The default behavior when the parser doesn't know what to do is to print messages to the terminal like:

line 1:23 missing DECIMAL at '}'

This is a good message, but in the wrong place. I'd rather receive this as an exception.

I've tried using the BailErrorStrategy, but this throws a ParseCancellationException without a message (caused by a InputMismatchException, also without a message).

Is there a way I can get it to report errors via exceptions while retaining the useful info in the message?

Here's what I'm really after--I typically use actions in rules to build up an object:

dataspec returns [DataExtractor extractor]
    @init {
        DataExtractorBuilder builder = new DataExtractorBuilder(layout);
    @after {
        $extractor = builder.create();
    : first=expr { builder.addAll($first.values); } (COMMA next=expr { builder.addAll($next.values); })* EOF

expr returns [List<ValueExtractor> values]
    : a=atom { $values = Arrays.asList($a.val); }
    | fields=fieldrange { $values = values($fields.fields); }
    | '%' { $values = null; }
    | ASTERISK { $values = values(layout); }

Then when I invoke the parser I do something like this:

public static DataExtractor create(String dataspec) {
    CharStream stream = new ANTLRInputStream(dataspec);
    DataSpecificationLexer lexer = new DataSpecificationLexer(stream);
    CommonTokenStream tokens = new CommonTokenStream(lexer);
    DataSpecificationParser parser = new DataSpecificationParser(tokens);

    return parser.dataspec().extractor;

All I really want is

  • for the dataspec() call to throw an exception (ideally a checked one) when the input can't be parsed
  • for that exception to have a useful message and provide access to the line number and position where the problem was found

Then I'll let that exception bubble up the callstack to whereever is best suited to present a useful message to the user--the same way I'd handle a dropped network connection, reading a corrupt file, etc.

I did see that actions are now considered "advanced" in ANTLR4, so maybe I'm going about things in a strange way, but I haven't looked into what the "non-advanced" way to do this would be since this way has been working well for our needs.

up vote 54 down vote accepted

Since I've had a little bit of a struggle with the two existing answers, I'd like to share the solution I ended up with.

First of all I created my own version of an ErrorListener like Sam Harwell suggested:

public class ThrowingErrorListener extends BaseErrorListener {

   public static final ThrowingErrorListener INSTANCE = new ThrowingErrorListener();

   public void syntaxError(Recognizer<?, ?> recognizer, Object offendingSymbol, int line, int charPositionInLine, String msg, RecognitionException e)
      throws ParseCancellationException {
         throw new ParseCancellationException("line " + line + ":" + charPositionInLine + " " + msg);

Note the use of a ParseCancellationException instead of a RecognitionException since the DefaultErrorStrategy would catch the latter and it would never reach your own code.

Creating a whole new ErrorStrategy like Brad Mace suggested is not necessary since the DefaultErrorStrategy produces pretty good error messages by default.

I then use the custom ErrorListener in my parsing function:

public static String parse(String text) throws ParseCancellationException {
   MyLexer lexer = new MyLexer(new ANTLRInputStream(text));

   CommonTokenStream tokens = new CommonTokenStream(lexer);

   MyParser parser = new MyParser(tokens);

   ParserRuleContext tree = parser.expr();
   MyParseRules extractor = new MyParseRules();

   return extractor.visit(tree);

(For more information on what MyParseRules does, see here.)

This will give you the same error messages as would be printed to the console by default, only in the form of proper exceptions.

  • 3
    I tried this and I confirm that it worked well. I think this is the easiest of the 3 proposed solutions. – Kami Dec 29 '14 at 9:19
  • 1
    This is the right way to go. Simplest way to go. The "problem" happens in the lexer and it makes sense to report it right then and there if it's important that the input be valid before attempting to parse. ++ – RubberDuck Apr 24 '15 at 19:57
  • Is there a particular reason to use the ThrowingErrorListener class as a Singleton? – RonyHe Dec 19 '17 at 17:33
  • @RonyHe No, this is just an adaptation of Sam Harwells code. – Mouagip Dec 20 '17 at 14:11
  • @Mouagip Got it, thanks – RonyHe Dec 21 '17 at 13:07

When you use the DefaultErrorStrategy or the BailErrorStrategy, the ParserRuleContext.exception field is set for any parse tree node in the resulting parse tree where an error occurred. The documentation for this field reads (for people that don't want to click an extra link):

The exception which forced this rule to return. If the rule successfully completed, this is null.

Edit: If you use DefaultErrorStrategy, the parse context exception will not be propagated all the way out to the calling code, so you'll be able to examine the exception field directly. If you use BailErrorStrategy, the ParseCancellationException thrown by it will include a RecognitionException if you call getCause().

if (pce.getCause() instanceof RecognitionException) {
    RecognitionException re = (RecognitionException)pce.getCause();
    ParserRuleContext context = (ParserRuleContext)re.getCtx();

Edit 2: Based on your other answer, it appears that you don't actually want an exception, but what you want is a different way to report the errors. In that case, you'll be more interested in the ANTLRErrorListener interface. You want to call parser.removeErrorListeners() to remove the default listener that writes to the console, and then call parser.addErrorListener(listener) for your own special listener. I often use the following listener as a starting point, as it includes the name of the source file with the messages.

public class DescriptiveErrorListener extends BaseErrorListener {
    public static DescriptiveErrorListener INSTANCE = new DescriptiveErrorListener();

    public void syntaxError(Recognizer<?, ?> recognizer, Object offendingSymbol,
                            int line, int charPositionInLine,
                            String msg, RecognitionException e)
        if (!REPORT_SYNTAX_ERRORS) {

        String sourceName = recognizer.getInputStream().getSourceName();
        if (!sourceName.isEmpty()) {
            sourceName = String.format("%s:%d:%d: ", sourceName, line, charPositionInLine);

        System.err.println(sourceName+"line "+line+":"+charPositionInLine+" "+msg);

With this class available, you can use the following to use it.


A much more complicated example of an error listener that I use to identify ambiguities which render a grammar non-SLL is the SummarizingDiagnosticErrorListener class in TestPerformance.

  • do I make use of that though? Am I supposed to use something like ((InputMismatchException) pce.getCause()).getCtx().exception to get at the useful error message? – Brad Mace Aug 9 '13 at 2:36
  • @BradMace I added a bunch more information here. – Sam Harwell Aug 9 '13 at 3:00
  • 1
    I experimented a little with throwing the exception from the error listener, but the exception never seems to show up. I just ended up with NPEs from the actions in the grammar due to the failed matches. I've added some backstory to the question since it appears I might be swimming against the current. – Brad Mace Aug 9 '13 at 4:02
  • You should just write a utility class to return the "line", "column", and "message" from a RecognitionException. The information you want is available in the exception that already gets thrown. – Sam Harwell Aug 9 '13 at 11:25
  • Gentle Reader, if you are like me, you're wondering what REPORT_SYNTAX_ERRORS is all about. Here's the answer: – james.garriss Oct 22 '14 at 14:46

What I've come up with so far is based on extending DefaultErrorStrategy and overriding it's reportXXX methods (though it's entirely possible I'm making things more complicated than necessary):

public class ExceptionErrorStrategy extends DefaultErrorStrategy {

    public void recover(Parser recognizer, RecognitionException e) {
        throw e;

    public void reportInputMismatch(Parser recognizer, InputMismatchException e) throws RecognitionException {
        String msg = "mismatched input " + getTokenErrorDisplay(e.getOffendingToken());
        msg += " expecting one of "+e.getExpectedTokens().toString(recognizer.getTokenNames());
        RecognitionException ex = new RecognitionException(msg, recognizer, recognizer.getInputStream(), recognizer.getContext());
        throw ex;

    public void reportMissingToken(Parser recognizer) {
        Token t = recognizer.getCurrentToken();
        IntervalSet expecting = getExpectedTokens(recognizer);
        String msg = "missing "+expecting.toString(recognizer.getTokenNames()) + " at " + getTokenErrorDisplay(t);
        throw new RecognitionException(msg, recognizer, recognizer.getInputStream(), recognizer.getContext());

This throws exceptions with useful messages, and the line and position of the problem can be gotten from either the offending token, or if that's not set, from the current token by using ((Parser) re.getRecognizer()).getCurrentToken() on the RecognitionException.

I'm fairly happy with how this is working, though having six reportX methods to override makes me think there's a better way.

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