// $ANTLR 2.7.3rc3: "antlr.g" -> "ANTLRParser.java"$ package com.fr.third.antlr; import com.fr.third.antlr.collections.impl.BitSet; public class ANTLRParser extends com.fr.third.antlr.LLkParser implements ANTLRTokenTypes { private static final boolean DEBUG_PARSER = false; ANTLRGrammarParseBehavior behavior; Tool antlrTool; protected int blockNesting= -1; public ANTLRParser( TokenBuffer tokenBuf, ANTLRGrammarParseBehavior behavior_, Tool tool_ ) { super(tokenBuf, 1); tokenNames = _tokenNames; behavior = behavior_; antlrTool = tool_; } public void reportError(String s) { antlrTool.error(s, getFilename(), -1, -1); } public void reportError(RecognitionException e) { reportError(e, e.getErrorMessage()); } public void reportError(RecognitionException e, String s) { antlrTool.error(s, e.getFilename(), e.getLine(), e.getColumn()); } public void reportWarning(String s) { antlrTool.warning(s, getFilename(), -1, -1); } private boolean lastInRule() throws TokenStreamException { if ( blockNesting==0 && (LA(1)==SEMI || LA(1)==LITERAL_exception || LA(1)==OR) ) { return true; } return false; } private void checkForMissingEndRule(Token label) { if ( label.getColumn()==1 ) { antlrTool.warning("did you forget to terminate previous rule?", getFilename(), label.getLine(), label.getColumn()); } } protected ANTLRParser(TokenBuffer tokenBuf, int k) { super(tokenBuf,k); tokenNames = _tokenNames; } public ANTLRParser(TokenBuffer tokenBuf) { this(tokenBuf,2); } protected ANTLRParser(TokenStream lexer, int k) { super(lexer,k); tokenNames = _tokenNames; } public ANTLRParser(TokenStream lexer) { this(lexer,2); } public ANTLRParser(ParserSharedInputState state) { super(state,2); tokenNames = _tokenNames; } public final void grammar() throws RecognitionException, TokenStreamException { Token n = null; Token h = null; try { // for error handling { _loop4: do { if ((LA(1)==LITERAL_header)) { if ( inputState.guessing==0 ) { n = null; // RK: prevent certain orders of header actions // overwriting eachother. } match(LITERAL_header); { switch ( LA(1)) { case STRING_LITERAL: { n = LT(1); match(STRING_LITERAL); break; } case ACTION: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } h = LT(1); match(ACTION); if ( inputState.guessing==0 ) { // store the header action // FIXME: 'n' should be checked for validity behavior.refHeaderAction(n,h); } } else { break _loop4; } } while (true); } { switch ( LA(1)) { case OPTIONS: { fileOptionsSpec(); break; } case EOF: case ACTION: case DOC_COMMENT: case LITERAL_lexclass: case LITERAL_class: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { _loop7: do { if (((LA(1) >= ACTION && LA(1) <= LITERAL_class))) { classDef(); } else { break _loop7; } } while (true); } match(Token.EOF_TYPE); } catch (RecognitionException ex) { if (inputState.guessing==0) { reportError(ex, "rule grammar trapped:\n"+ex.toString()); consumeUntil(EOF); } else { throw ex; } } } public final void fileOptionsSpec() throws RecognitionException, TokenStreamException { Token idTok; Token value; match(OPTIONS); { _loop18: do { if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF)) { idTok=id(); match(ASSIGN); value=optionValue(); if ( inputState.guessing==0 ) { behavior.setFileOption(idTok, value,getInputState().filename); } match(SEMI); } else { break _loop18; } } while (true); } match(RCURLY); } public final void classDef() throws RecognitionException, TokenStreamException { Token a = null; Token d = null; String doc=null; try { // for error handling { switch ( LA(1)) { case ACTION: { a = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refPreambleAction(a); } break; } case DOC_COMMENT: case LITERAL_lexclass: case LITERAL_class: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case DOC_COMMENT: { d = LT(1); match(DOC_COMMENT); if ( inputState.guessing==0 ) { doc=d.getText(); } break; } case LITERAL_lexclass: case LITERAL_class: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { boolean synPredMatched13 = false; if (((LA(1)==LITERAL_lexclass||LA(1)==LITERAL_class) && (LA(2)==TOKEN_REF||LA(2)==RULE_REF))) { int _m13 = mark(); synPredMatched13 = true; inputState.guessing++; try { { switch ( LA(1)) { case LITERAL_lexclass: { match(LITERAL_lexclass); break; } case LITERAL_class: { match(LITERAL_class); id(); match(LITERAL_extends); match(LITERAL_Lexer); break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } } catch (RecognitionException pe) { synPredMatched13 = false; } rewind(_m13); inputState.guessing--; } if ( synPredMatched13 ) { lexerSpec(doc); } else { boolean synPredMatched15 = false; if (((LA(1)==LITERAL_class) && (LA(2)==TOKEN_REF||LA(2)==RULE_REF))) { int _m15 = mark(); synPredMatched15 = true; inputState.guessing++; try { { match(LITERAL_class); id(); match(LITERAL_extends); match(LITERAL_TreeParser); } } catch (RecognitionException pe) { synPredMatched15 = false; } rewind(_m15); inputState.guessing--; } if ( synPredMatched15 ) { treeParserSpec(doc); } else if ((LA(1)==LITERAL_class) && (LA(2)==TOKEN_REF||LA(2)==RULE_REF)) { parserSpec(doc); } else { throw new NoViableAltException(LT(1), getFilename()); } } } rules(); if ( inputState.guessing==0 ) { behavior.endGrammar(); } } catch (RecognitionException ex) { if (inputState.guessing==0) { if ( ex instanceof NoViableAltException ) { NoViableAltException e = (NoViableAltException)ex; // RK: These probably generate inconsequent error messages... // have to see how this comes out.. if ( e.token.getType()==DOC_COMMENT ) { reportError(ex, "JAVADOC comments may only prefix rules and grammars"); } else { reportError(ex, "rule classDef trapped:\n"+ex.toString()); } } else { reportError(ex, "rule classDef trapped:\n"+ex.toString()); } behavior.abortGrammar(); boolean consuming = true; // consume everything until the next class definition or EOF while (consuming) { consume(); switch(LA(1)) { case LITERAL_class: case LITERAL_lexclass: case EOF: consuming = false; break; } } } else { throw ex; } } } public final Token id() throws RecognitionException, TokenStreamException { Token idTok ; Token a = null; Token b = null; idTok = null; switch ( LA(1)) { case TOKEN_REF: { a = LT(1); match(TOKEN_REF); if ( inputState.guessing==0 ) { idTok = a; } break; } case RULE_REF: { b = LT(1); match(RULE_REF); if ( inputState.guessing==0 ) { idTok = b; } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } return idTok ; } public final void lexerSpec( String doc ) throws RecognitionException, TokenStreamException { Token lc = null; Token a = null; Token idTok; String sup=null; { switch ( LA(1)) { case LITERAL_lexclass: { lc = LT(1); match(LITERAL_lexclass); idTok=id(); if ( inputState.guessing==0 ) { antlrTool.warning("lexclass' is deprecated; use 'class X extends Lexer'", getFilename(), lc.getLine(), lc.getColumn()); // System.out.println("warning: line " + lc.getLine() + ": 'lexclass' is deprecated; use 'class X extends Lexer'"); } break; } case LITERAL_class: { match(LITERAL_class); idTok=id(); match(LITERAL_extends); match(LITERAL_Lexer); { switch ( LA(1)) { case LPAREN: { sup=superClass(); break; } case SEMI: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.startLexer(getFilename(), idTok,sup,doc); } match(SEMI); { switch ( LA(1)) { case OPTIONS: { lexerOptionsSpec(); break; } case ACTION: case DOC_COMMENT: case TOKENS: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.endOptions(); } { switch ( LA(1)) { case TOKENS: { tokensSpec(); break; } case ACTION: case DOC_COMMENT: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case ACTION: { a = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refMemberAction(a); } break; } case DOC_COMMENT: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } } public final void treeParserSpec( String doc ) throws RecognitionException, TokenStreamException { Token a = null; Token idTok; String sup=null; match(LITERAL_class); idTok=id(); match(LITERAL_extends); match(LITERAL_TreeParser); { switch ( LA(1)) { case LPAREN: { sup=superClass(); break; } case SEMI: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.startTreeWalker(getFilename(), idTok,sup,doc); } match(SEMI); { switch ( LA(1)) { case OPTIONS: { treeParserOptionsSpec(); break; } case ACTION: case DOC_COMMENT: case TOKENS: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.endOptions(); } { switch ( LA(1)) { case TOKENS: { tokensSpec(); break; } case ACTION: case DOC_COMMENT: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case ACTION: { a = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refMemberAction(a); } break; } case DOC_COMMENT: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } } public final void parserSpec( String doc ) throws RecognitionException, TokenStreamException { Token a = null; Token idTok; String sup=null; match(LITERAL_class); idTok=id(); { switch ( LA(1)) { case LITERAL_extends: { match(LITERAL_extends); match(LITERAL_Parser); { switch ( LA(1)) { case LPAREN: { sup=superClass(); break; } case SEMI: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } break; } case SEMI: { if ( inputState.guessing==0 ) { antlrTool.warning("use 'class X extends Parser'", getFilename(), idTok.getLine(), idTok.getColumn()); // System.out.println("warning: line " + // idTok.getLine() + ": use 'class X extends Parser'"); } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.startParser(getFilename(), idTok, sup, doc); } match(SEMI); { switch ( LA(1)) { case OPTIONS: { parserOptionsSpec(); break; } case ACTION: case DOC_COMMENT: case TOKENS: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.endOptions(); } { switch ( LA(1)) { case TOKENS: { tokensSpec(); break; } case ACTION: case DOC_COMMENT: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case ACTION: { a = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refMemberAction(a); } break; } case DOC_COMMENT: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } } public final void rules() throws RecognitionException, TokenStreamException { { int _cnt68=0; _loop68: do { if ((_tokenSet_0.member(LA(1))) && (_tokenSet_1.member(LA(2)))) { rule(); } else { if ( _cnt68>=1 ) { break _loop68; } else {throw new NoViableAltException(LT(1), getFilename());} } _cnt68++; } while (true); } } public final Token optionValue() throws RecognitionException, TokenStreamException { Token retval ; Token sl = null; Token cl = null; Token il = null; retval = null; switch ( LA(1)) { case TOKEN_REF: case RULE_REF: { retval=qualifiedID(); break; } case STRING_LITERAL: { sl = LT(1); match(STRING_LITERAL); if ( inputState.guessing==0 ) { retval = sl; } break; } case CHAR_LITERAL: { cl = LT(1); match(CHAR_LITERAL); if ( inputState.guessing==0 ) { retval = cl; } break; } case INT: { il = LT(1); match(INT); if ( inputState.guessing==0 ) { retval = il; } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } return retval ; } public final void parserOptionsSpec() throws RecognitionException, TokenStreamException { Token idTok; Token value; match(OPTIONS); { _loop21: do { if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF)) { idTok=id(); match(ASSIGN); value=optionValue(); if ( inputState.guessing==0 ) { behavior.setGrammarOption(idTok, value); } match(SEMI); } else { break _loop21; } } while (true); } match(RCURLY); } public final void treeParserOptionsSpec() throws RecognitionException, TokenStreamException { Token idTok; Token value; match(OPTIONS); { _loop24: do { if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF)) { idTok=id(); match(ASSIGN); value=optionValue(); if ( inputState.guessing==0 ) { behavior.setGrammarOption(idTok, value); } match(SEMI); } else { break _loop24; } } while (true); } match(RCURLY); } public final void lexerOptionsSpec() throws RecognitionException, TokenStreamException { Token idTok; Token value; BitSet b; match(OPTIONS); { _loop27: do { switch ( LA(1)) { case LITERAL_charVocabulary: { match(LITERAL_charVocabulary); match(ASSIGN); b=charSet(); match(SEMI); if ( inputState.guessing==0 ) { behavior.setCharVocabulary(b); } break; } case TOKEN_REF: case RULE_REF: { idTok=id(); match(ASSIGN); value=optionValue(); if ( inputState.guessing==0 ) { behavior.setGrammarOption(idTok, value); } match(SEMI); break; } default: { break _loop27; } } } while (true); } match(RCURLY); } public final BitSet charSet() throws RecognitionException, TokenStreamException { BitSet b ; b = null; BitSet tmpSet = null; b=setBlockElement(); { _loop34: do { if ((LA(1)==OR)) { match(OR); tmpSet=setBlockElement(); if ( inputState.guessing==0 ) { b.orInPlace(tmpSet); } } else { break _loop34; } } while (true); } return b ; } public final void subruleOptionsSpec() throws RecognitionException, TokenStreamException { Token idTok; Token value; match(OPTIONS); { _loop30: do { if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF)) { idTok=id(); match(ASSIGN); value=optionValue(); if ( inputState.guessing==0 ) { behavior.setSubruleOption(idTok, value); } match(SEMI); } else { break _loop30; } } while (true); } match(RCURLY); } /** Match a.b.c.d qualified ids; WILDCARD here is overloaded as * id separator; that is, I need a reference to the '.' token. */ public final Token qualifiedID() throws RecognitionException, TokenStreamException { Token qidTok=null; StringBuffer buf = new StringBuffer(30); Token a; a=id(); if ( inputState.guessing==0 ) { buf.append(a.getText()); } { _loop144: do { if ((LA(1)==WILDCARD)) { match(WILDCARD); a=id(); if ( inputState.guessing==0 ) { buf.append('.'); buf.append(a.getText()); } } else { break _loop144; } } while (true); } if ( inputState.guessing==0 ) { // can use either TOKEN_REF or RULE_REF; should // really create a QID or something instead. qidTok = new CommonToken(TOKEN_REF, buf.toString()); qidTok.setLine(a.getLine()); } return qidTok; } public final BitSet setBlockElement() throws RecognitionException, TokenStreamException { BitSet b ; Token c1 = null; Token c2 = null; b = null; int rangeMin = 0; c1 = LT(1); match(CHAR_LITERAL); if ( inputState.guessing==0 ) { rangeMin = ANTLRLexer.tokenTypeForCharLiteral(c1.getText()); b = BitSet.of(rangeMin); } { switch ( LA(1)) { case RANGE: { match(RANGE); c2 = LT(1); match(CHAR_LITERAL); if ( inputState.guessing==0 ) { int rangeMax = ANTLRLexer.tokenTypeForCharLiteral(c2.getText()); if (rangeMax < rangeMin) { antlrTool.error("Malformed range line ", getFilename(), c1.getLine(), c1.getColumn()); } for (int i = rangeMin+1; i <= rangeMax; i++) { b.add(i); } } break; } case SEMI: case OR: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } return b ; } public final void tokensSpec() throws RecognitionException, TokenStreamException { Token t1 = null; Token s1 = null; Token s3 = null; match(TOKENS); { int _cnt43=0; _loop43: do { if ((LA(1)==STRING_LITERAL||LA(1)==TOKEN_REF)) { { switch ( LA(1)) { case TOKEN_REF: { if ( inputState.guessing==0 ) { s1=null; } t1 = LT(1); match(TOKEN_REF); { switch ( LA(1)) { case ASSIGN: { match(ASSIGN); s1 = LT(1); match(STRING_LITERAL); break; } case SEMI: case OPEN_ELEMENT_OPTION: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.defineToken(t1, s1); } { switch ( LA(1)) { case OPEN_ELEMENT_OPTION: { tokensSpecOptions(t1); break; } case SEMI: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } break; } case STRING_LITERAL: { s3 = LT(1); match(STRING_LITERAL); if ( inputState.guessing==0 ) { behavior.defineToken(null, s3); } { switch ( LA(1)) { case OPEN_ELEMENT_OPTION: { tokensSpecOptions(s3); break; } case SEMI: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } match(SEMI); } else { if ( _cnt43>=1 ) { break _loop43; } else {throw new NoViableAltException(LT(1), getFilename());} } _cnt43++; } while (true); } match(RCURLY); } public final void tokensSpecOptions( Token t ) throws RecognitionException, TokenStreamException { Token o=null, v=null; match(OPEN_ELEMENT_OPTION); o=id(); match(ASSIGN); v=optionValue(); if ( inputState.guessing==0 ) { behavior.refTokensSpecElementOption(t,o,v); } { _loop46: do { if ((LA(1)==SEMI)) { match(SEMI); o=id(); match(ASSIGN); v=optionValue(); if ( inputState.guessing==0 ) { behavior.refTokensSpecElementOption(t,o,v); } } else { break _loop46; } } while (true); } match(CLOSE_ELEMENT_OPTION); } public final String superClass() throws RecognitionException, TokenStreamException { String sup; sup=null; match(LPAREN); if ( inputState.guessing==0 ) { sup = LT(1).getText(); sup = StringUtils.stripFrontBack(sup, "\"", "\""); } { match(STRING_LITERAL); } match(RPAREN); return sup; } public final void rule() throws RecognitionException, TokenStreamException { Token d = null; Token p1 = null; Token p2 = null; Token p3 = null; Token aa = null; Token rt = null; Token a = null; String access="public"; Token idTok; String doc=null; boolean ruleAutoGen = true; blockNesting = -1; // block increments, so -1 to make rule at level 0 { switch ( LA(1)) { case DOC_COMMENT: { d = LT(1); match(DOC_COMMENT); if ( inputState.guessing==0 ) { doc=d.getText(); } break; } case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case LITERAL_protected: { p1 = LT(1); match(LITERAL_protected); if ( inputState.guessing==0 ) { access=p1.getText(); } break; } case LITERAL_public: { p2 = LT(1); match(LITERAL_public); if ( inputState.guessing==0 ) { access=p2.getText(); } break; } case LITERAL_private: { p3 = LT(1); match(LITERAL_private); if ( inputState.guessing==0 ) { access=p3.getText(); } break; } case TOKEN_REF: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } idTok=id(); { switch ( LA(1)) { case BANG: { match(BANG); if ( inputState.guessing==0 ) { ruleAutoGen = false; } break; } case ACTION: case OPTIONS: case ARG_ACTION: case LITERAL_returns: case COLON: case LITERAL_throws: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.defineRuleName(idTok, access, ruleAutoGen, doc); } { switch ( LA(1)) { case ARG_ACTION: { aa = LT(1); match(ARG_ACTION); if ( inputState.guessing==0 ) { behavior.refArgAction(aa); } break; } case ACTION: case OPTIONS: case LITERAL_returns: case COLON: case LITERAL_throws: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case LITERAL_returns: { match(LITERAL_returns); rt = LT(1); match(ARG_ACTION); if ( inputState.guessing==0 ) { behavior.refReturnAction(rt); } break; } case ACTION: case OPTIONS: case COLON: case LITERAL_throws: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case LITERAL_throws: { throwsSpec(); break; } case ACTION: case OPTIONS: case COLON: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case OPTIONS: { ruleOptionsSpec(); break; } case ACTION: case COLON: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case ACTION: { a = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refInitAction(a); } break; } case COLON: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } match(COLON); block(); match(SEMI); { switch ( LA(1)) { case LITERAL_exception: { exceptionGroup(); break; } case EOF: case ACTION: case DOC_COMMENT: case LITERAL_lexclass: case LITERAL_class: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.endRule(idTok.getText()); } } public final void throwsSpec() throws RecognitionException, TokenStreamException { String t=null; Token a,b; match(LITERAL_throws); a=id(); if ( inputState.guessing==0 ) { t=a.getText(); } { _loop84: do { if ((LA(1)==COMMA)) { match(COMMA); b=id(); if ( inputState.guessing==0 ) { t+=","+b.getText(); } } else { break _loop84; } } while (true); } if ( inputState.guessing==0 ) { behavior.setUserExceptions(t); } } public final void ruleOptionsSpec() throws RecognitionException, TokenStreamException { Token idTok; Token value; match(OPTIONS); { _loop81: do { if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF)) { idTok=id(); match(ASSIGN); value=optionValue(); if ( inputState.guessing==0 ) { behavior.setRuleOption(idTok, value); } match(SEMI); } else { break _loop81; } } while (true); } match(RCURLY); } public final void block() throws RecognitionException, TokenStreamException { if ( inputState.guessing==0 ) { blockNesting++; } alternative(); { _loop87: do { if ((LA(1)==OR)) { match(OR); alternative(); } else { break _loop87; } } while (true); } if ( inputState.guessing==0 ) { blockNesting--; } } public final void exceptionGroup() throws RecognitionException, TokenStreamException { if ( inputState.guessing==0 ) { behavior.beginExceptionGroup(); } { int _cnt95=0; _loop95: do { if ((LA(1)==LITERAL_exception)) { exceptionSpec(); } else { if ( _cnt95>=1 ) { break _loop95; } else {throw new NoViableAltException(LT(1), getFilename());} } _cnt95++; } while (true); } if ( inputState.guessing==0 ) { behavior.endExceptionGroup(); } } public final void alternative() throws RecognitionException, TokenStreamException { boolean altAutoGen = true; { switch ( LA(1)) { case BANG: { match(BANG); if ( inputState.guessing==0 ) { altAutoGen=false; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.beginAlt(altAutoGen); } { _loop91: do { if ((_tokenSet_2.member(LA(1)))) { element(); } else { break _loop91; } } while (true); } { switch ( LA(1)) { case LITERAL_exception: { exceptionSpecNoLabel(); break; } case SEMI: case OR: case RPAREN: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.endAlt(); } } public final void element() throws RecognitionException, TokenStreamException { elementNoOptionSpec(); { switch ( LA(1)) { case OPEN_ELEMENT_OPTION: { elementOptionSpec(); break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } } public final void exceptionSpecNoLabel() throws RecognitionException, TokenStreamException { match(LITERAL_exception); if ( inputState.guessing==0 ) { behavior.beginExceptionSpec(null); } { _loop102: do { if ((LA(1)==LITERAL_catch)) { exceptionHandler(); } else { break _loop102; } } while (true); } if ( inputState.guessing==0 ) { behavior.endExceptionSpec(); } } public final void exceptionSpec() throws RecognitionException, TokenStreamException { Token aa = null; Token labelAction = null; match(LITERAL_exception); { switch ( LA(1)) { case ARG_ACTION: { aa = LT(1); match(ARG_ACTION); if ( inputState.guessing==0 ) { labelAction = aa; } break; } case EOF: case ACTION: case DOC_COMMENT: case LITERAL_lexclass: case LITERAL_class: case TOKEN_REF: case LITERAL_protected: case LITERAL_public: case LITERAL_private: case LITERAL_exception: case LITERAL_catch: case RULE_REF: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.beginExceptionSpec(labelAction); } { _loop99: do { if ((LA(1)==LITERAL_catch)) { exceptionHandler(); } else { break _loop99; } } while (true); } if ( inputState.guessing==0 ) { behavior.endExceptionSpec(); } } public final void exceptionHandler() throws RecognitionException, TokenStreamException { Token a1 = null; Token a2 = null; Token exType; Token exName; match(LITERAL_catch); a1 = LT(1); match(ARG_ACTION); a2 = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refExceptionHandler(a1, a2); } } public final void elementNoOptionSpec() throws RecognitionException, TokenStreamException { Token rr = null; Token aa = null; Token tr = null; Token aa2 = null; Token r2 = null; Token aa3 = null; Token a = null; Token p = null; Token label = null; Token assignId = null; Token args = null; int autoGen = GrammarElement.AUTO_GEN_NONE; switch ( LA(1)) { case ACTION: { a = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refAction(a); } break; } case SEMPRED: { p = LT(1); match(SEMPRED); if ( inputState.guessing==0 ) { behavior.refSemPred(p); } break; } case TREE_BEGIN: { tree(); break; } default: if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF) && (LA(2)==ASSIGN)) { assignId=id(); match(ASSIGN); { if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF) && (LA(2)==COLON)) { label=id(); match(COLON); if ( inputState.guessing==0 ) { checkForMissingEndRule(label); } } else if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF) && (_tokenSet_3.member(LA(2)))) { } else { throw new NoViableAltException(LT(1), getFilename()); } } { switch ( LA(1)) { case RULE_REF: { rr = LT(1); match(RULE_REF); { switch ( LA(1)) { case ARG_ACTION: { aa = LT(1); match(ARG_ACTION); if ( inputState.guessing==0 ) { args=aa; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case BANG: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case BANG: { match(BANG); if ( inputState.guessing==0 ) { autoGen = GrammarElement.AUTO_GEN_BANG; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.refRule(assignId, rr, label, args, autoGen); } break; } case TOKEN_REF: { tr = LT(1); match(TOKEN_REF); { switch ( LA(1)) { case ARG_ACTION: { aa2 = LT(1); match(ARG_ACTION); if ( inputState.guessing==0 ) { args=aa2; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.refToken(assignId, tr, label, args, false, autoGen, lastInRule()); } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } } else if ((_tokenSet_4.member(LA(1))) && (_tokenSet_5.member(LA(2)))) { { if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF) && (LA(2)==COLON)) { label=id(); match(COLON); if ( inputState.guessing==0 ) { checkForMissingEndRule(label); } } else if ((_tokenSet_4.member(LA(1))) && (_tokenSet_6.member(LA(2)))) { } else { throw new NoViableAltException(LT(1), getFilename()); } } { switch ( LA(1)) { case RULE_REF: { r2 = LT(1); match(RULE_REF); { switch ( LA(1)) { case ARG_ACTION: { aa3 = LT(1); match(ARG_ACTION); if ( inputState.guessing==0 ) { args=aa3; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case BANG: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case BANG: { match(BANG); if ( inputState.guessing==0 ) { autoGen = GrammarElement.AUTO_GEN_BANG; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.refRule(assignId, r2, label, args, autoGen); } break; } case NOT_OP: { match(NOT_OP); { switch ( LA(1)) { case CHAR_LITERAL: case TOKEN_REF: { notTerminal(label); break; } case LPAREN: { ebnf(label,true); break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } break; } case LPAREN: { ebnf(label,false); break; } default: if ((LA(1)==STRING_LITERAL||LA(1)==CHAR_LITERAL||LA(1)==TOKEN_REF) && (LA(2)==RANGE)) { range(label); } else if ((_tokenSet_7.member(LA(1))) && (_tokenSet_8.member(LA(2)))) { terminal(label); } else { throw new NoViableAltException(LT(1), getFilename()); } } } } else { throw new NoViableAltException(LT(1), getFilename()); } } } public final void elementOptionSpec() throws RecognitionException, TokenStreamException { Token o=null, v=null; match(OPEN_ELEMENT_OPTION); o=id(); match(ASSIGN); v=optionValue(); if ( inputState.guessing==0 ) { behavior.refElementOption(o,v); } { _loop108: do { if ((LA(1)==SEMI)) { match(SEMI); o=id(); match(ASSIGN); v=optionValue(); if ( inputState.guessing==0 ) { behavior.refElementOption(o,v); } } else { break _loop108; } } while (true); } match(CLOSE_ELEMENT_OPTION); } public final void range( Token label ) throws RecognitionException, TokenStreamException { Token crLeft = null; Token crRight = null; Token t = null; Token u = null; Token v = null; Token w = null; Token trLeft=null; Token trRight=null; int autoGen=GrammarElement.AUTO_GEN_NONE; switch ( LA(1)) { case CHAR_LITERAL: { crLeft = LT(1); match(CHAR_LITERAL); match(RANGE); crRight = LT(1); match(CHAR_LITERAL); { switch ( LA(1)) { case BANG: { match(BANG); if ( inputState.guessing==0 ) { autoGen = GrammarElement.AUTO_GEN_BANG; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.refCharRange(crLeft, crRight, label, autoGen, lastInRule()); } break; } case STRING_LITERAL: case TOKEN_REF: { { switch ( LA(1)) { case TOKEN_REF: { t = LT(1); match(TOKEN_REF); if ( inputState.guessing==0 ) { trLeft=t; } break; } case STRING_LITERAL: { u = LT(1); match(STRING_LITERAL); if ( inputState.guessing==0 ) { trLeft=u; } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } match(RANGE); { switch ( LA(1)) { case TOKEN_REF: { v = LT(1); match(TOKEN_REF); if ( inputState.guessing==0 ) { trRight=v; } break; } case STRING_LITERAL: { w = LT(1); match(STRING_LITERAL); if ( inputState.guessing==0 ) { trRight=w; } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } autoGen=ast_type_spec(); if ( inputState.guessing==0 ) { behavior.refTokenRange(trLeft, trRight, label, autoGen, lastInRule()); } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } public final void terminal( Token label ) throws RecognitionException, TokenStreamException { Token cl = null; Token tr = null; Token aa = null; Token sl = null; Token wi = null; int autoGen=GrammarElement.AUTO_GEN_NONE; Token args=null; switch ( LA(1)) { case CHAR_LITERAL: { cl = LT(1); match(CHAR_LITERAL); { switch ( LA(1)) { case BANG: { match(BANG); if ( inputState.guessing==0 ) { autoGen = GrammarElement.AUTO_GEN_BANG; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.refCharLiteral(cl, label, false, autoGen, lastInRule()); } break; } case TOKEN_REF: { tr = LT(1); match(TOKEN_REF); autoGen=ast_type_spec(); { switch ( LA(1)) { case ARG_ACTION: { aa = LT(1); match(ARG_ACTION); if ( inputState.guessing==0 ) { args=aa; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.refToken(null, tr, label, args, false, autoGen, lastInRule()); } break; } case STRING_LITERAL: { sl = LT(1); match(STRING_LITERAL); autoGen=ast_type_spec(); if ( inputState.guessing==0 ) { behavior.refStringLiteral(sl, label, autoGen, lastInRule()); } break; } case WILDCARD: { wi = LT(1); match(WILDCARD); autoGen=ast_type_spec(); if ( inputState.guessing==0 ) { behavior.refWildcard(wi, label, autoGen); } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } public final void notTerminal( Token label ) throws RecognitionException, TokenStreamException { Token cl = null; Token tr = null; int autoGen=GrammarElement.AUTO_GEN_NONE; switch ( LA(1)) { case CHAR_LITERAL: { cl = LT(1); match(CHAR_LITERAL); { switch ( LA(1)) { case BANG: { match(BANG); if ( inputState.guessing==0 ) { autoGen = GrammarElement.AUTO_GEN_BANG; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.refCharLiteral(cl, label, true, autoGen, lastInRule()); } break; } case TOKEN_REF: { tr = LT(1); match(TOKEN_REF); autoGen=ast_type_spec(); if ( inputState.guessing==0 ) { behavior.refToken(null, tr, label, null, true, autoGen, lastInRule()); } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } public final void ebnf( Token label, boolean not ) throws RecognitionException, TokenStreamException { Token lp = null; Token aa = null; Token ab = null; lp = LT(1); match(LPAREN); if ( inputState.guessing==0 ) { behavior.beginSubRule(label, lp, not); } { if ((LA(1)==OPTIONS)) { subruleOptionsSpec(); { switch ( LA(1)) { case ACTION: { aa = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refInitAction(aa); } break; } case COLON: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } match(COLON); } else if ((LA(1)==ACTION) && (LA(2)==COLON)) { ab = LT(1); match(ACTION); if ( inputState.guessing==0 ) { behavior.refInitAction(ab); } match(COLON); } else if ((_tokenSet_9.member(LA(1))) && (_tokenSet_10.member(LA(2)))) { } else { throw new NoViableAltException(LT(1), getFilename()); } } block(); match(RPAREN); { switch ( LA(1)) { case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case BANG: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case QUESTION: case STAR: case PLUS: case WILDCARD: { { switch ( LA(1)) { case QUESTION: { match(QUESTION); if ( inputState.guessing==0 ) { behavior.optionalSubRule(); } break; } case STAR: { match(STAR); if ( inputState.guessing==0 ) { behavior.zeroOrMoreSubRule(); } break; } case PLUS: { match(PLUS); if ( inputState.guessing==0 ) { behavior.oneOrMoreSubRule(); } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case BANG: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } { switch ( LA(1)) { case BANG: { match(BANG); if ( inputState.guessing==0 ) { behavior.noASTSubRule(); } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } break; } case IMPLIES: { match(IMPLIES); if ( inputState.guessing==0 ) { behavior.synPred(); } break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } if ( inputState.guessing==0 ) { behavior.endSubRule(); } } public final void tree() throws RecognitionException, TokenStreamException { Token lp = null; lp = LT(1); match(TREE_BEGIN); if ( inputState.guessing==0 ) { behavior.beginTree(lp); } rootNode(); if ( inputState.guessing==0 ) { behavior.beginChildList(); } { int _cnt122=0; _loop122: do { if ((_tokenSet_2.member(LA(1)))) { element(); } else { if ( _cnt122>=1 ) { break _loop122; } else {throw new NoViableAltException(LT(1), getFilename());} } _cnt122++; } while (true); } if ( inputState.guessing==0 ) { behavior.endChildList(); } match(RPAREN); if ( inputState.guessing==0 ) { behavior.endTree(); } } public final void rootNode() throws RecognitionException, TokenStreamException { Token label = null; { if ((LA(1)==TOKEN_REF||LA(1)==RULE_REF) && (LA(2)==COLON)) { label=id(); match(COLON); if ( inputState.guessing==0 ) { checkForMissingEndRule(label); } } else if ((_tokenSet_7.member(LA(1))) && (_tokenSet_11.member(LA(2)))) { } else { throw new NoViableAltException(LT(1), getFilename()); } } terminal(label); } public final int ast_type_spec() throws RecognitionException, TokenStreamException { int autoGen ; autoGen = GrammarElement.AUTO_GEN_NONE; { switch ( LA(1)) { case CARET: { match(CARET); if ( inputState.guessing==0 ) { autoGen = GrammarElement.AUTO_GEN_CARET; } break; } case BANG: { match(BANG); if ( inputState.guessing==0 ) { autoGen = GrammarElement.AUTO_GEN_BANG; } break; } case STRING_LITERAL: case ACTION: case SEMI: case CHAR_LITERAL: case OR: case TOKEN_REF: case OPEN_ELEMENT_OPTION: case LPAREN: case RPAREN: case ARG_ACTION: case LITERAL_exception: case RULE_REF: case NOT_OP: case SEMPRED: case TREE_BEGIN: case WILDCARD: { break; } default: { throw new NoViableAltException(LT(1), getFilename()); } } } return autoGen ; } public static final String[] _tokenNames = { "<0>", "EOF", "<2>", "NULL_TREE_LOOKAHEAD", "\"tokens\"", "\"header\"", "STRING_LITERAL", "ACTION", "DOC_COMMENT", "\"lexclass\"", "\"class\"", "\"extends\"", "\"Lexer\"", "\"TreeParser\"", "OPTIONS", "ASSIGN", "SEMI", "RCURLY", "\"charVocabulary\"", "CHAR_LITERAL", "INT", "OR", "RANGE", "TOKENS", "TOKEN_REF", "OPEN_ELEMENT_OPTION", "CLOSE_ELEMENT_OPTION", "LPAREN", "RPAREN", "\"Parser\"", "\"protected\"", "\"public\"", "\"private\"", "BANG", "ARG_ACTION", "\"returns\"", "COLON", "\"throws\"", "COMMA", "\"exception\"", "\"catch\"", "RULE_REF", "NOT_OP", "SEMPRED", "TREE_BEGIN", "QUESTION", "STAR", "PLUS", "IMPLIES", "CARET", "WILDCARD", "\"options\"", "WS", "COMMENT", "SL_COMMENT", "ML_COMMENT", "ESC", "DIGIT", "XDIGIT", "NESTED_ARG_ACTION", "NESTED_ACTION", "WS_LOOP", "INTERNAL_RULE_REF", "WS_OPT" }; private static final long[] mk_tokenSet_0() { long[] data = { 2206556225792L, 0L}; return data; } public static final BitSet _tokenSet_0 = new BitSet(mk_tokenSet_0()); private static final long[] mk_tokenSet_1() { long[] data = { 2472844214400L, 0L}; return data; } public static final BitSet _tokenSet_1 = new BitSet(mk_tokenSet_1()); private static final long[] mk_tokenSet_2() { long[] data = { 1158885407195328L, 0L}; return data; } public static final BitSet _tokenSet_2 = new BitSet(mk_tokenSet_2()); private static final long[] mk_tokenSet_3() { long[] data = { 1159461236965568L, 0L}; return data; } public static final BitSet _tokenSet_3 = new BitSet(mk_tokenSet_3()); private static final long[] mk_tokenSet_4() { long[] data = { 1132497128128576L, 0L}; return data; } public static final BitSet _tokenSet_4 = new BitSet(mk_tokenSet_4()); private static final long[] mk_tokenSet_5() { long[] data = { 1722479914074304L, 0L}; return data; } public static final BitSet _tokenSet_5 = new BitSet(mk_tokenSet_5()); private static final long[] mk_tokenSet_6() { long[] data = { 1722411194597568L, 0L}; return data; } public static final BitSet _tokenSet_6 = new BitSet(mk_tokenSet_6()); private static final long[] mk_tokenSet_7() { long[] data = { 1125899924144192L, 0L}; return data; } public static final BitSet _tokenSet_7 = new BitSet(mk_tokenSet_7()); private static final long[] mk_tokenSet_8() { long[] data = { 1722411190386880L, 0L}; return data; } public static final BitSet _tokenSet_8 = new BitSet(mk_tokenSet_8()); private static final long[] mk_tokenSet_9() { long[] data = { 1159444023476416L, 0L}; return data; } public static final BitSet _tokenSet_9 = new BitSet(mk_tokenSet_9()); private static final long[] mk_tokenSet_10() { long[] data = { 2251345007067328L, 0L}; return data; } public static final BitSet _tokenSet_10 = new BitSet(mk_tokenSet_10()); private static final long[] mk_tokenSet_11() { long[] data = { 1721861130420416L, 0L}; return data; } public static final BitSet _tokenSet_11 = new BitSet(mk_tokenSet_11()); }