. – Bart Kiers Jan 28 '13 at 20:08
+1 for the graphic – MrQBerrt Sep 9 '14 at 22:03

ANTLR 4 does not have a rewrite operator or an output=AST option like ANTLR 3. Trees produced by ANTLR 4 parsers are parse trees, the shape of which is implicitly defined by the grammar rules.

share|improve this answer
Thank you the answer does it mean that I have to rewrite it like andExpr: andExpr ? (AND? andnotExpression) ? – Windys Jan 28 '13 at 19:07
Thank you also very much, Sam!!! – Windys Jan 28 '13 at 19:57
Hy Sam! Is this still valid? Is there still no rewriting of the parse tree? The ANTLR grammar rule on github (…) states that the grammar contains "rewrite" within it's text... Has that been left over from v3? – Ronald Duck Jan 29 at 22:17

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