Split (3)

train · 12.9k rows

text stringlengths 30 1.67M
<s> package org . codehaus . groovy . antlr ; import java . io . Reader ; class NoEscaper extends UnicodeEscapingReader { public NoEscaper ( ) { super ( null , null ) ; } public int getUnescapedUnicodeColumnCount ( ) { return <NUM_LIT:0> ; } public int getUnescapedUnicodeOffsetCount ( ) { return <NUM_LIT:0> ; } } </s>
<s> package org . codehaus . groovy . antlr ; import java . io . Reader ; import java . util . Collections ; import java . util . List ; import java . util . Map ; import org . codehaus . groovy . control . CompilationFailedException ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . antlr . parser . GroovyLexer ; import org . codehaus . groovy . antlr . parser . GroovyRecognizer ; import org . codehaus . groovy . syntax . SyntaxException ; import antlr . RecognitionException ; import antlr . TokenStreamException ; import antlr . TokenStreamIOException ; import antlr . TokenStreamRecognitionException ; public class ErrorRecoveredCSTParserPlugin extends AntlrParserPlugin { private final ICSTReporter reporter ; ErrorRecoveredCSTParserPlugin ( ICSTReporter reporter ) { this . reporter = reporter ; } @ Override public void transformCSTIntoAST ( final SourceUnit sourceUnit , Reader reader , SourceBuffer sourceBuffer ) throws CompilationFailedException { super . ast = null ; setController ( sourceUnit ) ; UnicodeEscapingReader unicodeReader = new UnicodeEscapingReader ( reader , sourceBuffer ) ; GroovyLexer lexer = new GroovyLexer ( new UnicodeLexerSharedInputState ( unicodeReader ) ) ; unicodeReader . setLexer ( lexer ) ; GroovyRecognizer parser = GroovyRecognizer . make ( lexer ) ; parser . setSourceBuffer ( sourceBuffer ) ; super . tokenNames = parser . getTokenNames ( ) ; parser . setFilename ( sourceUnit . getName ( ) ) ; try { parser . compilationUnit ( ) ; configureLocationSupport ( sourceBuffer ) ; } catch ( TokenStreamRecognitionException tsre ) { configureLocationSupport ( sourceBuffer ) ; RecognitionException e = tsre . recog ; SyntaxException se = new SyntaxException ( e . getMessage ( ) , e , e . getLine ( ) , e . getColumn ( ) ) ; se . setFatal ( true ) ; sourceUnit . addError ( se ) ; } catch ( RecognitionException e ) { configureLocationSupport ( sourceBuffer ) ; int origLine = e . getLine ( ) ; int origColumn = e . getColumn ( ) ; int [ ] newInts = fixLineColumn ( origLine , origColumn ) ; int newLine = newInts [ <NUM_LIT:0> ] ; int newColumn = newInts [ <NUM_LIT:1> ] ; SyntaxException se = new SyntaxException ( e . getMessage ( ) , e , newLine , newColumn ) ; se . setFatal ( true ) ; sourceUnit . addError ( se ) ; } catch ( TokenStreamException e ) { configureLocationSupport ( sourceBuffer ) ; boolean handled = false ; if ( e instanceof TokenStreamIOException ) { TokenStreamIOException tsioe = ( TokenStreamIOException ) e ; String m = e . getMessage ( ) ; if ( m != null && m . startsWith ( "<STR_LIT>" ) ) { try { int linepos = m . indexOf ( "<STR_LIT>" ) ; int colpos = m . indexOf ( "<STR_LIT>" ) ; int line = Integer . valueOf ( m . substring ( linepos + <NUM_LIT:5> , colpos ) . trim ( ) ) ; int col = Integer . valueOf ( m . substring ( colpos + <NUM_LIT:4> ) . trim ( ) ) ; SyntaxException se = new SyntaxException ( e . getMessage ( ) , e , line , col ) ; se . setFatal ( true ) ; sourceUnit . addError ( se ) ; handled = true ; } catch ( Throwable t ) { System . err . println ( m ) ; t . printStackTrace ( System . err ) ; } } } if ( ! handled ) { sourceUnit . addException ( e ) ; } } super . ast = parser . getAST ( ) ; sourceUnit . setComments ( parser . getComments ( ) ) ; reportCST ( sourceUnit , parser ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) private void reportCST ( final SourceUnit sourceUnit , final GroovyRecognizer parser ) { final List errorList = parser . getErrorList ( ) ; final GroovySourceAST cst = ( GroovySourceAST ) parser . getAST ( ) ; if ( reporter != null ) { if ( cst != null ) reporter . generatedCST ( sourceUnit . getName ( ) , cst ) ; if ( errorList . size ( ) != <NUM_LIT:0> ) reporter . reportErrors ( sourceUnit . getName ( ) , Collections . unmodifiableList ( errorList ) ) ; } else { for ( Map < String , Object > error : ( List < Map < String , Object > > ) errorList ) { int origLine = ( ( Integer ) error . get ( "<STR_LIT>" ) ) . intValue ( ) ; int origColumn = ( ( Integer ) error . get ( "<STR_LIT>" ) ) . intValue ( ) ; int [ ] newInts = fixLineColumn ( origLine , origColumn ) ; int newLine = newInts [ <NUM_LIT:0> ] ; int newColumn = newInts [ <NUM_LIT:1> ] ; SyntaxException se = new SyntaxException ( ( String ) error . get ( "<STR_LIT:error>" ) , newLine , newColumn ) ; sourceUnit . addError ( se ) ; } } } private int [ ] fixLineColumn ( int origLine , int origColumn ) { if ( locations . isPopulated ( ) ) { int offset = locations . findOffset ( origLine , origColumn ) ; if ( offset >= locations . getEnd ( ) - <NUM_LIT:1> ) { return locations . getRowCol ( locations . getEnd ( ) - <NUM_LIT:1> ) ; } } return new int [ ] { origLine , origColumn } ; } } </s>
<s> package org . codehaus . groovy . antlr ; import java . io . Reader ; import org . codehaus . groovy . control . CompilationFailedException ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . syntax . Reduction ; public class CSTParserPlugin extends AntlrParserPlugin { private ICSTReporter cstReporter ; CSTParserPlugin ( ICSTReporter cstReporter ) { this . cstReporter = cstReporter ; } public Reduction parseCST ( final SourceUnit sourceUnit , Reader reader ) throws CompilationFailedException { Reduction reduction = super . parseCST ( sourceUnit , reader ) ; GroovySourceAST cst = ( GroovySourceAST ) super . ast ; if ( cst != null ) { cstReporter . generatedCST ( sourceUnit . getName ( ) , cst ) ; } return reduction ; } } </s>
<s> package org . codehaus . groovy . antlr . parser ; import org . codehaus . groovy . antlr . * ; import java . util . * ; import java . io . InputStream ; import java . io . Reader ; import antlr . InputBuffer ; import antlr . LexerSharedInputState ; import antlr . CommonToken ; import org . codehaus . groovy . GroovyBugError ; import antlr . TokenStreamRecognitionException ; import org . codehaus . groovy . ast . Comment ; import antlr . TokenBuffer ; import antlr . TokenStreamException ; import antlr . TokenStreamIOException ; import antlr . ANTLRException ; import antlr . LLkParser ; import antlr . Token ; import antlr . TokenStream ; import antlr . RecognitionException ; import antlr . NoViableAltException ; import antlr . MismatchedTokenException ; import antlr . SemanticException ; import antlr . ParserSharedInputState ; import antlr . collections . impl . BitSet ; import antlr . collections . AST ; import java . util . Hashtable ; import antlr . ASTFactory ; import antlr . ASTPair ; import antlr . collections . impl . ASTArray ; public class GroovyRecognizer extends antlr . LLkParser implements GroovyTokenTypes { public static GroovyRecognizer make ( GroovyLexer lexer ) { GroovyRecognizer parser = new GroovyRecognizer ( lexer . plumb ( ) ) ; parser . lexer = lexer ; lexer . parser = parser ; parser . getASTFactory ( ) . setASTNodeClass ( GroovySourceAST . class ) ; parser . warningList = new ArrayList ( ) ; parser . errorList = new ArrayList ( ) ; return parser ; } public static GroovyRecognizer make ( InputStream in ) { return make ( new GroovyLexer ( in ) ) ; } public static GroovyRecognizer make ( Reader in ) { return make ( new GroovyLexer ( in ) ) ; } public static GroovyRecognizer make ( InputBuffer in ) { return make ( new GroovyLexer ( in ) ) ; } public static GroovyRecognizer make ( LexerSharedInputState in ) { return make ( new GroovyLexer ( in ) ) ; } private static GroovySourceAST dummyVariableToforceClassLoaderToFindASTClass = new GroovySourceAST ( ) ; List warningList ; public List getWarningList ( ) { return warningList ; } List errorList ; public List getErrorList ( ) { return errorList ; } List < Comment > comments = new ArrayList < Comment > ( ) ; public List < Comment > getComments ( ) { return comments ; } GroovyLexer lexer ; public GroovyLexer getLexer ( ) { return lexer ; } public void setFilename ( String f ) { super . setFilename ( f ) ; lexer . setFilename ( f ) ; } private SourceBuffer sourceBuffer ; public void setSourceBuffer ( SourceBuffer sourceBuffer ) { this . sourceBuffer = sourceBuffer ; } public AST create ( int type , String txt , AST first ) { AST t = astFactory . create ( type , txt ) ; if ( t != null && first != null ) { t . initialize ( first ) ; t . initialize ( type , txt ) ; } return t ; } public AST create2 ( int type , String txt , Token first , Token last ) { return setEndLocationBasedOnThisNode ( create ( type , txt , astFactory . create ( first ) ) , last ) ; } private AST setEndLocationBasedOnThisNode ( AST ast , Object node ) { if ( ( ast instanceof GroovySourceAST ) && ( node instanceof SourceInfo ) ) { SourceInfo lastInfo = ( SourceInfo ) node ; GroovySourceAST groovySourceAst = ( GroovySourceAST ) ast ; groovySourceAst . setColumnLast ( lastInfo . getColumnLast ( ) ) ; groovySourceAst . setLineLast ( lastInfo . getLineLast ( ) ) ; } return ast ; } private AST attachLast ( AST t , Object last ) { if ( ( t instanceof GroovySourceAST ) && ( last instanceof SourceInfo ) ) { SourceInfo lastInfo = ( SourceInfo ) last ; GroovySourceAST node = ( GroovySourceAST ) t ; node . setColumnLast ( lastInfo . getColumn ( ) ) ; node . setLineLast ( lastInfo . getLine ( ) ) ; } return t ; } public AST create ( int type , String txt , Token first , Token last ) { return attachLast ( create ( type , txt , astFactory . create ( first ) ) , last ) ; } public AST create ( int type , String txt , AST first , Token last ) { return attachLast ( create ( type , txt , first ) , last ) ; } public AST create ( int type , String txt , AST first , AST last ) { return attachLast ( create ( type , txt , first ) , last ) ; } private Stack < Integer > commentStartPositions = new Stack < Integer > ( ) ; public void startComment ( int line , int column ) { commentStartPositions . push ( ( line << <NUM_LIT:16> ) + column ) ; } public void endComment ( int type , int line , int column , String text ) { int lineAndColumn = commentStartPositions . pop ( ) ; int startLine = lineAndColumn > > > <NUM_LIT:16> ; int startColumn = lineAndColumn & <NUM_LIT> ; if ( type == <NUM_LIT:0> ) { Comment comment = Comment . makeSingleLineComment ( startLine , startColumn , line , column , text ) ; comments . add ( comment ) ; } else if ( type == <NUM_LIT:1> ) { Comment comment = Comment . makeMultiLineComment ( startLine , startColumn , line , column , text ) ; comments . add ( comment ) ; } } public Token cloneToken ( Token t ) { CommonToken clone = new CommonToken ( t . getType ( ) , t . getText ( ) ) ; clone . setLine ( t . getLine ( ) ) ; clone . setColumn ( t . getColumn ( ) ) ; return clone ; } public static boolean tracing = false ; public void traceIn ( String rname ) throws TokenStreamException { if ( ! GroovyRecognizer . tracing ) return ; super . traceIn ( rname ) ; } public void traceOut ( String rname ) throws TokenStreamException { if ( ! GroovyRecognizer . tracing ) return ; if ( returnAST != null ) rname += returnAST . toStringList ( ) ; super . traceOut ( rname ) ; } public void requireFailed ( String problem , String solution ) throws SemanticException { Token lt = null ; int lineNum = Token . badToken . getLine ( ) , colNum = Token . badToken . getColumn ( ) ; try { lt = LT ( <NUM_LIT:1> ) ; if ( lt != null ) { lineNum = lt . getLine ( ) ; colNum = lt . getColumn ( ) ; } } catch ( TokenStreamException ee ) { if ( ee instanceof TokenStreamRecognitionException ) { lineNum = ( ( TokenStreamRecognitionException ) ee ) . recog . getLine ( ) ; colNum = ( ( TokenStreamRecognitionException ) ee ) . recog . getColumn ( ) ; } } throw new SemanticException ( problem + "<STR_LIT>" + solution , getFilename ( ) , lineNum , colNum ) ; } public void addWarning ( String warning , String solution ) { Token lt = null ; try { lt = LT ( <NUM_LIT:1> ) ; } catch ( TokenStreamException ee ) { } if ( lt == null ) lt = Token . badToken ; Map row = new HashMap ( ) ; row . put ( "<STR_LIT>" , warning ) ; row . put ( "<STR_LIT>" , solution ) ; row . put ( "<STR_LIT>" , getFilename ( ) ) ; row . put ( "<STR_LIT>" , Integer . valueOf ( lt . getLine ( ) ) ) ; row . put ( "<STR_LIT>" , Integer . valueOf ( lt . getColumn ( ) ) ) ; warningList . add ( row ) ; } public void reportError ( String message ) { Token lt = null ; try { lt = LT ( <NUM_LIT:1> ) ; } catch ( TokenStreamException ee ) { } if ( lt == null ) lt = Token . badToken ; Map row = new HashMap ( ) ; row . put ( "<STR_LIT:error>" , message ) ; row . put ( "<STR_LIT>" , getFilename ( ) ) ; row . put ( "<STR_LIT>" , new Integer ( lt . getLine ( ) ) ) ; row . put ( "<STR_LIT>" , new Integer ( lt . getColumn ( ) ) ) ; errorList . add ( row ) ; } public void reportError ( String message , Token lt ) { Map row = new HashMap ( ) ; row . put ( "<STR_LIT:error>" , message ) ; row . put ( "<STR_LIT>" , getFilename ( ) ) ; row . put ( "<STR_LIT>" , new Integer ( lt . getLine ( ) ) ) ; row . put ( "<STR_LIT>" , new Integer ( lt . getColumn ( ) ) ) ; errorList . add ( row ) ; } public void reportError ( String message , AST lt ) { Map row = new HashMap ( ) ; row . put ( "<STR_LIT:error>" , message ) ; row . put ( "<STR_LIT>" , getFilename ( ) ) ; row . put ( "<STR_LIT>" , new Integer ( lt . getLine ( ) ) ) ; row . put ( "<STR_LIT>" , new Integer ( lt . getColumn ( ) ) ) ; errorList . add ( row ) ; } public void reportError ( RecognitionException e ) { Token lt = null ; try { lt = LT ( <NUM_LIT:1> ) ; } catch ( TokenStreamException ee ) { } if ( lt == null ) lt = Token . badToken ; Map row = new HashMap ( ) ; row . put ( "<STR_LIT:error>" , e . getMessage ( ) ) ; row . put ( "<STR_LIT>" , getFilename ( ) ) ; row . put ( "<STR_LIT>" , new Integer ( lt . getLine ( ) ) ) ; row . put ( "<STR_LIT>" , new Integer ( lt . getColumn ( ) ) ) ; errorList . add ( row ) ; } private void require ( boolean z , String problem , String solution ) throws SemanticException { if ( ! z ) requireFailed ( problem , solution ) ; } private boolean matchGenericTypeBrackets ( boolean z , String problem , String solution ) throws SemanticException { if ( ! z ) matchGenericTypeBracketsFailed ( problem , solution ) ; return z ; } public void matchGenericTypeBracketsFailed ( String problem , String solution ) throws SemanticException { Token lt = null ; int lineNum = Token . badToken . getLine ( ) , colNum = Token . badToken . getColumn ( ) ; try { lt = LT ( <NUM_LIT:1> ) ; if ( lt != null ) { lineNum = lt . getLine ( ) ; colNum = lt . getColumn ( ) ; } } catch ( TokenStreamException ee ) { if ( ee instanceof TokenStreamRecognitionException ) { lineNum = ( ( TokenStreamRecognitionException ) ee ) . recog . getLine ( ) ; colNum = ( ( TokenStreamRecognitionException ) ee ) . recog . getColumn ( ) ; } } throw new SemanticException ( problem + "<STR_LIT>" + solution , getFilename ( ) , lineNum , colNum ) ; } private boolean isUpperCase ( Token x ) { if ( x == null \|\| x . getType ( ) != IDENT ) return false ; String xtext = x . getText ( ) ; return ( xtext . length ( ) > <NUM_LIT:0> && Character . isUpperCase ( xtext . charAt ( <NUM_LIT:0> ) ) ) ; } private AST currentClass = null ; private boolean isConstructorIdent ( Token x ) { if ( currentClass == null ) return false ; if ( currentClass . getType ( ) != IDENT ) return false ; String cname = currentClass . getText ( ) ; if ( x == null \|\| x . getType ( ) != IDENT ) return false ; return cname . equals ( x . getText ( ) ) ; } private int sepToken = EOF ; private boolean argListHasLabels = false ; private AST lastPathExpression = null ; private final int LC_STMT = <NUM_LIT:1> , LC_INIT = <NUM_LIT:2> ; private int ltCounter = <NUM_LIT:0> ; private static final boolean ANTLR_LOOP_EXIT = false ; protected GroovyRecognizer ( TokenBuffer tokenBuf , int k ) { super ( tokenBuf , k ) ; tokenNames = _tokenNames ; buildTokenTypeASTClassMap ( ) ; astFactory = new ASTFactory ( getTokenTypeToASTClassMap ( ) ) ; } public GroovyRecognizer ( TokenBuffer tokenBuf ) { this ( tokenBuf , <NUM_LIT:2> ) ; } protected GroovyRecognizer ( TokenStream lexer , int k ) { super ( lexer , k ) ; tokenNames = _tokenNames ; buildTokenTypeASTClassMap ( ) ; astFactory = new ASTFactory ( getTokenTypeToASTClassMap ( ) ) ; } public GroovyRecognizer ( TokenStream lexer ) { this ( lexer , <NUM_LIT:2> ) ; } public GroovyRecognizer ( ParserSharedInputState state ) { super ( state , <NUM_LIT:2> ) ; tokenNames = _tokenNames ; buildTokenTypeASTClassMap ( ) ; astFactory = new ASTFactory ( getTokenTypeToASTClassMap ( ) ) ; } public final void compilationUnit ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST compilationUnit_AST = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case SH_COMMENT : { match ( SH_COMMENT ) ; break ; } case EOF : case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case SEMI : case LITERAL_this : case LITERAL_if : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_try : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; { boolean synPredMatched5 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_package \|\| LA ( <NUM_LIT:1> ) == AT ) && ( _tokenSet_0 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m5 = mark ( ) ; synPredMatched5 = true ; inputState . guessing ++ ; try { { annotationsOpt ( ) ; match ( LITERAL_package ) ; } } catch ( RecognitionException pe ) { synPredMatched5 = false ; } rewind ( _m5 ) ; inputState . guessing -- ; } if ( synPredMatched5 ) { packageDefinition ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_1 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_if : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_try : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { statement ( EOF ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } { _loop9 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI \|\| LA ( <NUM_LIT:1> ) == NLS ) ) { sep ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_if : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_try : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { statement ( sepToken ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop9 ; } } while ( true ) ; } match ( Token . EOF_TYPE ) ; compilationUnit_AST = ( AST ) currentAST . root ; returnAST = compilationUnit_AST ; } public final void nls ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST nls_AST = null ; { if ( ( LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_3 . member ( LA ( <NUM_LIT:2> ) ) ) ) { match ( NLS ) ; } else if ( ( _tokenSet_3 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_4 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = nls_AST ; } public final void annotationsOpt ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationsOpt_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { if ( ( _tokenSet_5 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_6 . member ( LA ( <NUM_LIT:2> ) ) ) ) { annotationsInternal ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_7 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_8 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { annotationsOpt_AST = ( AST ) currentAST . root ; annotationsOpt_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( ANNOTATIONS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( annotationsOpt_AST ) ) ; currentAST . root = annotationsOpt_AST ; currentAST . child = annotationsOpt_AST != null && annotationsOpt_AST . getFirstChild ( ) != null ? annotationsOpt_AST . getFirstChild ( ) : annotationsOpt_AST ; currentAST . advanceChildToEnd ( ) ; } annotationsOpt_AST = ( AST ) currentAST . root ; returnAST = annotationsOpt_AST ; } public final void packageDefinition ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST packageDefinition_AST = null ; AST an_AST = null ; AST id_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; annotationsOpt ( ) ; an_AST = ( AST ) returnAST ; match ( LITERAL_package ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { identifier ( ) ; id_AST = ( AST ) returnAST ; break ; } case EOF : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { packageDefinition_AST = ( AST ) currentAST . root ; if ( id_AST == null ) { reportError ( "<STR_LIT>" , LT ( <NUM_LIT:0> ) ) ; } else { packageDefinition_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( PACKAGE_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( an_AST ) . add ( id_AST ) ) ; } currentAST . root = packageDefinition_AST ; currentAST . child = packageDefinition_AST != null && packageDefinition_AST . getFirstChild ( ) != null ? packageDefinition_AST . getFirstChild ( ) : packageDefinition_AST ; currentAST . advanceChildToEnd ( ) ; } packageDefinition_AST = ( AST ) currentAST . root ; returnAST = packageDefinition_AST ; } public final void statement ( int prevToken ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST statement_AST = null ; AST pfx_AST = null ; AST es_AST = null ; AST ale_AST = null ; AST ifCbs_AST = null ; AST elseCbs_AST = null ; AST while_sce_AST = null ; Token s = null ; AST s_AST = null ; AST while_cbs_AST = null ; AST m_AST = null ; AST switchSce_AST = null ; AST cg_AST = null ; AST synch_sce_AST = null ; AST synch_cs_AST = null ; boolean sce = false ; Token first = LT ( <NUM_LIT:1> ) ; AST casesGroup_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_if : { match ( LITERAL_if ) ; match ( LPAREN ) ; assignmentLessExpression ( ) ; ale_AST = ( AST ) returnAST ; match ( RPAREN ) ; nlsWarn ( ) ; compatibleBodyStatement ( ) ; ifCbs_AST = ( AST ) returnAST ; { boolean synPredMatched292 = false ; if ( ( ( _tokenSet_9 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_10 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m292 = mark ( ) ; synPredMatched292 = true ; inputState . guessing ++ ; try { { { switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : case NLS : { sep ( ) ; break ; } case LITERAL_else : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } match ( LITERAL_else ) ; } } catch ( RecognitionException pe ) { synPredMatched292 = false ; } rewind ( _m292 ) ; inputState . guessing -- ; } if ( synPredMatched292 ) { { switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : case NLS : { sep ( ) ; break ; } case LITERAL_else : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } match ( LITERAL_else ) ; nlsWarn ( ) ; compatibleBodyStatement ( ) ; elseCbs_AST = ( AST ) returnAST ; } else if ( ( _tokenSet_11 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_12 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { statement_AST = ( AST ) currentAST . root ; statement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( LITERAL_if , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( ale_AST ) . add ( ifCbs_AST ) . add ( elseCbs_AST ) ) ; currentAST . root = statement_AST ; currentAST . child = statement_AST != null && statement_AST . getFirstChild ( ) != null ? statement_AST . getFirstChild ( ) : statement_AST ; currentAST . advanceChildToEnd ( ) ; } statement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_for : { forStatement ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_while : { match ( LITERAL_while ) ; match ( LPAREN ) ; sce = strictContextExpression ( false ) ; while_sce_AST = ( AST ) returnAST ; match ( RPAREN ) ; nlsWarn ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : { s = LT ( <NUM_LIT:1> ) ; s_AST = astFactory . create ( s ) ; match ( SEMI ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_if : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_try : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { compatibleBodyStatement ( ) ; while_cbs_AST = ( AST ) returnAST ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { statement_AST = ( AST ) currentAST . root ; if ( s_AST != null ) statement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_while , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( while_sce_AST ) . add ( s_AST ) ) ; else statement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_while , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( while_sce_AST ) . add ( while_cbs_AST ) ) ; currentAST . root = statement_AST ; currentAST . child = statement_AST != null && statement_AST . getFirstChild ( ) != null ? statement_AST . getFirstChild ( ) : statement_AST ; currentAST . advanceChildToEnd ( ) ; } statement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_switch : { match ( LITERAL_switch ) ; match ( LPAREN ) ; sce = strictContextExpression ( false ) ; switchSce_AST = ( AST ) returnAST ; match ( RPAREN ) ; nlsWarn ( ) ; match ( LCURLY ) ; nls ( ) ; { _loop298 : do { if ( ( LA ( <NUM_LIT:1> ) == LITERAL_default \|\| LA ( <NUM_LIT:1> ) == LITERAL_case ) ) { casesGroup ( ) ; cg_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { casesGroup_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( null ) . add ( casesGroup_AST ) . add ( cg_AST ) ) ; } } else { break _loop298 ; } } while ( true ) ; } match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { statement_AST = ( AST ) currentAST . root ; statement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_switch , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( switchSce_AST ) . add ( casesGroup_AST ) ) ; currentAST . root = statement_AST ; currentAST . child = statement_AST != null && statement_AST . getFirstChild ( ) != null ? statement_AST . getFirstChild ( ) : statement_AST ; currentAST . advanceChildToEnd ( ) ; } statement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_try : { tryBlock ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : { branchStatement ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; break ; } default : boolean synPredMatched279 = false ; if ( ( ( _tokenSet_13 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_14 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m279 = mark ( ) ; synPredMatched279 = true ; inputState . guessing ++ ; try { { genericMethodStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched279 = false ; } rewind ( _m279 ) ; inputState . guessing -- ; } if ( synPredMatched279 ) { genericMethod ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; } else { boolean synPredMatched281 = false ; if ( ( ( _tokenSet_13 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_15 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m281 = mark ( ) ; synPredMatched281 = true ; inputState . guessing ++ ; try { { multipleAssignmentDeclarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched281 = false ; } rewind ( _m281 ) ; inputState . guessing -- ; } if ( synPredMatched281 ) { multipleAssignmentDeclaration ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; } else { boolean synPredMatched283 = false ; if ( ( ( _tokenSet_16 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_17 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m283 = mark ( ) ; synPredMatched283 = true ; inputState . guessing ++ ; try { { declarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched283 = false ; } rewind ( _m283 ) ; inputState . guessing -- ; } if ( synPredMatched283 ) { declaration ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; } else { boolean synPredMatched285 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == COLON ) ) ) { int _m285 = mark ( ) ; synPredMatched285 = true ; inputState . guessing ++ ; try { { match ( IDENT ) ; match ( COLON ) ; } } catch ( RecognitionException pe ) { synPredMatched285 = false ; } rewind ( _m285 ) ; inputState . guessing -- ; } if ( synPredMatched285 ) { statementLabelPrefix ( ) ; pfx_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { statement_AST = ( AST ) currentAST . root ; statement_AST = pfx_AST ; currentAST . root = statement_AST ; currentAST . child = statement_AST != null && statement_AST . getFirstChild ( ) != null ? statement_AST . getFirstChild ( ) : statement_AST ; currentAST . advanceChildToEnd ( ) ; } { boolean synPredMatched288 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LCURLY ) && ( _tokenSet_18 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m288 = mark ( ) ; synPredMatched288 = true ; inputState . guessing ++ ; try { { match ( LCURLY ) ; } } catch ( RecognitionException pe ) { synPredMatched288 = false ; } rewind ( _m288 ) ; inputState . guessing -- ; } if ( synPredMatched288 ) { openOrClosableBlock ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_19 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) { statement ( COLON ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } statement_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) { expressionStatement ( prevToken ) ; es_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; } else { boolean synPredMatched296 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_import \|\| LA ( <NUM_LIT:1> ) == AT ) && ( _tokenSet_21 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m296 = mark ( ) ; synPredMatched296 = true ; inputState . guessing ++ ; try { { annotationsOpt ( ) ; match ( LITERAL_import ) ; } } catch ( RecognitionException pe ) { synPredMatched296 = false ; } rewind ( _m296 ) ; inputState . guessing -- ; } if ( synPredMatched296 ) { importStatement ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_22 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_23 . member ( LA ( <NUM_LIT:2> ) ) ) ) { modifiersOpt ( ) ; m_AST = ( AST ) returnAST ; typeDefinitionInternal ( m_AST ) ; astFactory . addASTChild ( currentAST , returnAST ) ; statement_AST = ( AST ) currentAST . root ; } else if ( ( LA ( <NUM_LIT:1> ) == LITERAL_synchronized ) && ( LA ( <NUM_LIT:2> ) == LPAREN ) ) { match ( LITERAL_synchronized ) ; match ( LPAREN ) ; sce = strictContextExpression ( false ) ; synch_sce_AST = ( AST ) returnAST ; match ( RPAREN ) ; nlsWarn ( ) ; compoundStatement ( ) ; synch_cs_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { statement_AST = ( AST ) currentAST . root ; statement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_synchronized , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( synch_sce_AST ) . add ( synch_cs_AST ) ) ; currentAST . root = statement_AST ; currentAST . child = statement_AST != null && statement_AST . getFirstChild ( ) != null ? statement_AST . getFirstChild ( ) : statement_AST ; currentAST . advanceChildToEnd ( ) ; } statement_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } } } returnAST = statement_AST ; } public final void sep ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST sep_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : { match ( SEMI ) ; { _loop545 : do { if ( ( LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_24 . member ( LA ( <NUM_LIT:2> ) ) ) ) { match ( NLS ) ; } else { break _loop545 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { sepToken = SEMI ; } break ; } case NLS : { match ( NLS ) ; if ( inputState . guessing == <NUM_LIT:0> ) { sepToken = NLS ; } { _loop549 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI ) && ( _tokenSet_24 . member ( LA ( <NUM_LIT:2> ) ) ) ) { match ( SEMI ) ; { _loop548 : do { if ( ( LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_24 . member ( LA ( <NUM_LIT:2> ) ) ) ) { match ( NLS ) ; } else { break _loop548 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { sepToken = SEMI ; } } else { break _loop549 ; } } while ( true ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = sep_AST ; } public final void snippetUnit ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST snippetUnit_AST = null ; nls ( ) ; blockBody ( EOF ) ; astFactory . addASTChild ( currentAST , returnAST ) ; snippetUnit_AST = ( AST ) currentAST . root ; returnAST = snippetUnit_AST ; } public final void blockBody ( int prevToken ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST blockBody_AST = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_if : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_try : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { statement ( prevToken ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { _loop273 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI \|\| LA ( <NUM_LIT:1> ) == NLS ) ) { sep ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_if : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_try : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { statement ( sepToken ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop273 ; } } while ( true ) ; } blockBody_AST = ( AST ) currentAST . root ; returnAST = blockBody_AST ; } public final void identifier ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST identifier_AST = null ; Token i1 = null ; AST i1_AST = null ; Token d = null ; AST d_AST = null ; Token i2 = null ; AST i2_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; i1 = LT ( <NUM_LIT:1> ) ; i1_AST = astFactory . create ( i1 ) ; match ( IDENT ) ; { _loop72 : do { if ( ( LA ( <NUM_LIT:1> ) == DOT ) ) { d = LT ( <NUM_LIT:1> ) ; d_AST = astFactory . create ( d ) ; match ( DOT ) ; nls ( ) ; i2 = LT ( <NUM_LIT:1> ) ; i2_AST = astFactory . create ( i2 ) ; match ( IDENT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { i1_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( DOT , "<STR_LIT:.>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( i1_AST ) . add ( i2_AST ) ) ; } } else { break _loop72 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { identifier_AST = ( AST ) currentAST . root ; identifier_AST = i1_AST ; currentAST . root = identifier_AST ; currentAST . child = identifier_AST != null && identifier_AST . getFirstChild ( ) != null ? identifier_AST . getFirstChild ( ) : identifier_AST ; currentAST . advanceChildToEnd ( ) ; } identifier_AST = ( AST ) currentAST . root ; returnAST = identifier_AST ; } public final void importStatement ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST importStatement_AST = null ; AST an_AST = null ; AST is_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; boolean isStatic = false ; annotationsOpt ( ) ; an_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( LITERAL_import ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_static : { match ( LITERAL_static ) ; if ( inputState . guessing == <NUM_LIT:0> ) { isStatic = true ; } break ; } case IDENT : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } identifierStar ( ) ; is_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { importStatement_AST = ( AST ) currentAST . root ; if ( isStatic ) importStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( STATIC_IMPORT , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( an_AST ) . add ( is_AST ) ) ; else importStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( IMPORT , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( an_AST ) . add ( is_AST ) ) ; currentAST . root = importStatement_AST ; currentAST . child = importStatement_AST != null && importStatement_AST . getFirstChild ( ) != null ? importStatement_AST . getFirstChild ( ) : importStatement_AST ; currentAST . advanceChildToEnd ( ) ; } importStatement_AST = ( AST ) currentAST . root ; returnAST = importStatement_AST ; } public final void identifierStar ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST identifierStar_AST = null ; Token i1 = null ; AST i1_AST = null ; Token d1 = null ; AST d1_AST = null ; Token i2 = null ; AST i2_AST = null ; Token d2 = null ; AST d2_AST = null ; Token s = null ; AST s_AST = null ; Token alias = null ; AST alias_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; i1 = LT ( <NUM_LIT:1> ) ; i1_AST = astFactory . create ( i1 ) ; match ( IDENT ) ; { _loop75 : do { if ( ( LA ( <NUM_LIT:1> ) == DOT ) && ( LA ( <NUM_LIT:2> ) == IDENT \|\| LA ( <NUM_LIT:2> ) == NLS ) ) { d1 = LT ( <NUM_LIT:1> ) ; d1_AST = astFactory . create ( d1 ) ; match ( DOT ) ; nls ( ) ; i2 = LT ( <NUM_LIT:1> ) ; i2_AST = astFactory . create ( i2 ) ; match ( IDENT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { i1_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( DOT , "<STR_LIT:.>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( i1_AST ) . add ( i2_AST ) ) ; } } else { break _loop75 ; } } while ( true ) ; } { switch ( LA ( <NUM_LIT:1> ) ) { case DOT : { d2 = LT ( <NUM_LIT:1> ) ; d2_AST = astFactory . create ( d2 ) ; match ( DOT ) ; nls ( ) ; s = LT ( <NUM_LIT:1> ) ; s_AST = astFactory . create ( s ) ; match ( STAR ) ; if ( inputState . guessing == <NUM_LIT:0> ) { i1_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( DOT , "<STR_LIT:.>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( i1_AST ) . add ( s_AST ) ) ; } break ; } case LITERAL_as : { match ( LITERAL_as ) ; nls ( ) ; alias = LT ( <NUM_LIT:1> ) ; alias_AST = astFactory . create ( alias ) ; match ( IDENT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { i1_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_as , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( i1_AST ) . add ( alias_AST ) ) ; } break ; } case EOF : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_else : case LITERAL_case : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { identifierStar_AST = ( AST ) currentAST . root ; identifierStar_AST = i1_AST ; currentAST . root = identifierStar_AST ; currentAST . child = identifierStar_AST != null && identifierStar_AST . getFirstChild ( ) != null ? identifierStar_AST . getFirstChild ( ) : identifierStar_AST ; currentAST . advanceChildToEnd ( ) ; } identifierStar_AST = ( AST ) currentAST . root ; returnAST = identifierStar_AST ; } protected final void typeDefinitionInternal ( AST mods ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeDefinitionInternal_AST = null ; AST cd_AST = null ; AST id_AST = null ; AST ed_AST = null ; AST ad_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_class : { classDefinition ( mods ) ; cd_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { typeDefinitionInternal_AST = ( AST ) currentAST . root ; typeDefinitionInternal_AST = cd_AST ; currentAST . root = typeDefinitionInternal_AST ; currentAST . child = typeDefinitionInternal_AST != null && typeDefinitionInternal_AST . getFirstChild ( ) != null ? typeDefinitionInternal_AST . getFirstChild ( ) : typeDefinitionInternal_AST ; currentAST . advanceChildToEnd ( ) ; } typeDefinitionInternal_AST = ( AST ) currentAST . root ; break ; } case LITERAL_interface : { interfaceDefinition ( mods ) ; id_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { typeDefinitionInternal_AST = ( AST ) currentAST . root ; typeDefinitionInternal_AST = id_AST ; currentAST . root = typeDefinitionInternal_AST ; currentAST . child = typeDefinitionInternal_AST != null && typeDefinitionInternal_AST . getFirstChild ( ) != null ? typeDefinitionInternal_AST . getFirstChild ( ) : typeDefinitionInternal_AST ; currentAST . advanceChildToEnd ( ) ; } typeDefinitionInternal_AST = ( AST ) currentAST . root ; break ; } case LITERAL_enum : { enumDefinition ( mods ) ; ed_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { typeDefinitionInternal_AST = ( AST ) currentAST . root ; typeDefinitionInternal_AST = ed_AST ; currentAST . root = typeDefinitionInternal_AST ; currentAST . child = typeDefinitionInternal_AST != null && typeDefinitionInternal_AST . getFirstChild ( ) != null ? typeDefinitionInternal_AST . getFirstChild ( ) : typeDefinitionInternal_AST ; currentAST . advanceChildToEnd ( ) ; } typeDefinitionInternal_AST = ( AST ) currentAST . root ; break ; } case AT : { annotationDefinition ( mods ) ; ad_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { typeDefinitionInternal_AST = ( AST ) currentAST . root ; typeDefinitionInternal_AST = ad_AST ; currentAST . root = typeDefinitionInternal_AST ; currentAST . child = typeDefinitionInternal_AST != null && typeDefinitionInternal_AST . getFirstChild ( ) != null ? typeDefinitionInternal_AST . getFirstChild ( ) : typeDefinitionInternal_AST ; currentAST . advanceChildToEnd ( ) ; } typeDefinitionInternal_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = typeDefinitionInternal_AST ; } public final void classDefinition ( AST modifiers ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST classDefinition_AST = null ; AST tp_AST = null ; AST sc_AST = null ; AST ic_AST = null ; AST cb_AST = null ; Token first = cloneToken ( LT ( <NUM_LIT:1> ) ) ; AST prevCurrentClass = currentClass ; if ( modifiers != null ) { first . setLine ( modifiers . getLine ( ) ) ; first . setColumn ( modifiers . getColumn ( ) ) ; } match ( LITERAL_class ) ; AST tmp29_AST = null ; tmp29_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; nls ( ) ; if ( inputState . guessing == <NUM_LIT:0> ) { currentClass = tmp29_AST ; } { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeParameters ( ) ; tp_AST = ( AST ) returnAST ; nls ( ) ; break ; } case LITERAL_extends : case LCURLY : case LITERAL_implements : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } superClassClause ( ) ; sc_AST = ( AST ) returnAST ; implementsClause ( ) ; ic_AST = ( AST ) returnAST ; classBlock ( ) ; cb_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { classDefinition_AST = ( AST ) currentAST . root ; classDefinition_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:7> ) ) . add ( create ( CLASS_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( modifiers ) . add ( tmp29_AST ) . add ( tp_AST ) . add ( sc_AST ) . add ( ic_AST ) . add ( cb_AST ) ) ; currentAST . root = classDefinition_AST ; currentAST . child = classDefinition_AST != null && classDefinition_AST . getFirstChild ( ) != null ? classDefinition_AST . getFirstChild ( ) : classDefinition_AST ; currentAST . advanceChildToEnd ( ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { currentClass = prevCurrentClass ; } returnAST = classDefinition_AST ; } public final void interfaceDefinition ( AST modifiers ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST interfaceDefinition_AST = null ; AST tp_AST = null ; AST ie_AST = null ; AST ib_AST = null ; Token first = cloneToken ( LT ( <NUM_LIT:1> ) ) ; if ( modifiers != null ) { first . setLine ( modifiers . getLine ( ) ) ; first . setColumn ( modifiers . getColumn ( ) ) ; } match ( LITERAL_interface ) ; AST tmp31_AST = null ; tmp31_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; nls ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeParameters ( ) ; tp_AST = ( AST ) returnAST ; nls ( ) ; break ; } case LITERAL_extends : case LCURLY : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } interfaceExtends ( ) ; ie_AST = ( AST ) returnAST ; interfaceBlock ( ) ; ib_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { interfaceDefinition_AST = ( AST ) currentAST . root ; interfaceDefinition_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:6> ) ) . add ( create ( INTERFACE_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( modifiers ) . add ( tmp31_AST ) . add ( tp_AST ) . add ( ie_AST ) . add ( ib_AST ) ) ; currentAST . root = interfaceDefinition_AST ; currentAST . child = interfaceDefinition_AST != null && interfaceDefinition_AST . getFirstChild ( ) != null ? interfaceDefinition_AST . getFirstChild ( ) : interfaceDefinition_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = interfaceDefinition_AST ; } public final void enumDefinition ( AST modifiers ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST enumDefinition_AST = null ; AST ic_AST = null ; AST eb_AST = null ; Token first = cloneToken ( LT ( <NUM_LIT:1> ) ) ; AST prevCurrentClass = currentClass ; if ( modifiers != null ) { first . setLine ( modifiers . getLine ( ) ) ; first . setColumn ( modifiers . getColumn ( ) ) ; } match ( LITERAL_enum ) ; AST tmp33_AST = null ; tmp33_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { currentClass = tmp33_AST ; } nls ( ) ; implementsClause ( ) ; ic_AST = ( AST ) returnAST ; nls ( ) ; enumBlock ( ) ; eb_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { enumDefinition_AST = ( AST ) currentAST . root ; enumDefinition_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:5> ) ) . add ( create ( ENUM_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( modifiers ) . add ( tmp33_AST ) . add ( ic_AST ) . add ( eb_AST ) ) ; currentAST . root = enumDefinition_AST ; currentAST . child = enumDefinition_AST != null && enumDefinition_AST . getFirstChild ( ) != null ? enumDefinition_AST . getFirstChild ( ) : enumDefinition_AST ; currentAST . advanceChildToEnd ( ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { currentClass = prevCurrentClass ; } returnAST = enumDefinition_AST ; } public final void annotationDefinition ( AST modifiers ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationDefinition_AST = null ; AST ab_AST = null ; Token first = cloneToken ( LT ( <NUM_LIT:1> ) ) ; if ( modifiers != null ) { first . setLine ( modifiers . getLine ( ) ) ; first . setColumn ( modifiers . getColumn ( ) ) ; } AST tmp34_AST = null ; tmp34_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( AT ) ; match ( LITERAL_interface ) ; AST tmp36_AST = null ; tmp36_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; annotationBlock ( ) ; ab_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { annotationDefinition_AST = ( AST ) currentAST . root ; annotationDefinition_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( ANNOTATION_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( modifiers ) . add ( tmp36_AST ) . add ( ab_AST ) ) ; currentAST . root = annotationDefinition_AST ; currentAST . child = annotationDefinition_AST != null && annotationDefinition_AST . getFirstChild ( ) != null ? annotationDefinition_AST . getFirstChild ( ) : annotationDefinition_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = annotationDefinition_AST ; } public final void declaration ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST declaration_AST = null ; AST m_AST = null ; AST t_AST = null ; AST v_AST = null ; AST t2_AST = null ; AST v2_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case AT : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { modifiers ( ) ; m_AST = ( AST ) returnAST ; { if ( ( _tokenSet_25 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_26 . member ( LA ( <NUM_LIT:2> ) ) ) ) { typeSpec ( false ) ; t_AST = ( AST ) returnAST ; } else if ( ( LA ( <NUM_LIT:1> ) == IDENT \|\| LA ( <NUM_LIT:1> ) == STRING_LITERAL ) && ( _tokenSet_27 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } variableDefinitions ( m_AST , t_AST ) ; v_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { declaration_AST = ( AST ) currentAST . root ; declaration_AST = v_AST ; currentAST . root = declaration_AST ; currentAST . child = declaration_AST != null && declaration_AST . getFirstChild ( ) != null ? declaration_AST . getFirstChild ( ) : declaration_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } case IDENT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { typeSpec ( false ) ; t2_AST = ( AST ) returnAST ; variableDefinitions ( null , t2_AST ) ; v2_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { declaration_AST = ( AST ) currentAST . root ; declaration_AST = v2_AST ; currentAST . root = declaration_AST ; currentAST . child = declaration_AST != null && declaration_AST . getFirstChild ( ) != null ? declaration_AST . getFirstChild ( ) : declaration_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = declaration_AST ; } public final void modifiers ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST modifiers_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; modifiersInternal ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { modifiers_AST = ( AST ) currentAST . root ; modifiers_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( MODIFIERS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( modifiers_AST ) ) ; currentAST . root = modifiers_AST ; currentAST . child = modifiers_AST != null && modifiers_AST . getFirstChild ( ) != null ? modifiers_AST . getFirstChild ( ) : modifiers_AST ; currentAST . advanceChildToEnd ( ) ; } modifiers_AST = ( AST ) currentAST . root ; returnAST = modifiers_AST ; } public final void typeSpec ( boolean addImagNode ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeSpec_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { classTypeSpec ( addImagNode ) ; astFactory . addASTChild ( currentAST , returnAST ) ; typeSpec_AST = ( AST ) currentAST . root ; break ; } case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { builtInTypeSpec ( addImagNode ) ; astFactory . addASTChild ( currentAST , returnAST ) ; typeSpec_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = typeSpec_AST ; } public final void variableDefinitions ( AST mods , AST t ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST variableDefinitions_AST = null ; Token id = null ; AST id_AST = null ; Token qid = null ; AST qid_AST = null ; AST param_AST = null ; AST tc_AST = null ; AST mb_AST = null ; Token first = cloneToken ( LT ( <NUM_LIT:1> ) ) ; if ( mods != null ) { first . setLine ( mods . getLine ( ) ) ; first . setColumn ( mods . getColumn ( ) ) ; } else if ( t != null ) { first . setLine ( t . getLine ( ) ) ; first . setColumn ( t . getColumn ( ) ) ; } if ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( _tokenSet_28 . member ( LA ( <NUM_LIT:2> ) ) ) ) { listOfVariables ( mods , t , first ) ; astFactory . addASTChild ( currentAST , returnAST ) ; variableDefinitions_AST = ( AST ) currentAST . root ; } else if ( ( LA ( <NUM_LIT:1> ) == IDENT \|\| LA ( <NUM_LIT:1> ) == STRING_LITERAL ) && ( LA ( <NUM_LIT:2> ) == LPAREN ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { id = LT ( <NUM_LIT:1> ) ; id_AST = astFactory . create ( id ) ; astFactory . addASTChild ( currentAST , id_AST ) ; match ( IDENT ) ; break ; } case STRING_LITERAL : { qid = LT ( <NUM_LIT:1> ) ; qid_AST = astFactory . create ( qid ) ; astFactory . addASTChild ( currentAST , qid_AST ) ; match ( STRING_LITERAL ) ; if ( inputState . guessing == <NUM_LIT:0> ) { qid_AST . setType ( IDENT ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } match ( LPAREN ) ; parameterDeclarationList ( ) ; param_AST = ( AST ) returnAST ; match ( RPAREN ) ; { boolean synPredMatched231 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_throws \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_29 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m231 = mark ( ) ; synPredMatched231 = true ; inputState . guessing ++ ; try { { nls ( ) ; match ( LITERAL_throws ) ; } } catch ( RecognitionException pe ) { synPredMatched231 = false ; } rewind ( _m231 ) ; inputState . guessing -- ; } if ( synPredMatched231 ) { throwsClause ( ) ; tc_AST = ( AST ) returnAST ; } else if ( ( _tokenSet_30 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_12 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } { boolean synPredMatched234 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LCURLY \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_31 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m234 = mark ( ) ; synPredMatched234 = true ; inputState . guessing ++ ; try { { nls ( ) ; match ( LCURLY ) ; } } catch ( RecognitionException pe ) { synPredMatched234 = false ; } rewind ( _m234 ) ; inputState . guessing -- ; } if ( synPredMatched234 ) { { nlsWarn ( ) ; openBlock ( ) ; mb_AST = ( AST ) returnAST ; } } else if ( ( _tokenSet_11 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_12 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { variableDefinitions_AST = ( AST ) currentAST . root ; if ( qid_AST != null ) id_AST = qid_AST ; variableDefinitions_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:7> ) ) . add ( create ( METHOD_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( mods ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( t ) ) ) . add ( id_AST ) . add ( param_AST ) . add ( tc_AST ) . add ( mb_AST ) ) ; currentAST . root = variableDefinitions_AST ; currentAST . child = variableDefinitions_AST != null && variableDefinitions_AST . getFirstChild ( ) != null ? variableDefinitions_AST . getFirstChild ( ) : variableDefinitions_AST ; currentAST . advanceChildToEnd ( ) ; } variableDefinitions_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } returnAST = variableDefinitions_AST ; } public final void genericMethod ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST genericMethod_AST = null ; AST m_AST = null ; AST p_AST = null ; AST t_AST = null ; AST v_AST = null ; modifiers ( ) ; m_AST = ( AST ) returnAST ; typeParameters ( ) ; p_AST = ( AST ) returnAST ; typeSpec ( false ) ; t_AST = ( AST ) returnAST ; variableDefinitions ( m_AST , t_AST ) ; v_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { genericMethod_AST = ( AST ) currentAST . root ; genericMethod_AST = v_AST ; AST old = v_AST . getFirstChild ( ) ; genericMethod_AST . setFirstChild ( p_AST ) ; p_AST . setNextSibling ( old ) ; currentAST . root = genericMethod_AST ; currentAST . child = genericMethod_AST != null && genericMethod_AST . getFirstChild ( ) != null ? genericMethod_AST . getFirstChild ( ) : genericMethod_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = genericMethod_AST ; } public final void typeParameters ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeParameters_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; int currentLtLevel = <NUM_LIT:0> ; if ( inputState . guessing == <NUM_LIT:0> ) { currentLtLevel = ltCounter ; } match ( LT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ltCounter ++ ; } nls ( ) ; typeParameter ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop110 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; typeParameter ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop110 ; } } while ( true ) ; } nls ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case GT : case SR : case BSR : { typeArgumentsOrParametersEnd ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case IDENT : case LITERAL_extends : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LCURLY : case LITERAL_implements : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( ! ( matchGenericTypeBrackets ( ( ( currentLtLevel != <NUM_LIT:0> ) \|\| ltCounter == currentLtLevel ) , "<STR_LIT>" , "<STR_LIT>" ) ) ) throw new SemanticException ( "<STR_LIT>" ) ; if ( inputState . guessing == <NUM_LIT:0> ) { typeParameters_AST = ( AST ) currentAST . root ; typeParameters_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE_PARAMETERS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( typeParameters_AST ) ) ; currentAST . root = typeParameters_AST ; currentAST . child = typeParameters_AST != null && typeParameters_AST . getFirstChild ( ) != null ? typeParameters_AST . getFirstChild ( ) : typeParameters_AST ; currentAST . advanceChildToEnd ( ) ; } typeParameters_AST = ( AST ) currentAST . root ; returnAST = typeParameters_AST ; } public final void singleDeclarationNoInit ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST singleDeclarationNoInit_AST = null ; AST m_AST = null ; AST t_AST = null ; AST v_AST = null ; AST t2_AST = null ; AST v2_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case AT : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { modifiers ( ) ; m_AST = ( AST ) returnAST ; { if ( ( _tokenSet_25 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_32 . member ( LA ( <NUM_LIT:2> ) ) ) ) { typeSpec ( false ) ; t_AST = ( AST ) returnAST ; } else if ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( _tokenSet_33 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } singleVariable ( m_AST , t_AST ) ; v_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { singleDeclarationNoInit_AST = ( AST ) currentAST . root ; singleDeclarationNoInit_AST = v_AST ; currentAST . root = singleDeclarationNoInit_AST ; currentAST . child = singleDeclarationNoInit_AST != null && singleDeclarationNoInit_AST . getFirstChild ( ) != null ? singleDeclarationNoInit_AST . getFirstChild ( ) : singleDeclarationNoInit_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } case IDENT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { typeSpec ( false ) ; t2_AST = ( AST ) returnAST ; singleVariable ( null , t2_AST ) ; v2_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { singleDeclarationNoInit_AST = ( AST ) currentAST . root ; singleDeclarationNoInit_AST = v2_AST ; currentAST . root = singleDeclarationNoInit_AST ; currentAST . child = singleDeclarationNoInit_AST != null && singleDeclarationNoInit_AST . getFirstChild ( ) != null ? singleDeclarationNoInit_AST . getFirstChild ( ) : singleDeclarationNoInit_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = singleDeclarationNoInit_AST ; } public final void singleVariable ( AST mods , AST t ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST singleVariable_AST = null ; AST id_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; variableName ( ) ; id_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { singleVariable_AST = ( AST ) currentAST . root ; singleVariable_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( VARIABLE_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( mods ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( t ) ) ) . add ( id_AST ) ) ; currentAST . root = singleVariable_AST ; currentAST . child = singleVariable_AST != null && singleVariable_AST . getFirstChild ( ) != null ? singleVariable_AST . getFirstChild ( ) : singleVariable_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = singleVariable_AST ; } public final void singleDeclaration ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST singleDeclaration_AST = null ; AST sd_AST = null ; singleDeclarationNoInit ( ) ; sd_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { singleDeclaration_AST = ( AST ) currentAST . root ; singleDeclaration_AST = sd_AST ; currentAST . root = singleDeclaration_AST ; currentAST . child = singleDeclaration_AST != null && singleDeclaration_AST . getFirstChild ( ) != null ? singleDeclaration_AST . getFirstChild ( ) : singleDeclaration_AST ; currentAST . advanceChildToEnd ( ) ; } { switch ( LA ( <NUM_LIT:1> ) ) { case ASSIGN : { varInitializer ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : case RBRACK : case COMMA : case RPAREN : case SEMI : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } singleDeclaration_AST = ( AST ) currentAST . root ; returnAST = singleDeclaration_AST ; } public final void varInitializer ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST varInitializer_AST = null ; AST tmp41_AST = null ; tmp41_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp41_AST ) ; match ( ASSIGN ) ; nls ( ) ; expression ( LC_INIT ) ; astFactory . addASTChild ( currentAST , returnAST ) ; varInitializer_AST = ( AST ) currentAST . root ; returnAST = varInitializer_AST ; } public final void declarationStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST declarationStart_AST = null ; { int _cnt30 = <NUM_LIT:0> ; _loop30 : do { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_def : { { match ( LITERAL_def ) ; nls ( ) ; } break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { modifier ( ) ; nls ( ) ; break ; } case AT : { annotation ( ) ; nls ( ) ; break ; } default : if ( ( _tokenSet_25 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_34 . member ( LA ( <NUM_LIT:2> ) ) ) ) { { if ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( _tokenSet_35 . member ( LA ( <NUM_LIT:2> ) ) ) ) { upperCaseIdent ( ) ; } else if ( ( ( LA ( <NUM_LIT:1> ) >= LITERAL_void && LA ( <NUM_LIT:1> ) <= LITERAL_double ) ) ) { builtInType ( ) ; } else if ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == DOT ) ) { qualifiedTypeName ( ) ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeArguments ( ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { _loop29 : do { if ( ( LA ( <NUM_LIT:1> ) == LBRACK ) ) { AST tmp43_AST = null ; tmp43_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( LBRACK ) ; balancedTokens ( ) ; AST tmp44_AST = null ; tmp44_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( RBRACK ) ; } else { break _loop29 ; } } while ( true ) ; } } else { if ( _cnt30 >= <NUM_LIT:1> ) { break _loop30 ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } _cnt30 ++ ; } while ( true ) ; } { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { AST tmp45_AST = null ; tmp45_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; break ; } case STRING_LITERAL : { AST tmp46_AST = null ; tmp46_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( STRING_LITERAL ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } returnAST = declarationStart_AST ; } public final void modifier ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST modifier_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_private : { AST tmp47_AST = null ; tmp47_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp47_AST ) ; match ( LITERAL_private ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case LITERAL_public : { AST tmp48_AST = null ; tmp48_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp48_AST ) ; match ( LITERAL_public ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case LITERAL_protected : { AST tmp49_AST = null ; tmp49_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp49_AST ) ; match ( LITERAL_protected ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case LITERAL_static : { AST tmp50_AST = null ; tmp50_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp50_AST ) ; match ( LITERAL_static ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case LITERAL_transient : { AST tmp51_AST = null ; tmp51_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp51_AST ) ; match ( LITERAL_transient ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case FINAL : { AST tmp52_AST = null ; tmp52_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp52_AST ) ; match ( FINAL ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case ABSTRACT : { AST tmp53_AST = null ; tmp53_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp53_AST ) ; match ( ABSTRACT ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case LITERAL_native : { AST tmp54_AST = null ; tmp54_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp54_AST ) ; match ( LITERAL_native ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case LITERAL_threadsafe : { AST tmp55_AST = null ; tmp55_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp55_AST ) ; match ( LITERAL_threadsafe ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case LITERAL_synchronized : { AST tmp56_AST = null ; tmp56_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp56_AST ) ; match ( LITERAL_synchronized ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case LITERAL_volatile : { AST tmp57_AST = null ; tmp57_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp57_AST ) ; match ( LITERAL_volatile ) ; modifier_AST = ( AST ) currentAST . root ; break ; } case STRICTFP : { AST tmp58_AST = null ; tmp58_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp58_AST ) ; match ( STRICTFP ) ; modifier_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = modifier_AST ; } public final void annotation ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotation_AST = null ; AST i_AST = null ; AST args_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( AT ) ; identifier ( ) ; i_AST = ( AST ) returnAST ; nls ( ) ; { if ( ( LA ( <NUM_LIT:1> ) == LPAREN ) && ( _tokenSet_36 . member ( LA ( <NUM_LIT:2> ) ) ) ) { match ( LPAREN ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_extends : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_this : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { annotationArguments ( ) ; args_AST = ( AST ) returnAST ; break ; } case RPAREN : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } match ( RPAREN ) ; } else if ( ( _tokenSet_37 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_38 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { annotation_AST = ( AST ) currentAST . root ; annotation_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( ANNOTATION , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( i_AST ) . add ( args_AST ) ) ; currentAST . root = annotation_AST ; currentAST . child = annotation_AST != null && annotation_AST . getFirstChild ( ) != null ? annotation_AST . getFirstChild ( ) : annotation_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = annotation_AST ; } public final void upperCaseIdent ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST upperCaseIdent_AST = null ; if ( ! ( isUpperCase ( LT ( <NUM_LIT:1> ) ) ) ) throw new SemanticException ( "<STR_LIT>" ) ; AST tmp62_AST = null ; tmp62_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp62_AST ) ; match ( IDENT ) ; upperCaseIdent_AST = ( AST ) currentAST . root ; returnAST = upperCaseIdent_AST ; } public final void builtInType ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST builtInType_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_void : { AST tmp63_AST = null ; tmp63_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp63_AST ) ; match ( LITERAL_void ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } case LITERAL_boolean : { AST tmp64_AST = null ; tmp64_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp64_AST ) ; match ( LITERAL_boolean ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } case LITERAL_byte : { AST tmp65_AST = null ; tmp65_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp65_AST ) ; match ( LITERAL_byte ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } case LITERAL_char : { AST tmp66_AST = null ; tmp66_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp66_AST ) ; match ( LITERAL_char ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } case LITERAL_short : { AST tmp67_AST = null ; tmp67_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp67_AST ) ; match ( LITERAL_short ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } case LITERAL_int : { AST tmp68_AST = null ; tmp68_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp68_AST ) ; match ( LITERAL_int ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } case LITERAL_float : { AST tmp69_AST = null ; tmp69_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp69_AST ) ; match ( LITERAL_float ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } case LITERAL_long : { AST tmp70_AST = null ; tmp70_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp70_AST ) ; match ( LITERAL_long ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } case LITERAL_double : { AST tmp71_AST = null ; tmp71_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp71_AST ) ; match ( LITERAL_double ) ; builtInType_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = builtInType_AST ; } public final void qualifiedTypeName ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST qualifiedTypeName_AST = null ; AST tmp72_AST = null ; tmp72_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; AST tmp73_AST = null ; tmp73_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( DOT ) ; { _loop37 : do { if ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == DOT ) ) { AST tmp74_AST = null ; tmp74_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; AST tmp75_AST = null ; tmp75_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( DOT ) ; } else { break _loop37 ; } } while ( true ) ; } upperCaseIdent ( ) ; returnAST = qualifiedTypeName_AST ; } public final void typeArguments ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeArguments_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; int currentLtLevel = <NUM_LIT:0> ; if ( inputState . guessing == <NUM_LIT:0> ) { currentLtLevel = ltCounter ; } match ( LT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ltCounter ++ ; } nls ( ) ; typeArgument ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop58 : do { if ( ( ( LA ( <NUM_LIT:1> ) == COMMA ) && ( _tokenSet_39 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( inputState . guessing != <NUM_LIT:0> \|\| ltCounter == currentLtLevel + <NUM_LIT:1> ) ) { match ( COMMA ) ; nls ( ) ; typeArgument ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop58 ; } } while ( true ) ; } nls ( ) ; { if ( ( ( LA ( <NUM_LIT:1> ) >= GT && LA ( <NUM_LIT:1> ) <= BSR ) ) && ( _tokenSet_40 . member ( LA ( <NUM_LIT:2> ) ) ) ) { typeArgumentsOrParametersEnd ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_40 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_4 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( ! ( matchGenericTypeBrackets ( ( ( currentLtLevel != <NUM_LIT:0> ) \|\| ltCounter == currentLtLevel ) , "<STR_LIT>" , "<STR_LIT>" ) ) ) throw new SemanticException ( "<STR_LIT>" ) ; if ( inputState . guessing == <NUM_LIT:0> ) { typeArguments_AST = ( AST ) currentAST . root ; typeArguments_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE_ARGUMENTS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( typeArguments_AST ) ) ; currentAST . root = typeArguments_AST ; currentAST . child = typeArguments_AST != null && typeArguments_AST . getFirstChild ( ) != null ? typeArguments_AST . getFirstChild ( ) : typeArguments_AST ; currentAST . advanceChildToEnd ( ) ; } typeArguments_AST = ( AST ) currentAST . root ; returnAST = typeArguments_AST ; } public final void balancedTokens ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST balancedTokens_AST = null ; { _loop542 : do { if ( ( _tokenSet_41 . member ( LA ( <NUM_LIT:1> ) ) ) ) { balancedBrackets ( ) ; } else if ( ( _tokenSet_42 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { match ( _tokenSet_42 ) ; } } else { break _loop542 ; } } while ( true ) ; } returnAST = balancedTokens_AST ; } public final void genericMethodStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST genericMethodStart_AST = null ; { int _cnt34 = <NUM_LIT:0> ; _loop34 : do { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_def : { match ( LITERAL_def ) ; nls ( ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { modifier ( ) ; nls ( ) ; break ; } case AT : { annotation ( ) ; nls ( ) ; break ; } default : { if ( _cnt34 >= <NUM_LIT:1> ) { break _loop34 ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } _cnt34 ++ ; } while ( true ) ; } AST tmp80_AST = null ; tmp80_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( LT ) ; returnAST = genericMethodStart_AST ; } public final void constructorStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST constructorStart_AST = null ; Token id = null ; AST id_AST = null ; modifiersOpt ( ) ; id = LT ( <NUM_LIT:1> ) ; id_AST = astFactory . create ( id ) ; match ( IDENT ) ; if ( ! ( isConstructorIdent ( id ) ) ) throw new SemanticException ( "<STR_LIT>" ) ; nls ( ) ; match ( LPAREN ) ; returnAST = constructorStart_AST ; } public final void modifiersOpt ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST modifiersOpt_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { if ( ( _tokenSet_13 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_43 . member ( LA ( <NUM_LIT:2> ) ) ) ) { modifiersInternal ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_44 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_45 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { modifiersOpt_AST = ( AST ) currentAST . root ; modifiersOpt_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( MODIFIERS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( modifiersOpt_AST ) ) ; currentAST . root = modifiersOpt_AST ; currentAST . child = modifiersOpt_AST != null && modifiersOpt_AST . getFirstChild ( ) != null ? modifiersOpt_AST . getFirstChild ( ) : modifiersOpt_AST ; currentAST . advanceChildToEnd ( ) ; } modifiersOpt_AST = ( AST ) currentAST . root ; returnAST = modifiersOpt_AST ; } public final void typeDeclarationStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeDeclarationStart_AST = null ; modifiersOpt ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_class : { match ( LITERAL_class ) ; break ; } case LITERAL_interface : { match ( LITERAL_interface ) ; break ; } case LITERAL_enum : { match ( LITERAL_enum ) ; break ; } case AT : { AST tmp85_AST = null ; tmp85_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( AT ) ; match ( LITERAL_interface ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } returnAST = typeDeclarationStart_AST ; } public final void classTypeSpec ( boolean addImagNode ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST classTypeSpec_AST = null ; AST ct_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; classOrInterfaceType ( false ) ; ct_AST = ( AST ) returnAST ; declaratorBrackets ( ct_AST ) ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { classTypeSpec_AST = ( AST ) currentAST . root ; if ( addImagNode ) { classTypeSpec_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( classTypeSpec_AST ) ) ; } currentAST . root = classTypeSpec_AST ; currentAST . child = classTypeSpec_AST != null && classTypeSpec_AST . getFirstChild ( ) != null ? classTypeSpec_AST . getFirstChild ( ) : classTypeSpec_AST ; currentAST . advanceChildToEnd ( ) ; } classTypeSpec_AST = ( AST ) currentAST . root ; returnAST = classTypeSpec_AST ; } public final void builtInTypeSpec ( boolean addImagNode ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST builtInTypeSpec_AST = null ; AST bt_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; builtInType ( ) ; bt_AST = ( AST ) returnAST ; declaratorBrackets ( bt_AST ) ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { builtInTypeSpec_AST = ( AST ) currentAST . root ; if ( addImagNode ) { builtInTypeSpec_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( builtInTypeSpec_AST ) ) ; } currentAST . root = builtInTypeSpec_AST ; currentAST . child = builtInTypeSpec_AST != null && builtInTypeSpec_AST . getFirstChild ( ) != null ? builtInTypeSpec_AST . getFirstChild ( ) : builtInTypeSpec_AST ; currentAST . advanceChildToEnd ( ) ; } builtInTypeSpec_AST = ( AST ) currentAST . root ; returnAST = builtInTypeSpec_AST ; } public final void classOrInterfaceType ( boolean addImagNode ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST classOrInterfaceType_AST = null ; Token i1 = null ; AST i1_AST = null ; Token d = null ; AST d_AST = null ; Token i2 = null ; AST i2_AST = null ; AST ta_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; i1 = LT ( <NUM_LIT:1> ) ; i1_AST = astFactory . create ( i1 ) ; astFactory . makeASTRoot ( currentAST , i1_AST ) ; match ( IDENT ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeArguments ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case RBRACK : case IDENT : case STRING_LITERAL : case DOT : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case QUESTION : case LITERAL_extends : case LITERAL_super : case COMMA : case GT : case SR : case BSR : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case RPAREN : case ASSIGN : case BAND : case LCURLY : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_this : case TRIPLE_DOT : case CLOSABLE_BLOCK_OP : case COLON : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case PLUS_ASSIGN : case MINUS_ASSIGN : case STAR_ASSIGN : case DIV_ASSIGN : case MOD_ASSIGN : case SR_ASSIGN : case BSR_ASSIGN : case SL_ASSIGN : case BAND_ASSIGN : case BXOR_ASSIGN : case BOR_ASSIGN : case STAR_STAR_ASSIGN : case ELVIS_OPERATOR : case LOR : case LAND : case BOR : case BXOR : case REGEX_FIND : case REGEX_MATCH : case NOT_EQUAL : case EQUAL : case IDENTICAL : case NOT_IDENTICAL : case COMPARE_TO : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { _loop48 : do { if ( ( LA ( <NUM_LIT:1> ) == DOT ) && ( LA ( <NUM_LIT:2> ) == IDENT ) ) { d = LT ( <NUM_LIT:1> ) ; d_AST = astFactory . create ( d ) ; match ( DOT ) ; i2 = LT ( <NUM_LIT:1> ) ; i2_AST = astFactory . create ( i2 ) ; match ( IDENT ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeArguments ( ) ; ta_AST = ( AST ) returnAST ; break ; } case EOF : case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case RBRACK : case IDENT : case STRING_LITERAL : case DOT : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case QUESTION : case LITERAL_extends : case LITERAL_super : case COMMA : case GT : case SR : case BSR : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case RPAREN : case ASSIGN : case BAND : case LCURLY : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_this : case TRIPLE_DOT : case CLOSABLE_BLOCK_OP : case COLON : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case PLUS_ASSIGN : case MINUS_ASSIGN : case STAR_ASSIGN : case DIV_ASSIGN : case MOD_ASSIGN : case SR_ASSIGN : case BSR_ASSIGN : case SL_ASSIGN : case BAND_ASSIGN : case BXOR_ASSIGN : case BOR_ASSIGN : case STAR_STAR_ASSIGN : case ELVIS_OPERATOR : case LOR : case LAND : case BOR : case BXOR : case REGEX_FIND : case REGEX_MATCH : case NOT_EQUAL : case EQUAL : case IDENTICAL : case NOT_IDENTICAL : case COMPARE_TO : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { i1_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( DOT , "<STR_LIT:.>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( i1_AST ) . add ( i2_AST ) . add ( ta_AST ) ) ; } } else { break _loop48 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { classOrInterfaceType_AST = ( AST ) currentAST . root ; classOrInterfaceType_AST = i1_AST ; if ( addImagNode ) { classOrInterfaceType_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( classOrInterfaceType_AST ) ) ; } currentAST . root = classOrInterfaceType_AST ; currentAST . child = classOrInterfaceType_AST != null && classOrInterfaceType_AST . getFirstChild ( ) != null ? classOrInterfaceType_AST . getFirstChild ( ) : classOrInterfaceType_AST ; currentAST . advanceChildToEnd ( ) ; } classOrInterfaceType_AST = ( AST ) currentAST . root ; returnAST = classOrInterfaceType_AST ; } public final void declaratorBrackets ( AST typ ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST declaratorBrackets_AST = null ; if ( inputState . guessing == <NUM_LIT:0> ) { declaratorBrackets_AST = ( AST ) currentAST . root ; declaratorBrackets_AST = typ ; currentAST . root = declaratorBrackets_AST ; currentAST . child = declaratorBrackets_AST != null && declaratorBrackets_AST . getFirstChild ( ) != null ? declaratorBrackets_AST . getFirstChild ( ) : declaratorBrackets_AST ; currentAST . advanceChildToEnd ( ) ; } { _loop246 : do { if ( ( LA ( <NUM_LIT:1> ) == LBRACK ) && ( LA ( <NUM_LIT:2> ) == RBRACK ) ) { match ( LBRACK ) ; match ( RBRACK ) ; if ( inputState . guessing == <NUM_LIT:0> ) { declaratorBrackets_AST = ( AST ) currentAST . root ; declaratorBrackets_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( ARRAY_DECLARATOR , "<STR_LIT:[>" , typ , LT ( <NUM_LIT:1> ) ) ) . add ( declaratorBrackets_AST ) ) ; currentAST . root = declaratorBrackets_AST ; currentAST . child = declaratorBrackets_AST != null && declaratorBrackets_AST . getFirstChild ( ) != null ? declaratorBrackets_AST . getFirstChild ( ) : declaratorBrackets_AST ; currentAST . advanceChildToEnd ( ) ; } } else { break _loop246 ; } } while ( true ) ; } declaratorBrackets_AST = ( AST ) currentAST . root ; returnAST = declaratorBrackets_AST ; } public final void typeArgumentSpec ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeArgumentSpec_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { classTypeSpec ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; typeArgumentSpec_AST = ( AST ) currentAST . root ; break ; } case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { builtInTypeArraySpec ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; typeArgumentSpec_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = typeArgumentSpec_AST ; } public final void builtInTypeArraySpec ( boolean addImagNode ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST builtInTypeArraySpec_AST = null ; AST bt_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; builtInType ( ) ; bt_AST = ( AST ) returnAST ; { boolean synPredMatched66 = false ; if ( ( ( _tokenSet_40 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_4 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m66 = mark ( ) ; synPredMatched66 = true ; inputState . guessing ++ ; try { { match ( LBRACK ) ; } } catch ( RecognitionException pe ) { synPredMatched66 = false ; } rewind ( _m66 ) ; inputState . guessing -- ; } if ( synPredMatched66 ) { declaratorBrackets ( bt_AST ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_40 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_4 . member ( LA ( <NUM_LIT:2> ) ) ) ) { if ( inputState . guessing == <NUM_LIT:0> ) { require ( false , "<STR_LIT>" , "<STR_LIT>" ) ; } } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { builtInTypeArraySpec_AST = ( AST ) currentAST . root ; if ( addImagNode ) { builtInTypeArraySpec_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( builtInTypeArraySpec_AST ) ) ; } currentAST . root = builtInTypeArraySpec_AST ; currentAST . child = builtInTypeArraySpec_AST != null && builtInTypeArraySpec_AST . getFirstChild ( ) != null ? builtInTypeArraySpec_AST . getFirstChild ( ) : builtInTypeArraySpec_AST ; currentAST . advanceChildToEnd ( ) ; } builtInTypeArraySpec_AST = ( AST ) currentAST . root ; returnAST = builtInTypeArraySpec_AST ; } public final void typeArgument ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeArgument_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { typeArgumentSpec ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case QUESTION : { wildcardType ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { typeArgument_AST = ( AST ) currentAST . root ; typeArgument_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE_ARGUMENT , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( typeArgument_AST ) ) ; currentAST . root = typeArgument_AST ; currentAST . child = typeArgument_AST != null && typeArgument_AST . getFirstChild ( ) != null ? typeArgument_AST . getFirstChild ( ) : typeArgument_AST ; currentAST . advanceChildToEnd ( ) ; } typeArgument_AST = ( AST ) currentAST . root ; returnAST = typeArgument_AST ; } public final void wildcardType ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST wildcardType_AST = null ; AST tmp89_AST = null ; tmp89_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp89_AST ) ; match ( QUESTION ) ; { boolean synPredMatched55 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_extends \|\| LA ( <NUM_LIT:1> ) == LITERAL_super ) && ( LA ( <NUM_LIT:2> ) == IDENT \|\| LA ( <NUM_LIT:2> ) == NLS ) ) ) { int _m55 = mark ( ) ; synPredMatched55 = true ; inputState . guessing ++ ; try { { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_extends : { match ( LITERAL_extends ) ; break ; } case LITERAL_super : { match ( LITERAL_super ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } catch ( RecognitionException pe ) { synPredMatched55 = false ; } rewind ( _m55 ) ; inputState . guessing -- ; } if ( synPredMatched55 ) { typeArgumentBounds ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_40 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_4 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { wildcardType_AST = ( AST ) currentAST . root ; wildcardType_AST . setType ( WILDCARD_TYPE ) ; } wildcardType_AST = ( AST ) currentAST . root ; returnAST = wildcardType_AST ; } public final void typeArgumentBounds ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeArgumentBounds_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; boolean isUpperBounds = false ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_extends : { match ( LITERAL_extends ) ; if ( inputState . guessing == <NUM_LIT:0> ) { isUpperBounds = true ; } break ; } case LITERAL_super : { match ( LITERAL_super ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; classOrInterfaceType ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; if ( inputState . guessing == <NUM_LIT:0> ) { typeArgumentBounds_AST = ( AST ) currentAST . root ; if ( isUpperBounds ) { typeArgumentBounds_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE_UPPER_BOUNDS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( typeArgumentBounds_AST ) ) ; } else { typeArgumentBounds_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE_LOWER_BOUNDS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( typeArgumentBounds_AST ) ) ; } currentAST . root = typeArgumentBounds_AST ; currentAST . child = typeArgumentBounds_AST != null && typeArgumentBounds_AST . getFirstChild ( ) != null ? typeArgumentBounds_AST . getFirstChild ( ) : typeArgumentBounds_AST ; currentAST . advanceChildToEnd ( ) ; } typeArgumentBounds_AST = ( AST ) currentAST . root ; returnAST = typeArgumentBounds_AST ; } protected final void typeArgumentsOrParametersEnd ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeArgumentsOrParametersEnd_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case GT : { match ( GT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ltCounter -= <NUM_LIT:1> ; } typeArgumentsOrParametersEnd_AST = ( AST ) currentAST . root ; break ; } case SR : { match ( SR ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ltCounter -= <NUM_LIT:2> ; } typeArgumentsOrParametersEnd_AST = ( AST ) currentAST . root ; break ; } case BSR : { match ( BSR ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ltCounter -= <NUM_LIT:3> ; } typeArgumentsOrParametersEnd_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = typeArgumentsOrParametersEnd_AST ; } public final void type ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST type_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { classOrInterfaceType ( false ) ; astFactory . addASTChild ( currentAST , returnAST ) ; type_AST = ( AST ) currentAST . root ; break ; } case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { builtInType ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; type_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = type_AST ; } public final void modifiersInternal ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST modifiersInternal_AST = null ; int seenDef = <NUM_LIT:0> ; { int _cnt79 = <NUM_LIT:0> ; _loop79 : do { if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_def ) ) && ( seenDef ++ == <NUM_LIT:0> ) ) { match ( LITERAL_def ) ; nls ( ) ; } else if ( ( _tokenSet_46 . member ( LA ( <NUM_LIT:1> ) ) ) ) { modifier ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; } else if ( ( LA ( <NUM_LIT:1> ) == AT ) && ( LA ( <NUM_LIT:2> ) == LITERAL_interface ) ) { if ( inputState . guessing == <NUM_LIT:0> ) { break ; } AST tmp96_AST = null ; tmp96_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp96_AST ) ; match ( AT ) ; AST tmp97_AST = null ; tmp97_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp97_AST ) ; match ( LITERAL_interface ) ; } else if ( ( LA ( <NUM_LIT:1> ) == AT ) && ( LA ( <NUM_LIT:2> ) == IDENT ) ) { annotation ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; } else { if ( _cnt79 >= <NUM_LIT:1> ) { break _loop79 ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } _cnt79 ++ ; } while ( true ) ; } modifiersInternal_AST = ( AST ) currentAST . root ; returnAST = modifiersInternal_AST ; } public final void annotationArguments ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationArguments_AST = null ; AST v_AST = null ; if ( ( _tokenSet_47 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_48 . member ( LA ( <NUM_LIT:2> ) ) ) ) { annotationMemberValueInitializer ( ) ; v_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { annotationArguments_AST = ( AST ) currentAST . root ; Token itkn = new Token ( IDENT , "<STR_LIT:value>" ) ; AST i ; i = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:1> ) ) . add ( create ( IDENT , "<STR_LIT:value>" , itkn , itkn ) ) ) ; annotationArguments_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( ANNOTATION_MEMBER_VALUE_PAIR , "<STR_LIT>" , LT ( <NUM_LIT:1> ) , LT ( <NUM_LIT:1> ) ) ) . add ( i ) . add ( v_AST ) ) ; currentAST . root = annotationArguments_AST ; currentAST . child = annotationArguments_AST != null && annotationArguments_AST . getFirstChild ( ) != null ? annotationArguments_AST . getFirstChild ( ) : annotationArguments_AST ; currentAST . advanceChildToEnd ( ) ; } annotationArguments_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_49 . member ( LA ( <NUM_LIT:1> ) ) ) && ( LA ( <NUM_LIT:2> ) == ASSIGN ) ) { annotationMemberValuePairs ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; annotationArguments_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } returnAST = annotationArguments_AST ; } public final void annotationsInternal ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationsInternal_AST = null ; { _loop89 : do { if ( ( LA ( <NUM_LIT:1> ) == AT ) && ( LA ( <NUM_LIT:2> ) == LITERAL_interface ) ) { if ( inputState . guessing == <NUM_LIT:0> ) { break ; } AST tmp98_AST = null ; tmp98_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp98_AST ) ; match ( AT ) ; AST tmp99_AST = null ; tmp99_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp99_AST ) ; match ( LITERAL_interface ) ; } else if ( ( LA ( <NUM_LIT:1> ) == AT ) && ( LA ( <NUM_LIT:2> ) == IDENT ) ) { annotation ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; } else { break _loop89 ; } } while ( true ) ; } annotationsInternal_AST = ( AST ) currentAST . root ; returnAST = annotationsInternal_AST ; } public final void annotationMemberValueInitializer ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationMemberValueInitializer_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LCURLY : case LITERAL_this : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { conditionalExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; annotationMemberValueInitializer_AST = ( AST ) currentAST . root ; break ; } case AT : { annotation ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; annotationMemberValueInitializer_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = annotationMemberValueInitializer_AST ; } public final void annotationMemberValuePairs ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationMemberValuePairs_AST = null ; annotationMemberValuePair ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop95 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; annotationMemberValuePair ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop95 ; } } while ( true ) ; } annotationMemberValuePairs_AST = ( AST ) currentAST . root ; returnAST = annotationMemberValuePairs_AST ; } public final void annotationMemberValuePair ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationMemberValuePair_AST = null ; AST i_AST = null ; AST v_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; annotationIdent ( ) ; i_AST = ( AST ) returnAST ; match ( ASSIGN ) ; nls ( ) ; annotationMemberValueInitializer ( ) ; v_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { annotationMemberValuePair_AST = ( AST ) currentAST . root ; annotationMemberValuePair_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( ANNOTATION_MEMBER_VALUE_PAIR , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( i_AST ) . add ( v_AST ) ) ; currentAST . root = annotationMemberValuePair_AST ; currentAST . child = annotationMemberValuePair_AST != null && annotationMemberValuePair_AST . getFirstChild ( ) != null ? annotationMemberValuePair_AST . getFirstChild ( ) : annotationMemberValuePair_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = annotationMemberValuePair_AST ; } public final void annotationIdent ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationIdent_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { AST tmp102_AST = null ; tmp102_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp102_AST ) ; match ( IDENT ) ; annotationIdent_AST = ( AST ) currentAST . root ; break ; } case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case LITERAL_extends : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : { keywordPropertyNames ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; annotationIdent_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = annotationIdent_AST ; } public final void keywordPropertyNames ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST keywordPropertyNames_AST = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case ABSTRACT : { AST tmp103_AST = null ; tmp103_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp103_AST ) ; match ( ABSTRACT ) ; break ; } case LITERAL_as : { AST tmp104_AST = null ; tmp104_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp104_AST ) ; match ( LITERAL_as ) ; break ; } case LITERAL_assert : { AST tmp105_AST = null ; tmp105_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp105_AST ) ; match ( LITERAL_assert ) ; break ; } case LITERAL_break : { AST tmp106_AST = null ; tmp106_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp106_AST ) ; match ( LITERAL_break ) ; break ; } case LITERAL_case : { AST tmp107_AST = null ; tmp107_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp107_AST ) ; match ( LITERAL_case ) ; break ; } case LITERAL_catch : { AST tmp108_AST = null ; tmp108_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp108_AST ) ; match ( LITERAL_catch ) ; break ; } case LITERAL_class : { AST tmp109_AST = null ; tmp109_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp109_AST ) ; match ( LITERAL_class ) ; break ; } case LITERAL_continue : { AST tmp110_AST = null ; tmp110_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp110_AST ) ; match ( LITERAL_continue ) ; break ; } case LITERAL_def : { AST tmp111_AST = null ; tmp111_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp111_AST ) ; match ( LITERAL_def ) ; break ; } case LITERAL_default : { AST tmp112_AST = null ; tmp112_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp112_AST ) ; match ( LITERAL_default ) ; break ; } case UNUSED_DO : { AST tmp113_AST = null ; tmp113_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp113_AST ) ; match ( UNUSED_DO ) ; break ; } case LITERAL_else : { AST tmp114_AST = null ; tmp114_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp114_AST ) ; match ( LITERAL_else ) ; break ; } case LITERAL_enum : { AST tmp115_AST = null ; tmp115_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp115_AST ) ; match ( LITERAL_enum ) ; break ; } case LITERAL_extends : { AST tmp116_AST = null ; tmp116_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp116_AST ) ; match ( LITERAL_extends ) ; break ; } case LITERAL_false : { AST tmp117_AST = null ; tmp117_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp117_AST ) ; match ( LITERAL_false ) ; break ; } case FINAL : { AST tmp118_AST = null ; tmp118_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp118_AST ) ; match ( FINAL ) ; break ; } case LITERAL_finally : { AST tmp119_AST = null ; tmp119_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp119_AST ) ; match ( LITERAL_finally ) ; break ; } case LITERAL_for : { AST tmp120_AST = null ; tmp120_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp120_AST ) ; match ( LITERAL_for ) ; break ; } case UNUSED_GOTO : { AST tmp121_AST = null ; tmp121_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp121_AST ) ; match ( UNUSED_GOTO ) ; break ; } case LITERAL_if : { AST tmp122_AST = null ; tmp122_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp122_AST ) ; match ( LITERAL_if ) ; break ; } case LITERAL_implements : { AST tmp123_AST = null ; tmp123_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp123_AST ) ; match ( LITERAL_implements ) ; break ; } case LITERAL_import : { AST tmp124_AST = null ; tmp124_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp124_AST ) ; match ( LITERAL_import ) ; break ; } case LITERAL_in : { AST tmp125_AST = null ; tmp125_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp125_AST ) ; match ( LITERAL_in ) ; break ; } case LITERAL_instanceof : { AST tmp126_AST = null ; tmp126_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp126_AST ) ; match ( LITERAL_instanceof ) ; break ; } case LITERAL_interface : { AST tmp127_AST = null ; tmp127_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp127_AST ) ; match ( LITERAL_interface ) ; break ; } case LITERAL_native : { AST tmp128_AST = null ; tmp128_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp128_AST ) ; match ( LITERAL_native ) ; break ; } case LITERAL_new : { AST tmp129_AST = null ; tmp129_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp129_AST ) ; match ( LITERAL_new ) ; break ; } case LITERAL_null : { AST tmp130_AST = null ; tmp130_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp130_AST ) ; match ( LITERAL_null ) ; break ; } case LITERAL_package : { AST tmp131_AST = null ; tmp131_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp131_AST ) ; match ( LITERAL_package ) ; break ; } case LITERAL_private : { AST tmp132_AST = null ; tmp132_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp132_AST ) ; match ( LITERAL_private ) ; break ; } case LITERAL_protected : { AST tmp133_AST = null ; tmp133_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp133_AST ) ; match ( LITERAL_protected ) ; break ; } case LITERAL_public : { AST tmp134_AST = null ; tmp134_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp134_AST ) ; match ( LITERAL_public ) ; break ; } case LITERAL_return : { AST tmp135_AST = null ; tmp135_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp135_AST ) ; match ( LITERAL_return ) ; break ; } case LITERAL_static : { AST tmp136_AST = null ; tmp136_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp136_AST ) ; match ( LITERAL_static ) ; break ; } case STRICTFP : { AST tmp137_AST = null ; tmp137_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp137_AST ) ; match ( STRICTFP ) ; break ; } case LITERAL_switch : { AST tmp138_AST = null ; tmp138_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp138_AST ) ; match ( LITERAL_switch ) ; break ; } case LITERAL_synchronized : { AST tmp139_AST = null ; tmp139_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp139_AST ) ; match ( LITERAL_synchronized ) ; break ; } case LITERAL_threadsafe : { AST tmp140_AST = null ; tmp140_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp140_AST ) ; match ( LITERAL_threadsafe ) ; break ; } case LITERAL_throw : { AST tmp141_AST = null ; tmp141_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp141_AST ) ; match ( LITERAL_throw ) ; break ; } case LITERAL_throws : { AST tmp142_AST = null ; tmp142_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp142_AST ) ; match ( LITERAL_throws ) ; break ; } case LITERAL_transient : { AST tmp143_AST = null ; tmp143_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp143_AST ) ; match ( LITERAL_transient ) ; break ; } case LITERAL_true : { AST tmp144_AST = null ; tmp144_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp144_AST ) ; match ( LITERAL_true ) ; break ; } case LITERAL_try : { AST tmp145_AST = null ; tmp145_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp145_AST ) ; match ( LITERAL_try ) ; break ; } case LITERAL_volatile : { AST tmp146_AST = null ; tmp146_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp146_AST ) ; match ( LITERAL_volatile ) ; break ; } case LITERAL_while : { AST tmp147_AST = null ; tmp147_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp147_AST ) ; match ( LITERAL_while ) ; break ; } case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { builtInType ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { keywordPropertyNames_AST = ( AST ) currentAST . root ; keywordPropertyNames_AST . setType ( IDENT ) ; } keywordPropertyNames_AST = ( AST ) currentAST . root ; returnAST = keywordPropertyNames_AST ; } public final void conditionalExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST conditionalExpression_AST = null ; logicalOrExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case ELVIS_OPERATOR : { AST tmp148_AST = null ; tmp148_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp148_AST ) ; match ( ELVIS_OPERATOR ) ; nls ( ) ; conditionalExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case QUESTION : { AST tmp149_AST = null ; tmp149_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp149_AST ) ; match ( QUESTION ) ; nls ( ) ; assignmentExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( COLON ) ; nls ( ) ; conditionalExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case RBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case LITERAL_extends : case LITERAL_super : case COMMA : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case RPAREN : case ASSIGN : case LCURLY : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_this : case CLOSABLE_BLOCK_OP : case COLON : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case PLUS_ASSIGN : case MINUS_ASSIGN : case STAR_ASSIGN : case DIV_ASSIGN : case MOD_ASSIGN : case SR_ASSIGN : case BSR_ASSIGN : case SL_ASSIGN : case BAND_ASSIGN : case BXOR_ASSIGN : case BOR_ASSIGN : case STAR_STAR_ASSIGN : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } conditionalExpression_AST = ( AST ) currentAST . root ; returnAST = conditionalExpression_AST ; } public final void annotationMemberArrayValueInitializer ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationMemberArrayValueInitializer_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LCURLY : case LITERAL_this : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { conditionalExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; annotationMemberArrayValueInitializer_AST = ( AST ) currentAST . root ; break ; } case AT : { annotation ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; annotationMemberArrayValueInitializer_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = annotationMemberArrayValueInitializer_AST ; } public final void superClassClause ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST superClassClause_AST = null ; AST c_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_extends : { match ( LITERAL_extends ) ; nls ( ) ; classOrInterfaceType ( false ) ; c_AST = ( AST ) returnAST ; nls ( ) ; break ; } case LCURLY : case LITERAL_implements : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { superClassClause_AST = ( AST ) currentAST . root ; superClassClause_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( EXTENDS_CLAUSE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( c_AST ) ) ; currentAST . root = superClassClause_AST ; currentAST . child = superClassClause_AST != null && superClassClause_AST . getFirstChild ( ) != null ? superClassClause_AST . getFirstChild ( ) : superClassClause_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = superClassClause_AST ; } public final void implementsClause ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST implementsClause_AST = null ; Token i = null ; AST i_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_implements : { i = LT ( <NUM_LIT:1> ) ; i_AST = astFactory . create ( i ) ; match ( LITERAL_implements ) ; nls ( ) ; classOrInterfaceType ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop187 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; classOrInterfaceType ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop187 ; } } while ( true ) ; } nls ( ) ; break ; } case LCURLY : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { implementsClause_AST = ( AST ) currentAST . root ; implementsClause_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( IMPLEMENTS_CLAUSE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( implementsClause_AST ) ) ; currentAST . root = implementsClause_AST ; currentAST . child = implementsClause_AST != null && implementsClause_AST . getFirstChild ( ) != null ? implementsClause_AST . getFirstChild ( ) : implementsClause_AST ; currentAST . advanceChildToEnd ( ) ; } implementsClause_AST = ( AST ) currentAST . root ; returnAST = implementsClause_AST ; } public final void classBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST classBlock_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; try { match ( LCURLY ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : { classField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { _loop122 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI \|\| LA ( <NUM_LIT:1> ) == NLS ) ) { sep ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : { classField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop122 ; } } while ( true ) ; } match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { classBlock_AST = ( AST ) currentAST . root ; classBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( OBJBLOCK , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( classBlock_AST ) ) ; currentAST . root = classBlock_AST ; currentAST . child = classBlock_AST != null && classBlock_AST . getFirstChild ( ) != null ? classBlock_AST . getFirstChild ( ) : classBlock_AST ; currentAST . advanceChildToEnd ( ) ; } classBlock_AST = ( AST ) currentAST . root ; } catch ( RecognitionException e ) { if ( inputState . guessing == <NUM_LIT:0> ) { if ( errorList . isEmpty ( ) ) { classBlock_AST = ( AST ) currentAST . root ; } reportError ( e ) ; classBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( OBJBLOCK , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( classBlock_AST ) ) ; currentAST . root = classBlock_AST ; currentAST . child = classBlock_AST != null && classBlock_AST . getFirstChild ( ) != null ? classBlock_AST . getFirstChild ( ) : classBlock_AST ; currentAST . advanceChildToEnd ( ) ; } else { throw e ; } } returnAST = classBlock_AST ; } public final void interfaceExtends ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST interfaceExtends_AST = null ; Token e = null ; AST e_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_extends : { e = LT ( <NUM_LIT:1> ) ; e_AST = astFactory . create ( e ) ; match ( LITERAL_extends ) ; nls ( ) ; classOrInterfaceType ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop183 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; classOrInterfaceType ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop183 ; } } while ( true ) ; } nls ( ) ; break ; } case LCURLY : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { interfaceExtends_AST = ( AST ) currentAST . root ; interfaceExtends_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( EXTENDS_CLAUSE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( interfaceExtends_AST ) ) ; currentAST . root = interfaceExtends_AST ; currentAST . child = interfaceExtends_AST != null && interfaceExtends_AST . getFirstChild ( ) != null ? interfaceExtends_AST . getFirstChild ( ) : interfaceExtends_AST ; currentAST . advanceChildToEnd ( ) ; } interfaceExtends_AST = ( AST ) currentAST . root ; returnAST = interfaceExtends_AST ; } public final void interfaceBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST interfaceBlock_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LCURLY ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { interfaceField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { _loop127 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI \|\| LA ( <NUM_LIT:1> ) == NLS ) ) { sep ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { interfaceField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop127 ; } } while ( true ) ; } match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { interfaceBlock_AST = ( AST ) currentAST . root ; interfaceBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( OBJBLOCK , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( interfaceBlock_AST ) ) ; currentAST . root = interfaceBlock_AST ; currentAST . child = interfaceBlock_AST != null && interfaceBlock_AST . getFirstChild ( ) != null ? interfaceBlock_AST . getFirstChild ( ) : interfaceBlock_AST ; currentAST . advanceChildToEnd ( ) ; } interfaceBlock_AST = ( AST ) currentAST . root ; returnAST = interfaceBlock_AST ; } public final void enumBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST enumBlock_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LCURLY ) ; nls ( ) ; { boolean synPredMatched136 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == IDENT \|\| LA ( <NUM_LIT:1> ) == AT ) && ( _tokenSet_50 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m136 = mark ( ) ; synPredMatched136 = true ; inputState . guessing ++ ; try { { enumConstantsStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched136 = false ; } rewind ( _m136 ) ; inputState . guessing -- ; } if ( synPredMatched136 ) { enumConstants ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_51 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_52 . member ( LA ( <NUM_LIT:2> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : { classField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } { _loop140 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI \|\| LA ( <NUM_LIT:1> ) == NLS ) ) { sep ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : { classField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop140 ; } } while ( true ) ; } match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { enumBlock_AST = ( AST ) currentAST . root ; enumBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( OBJBLOCK , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( enumBlock_AST ) ) ; currentAST . root = enumBlock_AST ; currentAST . child = enumBlock_AST != null && enumBlock_AST . getFirstChild ( ) != null ? enumBlock_AST . getFirstChild ( ) : enumBlock_AST ; currentAST . advanceChildToEnd ( ) ; } enumBlock_AST = ( AST ) currentAST . root ; returnAST = enumBlock_AST ; } public final void annotationBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationBlock_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LCURLY ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { annotationField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { _loop132 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI \|\| LA ( <NUM_LIT:1> ) == NLS ) ) { sep ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { annotationField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop132 ; } } while ( true ) ; } match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { annotationBlock_AST = ( AST ) currentAST . root ; annotationBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( OBJBLOCK , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( annotationBlock_AST ) ) ; currentAST . root = annotationBlock_AST ; currentAST . child = annotationBlock_AST != null && annotationBlock_AST . getFirstChild ( ) != null ? annotationBlock_AST . getFirstChild ( ) : annotationBlock_AST ; currentAST . advanceChildToEnd ( ) ; } annotationBlock_AST = ( AST ) currentAST . root ; returnAST = annotationBlock_AST ; } public final void typeParameter ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeParameter_AST = null ; Token id = null ; AST id_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { id = LT ( <NUM_LIT:1> ) ; id_AST = astFactory . create ( id ) ; astFactory . addASTChild ( currentAST , id_AST ) ; match ( IDENT ) ; } { if ( ( LA ( <NUM_LIT:1> ) == LITERAL_extends ) && ( LA ( <NUM_LIT:2> ) == IDENT \|\| LA ( <NUM_LIT:2> ) == NLS ) ) { typeParameterBounds ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_53 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_54 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { typeParameter_AST = ( AST ) currentAST . root ; typeParameter_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE_PARAMETER , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( typeParameter_AST ) ) ; currentAST . root = typeParameter_AST ; currentAST . child = typeParameter_AST != null && typeParameter_AST . getFirstChild ( ) != null ? typeParameter_AST . getFirstChild ( ) : typeParameter_AST ; currentAST . advanceChildToEnd ( ) ; } typeParameter_AST = ( AST ) currentAST . root ; returnAST = typeParameter_AST ; } public final void typeParameterBounds ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeParameterBounds_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LITERAL_extends ) ; nls ( ) ; classOrInterfaceType ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop117 : do { if ( ( LA ( <NUM_LIT:1> ) == BAND ) ) { match ( BAND ) ; nls ( ) ; classOrInterfaceType ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop117 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { typeParameterBounds_AST = ( AST ) currentAST . root ; typeParameterBounds_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE_UPPER_BOUNDS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( typeParameterBounds_AST ) ) ; currentAST . root = typeParameterBounds_AST ; currentAST . child = typeParameterBounds_AST != null && typeParameterBounds_AST . getFirstChild ( ) != null ? typeParameterBounds_AST . getFirstChild ( ) : typeParameterBounds_AST ; currentAST . advanceChildToEnd ( ) ; } typeParameterBounds_AST = ( AST ) currentAST . root ; returnAST = typeParameterBounds_AST ; } public final void classField ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST classField_AST = null ; AST mc_AST = null ; AST ctor_AST = null ; AST dg_AST = null ; AST mad_AST = null ; AST dd_AST = null ; AST mods_AST = null ; AST td_AST = null ; AST s3_AST = null ; AST s4_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; try { boolean synPredMatched190 = false ; if ( ( ( _tokenSet_55 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_56 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m190 = mark ( ) ; synPredMatched190 = true ; inputState . guessing ++ ; try { { constructorStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched190 = false ; } rewind ( _m190 ) ; inputState . guessing -- ; } if ( synPredMatched190 ) { modifiersOpt ( ) ; mc_AST = ( AST ) returnAST ; constructorDefinition ( mc_AST ) ; ctor_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { classField_AST = ( AST ) currentAST . root ; classField_AST = ctor_AST ; currentAST . root = classField_AST ; currentAST . child = classField_AST != null && classField_AST . getFirstChild ( ) != null ? classField_AST . getFirstChild ( ) : classField_AST ; currentAST . advanceChildToEnd ( ) ; } } else { boolean synPredMatched192 = false ; if ( ( ( _tokenSet_13 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_14 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m192 = mark ( ) ; synPredMatched192 = true ; inputState . guessing ++ ; try { { genericMethodStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched192 = false ; } rewind ( _m192 ) ; inputState . guessing -- ; } if ( synPredMatched192 ) { genericMethod ( ) ; dg_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { classField_AST = ( AST ) currentAST . root ; classField_AST = dg_AST ; currentAST . root = classField_AST ; currentAST . child = classField_AST != null && classField_AST . getFirstChild ( ) != null ? classField_AST . getFirstChild ( ) : classField_AST ; currentAST . advanceChildToEnd ( ) ; } } else { boolean synPredMatched194 = false ; if ( ( ( _tokenSet_13 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_15 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m194 = mark ( ) ; synPredMatched194 = true ; inputState . guessing ++ ; try { { multipleAssignmentDeclarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched194 = false ; } rewind ( _m194 ) ; inputState . guessing -- ; } if ( synPredMatched194 ) { multipleAssignmentDeclaration ( ) ; mad_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { classField_AST = ( AST ) currentAST . root ; classField_AST = mad_AST ; currentAST . root = classField_AST ; currentAST . child = classField_AST != null && classField_AST . getFirstChild ( ) != null ? classField_AST . getFirstChild ( ) : classField_AST ; currentAST . advanceChildToEnd ( ) ; } } else { boolean synPredMatched196 = false ; if ( ( ( _tokenSet_16 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_17 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m196 = mark ( ) ; synPredMatched196 = true ; inputState . guessing ++ ; try { { declarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched196 = false ; } rewind ( _m196 ) ; inputState . guessing -- ; } if ( synPredMatched196 ) { declaration ( ) ; dd_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { classField_AST = ( AST ) currentAST . root ; classField_AST = dd_AST ; currentAST . root = classField_AST ; currentAST . child = classField_AST != null && classField_AST . getFirstChild ( ) != null ? classField_AST . getFirstChild ( ) : classField_AST ; currentAST . advanceChildToEnd ( ) ; } } else { boolean synPredMatched198 = false ; if ( ( ( _tokenSet_22 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_23 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m198 = mark ( ) ; synPredMatched198 = true ; inputState . guessing ++ ; try { { typeDeclarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched198 = false ; } rewind ( _m198 ) ; inputState . guessing -- ; } if ( synPredMatched198 ) { modifiersOpt ( ) ; mods_AST = ( AST ) returnAST ; { typeDefinitionInternal ( mods_AST ) ; td_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { classField_AST = ( AST ) currentAST . root ; classField_AST = td_AST ; currentAST . root = classField_AST ; currentAST . child = classField_AST != null && classField_AST . getFirstChild ( ) != null ? classField_AST . getFirstChild ( ) : classField_AST ; currentAST . advanceChildToEnd ( ) ; } } } else if ( ( LA ( <NUM_LIT:1> ) == LITERAL_static ) && ( LA ( <NUM_LIT:2> ) == LCURLY \|\| LA ( <NUM_LIT:2> ) == NLS ) ) { match ( LITERAL_static ) ; nls ( ) ; compoundStatement ( ) ; s3_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { classField_AST = ( AST ) currentAST . root ; classField_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( STATIC_INIT , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( s3_AST ) ) ; currentAST . root = classField_AST ; currentAST . child = classField_AST != null && classField_AST . getFirstChild ( ) != null ? classField_AST . getFirstChild ( ) : classField_AST ; currentAST . advanceChildToEnd ( ) ; } } else if ( ( LA ( <NUM_LIT:1> ) == LCURLY ) ) { compoundStatement ( ) ; s4_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { classField_AST = ( AST ) currentAST . root ; classField_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( INSTANCE_INIT , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( s4_AST ) ) ; currentAST . root = classField_AST ; currentAST . child = classField_AST != null && classField_AST . getFirstChild ( ) != null ? classField_AST . getFirstChild ( ) : classField_AST ; currentAST . advanceChildToEnd ( ) ; } } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } } } catch ( RecognitionException e ) { if ( inputState . guessing == <NUM_LIT:0> ) { reportError ( e ) ; classField_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( VARIABLE_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( null ) . add ( create ( TYPE , "<STR_LIT>" , LT ( <NUM_LIT:1> ) , LT ( <NUM_LIT:2> ) ) ) . add ( create ( IDENT , first . getText ( ) , LT ( <NUM_LIT:1> ) , LT ( <NUM_LIT:2> ) ) ) ) ; consumeUntil ( NLS ) ; } else { throw e ; } } returnAST = classField_AST ; } public final void interfaceField ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST interfaceField_AST = null ; AST d_AST = null ; AST mods_AST = null ; AST td_AST = null ; boolean synPredMatched202 = false ; if ( ( ( _tokenSet_16 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_17 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m202 = mark ( ) ; synPredMatched202 = true ; inputState . guessing ++ ; try { { declarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched202 = false ; } rewind ( _m202 ) ; inputState . guessing -- ; } if ( synPredMatched202 ) { declaration ( ) ; d_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { interfaceField_AST = ( AST ) currentAST . root ; interfaceField_AST = d_AST ; currentAST . root = interfaceField_AST ; currentAST . child = interfaceField_AST != null && interfaceField_AST . getFirstChild ( ) != null ? interfaceField_AST . getFirstChild ( ) : interfaceField_AST ; currentAST . advanceChildToEnd ( ) ; } } else { boolean synPredMatched204 = false ; if ( ( ( _tokenSet_22 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_23 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m204 = mark ( ) ; synPredMatched204 = true ; inputState . guessing ++ ; try { { typeDeclarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched204 = false ; } rewind ( _m204 ) ; inputState . guessing -- ; } if ( synPredMatched204 ) { modifiersOpt ( ) ; mods_AST = ( AST ) returnAST ; { typeDefinitionInternal ( mods_AST ) ; td_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { interfaceField_AST = ( AST ) currentAST . root ; interfaceField_AST = td_AST ; currentAST . root = interfaceField_AST ; currentAST . child = interfaceField_AST != null && interfaceField_AST . getFirstChild ( ) != null ? interfaceField_AST . getFirstChild ( ) : interfaceField_AST ; currentAST . advanceChildToEnd ( ) ; } } } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = interfaceField_AST ; } public final void annotationField ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST annotationField_AST = null ; AST mods_AST = null ; AST td_AST = null ; AST t_AST = null ; Token i = null ; AST i_AST = null ; AST amvi_AST = null ; AST v_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; modifiersOpt ( ) ; mods_AST = ( AST ) returnAST ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : { typeDefinitionInternal ( mods_AST ) ; td_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { annotationField_AST = ( AST ) currentAST . root ; annotationField_AST = td_AST ; currentAST . root = annotationField_AST ; currentAST . child = annotationField_AST != null && annotationField_AST . getFirstChild ( ) != null ? annotationField_AST . getFirstChild ( ) : annotationField_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } case IDENT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { typeSpec ( false ) ; t_AST = ( AST ) returnAST ; { boolean synPredMatched160 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == LPAREN ) ) ) { int _m160 = mark ( ) ; synPredMatched160 = true ; inputState . guessing ++ ; try { { match ( IDENT ) ; match ( LPAREN ) ; } } catch ( RecognitionException pe ) { synPredMatched160 = false ; } rewind ( _m160 ) ; inputState . guessing -- ; } if ( synPredMatched160 ) { i = LT ( <NUM_LIT:1> ) ; i_AST = astFactory . create ( i ) ; match ( IDENT ) ; match ( LPAREN ) ; match ( RPAREN ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_default : { match ( LITERAL_default ) ; nls ( ) ; annotationMemberValueInitializer ( ) ; amvi_AST = ( AST ) returnAST ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { annotationField_AST = ( AST ) currentAST . root ; annotationField_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:5> ) ) . add ( create ( ANNOTATION_FIELD_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( mods_AST ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( t_AST ) ) ) . add ( i_AST ) . add ( amvi_AST ) ) ; currentAST . root = annotationField_AST ; currentAST . child = annotationField_AST != null && annotationField_AST . getFirstChild ( ) != null ? annotationField_AST . getFirstChild ( ) : annotationField_AST ; currentAST . advanceChildToEnd ( ) ; } } else if ( ( LA ( <NUM_LIT:1> ) == IDENT \|\| LA ( <NUM_LIT:1> ) == STRING_LITERAL ) && ( _tokenSet_57 . member ( LA ( <NUM_LIT:2> ) ) ) ) { variableDefinitions ( mods_AST , t_AST ) ; v_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { annotationField_AST = ( AST ) currentAST . root ; annotationField_AST = v_AST ; currentAST . root = annotationField_AST ; currentAST . child = annotationField_AST != null && annotationField_AST . getFirstChild ( ) != null ? annotationField_AST . getFirstChild ( ) : annotationField_AST ; currentAST . advanceChildToEnd ( ) ; } } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } returnAST = annotationField_AST ; } public final void enumConstantsStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST enumConstantsStart_AST = null ; annotationsOpt ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; AST tmp168_AST = null ; tmp168_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp168_AST ) ; match ( IDENT ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LCURLY : { AST tmp169_AST = null ; tmp169_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp169_AST ) ; match ( LCURLY ) ; break ; } case LPAREN : { AST tmp170_AST = null ; tmp170_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp170_AST ) ; match ( LPAREN ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case AT : case COMMA : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case RCURLY : case SEMI : case NLS : { nls ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : { AST tmp171_AST = null ; tmp171_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp171_AST ) ; match ( SEMI ) ; break ; } case COMMA : { AST tmp172_AST = null ; tmp172_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp172_AST ) ; match ( COMMA ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { declarationStart ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : { AST tmp173_AST = null ; tmp173_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp173_AST ) ; match ( RCURLY ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } enumConstantsStart_AST = ( AST ) currentAST . root ; returnAST = enumConstantsStart_AST ; } public final void enumConstants ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST enumConstants_AST = null ; enumConstant ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop155 : do { boolean synPredMatched148 = false ; if ( ( ( _tokenSet_58 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_59 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m148 = mark ( ) ; synPredMatched148 = true ; inputState . guessing ++ ; try { { nls ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case RCURLY : { match ( RCURLY ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : { classField ( ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } } catch ( RecognitionException pe ) { synPredMatched148 = false ; } rewind ( _m148 ) ; inputState . guessing -- ; } if ( synPredMatched148 ) { if ( inputState . guessing == <NUM_LIT:0> ) { break ; } } else if ( ( LA ( <NUM_LIT:1> ) == COMMA \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_60 . member ( LA ( <NUM_LIT:2> ) ) ) ) { nls ( ) ; match ( COMMA ) ; { boolean synPredMatched152 = false ; if ( ( ( _tokenSet_58 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_59 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m152 = mark ( ) ; synPredMatched152 = true ; inputState . guessing ++ ; try { { nls ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case RCURLY : { match ( RCURLY ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : { classField ( ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } } catch ( RecognitionException pe ) { synPredMatched152 = false ; } rewind ( _m152 ) ; inputState . guessing -- ; } if ( synPredMatched152 ) { if ( inputState . guessing == <NUM_LIT:0> ) { break ; } } else { boolean synPredMatched154 = false ; if ( ( ( _tokenSet_61 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_62 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m154 = mark ( ) ; synPredMatched154 = true ; inputState . guessing ++ ; try { { nls ( ) ; annotationsOpt ( ) ; match ( IDENT ) ; } } catch ( RecognitionException pe ) { synPredMatched154 = false ; } rewind ( _m154 ) ; inputState . guessing -- ; } if ( synPredMatched154 ) { nls ( ) ; enumConstant ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop155 ; } } while ( true ) ; } enumConstants_AST = ( AST ) currentAST . root ; returnAST = enumConstants_AST ; } public final void enumConstant ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST enumConstant_AST = null ; AST an_AST = null ; Token i = null ; AST i_AST = null ; AST a_AST = null ; AST b_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; annotationsOpt ( ) ; an_AST = ( AST ) returnAST ; i = LT ( <NUM_LIT:1> ) ; i_AST = astFactory . create ( i ) ; match ( IDENT ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LPAREN : { match ( LPAREN ) ; argList ( ) ; a_AST = ( AST ) returnAST ; match ( RPAREN ) ; break ; } case COMMA : case LCURLY : case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { switch ( LA ( <NUM_LIT:1> ) ) { case LCURLY : { enumConstantBlock ( ) ; b_AST = ( AST ) returnAST ; break ; } case COMMA : case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { enumConstant_AST = ( AST ) currentAST . root ; enumConstant_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:5> ) ) . add ( create ( ENUM_CONSTANT_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( an_AST ) . add ( i_AST ) . add ( a_AST ) . add ( b_AST ) ) ; currentAST . root = enumConstant_AST ; currentAST . child = enumConstant_AST != null && enumConstant_AST . getFirstChild ( ) != null ? enumConstant_AST . getFirstChild ( ) : enumConstant_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = enumConstant_AST ; } public final void argList ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST argList_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; Token lastComma = null ; int hls = <NUM_LIT:0> , hls2 = <NUM_LIT:0> ; boolean hasClosureList = false ; boolean trailingComma = false ; boolean sce = false ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_extends : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case STAR : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_this : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { hls = argument ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : { { { int _cnt510 = <NUM_LIT:0> ; _loop510 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI ) ) { match ( SEMI ) ; if ( inputState . guessing == <NUM_LIT:0> ) { hasClosureList = true ; } { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { sce = strictContextExpression ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RBRACK : case RPAREN : case SEMI : { if ( inputState . guessing == <NUM_LIT:0> ) { astFactory . addASTChild ( currentAST , astFactory . create ( EMPTY_STAT , "<STR_LIT>" ) ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { if ( _cnt510 >= <NUM_LIT:1> ) { break _loop510 ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } _cnt510 ++ ; } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { argList_AST = ( AST ) currentAST . root ; argList_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( CLOSURE_LIST , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( argList_AST ) ) ; currentAST . root = argList_AST ; currentAST . child = argList_AST != null && argList_AST . getFirstChild ( ) != null ? argList_AST . getFirstChild ( ) : argList_AST ; currentAST . advanceChildToEnd ( ) ; } } break ; } case RBRACK : case COMMA : case RPAREN : { { { _loop516 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { if ( inputState . guessing == <NUM_LIT:0> ) { lastComma = LT ( <NUM_LIT:1> ) ; } match ( COMMA ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_extends : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case STAR : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_this : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { { hls2 = argument ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { hls \|= hls2 ; } } break ; } case RBRACK : case COMMA : case RPAREN : { { if ( inputState . guessing == <NUM_LIT:0> ) { if ( trailingComma ) throw new NoViableAltException ( lastComma , getFilename ( ) ) ; trailingComma = true ; } } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop516 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { argList_AST = ( AST ) currentAST . root ; argList_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( ELIST , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( argList_AST ) ) ; currentAST . root = argList_AST ; currentAST . child = argList_AST != null && argList_AST . getFirstChild ( ) != null ? argList_AST . getFirstChild ( ) : argList_AST ; currentAST . advanceChildToEnd ( ) ; } } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } break ; } case RBRACK : case RPAREN : { { if ( inputState . guessing == <NUM_LIT:0> ) { argList_AST = ( AST ) currentAST . root ; argList_AST = create ( ELIST , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ; currentAST . root = argList_AST ; currentAST . child = argList_AST != null && argList_AST . getFirstChild ( ) != null ? argList_AST . getFirstChild ( ) : argList_AST ; currentAST . advanceChildToEnd ( ) ; } } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { argListHasLabels = ( hls & <NUM_LIT:1> ) != <NUM_LIT:0> ; } argList_AST = ( AST ) currentAST . root ; returnAST = argList_AST ; } public final void enumConstantBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST enumConstantBlock_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LCURLY ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : { enumConstantField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { _loop169 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI \|\| LA ( <NUM_LIT:1> ) == NLS ) ) { sep ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : { enumConstantField ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop169 ; } } while ( true ) ; } match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { enumConstantBlock_AST = ( AST ) currentAST . root ; enumConstantBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( OBJBLOCK , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( enumConstantBlock_AST ) ) ; currentAST . root = enumConstantBlock_AST ; currentAST . child = enumConstantBlock_AST != null && enumConstantBlock_AST . getFirstChild ( ) != null ? enumConstantBlock_AST . getFirstChild ( ) : enumConstantBlock_AST ; currentAST . advanceChildToEnd ( ) ; } enumConstantBlock_AST = ( AST ) currentAST . root ; returnAST = enumConstantBlock_AST ; } public final void enumConstantField ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST enumConstantField_AST = null ; AST mods_AST = null ; AST td_AST = null ; AST tp_AST = null ; AST t_AST = null ; AST param_AST = null ; AST tc_AST = null ; AST s2_AST = null ; AST v_AST = null ; AST s4_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case IDENT : case LT : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { modifiersOpt ( ) ; mods_AST = ( AST ) returnAST ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : { typeDefinitionInternal ( mods_AST ) ; td_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { enumConstantField_AST = ( AST ) currentAST . root ; enumConstantField_AST = td_AST ; currentAST . root = enumConstantField_AST ; currentAST . child = enumConstantField_AST != null && enumConstantField_AST . getFirstChild ( ) != null ? enumConstantField_AST . getFirstChild ( ) : enumConstantField_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } case IDENT : case LT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeParameters ( ) ; tp_AST = ( AST ) returnAST ; break ; } case IDENT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } typeSpec ( false ) ; t_AST = ( AST ) returnAST ; { boolean synPredMatched175 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == LPAREN ) ) ) { int _m175 = mark ( ) ; synPredMatched175 = true ; inputState . guessing ++ ; try { { match ( IDENT ) ; match ( LPAREN ) ; } } catch ( RecognitionException pe ) { synPredMatched175 = false ; } rewind ( _m175 ) ; inputState . guessing -- ; } if ( synPredMatched175 ) { AST tmp181_AST = null ; tmp181_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; match ( LPAREN ) ; parameterDeclarationList ( ) ; param_AST = ( AST ) returnAST ; match ( RPAREN ) ; { boolean synPredMatched178 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_throws \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_29 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m178 = mark ( ) ; synPredMatched178 = true ; inputState . guessing ++ ; try { { nls ( ) ; match ( LITERAL_throws ) ; } } catch ( RecognitionException pe ) { synPredMatched178 = false ; } rewind ( _m178 ) ; inputState . guessing -- ; } if ( synPredMatched178 ) { throwsClause ( ) ; tc_AST = ( AST ) returnAST ; } else if ( ( _tokenSet_63 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_64 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } { switch ( LA ( <NUM_LIT:1> ) ) { case LCURLY : { compoundStatement ( ) ; s2_AST = ( AST ) returnAST ; break ; } case RCURLY : case SEMI : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { enumConstantField_AST = ( AST ) currentAST . root ; enumConstantField_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:8> ) ) . add ( create ( METHOD_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( mods_AST ) . add ( tp_AST ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( t_AST ) ) ) . add ( tmp181_AST ) . add ( param_AST ) . add ( tc_AST ) . add ( s2_AST ) ) ; currentAST . root = enumConstantField_AST ; currentAST . child = enumConstantField_AST != null && enumConstantField_AST . getFirstChild ( ) != null ? enumConstantField_AST . getFirstChild ( ) : enumConstantField_AST ; currentAST . advanceChildToEnd ( ) ; } } else if ( ( LA ( <NUM_LIT:1> ) == IDENT \|\| LA ( <NUM_LIT:1> ) == STRING_LITERAL ) && ( _tokenSet_57 . member ( LA ( <NUM_LIT:2> ) ) ) ) { variableDefinitions ( mods_AST , t_AST ) ; v_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { enumConstantField_AST = ( AST ) currentAST . root ; enumConstantField_AST = v_AST ; currentAST . root = enumConstantField_AST ; currentAST . child = enumConstantField_AST != null && enumConstantField_AST . getFirstChild ( ) != null ? enumConstantField_AST . getFirstChild ( ) : enumConstantField_AST ; currentAST . advanceChildToEnd ( ) ; } } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } break ; } case LCURLY : { compoundStatement ( ) ; s4_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { enumConstantField_AST = ( AST ) currentAST . root ; enumConstantField_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( INSTANCE_INIT , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( s4_AST ) ) ; currentAST . root = enumConstantField_AST ; currentAST . child = enumConstantField_AST != null && enumConstantField_AST . getFirstChild ( ) != null ? enumConstantField_AST . getFirstChild ( ) : enumConstantField_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = enumConstantField_AST ; } public final void parameterDeclarationList ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST parameterDeclarationList_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case LITERAL_def : case IDENT : case AT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case TRIPLE_DOT : { parameterDeclaration ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop254 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; parameterDeclaration ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop254 ; } } while ( true ) ; } break ; } case RPAREN : case CLOSABLE_BLOCK_OP : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { parameterDeclarationList_AST = ( AST ) currentAST . root ; parameterDeclarationList_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( PARAMETERS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( parameterDeclarationList_AST ) ) ; currentAST . root = parameterDeclarationList_AST ; currentAST . child = parameterDeclarationList_AST != null && parameterDeclarationList_AST . getFirstChild ( ) != null ? parameterDeclarationList_AST . getFirstChild ( ) : parameterDeclarationList_AST ; currentAST . advanceChildToEnd ( ) ; } parameterDeclarationList_AST = ( AST ) currentAST . root ; returnAST = parameterDeclarationList_AST ; } public final void throwsClause ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST throwsClause_AST = null ; nls ( ) ; AST tmp185_AST = null ; tmp185_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp185_AST ) ; match ( LITERAL_throws ) ; nls ( ) ; identifier ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop250 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; identifier ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop250 ; } } while ( true ) ; } throwsClause_AST = ( AST ) currentAST . root ; returnAST = throwsClause_AST ; } public final void compoundStatement ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST compoundStatement_AST = null ; openBlock ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; compoundStatement_AST = ( AST ) currentAST . root ; returnAST = compoundStatement_AST ; } public final void constructorDefinition ( AST mods ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST constructorDefinition_AST = null ; Token id = null ; AST id_AST = null ; AST param_AST = null ; AST tc_AST = null ; AST cb_AST = null ; Token first = cloneToken ( LT ( <NUM_LIT:1> ) ) ; if ( mods != null ) { first . setLine ( mods . getLine ( ) ) ; first . setColumn ( mods . getColumn ( ) ) ; } id = LT ( <NUM_LIT:1> ) ; id_AST = astFactory . create ( id ) ; astFactory . addASTChild ( currentAST , id_AST ) ; match ( IDENT ) ; match ( LPAREN ) ; parameterDeclarationList ( ) ; param_AST = ( AST ) returnAST ; match ( RPAREN ) ; { boolean synPredMatched239 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_throws \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_29 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m239 = mark ( ) ; synPredMatched239 = true ; inputState . guessing ++ ; try { { nls ( ) ; match ( LITERAL_throws ) ; } } catch ( RecognitionException pe ) { synPredMatched239 = false ; } rewind ( _m239 ) ; inputState . guessing -- ; } if ( synPredMatched239 ) { throwsClause ( ) ; tc_AST = ( AST ) returnAST ; } else if ( ( LA ( <NUM_LIT:1> ) == LCURLY \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_65 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } nlsWarn ( ) ; if ( inputState . guessing == <NUM_LIT:0> ) { isConstructorIdent ( id ) ; } constructorBody ( ) ; cb_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { constructorDefinition_AST = ( AST ) currentAST . root ; constructorDefinition_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:5> ) ) . add ( create ( CTOR_IDENT , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( mods ) . add ( param_AST ) . add ( tc_AST ) . add ( cb_AST ) ) ; currentAST . root = constructorDefinition_AST ; currentAST . child = constructorDefinition_AST != null && constructorDefinition_AST . getFirstChild ( ) != null ? constructorDefinition_AST . getFirstChild ( ) : constructorDefinition_AST ; currentAST . advanceChildToEnd ( ) ; } constructorDefinition_AST = ( AST ) currentAST . root ; returnAST = constructorDefinition_AST ; } public final void multipleAssignmentDeclarationStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST multipleAssignmentDeclarationStart_AST = null ; { _loop219 : do { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : { modifier ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case AT : { annotation ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } default : { break _loop219 ; } } } while ( true ) ; } AST tmp189_AST = null ; tmp189_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp189_AST ) ; match ( LITERAL_def ) ; nls ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; AST tmp190_AST = null ; tmp190_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp190_AST ) ; match ( LPAREN ) ; multipleAssignmentDeclarationStart_AST = ( AST ) currentAST . root ; returnAST = multipleAssignmentDeclarationStart_AST ; } public final void multipleAssignmentDeclaration ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST multipleAssignmentDeclaration_AST = null ; AST mods_AST = null ; AST t_AST = null ; Token first = cloneToken ( LT ( <NUM_LIT:1> ) ) ; modifiers ( ) ; mods_AST = ( AST ) returnAST ; { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { typeSpec ( false ) ; t_AST = ( AST ) returnAST ; break ; } case LPAREN : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } AST tmp191_AST = null ; tmp191_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp191_AST ) ; match ( LPAREN ) ; nls ( ) ; typeNamePairs ( mods_AST , first ) ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( RPAREN ) ; AST tmp193_AST = null ; tmp193_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp193_AST ) ; match ( ASSIGN ) ; nls ( ) ; assignmentExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { multipleAssignmentDeclaration_AST = ( AST ) currentAST . root ; multipleAssignmentDeclaration_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( VARIABLE_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( mods_AST ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( t_AST ) ) ) . add ( multipleAssignmentDeclaration_AST ) ) ; currentAST . root = multipleAssignmentDeclaration_AST ; currentAST . child = multipleAssignmentDeclaration_AST != null && multipleAssignmentDeclaration_AST . getFirstChild ( ) != null ? multipleAssignmentDeclaration_AST . getFirstChild ( ) : multipleAssignmentDeclaration_AST ; currentAST . advanceChildToEnd ( ) ; } multipleAssignmentDeclaration_AST = ( AST ) currentAST . root ; returnAST = multipleAssignmentDeclaration_AST ; } public final void constructorBody ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST constructorBody_AST = null ; AST eci_AST = null ; AST bb1_AST = null ; AST bb2_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LCURLY ) ; nls ( ) ; { boolean synPredMatched209 = false ; if ( ( ( _tokenSet_66 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_67 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m209 = mark ( ) ; synPredMatched209 = true ; inputState . guessing ++ ; try { { explicitConstructorInvocation ( ) ; } } catch ( RecognitionException pe ) { synPredMatched209 = false ; } rewind ( _m209 ) ; inputState . guessing -- ; } if ( synPredMatched209 ) { explicitConstructorInvocation ( ) ; eci_AST = ( AST ) returnAST ; { switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : case NLS : { sep ( ) ; blockBody ( sepToken ) ; bb1_AST = ( AST ) returnAST ; break ; } case RCURLY : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else if ( ( _tokenSet_31 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_68 . member ( LA ( <NUM_LIT:2> ) ) ) ) { blockBody ( EOF ) ; bb2_AST = ( AST ) returnAST ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { constructorBody_AST = ( AST ) currentAST . root ; if ( eci_AST != null ) constructorBody_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( SLIST , "<STR_LIT:{>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( eci_AST ) . add ( bb1_AST ) ) ; else constructorBody_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( SLIST , "<STR_LIT:{>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( bb2_AST ) ) ; currentAST . root = constructorBody_AST ; currentAST . child = constructorBody_AST != null && constructorBody_AST . getFirstChild ( ) != null ? constructorBody_AST . getFirstChild ( ) : constructorBody_AST ; currentAST . advanceChildToEnd ( ) ; } constructorBody_AST = ( AST ) currentAST . root ; returnAST = constructorBody_AST ; } public final void explicitConstructorInvocation ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST explicitConstructorInvocation_AST = null ; Token lp1 = null ; AST lp1_AST = null ; Token lp2 = null ; AST lp2_AST = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeArguments ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case LITERAL_super : case LITERAL_this : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_this : { match ( LITERAL_this ) ; lp1 = LT ( <NUM_LIT:1> ) ; lp1_AST = astFactory . create ( lp1 ) ; astFactory . makeASTRoot ( currentAST , lp1_AST ) ; match ( LPAREN ) ; argList ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( RPAREN ) ; if ( inputState . guessing == <NUM_LIT:0> ) { lp1_AST . setType ( CTOR_CALL ) ; } break ; } case LITERAL_super : { match ( LITERAL_super ) ; lp2 = LT ( <NUM_LIT:1> ) ; lp2_AST = astFactory . create ( lp2 ) ; astFactory . makeASTRoot ( currentAST , lp2_AST ) ; match ( LPAREN ) ; argList ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( RPAREN ) ; if ( inputState . guessing == <NUM_LIT:0> ) { lp2_AST . setType ( SUPER_CTOR_CALL ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } explicitConstructorInvocation_AST = ( AST ) currentAST . root ; returnAST = explicitConstructorInvocation_AST ; } public final void listOfVariables ( AST mods , AST t , Token first ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST listOfVariables_AST = null ; variableDeclarator ( getASTFactory ( ) . dupTree ( mods ) , getASTFactory ( ) . dupTree ( t ) , first ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop216 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; if ( inputState . guessing == <NUM_LIT:0> ) { first = LT ( <NUM_LIT:1> ) ; } variableDeclarator ( getASTFactory ( ) . dupTree ( mods ) , getASTFactory ( ) . dupTree ( t ) , first ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop216 ; } } while ( true ) ; } listOfVariables_AST = ( AST ) currentAST . root ; returnAST = listOfVariables_AST ; } public final void variableDeclarator ( AST mods , AST t , Token first ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST variableDeclarator_AST = null ; AST id_AST = null ; AST v_AST = null ; variableName ( ) ; id_AST = ( AST ) returnAST ; { switch ( LA ( <NUM_LIT:1> ) ) { case ASSIGN : { varInitializer ( ) ; v_AST = ( AST ) returnAST ; break ; } case EOF : case COMMA : case RPAREN : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_else : case LITERAL_case : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { variableDeclarator_AST = ( AST ) currentAST . root ; variableDeclarator_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:5> ) ) . add ( create ( VARIABLE_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( mods ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( t ) ) ) . add ( id_AST ) . add ( v_AST ) ) ; currentAST . root = variableDeclarator_AST ; currentAST . child = variableDeclarator_AST != null && variableDeclarator_AST . getFirstChild ( ) != null ? variableDeclarator_AST . getFirstChild ( ) : variableDeclarator_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = variableDeclarator_AST ; } public final void typeNamePairs ( AST mods , Token first ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST typeNamePairs_AST = null ; AST t_AST = null ; AST tn_AST = null ; { if ( ( _tokenSet_25 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_32 . member ( LA ( <NUM_LIT:2> ) ) ) ) { typeSpec ( false ) ; t_AST = ( AST ) returnAST ; } else if ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == COMMA \|\| LA ( <NUM_LIT:2> ) == RPAREN ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } singleVariable ( getASTFactory ( ) . dupTree ( mods ) , t_AST ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop224 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; if ( inputState . guessing == <NUM_LIT:0> ) { first = LT ( <NUM_LIT:1> ) ; } { if ( ( _tokenSet_25 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_32 . member ( LA ( <NUM_LIT:2> ) ) ) ) { typeSpec ( false ) ; tn_AST = ( AST ) returnAST ; } else if ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == COMMA \|\| LA ( <NUM_LIT:2> ) == RPAREN ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } singleVariable ( getASTFactory ( ) . dupTree ( mods ) , tn_AST ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop224 ; } } while ( true ) ; } typeNamePairs_AST = ( AST ) currentAST . root ; returnAST = typeNamePairs_AST ; } public final void assignmentExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST assignmentExpression_AST = null ; conditionalExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case ASSIGN : case PLUS_ASSIGN : case MINUS_ASSIGN : case STAR_ASSIGN : case DIV_ASSIGN : case MOD_ASSIGN : case SR_ASSIGN : case BSR_ASSIGN : case SL_ASSIGN : case BAND_ASSIGN : case BXOR_ASSIGN : case BOR_ASSIGN : case STAR_STAR_ASSIGN : { { switch ( LA ( <NUM_LIT:1> ) ) { case ASSIGN : { AST tmp202_AST = null ; tmp202_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp202_AST ) ; match ( ASSIGN ) ; break ; } case PLUS_ASSIGN : { AST tmp203_AST = null ; tmp203_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp203_AST ) ; match ( PLUS_ASSIGN ) ; break ; } case MINUS_ASSIGN : { AST tmp204_AST = null ; tmp204_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp204_AST ) ; match ( MINUS_ASSIGN ) ; break ; } case STAR_ASSIGN : { AST tmp205_AST = null ; tmp205_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp205_AST ) ; match ( STAR_ASSIGN ) ; break ; } case DIV_ASSIGN : { AST tmp206_AST = null ; tmp206_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp206_AST ) ; match ( DIV_ASSIGN ) ; break ; } case MOD_ASSIGN : { AST tmp207_AST = null ; tmp207_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp207_AST ) ; match ( MOD_ASSIGN ) ; break ; } case SR_ASSIGN : { AST tmp208_AST = null ; tmp208_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp208_AST ) ; match ( SR_ASSIGN ) ; break ; } case BSR_ASSIGN : { AST tmp209_AST = null ; tmp209_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp209_AST ) ; match ( BSR_ASSIGN ) ; break ; } case SL_ASSIGN : { AST tmp210_AST = null ; tmp210_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp210_AST ) ; match ( SL_ASSIGN ) ; break ; } case BAND_ASSIGN : { AST tmp211_AST = null ; tmp211_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp211_AST ) ; match ( BAND_ASSIGN ) ; break ; } case BXOR_ASSIGN : { AST tmp212_AST = null ; tmp212_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp212_AST ) ; match ( BXOR_ASSIGN ) ; break ; } case BOR_ASSIGN : { AST tmp213_AST = null ; tmp213_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp213_AST ) ; match ( BOR_ASSIGN ) ; break ; } case STAR_STAR_ASSIGN : { AST tmp214_AST = null ; tmp214_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp214_AST ) ; match ( STAR_STAR_ASSIGN ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; assignmentExpression ( lc_stmt == LC_STMT ? LC_INIT : <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case RBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case LITERAL_extends : case LITERAL_super : case COMMA : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case RPAREN : case LCURLY : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_this : case CLOSABLE_BLOCK_OP : case COLON : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } assignmentExpression_AST = ( AST ) currentAST . root ; returnAST = assignmentExpression_AST ; } public final void nlsWarn ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST nlsWarn_AST = null ; { boolean synPredMatched555 = false ; if ( ( ( _tokenSet_69 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m555 = mark ( ) ; synPredMatched555 = true ; inputState . guessing ++ ; try { { match ( NLS ) ; } } catch ( RecognitionException pe ) { synPredMatched555 = false ; } rewind ( _m555 ) ; inputState . guessing -- ; } if ( synPredMatched555 ) { if ( inputState . guessing == <NUM_LIT:0> ) { addWarning ( "<STR_LIT>" , "<STR_LIT>" ) ; } } else if ( ( _tokenSet_69 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } nls ( ) ; returnAST = nlsWarn_AST ; } public final void openBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST openBlock_AST = null ; AST bb_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LCURLY ) ; nls ( ) ; blockBody ( EOF ) ; bb_AST = ( AST ) returnAST ; match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { openBlock_AST = ( AST ) currentAST . root ; openBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( SLIST , "<STR_LIT:{>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( bb_AST ) ) ; currentAST . root = openBlock_AST ; currentAST . child = openBlock_AST != null && openBlock_AST . getFirstChild ( ) != null ? openBlock_AST . getFirstChild ( ) : openBlock_AST ; currentAST . advanceChildToEnd ( ) ; } openBlock_AST = ( AST ) currentAST . root ; returnAST = openBlock_AST ; } public final void variableName ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST variableName_AST = null ; AST tmp217_AST = null ; tmp217_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp217_AST ) ; match ( IDENT ) ; variableName_AST = ( AST ) currentAST . root ; returnAST = variableName_AST ; } public final void expression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST expression_AST = null ; Token lp = null ; AST lp_AST = null ; AST m_AST = null ; boolean synPredMatched369 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LPAREN ) && ( _tokenSet_25 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m369 = mark ( ) ; synPredMatched369 = true ; inputState . guessing ++ ; try { { match ( LPAREN ) ; typeSpec ( true ) ; match ( RPAREN ) ; expression ( lc_stmt ) ; } } catch ( RecognitionException pe ) { synPredMatched369 = false ; } rewind ( _m369 ) ; inputState . guessing -- ; } if ( synPredMatched369 ) { lp = LT ( <NUM_LIT:1> ) ; lp_AST = astFactory . create ( lp ) ; astFactory . makeASTRoot ( currentAST , lp_AST ) ; match ( LPAREN ) ; if ( inputState . guessing == <NUM_LIT:0> ) { lp_AST . setType ( TYPECAST ) ; } typeSpec ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( RPAREN ) ; expression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; expression_AST = ( AST ) currentAST . root ; } else { boolean synPredMatched373 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LPAREN ) && ( LA ( <NUM_LIT:2> ) == IDENT \|\| LA ( <NUM_LIT:2> ) == NLS ) ) ) { int _m373 = mark ( ) ; synPredMatched373 = true ; inputState . guessing ++ ; try { { match ( LPAREN ) ; nls ( ) ; match ( IDENT ) ; { _loop372 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; match ( IDENT ) ; } else { break _loop372 ; } } while ( true ) ; } match ( RPAREN ) ; match ( ASSIGN ) ; } } catch ( RecognitionException pe ) { synPredMatched373 = false ; } rewind ( _m373 ) ; inputState . guessing -- ; } if ( synPredMatched373 ) { multipleAssignment ( lc_stmt ) ; m_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { expression_AST = ( AST ) currentAST . root ; expression_AST = m_AST ; currentAST . root = expression_AST ; currentAST . child = expression_AST != null && expression_AST . getFirstChild ( ) != null ? expression_AST . getFirstChild ( ) : expression_AST ; currentAST . advanceChildToEnd ( ) ; } expression_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_38 . member ( LA ( <NUM_LIT:2> ) ) ) ) { assignmentExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; expression_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = expression_AST ; } public final void parameterDeclaration ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST parameterDeclaration_AST = null ; AST pm_AST = null ; AST t_AST = null ; Token id = null ; AST id_AST = null ; AST exp_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; boolean spreadParam = false ; parameterModifiersOpt ( ) ; pm_AST = ( AST ) returnAST ; { if ( ( _tokenSet_25 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_70 . member ( LA ( <NUM_LIT:2> ) ) ) ) { typeSpec ( false ) ; t_AST = ( AST ) returnAST ; } else if ( ( LA ( <NUM_LIT:1> ) == IDENT \|\| LA ( <NUM_LIT:1> ) == TRIPLE_DOT ) && ( _tokenSet_71 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } { switch ( LA ( <NUM_LIT:1> ) ) { case TRIPLE_DOT : { match ( TRIPLE_DOT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { spreadParam = true ; } break ; } case IDENT : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } id = LT ( <NUM_LIT:1> ) ; id_AST = astFactory . create ( id ) ; match ( IDENT ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case ASSIGN : { varInitializer ( ) ; exp_AST = ( AST ) returnAST ; break ; } case COMMA : case RPAREN : case CLOSABLE_BLOCK_OP : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { parameterDeclaration_AST = ( AST ) currentAST . root ; if ( spreadParam ) { parameterDeclaration_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:5> ) ) . add ( create ( VARIABLE_PARAMETER_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( pm_AST ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( t_AST ) ) ) . add ( id_AST ) . add ( exp_AST ) ) ; } else { parameterDeclaration_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:5> ) ) . add ( create ( PARAMETER_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( pm_AST ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( t_AST ) ) ) . add ( id_AST ) . add ( exp_AST ) ) ; } currentAST . root = parameterDeclaration_AST ; currentAST . child = parameterDeclaration_AST != null && parameterDeclaration_AST . getFirstChild ( ) != null ? parameterDeclaration_AST . getFirstChild ( ) : parameterDeclaration_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = parameterDeclaration_AST ; } public final void parameterModifiersOpt ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST parameterModifiersOpt_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; int seenDef = <NUM_LIT:0> ; { _loop261 : do { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : { AST tmp220_AST = null ; tmp220_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp220_AST ) ; match ( FINAL ) ; nls ( ) ; break ; } case AT : { annotation ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; break ; } default : if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_def ) ) && ( seenDef ++ == <NUM_LIT:0> ) ) { match ( LITERAL_def ) ; nls ( ) ; } else { break _loop261 ; } } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { parameterModifiersOpt_AST = ( AST ) currentAST . root ; parameterModifiersOpt_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( MODIFIERS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( parameterModifiersOpt_AST ) ) ; currentAST . root = parameterModifiersOpt_AST ; currentAST . child = parameterModifiersOpt_AST != null && parameterModifiersOpt_AST . getFirstChild ( ) != null ? parameterModifiersOpt_AST . getFirstChild ( ) : parameterModifiersOpt_AST ; currentAST . advanceChildToEnd ( ) ; } parameterModifiersOpt_AST = ( AST ) currentAST . root ; returnAST = parameterModifiersOpt_AST ; } public final void closableBlockParamsOpt ( boolean addImplicit ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST closableBlockParamsOpt_AST = null ; boolean synPredMatched264 = false ; if ( ( ( _tokenSet_72 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_73 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m264 = mark ( ) ; synPredMatched264 = true ; inputState . guessing ++ ; try { { parameterDeclarationList ( ) ; nls ( ) ; match ( CLOSABLE_BLOCK_OP ) ; } } catch ( RecognitionException pe ) { synPredMatched264 = false ; } rewind ( _m264 ) ; inputState . guessing -- ; } if ( synPredMatched264 ) { parameterDeclarationList ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; nls ( ) ; match ( CLOSABLE_BLOCK_OP ) ; nls ( ) ; closableBlockParamsOpt_AST = ( AST ) currentAST . root ; } else if ( ( ( _tokenSet_31 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_74 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( addImplicit ) ) { implicitParameters ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; closableBlockParamsOpt_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_31 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_74 . member ( LA ( <NUM_LIT:2> ) ) ) ) { closableBlockParamsOpt_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } returnAST = closableBlockParamsOpt_AST ; } public final void implicitParameters ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST implicitParameters_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; if ( inputState . guessing == <NUM_LIT:0> ) { implicitParameters_AST = ( AST ) currentAST . root ; implicitParameters_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:1> ) ) . add ( create ( IMPLICIT_PARAMETERS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) ) ; currentAST . root = implicitParameters_AST ; currentAST . child = implicitParameters_AST != null && implicitParameters_AST . getFirstChild ( ) != null ? implicitParameters_AST . getFirstChild ( ) : implicitParameters_AST ; currentAST . advanceChildToEnd ( ) ; } implicitParameters_AST = ( AST ) currentAST . root ; returnAST = implicitParameters_AST ; } public final void closableBlockParamsStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST closableBlockParamsStart_AST = null ; parameterDeclarationList ( ) ; nls ( ) ; AST tmp223_AST = null ; tmp223_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( CLOSABLE_BLOCK_OP ) ; returnAST = closableBlockParamsStart_AST ; } public final void closableBlockParam ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST closableBlockParam_AST = null ; Token id = null ; AST id_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; id = LT ( <NUM_LIT:1> ) ; id_AST = astFactory . create ( id ) ; match ( IDENT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { closableBlockParam_AST = ( AST ) currentAST . root ; closableBlockParam_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( PARAMETER_DEF , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:1> ) ) . add ( create ( MODIFIERS , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) ) ) . add ( ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:1> ) ) . add ( create ( TYPE , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) ) ) . add ( id_AST ) ) ; currentAST . root = closableBlockParam_AST ; currentAST . child = closableBlockParam_AST != null && closableBlockParam_AST . getFirstChild ( ) != null ? closableBlockParam_AST . getFirstChild ( ) : closableBlockParam_AST ; currentAST . advanceChildToEnd ( ) ; } returnAST = closableBlockParam_AST ; } public final void closableBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST closableBlock_AST = null ; AST cbp_AST = null ; AST bb_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LCURLY ) ; nls ( ) ; closableBlockParamsOpt ( true ) ; cbp_AST = ( AST ) returnAST ; blockBody ( EOF ) ; bb_AST = ( AST ) returnAST ; match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { closableBlock_AST = ( AST ) currentAST . root ; closableBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( CLOSABLE_BLOCK , "<STR_LIT:{>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( cbp_AST ) . add ( bb_AST ) ) ; currentAST . root = closableBlock_AST ; currentAST . child = closableBlock_AST != null && closableBlock_AST . getFirstChild ( ) != null ? closableBlock_AST . getFirstChild ( ) : closableBlock_AST ; currentAST . advanceChildToEnd ( ) ; } closableBlock_AST = ( AST ) currentAST . root ; returnAST = closableBlock_AST ; } public final void openOrClosableBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST openOrClosableBlock_AST = null ; AST cp_AST = null ; AST bb_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LCURLY ) ; nls ( ) ; closableBlockParamsOpt ( false ) ; cp_AST = ( AST ) returnAST ; blockBody ( EOF ) ; bb_AST = ( AST ) returnAST ; match ( RCURLY ) ; if ( inputState . guessing == <NUM_LIT:0> ) { openOrClosableBlock_AST = ( AST ) currentAST . root ; if ( cp_AST == null ) openOrClosableBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( SLIST , "<STR_LIT:{>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( bb_AST ) ) ; else openOrClosableBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( CLOSABLE_BLOCK , "<STR_LIT:{>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( cp_AST ) . add ( bb_AST ) ) ; currentAST . root = openOrClosableBlock_AST ; currentAST . child = openOrClosableBlock_AST != null && openOrClosableBlock_AST . getFirstChild ( ) != null ? openOrClosableBlock_AST . getFirstChild ( ) : openOrClosableBlock_AST ; currentAST . advanceChildToEnd ( ) ; } openOrClosableBlock_AST = ( AST ) currentAST . root ; returnAST = openOrClosableBlock_AST ; } public final void statementLabelPrefix ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST statementLabelPrefix_AST = null ; Token c = null ; AST c_AST = null ; AST tmp228_AST = null ; tmp228_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp228_AST ) ; match ( IDENT ) ; c = LT ( <NUM_LIT:1> ) ; c_AST = astFactory . create ( c ) ; astFactory . makeASTRoot ( currentAST , c_AST ) ; match ( COLON ) ; if ( inputState . guessing == <NUM_LIT:0> ) { c_AST . setType ( LABELED_STAT ) ; } nls ( ) ; statementLabelPrefix_AST = ( AST ) currentAST . root ; returnAST = statementLabelPrefix_AST ; } public final void expressionStatement ( int prevToken ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST expressionStatement_AST = null ; AST head_AST = null ; AST cmd_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; boolean isPathExpr = false ; { boolean synPredMatched327 = false ; if ( ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m327 = mark ( ) ; synPredMatched327 = true ; inputState . guessing ++ ; try { { suspiciousExpressionStatementStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched327 = false ; } rewind ( _m327 ) ; inputState . guessing -- ; } if ( synPredMatched327 ) { checkSuspiciousExpressionStatement ( prevToken ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } expression ( LC_STMT ) ; head_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { isPathExpr = ( head_AST == lastPathExpression ) ; } { if ( ( ( _tokenSet_75 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_76 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( isPathExpr ) ) { commandArguments ( head_AST ) ; cmd_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { expressionStatement_AST = ( AST ) currentAST . root ; expressionStatement_AST = cmd_AST ; currentAST . root = expressionStatement_AST ; currentAST . child = expressionStatement_AST != null && expressionStatement_AST . getFirstChild ( ) != null ? expressionStatement_AST . getFirstChild ( ) : expressionStatement_AST ; currentAST . advanceChildToEnd ( ) ; } } else if ( ( _tokenSet_11 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_12 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { expressionStatement_AST = ( AST ) currentAST . root ; expressionStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( EXPR , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( expressionStatement_AST ) ) ; currentAST . root = expressionStatement_AST ; currentAST . child = expressionStatement_AST != null && expressionStatement_AST . getFirstChild ( ) != null ? expressionStatement_AST . getFirstChild ( ) : expressionStatement_AST ; currentAST . advanceChildToEnd ( ) ; } expressionStatement_AST = ( AST ) currentAST . root ; returnAST = expressionStatement_AST ; } public final void assignmentLessExpression ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST assignmentLessExpression_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { conditionalExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { assignmentLessExpression_AST = ( AST ) currentAST . root ; assignmentLessExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( EXPR , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( assignmentLessExpression_AST ) ) ; currentAST . root = assignmentLessExpression_AST ; currentAST . child = assignmentLessExpression_AST != null && assignmentLessExpression_AST . getFirstChild ( ) != null ? assignmentLessExpression_AST . getFirstChild ( ) : assignmentLessExpression_AST ; currentAST . advanceChildToEnd ( ) ; } assignmentLessExpression_AST = ( AST ) currentAST . root ; returnAST = assignmentLessExpression_AST ; } public final void compatibleBodyStatement ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST compatibleBodyStatement_AST = null ; boolean synPredMatched316 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LCURLY ) && ( _tokenSet_31 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m316 = mark ( ) ; synPredMatched316 = true ; inputState . guessing ++ ; try { { match ( LCURLY ) ; } } catch ( RecognitionException pe ) { synPredMatched316 = false ; } rewind ( _m316 ) ; inputState . guessing -- ; } if ( synPredMatched316 ) { compoundStatement ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; compatibleBodyStatement_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_19 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) { statement ( EOF ) ; astFactory . addASTChild ( currentAST , returnAST ) ; compatibleBodyStatement_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } returnAST = compatibleBodyStatement_AST ; } public final void forStatement ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST forStatement_AST = null ; AST cl_AST = null ; AST fic_AST = null ; Token s = null ; AST s_AST = null ; AST forCbs_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LITERAL_for ) ; match ( LPAREN ) ; { boolean synPredMatched303 = false ; if ( ( ( _tokenSet_77 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_78 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m303 = mark ( ) ; synPredMatched303 = true ; inputState . guessing ++ ; try { { switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : { match ( SEMI ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { { strictContextExpression ( true ) ; match ( SEMI ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } catch ( RecognitionException pe ) { synPredMatched303 = false ; } rewind ( _m303 ) ; inputState . guessing -- ; } if ( synPredMatched303 ) { closureList ( ) ; cl_AST = ( AST ) returnAST ; } else if ( ( _tokenSet_16 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_79 . member ( LA ( <NUM_LIT:2> ) ) ) ) { forInClause ( ) ; fic_AST = ( AST ) returnAST ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } match ( RPAREN ) ; nls ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case SEMI : { s = LT ( <NUM_LIT:1> ) ; s_AST = astFactory . create ( s ) ; match ( SEMI ) ; break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_if : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_try : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { compatibleBodyStatement ( ) ; forCbs_AST = ( AST ) returnAST ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { forStatement_AST = ( AST ) currentAST . root ; if ( cl_AST != null ) { if ( s_AST != null ) forStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_for , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( cl_AST ) . add ( s_AST ) ) ; else forStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_for , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( cl_AST ) . add ( forCbs_AST ) ) ; } else { if ( s_AST != null ) forStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_for , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( fic_AST ) . add ( s_AST ) ) ; else forStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_for , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( fic_AST ) . add ( forCbs_AST ) ) ; } currentAST . root = forStatement_AST ; currentAST . child = forStatement_AST != null && forStatement_AST . getFirstChild ( ) != null ? forStatement_AST . getFirstChild ( ) : forStatement_AST ; currentAST . advanceChildToEnd ( ) ; } forStatement_AST = ( AST ) currentAST . root ; returnAST = forStatement_AST ; } public final boolean strictContextExpression ( boolean allowDeclaration ) throws RecognitionException , TokenStreamException { boolean hasDeclaration = false ; returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST strictContextExpression_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { boolean synPredMatched489 = false ; if ( ( ( _tokenSet_16 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_80 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m489 = mark ( ) ; synPredMatched489 = true ; inputState . guessing ++ ; try { { if ( ! ( allowDeclaration ) ) throw new SemanticException ( "<STR_LIT>" ) ; declarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched489 = false ; } rewind ( _m489 ) ; inputState . guessing -- ; } if ( synPredMatched489 ) { if ( inputState . guessing == <NUM_LIT:0> ) { hasDeclaration = true ; } singleDeclaration ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_38 . member ( LA ( <NUM_LIT:2> ) ) ) ) { expression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( ( LA ( <NUM_LIT:1> ) >= LITERAL_return && LA ( <NUM_LIT:1> ) <= LITERAL_assert ) ) ) { branchStatement ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( LA ( <NUM_LIT:1> ) == AT ) && ( LA ( <NUM_LIT:2> ) == IDENT ) ) { annotation ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { strictContextExpression_AST = ( AST ) currentAST . root ; strictContextExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( EXPR , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( strictContextExpression_AST ) ) ; currentAST . root = strictContextExpression_AST ; currentAST . child = strictContextExpression_AST != null && strictContextExpression_AST . getFirstChild ( ) != null ? strictContextExpression_AST . getFirstChild ( ) : strictContextExpression_AST ; currentAST . advanceChildToEnd ( ) ; } strictContextExpression_AST = ( AST ) currentAST . root ; returnAST = strictContextExpression_AST ; return hasDeclaration ; } public final void casesGroup ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST casesGroup_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { int _cnt339 = <NUM_LIT:0> ; _loop339 : do { if ( ( LA ( <NUM_LIT:1> ) == LITERAL_default \|\| LA ( <NUM_LIT:1> ) == LITERAL_case ) ) { aCase ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { if ( _cnt339 >= <NUM_LIT:1> ) { break _loop339 ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } _cnt339 ++ ; } while ( true ) ; } caseSList ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { casesGroup_AST = ( AST ) currentAST . root ; casesGroup_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( CASE_GROUP , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( casesGroup_AST ) ) ; currentAST . root = casesGroup_AST ; currentAST . child = casesGroup_AST != null && casesGroup_AST . getFirstChild ( ) != null ? casesGroup_AST . getFirstChild ( ) : casesGroup_AST ; currentAST . advanceChildToEnd ( ) ; } casesGroup_AST = ( AST ) currentAST . root ; returnAST = casesGroup_AST ; } public final void tryBlock ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST tryBlock_AST = null ; AST tryCs_AST = null ; AST h_AST = null ; AST fc_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; List catchNodes = new ArrayList ( ) ; AST newHandler_AST = null ; match ( LITERAL_try ) ; nlsWarn ( ) ; compoundStatement ( ) ; tryCs_AST = ( AST ) returnAST ; { _loop356 : do { if ( ( ( LA ( <NUM_LIT:1> ) == LITERAL_catch \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( LA ( <NUM_LIT:2> ) == LPAREN \|\| LA ( <NUM_LIT:2> ) == LITERAL_catch ) ) && ( ! ( LA ( <NUM_LIT:1> ) == NLS && LA ( <NUM_LIT:2> ) == LPAREN ) ) ) { nls ( ) ; handler ( ) ; h_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { newHandler_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( null ) . add ( newHandler_AST ) . add ( h_AST ) ) ; } } else { break _loop356 ; } } while ( true ) ; } { if ( ( LA ( <NUM_LIT:1> ) == LITERAL_finally \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_81 . member ( LA ( <NUM_LIT:2> ) ) ) ) { nls ( ) ; finallyClause ( ) ; fc_AST = ( AST ) returnAST ; } else if ( ( _tokenSet_11 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_12 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { tryBlock_AST = ( AST ) currentAST . root ; tryBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( LITERAL_try , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( tryCs_AST ) . add ( newHandler_AST ) . add ( fc_AST ) ) ; currentAST . root = tryBlock_AST ; currentAST . child = tryBlock_AST != null && tryBlock_AST . getFirstChild ( ) != null ? tryBlock_AST . getFirstChild ( ) : tryBlock_AST ; currentAST . advanceChildToEnd ( ) ; } tryBlock_AST = ( AST ) currentAST . root ; returnAST = tryBlock_AST ; } public final void branchStatement ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST branchStatement_AST = null ; AST returnE_AST = null ; Token breakI = null ; AST breakI_AST = null ; Token contI = null ; AST contI_AST = null ; AST throwE_AST = null ; AST assertAle_AST = null ; AST assertE_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_return : { match ( LITERAL_return ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LCURLY : case LITERAL_this : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { expression ( <NUM_LIT:0> ) ; returnE_AST = ( AST ) returnAST ; break ; } case EOF : case RBRACK : case COMMA : case RPAREN : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_else : case LITERAL_case : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { branchStatement_AST = ( AST ) currentAST . root ; branchStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create2 ( LITERAL_return , "<STR_LIT>" , first , LT ( <NUM_LIT:0> ) ) ) . add ( returnE_AST ) ) ; currentAST . root = branchStatement_AST ; currentAST . child = branchStatement_AST != null && branchStatement_AST . getFirstChild ( ) != null ? branchStatement_AST . getFirstChild ( ) : branchStatement_AST ; currentAST . advanceChildToEnd ( ) ; } branchStatement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_break : { match ( LITERAL_break ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { breakI = LT ( <NUM_LIT:1> ) ; breakI_AST = astFactory . create ( breakI ) ; match ( IDENT ) ; break ; } case EOF : case RBRACK : case COMMA : case RPAREN : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_else : case LITERAL_case : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { branchStatement_AST = ( AST ) currentAST . root ; branchStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( LITERAL_break , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( breakI_AST ) ) ; currentAST . root = branchStatement_AST ; currentAST . child = branchStatement_AST != null && branchStatement_AST . getFirstChild ( ) != null ? branchStatement_AST . getFirstChild ( ) : branchStatement_AST ; currentAST . advanceChildToEnd ( ) ; } branchStatement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_continue : { match ( LITERAL_continue ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { contI = LT ( <NUM_LIT:1> ) ; contI_AST = astFactory . create ( contI ) ; match ( IDENT ) ; break ; } case EOF : case RBRACK : case COMMA : case RPAREN : case RCURLY : case SEMI : case LITERAL_default : case LITERAL_else : case LITERAL_case : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { branchStatement_AST = ( AST ) currentAST . root ; branchStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( LITERAL_continue , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( contI_AST ) ) ; currentAST . root = branchStatement_AST ; currentAST . child = branchStatement_AST != null && branchStatement_AST . getFirstChild ( ) != null ? branchStatement_AST . getFirstChild ( ) : branchStatement_AST ; currentAST . advanceChildToEnd ( ) ; } branchStatement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_throw : { match ( LITERAL_throw ) ; expression ( <NUM_LIT:0> ) ; throwE_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { branchStatement_AST = ( AST ) currentAST . root ; branchStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( LITERAL_throw , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( throwE_AST ) ) ; currentAST . root = branchStatement_AST ; currentAST . child = branchStatement_AST != null && branchStatement_AST . getFirstChild ( ) != null ? branchStatement_AST . getFirstChild ( ) : branchStatement_AST ; currentAST . advanceChildToEnd ( ) ; } branchStatement_AST = ( AST ) currentAST . root ; break ; } case LITERAL_assert : { match ( LITERAL_assert ) ; assignmentLessExpression ( ) ; assertAle_AST = ( AST ) returnAST ; { if ( ( LA ( <NUM_LIT:1> ) == COMMA \|\| LA ( <NUM_LIT:1> ) == COLON ) && ( _tokenSet_82 . member ( LA ( <NUM_LIT:2> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case COMMA : { match ( COMMA ) ; nls ( ) ; break ; } case COLON : { match ( COLON ) ; nls ( ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } expression ( <NUM_LIT:0> ) ; assertE_AST = ( AST ) returnAST ; } else if ( ( _tokenSet_83 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_12 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { branchStatement_AST = ( AST ) currentAST . root ; branchStatement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_assert , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( assertAle_AST ) . add ( assertE_AST ) ) ; currentAST . root = branchStatement_AST ; currentAST . child = branchStatement_AST != null && branchStatement_AST . getFirstChild ( ) != null ? branchStatement_AST . getFirstChild ( ) : branchStatement_AST ; currentAST . advanceChildToEnd ( ) ; } branchStatement_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = branchStatement_AST ; } public final void closureList ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST closureList_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; boolean sce = false ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { sce = strictContextExpression ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case SEMI : { if ( inputState . guessing == <NUM_LIT:0> ) { astFactory . addASTChild ( currentAST , astFactory . create ( EMPTY_STAT , "<STR_LIT>" ) ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { int _cnt308 = <NUM_LIT:0> ; _loop308 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI ) && ( _tokenSet_84 . member ( LA ( <NUM_LIT:2> ) ) ) ) { match ( SEMI ) ; sce = strictContextExpression ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( LA ( <NUM_LIT:1> ) == SEMI ) && ( LA ( <NUM_LIT:2> ) == RPAREN \|\| LA ( <NUM_LIT:2> ) == SEMI ) ) { match ( SEMI ) ; if ( inputState . guessing == <NUM_LIT:0> ) { astFactory . addASTChild ( currentAST , astFactory . create ( EMPTY_STAT , "<STR_LIT>" ) ) ; } } else { if ( _cnt308 >= <NUM_LIT:1> ) { break _loop308 ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } _cnt308 ++ ; } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { closureList_AST = ( AST ) currentAST . root ; closureList_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( CLOSURE_LIST , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( closureList_AST ) ) ; currentAST . root = closureList_AST ; currentAST . child = closureList_AST != null && closureList_AST . getFirstChild ( ) != null ? closureList_AST . getFirstChild ( ) : closureList_AST ; currentAST . advanceChildToEnd ( ) ; } closureList_AST = ( AST ) currentAST . root ; returnAST = closureList_AST ; } public final void forInClause ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST forInClause_AST = null ; AST decl_AST = null ; Token i = null ; AST i_AST = null ; Token c = null ; AST c_AST = null ; { boolean synPredMatched312 = false ; if ( ( ( _tokenSet_16 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_80 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m312 = mark ( ) ; synPredMatched312 = true ; inputState . guessing ++ ; try { { declarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched312 = false ; } rewind ( _m312 ) ; inputState . guessing -- ; } if ( synPredMatched312 ) { singleDeclarationNoInit ( ) ; decl_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == COLON \|\| LA ( <NUM_LIT:2> ) == LITERAL_in ) ) { AST tmp242_AST = null ; tmp242_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp242_AST ) ; match ( IDENT ) ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_in : { i = LT ( <NUM_LIT:1> ) ; i_AST = astFactory . create ( i ) ; astFactory . makeASTRoot ( currentAST , i_AST ) ; match ( LITERAL_in ) ; if ( inputState . guessing == <NUM_LIT:0> ) { i_AST . setType ( FOR_IN_ITERABLE ) ; } shiftExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case COLON : { if ( inputState . guessing == <NUM_LIT:0> ) { addWarning ( "<STR_LIT>" , "<STR_LIT>" ) ; require ( decl_AST != null , "<STR_LIT>" , "<STR_LIT>" ) ; } c = LT ( <NUM_LIT:1> ) ; c_AST = astFactory . create ( c ) ; astFactory . makeASTRoot ( currentAST , c_AST ) ; match ( COLON ) ; if ( inputState . guessing == <NUM_LIT:0> ) { c_AST . setType ( FOR_IN_ITERABLE ) ; } expression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } forInClause_AST = ( AST ) currentAST . root ; returnAST = forInClause_AST ; } public final void shiftExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST shiftExpression_AST = null ; additiveExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop440 : do { if ( ( _tokenSet_85 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case SR : case BSR : case SL : { { switch ( LA ( <NUM_LIT:1> ) ) { case SL : { AST tmp243_AST = null ; tmp243_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp243_AST ) ; match ( SL ) ; break ; } case SR : { AST tmp244_AST = null ; tmp244_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp244_AST ) ; match ( SR ) ; break ; } case BSR : { AST tmp245_AST = null ; tmp245_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp245_AST ) ; match ( BSR ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } break ; } case RANGE_INCLUSIVE : { AST tmp246_AST = null ; tmp246_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp246_AST ) ; match ( RANGE_INCLUSIVE ) ; break ; } case RANGE_EXCLUSIVE : { AST tmp247_AST = null ; tmp247_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp247_AST ) ; match ( RANGE_EXCLUSIVE ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; additiveExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop440 ; } } while ( true ) ; } shiftExpression_AST = ( AST ) currentAST . root ; returnAST = shiftExpression_AST ; } public final void suspiciousExpressionStatementStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST suspiciousExpressionStatementStart_AST = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case PLUS : case MINUS : { { switch ( LA ( <NUM_LIT:1> ) ) { case PLUS : { AST tmp248_AST = null ; tmp248_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp248_AST ) ; match ( PLUS ) ; break ; } case MINUS : { AST tmp249_AST = null ; tmp249_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp249_AST ) ; match ( MINUS ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } break ; } case LBRACK : case LPAREN : case LCURLY : { { switch ( LA ( <NUM_LIT:1> ) ) { case LBRACK : { AST tmp250_AST = null ; tmp250_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp250_AST ) ; match ( LBRACK ) ; break ; } case LPAREN : { AST tmp251_AST = null ; tmp251_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp251_AST ) ; match ( LPAREN ) ; break ; } case LCURLY : { AST tmp252_AST = null ; tmp252_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp252_AST ) ; match ( LCURLY ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } suspiciousExpressionStatementStart_AST = ( AST ) currentAST . root ; returnAST = suspiciousExpressionStatementStart_AST ; } public final void checkSuspiciousExpressionStatement ( int prevToken ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST checkSuspiciousExpressionStatement_AST = null ; boolean synPredMatched331 = false ; if ( ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m331 = mark ( ) ; synPredMatched331 = true ; inputState . guessing ++ ; try { { if ( ( _tokenSet_86 . member ( LA ( <NUM_LIT:1> ) ) ) ) { matchNot ( LCURLY ) ; } else if ( ( LA ( <NUM_LIT:1> ) == LCURLY ) ) { match ( LCURLY ) ; closableBlockParamsStart ( ) ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } catch ( RecognitionException pe ) { synPredMatched331 = false ; } rewind ( _m331 ) ; inputState . guessing -- ; } if ( synPredMatched331 ) { { if ( ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( prevToken == NLS ) ) { if ( inputState . guessing == <NUM_LIT:0> ) { addWarning ( "<STR_LIT>" , "<STR_LIT>" ) ; } } else if ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } checkSuspiciousExpressionStatement_AST = ( AST ) currentAST . root ; } else if ( ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( prevToken == NLS ) ) { if ( inputState . guessing == <NUM_LIT:0> ) { require ( false , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" ) ; } checkSuspiciousExpressionStatement_AST = ( AST ) currentAST . root ; } else if ( ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( prevToken != NLS ) ) { if ( inputState . guessing == <NUM_LIT:0> ) { require ( false , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" ) ; } checkSuspiciousExpressionStatement_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } returnAST = checkSuspiciousExpressionStatement_AST ; } public final void commandArguments ( AST head ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST commandArguments_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; int hls = <NUM_LIT:0> ; commandArgument ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop362 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; commandArgument ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop362 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { commandArguments_AST = ( AST ) currentAST . root ; AST elist = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( ELIST , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( commandArguments_AST ) ) ; AST headid = getASTFactory ( ) . dup ( head ) ; headid . setType ( METHOD_CALL ) ; headid . setText ( "<STR_LIT>" ) ; commandArguments_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( headid ) . add ( head ) . add ( elist ) ) ; currentAST . root = commandArguments_AST ; currentAST . child = commandArguments_AST != null && commandArguments_AST . getFirstChild ( ) != null ? commandArguments_AST . getFirstChild ( ) : commandArguments_AST ; currentAST . advanceChildToEnd ( ) ; } commandArguments_AST = ( AST ) currentAST . root ; returnAST = commandArguments_AST ; } public final void aCase ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST aCase_AST = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case LITERAL_case : { AST tmp254_AST = null ; tmp254_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp254_AST ) ; match ( LITERAL_case ) ; expression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case LITERAL_default : { AST tmp255_AST = null ; tmp255_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp255_AST ) ; match ( LITERAL_default ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } match ( COLON ) ; nls ( ) ; aCase_AST = ( AST ) currentAST . root ; returnAST = aCase_AST ; } public final void caseSList ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST caseSList_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; statement ( COLON ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop345 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI \|\| LA ( <NUM_LIT:1> ) == NLS ) ) { sep ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_if : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_try : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { statement ( sepToken ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RCURLY : case SEMI : case LITERAL_default : case LITERAL_case : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop345 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { caseSList_AST = ( AST ) currentAST . root ; caseSList_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( SLIST , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( caseSList_AST ) ) ; currentAST . root = caseSList_AST ; currentAST . child = caseSList_AST != null && caseSList_AST . getFirstChild ( ) != null ? caseSList_AST . getFirstChild ( ) : caseSList_AST ; currentAST . advanceChildToEnd ( ) ; } caseSList_AST = ( AST ) currentAST . root ; returnAST = caseSList_AST ; } public final void forInit ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST forInit_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; boolean synPredMatched348 = false ; if ( ( ( _tokenSet_16 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_17 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m348 = mark ( ) ; synPredMatched348 = true ; inputState . guessing ++ ; try { { declarationStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched348 = false ; } rewind ( _m348 ) ; inputState . guessing -- ; } if ( synPredMatched348 ) { declaration ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; forInit_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_87 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_76 . member ( LA ( <NUM_LIT:2> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { controlExpressionList ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { forInit_AST = ( AST ) currentAST . root ; forInit_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( FOR_INIT , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( forInit_AST ) ) ; currentAST . root = forInit_AST ; currentAST . child = forInit_AST != null && forInit_AST . getFirstChild ( ) != null ? forInit_AST . getFirstChild ( ) : forInit_AST ; currentAST . advanceChildToEnd ( ) ; } forInit_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } returnAST = forInit_AST ; } public final void controlExpressionList ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST controlExpressionList_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; boolean sce = false ; sce = strictContextExpression ( false ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop377 : do { if ( ( LA ( <NUM_LIT:1> ) == COMMA ) ) { match ( COMMA ) ; nls ( ) ; sce = strictContextExpression ( false ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop377 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { controlExpressionList_AST = ( AST ) currentAST . root ; controlExpressionList_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( ELIST , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( controlExpressionList_AST ) ) ; currentAST . root = controlExpressionList_AST ; currentAST . child = controlExpressionList_AST != null && controlExpressionList_AST . getFirstChild ( ) != null ? controlExpressionList_AST . getFirstChild ( ) : controlExpressionList_AST ; currentAST . advanceChildToEnd ( ) ; } controlExpressionList_AST = ( AST ) currentAST . root ; returnAST = controlExpressionList_AST ; } public final void forCond ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST forCond_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; boolean sce = false ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { sce = strictContextExpression ( false ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { forCond_AST = ( AST ) currentAST . root ; forCond_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( FOR_CONDITION , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( forCond_AST ) ) ; currentAST . root = forCond_AST ; currentAST . child = forCond_AST != null && forCond_AST . getFirstChild ( ) != null ? forCond_AST . getFirstChild ( ) : forCond_AST ; currentAST . advanceChildToEnd ( ) ; } forCond_AST = ( AST ) currentAST . root ; returnAST = forCond_AST ; } public final void forIter ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST forIter_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { controlExpressionList ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case EOF : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { forIter_AST = ( AST ) currentAST . root ; forIter_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( FOR_ITERATOR , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( forIter_AST ) ) ; currentAST . root = forIter_AST ; currentAST . child = forIter_AST != null && forIter_AST . getFirstChild ( ) != null ? forIter_AST . getFirstChild ( ) : forIter_AST ; currentAST . advanceChildToEnd ( ) ; } forIter_AST = ( AST ) currentAST . root ; returnAST = forIter_AST ; } public final void handler ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST handler_AST = null ; AST pd_AST = null ; AST handlerCs_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LITERAL_catch ) ; match ( LPAREN ) ; parameterDeclaration ( ) ; pd_AST = ( AST ) returnAST ; match ( RPAREN ) ; nlsWarn ( ) ; compoundStatement ( ) ; handlerCs_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { handler_AST = ( AST ) currentAST . root ; handler_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_catch , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( pd_AST ) . add ( handlerCs_AST ) ) ; currentAST . root = handler_AST ; currentAST . child = handler_AST != null && handler_AST . getFirstChild ( ) != null ? handler_AST . getFirstChild ( ) : handler_AST ; currentAST . advanceChildToEnd ( ) ; } handler_AST = ( AST ) currentAST . root ; returnAST = handler_AST ; } public final void finallyClause ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST finallyClause_AST = null ; AST finallyCs_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; match ( LITERAL_finally ) ; nlsWarn ( ) ; compoundStatement ( ) ; finallyCs_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { finallyClause_AST = ( AST ) currentAST . root ; finallyClause_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( LITERAL_finally , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( finallyCs_AST ) ) ; currentAST . root = finallyClause_AST ; currentAST . child = finallyClause_AST != null && finallyClause_AST . getFirstChild ( ) != null ? finallyClause_AST . getFirstChild ( ) : finallyClause_AST ; currentAST . advanceChildToEnd ( ) ; } finallyClause_AST = ( AST ) currentAST . root ; returnAST = finallyClause_AST ; } public final void commandArgument ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST commandArgument_AST = null ; Token c = null ; AST c_AST = null ; boolean synPredMatched365 = false ; if ( ( ( _tokenSet_88 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_89 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m365 = mark ( ) ; synPredMatched365 = true ; inputState . guessing ++ ; try { { argumentLabel ( ) ; match ( COLON ) ; } } catch ( RecognitionException pe ) { synPredMatched365 = false ; } rewind ( _m365 ) ; inputState . guessing -- ; } if ( synPredMatched365 ) { { argumentLabel ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; c = LT ( <NUM_LIT:1> ) ; c_AST = astFactory . create ( c ) ; astFactory . makeASTRoot ( currentAST , c_AST ) ; match ( COLON ) ; expression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { c_AST . setType ( LABELED_ARG ) ; } } commandArgument_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_20 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_76 . member ( LA ( <NUM_LIT:2> ) ) ) ) { expression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; commandArgument_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } returnAST = commandArgument_AST ; } public final void argumentLabel ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST argumentLabel_AST = null ; Token id = null ; AST id_AST = null ; AST kw_AST = null ; boolean synPredMatched525 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == IDENT ) && ( LA ( <NUM_LIT:2> ) == COLON ) ) ) { int _m525 = mark ( ) ; synPredMatched525 = true ; inputState . guessing ++ ; try { { match ( IDENT ) ; } } catch ( RecognitionException pe ) { synPredMatched525 = false ; } rewind ( _m525 ) ; inputState . guessing -- ; } if ( synPredMatched525 ) { id = LT ( <NUM_LIT:1> ) ; id_AST = astFactory . create ( id ) ; astFactory . addASTChild ( currentAST , id_AST ) ; match ( IDENT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { id_AST . setType ( STRING_LITERAL ) ; } argumentLabel_AST = ( AST ) currentAST . root ; } else { boolean synPredMatched527 = false ; if ( ( ( _tokenSet_90 . member ( LA ( <NUM_LIT:1> ) ) ) && ( LA ( <NUM_LIT:2> ) == COLON ) ) ) { int _m527 = mark ( ) ; synPredMatched527 = true ; inputState . guessing ++ ; try { { keywordPropertyNames ( ) ; } } catch ( RecognitionException pe ) { synPredMatched527 = false ; } rewind ( _m527 ) ; inputState . guessing -- ; } if ( synPredMatched527 ) { keywordPropertyNames ( ) ; kw_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { kw_AST . setType ( STRING_LITERAL ) ; } argumentLabel_AST = ( AST ) currentAST . root ; } else if ( ( _tokenSet_91 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_89 . member ( LA ( <NUM_LIT:2> ) ) ) ) { primaryExpression ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; argumentLabel_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = argumentLabel_AST ; } public final void multipleAssignment ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST multipleAssignment_AST = null ; Token first = cloneToken ( LT ( <NUM_LIT:1> ) ) ; AST tmp262_AST = null ; tmp262_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp262_AST ) ; match ( LPAREN ) ; nls ( ) ; listOfVariables ( null , null , first ) ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( RPAREN ) ; AST tmp264_AST = null ; tmp264_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp264_AST ) ; match ( ASSIGN ) ; nls ( ) ; assignmentExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; multipleAssignment_AST = ( AST ) currentAST . root ; returnAST = multipleAssignment_AST ; } public final void pathExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST pathExpression_AST = null ; AST pre_AST = null ; AST pe_AST = null ; AST apb_AST = null ; AST prefix = null ; primaryExpression ( ) ; pre_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { prefix = pre_AST ; } { _loop385 : do { boolean synPredMatched381 = false ; if ( ( ( _tokenSet_92 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_93 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m381 = mark ( ) ; synPredMatched381 = true ; inputState . guessing ++ ; try { { pathElementStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched381 = false ; } rewind ( _m381 ) ; inputState . guessing -- ; } if ( synPredMatched381 ) { nls ( ) ; pathElement ( prefix ) ; pe_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { prefix = pe_AST ; } } else { boolean synPredMatched383 = false ; if ( ( ( ( LA ( <NUM_LIT:1> ) == LCURLY \|\| LA ( <NUM_LIT:1> ) == NLS ) && ( _tokenSet_18 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( lc_stmt == LC_STMT \|\| lc_stmt == LC_INIT ) ) ) { int _m383 = mark ( ) ; synPredMatched383 = true ; inputState . guessing ++ ; try { { nls ( ) ; match ( LCURLY ) ; } } catch ( RecognitionException pe ) { synPredMatched383 = false ; } rewind ( _m383 ) ; inputState . guessing -- ; } if ( synPredMatched383 ) { nlsWarn ( ) ; appendedBlock ( prefix ) ; apb_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { prefix = apb_AST ; } } else if ( ( _tokenSet_94 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_95 . member ( LA ( <NUM_LIT:2> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case DOT : { match ( DOT ) ; break ; } case SPREAD_DOT : { match ( SPREAD_DOT ) ; break ; } case OPTIONAL_DOT : { AST tmp267_AST = null ; tmp267_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp267_AST ) ; match ( OPTIONAL_DOT ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { reportError ( "<STR_LIT>" ) ; } } else { break _loop385 ; } } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { pathExpression_AST = ( AST ) currentAST . root ; pathExpression_AST = prefix ; lastPathExpression = pathExpression_AST ; currentAST . root = pathExpression_AST ; currentAST . child = pathExpression_AST != null && pathExpression_AST . getFirstChild ( ) != null ? pathExpression_AST . getFirstChild ( ) : pathExpression_AST ; currentAST . advanceChildToEnd ( ) ; } pathExpression_AST = ( AST ) currentAST . root ; returnAST = pathExpression_AST ; } public final void primaryExpression ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST primaryExpression_AST = null ; AST pe_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { AST tmp268_AST = null ; tmp268_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp268_AST ) ; match ( IDENT ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } case STRING_LITERAL : case LITERAL_false : case LITERAL_null : case LITERAL_true : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { constant ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } case LITERAL_new : { newExpression ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } case LITERAL_this : { AST tmp269_AST = null ; tmp269_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp269_AST ) ; match ( LITERAL_this ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } case LITERAL_super : { AST tmp270_AST = null ; tmp270_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp270_AST ) ; match ( LITERAL_super ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } case LPAREN : { parenthesizedExpression ( ) ; pe_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { primaryExpression_AST = ( AST ) currentAST . root ; primaryExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( EXPR , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( pe_AST ) ) ; currentAST . root = primaryExpression_AST ; currentAST . child = primaryExpression_AST != null && primaryExpression_AST . getFirstChild ( ) != null ? primaryExpression_AST . getFirstChild ( ) : primaryExpression_AST ; currentAST . advanceChildToEnd ( ) ; } primaryExpression_AST = ( AST ) currentAST . root ; break ; } case LCURLY : { closableBlockConstructorExpression ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } case LBRACK : { listOrMapConstructorExpression ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } case STRING_CTOR_START : { stringConstructorExpression ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { builtInType ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; primaryExpression_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = primaryExpression_AST ; } public final void pathElementStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST pathElementStart_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case DOT : case NLS : { { nls ( ) ; AST tmp271_AST = null ; tmp271_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( DOT ) ; } break ; } case SPREAD_DOT : { AST tmp272_AST = null ; tmp272_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( SPREAD_DOT ) ; break ; } case OPTIONAL_DOT : { AST tmp273_AST = null ; tmp273_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( OPTIONAL_DOT ) ; break ; } case MEMBER_POINTER : { AST tmp274_AST = null ; tmp274_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( MEMBER_POINTER ) ; break ; } case LBRACK : { AST tmp275_AST = null ; tmp275_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( LBRACK ) ; break ; } case LPAREN : { AST tmp276_AST = null ; tmp276_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( LPAREN ) ; break ; } case LCURLY : { AST tmp277_AST = null ; tmp277_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( LCURLY ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = pathElementStart_AST ; } public final void pathElement ( AST prefix ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST pathElement_AST = null ; AST ta_AST = null ; AST np_AST = null ; AST mca_AST = null ; AST apb_AST = null ; AST ipa_AST = null ; Token thisPart = null ; AST thisPart_AST = null ; Token operator = LT ( <NUM_LIT:1> ) ; try { switch ( LA ( <NUM_LIT:1> ) ) { case LPAREN : { methodCallArgs ( prefix ) ; mca_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { pathElement_AST = ( AST ) currentAST . root ; pathElement_AST = mca_AST ; currentAST . root = pathElement_AST ; currentAST . child = pathElement_AST != null && pathElement_AST . getFirstChild ( ) != null ? pathElement_AST . getFirstChild ( ) : pathElement_AST ; currentAST . advanceChildToEnd ( ) ; } pathElement_AST = ( AST ) currentAST . root ; break ; } case LCURLY : { appendedBlock ( prefix ) ; apb_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { pathElement_AST = ( AST ) currentAST . root ; pathElement_AST = apb_AST ; currentAST . root = pathElement_AST ; currentAST . child = pathElement_AST != null && pathElement_AST . getFirstChild ( ) != null ? pathElement_AST . getFirstChild ( ) : pathElement_AST ; currentAST . advanceChildToEnd ( ) ; } pathElement_AST = ( AST ) currentAST . root ; break ; } case LBRACK : { indexPropertyArgs ( prefix ) ; ipa_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { pathElement_AST = ( AST ) currentAST . root ; pathElement_AST = ipa_AST ; currentAST . root = pathElement_AST ; currentAST . child = pathElement_AST != null && pathElement_AST . getFirstChild ( ) != null ? pathElement_AST . getFirstChild ( ) : pathElement_AST ; currentAST . advanceChildToEnd ( ) ; } pathElement_AST = ( AST ) currentAST . root ; break ; } default : if ( ( _tokenSet_96 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_97 . member ( LA ( <NUM_LIT:2> ) ) ) ) { if ( inputState . guessing == <NUM_LIT:0> ) { pathElement_AST = ( AST ) currentAST . root ; pathElement_AST = prefix ; currentAST . root = pathElement_AST ; currentAST . child = pathElement_AST != null && pathElement_AST . getFirstChild ( ) != null ? pathElement_AST . getFirstChild ( ) : pathElement_AST ; currentAST . advanceChildToEnd ( ) ; } { switch ( LA ( <NUM_LIT:1> ) ) { case SPREAD_DOT : { match ( SPREAD_DOT ) ; break ; } case OPTIONAL_DOT : { match ( OPTIONAL_DOT ) ; break ; } case MEMBER_POINTER : { match ( MEMBER_POINTER ) ; break ; } case DOT : case NLS : { { nls ( ) ; match ( DOT ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeArguments ( ) ; ta_AST = ( AST ) returnAST ; break ; } case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case AT : case LITERAL_extends : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case STRING_CTOR_START : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } namePart ( ) ; np_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { pathElement_AST = ( AST ) currentAST . root ; pathElement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( operator . getType ( ) , operator . getText ( ) , prefix , LT ( <NUM_LIT:1> ) ) ) . add ( prefix ) . add ( ta_AST ) . add ( np_AST ) ) ; currentAST . root = pathElement_AST ; currentAST . child = pathElement_AST != null && pathElement_AST . getFirstChild ( ) != null ? pathElement_AST . getFirstChild ( ) : pathElement_AST ; currentAST . advanceChildToEnd ( ) ; } pathElement_AST = ( AST ) currentAST . root ; } else if ( ( LA ( <NUM_LIT:1> ) == DOT ) && ( LA ( <NUM_LIT:2> ) == LITERAL_this \|\| LA ( <NUM_LIT:2> ) == NLS ) ) { match ( DOT ) ; nls ( ) ; thisPart = LT ( <NUM_LIT:1> ) ; thisPart_AST = astFactory . create ( thisPart ) ; match ( LITERAL_this ) ; if ( inputState . guessing == <NUM_LIT:0> ) { pathElement_AST = ( AST ) currentAST . root ; pathElement_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( operator . getType ( ) , operator . getText ( ) , prefix , LT ( <NUM_LIT:1> ) ) ) . add ( prefix ) . add ( thisPart_AST ) ) ; currentAST . root = pathElement_AST ; currentAST . child = pathElement_AST != null && pathElement_AST . getFirstChild ( ) != null ? pathElement_AST . getFirstChild ( ) : pathElement_AST ; currentAST . advanceChildToEnd ( ) ; } pathElement_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } catch ( RecognitionException e ) { if ( inputState . guessing == <NUM_LIT:0> ) { if ( pathElement_AST == null ) { throw e ; } reportError ( e ) ; } else { throw e ; } } returnAST = pathElement_AST ; } public final void appendedBlock ( AST callee ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST appendedBlock_AST = null ; AST cb_AST = null ; closableBlock ( ) ; cb_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { appendedBlock_AST = ( AST ) currentAST . root ; if ( callee != null && callee . getType ( ) == METHOD_CALL ) { appendedBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( METHOD_CALL , "<STR_LIT:(>" , callee , LT ( <NUM_LIT:1> ) ) ) . add ( callee . getFirstChild ( ) ) . add ( cb_AST ) ) ; } else { appendedBlock_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( METHOD_CALL , "<STR_LIT:{>" , callee , LT ( <NUM_LIT:1> ) ) ) . add ( callee ) . add ( cb_AST ) ) ; } currentAST . root = appendedBlock_AST ; currentAST . child = appendedBlock_AST != null && appendedBlock_AST . getFirstChild ( ) != null ? appendedBlock_AST . getFirstChild ( ) : appendedBlock_AST ; currentAST . advanceChildToEnd ( ) ; } appendedBlock_AST = ( AST ) currentAST . root ; returnAST = appendedBlock_AST ; } public final void namePart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST namePart_AST = null ; Token ats = null ; AST ats_AST = null ; Token sl = null ; AST sl_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case AT : { ats = LT ( <NUM_LIT:1> ) ; ats_AST = astFactory . create ( ats ) ; astFactory . makeASTRoot ( currentAST , ats_AST ) ; match ( AT ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ats_AST . setType ( SELECT_SLOT ) ; } break ; } case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case LITERAL_extends : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : case STRING_CTOR_START : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { AST tmp283_AST = null ; tmp283_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp283_AST ) ; match ( IDENT ) ; break ; } case STRING_LITERAL : { sl = LT ( <NUM_LIT:1> ) ; sl_AST = astFactory . create ( sl ) ; astFactory . addASTChild ( currentAST , sl_AST ) ; match ( STRING_LITERAL ) ; if ( inputState . guessing == <NUM_LIT:0> ) { sl_AST . setType ( IDENT ) ; } break ; } case LPAREN : case STRING_CTOR_START : { dynamicMemberName ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case LCURLY : { openBlock ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case LITERAL_extends : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : { keywordPropertyNames ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } namePart_AST = ( AST ) currentAST . root ; returnAST = namePart_AST ; } public final void methodCallArgs ( AST callee ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST methodCallArgs_AST = null ; AST al_AST = null ; match ( LPAREN ) ; argList ( ) ; al_AST = ( AST ) returnAST ; match ( RPAREN ) ; if ( inputState . guessing == <NUM_LIT:0> ) { methodCallArgs_AST = ( AST ) currentAST . root ; if ( callee != null && callee . getFirstChild ( ) != null ) { methodCallArgs_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( METHOD_CALL , "<STR_LIT:(>" , callee . getFirstChild ( ) , LT ( <NUM_LIT:1> ) ) ) . add ( callee ) . add ( al_AST ) ) ; } else { methodCallArgs_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( METHOD_CALL , "<STR_LIT:(>" , callee , LT ( <NUM_LIT:1> ) ) ) . add ( callee ) . add ( al_AST ) ) ; } currentAST . root = methodCallArgs_AST ; currentAST . child = methodCallArgs_AST != null && methodCallArgs_AST . getFirstChild ( ) != null ? methodCallArgs_AST . getFirstChild ( ) : methodCallArgs_AST ; currentAST . advanceChildToEnd ( ) ; } methodCallArgs_AST = ( AST ) currentAST . root ; returnAST = methodCallArgs_AST ; } public final void indexPropertyArgs ( AST indexee ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST indexPropertyArgs_AST = null ; Token lb = null ; AST lb_AST = null ; AST al_AST = null ; lb = LT ( <NUM_LIT:1> ) ; lb_AST = astFactory . create ( lb ) ; astFactory . addASTChild ( currentAST , lb_AST ) ; match ( LBRACK ) ; argList ( ) ; al_AST = ( AST ) returnAST ; match ( RBRACK ) ; if ( inputState . guessing == <NUM_LIT:0> ) { indexPropertyArgs_AST = ( AST ) currentAST . root ; if ( indexee != null && indexee . getFirstChild ( ) != null ) { indexPropertyArgs_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( INDEX_OP , "<STR_LIT>" , indexee . getFirstChild ( ) , LT ( <NUM_LIT:1> ) ) ) . add ( lb_AST ) . add ( indexee ) . add ( al_AST ) ) ; } else { indexPropertyArgs_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( INDEX_OP , "<STR_LIT>" , indexee , LT ( <NUM_LIT:1> ) ) ) . add ( lb_AST ) . add ( indexee ) . add ( al_AST ) ) ; } currentAST . root = indexPropertyArgs_AST ; currentAST . child = indexPropertyArgs_AST != null && indexPropertyArgs_AST . getFirstChild ( ) != null ? indexPropertyArgs_AST . getFirstChild ( ) : indexPropertyArgs_AST ; currentAST . advanceChildToEnd ( ) ; } indexPropertyArgs_AST = ( AST ) currentAST . root ; returnAST = indexPropertyArgs_AST ; } public final void dynamicMemberName ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST dynamicMemberName_AST = null ; AST pe_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LPAREN : { parenthesizedExpression ( ) ; pe_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { dynamicMemberName_AST = ( AST ) currentAST . root ; dynamicMemberName_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( EXPR , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( pe_AST ) ) ; currentAST . root = dynamicMemberName_AST ; currentAST . child = dynamicMemberName_AST != null && dynamicMemberName_AST . getFirstChild ( ) != null ? dynamicMemberName_AST . getFirstChild ( ) : dynamicMemberName_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } case STRING_CTOR_START : { stringConstructorExpression ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { dynamicMemberName_AST = ( AST ) currentAST . root ; dynamicMemberName_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( DYNAMIC_MEMBER , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( dynamicMemberName_AST ) ) ; currentAST . root = dynamicMemberName_AST ; currentAST . child = dynamicMemberName_AST != null && dynamicMemberName_AST . getFirstChild ( ) != null ? dynamicMemberName_AST . getFirstChild ( ) : dynamicMemberName_AST ; currentAST . advanceChildToEnd ( ) ; } dynamicMemberName_AST = ( AST ) currentAST . root ; returnAST = dynamicMemberName_AST ; } public final void parenthesizedExpression ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST parenthesizedExpression_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; Token declaration = null ; boolean hasClosureList = false ; boolean firstContainsDeclaration = false ; boolean sce = false ; match ( LPAREN ) ; if ( inputState . guessing == <NUM_LIT:0> ) { declaration = LT ( <NUM_LIT:1> ) ; } firstContainsDeclaration = strictContextExpression ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop485 : do { if ( ( LA ( <NUM_LIT:1> ) == SEMI ) ) { match ( SEMI ) ; if ( inputState . guessing == <NUM_LIT:0> ) { hasClosureList = true ; } { switch ( LA ( <NUM_LIT:1> ) ) { case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { sce = strictContextExpression ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RPAREN : case SEMI : { if ( inputState . guessing == <NUM_LIT:0> ) { astFactory . addASTChild ( currentAST , astFactory . create ( EMPTY_STAT , "<STR_LIT>" ) ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else { break _loop485 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { if ( firstContainsDeclaration && ! hasClosureList ) throw new NoViableAltException ( declaration , getFilename ( ) ) ; } match ( RPAREN ) ; if ( inputState . guessing == <NUM_LIT:0> ) { parenthesizedExpression_AST = ( AST ) currentAST . root ; if ( hasClosureList ) { parenthesizedExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( CLOSURE_LIST , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( parenthesizedExpression_AST ) ) ; } currentAST . root = parenthesizedExpression_AST ; currentAST . child = parenthesizedExpression_AST != null && parenthesizedExpression_AST . getFirstChild ( ) != null ? parenthesizedExpression_AST . getFirstChild ( ) : parenthesizedExpression_AST ; currentAST . advanceChildToEnd ( ) ; } parenthesizedExpression_AST = ( AST ) currentAST . root ; returnAST = parenthesizedExpression_AST ; } public final void stringConstructorExpression ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST stringConstructorExpression_AST = null ; Token cs = null ; AST cs_AST = null ; Token cm = null ; AST cm_AST = null ; Token ce = null ; AST ce_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; cs = LT ( <NUM_LIT:1> ) ; cs_AST = astFactory . create ( cs ) ; astFactory . addASTChild ( currentAST , cs_AST ) ; match ( STRING_CTOR_START ) ; if ( inputState . guessing == <NUM_LIT:0> ) { cs_AST . setType ( STRING_LITERAL ) ; } stringConstructorValuePart ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop495 : do { if ( ( LA ( <NUM_LIT:1> ) == STRING_CTOR_MIDDLE ) ) { cm = LT ( <NUM_LIT:1> ) ; cm_AST = astFactory . create ( cm ) ; astFactory . addASTChild ( currentAST , cm_AST ) ; match ( STRING_CTOR_MIDDLE ) ; if ( inputState . guessing == <NUM_LIT:0> ) { cm_AST . setType ( STRING_LITERAL ) ; } stringConstructorValuePart ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop495 ; } } while ( true ) ; } ce = LT ( <NUM_LIT:1> ) ; ce_AST = astFactory . create ( ce ) ; astFactory . addASTChild ( currentAST , ce_AST ) ; match ( STRING_CTOR_END ) ; if ( inputState . guessing == <NUM_LIT:0> ) { stringConstructorExpression_AST = ( AST ) currentAST . root ; ce_AST . setType ( STRING_LITERAL ) ; stringConstructorExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( STRING_CONSTRUCTOR , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( stringConstructorExpression_AST ) ) ; currentAST . root = stringConstructorExpression_AST ; currentAST . child = stringConstructorExpression_AST != null && stringConstructorExpression_AST . getFirstChild ( ) != null ? stringConstructorExpression_AST . getFirstChild ( ) : stringConstructorExpression_AST ; currentAST . advanceChildToEnd ( ) ; } stringConstructorExpression_AST = ( AST ) currentAST . root ; returnAST = stringConstructorExpression_AST ; } public final void logicalOrExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST logicalOrExpression_AST = null ; logicalAndExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop411 : do { if ( ( LA ( <NUM_LIT:1> ) == LOR ) ) { AST tmp290_AST = null ; tmp290_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp290_AST ) ; match ( LOR ) ; nls ( ) ; logicalAndExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop411 ; } } while ( true ) ; } logicalOrExpression_AST = ( AST ) currentAST . root ; returnAST = logicalOrExpression_AST ; } public final void logicalAndExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST logicalAndExpression_AST = null ; inclusiveOrExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop414 : do { if ( ( LA ( <NUM_LIT:1> ) == LAND ) ) { AST tmp291_AST = null ; tmp291_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp291_AST ) ; match ( LAND ) ; nls ( ) ; inclusiveOrExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop414 ; } } while ( true ) ; } logicalAndExpression_AST = ( AST ) currentAST . root ; returnAST = logicalAndExpression_AST ; } public final void inclusiveOrExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST inclusiveOrExpression_AST = null ; exclusiveOrExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop417 : do { if ( ( LA ( <NUM_LIT:1> ) == BOR ) ) { AST tmp292_AST = null ; tmp292_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp292_AST ) ; match ( BOR ) ; nls ( ) ; exclusiveOrExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop417 ; } } while ( true ) ; } inclusiveOrExpression_AST = ( AST ) currentAST . root ; returnAST = inclusiveOrExpression_AST ; } public final void exclusiveOrExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST exclusiveOrExpression_AST = null ; andExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop420 : do { if ( ( LA ( <NUM_LIT:1> ) == BXOR ) ) { AST tmp293_AST = null ; tmp293_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp293_AST ) ; match ( BXOR ) ; nls ( ) ; andExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop420 ; } } while ( true ) ; } exclusiveOrExpression_AST = ( AST ) currentAST . root ; returnAST = exclusiveOrExpression_AST ; } public final void andExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST andExpression_AST = null ; regexExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop423 : do { if ( ( LA ( <NUM_LIT:1> ) == BAND ) ) { AST tmp294_AST = null ; tmp294_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp294_AST ) ; match ( BAND ) ; nls ( ) ; regexExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop423 ; } } while ( true ) ; } andExpression_AST = ( AST ) currentAST . root ; returnAST = andExpression_AST ; } public final void regexExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST regexExpression_AST = null ; equalityExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop427 : do { if ( ( LA ( <NUM_LIT:1> ) == REGEX_FIND \|\| LA ( <NUM_LIT:1> ) == REGEX_MATCH ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case REGEX_FIND : { AST tmp295_AST = null ; tmp295_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp295_AST ) ; match ( REGEX_FIND ) ; break ; } case REGEX_MATCH : { AST tmp296_AST = null ; tmp296_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp296_AST ) ; match ( REGEX_MATCH ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; equalityExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop427 ; } } while ( true ) ; } regexExpression_AST = ( AST ) currentAST . root ; returnAST = regexExpression_AST ; } public final void equalityExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST equalityExpression_AST = null ; relationalExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop431 : do { if ( ( ( LA ( <NUM_LIT:1> ) >= NOT_EQUAL && LA ( <NUM_LIT:1> ) <= COMPARE_TO ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case NOT_EQUAL : { AST tmp297_AST = null ; tmp297_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp297_AST ) ; match ( NOT_EQUAL ) ; break ; } case EQUAL : { AST tmp298_AST = null ; tmp298_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp298_AST ) ; match ( EQUAL ) ; break ; } case IDENTICAL : { AST tmp299_AST = null ; tmp299_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp299_AST ) ; match ( IDENTICAL ) ; break ; } case NOT_IDENTICAL : { AST tmp300_AST = null ; tmp300_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp300_AST ) ; match ( NOT_IDENTICAL ) ; break ; } case COMPARE_TO : { AST tmp301_AST = null ; tmp301_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp301_AST ) ; match ( COMPARE_TO ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; relationalExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop431 ; } } while ( true ) ; } equalityExpression_AST = ( AST ) currentAST . root ; returnAST = equalityExpression_AST ; } public final void relationalExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST relationalExpression_AST = null ; shiftExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { if ( ( _tokenSet_98 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_82 . member ( LA ( <NUM_LIT:2> ) ) ) ) { { { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { AST tmp302_AST = null ; tmp302_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp302_AST ) ; match ( LT ) ; break ; } case GT : { AST tmp303_AST = null ; tmp303_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp303_AST ) ; match ( GT ) ; break ; } case LE : { AST tmp304_AST = null ; tmp304_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp304_AST ) ; match ( LE ) ; break ; } case GE : { AST tmp305_AST = null ; tmp305_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp305_AST ) ; match ( GE ) ; break ; } case LITERAL_in : { AST tmp306_AST = null ; tmp306_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp306_AST ) ; match ( LITERAL_in ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; shiftExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } } else if ( ( LA ( <NUM_LIT:1> ) == LITERAL_instanceof ) && ( _tokenSet_99 . member ( LA ( <NUM_LIT:2> ) ) ) ) { AST tmp307_AST = null ; tmp307_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp307_AST ) ; match ( LITERAL_instanceof ) ; nls ( ) ; typeSpec ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( LA ( <NUM_LIT:1> ) == LITERAL_as ) && ( _tokenSet_99 . member ( LA ( <NUM_LIT:2> ) ) ) ) { AST tmp308_AST = null ; tmp308_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp308_AST ) ; match ( LITERAL_as ) ; nls ( ) ; typeSpec ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_100 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_74 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } relationalExpression_AST = ( AST ) currentAST . root ; returnAST = relationalExpression_AST ; } public final void additiveExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST additiveExpression_AST = null ; multiplicativeExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop444 : do { if ( ( LA ( <NUM_LIT:1> ) == PLUS \|\| LA ( <NUM_LIT:1> ) == MINUS ) && ( _tokenSet_82 . member ( LA ( <NUM_LIT:2> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case PLUS : { AST tmp309_AST = null ; tmp309_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp309_AST ) ; match ( PLUS ) ; break ; } case MINUS : { AST tmp310_AST = null ; tmp310_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp310_AST ) ; match ( MINUS ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; multiplicativeExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop444 ; } } while ( true ) ; } additiveExpression_AST = ( AST ) currentAST . root ; returnAST = additiveExpression_AST ; } public final void multiplicativeExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST multiplicativeExpression_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case INC : { { AST tmp311_AST = null ; tmp311_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp311_AST ) ; match ( INC ) ; nls ( ) ; powerExpressionNotPlusMinus ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop449 : do { if ( ( _tokenSet_101 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case STAR : { AST tmp312_AST = null ; tmp312_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp312_AST ) ; match ( STAR ) ; break ; } case DIV : { AST tmp313_AST = null ; tmp313_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp313_AST ) ; match ( DIV ) ; break ; } case MOD : { AST tmp314_AST = null ; tmp314_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp314_AST ) ; match ( MOD ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; powerExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop449 ; } } while ( true ) ; } } multiplicativeExpression_AST = ( AST ) currentAST . root ; break ; } case DEC : { { AST tmp315_AST = null ; tmp315_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp315_AST ) ; match ( DEC ) ; nls ( ) ; powerExpressionNotPlusMinus ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop453 : do { if ( ( _tokenSet_101 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case STAR : { AST tmp316_AST = null ; tmp316_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp316_AST ) ; match ( STAR ) ; break ; } case DIV : { AST tmp317_AST = null ; tmp317_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp317_AST ) ; match ( DIV ) ; break ; } case MOD : { AST tmp318_AST = null ; tmp318_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp318_AST ) ; match ( MOD ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; powerExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop453 ; } } while ( true ) ; } } multiplicativeExpression_AST = ( AST ) currentAST . root ; break ; } case MINUS : { { AST tmp319_AST = null ; tmp319_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp319_AST ) ; match ( MINUS ) ; if ( inputState . guessing == <NUM_LIT:0> ) { tmp319_AST . setType ( UNARY_MINUS ) ; } nls ( ) ; powerExpressionNotPlusMinus ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop457 : do { if ( ( _tokenSet_101 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case STAR : { AST tmp320_AST = null ; tmp320_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp320_AST ) ; match ( STAR ) ; break ; } case DIV : { AST tmp321_AST = null ; tmp321_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp321_AST ) ; match ( DIV ) ; break ; } case MOD : { AST tmp322_AST = null ; tmp322_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp322_AST ) ; match ( MOD ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; powerExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop457 ; } } while ( true ) ; } } multiplicativeExpression_AST = ( AST ) currentAST . root ; break ; } case PLUS : { { AST tmp323_AST = null ; tmp323_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp323_AST ) ; match ( PLUS ) ; if ( inputState . guessing == <NUM_LIT:0> ) { tmp323_AST . setType ( UNARY_PLUS ) ; } nls ( ) ; powerExpressionNotPlusMinus ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop461 : do { if ( ( _tokenSet_101 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case STAR : { AST tmp324_AST = null ; tmp324_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp324_AST ) ; match ( STAR ) ; break ; } case DIV : { AST tmp325_AST = null ; tmp325_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp325_AST ) ; match ( DIV ) ; break ; } case MOD : { AST tmp326_AST = null ; tmp326_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp326_AST ) ; match ( MOD ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; powerExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop461 ; } } while ( true ) ; } } multiplicativeExpression_AST = ( AST ) currentAST . root ; break ; } case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LCURLY : case LITERAL_this : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { { powerExpressionNotPlusMinus ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop465 : do { if ( ( _tokenSet_101 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case STAR : { AST tmp327_AST = null ; tmp327_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp327_AST ) ; match ( STAR ) ; break ; } case DIV : { AST tmp328_AST = null ; tmp328_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp328_AST ) ; match ( DIV ) ; break ; } case MOD : { AST tmp329_AST = null ; tmp329_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp329_AST ) ; match ( MOD ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } nls ( ) ; powerExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop465 ; } } while ( true ) ; } } multiplicativeExpression_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = multiplicativeExpression_AST ; } public final void powerExpressionNotPlusMinus ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST powerExpressionNotPlusMinus_AST = null ; unaryExpressionNotPlusMinus ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop471 : do { if ( ( LA ( <NUM_LIT:1> ) == STAR_STAR ) ) { AST tmp330_AST = null ; tmp330_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp330_AST ) ; match ( STAR_STAR ) ; nls ( ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop471 ; } } while ( true ) ; } powerExpressionNotPlusMinus_AST = ( AST ) currentAST . root ; returnAST = powerExpressionNotPlusMinus_AST ; } public final void powerExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST powerExpression_AST = null ; unaryExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { _loop468 : do { if ( ( LA ( <NUM_LIT:1> ) == STAR_STAR ) ) { AST tmp331_AST = null ; tmp331_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp331_AST ) ; match ( STAR_STAR ) ; nls ( ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { break _loop468 ; } } while ( true ) ; } powerExpression_AST = ( AST ) currentAST . root ; returnAST = powerExpression_AST ; } public final void unaryExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST unaryExpression_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case INC : { AST tmp332_AST = null ; tmp332_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp332_AST ) ; match ( INC ) ; nls ( ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; unaryExpression_AST = ( AST ) currentAST . root ; break ; } case DEC : { AST tmp333_AST = null ; tmp333_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp333_AST ) ; match ( DEC ) ; nls ( ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; unaryExpression_AST = ( AST ) currentAST . root ; break ; } case MINUS : { AST tmp334_AST = null ; tmp334_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp334_AST ) ; match ( MINUS ) ; if ( inputState . guessing == <NUM_LIT:0> ) { tmp334_AST . setType ( UNARY_MINUS ) ; } nls ( ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; unaryExpression_AST = ( AST ) currentAST . root ; break ; } case PLUS : { AST tmp335_AST = null ; tmp335_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp335_AST ) ; match ( PLUS ) ; if ( inputState . guessing == <NUM_LIT:0> ) { tmp335_AST . setType ( UNARY_PLUS ) ; } nls ( ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; unaryExpression_AST = ( AST ) currentAST . root ; break ; } case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LCURLY : case LITERAL_this : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { unaryExpressionNotPlusMinus ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; unaryExpression_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = unaryExpression_AST ; } public final void unaryExpressionNotPlusMinus ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST unaryExpressionNotPlusMinus_AST = null ; Token lpb = null ; AST lpb_AST = null ; Token lp = null ; AST lp_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case BNOT : { AST tmp336_AST = null ; tmp336_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp336_AST ) ; match ( BNOT ) ; nls ( ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; unaryExpressionNotPlusMinus_AST = ( AST ) currentAST . root ; break ; } case LNOT : { AST tmp337_AST = null ; tmp337_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . makeASTRoot ( currentAST , tmp337_AST ) ; match ( LNOT ) ; nls ( ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; unaryExpressionNotPlusMinus_AST = ( AST ) currentAST . root ; break ; } case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LCURLY : case LITERAL_this : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { { boolean synPredMatched476 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LPAREN ) && ( ( LA ( <NUM_LIT:2> ) >= LITERAL_void && LA ( <NUM_LIT:2> ) <= LITERAL_double ) ) ) ) { int _m476 = mark ( ) ; synPredMatched476 = true ; inputState . guessing ++ ; try { { match ( LPAREN ) ; builtInTypeSpec ( true ) ; match ( RPAREN ) ; unaryExpression ( <NUM_LIT:0> ) ; } } catch ( RecognitionException pe ) { synPredMatched476 = false ; } rewind ( _m476 ) ; inputState . guessing -- ; } if ( synPredMatched476 ) { lpb = LT ( <NUM_LIT:1> ) ; lpb_AST = astFactory . create ( lpb ) ; astFactory . makeASTRoot ( currentAST , lpb_AST ) ; match ( LPAREN ) ; if ( inputState . guessing == <NUM_LIT:0> ) { lpb_AST . setType ( TYPECAST ) ; } builtInTypeSpec ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( RPAREN ) ; unaryExpression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { boolean synPredMatched478 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == LPAREN ) && ( LA ( <NUM_LIT:2> ) == IDENT ) ) ) { int _m478 = mark ( ) ; synPredMatched478 = true ; inputState . guessing ++ ; try { { match ( LPAREN ) ; classTypeSpec ( true ) ; match ( RPAREN ) ; unaryExpressionNotPlusMinus ( <NUM_LIT:0> ) ; } } catch ( RecognitionException pe ) { synPredMatched478 = false ; } rewind ( _m478 ) ; inputState . guessing -- ; } if ( synPredMatched478 ) { lp = LT ( <NUM_LIT:1> ) ; lp_AST = astFactory . create ( lp ) ; astFactory . makeASTRoot ( currentAST , lp_AST ) ; match ( LPAREN ) ; if ( inputState . guessing == <NUM_LIT:0> ) { lp_AST . setType ( TYPECAST ) ; } classTypeSpec ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; match ( RPAREN ) ; unaryExpressionNotPlusMinus ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_91 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_38 . member ( LA ( <NUM_LIT:2> ) ) ) ) { postfixExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } unaryExpressionNotPlusMinus_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = unaryExpressionNotPlusMinus_AST ; } public final void postfixExpression ( int lc_stmt ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST postfixExpression_AST = null ; Token in = null ; AST in_AST = null ; Token de = null ; AST de_AST = null ; pathExpression ( lc_stmt ) ; astFactory . addASTChild ( currentAST , returnAST ) ; { if ( ( LA ( <NUM_LIT:1> ) == INC ) && ( _tokenSet_102 . member ( LA ( <NUM_LIT:2> ) ) ) ) { in = LT ( <NUM_LIT:1> ) ; in_AST = astFactory . create ( in ) ; astFactory . makeASTRoot ( currentAST , in_AST ) ; match ( INC ) ; if ( inputState . guessing == <NUM_LIT:0> ) { in_AST . setType ( POST_INC ) ; } } else if ( ( LA ( <NUM_LIT:1> ) == DEC ) && ( _tokenSet_102 . member ( LA ( <NUM_LIT:2> ) ) ) ) { de = LT ( <NUM_LIT:1> ) ; de_AST = astFactory . create ( de ) ; astFactory . makeASTRoot ( currentAST , de_AST ) ; match ( DEC ) ; if ( inputState . guessing == <NUM_LIT:0> ) { de_AST . setType ( POST_DEC ) ; } } else if ( ( _tokenSet_102 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_74 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } postfixExpression_AST = ( AST ) currentAST . root ; returnAST = postfixExpression_AST ; } public final void constant ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST constant_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { constantNumber ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; constant_AST = ( AST ) currentAST . root ; break ; } case STRING_LITERAL : { AST tmp340_AST = null ; tmp340_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp340_AST ) ; match ( STRING_LITERAL ) ; constant_AST = ( AST ) currentAST . root ; break ; } case LITERAL_true : { AST tmp341_AST = null ; tmp341_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp341_AST ) ; match ( LITERAL_true ) ; constant_AST = ( AST ) currentAST . root ; break ; } case LITERAL_false : { AST tmp342_AST = null ; tmp342_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp342_AST ) ; match ( LITERAL_false ) ; constant_AST = ( AST ) currentAST . root ; break ; } case LITERAL_null : { AST tmp343_AST = null ; tmp343_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp343_AST ) ; match ( LITERAL_null ) ; constant_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = constant_AST ; } public final void newExpression ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST newExpression_AST = null ; AST ta_AST = null ; AST t_AST = null ; AST mca_AST = null ; AST cb_AST = null ; AST ad_AST = null ; Token first = LT ( <NUM_LIT:1> ) ; int jumpBack = mark ( ) ; try { match ( LITERAL_new ) ; nls ( ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case LT : { typeArguments ( ) ; ta_AST = ( AST ) returnAST ; break ; } case LBRACK : case IDENT : case LPAREN : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : { type ( ) ; t_AST = ( AST ) returnAST ; break ; } case LBRACK : case LPAREN : case NLS : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } { switch ( LA ( <NUM_LIT:1> ) ) { case LPAREN : case NLS : { nls ( ) ; methodCallArgs ( null ) ; mca_AST = ( AST ) returnAST ; { if ( ( LA ( <NUM_LIT:1> ) == LCURLY ) && ( _tokenSet_51 . member ( LA ( <NUM_LIT:2> ) ) ) ) { classBlock ( ) ; cb_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; } else if ( ( _tokenSet_95 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_74 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { newExpression_AST = ( AST ) currentAST . root ; mca_AST = mca_AST . getFirstChild ( ) ; newExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:5> ) ) . add ( create ( LITERAL_new , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( ta_AST ) . add ( t_AST ) . add ( mca_AST ) . add ( cb_AST ) ) ; currentAST . root = newExpression_AST ; currentAST . child = newExpression_AST != null && newExpression_AST . getFirstChild ( ) != null ? newExpression_AST . getFirstChild ( ) : newExpression_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } case LBRACK : { newArrayDeclarator ( ) ; ad_AST = ( AST ) returnAST ; if ( inputState . guessing == <NUM_LIT:0> ) { newExpression_AST = ( AST ) currentAST . root ; newExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:4> ) ) . add ( create ( LITERAL_new , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( ta_AST ) . add ( t_AST ) . add ( ad_AST ) ) ; currentAST . root = newExpression_AST ; currentAST . child = newExpression_AST != null && newExpression_AST . getFirstChild ( ) != null ? newExpression_AST . getFirstChild ( ) : newExpression_AST ; currentAST . advanceChildToEnd ( ) ; } break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } newExpression_AST = ( AST ) currentAST . root ; } catch ( RecognitionException e ) { if ( inputState . guessing == <NUM_LIT:0> ) { if ( t_AST == null ) { reportError ( "<STR_LIT>" , first ) ; newExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_new , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( ta_AST ) . add ( null ) ) ; if ( e instanceof MismatchedTokenException \|\| e instanceof NoViableAltException ) { rewind ( jumpBack ) ; consumeUntil ( NLS ) ; } } else if ( mca_AST == null && ad_AST == null ) { reportError ( "<STR_LIT>" , t_AST ) ; newExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:3> ) ) . add ( create ( LITERAL_new , "<STR_LIT>" , first , LT ( <NUM_LIT:1> ) ) ) . add ( ta_AST ) . add ( t_AST ) ) ; if ( e instanceof MismatchedTokenException ) { Token t = ( ( MismatchedTokenException ) e ) . token ; int i = ( ( MismatchedTokenException ) e ) . token . getType ( ) ; rewind ( jumpBack ) ; consume ( ) ; consumeUntil ( NLS ) ; } } else { throw e ; } } else { throw e ; } } returnAST = newExpression_AST ; } public final void closableBlockConstructorExpression ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST closableBlockConstructorExpression_AST = null ; closableBlock ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; closableBlockConstructorExpression_AST = ( AST ) currentAST . root ; returnAST = closableBlockConstructorExpression_AST ; } public final void listOrMapConstructorExpression ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST listOrMapConstructorExpression_AST = null ; Token lcon = null ; AST lcon_AST = null ; AST args_AST = null ; Token emcon = null ; AST emcon_AST = null ; boolean hasLabels = false ; if ( ( LA ( <NUM_LIT:1> ) == LBRACK ) && ( _tokenSet_103 . member ( LA ( <NUM_LIT:2> ) ) ) ) { lcon = LT ( <NUM_LIT:1> ) ; lcon_AST = astFactory . create ( lcon ) ; match ( LBRACK ) ; argList ( ) ; args_AST = ( AST ) returnAST ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { hasLabels \|= argListHasLabels ; } match ( RBRACK ) ; if ( inputState . guessing == <NUM_LIT:0> ) { listOrMapConstructorExpression_AST = ( AST ) currentAST . root ; int type = hasLabels ? MAP_CONSTRUCTOR : LIST_CONSTRUCTOR ; listOrMapConstructorExpression_AST = ( AST ) astFactory . make ( ( new ASTArray ( <NUM_LIT:2> ) ) . add ( create ( type , "<STR_LIT:[>" , lcon_AST , LT ( <NUM_LIT:1> ) ) ) . add ( args_AST ) ) ; currentAST . root = listOrMapConstructorExpression_AST ; currentAST . child = listOrMapConstructorExpression_AST != null && listOrMapConstructorExpression_AST . getFirstChild ( ) != null ? listOrMapConstructorExpression_AST . getFirstChild ( ) : listOrMapConstructorExpression_AST ; currentAST . advanceChildToEnd ( ) ; } listOrMapConstructorExpression_AST = ( AST ) currentAST . root ; } else if ( ( LA ( <NUM_LIT:1> ) == LBRACK ) && ( LA ( <NUM_LIT:2> ) == COLON ) ) { emcon = LT ( <NUM_LIT:1> ) ; emcon_AST = astFactory . create ( emcon ) ; astFactory . makeASTRoot ( currentAST , emcon_AST ) ; match ( LBRACK ) ; match ( COLON ) ; match ( RBRACK ) ; if ( inputState . guessing == <NUM_LIT:0> ) { emcon_AST . setType ( MAP_CONSTRUCTOR ) ; } listOrMapConstructorExpression_AST = ( AST ) currentAST . root ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } returnAST = listOrMapConstructorExpression_AST ; } public final void stringConstructorValuePart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST stringConstructorValuePart_AST = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { identifier ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case LITERAL_this : { AST tmp348_AST = null ; tmp348_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp348_AST ) ; match ( LITERAL_this ) ; break ; } case LITERAL_super : { AST tmp349_AST = null ; tmp349_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp349_AST ) ; match ( LITERAL_super ) ; break ; } case LCURLY : { openOrClosableBlock ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } stringConstructorValuePart_AST = ( AST ) currentAST . root ; returnAST = stringConstructorValuePart_AST ; } public final void newArrayDeclarator ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST newArrayDeclarator_AST = null ; Token lb = null ; AST lb_AST = null ; { int _cnt535 = <NUM_LIT:0> ; _loop535 : do { if ( ( LA ( <NUM_LIT:1> ) == LBRACK ) && ( _tokenSet_104 . member ( LA ( <NUM_LIT:2> ) ) ) ) { lb = LT ( <NUM_LIT:1> ) ; lb_AST = astFactory . create ( lb ) ; astFactory . makeASTRoot ( currentAST , lb_AST ) ; match ( LBRACK ) ; if ( inputState . guessing == <NUM_LIT:0> ) { lb_AST . setType ( ARRAY_DECLARATOR ) ; } { switch ( LA ( <NUM_LIT:1> ) ) { case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LCURLY : case LITERAL_this : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { expression ( <NUM_LIT:0> ) ; astFactory . addASTChild ( currentAST , returnAST ) ; break ; } case RBRACK : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } match ( RBRACK ) ; } else { if ( _cnt535 >= <NUM_LIT:1> ) { break _loop535 ; } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } _cnt535 ++ ; } while ( true ) ; } newArrayDeclarator_AST = ( AST ) currentAST . root ; returnAST = newArrayDeclarator_AST ; } public final byte argument ( ) throws RecognitionException , TokenStreamException { byte hasLabelOrSpread = <NUM_LIT:0> ; returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST argument_AST = null ; Token c = null ; AST c_AST = null ; Token sp = null ; AST sp_AST = null ; boolean sce = false ; { boolean synPredMatched521 = false ; if ( ( ( _tokenSet_88 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_89 . member ( LA ( <NUM_LIT:2> ) ) ) ) ) { int _m521 = mark ( ) ; synPredMatched521 = true ; inputState . guessing ++ ; try { { argumentLabelStart ( ) ; } } catch ( RecognitionException pe ) { synPredMatched521 = false ; } rewind ( _m521 ) ; inputState . guessing -- ; } if ( synPredMatched521 ) { argumentLabel ( ) ; astFactory . addASTChild ( currentAST , returnAST ) ; c = LT ( <NUM_LIT:1> ) ; c_AST = astFactory . create ( c ) ; astFactory . makeASTRoot ( currentAST , c_AST ) ; match ( COLON ) ; if ( inputState . guessing == <NUM_LIT:0> ) { c_AST . setType ( LABELED_ARG ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { hasLabelOrSpread \|= <NUM_LIT:1> ; } } else if ( ( LA ( <NUM_LIT:1> ) == STAR ) ) { sp = LT ( <NUM_LIT:1> ) ; sp_AST = astFactory . create ( sp ) ; astFactory . makeASTRoot ( currentAST , sp_AST ) ; match ( STAR ) ; if ( inputState . guessing == <NUM_LIT:0> ) { sp_AST . setType ( SPREAD_ARG ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { hasLabelOrSpread \|= <NUM_LIT:2> ; } { switch ( LA ( <NUM_LIT:1> ) ) { case COLON : { match ( COLON ) ; if ( inputState . guessing == <NUM_LIT:0> ) { sp_AST . setType ( SPREAD_MAP_ARG ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { hasLabelOrSpread \|= <NUM_LIT:1> ; } break ; } case FINAL : case ABSTRACT : case STRICTFP : case LITERAL_static : case LITERAL_def : case LBRACK : case IDENT : case STRING_LITERAL : case LPAREN : case AT : case LITERAL_super : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LCURLY : case LITERAL_this : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case PLUS : case MINUS : case LITERAL_false : case LITERAL_new : case LITERAL_null : case LITERAL_true : case INC : case DEC : case BNOT : case LNOT : case STRING_CTOR_START : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } } else if ( ( _tokenSet_84 . member ( LA ( <NUM_LIT:1> ) ) ) && ( _tokenSet_105 . member ( LA ( <NUM_LIT:2> ) ) ) ) { } else { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } sce = strictContextExpression ( true ) ; astFactory . addASTChild ( currentAST , returnAST ) ; if ( inputState . guessing == <NUM_LIT:0> ) { require ( LA ( <NUM_LIT:1> ) != COLON , "<STR_LIT>" , "<STR_LIT>" ) ; } argument_AST = ( AST ) currentAST . root ; returnAST = argument_AST ; return hasLabelOrSpread ; } public final void argumentLabelStart ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST argumentLabelStart_AST = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case IDENT : { AST tmp352_AST = null ; tmp352_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( IDENT ) ; break ; } case FINAL : case ABSTRACT : case UNUSED_GOTO : case UNUSED_DO : case STRICTFP : case LITERAL_package : case LITERAL_import : case LITERAL_static : case LITERAL_def : case LITERAL_class : case LITERAL_interface : case LITERAL_enum : case LITERAL_extends : case LITERAL_void : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_short : case LITERAL_int : case LITERAL_float : case LITERAL_long : case LITERAL_double : case LITERAL_as : case LITERAL_private : case LITERAL_public : case LITERAL_protected : case LITERAL_transient : case LITERAL_native : case LITERAL_threadsafe : case LITERAL_synchronized : case LITERAL_volatile : case LITERAL_default : case LITERAL_throws : case LITERAL_implements : case LITERAL_if : case LITERAL_else : case LITERAL_while : case LITERAL_switch : case LITERAL_for : case LITERAL_in : case LITERAL_return : case LITERAL_break : case LITERAL_continue : case LITERAL_throw : case LITERAL_assert : case LITERAL_case : case LITERAL_try : case LITERAL_finally : case LITERAL_catch : case LITERAL_false : case LITERAL_instanceof : case LITERAL_new : case LITERAL_null : case LITERAL_true : { keywordPropertyNames ( ) ; break ; } case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : { constantNumber ( ) ; break ; } case STRING_LITERAL : { AST tmp353_AST = null ; tmp353_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( STRING_LITERAL ) ; break ; } case LBRACK : case LPAREN : case LCURLY : case STRING_CTOR_START : { balancedBrackets ( ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } } AST tmp354_AST = null ; tmp354_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( COLON ) ; returnAST = argumentLabelStart_AST ; } public final void constantNumber ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST constantNumber_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case NUM_INT : { AST tmp355_AST = null ; tmp355_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp355_AST ) ; match ( NUM_INT ) ; constantNumber_AST = ( AST ) currentAST . root ; break ; } case NUM_FLOAT : { AST tmp356_AST = null ; tmp356_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp356_AST ) ; match ( NUM_FLOAT ) ; constantNumber_AST = ( AST ) currentAST . root ; break ; } case NUM_LONG : { AST tmp357_AST = null ; tmp357_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp357_AST ) ; match ( NUM_LONG ) ; constantNumber_AST = ( AST ) currentAST . root ; break ; } case NUM_DOUBLE : { AST tmp358_AST = null ; tmp358_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp358_AST ) ; match ( NUM_DOUBLE ) ; constantNumber_AST = ( AST ) currentAST . root ; break ; } case NUM_BIG_INT : { AST tmp359_AST = null ; tmp359_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp359_AST ) ; match ( NUM_BIG_INT ) ; constantNumber_AST = ( AST ) currentAST . root ; break ; } case NUM_BIG_DECIMAL : { AST tmp360_AST = null ; tmp360_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; astFactory . addASTChild ( currentAST , tmp360_AST ) ; match ( NUM_BIG_DECIMAL ) ; constantNumber_AST = ( AST ) currentAST . root ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = constantNumber_AST ; } public final void balancedBrackets ( ) throws RecognitionException , TokenStreamException { returnAST = null ; ASTPair currentAST = new ASTPair ( ) ; AST balancedBrackets_AST = null ; switch ( LA ( <NUM_LIT:1> ) ) { case LPAREN : { AST tmp361_AST = null ; tmp361_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( LPAREN ) ; balancedTokens ( ) ; AST tmp362_AST = null ; tmp362_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( RPAREN ) ; break ; } case LBRACK : { AST tmp363_AST = null ; tmp363_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( LBRACK ) ; balancedTokens ( ) ; AST tmp364_AST = null ; tmp364_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( RBRACK ) ; break ; } case LCURLY : { AST tmp365_AST = null ; tmp365_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( LCURLY ) ; balancedTokens ( ) ; AST tmp366_AST = null ; tmp366_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( RCURLY ) ; break ; } case STRING_CTOR_START : { AST tmp367_AST = null ; tmp367_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( STRING_CTOR_START ) ; balancedTokens ( ) ; AST tmp368_AST = null ; tmp368_AST = astFactory . create ( LT ( <NUM_LIT:1> ) ) ; match ( STRING_CTOR_END ) ; break ; } default : { throw new NoViableAltException ( LT ( <NUM_LIT:1> ) , getFilename ( ) ) ; } } returnAST = balancedBrackets_AST ; } public static final String [ ] _tokenNames = { "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; protected void buildTokenTypeASTClassMap ( ) { tokenTypeToASTClassMap = null ; } ; private static final long [ ] mk_tokenSet_0 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_0 = new BitSet ( mk_tokenSet_0 ( ) ) ; private static final long [ ] mk_tokenSet_1 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_1 = new BitSet ( mk_tokenSet_1 ( ) ) ; private static final long [ ] mk_tokenSet_2 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_2 = new BitSet ( mk_tokenSet_2 ( ) ) ; private static final long [ ] mk_tokenSet_3 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_3 = new BitSet ( mk_tokenSet_3 ( ) ) ; private static final long [ ] mk_tokenSet_4 ( ) { long [ ] data = new long [ <NUM_LIT:16> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:1> ; i <= <NUM_LIT:2> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_4 = new BitSet ( mk_tokenSet_4 ( ) ) ; private static final long [ ] mk_tokenSet_5 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_5 = new BitSet ( mk_tokenSet_5 ( ) ) ; private static final long [ ] mk_tokenSet_6 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_6 = new BitSet ( mk_tokenSet_6 ( ) ) ; private static final long [ ] mk_tokenSet_7 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_7 = new BitSet ( mk_tokenSet_7 ( ) ) ; private static final long [ ] mk_tokenSet_8 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_8 = new BitSet ( mk_tokenSet_8 ( ) ) ; private static final long [ ] mk_tokenSet_9 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_9 = new BitSet ( mk_tokenSet_9 ( ) ) ; private static final long [ ] mk_tokenSet_10 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_10 = new BitSet ( mk_tokenSet_10 ( ) ) ; private static final long [ ] mk_tokenSet_11 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_11 = new BitSet ( mk_tokenSet_11 ( ) ) ; private static final long [ ] mk_tokenSet_12 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_12 = new BitSet ( mk_tokenSet_12 ( ) ) ; private static final long [ ] mk_tokenSet_13 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_13 = new BitSet ( mk_tokenSet_13 ( ) ) ; private static final long [ ] mk_tokenSet_14 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_14 = new BitSet ( mk_tokenSet_14 ( ) ) ; private static final long [ ] mk_tokenSet_15 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_15 = new BitSet ( mk_tokenSet_15 ( ) ) ; private static final long [ ] mk_tokenSet_16 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_16 = new BitSet ( mk_tokenSet_16 ( ) ) ; private static final long [ ] mk_tokenSet_17 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_17 = new BitSet ( mk_tokenSet_17 ( ) ) ; private static final long [ ] mk_tokenSet_18 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_18 = new BitSet ( mk_tokenSet_18 ( ) ) ; private static final long [ ] mk_tokenSet_19 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_19 = new BitSet ( mk_tokenSet_19 ( ) ) ; private static final long [ ] mk_tokenSet_20 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_20 = new BitSet ( mk_tokenSet_20 ( ) ) ; private static final long [ ] mk_tokenSet_21 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_21 = new BitSet ( mk_tokenSet_21 ( ) ) ; private static final long [ ] mk_tokenSet_22 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_22 = new BitSet ( mk_tokenSet_22 ( ) ) ; private static final long [ ] mk_tokenSet_23 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_23 = new BitSet ( mk_tokenSet_23 ( ) ) ; private static final long [ ] mk_tokenSet_24 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_24 = new BitSet ( mk_tokenSet_24 ( ) ) ; private static final long [ ] mk_tokenSet_25 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_25 = new BitSet ( mk_tokenSet_25 ( ) ) ; private static final long [ ] mk_tokenSet_26 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_26 = new BitSet ( mk_tokenSet_26 ( ) ) ; private static final long [ ] mk_tokenSet_27 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_27 = new BitSet ( mk_tokenSet_27 ( ) ) ; private static final long [ ] mk_tokenSet_28 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_28 = new BitSet ( mk_tokenSet_28 ( ) ) ; private static final long [ ] mk_tokenSet_29 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_29 = new BitSet ( mk_tokenSet_29 ( ) ) ; private static final long [ ] mk_tokenSet_30 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_30 = new BitSet ( mk_tokenSet_30 ( ) ) ; private static final long [ ] mk_tokenSet_31 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_31 = new BitSet ( mk_tokenSet_31 ( ) ) ; private static final long [ ] mk_tokenSet_32 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_32 = new BitSet ( mk_tokenSet_32 ( ) ) ; private static final long [ ] mk_tokenSet_33 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_33 = new BitSet ( mk_tokenSet_33 ( ) ) ; private static final long [ ] mk_tokenSet_34 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_34 = new BitSet ( mk_tokenSet_34 ( ) ) ; private static final long [ ] mk_tokenSet_35 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_35 = new BitSet ( mk_tokenSet_35 ( ) ) ; private static final long [ ] mk_tokenSet_36 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_36 = new BitSet ( mk_tokenSet_36 ( ) ) ; private static final long [ ] mk_tokenSet_37 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_37 = new BitSet ( mk_tokenSet_37 ( ) ) ; private static final long [ ] mk_tokenSet_38 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_38 = new BitSet ( mk_tokenSet_38 ( ) ) ; private static final long [ ] mk_tokenSet_39 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_39 = new BitSet ( mk_tokenSet_39 ( ) ) ; private static final long [ ] mk_tokenSet_40 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_40 = new BitSet ( mk_tokenSet_40 ( ) ) ; private static final long [ ] mk_tokenSet_41 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_41 = new BitSet ( mk_tokenSet_41 ( ) ) ; private static final long [ ] mk_tokenSet_42 ( ) { long [ ] data = new long [ <NUM_LIT:16> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_42 = new BitSet ( mk_tokenSet_42 ( ) ) ; private static final long [ ] mk_tokenSet_43 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_43 = new BitSet ( mk_tokenSet_43 ( ) ) ; private static final long [ ] mk_tokenSet_44 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_44 = new BitSet ( mk_tokenSet_44 ( ) ) ; private static final long [ ] mk_tokenSet_45 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_45 = new BitSet ( mk_tokenSet_45 ( ) ) ; private static final long [ ] mk_tokenSet_46 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_46 = new BitSet ( mk_tokenSet_46 ( ) ) ; private static final long [ ] mk_tokenSet_47 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_47 = new BitSet ( mk_tokenSet_47 ( ) ) ; private static final long [ ] mk_tokenSet_48 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_48 = new BitSet ( mk_tokenSet_48 ( ) ) ; private static final long [ ] mk_tokenSet_49 ( ) { long [ ] data = { <NUM_LIT> , - <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_49 = new BitSet ( mk_tokenSet_49 ( ) ) ; private static final long [ ] mk_tokenSet_50 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_50 = new BitSet ( mk_tokenSet_50 ( ) ) ; private static final long [ ] mk_tokenSet_51 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_51 = new BitSet ( mk_tokenSet_51 ( ) ) ; private static final long [ ] mk_tokenSet_52 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_52 = new BitSet ( mk_tokenSet_52 ( ) ) ; private static final long [ ] mk_tokenSet_53 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_53 = new BitSet ( mk_tokenSet_53 ( ) ) ; private static final long [ ] mk_tokenSet_54 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_54 = new BitSet ( mk_tokenSet_54 ( ) ) ; private static final long [ ] mk_tokenSet_55 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_55 = new BitSet ( mk_tokenSet_55 ( ) ) ; private static final long [ ] mk_tokenSet_56 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_56 = new BitSet ( mk_tokenSet_56 ( ) ) ; private static final long [ ] mk_tokenSet_57 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_57 = new BitSet ( mk_tokenSet_57 ( ) ) ; private static final long [ ] mk_tokenSet_58 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_58 = new BitSet ( mk_tokenSet_58 ( ) ) ; private static final long [ ] mk_tokenSet_59 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_59 = new BitSet ( mk_tokenSet_59 ( ) ) ; private static final long [ ] mk_tokenSet_60 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_60 = new BitSet ( mk_tokenSet_60 ( ) ) ; private static final long [ ] mk_tokenSet_61 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_61 = new BitSet ( mk_tokenSet_61 ( ) ) ; private static final long [ ] mk_tokenSet_62 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_62 = new BitSet ( mk_tokenSet_62 ( ) ) ; private static final long [ ] mk_tokenSet_63 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_63 = new BitSet ( mk_tokenSet_63 ( ) ) ; private static final long [ ] mk_tokenSet_64 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_64 = new BitSet ( mk_tokenSet_64 ( ) ) ; private static final long [ ] mk_tokenSet_65 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_65 = new BitSet ( mk_tokenSet_65 ( ) ) ; private static final long [ ] mk_tokenSet_66 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT:1L> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_66 = new BitSet ( mk_tokenSet_66 ( ) ) ; private static final long [ ] mk_tokenSet_67 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_67 = new BitSet ( mk_tokenSet_67 ( ) ) ; private static final long [ ] mk_tokenSet_68 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_68 = new BitSet ( mk_tokenSet_68 ( ) ) ; private static final long [ ] mk_tokenSet_69 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_69 = new BitSet ( mk_tokenSet_69 ( ) ) ; private static final long [ ] mk_tokenSet_70 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_70 = new BitSet ( mk_tokenSet_70 ( ) ) ; private static final long [ ] mk_tokenSet_71 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_71 = new BitSet ( mk_tokenSet_71 ( ) ) ; private static final long [ ] mk_tokenSet_72 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_72 = new BitSet ( mk_tokenSet_72 ( ) ) ; private static final long [ ] mk_tokenSet_73 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_73 = new BitSet ( mk_tokenSet_73 ( ) ) ; private static final long [ ] mk_tokenSet_74 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_74 = new BitSet ( mk_tokenSet_74 ( ) ) ; private static final long [ ] mk_tokenSet_75 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_75 = new BitSet ( mk_tokenSet_75 ( ) ) ; private static final long [ ] mk_tokenSet_76 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_76 = new BitSet ( mk_tokenSet_76 ( ) ) ; private static final long [ ] mk_tokenSet_77 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_77 = new BitSet ( mk_tokenSet_77 ( ) ) ; private static final long [ ] mk_tokenSet_78 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_78 = new BitSet ( mk_tokenSet_78 ( ) ) ; private static final long [ ] mk_tokenSet_79 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_79 = new BitSet ( mk_tokenSet_79 ( ) ) ; private static final long [ ] mk_tokenSet_80 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_80 = new BitSet ( mk_tokenSet_80 ( ) ) ; private static final long [ ] mk_tokenSet_81 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_81 = new BitSet ( mk_tokenSet_81 ( ) ) ; private static final long [ ] mk_tokenSet_82 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_82 = new BitSet ( mk_tokenSet_82 ( ) ) ; private static final long [ ] mk_tokenSet_83 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_83 = new BitSet ( mk_tokenSet_83 ( ) ) ; private static final long [ ] mk_tokenSet_84 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_84 = new BitSet ( mk_tokenSet_84 ( ) ) ; private static final long [ ] mk_tokenSet_85 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_85 = new BitSet ( mk_tokenSet_85 ( ) ) ; private static final long [ ] mk_tokenSet_86 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_86 = new BitSet ( mk_tokenSet_86 ( ) ) ; private static final long [ ] mk_tokenSet_87 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_87 = new BitSet ( mk_tokenSet_87 ( ) ) ; private static final long [ ] mk_tokenSet_88 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_88 = new BitSet ( mk_tokenSet_88 ( ) ) ; private static final long [ ] mk_tokenSet_89 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_89 = new BitSet ( mk_tokenSet_89 ( ) ) ; private static final long [ ] mk_tokenSet_90 ( ) { long [ ] data = { <NUM_LIT> , - <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_90 = new BitSet ( mk_tokenSet_90 ( ) ) ; private static final long [ ] mk_tokenSet_91 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_91 = new BitSet ( mk_tokenSet_91 ( ) ) ; private static final long [ ] mk_tokenSet_92 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_92 = new BitSet ( mk_tokenSet_92 ( ) ) ; private static final long [ ] mk_tokenSet_93 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_93 = new BitSet ( mk_tokenSet_93 ( ) ) ; private static final long [ ] mk_tokenSet_94 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_94 = new BitSet ( mk_tokenSet_94 ( ) ) ; private static final long [ ] mk_tokenSet_95 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_95 = new BitSet ( mk_tokenSet_95 ( ) ) ; private static final long [ ] mk_tokenSet_96 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_96 = new BitSet ( mk_tokenSet_96 ( ) ) ; private static final long [ ] mk_tokenSet_97 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_97 = new BitSet ( mk_tokenSet_97 ( ) ) ; private static final long [ ] mk_tokenSet_98 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_98 = new BitSet ( mk_tokenSet_98 ( ) ) ; private static final long [ ] mk_tokenSet_99 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_99 = new BitSet ( mk_tokenSet_99 ( ) ) ; private static final long [ ] mk_tokenSet_100 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_100 = new BitSet ( mk_tokenSet_100 ( ) ) ; private static final long [ ] mk_tokenSet_101 ( ) { long [ ] data = { <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> , <NUM_LIT> } ; return data ; } public static final BitSet _tokenSet_101 = new BitSet ( mk_tokenSet_101 ( ) ) ; private static final long [ ] mk_tokenSet_102 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_102 = new BitSet ( mk_tokenSet_102 ( ) ) ; private static final long [ ] mk_tokenSet_103 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_103 = new BitSet ( mk_tokenSet_103 ( ) ) ; private static final long [ ] mk_tokenSet_104 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_104 = new BitSet ( mk_tokenSet_104 ( ) ) ; private static final long [ ] mk_tokenSet_105 ( ) { long [ ] data = new long [ <NUM_LIT:8> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; data [ <NUM_LIT:2> ] = - <NUM_LIT:1L> ; data [ <NUM_LIT:3> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_105 = new BitSet ( mk_tokenSet_105 ( ) ) ; } </s>
<s> package org . codehaus . groovy . antlr . parser ; import org . codehaus . groovy . antlr . * ; import java . util . * ; import java . io . InputStream ; import java . io . Reader ; import antlr . InputBuffer ; import antlr . LexerSharedInputState ; import antlr . CommonToken ; import org . codehaus . groovy . GroovyBugError ; import antlr . TokenStreamRecognitionException ; import org . codehaus . groovy . ast . Comment ; import java . io . InputStream ; import antlr . TokenStreamException ; import antlr . TokenStreamIOException ; import antlr . TokenStreamRecognitionException ; import antlr . CharStreamException ; import antlr . CharStreamIOException ; import antlr . ANTLRException ; import java . io . Reader ; import java . util . Hashtable ; import antlr . CharScanner ; import antlr . InputBuffer ; import antlr . ByteBuffer ; import antlr . CharBuffer ; import antlr . Token ; import antlr . CommonToken ; import antlr . RecognitionException ; import antlr . NoViableAltForCharException ; import antlr . MismatchedCharException ; import antlr . TokenStream ; import antlr . ANTLRHashString ; import antlr . LexerSharedInputState ; import antlr . collections . impl . BitSet ; import antlr . SemanticException ; public class GroovyLexer extends antlr . CharScanner implements GroovyTokenTypes , TokenStream { private boolean assertEnabled = true ; private boolean enumEnabled = true ; private boolean whitespaceIncluded = false ; public void enableAssert ( boolean shouldEnable ) { assertEnabled = shouldEnable ; } public boolean isAssertEnabled ( ) { return assertEnabled ; } public void enableEnum ( boolean shouldEnable ) { enumEnabled = shouldEnable ; } public boolean isEnumEnabled ( ) { return enumEnabled ; } public void setWhitespaceIncluded ( boolean z ) { whitespaceIncluded = z ; } public boolean isWhitespaceIncluded ( ) { return whitespaceIncluded ; } { setTabSize ( <NUM_LIT:1> ) ; } protected int parenLevel = <NUM_LIT:0> ; protected int suppressNewline = <NUM_LIT:0> ; protected static final int SCS_TYPE = <NUM_LIT:3> , SCS_VAL = <NUM_LIT:4> , SCS_LIT = <NUM_LIT:8> , SCS_LIMIT = <NUM_LIT:16> ; protected static final int SCS_SQ_TYPE = <NUM_LIT:0> , SCS_TQ_TYPE = <NUM_LIT:1> , SCS_RE_TYPE = <NUM_LIT:2> ; protected int stringCtorState = <NUM_LIT:0> ; protected ArrayList parenLevelStack = new ArrayList ( ) ; protected int lastSigTokenType = EOF ; public void setTokenObjectClass ( String name ) { } protected Token makeToken ( int t ) { GroovySourceToken tok = new GroovySourceToken ( t ) ; tok . setColumn ( inputState . getTokenStartColumn ( ) ) ; tok . setLine ( inputState . getTokenStartLine ( ) ) ; tok . setColumnLast ( inputState . getColumn ( ) ) ; tok . setLineLast ( inputState . getLine ( ) ) ; return tok ; } protected void pushParenLevel ( ) { parenLevelStack . add ( Integer . valueOf ( parenLevel * SCS_LIMIT + stringCtorState ) ) ; parenLevel = <NUM_LIT:0> ; stringCtorState = <NUM_LIT:0> ; } protected void popParenLevel ( ) { int npl = parenLevelStack . size ( ) ; if ( npl == <NUM_LIT:0> ) return ; int i = ( ( Integer ) parenLevelStack . remove ( -- npl ) ) . intValue ( ) ; parenLevel = i / SCS_LIMIT ; stringCtorState = i % SCS_LIMIT ; } protected void restartStringCtor ( boolean expectLiteral ) { if ( stringCtorState != <NUM_LIT:0> ) { stringCtorState = ( expectLiteral ? SCS_LIT : SCS_VAL ) + ( stringCtorState & SCS_TYPE ) ; } } protected boolean allowRegexpLiteral ( ) { return ! isExpressionEndingToken ( lastSigTokenType ) ; } protected static boolean isExpressionEndingToken ( int ttype ) { switch ( ttype ) { case INC : case DEC : case RPAREN : case RBRACK : case RCURLY : case STRING_LITERAL : case STRING_CTOR_END : case NUM_INT : case NUM_FLOAT : case NUM_LONG : case NUM_DOUBLE : case NUM_BIG_INT : case NUM_BIG_DECIMAL : case IDENT : case LITERAL_as : case LITERAL_assert : case LITERAL_boolean : case LITERAL_break : case LITERAL_byte : case LITERAL_case : case LITERAL_catch : case LITERAL_char : case LITERAL_class : case LITERAL_continue : case LITERAL_def : case LITERAL_default : case LITERAL_double : case LITERAL_else : case LITERAL_enum : case LITERAL_extends : case LITERAL_false : case LITERAL_finally : case LITERAL_float : case LITERAL_for : case LITERAL_if : case LITERAL_implements : case LITERAL_import : case LITERAL_in : case LITERAL_instanceof : case LITERAL_int : case LITERAL_interface : case LITERAL_long : case LITERAL_native : case LITERAL_new : case LITERAL_null : case LITERAL_package : case LITERAL_private : case LITERAL_protected : case LITERAL_public : case LITERAL_return : case LITERAL_short : case LITERAL_static : case LITERAL_super : case LITERAL_switch : case LITERAL_synchronized : case LITERAL_this : case LITERAL_threadsafe : case LITERAL_throw : case LITERAL_throws : case LITERAL_transient : case LITERAL_true : case LITERAL_try : case LITERAL_void : case LITERAL_volatile : case LITERAL_while : return true ; default : return false ; } } protected void newlineCheck ( boolean check ) throws RecognitionException { if ( check && suppressNewline > <NUM_LIT:0> ) { require ( suppressNewline == <NUM_LIT:0> , "<STR_LIT>" , "<STR_LIT>" ) ; suppressNewline = <NUM_LIT:0> ; } newline ( ) ; } protected boolean atValidDollarEscape ( ) throws CharStreamException { int k = <NUM_LIT:1> ; char lc = LA ( k ++ ) ; if ( lc != '<CHAR_LIT>' ) return false ; lc = LA ( k ++ ) ; if ( lc == '<CHAR_LIT>' ) lc = LA ( k ++ ) ; return ( lc == '<CHAR_LIT>' \|\| ( lc != '<CHAR_LIT>' && Character . isJavaIdentifierStart ( lc ) ) ) ; } public TokenStream plumb ( ) { return new TokenStream ( ) { public Token nextToken ( ) throws TokenStreamException { if ( stringCtorState >= SCS_LIT ) { int quoteType = ( stringCtorState & SCS_TYPE ) ; stringCtorState = <NUM_LIT:0> ; resetText ( ) ; try { switch ( quoteType ) { case SCS_SQ_TYPE : mSTRING_CTOR_END ( true , false , false ) ; break ; case SCS_TQ_TYPE : mSTRING_CTOR_END ( true , false , true ) ; break ; case SCS_RE_TYPE : mREGEXP_CTOR_END ( true , false ) ; break ; default : throw new AssertionError ( false ) ; } lastSigTokenType = _returnToken . getType ( ) ; return _returnToken ; } catch ( RecognitionException e ) { throw new TokenStreamRecognitionException ( e ) ; } catch ( CharStreamException cse ) { if ( cse instanceof CharStreamIOException ) { throw new TokenStreamIOException ( ( ( CharStreamIOException ) cse ) . io ) ; } else { throw new TokenStreamException ( cse . getMessage ( ) ) ; } } } Token token = GroovyLexer . this . nextToken ( ) ; int lasttype = token . getType ( ) ; if ( whitespaceIncluded ) { switch ( lasttype ) { case WS : case ONE_NL : case SL_COMMENT : case ML_COMMENT : lasttype = lastSigTokenType ; } } lastSigTokenType = lasttype ; return token ; } } ; } public static boolean tracing = false ; public void traceIn ( String rname ) throws CharStreamException { if ( ! GroovyLexer . tracing ) return ; super . traceIn ( rname ) ; } public void traceOut ( String rname ) throws CharStreamException { if ( ! GroovyLexer . tracing ) return ; if ( _returnToken != null ) rname += tokenStringOf ( _returnToken ) ; super . traceOut ( rname ) ; } private static java . util . HashMap ttypes ; private static String tokenStringOf ( Token t ) { if ( ttypes == null ) { java . util . HashMap map = new java . util . HashMap ( ) ; java . lang . reflect . Field [ ] fields = GroovyTokenTypes . class . getDeclaredFields ( ) ; for ( int i = <NUM_LIT:0> ; i < fields . length ; i ++ ) { if ( fields [ i ] . getType ( ) != int . class ) continue ; try { map . put ( fields [ i ] . get ( null ) , fields [ i ] . getName ( ) ) ; } catch ( IllegalAccessException ee ) { } } ttypes = map ; } Integer tt = Integer . valueOf ( t . getType ( ) ) ; Object ttn = ttypes . get ( tt ) ; if ( ttn == null ) ttn = "<STR_LIT:<>" + tt + "<STR_LIT:>>" ; return "<STR_LIT:[>" + ttn + "<STR_LIT>" + t . getText ( ) + "<STR_LIT>" ; } protected GroovyRecognizer parser ; private void require ( boolean z , String problem , String solution ) throws SemanticException { if ( ! z ) parser . requireFailed ( problem , solution ) ; } public GroovyLexer ( InputStream in ) { this ( new ByteBuffer ( in ) ) ; } public GroovyLexer ( Reader in ) { this ( new CharBuffer ( in ) ) ; } public GroovyLexer ( InputBuffer ib ) { this ( new LexerSharedInputState ( ib ) ) ; } public GroovyLexer ( LexerSharedInputState state ) { super ( state ) ; caseSensitiveLiterals = true ; setCaseSensitive ( true ) ; literals = new Hashtable ( ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:float>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:null>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:class>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:double>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:int>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:boolean>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:default>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:false>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT:100> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:true>" , this ) , new Integer ( <NUM_LIT> ) ) ; literals . put ( new ANTLRHashString ( "<STR_LIT:long>" , this ) , new Integer ( <NUM_LIT> ) ) ; } public Token nextToken ( ) throws TokenStreamException { Token theRetToken = null ; tryAgain : for ( ; ; ) { Token _token = null ; int _ttype = Token . INVALID_TYPE ; resetText ( ) ; try { try { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:(>' : { mLPAREN ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT:)>' : { mRPAREN ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT:[>' : { mLBRACK ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT:]>' : { mRBRACK ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT>' : { mLCURLY ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT:}>' : { mRCURLY ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT::>' : { mCOLON ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT:U+002C>' : { mCOMMA ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT>' : { mBNOT ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT:;>' : { mSEMI ( true ) ; theRetToken = _returnToken ; break ; } case '<STR_LIT:\t>' : case '<CHAR_LIT>' : case '<CHAR_LIT:U+0020>' : case '<STR_LIT:\\>' : { mWS ( true ) ; theRetToken = _returnToken ; break ; } case '<STR_LIT:\n>' : case '<STR_LIT>' : { mNLS ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT:">' : case '<STR_LIT>' : { mSTRING_LITERAL ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT:0>' : case '<CHAR_LIT:1>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT:9>' : { mNUM_INT ( true ) ; theRetToken = _returnToken ; break ; } case '<CHAR_LIT>' : { mAT ( true ) ; theRetToken = _returnToken ; break ; } default : if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:4> ) == '<CHAR_LIT:=>' ) ) { mBSR_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:>>' ) ) { mCOMPARE_TO ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:=>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:=>' ) ) { mIDENTICAL ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:=>' ) ) { mNOT_IDENTICAL ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:=>' ) ) { mSR_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:>>' ) && ( true ) ) { mBSR ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:=>' ) ) { mSL_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:.>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT>' ) ) { mRANGE_EXCLUSIVE ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:.>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:.>' ) ) { mTRIPLE_DOT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:=>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT>' ) ) { mREGEX_MATCH ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:=>' ) ) { mSTAR_STAR_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:=>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) && ( true ) ) { mEQUAL ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) && ( true ) ) { mNOT_EQUAL ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) ) { mPLUS_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) ) { mINC ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:->' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) ) { mMINUS_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:->' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:->' ) ) { mDEC ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) ) { mSTAR_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) ) { mMOD_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:>>' ) && ( true ) ) { mSR ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:>>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) ) { mGE ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) && ( true ) ) { mSL ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) && ( true ) ) { mLE ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) ) { mBXOR_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) ) { mBOR_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) ) { mLOR ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) ) { mBAND_ASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) ) { mLAND ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:.>' ) && ( true ) ) { mRANGE_INCLUSIVE ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:.>' ) ) { mSPREAD_DOT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:.>' ) ) { mOPTIONAL_DOT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT::>' ) ) { mELVIS_OPERATOR ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) ) { mMEMBER_POINTER ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:=>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) ) { mREGEX_FIND ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) && ( true ) ) { mSTAR_STAR ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:->' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:>>' ) ) { mCLOSABLE_BLOCK_OP ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:/>' ) ) { mSL_COMMENT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) ) { mML_COMMENT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mQUESTION ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' ) && ( true ) ) { mDOT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:=>' ) && ( true ) ) { mASSIGN ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mLNOT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mPLUS ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:->' ) && ( true ) ) { mMINUS ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mSTAR ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mMOD ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:>>' ) && ( true ) ) { mGT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mLT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mBXOR ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mBOR ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { mBAND ( true ) ; theRetToken = _returnToken ; } else if ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) ) && ( getLine ( ) == <NUM_LIT:1> && getColumn ( ) == <NUM_LIT:1> ) ) { mSH_COMMENT ( true ) ; theRetToken = _returnToken ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' ) && ( true ) ) { mREGEXP_LITERAL ( true ) ; theRetToken = _returnToken ; } else if ( ( _tokenSet_0 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mIDENT ( true ) ; theRetToken = _returnToken ; } else { if ( LA ( <NUM_LIT:1> ) == EOF_CHAR ) { uponEOF ( ) ; _returnToken = makeToken ( Token . EOF_TYPE ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } if ( _returnToken == null ) continue tryAgain ; _ttype = _returnToken . getType ( ) ; _returnToken . setType ( _ttype ) ; return _returnToken ; } catch ( RecognitionException e ) { throw new TokenStreamRecognitionException ( e ) ; } } catch ( CharStreamException cse ) { if ( cse instanceof CharStreamIOException ) { throw new TokenStreamIOException ( ( ( CharStreamIOException ) cse ) . io ) ; } else { throw new TokenStreamException ( cse . getMessage ( ) ) ; } } } } public final void mQUESTION ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = QUESTION ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mLPAREN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LPAREN ; int _saveIndex ; match ( '<CHAR_LIT:(>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ++ parenLevel ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mRPAREN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = RPAREN ; int _saveIndex ; match ( '<CHAR_LIT:)>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { -- parenLevel ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mLBRACK ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LBRACK ; int _saveIndex ; match ( '<CHAR_LIT:[>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ++ parenLevel ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mRBRACK ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = RBRACK ; int _saveIndex ; match ( '<CHAR_LIT:]>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { -- parenLevel ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mLCURLY ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LCURLY ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { pushParenLevel ( ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mRCURLY ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = RCURLY ; int _saveIndex ; match ( '<CHAR_LIT:}>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { popParenLevel ( ) ; if ( stringCtorState != <NUM_LIT:0> ) restartStringCtor ( true ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mCOLON ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = COLON ; int _saveIndex ; match ( '<CHAR_LIT::>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mCOMMA ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = COMMA ; int _saveIndex ; match ( '<CHAR_LIT:U+002C>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mDOT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = DOT ; int _saveIndex ; match ( '<CHAR_LIT:.>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = ASSIGN ; int _saveIndex ; match ( '<CHAR_LIT:=>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mCOMPARE_TO ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = COMPARE_TO ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mEQUAL ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = EQUAL ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mIDENTICAL ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = IDENTICAL ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mLNOT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LNOT ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBNOT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BNOT ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mNOT_EQUAL ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = NOT_EQUAL ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mNOT_IDENTICAL ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = NOT_IDENTICAL ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mDIV ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = DIV ; int _saveIndex ; match ( '<CHAR_LIT:/>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mDIV_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = DIV_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mPLUS ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = PLUS ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mPLUS_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = PLUS_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mINC ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = INC ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mMINUS ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = MINUS ; int _saveIndex ; match ( '<CHAR_LIT:->' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mMINUS_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = MINUS_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mDEC ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = DEC ; int _saveIndex ; match ( "<STR_LIT:-->" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSTAR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = STAR ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSTAR_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = STAR_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mMOD ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = MOD ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mMOD_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = MOD_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = SR ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSR_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = SR_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBSR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BSR ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBSR_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BSR_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mGE ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = GE ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mGT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = GT ; int _saveIndex ; match ( "<STR_LIT:>>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSL ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = SL ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSL_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = SL_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mLE ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LE ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mLT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LT ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBXOR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BXOR ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBXOR_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BXOR_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBOR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BOR ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBOR_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BOR_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mLOR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LOR ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBAND ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BAND ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mBAND_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BAND_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mLAND ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LAND ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSEMI ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = SEMI ; int _saveIndex ; match ( '<CHAR_LIT:;>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mDOLLAR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = DOLLAR ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mRANGE_INCLUSIVE ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = RANGE_INCLUSIVE ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mRANGE_EXCLUSIVE ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = RANGE_EXCLUSIVE ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mTRIPLE_DOT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = TRIPLE_DOT ; int _saveIndex ; match ( "<STR_LIT:...>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSPREAD_DOT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = SPREAD_DOT ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mOPTIONAL_DOT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = OPTIONAL_DOT ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mELVIS_OPERATOR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = ELVIS_OPERATOR ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mMEMBER_POINTER ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = MEMBER_POINTER ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mREGEX_FIND ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = REGEX_FIND ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mREGEX_MATCH ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = REGEX_MATCH ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSTAR_STAR ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = STAR_STAR ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSTAR_STAR_ASSIGN ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = STAR_STAR_ASSIGN ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mCLOSABLE_BLOCK_OP ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = CLOSABLE_BLOCK_OP ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mWS ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = WS ; int _saveIndex ; { int _cnt620 = <NUM_LIT:0> ; _loop620 : do { if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\\>' ) && ( LA ( <NUM_LIT:2> ) == '<STR_LIT:\n>' \|\| LA ( <NUM_LIT:2> ) == '<STR_LIT>' ) && ( true ) && ( true ) ) { match ( '<STR_LIT:\\>' ) ; mONE_NL ( false , false ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:U+0020>' ) && ( true ) && ( true ) && ( true ) ) { match ( '<CHAR_LIT:U+0020>' ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\t>' ) && ( true ) && ( true ) && ( true ) ) { match ( '<STR_LIT:\t>' ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) && ( true ) && ( true ) ) { match ( '<STR_LIT>' ) ; } else { if ( _cnt620 >= <NUM_LIT:1> ) { break _loop620 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } _cnt620 ++ ; } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { if ( ! whitespaceIncluded ) _ttype = Token . SKIP ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mONE_NL ( boolean _createToken , boolean check ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = ONE_NL ; int _saveIndex ; { if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<STR_LIT:\n>' ) && ( true ) && ( true ) ) { _saveIndex = text . length ( ) ; match ( "<STR_LIT>" ) ; text . setLength ( _saveIndex ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) && ( true ) && ( true ) && ( true ) ) { _saveIndex = text . length ( ) ; match ( '<STR_LIT>' ) ; text . setLength ( _saveIndex ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\n>' ) ) { _saveIndex = text . length ( ) ; match ( '<STR_LIT:\n>' ) ; text . setLength ( _saveIndex ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { newlineCheck ( check ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mONE_NL_KEEP ( boolean _createToken , boolean check ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = ONE_NL_KEEP ; int _saveIndex ; { if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<STR_LIT:\n>' ) && ( ( LA ( <NUM_LIT:3> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:3> ) <= '<STR_LIT>' ) ) && ( ( LA ( <NUM_LIT:4> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:4> ) <= '<STR_LIT>' ) ) ) { match ( "<STR_LIT>" ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) && ( ( LA ( <NUM_LIT:2> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:2> ) <= '<STR_LIT>' ) ) && ( ( LA ( <NUM_LIT:3> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:3> ) <= '<STR_LIT>' ) ) && ( true ) ) { match ( '<STR_LIT>' ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\n>' ) ) { match ( '<STR_LIT:\n>' ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { newlineCheck ( check ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mNLS ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = NLS ; int _saveIndex ; mONE_NL ( false , true ) ; { if ( ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\t>' \|\| LA ( <NUM_LIT:1> ) == '<STR_LIT:\n>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:1> ) == '<STR_LIT>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT:U+0020>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' \|\| LA ( <NUM_LIT:1> ) == '<STR_LIT:\\>' ) ) && ( ! whitespaceIncluded ) ) { { int _cnt628 = <NUM_LIT:0> ; _loop628 : do { switch ( LA ( <NUM_LIT:1> ) ) { case '<STR_LIT:\n>' : case '<STR_LIT>' : { mONE_NL ( false , true ) ; break ; } case '<STR_LIT:\t>' : case '<CHAR_LIT>' : case '<CHAR_LIT:U+0020>' : case '<STR_LIT:\\>' : { mWS ( false ) ; break ; } default : if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:/>' ) ) { mSL_COMMENT ( false ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) ) { mML_COMMENT ( false ) ; } else { if ( _cnt628 >= <NUM_LIT:1> ) { break _loop628 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } _cnt628 ++ ; } while ( true ) ; } } else { } } if ( inputState . guessing == <NUM_LIT:0> ) { if ( whitespaceIncluded ) { } else if ( parenLevel != <NUM_LIT:0> ) { _ttype = Token . SKIP ; } else { text . setLength ( _begin ) ; text . append ( "<STR_LIT>" ) ; } } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSL_COMMENT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = SL_COMMENT ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( inputState . guessing == <NUM_LIT:0> ) { if ( parser != null ) { parser . startComment ( inputState . getLine ( ) , inputState . getColumn ( ) - <NUM_LIT:2> ) ; } } { _loop632 : do { if ( ( _tokenSet_1 . member ( LA ( <NUM_LIT:1> ) ) ) && ( true ) && ( true ) && ( true ) ) { { match ( _tokenSet_1 ) ; } } else { break _loop632 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { if ( parser != null ) { parser . endComment ( <NUM_LIT:0> , inputState . getLine ( ) , inputState . getColumn ( ) , new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } if ( ! whitespaceIncluded ) _ttype = Token . SKIP ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mML_COMMENT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = ML_COMMENT ; int _saveIndex ; match ( "<STR_LIT>" ) ; if ( inputState . guessing == <NUM_LIT:0> ) { if ( parser != null ) { parser . startComment ( inputState . getLine ( ) , inputState . getColumn ( ) - <NUM_LIT:2> ) ; } } { _loop642 : do { boolean synPredMatched640 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( ( LA ( <NUM_LIT:2> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:2> ) <= '<STR_LIT>' ) ) && ( ( LA ( <NUM_LIT:3> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:3> ) <= '<STR_LIT>' ) ) && ( true ) ) ) { int _m640 = mark ( ) ; synPredMatched640 = true ; inputState . guessing ++ ; try { { match ( '<CHAR_LIT>' ) ; matchNot ( '<CHAR_LIT:/>' ) ; } } catch ( RecognitionException pe ) { synPredMatched640 = false ; } rewind ( _m640 ) ; inputState . guessing -- ; } if ( synPredMatched640 ) { match ( '<CHAR_LIT>' ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\n>' \|\| LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) ) { mONE_NL_KEEP ( false , true ) ; } else if ( ( _tokenSet_2 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { match ( _tokenSet_2 ) ; } } else { break _loop642 ; } } while ( true ) ; } match ( "<STR_LIT>" ) ; if ( inputState . guessing == <NUM_LIT:0> ) { if ( parser != null ) { parser . endComment ( <NUM_LIT:1> , inputState . getLine ( ) , inputState . getColumn ( ) , new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } if ( ! whitespaceIncluded ) _ttype = Token . SKIP ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSH_COMMENT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = SH_COMMENT ; int _saveIndex ; if ( ! ( getLine ( ) == <NUM_LIT:1> && getColumn ( ) == <NUM_LIT:1> ) ) throw new SemanticException ( "<STR_LIT>" ) ; match ( "<STR_LIT>" ) ; { _loop636 : do { if ( ( _tokenSet_1 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { match ( _tokenSet_1 ) ; } } else { break _loop636 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { if ( ! whitespaceIncluded ) _ttype = Token . SKIP ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mSTRING_LITERAL ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = STRING_LITERAL ; int _saveIndex ; int tt = <NUM_LIT:0> ; boolean synPredMatched645 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) && ( LA ( <NUM_LIT:2> ) == '<STR_LIT>' ) && ( LA ( <NUM_LIT:3> ) == '<STR_LIT>' ) && ( ( LA ( <NUM_LIT:4> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:4> ) <= '<STR_LIT>' ) ) ) ) { int _m645 = mark ( ) ; synPredMatched645 = true ; inputState . guessing ++ ; try { { match ( "<STR_LIT>" ) ; } } catch ( RecognitionException pe ) { synPredMatched645 = false ; } rewind ( _m645 ) ; inputState . guessing -- ; } if ( synPredMatched645 ) { _saveIndex = text . length ( ) ; match ( "<STR_LIT>" ) ; text . setLength ( _saveIndex ) ; { _loop650 : do { switch ( LA ( <NUM_LIT:1> ) ) { case '<STR_LIT:\\>' : { mESC ( false ) ; break ; } case '<CHAR_LIT:">' : { match ( '<CHAR_LIT:">' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<STR_LIT:\n>' : case '<STR_LIT>' : { mSTRING_NL ( false , true ) ; break ; } default : boolean synPredMatched649 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) && ( ( LA ( <NUM_LIT:2> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:2> ) <= '<STR_LIT>' ) ) && ( ( LA ( <NUM_LIT:3> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:3> ) <= '<STR_LIT>' ) ) && ( ( LA ( <NUM_LIT:4> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:4> ) <= '<STR_LIT>' ) ) ) ) { int _m649 = mark ( ) ; synPredMatched649 = true ; inputState . guessing ++ ; try { { match ( '<STR_LIT>' ) ; { if ( ( _tokenSet_3 . member ( LA ( <NUM_LIT:1> ) ) ) ) { matchNot ( '<STR_LIT>' ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) ) { match ( '<STR_LIT>' ) ; matchNot ( '<STR_LIT>' ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } } catch ( RecognitionException pe ) { synPredMatched649 = false ; } rewind ( _m649 ) ; inputState . guessing -- ; } if ( synPredMatched649 ) { match ( '<STR_LIT>' ) ; } else if ( ( _tokenSet_4 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mSTRING_CH ( false ) ; } else { break _loop650 ; } } } while ( true ) ; } _saveIndex = text . length ( ) ; match ( "<STR_LIT>" ) ; text . setLength ( _saveIndex ) ; } else { boolean synPredMatched654 = false ; if ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:">' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:">' ) && ( LA ( <NUM_LIT:3> ) == '<CHAR_LIT:">' ) && ( ( LA ( <NUM_LIT:4> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:4> ) <= '<STR_LIT>' ) ) ) ) { int _m654 = mark ( ) ; synPredMatched654 = true ; inputState . guessing ++ ; try { { match ( "<STR_LIT>" ) ; } } catch ( RecognitionException pe ) { synPredMatched654 = false ; } rewind ( _m654 ) ; inputState . guessing -- ; } if ( synPredMatched654 ) { _saveIndex = text . length ( ) ; match ( "<STR_LIT>" ) ; text . setLength ( _saveIndex ) ; tt = mSTRING_CTOR_END ( false , true , true ) ; if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = tt ; } } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT>' ) && ( _tokenSet_1 . member ( LA ( <NUM_LIT:2> ) ) ) && ( true ) && ( true ) ) { _saveIndex = text . length ( ) ; match ( '<STR_LIT>' ) ; text . setLength ( _saveIndex ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ++ suppressNewline ; } { _loop652 : do { switch ( LA ( <NUM_LIT:1> ) ) { case '<STR_LIT:\\>' : { mESC ( false ) ; break ; } case '<CHAR_LIT:">' : { match ( '<CHAR_LIT:">' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } default : if ( ( _tokenSet_4 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mSTRING_CH ( false ) ; } else { break _loop652 ; } } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { -- suppressNewline ; } _saveIndex = text . length ( ) ; match ( '<STR_LIT>' ) ; text . setLength ( _saveIndex ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:">' ) && ( ( LA ( <NUM_LIT:2> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:2> ) <= '<STR_LIT>' ) ) && ( true ) && ( true ) ) { _saveIndex = text . length ( ) ; match ( '<CHAR_LIT:">' ) ; text . setLength ( _saveIndex ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ++ suppressNewline ; } tt = mSTRING_CTOR_END ( false , true , false ) ; if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = tt ; } } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mSTRING_CH ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = STRING_CH ; int _saveIndex ; { match ( _tokenSet_4 ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mESC ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = ESC ; int _saveIndex ; if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\\>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:">' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<STR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT:0>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT:1>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<STR_LIT:\\>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT:b>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:2> ) == '<CHAR_LIT>' ) ) { _saveIndex = text . length ( ) ; match ( '<STR_LIT:\\>' ) ; text . setLength ( _saveIndex ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( "<STR_LIT:n>" ) ; } break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( "<STR_LIT:r>" ) ; } break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( "<STR_LIT:t>" ) ; } break ; } case '<CHAR_LIT:b>' : { match ( '<CHAR_LIT:b>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( "<STR_LIT>" ) ; } break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( "<STR_LIT>" ) ; } break ; } case '<CHAR_LIT:">' : { match ( '<CHAR_LIT:">' ) ; break ; } case '<STR_LIT>' : { match ( '<STR_LIT>' ) ; break ; } case '<STR_LIT:\\>' : { match ( '<STR_LIT:\\>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT>' : { { int _cnt679 = <NUM_LIT:0> ; _loop679 : do { if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) ) { match ( '<CHAR_LIT>' ) ; } else { if ( _cnt679 >= <NUM_LIT:1> ) { break _loop679 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } _cnt679 ++ ; } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( "<STR_LIT>" ) ; } mHEX_DIGIT ( false ) ; mHEX_DIGIT ( false ) ; mHEX_DIGIT ( false ) ; mHEX_DIGIT ( false ) ; if ( inputState . guessing == <NUM_LIT:0> ) { char ch = ( char ) Integer . parseInt ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) , <NUM_LIT:16> ) ; text . setLength ( _begin ) ; text . append ( ch ) ; } break ; } case '<CHAR_LIT:0>' : case '<CHAR_LIT:1>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT>' ) ; { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT>' ) ) && ( ( LA ( <NUM_LIT:2> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:2> ) <= '<STR_LIT>' ) ) && ( true ) && ( true ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT>' ) ; { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT>' ) ) && ( ( LA ( <NUM_LIT:2> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:2> ) <= '<STR_LIT>' ) ) && ( true ) && ( true ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT>' ) ; } else if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:1> ) <= '<STR_LIT>' ) ) && ( true ) && ( true ) && ( true ) ) { } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } else if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:1> ) <= '<STR_LIT>' ) ) && ( true ) && ( true ) && ( true ) ) { } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { char ch = ( char ) Integer . parseInt ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) , <NUM_LIT:8> ) ; text . setLength ( _begin ) ; text . append ( ch ) ; } break ; } case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : { matchRange ( '<CHAR_LIT>' , '<CHAR_LIT>' ) ; { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT>' ) ) && ( ( LA ( <NUM_LIT:2> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:2> ) <= '<STR_LIT>' ) ) && ( true ) && ( true ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT>' ) ; } else if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:1> ) <= '<STR_LIT>' ) ) && ( true ) && ( true ) && ( true ) ) { } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { char ch = ( char ) Integer . parseInt ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) , <NUM_LIT:8> ) ; text . setLength ( _begin ) ; text . append ( ch ) ; } break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\\>' ) && ( LA ( <NUM_LIT:2> ) == '<STR_LIT:\n>' \|\| LA ( <NUM_LIT:2> ) == '<STR_LIT>' ) ) { _saveIndex = text . length ( ) ; match ( '<STR_LIT:\\>' ) ; text . setLength ( _saveIndex ) ; _saveIndex = text . length ( ) ; mONE_NL ( false , false ) ; text . setLength ( _saveIndex ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mSTRING_NL ( boolean _createToken , boolean allowNewline ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = STRING_NL ; int _saveIndex ; if ( inputState . guessing == <NUM_LIT:0> ) { if ( ! allowNewline ) throw new MismatchedCharException ( '<STR_LIT:\n>' , '<STR_LIT:\n>' , true , this ) ; } mONE_NL ( false , false ) ; if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( '<STR_LIT:\n>' ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final int mSTRING_CTOR_END ( boolean _createToken , boolean fromStart , boolean tripleQuote ) throws RecognitionException , CharStreamException , TokenStreamException { int tt = STRING_CTOR_END ; int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = STRING_CTOR_END ; int _saveIndex ; boolean dollarOK = false ; { _loop660 : do { switch ( LA ( <NUM_LIT:1> ) ) { case '<STR_LIT:\\>' : { mESC ( false ) ; break ; } case '<STR_LIT>' : { match ( '<STR_LIT>' ) ; break ; } case '<STR_LIT:\n>' : case '<STR_LIT>' : { mSTRING_NL ( false , tripleQuote ) ; break ; } default : boolean synPredMatched659 = false ; if ( ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:">' ) && ( ( LA ( <NUM_LIT:2> ) >= '<CHAR_LIT>' && LA ( <NUM_LIT:2> ) <= '<STR_LIT>' ) ) && ( true ) && ( true ) ) && ( tripleQuote ) ) ) { int _m659 = mark ( ) ; synPredMatched659 = true ; inputState . guessing ++ ; try { { match ( '<CHAR_LIT:">' ) ; { if ( ( _tokenSet_5 . member ( LA ( <NUM_LIT:1> ) ) ) ) { matchNot ( '<CHAR_LIT:">' ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:">' ) ) { match ( '<CHAR_LIT:">' ) ; matchNot ( '<CHAR_LIT:">' ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } } catch ( RecognitionException pe ) { synPredMatched659 = false ; } rewind ( _m659 ) ; inputState . guessing -- ; } if ( synPredMatched659 ) { match ( '<CHAR_LIT:">' ) ; } else if ( ( _tokenSet_4 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mSTRING_CH ( false ) ; } else { break _loop660 ; } } } while ( true ) ; } { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:">' : { { if ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:">' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:">' ) ) && ( tripleQuote ) ) { _saveIndex = text . length ( ) ; match ( "<STR_LIT>" ) ; text . setLength ( _saveIndex ) ; } else if ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:">' ) && ( true ) ) && ( ! tripleQuote ) ) { _saveIndex = text . length ( ) ; match ( "<STR_LIT:\">" ) ; text . setLength ( _saveIndex ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { if ( fromStart ) tt = STRING_LITERAL ; if ( ! tripleQuote ) { -- suppressNewline ; } } break ; } case '<CHAR_LIT>' : { if ( inputState . guessing == <NUM_LIT:0> ) { dollarOK = atValidDollarEscape ( ) ; } _saveIndex = text . length ( ) ; match ( '<CHAR_LIT>' ) ; text . setLength ( _saveIndex ) ; if ( inputState . guessing == <NUM_LIT:0> ) { require ( dollarOK , "<STR_LIT>" , "<STR_LIT>" ) ; tt = ( fromStart ? STRING_CTOR_START : STRING_CTOR_MIDDLE ) ; stringCtorState = SCS_VAL + ( tripleQuote ? SCS_TQ_TYPE : SCS_SQ_TYPE ) ; } break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = tt ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; return tt ; } public final void mREGEXP_LITERAL ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = REGEXP_LITERAL ; int _saveIndex ; int tt = <NUM_LIT:0> ; if ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' ) && ( _tokenSet_6 . member ( LA ( <NUM_LIT:2> ) ) ) && ( true ) && ( true ) ) && ( allowRegexpLiteral ( ) ) ) { _saveIndex = text . length ( ) ; match ( '<CHAR_LIT:/>' ) ; text . setLength ( _saveIndex ) ; if ( inputState . guessing == <NUM_LIT:0> ) { ++ suppressNewline ; } { if ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( ! atValidDollarEscape ( ) ) ) { match ( '<CHAR_LIT>' ) ; tt = mREGEXP_CTOR_END ( false , true ) ; } else if ( ( _tokenSet_7 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mREGEXP_SYMBOL ( false ) ; tt = mREGEXP_CTOR_END ( false , true ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( true ) ) { _saveIndex = text . length ( ) ; match ( '<CHAR_LIT>' ) ; text . setLength ( _saveIndex ) ; if ( inputState . guessing == <NUM_LIT:0> ) { tt = STRING_CTOR_START ; stringCtorState = SCS_VAL + SCS_RE_TYPE ; } } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = tt ; } } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:=>' ) && ( true ) && ( true ) ) { mDIV_ASSIGN ( false ) ; if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = DIV_ASSIGN ; } } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' ) && ( true ) ) { mDIV ( false ) ; if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = DIV ; } } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mREGEXP_SYMBOL ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = REGEXP_SYMBOL ; int _saveIndex ; { if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\\>' ) && ( LA ( <NUM_LIT:2> ) == '<CHAR_LIT:/>' ) && ( _tokenSet_1 . member ( LA ( <NUM_LIT:3> ) ) ) && ( true ) ) { match ( '<STR_LIT:\\>' ) ; match ( '<CHAR_LIT:/>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( '<CHAR_LIT:/>' ) ; } } else if ( ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\\>' ) && ( _tokenSet_1 . member ( LA ( <NUM_LIT:2> ) ) ) && ( true ) && ( true ) ) && ( LA ( <NUM_LIT:2> ) != '<CHAR_LIT:/>' && LA ( <NUM_LIT:2> ) != '<STR_LIT:\n>' && LA ( <NUM_LIT:2> ) != '<STR_LIT>' ) ) { match ( '<STR_LIT:\\>' ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<STR_LIT:\\>' ) && ( LA ( <NUM_LIT:2> ) == '<STR_LIT:\n>' \|\| LA ( <NUM_LIT:2> ) == '<STR_LIT>' ) ) { _saveIndex = text . length ( ) ; match ( '<STR_LIT:\\>' ) ; text . setLength ( _saveIndex ) ; _saveIndex = text . length ( ) ; mONE_NL ( false , false ) ; text . setLength ( _saveIndex ) ; if ( inputState . guessing == <NUM_LIT:0> ) { text . setLength ( _begin ) ; text . append ( '<STR_LIT:\n>' ) ; } } else if ( ( _tokenSet_8 . member ( LA ( <NUM_LIT:1> ) ) ) ) { { match ( _tokenSet_8 ) ; } } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } { _loop675 : do { if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) ) { match ( '<CHAR_LIT>' ) ; } else { break _loop675 ; } } while ( true ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final int mREGEXP_CTOR_END ( boolean _createToken , boolean fromStart ) throws RecognitionException , CharStreamException , TokenStreamException { int tt = STRING_CTOR_END ; int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = REGEXP_CTOR_END ; int _saveIndex ; { _loop669 : do { if ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) && ( _tokenSet_2 . member ( LA ( <NUM_LIT:2> ) ) ) ) && ( ! atValidDollarEscape ( ) ) ) { match ( '<CHAR_LIT>' ) ; } else if ( ( _tokenSet_7 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mREGEXP_SYMBOL ( false ) ; } else { break _loop669 ; } } while ( true ) ; } { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:/>' : { _saveIndex = text . length ( ) ; match ( '<CHAR_LIT:/>' ) ; text . setLength ( _saveIndex ) ; if ( inputState . guessing == <NUM_LIT:0> ) { if ( fromStart ) tt = STRING_LITERAL ; { -- suppressNewline ; } } break ; } case '<CHAR_LIT>' : { _saveIndex = text . length ( ) ; match ( '<CHAR_LIT>' ) ; text . setLength ( _saveIndex ) ; if ( inputState . guessing == <NUM_LIT:0> ) { tt = ( fromStart ? STRING_CTOR_START : STRING_CTOR_MIDDLE ) ; stringCtorState = SCS_VAL + SCS_RE_TYPE ; } break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = tt ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; return tt ; } protected final void mHEX_DIGIT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = HEX_DIGIT ; int _saveIndex ; { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:0>' : case '<CHAR_LIT:1>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT:9>' : { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; break ; } case '<CHAR_LIT:A>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : { matchRange ( '<CHAR_LIT:A>' , '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT:a>' : case '<CHAR_LIT:b>' : case '<CHAR_LIT:c>' : case '<CHAR_LIT>' : case '<CHAR_LIT:e>' : case '<CHAR_LIT>' : { matchRange ( '<CHAR_LIT:a>' , '<CHAR_LIT>' ) ; break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mVOCAB ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = VOCAB ; int _saveIndex ; matchRange ( '<STR_LIT>' , '<STR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mIDENT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = IDENT ; int _saveIndex ; { if ( ( ( _tokenSet_0 . member ( LA ( <NUM_LIT:1> ) ) ) && ( true ) && ( true ) && ( true ) ) && ( stringCtorState == <NUM_LIT:0> ) ) { { if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) ) { mDOLLAR ( false ) ; } else if ( ( _tokenSet_9 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mLETTER ( false ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } { _loop691 : do { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:0>' : case '<CHAR_LIT:1>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT:9>' : { mDIGIT ( false ) ; break ; } case '<CHAR_LIT>' : { mDOLLAR ( false ) ; break ; } default : if ( ( _tokenSet_9 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mLETTER ( false ) ; } else { break _loop691 ; } } } while ( true ) ; } } else if ( ( _tokenSet_9 . member ( LA ( <NUM_LIT:1> ) ) ) && ( true ) && ( true ) && ( true ) ) { mLETTER ( false ) ; { _loop693 : do { if ( ( _tokenSet_9 . member ( LA ( <NUM_LIT:1> ) ) ) ) { mLETTER ( false ) ; } else if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:9>' ) ) ) { mDIGIT ( false ) ; } else { break _loop693 ; } } while ( true ) ; } } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( inputState . guessing == <NUM_LIT:0> ) { if ( stringCtorState != <NUM_LIT:0> ) { if ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' && LA ( <NUM_LIT:2> ) != '<CHAR_LIT>' && Character . isJavaIdentifierStart ( LA ( <NUM_LIT:2> ) ) ) { restartStringCtor ( false ) ; } else { restartStringCtor ( true ) ; } } int ttype = testLiteralsTable ( IDENT ) ; if ( ( ttype == LITERAL_as \|\| ttype == LITERAL_def \|\| ttype == LITERAL_in ) && ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' \|\| lastSigTokenType == DOT \|\| lastSigTokenType == LITERAL_package ) ) { ttype = IDENT ; } if ( ttype == LITERAL_static && LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' ) { ttype = IDENT ; } _ttype = ttype ; if ( assertEnabled && "<STR_LIT>" . equals ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ) { _ttype = LITERAL_assert ; } if ( enumEnabled && "<STR_LIT>" . equals ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ) { _ttype = LITERAL_enum ; } } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mLETTER ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = LETTER ; int _saveIndex ; switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:a>' : case '<CHAR_LIT:b>' : case '<CHAR_LIT:c>' : case '<CHAR_LIT>' : case '<CHAR_LIT:e>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : { matchRange ( '<CHAR_LIT:a>' , '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT:A>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT:Z>' : { matchRange ( '<CHAR_LIT:A>' , '<CHAR_LIT:Z>' ) ; break ; } case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : { matchRange ( '<STR_LIT>' , '<STR_LIT>' ) ; break ; } case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : { matchRange ( '<STR_LIT>' , '<STR_LIT>' ) ; break ; } case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : case '<STR_LIT>' : { matchRange ( '<STR_LIT>' , '<STR_LIT>' ) ; break ; } case '<CHAR_LIT:_>' : { match ( '<CHAR_LIT:_>' ) ; break ; } default : if ( ( ( LA ( <NUM_LIT:1> ) >= '<STR_LIT>' && LA ( <NUM_LIT:1> ) <= '<STR_LIT>' ) ) ) { matchRange ( '<STR_LIT>' , '<STR_LIT>' ) ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mDIGIT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = DIGIT ; int _saveIndex ; matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mNUM_INT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = NUM_INT ; int _saveIndex ; Token f2 = null ; Token g2 = null ; Token f3 = null ; Token g3 = null ; Token f4 = null ; boolean isDecimal = false ; Token t = null ; { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:0>' : { match ( '<CHAR_LIT:0>' ) ; if ( inputState . guessing == <NUM_LIT:0> ) { isDecimal = true ; } { if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) ) { { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { isDecimal = false ; } { int _cnt701 = <NUM_LIT:0> ; _loop701 : do { if ( ( _tokenSet_10 . member ( LA ( <NUM_LIT:1> ) ) ) && ( true ) && ( true ) && ( true ) ) { mHEX_DIGIT ( false ) ; } else { if ( _cnt701 >= <NUM_LIT:1> ) { break _loop701 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } _cnt701 ++ ; } while ( true ) ; } } else { boolean synPredMatched707 = false ; if ( ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:9>' ) ) && ( true ) && ( true ) && ( true ) ) ) { int _m707 = mark ( ) ; synPredMatched707 = true ; inputState . guessing ++ ; try { { { int _cnt704 = <NUM_LIT:0> ; _loop704 : do { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:9>' ) ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; } else { if ( _cnt704 >= <NUM_LIT:1> ) { break _loop704 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } _cnt704 ++ ; } while ( true ) ; } { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:.>' : { match ( '<CHAR_LIT:.>' ) ; { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; } break ; } case '<CHAR_LIT>' : case '<CHAR_LIT:e>' : { mEXPONENT ( false ) ; break ; } case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : { mFLOAT_SUFFIX ( false ) ; break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } } } catch ( RecognitionException pe ) { synPredMatched707 = false ; } rewind ( _m707 ) ; inputState . guessing -- ; } if ( synPredMatched707 ) { { int _cnt709 = <NUM_LIT:0> ; _loop709 : do { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:9>' ) ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; } else { if ( _cnt709 >= <NUM_LIT:1> ) { break _loop709 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } _cnt709 ++ ; } while ( true ) ; } } else if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT>' ) ) && ( true ) && ( true ) && ( true ) ) { { int _cnt711 = <NUM_LIT:0> ; _loop711 : do { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT>' ) ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT>' ) ; } else { if ( _cnt711 >= <NUM_LIT:1> ) { break _loop711 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } _cnt711 ++ ; } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { isDecimal = false ; } } else { } } } break ; } case '<CHAR_LIT:1>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT:9>' : { { matchRange ( '<CHAR_LIT:1>' , '<CHAR_LIT:9>' ) ; } { _loop714 : do { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:9>' ) ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; } else { break _loop714 ; } } while ( true ) ; } if ( inputState . guessing == <NUM_LIT:0> ) { isDecimal = true ; } break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : case '<CHAR_LIT>' : { { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = NUM_LONG ; } break ; } case '<CHAR_LIT>' : case '<CHAR_LIT>' : { { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = NUM_INT ; } break ; } case '<CHAR_LIT>' : case '<CHAR_LIT>' : { mBIG_SUFFIX ( false ) ; if ( inputState . guessing == <NUM_LIT:0> ) { _ttype = NUM_BIG_INT ; } break ; } default : boolean synPredMatched720 = false ; if ( ( ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT:e>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) ) && ( isDecimal ) ) ) { int _m720 = mark ( ) ; synPredMatched720 = true ; inputState . guessing ++ ; try { { if ( ( _tokenSet_11 . member ( LA ( <NUM_LIT:1> ) ) ) ) { matchNot ( '<CHAR_LIT:.>' ) ; } else if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT:.>' ) ) { match ( '<CHAR_LIT:.>' ) ; { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; } } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } catch ( RecognitionException pe ) { synPredMatched720 = false ; } rewind ( _m720 ) ; inputState . guessing -- ; } if ( synPredMatched720 ) { { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:.>' : { match ( '<CHAR_LIT:.>' ) ; { int _cnt723 = <NUM_LIT:0> ; _loop723 : do { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:9>' ) ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; } else { if ( _cnt723 >= <NUM_LIT:1> ) { break _loop723 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } _cnt723 ++ ; } while ( true ) ; } { if ( ( LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' \|\| LA ( <NUM_LIT:1> ) == '<CHAR_LIT:e>' ) ) { mEXPONENT ( false ) ; } else { } } { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : { mFLOAT_SUFFIX ( true ) ; f2 = _returnToken ; if ( inputState . guessing == <NUM_LIT:0> ) { t = f2 ; } break ; } case '<CHAR_LIT>' : case '<CHAR_LIT>' : { mBIG_SUFFIX ( true ) ; g2 = _returnToken ; if ( inputState . guessing == <NUM_LIT:0> ) { t = g2 ; } break ; } default : { } } } break ; } case '<CHAR_LIT>' : case '<CHAR_LIT:e>' : { mEXPONENT ( false ) ; { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : { mFLOAT_SUFFIX ( true ) ; f3 = _returnToken ; if ( inputState . guessing == <NUM_LIT:0> ) { t = f3 ; } break ; } case '<CHAR_LIT>' : case '<CHAR_LIT>' : { mBIG_SUFFIX ( true ) ; g3 = _returnToken ; if ( inputState . guessing == <NUM_LIT:0> ) { t = g3 ; } break ; } default : { } } } break ; } case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : { mFLOAT_SUFFIX ( true ) ; f4 = _returnToken ; if ( inputState . guessing == <NUM_LIT:0> ) { t = f4 ; } break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } if ( inputState . guessing == <NUM_LIT:0> ) { String txt = ( t == null ? "<STR_LIT>" : t . getText ( ) . toUpperCase ( ) ) ; if ( txt . indexOf ( '<CHAR_LIT>' ) >= <NUM_LIT:0> ) { _ttype = NUM_FLOAT ; } else if ( txt . indexOf ( '<CHAR_LIT>' ) >= <NUM_LIT:0> ) { _ttype = NUM_BIG_DECIMAL ; } else { _ttype = NUM_DOUBLE ; } } } else { } } } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mEXPONENT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = EXPONENT ; int _saveIndex ; { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT:e>' : { match ( '<CHAR_LIT:e>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } { switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT:->' : { match ( '<CHAR_LIT:->' ) ; break ; } case '<CHAR_LIT:0>' : case '<CHAR_LIT:1>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT:9>' : { break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } } { int _cnt732 = <NUM_LIT:0> ; _loop732 : do { if ( ( ( LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:9>' ) ) ) { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; } else { if ( _cnt732 >= <NUM_LIT:1> ) { break _loop732 ; } else { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } _cnt732 ++ ; } while ( true ) ; } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mFLOAT_SUFFIX ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = FLOAT_SUFFIX ; int _saveIndex ; switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } protected final void mBIG_SUFFIX ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = BIG_SUFFIX ; int _saveIndex ; switch ( LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } case '<CHAR_LIT>' : { match ( '<CHAR_LIT>' ) ; break ; } default : { throw new NoViableAltForCharException ( ( char ) LA ( <NUM_LIT:1> ) , getFilename ( ) , getLine ( ) , getColumn ( ) ) ; } } if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } public final void mAT ( boolean _createToken ) throws RecognitionException , CharStreamException , TokenStreamException { int _ttype ; Token _token = null ; int _begin = text . length ( ) ; _ttype = AT ; int _saveIndex ; match ( '<CHAR_LIT>' ) ; if ( _createToken && _token == null && _ttype != Token . SKIP ) { _token = makeToken ( _ttype ) ; _token . setText ( new String ( text . getBuffer ( ) , _begin , text . length ( ) - _begin ) ) ; } _returnToken = _token ; } private static final long [ ] mk_tokenSet_0 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:4> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_0 = new BitSet ( mk_tokenSet_0 ( ) ) ; private static final long [ ] mk_tokenSet_1 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:1> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_1 = new BitSet ( mk_tokenSet_1 ( ) ) ; private static final long [ ] mk_tokenSet_2 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:1> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_2 = new BitSet ( mk_tokenSet_2 ( ) ) ; private static final long [ ] mk_tokenSet_3 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:1> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } return data ; } public static final BitSet _tokenSet_3 = new BitSet ( mk_tokenSet_3 ( ) ) ; private static final long [ ] mk_tokenSet_4 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:2> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_4 = new BitSet ( mk_tokenSet_4 ( ) ) ; private static final long [ ] mk_tokenSet_5 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:1> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } return data ; } public static final BitSet _tokenSet_5 = new BitSet ( mk_tokenSet_5 ( ) ) ; private static final long [ ] mk_tokenSet_6 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:1> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_6 = new BitSet ( mk_tokenSet_6 ( ) ) ; private static final long [ ] mk_tokenSet_7 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:1> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_7 = new BitSet ( mk_tokenSet_7 ( ) ) ; private static final long [ ] mk_tokenSet_8 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; data [ <NUM_LIT:1> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:2> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_8 = new BitSet ( mk_tokenSet_8 ( ) ) ; private static final long [ ] mk_tokenSet_9 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; data [ <NUM_LIT:3> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:4> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } data [ <NUM_LIT> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_9 = new BitSet ( mk_tokenSet_9 ( ) ) ; private static final long [ ] mk_tokenSet_10 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = <NUM_LIT> ; data [ <NUM_LIT:1> ] = <NUM_LIT> ; return data ; } public static final BitSet _tokenSet_10 = new BitSet ( mk_tokenSet_10 ( ) ) ; private static final long [ ] mk_tokenSet_11 ( ) { long [ ] data = new long [ <NUM_LIT> ] ; data [ <NUM_LIT:0> ] = - <NUM_LIT> ; for ( int i = <NUM_LIT:1> ; i <= <NUM_LIT> ; i ++ ) { data [ i ] = - <NUM_LIT:1L> ; } return data ; } public static final BitSet _tokenSet_11 = new BitSet ( mk_tokenSet_11 ( ) ) ; } </s>
<s> package org . codehaus . groovy . antlr . parser ; import org . codehaus . groovy . antlr . * ; import java . util . * ; import java . io . InputStream ; import java . io . Reader ; import antlr . InputBuffer ; import antlr . LexerSharedInputState ; import antlr . CommonToken ; import org . codehaus . groovy . GroovyBugError ; import antlr . TokenStreamRecognitionException ; import org . codehaus . groovy . ast . Comment ; public interface GroovyTokenTypes { int EOF = <NUM_LIT:1> ; int NULL_TREE_LOOKAHEAD = <NUM_LIT:3> ; int BLOCK = <NUM_LIT:4> ; int MODIFIERS = <NUM_LIT:5> ; int OBJBLOCK = <NUM_LIT:6> ; int SLIST = <NUM_LIT:7> ; int METHOD_DEF = <NUM_LIT:8> ; int VARIABLE_DEF = <NUM_LIT:9> ; int INSTANCE_INIT = <NUM_LIT:10> ; int STATIC_INIT = <NUM_LIT:11> ; int TYPE = <NUM_LIT:12> ; int CLASS_DEF = <NUM_LIT> ; int INTERFACE_DEF = <NUM_LIT> ; int PACKAGE_DEF = <NUM_LIT:15> ; int ARRAY_DECLARATOR = <NUM_LIT:16> ; int EXTENDS_CLAUSE = <NUM_LIT> ; int IMPLEMENTS_CLAUSE = <NUM_LIT> ; int PARAMETERS = <NUM_LIT> ; int PARAMETER_DEF = <NUM_LIT:20> ; int LABELED_STAT = <NUM_LIT> ; int TYPECAST = <NUM_LIT> ; int INDEX_OP = <NUM_LIT> ; int POST_INC = <NUM_LIT:24> ; int POST_DEC = <NUM_LIT> ; int METHOD_CALL = <NUM_LIT> ; int EXPR = <NUM_LIT> ; int IMPORT = <NUM_LIT> ; int UNARY_MINUS = <NUM_LIT> ; int UNARY_PLUS = <NUM_LIT:30> ; int CASE_GROUP = <NUM_LIT:31> ; int ELIST = <NUM_LIT:32> ; int FOR_INIT = <NUM_LIT> ; int FOR_CONDITION = <NUM_LIT> ; int FOR_ITERATOR = <NUM_LIT> ; int EMPTY_STAT = <NUM_LIT> ; int FINAL = <NUM_LIT> ; int ABSTRACT = <NUM_LIT> ; int UNUSED_GOTO = <NUM_LIT> ; int UNUSED_CONST = <NUM_LIT> ; int UNUSED_DO = <NUM_LIT> ; int STRICTFP = <NUM_LIT> ; int SUPER_CTOR_CALL = <NUM_LIT> ; int CTOR_CALL = <NUM_LIT> ; int CTOR_IDENT = <NUM_LIT> ; int VARIABLE_PARAMETER_DEF = <NUM_LIT> ; int STRING_CONSTRUCTOR = <NUM_LIT> ; int STRING_CTOR_MIDDLE = <NUM_LIT> ; int CLOSABLE_BLOCK = <NUM_LIT> ; int IMPLICIT_PARAMETERS = <NUM_LIT> ; int SELECT_SLOT = <NUM_LIT> ; int DYNAMIC_MEMBER = <NUM_LIT> ; int LABELED_ARG = <NUM_LIT> ; int SPREAD_ARG = <NUM_LIT> ; int SPREAD_MAP_ARG = <NUM_LIT> ; int LIST_CONSTRUCTOR = <NUM_LIT> ; int MAP_CONSTRUCTOR = <NUM_LIT> ; int FOR_IN_ITERABLE = <NUM_LIT> ; int STATIC_IMPORT = <NUM_LIT> ; int ENUM_DEF = <NUM_LIT> ; int ENUM_CONSTANT_DEF = <NUM_LIT> ; int FOR_EACH_CLAUSE = <NUM_LIT> ; int ANNOTATION_DEF = <NUM_LIT> ; int ANNOTATIONS = <NUM_LIT> ; int ANNOTATION = <NUM_LIT> ; int ANNOTATION_MEMBER_VALUE_PAIR = <NUM_LIT> ; int ANNOTATION_FIELD_DEF = <NUM_LIT> ; int ANNOTATION_ARRAY_INIT = <NUM_LIT> ; int TYPE_ARGUMENTS = <NUM_LIT> ; int TYPE_ARGUMENT = <NUM_LIT> ; int TYPE_PARAMETERS = <NUM_LIT> ; int TYPE_PARAMETER = <NUM_LIT> ; int WILDCARD_TYPE = <NUM_LIT> ; int TYPE_UPPER_BOUNDS = <NUM_LIT> ; int TYPE_LOWER_BOUNDS = <NUM_LIT> ; int CLOSURE_LIST = <NUM_LIT> ; int SH_COMMENT = <NUM_LIT> ; int LITERAL_package = <NUM_LIT> ; int LITERAL_import = <NUM_LIT> ; int LITERAL_static = <NUM_LIT> ; int LITERAL_def = <NUM_LIT> ; int LBRACK = <NUM_LIT> ; int RBRACK = <NUM_LIT> ; int IDENT = <NUM_LIT> ; int STRING_LITERAL = <NUM_LIT> ; int LT = <NUM_LIT> ; int DOT = <NUM_LIT> ; int LPAREN = <NUM_LIT> ; int LITERAL_class = <NUM_LIT> ; int LITERAL_interface = <NUM_LIT> ; int LITERAL_enum = <NUM_LIT> ; int AT = <NUM_LIT> ; int QUESTION = <NUM_LIT> ; int LITERAL_extends = <NUM_LIT> ; int LITERAL_super = <NUM_LIT> ; int COMMA = <NUM_LIT> ; int GT = <NUM_LIT> ; int SR = <NUM_LIT> ; int BSR = <NUM_LIT> ; int LITERAL_void = <NUM_LIT:100> ; int LITERAL_boolean = <NUM_LIT> ; int LITERAL_byte = <NUM_LIT> ; int LITERAL_char = <NUM_LIT> ; int LITERAL_short = <NUM_LIT> ; int LITERAL_int = <NUM_LIT> ; int LITERAL_float = <NUM_LIT> ; int LITERAL_long = <NUM_LIT> ; int LITERAL_double = <NUM_LIT> ; int STAR = <NUM_LIT> ; int LITERAL_as = <NUM_LIT> ; int LITERAL_private = <NUM_LIT> ; int LITERAL_public = <NUM_LIT> ; int LITERAL_protected = <NUM_LIT> ; int LITERAL_transient = <NUM_LIT> ; int LITERAL_native = <NUM_LIT> ; int LITERAL_threadsafe = <NUM_LIT> ; int LITERAL_synchronized = <NUM_LIT> ; int LITERAL_volatile = <NUM_LIT> ; int RPAREN = <NUM_LIT> ; int ASSIGN = <NUM_LIT> ; int BAND = <NUM_LIT> ; int LCURLY = <NUM_LIT> ; int RCURLY = <NUM_LIT> ; int SEMI = <NUM_LIT> ; int LITERAL_default = <NUM_LIT> ; int LITERAL_throws = <NUM_LIT> ; int LITERAL_implements = <NUM_LIT> ; int LITERAL_this = <NUM_LIT> ; int TRIPLE_DOT = <NUM_LIT> ; int CLOSABLE_BLOCK_OP = <NUM_LIT> ; int COLON = <NUM_LIT> ; int LITERAL_if = <NUM_LIT> ; int LITERAL_else = <NUM_LIT> ; int LITERAL_while = <NUM_LIT> ; int LITERAL_switch = <NUM_LIT> ; int LITERAL_for = <NUM_LIT> ; int LITERAL_in = <NUM_LIT> ; int LITERAL_return = <NUM_LIT> ; int LITERAL_break = <NUM_LIT> ; int LITERAL_continue = <NUM_LIT> ; int LITERAL_throw = <NUM_LIT> ; int LITERAL_assert = <NUM_LIT> ; int PLUS = <NUM_LIT> ; int MINUS = <NUM_LIT> ; int LITERAL_case = <NUM_LIT> ; int LITERAL_try = <NUM_LIT> ; int LITERAL_finally = <NUM_LIT> ; int LITERAL_catch = <NUM_LIT> ; int SPREAD_DOT = <NUM_LIT> ; int OPTIONAL_DOT = <NUM_LIT> ; int MEMBER_POINTER = <NUM_LIT> ; int LITERAL_false = <NUM_LIT> ; int LITERAL_instanceof = <NUM_LIT> ; int LITERAL_new = <NUM_LIT> ; int LITERAL_null = <NUM_LIT> ; int LITERAL_true = <NUM_LIT> ; int PLUS_ASSIGN = <NUM_LIT> ; int MINUS_ASSIGN = <NUM_LIT> ; int STAR_ASSIGN = <NUM_LIT> ; int DIV_ASSIGN = <NUM_LIT> ; int MOD_ASSIGN = <NUM_LIT> ; int SR_ASSIGN = <NUM_LIT> ; int BSR_ASSIGN = <NUM_LIT> ; int SL_ASSIGN = <NUM_LIT> ; int BAND_ASSIGN = <NUM_LIT> ; int BXOR_ASSIGN = <NUM_LIT> ; int BOR_ASSIGN = <NUM_LIT> ; int STAR_STAR_ASSIGN = <NUM_LIT> ; int ELVIS_OPERATOR = <NUM_LIT> ; int LOR = <NUM_LIT> ; int LAND = <NUM_LIT> ; int BOR = <NUM_LIT> ; int BXOR = <NUM_LIT> ; int REGEX_FIND = <NUM_LIT> ; int REGEX_MATCH = <NUM_LIT> ; int NOT_EQUAL = <NUM_LIT> ; int EQUAL = <NUM_LIT> ; int IDENTICAL = <NUM_LIT> ; int NOT_IDENTICAL = <NUM_LIT> ; int COMPARE_TO = <NUM_LIT> ; int LE = <NUM_LIT> ; int GE = <NUM_LIT> ; int SL = <NUM_LIT> ; int RANGE_INCLUSIVE = <NUM_LIT> ; int RANGE_EXCLUSIVE = <NUM_LIT> ; int INC = <NUM_LIT> ; int DIV = <NUM_LIT> ; int MOD = <NUM_LIT> ; int DEC = <NUM_LIT> ; int STAR_STAR = <NUM_LIT> ; int BNOT = <NUM_LIT> ; int LNOT = <NUM_LIT> ; int STRING_CTOR_START = <NUM_LIT> ; int STRING_CTOR_END = <NUM_LIT> ; int NUM_INT = <NUM_LIT> ; int NUM_FLOAT = <NUM_LIT> ; int NUM_LONG = <NUM_LIT> ; int NUM_DOUBLE = <NUM_LIT> ; int NUM_BIG_INT = <NUM_LIT> ; int NUM_BIG_DECIMAL = <NUM_LIT> ; int NLS = <NUM_LIT> ; int DOLLAR = <NUM_LIT> ; int WS = <NUM_LIT> ; int ONE_NL = <NUM_LIT> ; int ONE_NL_KEEP = <NUM_LIT> ; int SL_COMMENT = <NUM_LIT> ; int ML_COMMENT = <NUM_LIT> ; int STRING_CH = <NUM_LIT> ; int REGEXP_LITERAL = <NUM_LIT> ; int REGEXP_CTOR_END = <NUM_LIT> ; int REGEXP_SYMBOL = <NUM_LIT> ; int ESC = <NUM_LIT> ; int STRING_NL = <NUM_LIT> ; int HEX_DIGIT = <NUM_LIT> ; int VOCAB = <NUM_LIT> ; int LETTER = <NUM_LIT> ; int DIGIT = <NUM_LIT> ; int EXPONENT = <NUM_LIT> ; int FLOAT_SUFFIX = <NUM_LIT> ; int BIG_SUFFIX = <NUM_LIT> ; } </s>
<s> package org . codehaus . groovy . antlr ; import java . util . ArrayList ; import java . util . List ; public class SourceBuffer { private final List lines ; private StringBuffer current ; private final List < Integer > lineEndings ; private UnicodeEscapingReader unescaper ; public SourceBuffer ( ) { lines = new ArrayList ( ) ; lineEndings = new ArrayList < Integer > ( ) ; lineEndings . add ( <NUM_LIT:0> ) ; unescaper = new NoEscaper ( ) ; current = new StringBuffer ( ) ; lines . add ( current ) ; } public String getSnippet ( LineColumn start , LineColumn end ) { if ( start == null \|\| end == null ) { return null ; } if ( start . equals ( end ) ) { return null ; } if ( lines . size ( ) == <NUM_LIT:1> && current . length ( ) == <NUM_LIT:0> ) { return null ; } int startLine = start . getLine ( ) ; int startColumn = start . getColumn ( ) ; int endLine = end . getLine ( ) ; int endColumn = end . getColumn ( ) ; if ( startLine < <NUM_LIT:1> ) { startLine = <NUM_LIT:1> ; } if ( endLine < <NUM_LIT:1> ) { endLine = <NUM_LIT:1> ; } if ( startColumn < <NUM_LIT:1> ) { startColumn = <NUM_LIT:1> ; } if ( endColumn < <NUM_LIT:1> ) { endColumn = <NUM_LIT:1> ; } if ( startLine > lines . size ( ) ) { startLine = lines . size ( ) ; } if ( endLine > lines . size ( ) ) { endLine = lines . size ( ) ; } StringBuffer snippet = new StringBuffer ( ) ; for ( int i = startLine - <NUM_LIT:1> ; i < endLine ; i ++ ) { String line = ( ( StringBuffer ) lines . get ( i ) ) . toString ( ) ; if ( startLine == endLine ) { if ( startColumn > line . length ( ) ) { startColumn = line . length ( ) ; } if ( startColumn < <NUM_LIT:1> ) { startColumn = <NUM_LIT:1> ; } if ( endColumn > line . length ( ) ) { endColumn = line . length ( ) + <NUM_LIT:1> ; } if ( endColumn < <NUM_LIT:1> ) { endColumn = <NUM_LIT:1> ; } line = line . substring ( startColumn - <NUM_LIT:1> , endColumn - <NUM_LIT:1> ) ; } else { if ( i == startLine - <NUM_LIT:1> ) { if ( startColumn - <NUM_LIT:1> < line . length ( ) ) { line = line . substring ( startColumn - <NUM_LIT:1> ) ; } } if ( i == endLine - <NUM_LIT:1> ) { if ( endColumn - <NUM_LIT:1> < line . length ( ) ) { line = line . substring ( <NUM_LIT:0> , endColumn - <NUM_LIT:1> ) ; } } } snippet . append ( line ) ; } return snippet . toString ( ) ; } public void setUnescaper ( UnicodeEscapingReader unicodeEscapingReader ) { this . unescaper = unicodeEscapingReader ; } private boolean prevWasCarriageReturn = false ; private int col = <NUM_LIT:0> ; public void write ( int c ) { if ( c != - <NUM_LIT:1> ) { col ++ ; current . append ( ( char ) c ) ; } if ( c == '<STR_LIT:\n>' ) { if ( ! prevWasCarriageReturn ) { current = new StringBuffer ( ) ; lines . add ( current ) ; lineEndings . add ( col + unescaper . getUnescapedUnicodeOffsetCount ( ) ) ; } else { current = new StringBuffer ( ) ; ( ( StringBuffer ) lines . get ( lines . size ( ) - <NUM_LIT:1> ) ) . append ( '<STR_LIT:\n>' ) ; lineEndings . remove ( lineEndings . size ( ) - <NUM_LIT:1> ) ; lineEndings . add ( col + unescaper . getUnescapedUnicodeOffsetCount ( ) ) ; } } if ( c == '<STR_LIT>' ) { current = new StringBuffer ( ) ; lines . add ( current ) ; lineEndings . add ( col + unescaper . getUnescapedUnicodeOffsetCount ( ) ) ; prevWasCarriageReturn = true ; } else { prevWasCarriageReturn = false ; } } public LocationSupport getLocationSupport ( ) { lineEndings . add ( col + unescaper . getUnescapedUnicodeOffsetCount ( ) ) ; int [ ] lineEndingsArray = new int [ lineEndings . size ( ) ] ; for ( int i = <NUM_LIT:0> , max = lineEndings . size ( ) ; i < max ; i ++ ) { lineEndingsArray [ i ] = lineEndings . get ( i ) . intValue ( ) ; } return new LocationSupport ( lineEndingsArray ) ; } } </s>
<s> package org . codehaus . groovy . antlr ; import org . codehaus . groovy . control . ParserPlugin ; import org . codehaus . groovy . control . ParserPluginFactory ; public class CSTParserPluginFactory extends ParserPluginFactory { private ICSTReporter cstReporter ; public CSTParserPluginFactory ( ICSTReporter cstReporter ) { this . cstReporter = cstReporter ; } public ParserPlugin createParserPlugin ( ) { return new CSTParserPlugin ( cstReporter ) ; } } </s>
<s> package org . codehaus . groovy . antlr ; import antlr . LexerSharedInputState ; public class UnicodeLexerSharedInputState extends LexerSharedInputState { private final UnicodeEscapingReader escapingReader ; private int prevUnescape ; public UnicodeLexerSharedInputState ( UnicodeEscapingReader in ) { super ( in ) ; escapingReader = in ; } @ Override public int getColumn ( ) { prevUnescape = escapingReader . getUnescapedUnicodeColumnCount ( ) ; return super . getColumn ( ) + prevUnescape ; } @ Override public int getTokenStartColumn ( ) { if ( line == tokenStartLine ) { return super . getTokenStartColumn ( ) + escapingReader . getUnescapedUnicodeColumnCount ( ) ; } else { return super . getTokenStartColumn ( ) + prevUnescape ; } } } </s>
<s> package org . codehaus . groovy . antlr ; import antlr . RecognitionException ; import antlr . TokenStreamException ; import antlr . TokenStreamRecognitionException ; import antlr . collections . AST ; import org . codehaus . groovy . GroovyBugError ; import org . codehaus . groovy . antlr . parser . GroovyLexer ; import org . codehaus . groovy . antlr . parser . GroovyRecognizer ; import org . codehaus . groovy . antlr . parser . GroovyTokenTypes ; import org . codehaus . groovy . antlr . treewalker . * ; import org . codehaus . groovy . ast . * ; import org . codehaus . groovy . ast . expr . * ; import org . codehaus . groovy . ast . stmt . * ; import org . codehaus . groovy . control . CompilationFailedException ; import org . codehaus . groovy . control . ParserPlugin ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . syntax . * ; import org . objectweb . asm . Opcodes ; import java . io . * ; import java . security . AccessController ; import java . security . PrivilegedAction ; import java . util . ArrayList ; import java . util . HashSet ; import java . util . Iterator ; import java . util . LinkedList ; import java . util . List ; import java . util . Set ; public class AntlrParserPlugin extends ASTHelper implements ParserPlugin , GroovyTokenTypes { private static class AnonymousInnerClassCarrier extends Expression { ClassNode innerClass ; public Expression transformExpression ( ExpressionTransformer transformer ) { return null ; } } protected AST ast ; private ClassNode classNode ; protected String [ ] tokenNames ; private int innerClassCounter = <NUM_LIT:1> ; private boolean enumConstantBeingDef = false ; private boolean forStatementBeingDef = false ; protected LocationSupport locations = LocationSupport . NO_LOCATIONS ; public Reduction parseCST ( final SourceUnit sourceUnit , Reader reader ) throws CompilationFailedException { final SourceBuffer sourceBuffer = new SourceBuffer ( ) ; transformCSTIntoAST ( sourceUnit , reader , sourceBuffer ) ; processAST ( ) ; return outputAST ( sourceUnit , sourceBuffer ) ; } protected void transformCSTIntoAST ( SourceUnit sourceUnit , Reader reader , SourceBuffer sourceBuffer ) throws CompilationFailedException { ast = null ; setController ( sourceUnit ) ; UnicodeEscapingReader unicodeReader = new UnicodeEscapingReader ( reader , sourceBuffer ) ; UnicodeLexerSharedInputState inputState = new UnicodeLexerSharedInputState ( unicodeReader ) ; GroovyLexer lexer = new GroovyLexer ( inputState ) ; unicodeReader . setLexer ( lexer ) ; GroovyRecognizer parser = GroovyRecognizer . make ( lexer ) ; parser . setSourceBuffer ( sourceBuffer ) ; tokenNames = parser . getTokenNames ( ) ; parser . setFilename ( sourceUnit . getName ( ) ) ; try { parser . compilationUnit ( ) ; } catch ( TokenStreamRecognitionException tsre ) { RecognitionException e = tsre . recog ; SyntaxException se = new SyntaxException ( e . getMessage ( ) , e , e . getLine ( ) , e . getColumn ( ) ) ; se . setFatal ( true ) ; sourceUnit . addError ( se ) ; } catch ( RecognitionException e ) { SyntaxException se = new SyntaxException ( e . getMessage ( ) , e , e . getLine ( ) , e . getColumn ( ) ) ; se . setFatal ( true ) ; sourceUnit . addError ( se ) ; } catch ( TokenStreamException e ) { sourceUnit . addException ( e ) ; } configureLocationSupport ( sourceBuffer ) ; ast = parser . getAST ( ) ; } protected void configureLocationSupport ( SourceBuffer sourceBuffer ) { locations = sourceBuffer . getLocationSupport ( ) ; } protected void processAST ( ) { AntlrASTProcessor snippets = new AntlrASTProcessSnippets ( ) ; ast = snippets . process ( ast ) ; } public Reduction outputAST ( final SourceUnit sourceUnit , final SourceBuffer sourceBuffer ) { AccessController . doPrivileged ( new PrivilegedAction ( ) { public Object run ( ) { outputASTInVariousFormsIfNeeded ( sourceUnit , sourceBuffer ) ; return null ; } } ) ; return null ; } protected void outputASTInVariousFormsIfNeeded ( SourceUnit sourceUnit , SourceBuffer sourceBuffer ) { if ( "<STR_LIT>" . equals ( System . getProperty ( "<STR_LIT>" ) ) ) { try { PrintStream out = new PrintStream ( new FileOutputStream ( sourceUnit . getName ( ) + "<STR_LIT>" ) ) ; Visitor visitor = new SourcePrinter ( out , tokenNames ) ; AntlrASTProcessor treewalker = new SourceCodeTraversal ( visitor ) ; treewalker . process ( ast ) ; } catch ( FileNotFoundException e ) { System . out . println ( "<STR_LIT>" + sourceUnit . getName ( ) + "<STR_LIT>" ) ; } } if ( "<STR_LIT>" . equals ( System . getProperty ( "<STR_LIT>" ) ) ) { try { PrintStream out = new PrintStream ( new FileOutputStream ( sourceUnit . getName ( ) + "<STR_LIT>" ) ) ; Visitor visitor = new MindMapPrinter ( out , tokenNames ) ; AntlrASTProcessor treewalker = new PreOrderTraversal ( visitor ) ; treewalker . process ( ast ) ; } catch ( FileNotFoundException e ) { System . out . println ( "<STR_LIT>" + sourceUnit . getName ( ) + "<STR_LIT>" ) ; } } if ( "<STR_LIT>" . equals ( System . getProperty ( "<STR_LIT>" ) ) ) { try { PrintStream out = new PrintStream ( new FileOutputStream ( sourceUnit . getName ( ) + "<STR_LIT>" ) ) ; Visitor visitor = new MindMapPrinter ( out , tokenNames , sourceBuffer ) ; AntlrASTProcessor treewalker = new PreOrderTraversal ( visitor ) ; treewalker . process ( ast ) ; } catch ( FileNotFoundException e ) { System . out . println ( "<STR_LIT>" + sourceUnit . getName ( ) + "<STR_LIT>" ) ; } } if ( "<STR_LIT>" . equals ( System . getProperty ( "<STR_LIT>" ) ) ) { try { PrintStream out = new PrintStream ( new FileOutputStream ( sourceUnit . getName ( ) + "<STR_LIT>" ) ) ; List < VisitorAdapter > v = new ArrayList < VisitorAdapter > ( ) ; v . add ( new NodeAsHTMLPrinter ( out , tokenNames ) ) ; v . add ( new SourcePrinter ( out , tokenNames ) ) ; Visitor visitors = new CompositeVisitor ( v ) ; AntlrASTProcessor treewalker = new SourceCodeTraversal ( visitors ) ; treewalker . process ( ast ) ; } catch ( FileNotFoundException e ) { System . out . println ( "<STR_LIT>" + sourceUnit . getName ( ) + "<STR_LIT>" ) ; } } } public ModuleNode buildAST ( SourceUnit sourceUnit , ClassLoader classLoader , Reduction cst ) throws ParserException { setClassLoader ( classLoader ) ; makeModule ( ) ; try { innerClassCounter = <NUM_LIT:1> ; convertGroovy ( ast ) ; boolean hasNoMethods = output . getMethods ( ) . isEmpty ( ) ; if ( hasNoMethods && sourceUnit . getErrorCollector ( ) . hasErrors ( ) && looksBroken ( output ) ) { output . setEncounteredUnrecoverableError ( true ) ; } if ( output . getStatementBlock ( ) . isEmpty ( ) && hasNoMethods && output . getClasses ( ) . isEmpty ( ) ) { if ( ast == null && sourceUnit . getErrorCollector ( ) . hasErrors ( ) ) { output . setEncounteredUnrecoverableError ( true ) ; } output . addStatement ( ReturnStatement . RETURN_NULL_OR_VOID ) ; } fixModuleNodeLocations ( ) ; } catch ( ASTRuntimeException e ) { throw new ASTParserException ( e . getMessage ( ) + "<STR_LIT>" + sourceUnit . getName ( ) , e ) ; } return output ; } private boolean looksBroken ( ModuleNode moduleNode ) { List < ClassNode > classes = moduleNode . getClasses ( ) ; if ( classes . size ( ) != <NUM_LIT:1> \|\| ! classes . get ( <NUM_LIT:0> ) . isScript ( ) ) { return false ; } BlockStatement statementBlock = moduleNode . getStatementBlock ( ) ; if ( statementBlock . isEmpty ( ) ) { return true ; } List < Statement > statements = statementBlock . getStatements ( ) ; if ( statements != null && statements . size ( ) == <NUM_LIT:1> ) { Statement statement = statements . get ( <NUM_LIT:0> ) ; if ( statement instanceof ExpressionStatement ) { Expression expression = ( ( ExpressionStatement ) statement ) . getExpression ( ) ; if ( expression instanceof ConstantExpression ) { if ( expression . toString ( ) . equals ( "<STR_LIT>" ) ) { return true ; } } } } return false ; } protected void convertGroovy ( AST node ) { while ( node != null ) { int type = node . getType ( ) ; switch ( type ) { case PACKAGE_DEF : packageDef ( node ) ; break ; case STATIC_IMPORT : case IMPORT : importDef ( node ) ; break ; case CLASS_DEF : classDef ( node ) ; break ; case INTERFACE_DEF : interfaceDef ( node ) ; break ; case METHOD_DEF : methodDef ( node ) ; break ; case ENUM_DEF : enumDef ( node ) ; break ; case ANNOTATION_DEF : annotationDef ( node ) ; break ; default : { Statement statement = statement ( node ) ; output . addStatement ( statement ) ; } } node = node . getNextSibling ( ) ; } } protected void packageDef ( AST packageDef ) { List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = packageDef . getFirstChild ( ) ; if ( isType ( ANNOTATIONS , node ) ) { processAnnotations ( annotations , node ) ; node = node . getNextSibling ( ) ; } if ( node == null ) { return ; } String name = qualifiedName ( node ) ; setPackageName ( name ) ; if ( name != null && name . length ( ) > <NUM_LIT:0> ) { name += '<CHAR_LIT:.>' ; } PackageNode packageNode = new PackageNode ( name ) ; packageNode . addAnnotations ( annotations ) ; output . setPackage ( packageNode ) ; configureAST ( packageNode , node ) ; } protected void importDef ( AST importNode ) { boolean isStatic = importNode . getType ( ) == STATIC_IMPORT ; List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = importNode . getFirstChild ( ) ; if ( isType ( ANNOTATIONS , node ) ) { processAnnotations ( annotations , node ) ; node = node . getNextSibling ( ) ; } String alias = null ; AST aliasNode = null ; if ( isType ( LITERAL_as , node ) ) { node = node . getFirstChild ( ) ; aliasNode = node . getNextSibling ( ) ; alias = identifier ( aliasNode ) ; } if ( node . getNumberOfChildren ( ) == <NUM_LIT:0> ) { String name = identifier ( node ) ; ClassNode type = ClassHelper . make ( name ) ; configureAST ( type , importNode ) ; addImport ( type , name , alias , annotations ) ; return ; } AST packageNode = node . getFirstChild ( ) ; String packageName = qualifiedName ( packageNode ) ; AST nameNode = packageNode . getNextSibling ( ) ; if ( isType ( STAR , nameNode ) ) { if ( isStatic ) { ClassNode type = ClassHelper . make ( packageName ) ; configureAST ( type , packageNode ) ; addStaticStarImport ( type , packageName , annotations ) ; ASTNode imp = ( ASTNode ) output . getStaticStarImports ( ) . get ( packageName ) ; configureAST ( imp , importNode ) ; } else { addStarImport ( packageName , annotations ) ; ASTNode imp = ( ASTNode ) output . getStarImports ( ) . get ( output . getStarImports ( ) . size ( ) - <NUM_LIT:1> ) ; configureAST ( imp , importNode ) ; } if ( alias != null ) throw new GroovyBugError ( "<STR_LIT>" + "<STR_LIT>" ) ; } else { ImportNode imp ; String name = identifier ( nameNode ) ; if ( isStatic ) { ClassNode type = ClassHelper . make ( packageName ) ; configureAST ( type , packageNode ) ; addStaticImport ( type , name , alias , annotations ) ; imp = output . getStaticImports ( ) . get ( alias == null ? name : alias ) ; configureAST ( imp , importNode ) ; ConstantExpression nameExpr = new ConstantExpression ( name ) ; configureAST ( nameExpr , nameNode ) ; imp . setFieldNameExpr ( nameExpr ) ; } else { ClassNode type = ClassHelper . make ( packageName + "<STR_LIT:.>" + name ) ; configureAST ( type , nameNode ) ; addImport ( type , name , alias , annotations ) ; imp = output . getImport ( alias == null ? name : alias ) ; configureAST ( imp , importNode ) ; } if ( alias != null ) { ConstantExpression aliasExpr = new ConstantExpression ( alias ) ; configureAST ( aliasExpr , aliasNode ) ; imp . setAliasExpr ( aliasExpr ) ; } } } private void processAnnotations ( List < AnnotationNode > annotations , AST node ) { AST child = node . getFirstChild ( ) ; while ( child != null ) { if ( isType ( ANNOTATION , child ) ) annotations . add ( annotation ( child ) ) ; child = child . getNextSibling ( ) ; } } protected void annotationDef ( AST classDef ) { List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = classDef . getFirstChild ( ) ; int modifiers = Opcodes . ACC_PUBLIC ; if ( isType ( MODIFIERS , node ) ) { modifiers = modifiers ( node , annotations , modifiers ) ; checkNoInvalidModifier ( classDef , "<STR_LIT>" , modifiers , Opcodes . ACC_SYNCHRONIZED , "<STR_LIT>" ) ; node = node . getNextSibling ( ) ; } modifiers \|= Opcodes . ACC_ABSTRACT \| Opcodes . ACC_INTERFACE \| Opcodes . ACC_ANNOTATION ; String name = identifier ( node ) ; GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumn ( ) ) ; int nameEnd = locations . findOffset ( groovySourceAST . getLineLast ( ) , groovySourceAST . getColumnLast ( ) ) - <NUM_LIT:1> ; node = node . getNextSibling ( ) ; ClassNode superClass = ClassHelper . OBJECT_TYPE ; GenericsType [ ] genericsType = null ; if ( isType ( TYPE_PARAMETERS , node ) ) { genericsType = makeGenericsType ( node ) ; node = node . getNextSibling ( ) ; } ClassNode [ ] interfaces = ClassNode . EMPTY_ARRAY ; if ( isType ( EXTENDS_CLAUSE , node ) ) { interfaces = interfaces ( node ) ; node = node . getNextSibling ( ) ; } classNode = new ClassNode ( dot ( getPackageName ( ) , name ) , modifiers , superClass , interfaces , null ) ; classNode . addAnnotations ( annotations ) ; classNode . setGenericsTypes ( genericsType ) ; classNode . addInterface ( ClassHelper . Annotation_TYPE ) ; classNode . setNameStart ( nameStart ) ; classNode . setNameEnd ( nameEnd ) ; configureAST ( classNode , classDef ) ; assertNodeType ( OBJBLOCK , node ) ; objectBlock ( node ) ; output . addClass ( classNode ) ; classNode = null ; } protected void interfaceDef ( AST classDef ) { int oldInnerClassCounter = innerClassCounter ; innerInterfaceDef ( classDef ) ; classNode = null ; innerClassCounter = oldInnerClassCounter ; } protected void innerInterfaceDef ( AST classDef ) { List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = classDef . getFirstChild ( ) ; int modifiers = Opcodes . ACC_PUBLIC ; if ( isType ( MODIFIERS , node ) ) { modifiers = modifiers ( node , annotations , modifiers ) ; checkNoInvalidModifier ( classDef , "<STR_LIT>" , modifiers , Opcodes . ACC_SYNCHRONIZED , "<STR_LIT>" ) ; node = node . getNextSibling ( ) ; } modifiers \|= Opcodes . ACC_ABSTRACT \| Opcodes . ACC_INTERFACE ; String name = identifier ( node ) ; GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumn ( ) ) ; int nameEnd = locations . findOffset ( groovySourceAST . getLineLast ( ) , groovySourceAST . getColumnLast ( ) ) - <NUM_LIT:1> ; node = node . getNextSibling ( ) ; ClassNode superClass = ClassHelper . OBJECT_TYPE ; GenericsType [ ] genericsType = null ; if ( isType ( TYPE_PARAMETERS , node ) ) { genericsType = makeGenericsType ( node ) ; node = node . getNextSibling ( ) ; } ClassNode [ ] interfaces = ClassNode . EMPTY_ARRAY ; if ( isType ( EXTENDS_CLAUSE , node ) ) { interfaces = interfaces ( node ) ; node = node . getNextSibling ( ) ; } ClassNode outerClass = classNode ; if ( classNode != null ) { name = classNode . getNameWithoutPackage ( ) + "<STR_LIT:$>" + name ; String fullName = dot ( classNode . getPackageName ( ) , name ) ; classNode = new InnerClassNode ( classNode , fullName , modifiers , superClass , interfaces , null ) ; } else { classNode = new ClassNode ( dot ( getPackageName ( ) , name ) , modifiers , superClass , interfaces , null ) ; } classNode . addAnnotations ( annotations ) ; classNode . setGenericsTypes ( genericsType ) ; configureAST ( classNode , classDef ) ; classNode . setNameStart ( nameStart ) ; classNode . setNameEnd ( nameEnd ) ; int oldClassCount = innerClassCounter ; assertNodeType ( OBJBLOCK , node ) ; objectBlock ( node ) ; output . addClass ( classNode ) ; classNode = outerClass ; innerClassCounter = oldClassCount ; } protected void classDef ( AST classDef ) { int oldInnerClassCounter = innerClassCounter ; innerClassDef ( classDef ) ; classNode = null ; innerClassCounter = oldInnerClassCounter ; } private ClassNode getClassOrScript ( ClassNode node ) { if ( node != null ) return node ; return output . getScriptClassDummy ( ) ; } protected Expression anonymousInnerClassDef ( AST node ) { ClassNode oldNode = classNode ; ClassNode outerClass = getClassOrScript ( oldNode ) ; String fullName = outerClass . getName ( ) + '<CHAR_LIT>' + innerClassCounter ; innerClassCounter ++ ; if ( enumConstantBeingDef ) { classNode = new EnumConstantClassNode ( outerClass , fullName , Opcodes . ACC_PUBLIC , ClassHelper . OBJECT_TYPE ) ; } else { classNode = new InnerClassNode ( outerClass , fullName , Opcodes . ACC_PUBLIC , ClassHelper . OBJECT_TYPE ) ; } ( ( InnerClassNode ) classNode ) . setAnonymous ( true ) ; assertNodeType ( OBJBLOCK , node ) ; objectBlock ( node ) ; output . addClass ( classNode ) ; AnonymousInnerClassCarrier ret = new AnonymousInnerClassCarrier ( ) ; ret . innerClass = classNode ; configureAST ( classNode , node ) ; classNode = oldNode ; return ret ; } protected void innerClassDef ( AST classDef ) { List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = classDef . getFirstChild ( ) ; int modifiers = Opcodes . ACC_PUBLIC ; if ( isType ( MODIFIERS , node ) ) { modifiers = modifiers ( node , annotations , modifiers ) ; checkNoInvalidModifier ( classDef , "<STR_LIT>" , modifiers , Opcodes . ACC_SYNCHRONIZED , "<STR_LIT>" ) ; node = node . getNextSibling ( ) ; } String name = identifier ( node ) ; GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumn ( ) ) ; int nameEnd = nameStart + name . length ( ) - <NUM_LIT:1> ; node = node . getNextSibling ( ) ; GenericsType [ ] genericsType = null ; if ( isType ( TYPE_PARAMETERS , node ) ) { genericsType = makeGenericsType ( node ) ; node = node . getNextSibling ( ) ; } ClassNode superClass = null ; if ( isType ( EXTENDS_CLAUSE , node ) ) { superClass = makeTypeWithArguments ( node ) ; node = node . getNextSibling ( ) ; } ClassNode [ ] interfaces = ClassNode . EMPTY_ARRAY ; if ( isType ( IMPLEMENTS_CLAUSE , node ) ) { interfaces = interfaces ( node ) ; node = node . getNextSibling ( ) ; } MixinNode [ ] mixins = { } ; ClassNode outerClass = classNode ; if ( classNode != null ) { name = classNode . getNameWithoutPackage ( ) + "<STR_LIT:$>" + name ; String fullName = dot ( classNode . getPackageName ( ) , name ) ; classNode = new InnerClassNode ( classNode , fullName , modifiers , superClass , interfaces , mixins ) ; } else { classNode = new ClassNode ( dot ( getPackageName ( ) , name ) , modifiers , superClass , interfaces , mixins ) ; } classNode . addAnnotations ( annotations ) ; classNode . setGenericsTypes ( genericsType ) ; configureAST ( classNode , classDef ) ; classNode . setNameStart ( nameStart ) ; classNode . setNameEnd ( nameEnd ) ; output . addClass ( classNode ) ; int oldClassCount = innerClassCounter ; assertNodeType ( OBJBLOCK , node ) ; objectBlock ( node ) ; classNode = outerClass ; innerClassCounter = oldClassCount ; } protected void objectBlock ( AST objectBlock ) { for ( AST node = objectBlock . getFirstChild ( ) ; node != null ; node = node . getNextSibling ( ) ) { int type = node . getType ( ) ; switch ( type ) { case OBJBLOCK : objectBlock ( node ) ; break ; case ANNOTATION_FIELD_DEF : case METHOD_DEF : methodDef ( node ) ; break ; case CTOR_IDENT : constructorDef ( node ) ; break ; case VARIABLE_DEF : fieldDef ( node ) ; break ; case STATIC_INIT : staticInit ( node ) ; break ; case INSTANCE_INIT : objectInit ( node ) ; break ; case ENUM_DEF : enumDef ( node ) ; break ; case ENUM_CONSTANT_DEF : enumConstantDef ( node ) ; break ; case CLASS_DEF : innerClassDef ( node ) ; break ; case INTERFACE_DEF : innerInterfaceDef ( node ) ; break ; default : unknownAST ( node ) ; } } } protected void enumDef ( AST enumNode ) { assertNodeType ( ENUM_DEF , enumNode ) ; List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = enumNode . getFirstChild ( ) ; int modifiers = Opcodes . ACC_PUBLIC ; if ( isType ( MODIFIERS , node ) ) { modifiers = modifiers ( node , annotations , modifiers ) ; node = node . getNextSibling ( ) ; } GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumn ( ) ) ; int nameEnd = locations . findOffset ( groovySourceAST . getLineLast ( ) , groovySourceAST . getColumnLast ( ) ) - <NUM_LIT:1> ; String name = identifier ( node ) ; node = node . getNextSibling ( ) ; ClassNode [ ] interfaces = interfaces ( node ) ; node = node . getNextSibling ( ) ; String enumName = ( classNode != null ? name : dot ( getPackageName ( ) , name ) ) ; ClassNode enumClass = EnumHelper . makeEnumNode ( enumName , modifiers , interfaces , classNode ) ; ClassNode oldNode = classNode ; classNode = enumClass ; assertNodeType ( OBJBLOCK , node ) ; objectBlock ( node ) ; classNode . setNameStart ( nameStart ) ; classNode . setNameEnd ( nameEnd ) ; configureAST ( classNode , enumNode ) ; classNode = oldNode ; output . addClass ( enumClass ) ; } protected void enumConstantDef ( AST node ) { enumConstantBeingDef = true ; assertNodeType ( ENUM_CONSTANT_DEF , node ) ; AST element = node . getFirstChild ( ) ; if ( isType ( ANNOTATIONS , element ) ) { element = element . getNextSibling ( ) ; } String identifier = identifier ( element ) ; Expression init = null ; element = element . getNextSibling ( ) ; if ( element != null ) { init = expression ( element ) ; ClassNode innerClass = getAnonymousInnerClassNode ( init ) ; if ( innerClass != null ) { innerClass . setSuperClass ( classNode ) ; innerClass . setModifiers ( classNode . getModifiers ( ) \| Opcodes . ACC_FINAL ) ; init = new ClassExpression ( innerClass ) ; classNode . setModifiers ( classNode . getModifiers ( ) & ~ Opcodes . ACC_FINAL ) ; } else if ( isType ( ELIST , element ) ) { if ( init instanceof ListExpression && ! ( ( ListExpression ) init ) . isWrapped ( ) ) { ListExpression le = new ListExpression ( ) ; le . addExpression ( init ) ; init = le ; } } } GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumn ( ) ) ; int nameEnd = nameStart + identifier . length ( ) - <NUM_LIT:1> ; FieldNode fn = EnumHelper . addEnumConstant ( classNode , identifier , init ) ; fn . setNameStart ( nameStart ) ; fn . setNameEnd ( nameEnd ) ; enumConstantBeingDef = false ; } protected void throwsList ( AST node , List list ) { String name ; if ( isType ( DOT , node ) ) { name = qualifiedName ( node ) ; } else { name = identifier ( node ) ; } ClassNode exception = ClassHelper . make ( name ) ; configureAST ( exception , node ) ; list . add ( exception ) ; AST next = node . getNextSibling ( ) ; if ( next != null ) throwsList ( next , list ) ; } protected void methodDef ( AST methodDef ) { List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = methodDef . getFirstChild ( ) ; GenericsType [ ] generics = null ; if ( isType ( TYPE_PARAMETERS , node ) ) { generics = makeGenericsType ( node ) ; node = node . getNextSibling ( ) ; } int modifiers = Opcodes . ACC_PUBLIC ; if ( isType ( MODIFIERS , node ) ) { modifiers = modifiers ( node , annotations , modifiers ) ; checkNoInvalidModifier ( methodDef , "<STR_LIT>" , modifiers , Opcodes . ACC_VOLATILE , "<STR_LIT>" ) ; node = node . getNextSibling ( ) ; } if ( isAnInterface ( ) ) { modifiers \|= Opcodes . ACC_ABSTRACT ; } ClassNode returnType = null ; if ( isType ( TYPE , node ) ) { returnType = makeTypeWithArguments ( node ) ; node = node . getNextSibling ( ) ; } String name = identifier ( node ) ; if ( classNode != null && ! classNode . isAnnotationDefinition ( ) ) { if ( classNode . getNameWithoutPackage ( ) . equals ( name ) ) { if ( isAnInterface ( ) ) { throw new ASTRuntimeException ( methodDef , "<STR_LIT>" ) ; } throw new ASTRuntimeException ( methodDef , "<STR_LIT>" + returnType . getName ( ) + "<STR_LIT>" ) ; } } GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumn ( ) ) ; int nameEnd = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumnLast ( ) ) - <NUM_LIT:1> ; node = node . getNextSibling ( ) ; Parameter [ ] parameters = Parameter . EMPTY_ARRAY ; ClassNode [ ] exceptions = ClassNode . EMPTY_ARRAY ; if ( classNode == null \|\| ! classNode . isAnnotationDefinition ( ) ) { assertNodeType ( PARAMETERS , node ) ; parameters = parameters ( node ) ; if ( parameters == null ) parameters = Parameter . EMPTY_ARRAY ; node = node . getNextSibling ( ) ; if ( isType ( LITERAL_throws , node ) ) { AST throwsNode = node . getFirstChild ( ) ; List exceptionList = new ArrayList ( ) ; throwsList ( throwsNode , exceptionList ) ; exceptions = ( ClassNode [ ] ) exceptionList . toArray ( exceptions ) ; node = node . getNextSibling ( ) ; } } boolean hasAnnotationDefault = false ; Statement code = null ; if ( ( modifiers & Opcodes . ACC_ABSTRACT ) == <NUM_LIT:0> ) { if ( node == null ) { throw new ASTRuntimeException ( methodDef , "<STR_LIT>" ) ; } assertNodeType ( SLIST , node ) ; code = statementList ( node ) ; } else if ( node != null && classNode . isAnnotationDefinition ( ) ) { code = statement ( node ) ; hasAnnotationDefault = true ; } else if ( ( modifiers & Opcodes . ACC_ABSTRACT ) > <NUM_LIT:0> ) { if ( node != null ) { throw new ASTRuntimeException ( methodDef , "<STR_LIT>" ) ; } } MethodNode methodNode = new MethodNode ( name , modifiers , returnType , parameters , exceptions , code ) ; methodNode . addAnnotations ( annotations ) ; methodNode . setGenericsTypes ( generics ) ; methodNode . setAnnotationDefault ( hasAnnotationDefault ) ; configureAST ( methodNode , methodDef ) ; methodNode . setNameStart ( nameStart ) ; methodNode . setNameEnd ( nameEnd ) ; if ( classNode != null ) { classNode . addMethod ( methodNode ) ; } else { output . addMethod ( methodNode ) ; } } private void checkNoInvalidModifier ( AST node , String nodeType , int modifiers , int modifier , String modifierText ) { if ( ( modifiers & modifier ) != <NUM_LIT:0> ) { throw new ASTRuntimeException ( node , nodeType + "<STR_LIT>" + modifierText + "<STR_LIT>" ) ; } } private boolean isAnInterface ( ) { return classNode != null && ( classNode . getModifiers ( ) & Opcodes . ACC_INTERFACE ) > <NUM_LIT:0> ; } protected void staticInit ( AST staticInit ) { BlockStatement code = ( BlockStatement ) statementList ( staticInit ) ; classNode . addStaticInitializerStatements ( code . getStatements ( ) , false ) ; } protected void objectInit ( AST init ) { BlockStatement code = ( BlockStatement ) statementList ( init ) ; classNode . addObjectInitializerStatements ( code ) ; } protected void constructorDef ( AST constructorDef ) { List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = constructorDef . getFirstChild ( ) ; int modifiers = Opcodes . ACC_PUBLIC ; GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLineLast ( ) , groovySourceAST . getColumnLast ( ) ) ; if ( isType ( MODIFIERS , node ) ) { modifiers = modifiers ( node , annotations , modifiers ) ; node = node . getNextSibling ( ) ; } assertNodeType ( PARAMETERS , node ) ; Parameter [ ] parameters = parameters ( node ) ; if ( parameters == null ) parameters = Parameter . EMPTY_ARRAY ; int nameEnd = locations . findOffset ( node . getLine ( ) , node . getColumn ( ) ) - <NUM_LIT:2> ; node = node . getNextSibling ( ) ; ClassNode [ ] exceptions = ClassNode . EMPTY_ARRAY ; if ( isType ( LITERAL_throws , node ) ) { AST throwsNode = node . getFirstChild ( ) ; List exceptionList = new ArrayList ( ) ; throwsList ( throwsNode , exceptionList ) ; exceptions = ( ClassNode [ ] ) exceptionList . toArray ( exceptions ) ; node = node . getNextSibling ( ) ; } assertNodeType ( SLIST , node ) ; Statement code = statementList ( node ) ; ConstructorNode constructorNode = classNode . addConstructor ( modifiers , parameters , exceptions , code ) ; constructorNode . addAnnotations ( annotations ) ; configureAST ( constructorNode , constructorDef ) ; constructorNode . setNameStart ( nameStart ) ; constructorNode . setNameEnd ( nameEnd ) ; } protected void fieldDef ( AST fieldDef ) { List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; AST node = fieldDef . getFirstChild ( ) ; int modifiers = <NUM_LIT:0> ; if ( isType ( MODIFIERS , node ) ) { modifiers = modifiers ( node , annotations , modifiers ) ; node = node . getNextSibling ( ) ; } if ( classNode . isInterface ( ) ) { modifiers \|= Opcodes . ACC_STATIC \| Opcodes . ACC_FINAL ; if ( ( modifiers & ( Opcodes . ACC_PRIVATE \| Opcodes . ACC_PROTECTED ) ) == <NUM_LIT:0> ) { modifiers \|= Opcodes . ACC_PUBLIC ; } } ClassNode type = null ; if ( isType ( TYPE , node ) ) { type = makeTypeWithArguments ( node ) ; node = node . getNextSibling ( ) ; } String name = identifier ( node ) ; GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumn ( ) ) ; int nameEnd = nameStart + name . length ( ) - <NUM_LIT:1> ; node = node . getNextSibling ( ) ; Expression initialValue = null ; if ( node != null ) { assertNodeType ( ASSIGN , node ) ; initialValue = expression ( node . getFirstChild ( ) ) ; } if ( classNode . isInterface ( ) && initialValue == null && type != null ) { if ( type == ClassHelper . int_TYPE ) { initialValue = new ConstantExpression ( <NUM_LIT:0> ) ; } else if ( type == ClassHelper . long_TYPE ) { initialValue = new ConstantExpression ( <NUM_LIT> ) ; } else if ( type == ClassHelper . double_TYPE ) { initialValue = new ConstantExpression ( <NUM_LIT:0.0> ) ; } else if ( type == ClassHelper . float_TYPE ) { initialValue = new ConstantExpression ( <NUM_LIT> ) ; } else if ( type == ClassHelper . boolean_TYPE ) { initialValue = ConstantExpression . FALSE ; } else if ( type == ClassHelper . short_TYPE ) { initialValue = new ConstantExpression ( ( short ) <NUM_LIT:0> ) ; } else if ( type == ClassHelper . byte_TYPE ) { initialValue = new ConstantExpression ( ( byte ) <NUM_LIT:0> ) ; } else if ( type == ClassHelper . char_TYPE ) { initialValue = new ConstantExpression ( ( char ) <NUM_LIT:0> ) ; } } FieldNode fieldNode = new FieldNode ( name , modifiers , type , classNode , initialValue ) ; fieldNode . addAnnotations ( annotations ) ; configureAST ( fieldNode , fieldDef ) ; fieldNode . setNameStart ( nameStart ) ; fieldNode . setNameEnd ( nameEnd ) ; if ( ! hasVisibility ( modifiers ) ) { int fieldModifiers = <NUM_LIT:0> ; int flags = Opcodes . ACC_STATIC \| Opcodes . ACC_TRANSIENT \| Opcodes . ACC_VOLATILE \| Opcodes . ACC_FINAL ; if ( ! hasVisibility ( modifiers ) ) { modifiers \|= Opcodes . ACC_PUBLIC ; fieldModifiers \|= Opcodes . ACC_PRIVATE ; } fieldModifiers \|= ( modifiers & flags ) ; fieldNode . setModifiers ( fieldModifiers ) ; fieldNode . setSynthetic ( true ) ; FieldNode storedNode = classNode . getDeclaredField ( fieldNode . getName ( ) ) ; if ( storedNode != null && ! classNode . hasProperty ( name ) ) { fieldNode = storedNode ; classNode . getFields ( ) . remove ( storedNode ) ; } PropertyNode propertyNode = new PropertyNode ( fieldNode , modifiers , null , null ) ; configureAST ( propertyNode , fieldDef ) ; classNode . addProperty ( propertyNode ) ; } else { fieldNode . setModifiers ( modifiers ) ; PropertyNode pn = classNode . getProperty ( name ) ; if ( pn != null && pn . getField ( ) . isSynthetic ( ) ) { classNode . getFields ( ) . remove ( pn . getField ( ) ) ; pn . setField ( fieldNode ) ; } classNode . addField ( fieldNode ) ; } } protected ClassNode [ ] interfaces ( AST node ) { List < ClassNode > interfaceList = new ArrayList < ClassNode > ( ) ; for ( AST implementNode = node . getFirstChild ( ) ; implementNode != null ; implementNode = implementNode . getNextSibling ( ) ) { ClassNode cn = makeTypeWithArguments ( implementNode ) ; configureAST ( cn , implementNode ) ; interfaceList . add ( cn ) ; } ClassNode [ ] interfaces = ClassNode . EMPTY_ARRAY ; if ( ! interfaceList . isEmpty ( ) ) { interfaces = new ClassNode [ interfaceList . size ( ) ] ; interfaceList . toArray ( interfaces ) ; } return interfaces ; } protected Parameter [ ] parameters ( AST parametersNode ) { AST node = parametersNode . getFirstChild ( ) ; if ( node == null ) { if ( isType ( IMPLICIT_PARAMETERS , parametersNode ) ) return Parameter . EMPTY_ARRAY ; return null ; } else { List < Parameter > parameters = new ArrayList < Parameter > ( ) ; do { parameters . add ( parameter ( node ) ) ; node = node . getNextSibling ( ) ; } while ( node != null ) ; Parameter [ ] answer = new Parameter [ parameters . size ( ) ] ; parameters . toArray ( answer ) ; return answer ; } } protected Parameter parameter ( AST paramNode ) { List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; boolean variableParameterDef = isType ( VARIABLE_PARAMETER_DEF , paramNode ) ; AST node = paramNode . getFirstChild ( ) ; int modifiers = <NUM_LIT:0> ; if ( isType ( MODIFIERS , node ) ) { modifiers = modifiers ( node , annotations , modifiers ) ; node = node . getNextSibling ( ) ; } ClassNode type = ClassHelper . DYNAMIC_TYPE ; if ( isType ( TYPE , node ) ) { type = makeTypeWithArguments ( node ) ; if ( variableParameterDef ) type = type . makeArray ( ) ; node = node . getNextSibling ( ) ; } String name = identifier ( node ) ; GroovySourceAST groovySourceAST = ( GroovySourceAST ) node ; int nameStart = locations . findOffset ( groovySourceAST . getLine ( ) , groovySourceAST . getColumn ( ) ) ; int nameEnd = nameStart + name . length ( ) ; node = node . getNextSibling ( ) ; VariableExpression leftExpression = new VariableExpression ( name , type ) ; configureAST ( leftExpression , paramNode ) ; Parameter parameter = null ; if ( node != null ) { assertNodeType ( ASSIGN , node ) ; Expression rightExpression = expression ( node . getFirstChild ( ) ) ; if ( isAnInterface ( ) ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + name + "<STR_LIT:U+0020=U+0020>" + rightExpression . getText ( ) + "<STR_LIT>" ) ; } parameter = new Parameter ( type , name , rightExpression ) ; } else parameter = new Parameter ( type , name ) ; configureAST ( parameter , paramNode ) ; parameter . setNameStart ( nameStart ) ; parameter . setNameEnd ( nameEnd ) ; parameter . addAnnotations ( annotations ) ; return parameter ; } protected int modifiers ( AST modifierNode , List < AnnotationNode > annotations , int defaultModifiers ) { assertNodeType ( MODIFIERS , modifierNode ) ; boolean access = false ; int answer = <NUM_LIT:0> ; for ( AST node = modifierNode . getFirstChild ( ) ; node != null ; node = node . getNextSibling ( ) ) { int type = node . getType ( ) ; switch ( type ) { case STATIC_IMPORT : break ; case ANNOTATION : annotations . add ( annotation ( node ) ) ; break ; case LITERAL_private : answer = setModifierBit ( node , answer , Opcodes . ACC_PRIVATE ) ; access = setAccessTrue ( node , access ) ; break ; case LITERAL_protected : answer = setModifierBit ( node , answer , Opcodes . ACC_PROTECTED ) ; access = setAccessTrue ( node , access ) ; break ; case LITERAL_public : answer = setModifierBit ( node , answer , Opcodes . ACC_PUBLIC ) ; access = setAccessTrue ( node , access ) ; break ; case ABSTRACT : answer = setModifierBit ( node , answer , Opcodes . ACC_ABSTRACT ) ; break ; case FINAL : answer = setModifierBit ( node , answer , Opcodes . ACC_FINAL ) ; break ; case LITERAL_native : answer = setModifierBit ( node , answer , Opcodes . ACC_NATIVE ) ; break ; case LITERAL_static : answer = setModifierBit ( node , answer , Opcodes . ACC_STATIC ) ; break ; case STRICTFP : answer = setModifierBit ( node , answer , Opcodes . ACC_STRICT ) ; break ; case LITERAL_synchronized : answer = setModifierBit ( node , answer , Opcodes . ACC_SYNCHRONIZED ) ; break ; case LITERAL_transient : answer = setModifierBit ( node , answer , Opcodes . ACC_TRANSIENT ) ; break ; case LITERAL_volatile : answer = setModifierBit ( node , answer , Opcodes . ACC_VOLATILE ) ; break ; default : unknownAST ( node ) ; } } if ( ! access ) { answer \|= defaultModifiers ; } return answer ; } protected boolean setAccessTrue ( AST node , boolean access ) { if ( ! access ) { return true ; } else { throw new ASTRuntimeException ( node , "<STR_LIT>" + node . getText ( ) + "<STR_LIT>" ) ; } } protected int setModifierBit ( AST node , int answer , int bit ) { if ( ( answer & bit ) != <NUM_LIT:0> ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + node . getText ( ) ) ; } return answer \| bit ; } protected AnnotationNode annotation ( AST annotationNode ) { AST node = annotationNode . getFirstChild ( ) ; String name = qualifiedName ( node ) ; AnnotationNode annotatedNode = new AnnotationNode ( ClassHelper . make ( name ) ) ; configureAnnotationAST ( annotatedNode , annotationNode ) ; while ( true ) { node = node . getNextSibling ( ) ; if ( isType ( ANNOTATION_MEMBER_VALUE_PAIR , node ) ) { AST memberNode = node . getFirstChild ( ) ; String param = identifier ( memberNode ) ; Expression expression = expression ( memberNode . getNextSibling ( ) ) ; if ( annotatedNode . getMember ( param ) != null ) { throw new ASTRuntimeException ( memberNode , "<STR_LIT>" + param + "<STR_LIT>" ) ; } annotatedNode . setMember ( param , expression ) ; } else { break ; } } return annotatedNode ; } protected Statement statement ( AST node ) { if ( node == null ) { return new EmptyStatement ( ) ; } Statement statement = null ; int type = node . getType ( ) ; switch ( type ) { case SLIST : case LITERAL_finally : statement = statementList ( node ) ; break ; case METHOD_CALL : statement = methodCall ( node ) ; break ; case VARIABLE_DEF : statement = variableDef ( node ) ; break ; case LABELED_STAT : statement = labelledStatement ( node ) ; break ; case LITERAL_assert : statement = assertStatement ( node ) ; break ; case LITERAL_break : statement = breakStatement ( node ) ; break ; case LITERAL_continue : statement = continueStatement ( node ) ; break ; case LITERAL_if : statement = ifStatement ( node ) ; break ; case LITERAL_for : statement = forStatement ( node ) ; break ; case LITERAL_return : statement = returnStatement ( node ) ; break ; case LITERAL_synchronized : statement = synchronizedStatement ( node ) ; break ; case LITERAL_switch : statement = switchStatement ( node ) ; break ; case LITERAL_try : statement = tryStatement ( node ) ; break ; case LITERAL_throw : statement = throwStatement ( node ) ; break ; case LITERAL_while : statement = whileStatement ( node ) ; break ; default : statement = new ExpressionStatement ( expression ( node ) ) ; } if ( statement != null && type != LABELED_STAT ) { configureAST ( statement , node ) ; } return statement ; } protected Statement statementList ( AST code ) { return statementListNoChild ( code . getFirstChild ( ) , code ) ; } protected Statement statementListNoChild ( AST node , AST alternativeConfigureNode ) { BlockStatement block = new BlockStatement ( ) ; if ( alternativeConfigureNode != null ) { configureAST ( block , alternativeConfigureNode ) ; } else if ( node != null ) { configureAST ( block , node ) ; } for ( ; node != null ; node = node . getNextSibling ( ) ) { block . addStatement ( statement ( node ) ) ; } return block ; } protected Statement assertStatement ( AST assertNode ) { AST node = assertNode . getFirstChild ( ) ; BooleanExpression booleanExpression = booleanExpression ( node ) ; Expression messageExpression = null ; node = node . getNextSibling ( ) ; if ( node != null ) { messageExpression = expression ( node ) ; } else { messageExpression = ConstantExpression . NULL ; } AssertStatement assertStatement = new AssertStatement ( booleanExpression , messageExpression ) ; configureAST ( assertStatement , assertNode ) ; return assertStatement ; } protected Statement breakStatement ( AST node ) { BreakStatement breakStatement = new BreakStatement ( label ( node ) ) ; configureAST ( breakStatement , node ) ; return breakStatement ; } protected Statement continueStatement ( AST node ) { ContinueStatement continueStatement = new ContinueStatement ( label ( node ) ) ; configureAST ( continueStatement , node ) ; return continueStatement ; } protected Statement forStatement ( AST forNode ) { AST inNode = forNode . getFirstChild ( ) ; Expression collectionExpression ; Parameter forParameter ; if ( isType ( CLOSURE_LIST , inNode ) ) { forStatementBeingDef = true ; ClosureListExpression clist = closureListExpression ( inNode ) ; forStatementBeingDef = false ; int size = clist . getExpressions ( ) . size ( ) ; if ( size != <NUM_LIT:3> ) { throw new ASTRuntimeException ( inNode , "<STR_LIT>" + size ) ; } collectionExpression = clist ; forParameter = ForStatement . FOR_LOOP_DUMMY ; } else { AST variableNode = inNode . getFirstChild ( ) ; AST collectionNode = variableNode . getNextSibling ( ) ; ClassNode type = ClassHelper . OBJECT_TYPE ; if ( isType ( VARIABLE_DEF , variableNode ) ) { AST node = variableNode . getFirstChild ( ) ; if ( isType ( MODIFIERS , node ) ) { int modifiersMask = modifiers ( node , new ArrayList < AnnotationNode > ( ) , <NUM_LIT:0> ) ; if ( ( modifiersMask & ~ Opcodes . ACC_FINAL ) != <NUM_LIT:0> ) { throw new ASTRuntimeException ( node , "<STR_LIT>" ) ; } node = node . getNextSibling ( ) ; } type = makeTypeWithArguments ( node ) ; variableNode = node . getNextSibling ( ) ; } String variable = identifier ( variableNode ) ; collectionExpression = expression ( collectionNode ) ; forParameter = new Parameter ( type , variable ) ; configureAST ( forParameter , variableNode ) ; forParameter . setNameStart ( forParameter . getStart ( ) ) ; forParameter . setNameEnd ( forParameter . getEnd ( ) ) ; } final AST node = inNode . getNextSibling ( ) ; Statement block ; if ( isType ( SEMI , node ) ) { block = EmptyStatement . INSTANCE ; } else { block = statement ( node ) ; } ForStatement forStatement = new ForStatement ( forParameter , collectionExpression , block ) ; configureAST ( forStatement , forNode ) ; return forStatement ; } protected Statement ifStatement ( AST ifNode ) { AST node = ifNode . getFirstChild ( ) ; assertNodeType ( EXPR , node ) ; BooleanExpression booleanExpression = booleanExpression ( node ) ; node = node . getNextSibling ( ) ; Statement ifBlock = statement ( node ) ; Statement elseBlock = EmptyStatement . INSTANCE ; node = node . getNextSibling ( ) ; if ( node != null ) { elseBlock = statement ( node ) ; } IfStatement ifStatement = new IfStatement ( booleanExpression , ifBlock , elseBlock ) ; configureAST ( ifStatement , ifNode ) ; return ifStatement ; } protected Statement labelledStatement ( AST labelNode ) { AST node = labelNode . getFirstChild ( ) ; String label = identifier ( node ) ; Statement statement = statement ( node . getNextSibling ( ) ) ; if ( statement . getStatementLabel ( ) == null ) statement . setStatementLabel ( label ) ; return statement ; } protected Statement methodCall ( AST code ) { Expression expression = methodCallExpression ( code ) ; ExpressionStatement expressionStatement = new ExpressionStatement ( expression ) ; configureAST ( expressionStatement , code ) ; return expressionStatement ; } protected Expression declarationExpression ( AST variableDef ) { AST node = variableDef . getFirstChild ( ) ; ClassNode type = null ; List < AnnotationNode > annotations = new ArrayList < AnnotationNode > ( ) ; boolean staticVariable = false ; AST modifierNode = null ; if ( isType ( MODIFIERS , node ) ) { int modifiers = modifiers ( node , annotations , <NUM_LIT:0> ) ; if ( ( modifiers & Opcodes . ACC_STATIC ) != <NUM_LIT:0> ) { modifierNode = node ; staticVariable = true ; } node = node . getNextSibling ( ) ; } if ( isType ( TYPE , node ) ) { type = makeTypeWithArguments ( node ) ; node = node . getNextSibling ( ) ; } Expression leftExpression ; Expression rightExpression = ConstantExpression . NULL ; AST right ; if ( isType ( ASSIGN , node ) ) { node = node . getFirstChild ( ) ; AST left = node . getFirstChild ( ) ; ArgumentListExpression alist = new ArgumentListExpression ( ) ; for ( AST varDef = left ; varDef != null ; varDef = varDef . getNextSibling ( ) ) { assertNodeType ( VARIABLE_DEF , varDef ) ; DeclarationExpression de = ( DeclarationExpression ) declarationExpression ( varDef ) ; alist . addExpression ( de . getVariableExpression ( ) ) ; } leftExpression = alist ; right = node . getNextSibling ( ) ; if ( right != null ) rightExpression = expression ( right ) ; } else { if ( staticVariable ) { throw new ASTRuntimeException ( modifierNode , "<STR_LIT>" ) ; } String name = identifier ( node ) ; VariableExpression ve = new VariableExpression ( name , type ) ; ve . addAnnotations ( annotations ) ; leftExpression = ve ; right = node . getNextSibling ( ) ; if ( right != null ) { assertNodeType ( ASSIGN , right ) ; rightExpression = expression ( right . getFirstChild ( ) ) ; } } configureAST ( leftExpression , node ) ; Token token = makeToken ( Types . ASSIGN , variableDef ) ; DeclarationExpression expression = new DeclarationExpression ( leftExpression , token , rightExpression ) ; configureAST ( expression , variableDef ) ; ExpressionStatement expressionStatement = new ExpressionStatement ( expression ) ; configureAST ( expressionStatement , variableDef ) ; return expression ; } protected Statement variableDef ( AST variableDef ) { ExpressionStatement expressionStatement = new ExpressionStatement ( declarationExpression ( variableDef ) ) ; configureAST ( expressionStatement , variableDef ) ; return expressionStatement ; } protected Statement returnStatement ( AST node ) { AST exprNode = node . getFirstChild ( ) ; Expression expression = exprNode == null ? ConstantExpression . NULL : expression ( exprNode ) ; ReturnStatement returnStatement = new ReturnStatement ( expression ) ; configureAST ( returnStatement , node ) ; return returnStatement ; } protected Statement switchStatement ( AST switchNode ) { AST node = switchNode . getFirstChild ( ) ; Expression expression = expression ( node ) ; Statement defaultStatement = EmptyStatement . INSTANCE ; List list = new ArrayList ( ) ; for ( node = node . getNextSibling ( ) ; isType ( CASE_GROUP , node ) ; node = node . getNextSibling ( ) ) { Statement tmpDefaultStatement ; AST child = node . getFirstChild ( ) ; if ( isType ( LITERAL_case , child ) ) { List cases = new LinkedList ( ) ; tmpDefaultStatement = caseStatements ( child , cases ) ; list . addAll ( cases ) ; } else { tmpDefaultStatement = statement ( child . getNextSibling ( ) ) ; } if ( tmpDefaultStatement != EmptyStatement . INSTANCE ) { if ( defaultStatement == EmptyStatement . INSTANCE ) { defaultStatement = tmpDefaultStatement ; } else { throw new ASTRuntimeException ( switchNode , "<STR_LIT>" ) ; } } } if ( node != null ) { unknownAST ( node ) ; } SwitchStatement switchStatement = new SwitchStatement ( expression , list , defaultStatement ) ; configureAST ( switchStatement , switchNode ) ; return switchStatement ; } protected Statement caseStatements ( AST node , List cases ) { List < Expression > expressions = new LinkedList < Expression > ( ) ; Statement statement = EmptyStatement . INSTANCE ; Statement defaultStatement = EmptyStatement . INSTANCE ; AST nextSibling = node ; do { Expression expression = expression ( nextSibling . getFirstChild ( ) ) ; expressions . add ( expression ) ; nextSibling = nextSibling . getNextSibling ( ) ; } while ( isType ( LITERAL_case , nextSibling ) ) ; if ( nextSibling != null ) { if ( isType ( LITERAL_default , nextSibling ) ) { defaultStatement = statement ( nextSibling . getNextSibling ( ) ) ; statement = EmptyStatement . INSTANCE ; } else { statement = statement ( nextSibling ) ; } } for ( Iterator iterator = expressions . iterator ( ) ; iterator . hasNext ( ) ; ) { Expression expr = ( Expression ) iterator . next ( ) ; Statement stmt ; if ( iterator . hasNext ( ) ) { stmt = new CaseStatement ( expr , EmptyStatement . INSTANCE ) ; } else { stmt = new CaseStatement ( expr , statement ) ; } configureAST ( stmt , node ) ; cases . add ( stmt ) ; } return defaultStatement ; } protected Statement synchronizedStatement ( AST syncNode ) { AST node = syncNode . getFirstChild ( ) ; Expression expression = expression ( node ) ; Statement code = statement ( node . getNextSibling ( ) ) ; SynchronizedStatement synchronizedStatement = new SynchronizedStatement ( expression , code ) ; configureAST ( synchronizedStatement , syncNode ) ; return synchronizedStatement ; } protected Statement throwStatement ( AST node ) { AST expressionNode = node . getFirstChild ( ) ; if ( expressionNode == null ) { expressionNode = node . getNextSibling ( ) ; } if ( expressionNode == null ) { throw new ASTRuntimeException ( node , "<STR_LIT>" ) ; } ThrowStatement throwStatement = new ThrowStatement ( expression ( expressionNode ) ) ; configureAST ( throwStatement , node ) ; return throwStatement ; } protected Statement tryStatement ( AST tryStatementNode ) { AST tryNode = tryStatementNode . getFirstChild ( ) ; Statement tryStatement = statement ( tryNode ) ; Statement finallyStatement = EmptyStatement . INSTANCE ; AST node = tryNode . getNextSibling ( ) ; List < CatchStatement > catches = new ArrayList < CatchStatement > ( ) ; for ( ; node != null && isType ( LITERAL_catch , node ) ; node = node . getNextSibling ( ) ) { catches . add ( catchStatement ( node ) ) ; } if ( isType ( LITERAL_finally , node ) ) { finallyStatement = statement ( node ) ; node = node . getNextSibling ( ) ; } if ( finallyStatement instanceof EmptyStatement && catches . size ( ) == <NUM_LIT:0> ) { throw new ASTRuntimeException ( tryStatementNode , "<STR_LIT>" ) ; } TryCatchStatement tryCatchStatement = new TryCatchStatement ( tryStatement , finallyStatement ) ; configureAST ( tryCatchStatement , tryStatementNode ) ; for ( CatchStatement statement : catches ) { tryCatchStatement . addCatch ( statement ) ; } return tryCatchStatement ; } protected CatchStatement catchStatement ( AST catchNode ) { AST node = catchNode . getFirstChild ( ) ; Parameter parameter = parameter ( node ) ; ClassNode exceptionType = parameter . getType ( ) ; String variable = parameter . getName ( ) ; node = node . getNextSibling ( ) ; Statement code = statement ( node ) ; Parameter catchParameter = new Parameter ( exceptionType , variable ) ; CatchStatement answer = new CatchStatement ( catchParameter , code ) ; configureAST ( answer , catchNode ) ; catchParameter . setSourcePosition ( parameter ) ; return answer ; } protected Statement whileStatement ( AST whileNode ) { AST node = whileNode . getFirstChild ( ) ; assertNodeType ( EXPR , node ) ; if ( isType ( VARIABLE_DEF , node . getFirstChild ( ) ) ) { throw new ASTRuntimeException ( whileNode , "<STR_LIT>" ) ; } BooleanExpression booleanExpression = booleanExpression ( node ) ; node = node . getNextSibling ( ) ; Statement block ; if ( isType ( SEMI , node ) ) { block = EmptyStatement . INSTANCE ; } else { block = statement ( node ) ; } WhileStatement whileStatement = new WhileStatement ( booleanExpression , block ) ; configureAST ( whileStatement , whileNode ) ; return whileStatement ; } protected Expression expression ( AST node ) { return expression ( node , false ) ; } protected Expression expression ( AST node , boolean convertToConstant ) { if ( node == null ) { return new ConstantExpression ( "<STR_LIT>" ) ; } Expression expression = expressionSwitch ( node ) ; if ( convertToConstant && expression instanceof VariableExpression ) { VariableExpression ve = ( VariableExpression ) expression ; if ( ! ve . isThisExpression ( ) && ! ve . isSuperExpression ( ) ) { expression = new ConstantExpression ( ve . getName ( ) ) ; } } configureAST ( expression , node ) ; return expression ; } protected Expression expressionSwitch ( AST node ) { int type = node . getType ( ) ; switch ( type ) { case EXPR : Expression expression = expression ( node . getFirstChild ( ) ) ; if ( expression instanceof BinaryExpression ) { configureAST ( expression , node ) ; } return expression ; case ELIST : return expressionList ( node ) ; case SLIST : return blockExpression ( node ) ; case CLOSABLE_BLOCK : return closureExpression ( node ) ; case SUPER_CTOR_CALL : return specialConstructorCallExpression ( node , ClassNode . SUPER ) ; case METHOD_CALL : return methodCallExpression ( node ) ; case LITERAL_new : return constructorCallExpression ( node ) ; case CTOR_CALL : return specialConstructorCallExpression ( node , ClassNode . THIS ) ; case QUESTION : case ELVIS_OPERATOR : return ternaryExpression ( node ) ; case OPTIONAL_DOT : case SPREAD_DOT : case DOT : return dotExpression ( node ) ; case IDENT : case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_double : case LITERAL_float : case LITERAL_int : case LITERAL_long : case LITERAL_short : case LITERAL_void : case LITERAL_this : case LITERAL_super : return variableExpression ( node ) ; case LIST_CONSTRUCTOR : return listExpression ( node ) ; case MAP_CONSTRUCTOR : return mapExpression ( node ) ; case LABELED_ARG : return mapEntryExpression ( node ) ; case SPREAD_ARG : return spreadExpression ( node ) ; case SPREAD_MAP_ARG : return spreadMapExpression ( node ) ; case MEMBER_POINTER : return methodPointerExpression ( node ) ; case INDEX_OP : return indexExpression ( node ) ; case LITERAL_instanceof : return instanceofExpression ( node ) ; case LITERAL_as : return asExpression ( node ) ; case TYPECAST : return castExpression ( node ) ; case LITERAL_true : return literalExpression ( node , Boolean . TRUE ) ; case LITERAL_false : return literalExpression ( node , Boolean . FALSE ) ; case LITERAL_null : return literalExpression ( node , null ) ; case STRING_LITERAL : return literalExpression ( node , node . getText ( ) ) ; case STRING_CONSTRUCTOR : return gstring ( node ) ; case NUM_DOUBLE : case NUM_FLOAT : case NUM_BIG_DECIMAL : return decimalExpression ( node ) ; case NUM_BIG_INT : case NUM_INT : case NUM_LONG : return integerExpression ( node ) ; case LNOT : NotExpression notExpression = new NotExpression ( expression ( node . getFirstChild ( ) ) ) ; configureAST ( notExpression , node ) ; return notExpression ; case UNARY_MINUS : return unaryMinusExpression ( node ) ; case BNOT : BitwiseNegationExpression bitwiseNegationExpression = new BitwiseNegationExpression ( expression ( node . getFirstChild ( ) ) ) ; configureAST ( bitwiseNegationExpression , node ) ; return bitwiseNegationExpression ; case UNARY_PLUS : return unaryPlusExpression ( node ) ; case INC : return prefixExpression ( node , Types . PLUS_PLUS ) ; case DEC : return prefixExpression ( node , Types . MINUS_MINUS ) ; case POST_INC : return postfixExpression ( node , Types . PLUS_PLUS ) ; case POST_DEC : return postfixExpression ( node , Types . MINUS_MINUS ) ; case ASSIGN : return binaryExpression ( Types . ASSIGN , node ) ; case EQUAL : return binaryExpression ( Types . COMPARE_EQUAL , node ) ; case IDENTICAL : return binaryExpression ( Types . COMPARE_IDENTICAL , node ) ; case NOT_EQUAL : return binaryExpression ( Types . COMPARE_NOT_EQUAL , node ) ; case NOT_IDENTICAL : return binaryExpression ( Types . COMPARE_NOT_IDENTICAL , node ) ; case COMPARE_TO : return binaryExpression ( Types . COMPARE_TO , node ) ; case LE : return binaryExpression ( Types . COMPARE_LESS_THAN_EQUAL , node ) ; case LT : return binaryExpression ( Types . COMPARE_LESS_THAN , node ) ; case GT : return binaryExpression ( Types . COMPARE_GREATER_THAN , node ) ; case GE : return binaryExpression ( Types . COMPARE_GREATER_THAN_EQUAL , node ) ; case LAND : return binaryExpression ( Types . LOGICAL_AND , node ) ; case LOR : return binaryExpression ( Types . LOGICAL_OR , node ) ; case BAND : return binaryExpression ( Types . BITWISE_AND , node ) ; case BAND_ASSIGN : return binaryExpression ( Types . BITWISE_AND_EQUAL , node ) ; case BOR : return binaryExpression ( Types . BITWISE_OR , node ) ; case BOR_ASSIGN : return binaryExpression ( Types . BITWISE_OR_EQUAL , node ) ; case BXOR : return binaryExpression ( Types . BITWISE_XOR , node ) ; case BXOR_ASSIGN : return binaryExpression ( Types . BITWISE_XOR_EQUAL , node ) ; case PLUS : return binaryExpression ( Types . PLUS , node ) ; case PLUS_ASSIGN : return binaryExpression ( Types . PLUS_EQUAL , node ) ; case MINUS : return binaryExpression ( Types . MINUS , node ) ; case MINUS_ASSIGN : return binaryExpression ( Types . MINUS_EQUAL , node ) ; case STAR : return binaryExpression ( Types . MULTIPLY , node ) ; case STAR_ASSIGN : return binaryExpression ( Types . MULTIPLY_EQUAL , node ) ; case STAR_STAR : return binaryExpression ( Types . POWER , node ) ; case STAR_STAR_ASSIGN : return binaryExpression ( Types . POWER_EQUAL , node ) ; case DIV : return binaryExpression ( Types . DIVIDE , node ) ; case DIV_ASSIGN : return binaryExpression ( Types . DIVIDE_EQUAL , node ) ; case MOD : return binaryExpression ( Types . MOD , node ) ; case MOD_ASSIGN : return binaryExpression ( Types . MOD_EQUAL , node ) ; case SL : return binaryExpression ( Types . LEFT_SHIFT , node ) ; case SL_ASSIGN : return binaryExpression ( Types . LEFT_SHIFT_EQUAL , node ) ; case SR : return binaryExpression ( Types . RIGHT_SHIFT , node ) ; case SR_ASSIGN : return binaryExpression ( Types . RIGHT_SHIFT_EQUAL , node ) ; case BSR : return binaryExpression ( Types . RIGHT_SHIFT_UNSIGNED , node ) ; case BSR_ASSIGN : return binaryExpression ( Types . RIGHT_SHIFT_UNSIGNED_EQUAL , node ) ; case VARIABLE_DEF : return declarationExpression ( node ) ; case REGEX_FIND : return binaryExpression ( Types . FIND_REGEX , node ) ; case REGEX_MATCH : return binaryExpression ( Types . MATCH_REGEX , node ) ; case RANGE_INCLUSIVE : return rangeExpression ( node , true ) ; case RANGE_EXCLUSIVE : return rangeExpression ( node , false ) ; case DYNAMIC_MEMBER : return dynamicMemberExpression ( node ) ; case LITERAL_in : return binaryExpression ( Types . KEYWORD_IN , node ) ; case ANNOTATION : return new AnnotationConstantExpression ( annotation ( node ) ) ; case CLOSURE_LIST : return closureListExpression ( node ) ; case LBRACK : case LPAREN : return tupleExpression ( node ) ; case OBJBLOCK : return anonymousInnerClassDef ( node ) ; default : return unknownAST ( node ) ; } } private TupleExpression tupleExpression ( AST node ) { TupleExpression exp = new TupleExpression ( ) ; configureAST ( exp , node ) ; node = node . getFirstChild ( ) ; while ( node != null ) { assertNodeType ( VARIABLE_DEF , node ) ; AST nameNode = node . getFirstChild ( ) . getNextSibling ( ) ; VariableExpression varExp = new VariableExpression ( nameNode . getText ( ) ) ; configureAST ( varExp , nameNode ) ; exp . addExpression ( varExp ) ; node = node . getNextSibling ( ) ; } return exp ; } private ClosureListExpression closureListExpression ( AST node ) { isClosureListExpressionAllowedHere ( node ) ; AST exprNode = node . getFirstChild ( ) ; List < Expression > list = new LinkedList < Expression > ( ) ; while ( exprNode != null ) { if ( isType ( EXPR , exprNode ) ) { Expression expr = expression ( exprNode ) ; configureAST ( expr , exprNode ) ; list . add ( expr ) ; } else { assertNodeType ( EMPTY_STAT , exprNode ) ; list . add ( EmptyExpression . INSTANCE ) ; } exprNode = exprNode . getNextSibling ( ) ; } ClosureListExpression cle = new ClosureListExpression ( list ) ; configureAST ( cle , node ) ; return cle ; } private void isClosureListExpressionAllowedHere ( AST node ) { if ( ! forStatementBeingDef ) { throw new ASTRuntimeException ( node , "<STR_LIT>" ) ; } } protected Expression dynamicMemberExpression ( AST dynamicMemberNode ) { AST node = dynamicMemberNode . getFirstChild ( ) ; return expression ( node ) ; } protected Expression ternaryExpression ( AST ternaryNode ) { AST node = ternaryNode . getFirstChild ( ) ; Expression base = expression ( node ) ; node = node . getNextSibling ( ) ; Expression left = expression ( node ) ; node = node . getNextSibling ( ) ; Expression ret ; if ( node == null ) { ret = new ElvisOperatorExpression ( base , left ) ; } else { Expression right = expression ( node ) ; BooleanExpression booleanExpression = new BooleanExpression ( base ) ; booleanExpression . setSourcePosition ( base ) ; ret = new TernaryExpression ( booleanExpression , left , right ) ; } configureAST ( ret , ternaryNode ) ; return ret ; } protected Expression variableExpression ( AST node ) { String text = node . getText ( ) ; VariableExpression variableExpression = new VariableExpression ( text ) ; configureAST ( variableExpression , node ) ; return variableExpression ; } protected Expression literalExpression ( AST node , Object value ) { ConstantExpression constantExpression = new ConstantExpression ( value ) ; configureAST ( constantExpression , node ) ; return constantExpression ; } protected Expression rangeExpression ( AST rangeNode , boolean inclusive ) { AST node = rangeNode . getFirstChild ( ) ; Expression left = expression ( node ) ; Expression right = expression ( node . getNextSibling ( ) ) ; RangeExpression rangeExpression = new RangeExpression ( left , right , inclusive ) ; configureAST ( rangeExpression , rangeNode ) ; return rangeExpression ; } protected Expression spreadExpression ( AST node ) { AST exprNode = node . getFirstChild ( ) ; AST listNode = exprNode . getFirstChild ( ) ; Expression right = expression ( listNode ) ; SpreadExpression spreadExpression = new SpreadExpression ( right ) ; configureAST ( spreadExpression , node ) ; return spreadExpression ; } protected Expression spreadMapExpression ( AST node ) { AST exprNode = node . getFirstChild ( ) ; Expression expr = expression ( exprNode ) ; SpreadMapExpression spreadMapExpression = new SpreadMapExpression ( expr ) ; configureAST ( spreadMapExpression , node ) ; return spreadMapExpression ; } protected Expression methodPointerExpression ( AST node ) { AST exprNode = node . getFirstChild ( ) ; Expression objectExpression = expression ( exprNode ) ; AST mNode = exprNode . getNextSibling ( ) ; Expression methodName ; if ( isType ( DYNAMIC_MEMBER , mNode ) ) { methodName = expression ( mNode ) ; } else { methodName = new ConstantExpression ( identifier ( mNode ) ) ; } configureAST ( methodName , mNode ) ; MethodPointerExpression methodPointerExpression = new MethodPointerExpression ( objectExpression , methodName ) ; configureAST ( methodPointerExpression , node ) ; return methodPointerExpression ; } protected Expression listExpression ( AST listNode ) { List < Expression > expressions = new ArrayList < Expression > ( ) ; AST elist = listNode . getFirstChild ( ) ; assertNodeType ( ELIST , elist ) ; for ( AST node = elist . getFirstChild ( ) ; node != null ; node = node . getNextSibling ( ) ) { switch ( node . getType ( ) ) { case LABELED_ARG : assertNodeType ( COMMA , node ) ; break ; case SPREAD_MAP_ARG : assertNodeType ( SPREAD_ARG , node ) ; break ; } expressions . add ( expression ( node ) ) ; } ListExpression listExpression = new ListExpression ( expressions ) ; configureAST ( listExpression , listNode ) ; return listExpression ; } protected Expression mapExpression ( AST mapNode ) { List expressions = new ArrayList ( ) ; AST elist = mapNode . getFirstChild ( ) ; if ( elist != null ) { assertNodeType ( ELIST , elist ) ; for ( AST node = elist . getFirstChild ( ) ; node != null ; node = node . getNextSibling ( ) ) { switch ( node . getType ( ) ) { case LABELED_ARG : case SPREAD_MAP_ARG : break ; case SPREAD_ARG : assertNodeType ( SPREAD_MAP_ARG , node ) ; break ; default : assertNodeType ( LABELED_ARG , node ) ; break ; } expressions . add ( mapEntryExpression ( node ) ) ; } } MapExpression mapExpression = new MapExpression ( expressions ) ; configureAST ( mapExpression , mapNode ) ; if ( expressions . size ( ) == <NUM_LIT:0> && mapExpression . getLength ( ) <= <NUM_LIT:1> ) { mapExpression . setEnd ( mapExpression . getStart ( ) + <NUM_LIT:3> ) ; mapExpression . setLastColumnNumber ( mapExpression . getColumnNumber ( ) + <NUM_LIT:3> ) ; } return mapExpression ; } protected MapEntryExpression mapEntryExpression ( AST node ) { if ( node . getType ( ) == SPREAD_MAP_ARG ) { AST rightNode = node . getFirstChild ( ) ; Expression keyExpression = spreadMapExpression ( node ) ; Expression rightExpression = expression ( rightNode ) ; MapEntryExpression mapEntryExpression = new MapEntryExpression ( keyExpression , rightExpression ) ; configureAST ( mapEntryExpression , node ) ; return mapEntryExpression ; } else { AST keyNode = node . getFirstChild ( ) ; Expression keyExpression = expression ( keyNode ) ; AST valueNode = keyNode . getNextSibling ( ) ; Expression valueExpression = expression ( valueNode ) ; MapEntryExpression mapEntryExpression = new MapEntryExpression ( keyExpression , valueExpression ) ; mapEntryExpression . setStart ( keyExpression . getStart ( ) ) ; mapEntryExpression . setLineNumber ( keyExpression . getLineNumber ( ) ) ; mapEntryExpression . setColumnNumber ( keyExpression . getColumnNumber ( ) ) ; mapEntryExpression . setEnd ( valueExpression . getEnd ( ) ) ; mapEntryExpression . setLastLineNumber ( valueExpression . getLastLineNumber ( ) ) ; mapEntryExpression . setLastColumnNumber ( valueExpression . getLastColumnNumber ( ) ) ; configureAST ( mapEntryExpression , node ) ; return mapEntryExpression ; } } protected Expression instanceofExpression ( AST node ) { AST leftNode = node . getFirstChild ( ) ; Expression leftExpression = expression ( leftNode ) ; AST rightNode = leftNode . getNextSibling ( ) ; ClassNode type = buildName ( rightNode ) ; assertTypeNotNull ( type , rightNode ) ; Expression rightExpression = new ClassExpression ( type ) ; configureAST ( rightExpression , rightNode ) ; BinaryExpression binaryExpression = new BinaryExpression ( leftExpression , makeToken ( Types . KEYWORD_INSTANCEOF , node ) , rightExpression ) ; configureAST ( binaryExpression , node ) ; return binaryExpression ; } protected void assertTypeNotNull ( ClassNode type , AST rightNode ) { if ( type == null ) { throw new ASTRuntimeException ( rightNode , "<STR_LIT>" + qualifiedName ( rightNode ) ) ; } } protected Expression asExpression ( AST node ) { AST leftNode = node . getFirstChild ( ) ; Expression leftExpression = expression ( leftNode ) ; AST rightNode = leftNode . getNextSibling ( ) ; ClassNode type = makeTypeWithArguments ( rightNode ) ; CastExpression asExpr = CastExpression . asExpression ( type , leftExpression ) ; asExpr . setStart ( leftExpression . getStart ( ) ) ; asExpr . setLineNumber ( leftExpression . getLineNumber ( ) ) ; asExpr . setColumnNumber ( leftExpression . getColumnNumber ( ) ) ; asExpr . setEnd ( type . getEnd ( ) ) ; asExpr . setLastLineNumber ( type . getLastLineNumber ( ) ) ; asExpr . setLastColumnNumber ( type . getLastColumnNumber ( ) ) ; return asExpr ; } protected Expression castExpression ( AST castNode ) { AST node = castNode . getFirstChild ( ) ; ClassNode type = makeTypeWithArguments ( node ) ; assertTypeNotNull ( type , node ) ; AST expressionNode = node . getNextSibling ( ) ; Expression expression = expression ( expressionNode ) ; CastExpression castExpression = new CastExpression ( type , expression ) ; configureAST ( castExpression , castNode ) ; return castExpression ; } protected Expression indexExpression ( AST indexNode ) { AST bracket = indexNode . getFirstChild ( ) ; AST leftNode = bracket . getNextSibling ( ) ; Expression leftExpression = expression ( leftNode ) ; AST rightNode = leftNode . getNextSibling ( ) ; Expression rightExpression = expression ( rightNode ) ; BinaryExpression binaryExpression = new BinaryExpression ( leftExpression , makeToken ( Types . LEFT_SQUARE_BRACKET , bracket ) , rightExpression ) ; configureAST ( binaryExpression , indexNode ) ; return binaryExpression ; } protected Expression binaryExpression ( int type , AST node ) { Token token = makeToken ( type , node ) ; AST leftNode = node . getFirstChild ( ) ; Expression leftExpression = expression ( leftNode ) ; AST rightNode = leftNode . getNextSibling ( ) ; if ( rightNode == null ) { return leftExpression ; } if ( Types . ofType ( type , Types . ASSIGNMENT_OPERATOR ) ) { if ( leftExpression instanceof VariableExpression \|\| leftExpression . getClass ( ) == PropertyExpression . class \|\| leftExpression instanceof FieldExpression \|\| leftExpression instanceof AttributeExpression \|\| leftExpression instanceof DeclarationExpression \|\| leftExpression instanceof TupleExpression ) { } else if ( leftExpression instanceof ConstantExpression ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + ( ( ConstantExpression ) leftExpression ) . getValue ( ) + "<STR_LIT>" ) ; } else if ( leftExpression instanceof BinaryExpression ) { Expression leftexp = ( ( BinaryExpression ) leftExpression ) . getLeftExpression ( ) ; int lefttype = ( ( BinaryExpression ) leftExpression ) . getOperation ( ) . getType ( ) ; if ( ! Types . ofType ( lefttype , Types . ASSIGNMENT_OPERATOR ) && lefttype != Types . LEFT_SQUARE_BRACKET ) { throw new ASTRuntimeException ( node , "<STR_LIT:n>" + ( ( BinaryExpression ) leftExpression ) . getText ( ) + "<STR_LIT>" ) ; } } else if ( leftExpression instanceof GStringExpression ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + ( ( GStringExpression ) leftExpression ) . getText ( ) + "<STR_LIT>" ) ; } else if ( leftExpression instanceof MethodCallExpression ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + ( ( MethodCallExpression ) leftExpression ) . getText ( ) + "<STR_LIT>" ) ; } else if ( leftExpression instanceof MapExpression ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + ( ( MapExpression ) leftExpression ) . getText ( ) + "<STR_LIT>" ) ; } else { throw new ASTRuntimeException ( node , "<STR_LIT:n>" + leftExpression . getClass ( ) + "<STR_LIT>" + leftExpression . getText ( ) + "<STR_LIT>" ) ; } } Expression rightExpression = expression ( rightNode ) ; BinaryExpression binaryExpression = new BinaryExpression ( leftExpression , token , rightExpression ) ; binaryExpression . setStart ( leftExpression . getStart ( ) ) ; binaryExpression . setLineNumber ( leftExpression . getLineNumber ( ) ) ; binaryExpression . setColumnNumber ( leftExpression . getColumnNumber ( ) ) ; binaryExpression . setEnd ( rightExpression . getEnd ( ) ) ; binaryExpression . setLastLineNumber ( rightExpression . getLastLineNumber ( ) ) ; binaryExpression . setLastColumnNumber ( rightExpression . getLastColumnNumber ( ) ) ; return binaryExpression ; } protected Expression prefixExpression ( AST node , int token ) { Expression expression = expression ( node . getFirstChild ( ) ) ; PrefixExpression prefixExpression = new PrefixExpression ( makeToken ( token , node ) , expression ) ; configureAST ( prefixExpression , node ) ; return prefixExpression ; } protected Expression postfixExpression ( AST node , int token ) { Expression expression = expression ( node . getFirstChild ( ) ) ; PostfixExpression postfixExpression = new PostfixExpression ( expression , makeToken ( token , node ) ) ; configureAST ( postfixExpression , node ) ; return postfixExpression ; } protected BooleanExpression booleanExpression ( AST node ) { BooleanExpression booleanExpression = new BooleanExpression ( expression ( node ) ) ; configureAST ( booleanExpression , node ) ; return booleanExpression ; } protected Expression dotExpression ( AST node ) { AST leftNode = node . getFirstChild ( ) ; if ( leftNode != null ) { AST identifierNode = leftNode . getNextSibling ( ) ; if ( identifierNode != null ) { Expression leftExpression = expression ( leftNode ) ; if ( isType ( SELECT_SLOT , identifierNode ) ) { Expression field = expression ( identifierNode . getFirstChild ( ) , true ) ; AttributeExpression attributeExpression = new AttributeExpression ( leftExpression , field , node . getType ( ) != DOT ) ; if ( node . getType ( ) == SPREAD_DOT ) { attributeExpression . setSpreadSafe ( true ) ; } configureAST ( attributeExpression , node ) ; return attributeExpression ; } if ( isType ( SLIST , identifierNode ) ) { Statement code = statementList ( identifierNode ) ; ClosureExpression closureExpression = new ClosureExpression ( Parameter . EMPTY_ARRAY , code ) ; configureAST ( closureExpression , identifierNode ) ; final PropertyExpression propertyExpression = new PropertyExpression ( leftExpression , closureExpression ) ; if ( node . getType ( ) == SPREAD_DOT ) { propertyExpression . setSpreadSafe ( true ) ; } configureAST ( propertyExpression , node ) ; return propertyExpression ; } Expression property = expression ( identifierNode , true ) ; if ( property instanceof VariableExpression ) { VariableExpression ve = ( VariableExpression ) property ; property = new ConstantExpression ( ve . getName ( ) ) ; } PropertyExpression propertyExpression = new PropertyExpression ( leftExpression , property , node . getType ( ) != DOT ) ; if ( node . getType ( ) == SPREAD_DOT ) { propertyExpression . setSpreadSafe ( true ) ; } configureAST ( propertyExpression , node ) ; return propertyExpression ; } } return methodCallExpression ( node ) ; } protected Expression specialConstructorCallExpression ( AST methodCallNode , ClassNode special ) { AST node = methodCallNode . getFirstChild ( ) ; Expression arguments = arguments ( node ) ; ConstructorCallExpression expression = new ConstructorCallExpression ( special , arguments ) ; configureAST ( expression , methodCallNode ) ; return expression ; } private int getTypeInParenthesis ( AST node ) { if ( ! isType ( EXPR , node ) ) node = node . getFirstChild ( ) ; while ( node != null && isType ( EXPR , node ) && node . getNextSibling ( ) == null ) { node = node . getFirstChild ( ) ; } if ( node == null ) return - <NUM_LIT:1> ; return node . getType ( ) ; } protected Expression methodCallExpression ( AST methodCallNode ) { AST node = methodCallNode . getFirstChild ( ) ; Expression objectExpression ; AST selector ; AST elist = node . getNextSibling ( ) ; List < GenericsType > typeArgumentList = null ; boolean implicitThis = false ; boolean safe = isType ( OPTIONAL_DOT , node ) ; boolean spreadSafe = isType ( SPREAD_DOT , node ) ; if ( isType ( DOT , node ) \|\| safe \|\| spreadSafe ) { AST objectNode = node . getFirstChild ( ) ; objectExpression = expression ( objectNode ) ; selector = objectNode . getNextSibling ( ) ; } else { implicitThis = true ; objectExpression = VariableExpression . THIS_EXPRESSION ; selector = node ; } if ( isType ( TYPE_ARGUMENTS , selector ) ) { typeArgumentList = getTypeArgumentsList ( selector ) ; selector = selector . getNextSibling ( ) ; } Expression name = null ; if ( isType ( LITERAL_super , selector ) ) { implicitThis = true ; name = new ConstantExpression ( "<STR_LIT>" ) ; if ( objectExpression instanceof VariableExpression && ( ( VariableExpression ) objectExpression ) . isThisExpression ( ) ) { objectExpression = VariableExpression . SUPER_EXPRESSION ; } } else if ( isPrimitiveTypeLiteral ( selector ) ) { throw new ASTRuntimeException ( selector , "<STR_LIT>" + selector . getText ( ) + "<STR_LIT>" ) ; } else if ( isType ( SELECT_SLOT , selector ) ) { Expression field = expression ( selector . getFirstChild ( ) , true ) ; AttributeExpression attributeExpression = new AttributeExpression ( objectExpression , field , node . getType ( ) != DOT ) ; configureAST ( attributeExpression , node ) ; Expression arguments = arguments ( elist ) ; MethodCallExpression expression = new MethodCallExpression ( attributeExpression , "<STR_LIT>" , arguments ) ; setTypeArgumentsOnMethodCallExpression ( expression , typeArgumentList ) ; configureAST ( expression , methodCallNode ) ; return expression ; } else if ( isType ( DYNAMIC_MEMBER , selector ) \|\| isType ( IDENT , selector ) \|\| isType ( STRING_CONSTRUCTOR , selector ) \|\| isType ( STRING_LITERAL , selector ) ) { name = expression ( selector , true ) ; } else { implicitThis = false ; name = new ConstantExpression ( "<STR_LIT>" ) ; objectExpression = expression ( selector , true ) ; } if ( selector . getText ( ) . equals ( "<STR_LIT>" ) \|\| selector . getText ( ) . equals ( "<STR_LIT>" ) ) { throw new ASTRuntimeException ( elist , "<STR_LIT>" ) ; } Expression arguments = arguments ( elist ) ; MethodCallExpression expression = new MethodCallExpression ( objectExpression , name , arguments ) ; expression . setSafe ( safe ) ; expression . setSpreadSafe ( spreadSafe ) ; expression . setImplicitThis ( implicitThis ) ; setTypeArgumentsOnMethodCallExpression ( expression , typeArgumentList ) ; Expression ret = expression ; if ( implicitThis && "<STR_LIT>" . equals ( expression . getMethodAsString ( ) ) ) { ret = new ConstructorCallExpression ( this . classNode , arguments ) ; } configureAST ( ret , methodCallNode ) ; return ret ; } private void setTypeArgumentsOnMethodCallExpression ( MethodCallExpression expression , List < GenericsType > typeArgumentList ) { if ( typeArgumentList != null && typeArgumentList . size ( ) > <NUM_LIT:0> ) { expression . setGenericsTypes ( typeArgumentList . toArray ( new GenericsType [ typeArgumentList . size ( ) ] ) ) ; } } protected Expression constructorCallExpression ( AST node ) { AST constructorCallNode = node ; ClassNode type = makeTypeWithArguments ( constructorCallNode ) ; if ( isType ( CTOR_CALL , node ) \|\| isType ( LITERAL_new , node ) ) { node = node . getFirstChild ( ) ; } if ( node == null ) { return new ConstructorCallExpression ( ClassHelper . OBJECT_TYPE , new ArgumentListExpression ( ) ) ; } AST elist = node . getNextSibling ( ) ; if ( elist == null && isType ( ELIST , node ) ) { elist = node ; if ( "<STR_LIT:(>" . equals ( type . getName ( ) ) ) { type = classNode ; } } if ( isType ( ARRAY_DECLARATOR , elist ) ) { AST expressionNode = elist . getFirstChild ( ) ; if ( expressionNode == null ) { throw new ASTRuntimeException ( elist , "<STR_LIT>" ) ; } List size = arraySizeExpression ( expressionNode ) ; ArrayExpression arrayExpression = new ArrayExpression ( type , null , size ) ; configureAST ( arrayExpression , constructorCallNode ) ; return arrayExpression ; } Expression arguments = arguments ( elist ) ; ClassNode innerClass = getAnonymousInnerClassNode ( arguments ) ; ConstructorCallExpression ret = new ConstructorCallExpression ( type , arguments ) ; if ( innerClass != null ) { ret . setType ( innerClass ) ; ret . setUsingAnonymousInnerClass ( true ) ; innerClass . setUnresolvedSuperClass ( type ) ; } configureAST ( ret , constructorCallNode ) ; return ret ; } private ClassNode getAnonymousInnerClassNode ( Expression arguments ) { if ( arguments instanceof TupleExpression ) { TupleExpression te = ( TupleExpression ) arguments ; List < Expression > expressions = te . getExpressions ( ) ; if ( expressions . size ( ) == <NUM_LIT:0> ) return null ; Expression last = ( Expression ) expressions . remove ( expressions . size ( ) - <NUM_LIT:1> ) ; if ( last instanceof AnonymousInnerClassCarrier ) { AnonymousInnerClassCarrier carrier = ( AnonymousInnerClassCarrier ) last ; return carrier . innerClass ; } else { expressions . add ( last ) ; } } else if ( arguments instanceof AnonymousInnerClassCarrier ) { AnonymousInnerClassCarrier carrier = ( AnonymousInnerClassCarrier ) arguments ; return carrier . innerClass ; } return null ; } protected List arraySizeExpression ( AST node ) { List list ; Expression size = null ; if ( isType ( ARRAY_DECLARATOR , node ) ) { AST right = node . getNextSibling ( ) ; if ( right != null ) { size = expression ( right ) ; } else { size = ConstantExpression . EMPTY_EXPRESSION ; } list = arraySizeExpression ( node . getFirstChild ( ) ) ; } else { size = expression ( node ) ; list = new ArrayList ( ) ; } list . add ( size ) ; return list ; } protected Expression arguments ( AST elist ) { List expressionList = new ArrayList ( ) ; boolean namedArguments = false ; for ( AST node = elist ; node != null ; node = node . getNextSibling ( ) ) { if ( isType ( ELIST , node ) ) { for ( AST child = node . getFirstChild ( ) ; child != null ; child = child . getNextSibling ( ) ) { namedArguments \|= addArgumentExpression ( child , expressionList ) ; } } else { namedArguments \|= addArgumentExpression ( node , expressionList ) ; } } if ( namedArguments ) { if ( ! expressionList . isEmpty ( ) ) { List argumentList = new ArrayList ( ) ; for ( Iterator iter = expressionList . iterator ( ) ; iter . hasNext ( ) ; ) { Expression expression = ( Expression ) iter . next ( ) ; if ( ! ( expression instanceof MapEntryExpression ) ) { argumentList . add ( expression ) ; } } if ( ! argumentList . isEmpty ( ) ) { expressionList . removeAll ( argumentList ) ; checkDuplicateNamedParams ( elist , expressionList ) ; MapExpression mapExpression = new MapExpression ( expressionList ) ; configureAST ( mapExpression , elist ) ; argumentList . add ( <NUM_LIT:0> , mapExpression ) ; ArgumentListExpression argumentListExpression = new ArgumentListExpression ( argumentList ) ; configureAST ( argumentListExpression , elist ) ; return argumentListExpression ; } } checkDuplicateNamedParams ( elist , expressionList ) ; NamedArgumentListExpression namedArgumentListExpression = new NamedArgumentListExpression ( expressionList ) ; configureAST ( namedArgumentListExpression , elist ) ; return namedArgumentListExpression ; } else { ArgumentListExpression argumentListExpression = new ArgumentListExpression ( expressionList ) ; if ( elist != null ) { configureAST ( argumentListExpression , elist ) ; } return argumentListExpression ; } } private void checkDuplicateNamedParams ( AST elist , List expressionList ) { if ( expressionList . isEmpty ( ) ) return ; Set < String > namedArgumentNames = new HashSet < String > ( ) ; MapEntryExpression meExp ; for ( Iterator iter = expressionList . iterator ( ) ; iter . hasNext ( ) ; ) { meExp = ( MapEntryExpression ) iter . next ( ) ; if ( meExp . getKeyExpression ( ) instanceof ConstantExpression ) { String argName = ( ( ConstantExpression ) meExp . getKeyExpression ( ) ) . getText ( ) ; if ( ! namedArgumentNames . contains ( argName ) ) { namedArgumentNames . add ( argName ) ; } else { throw new ASTRuntimeException ( elist , "<STR_LIT>" + argName + "<STR_LIT>" ) ; } } } } protected boolean addArgumentExpression ( AST node , List expressionList ) { if ( node . getType ( ) == SPREAD_MAP_ARG ) { AST rightNode = node . getFirstChild ( ) ; Expression keyExpression = spreadMapExpression ( node ) ; Expression rightExpression = expression ( rightNode ) ; MapEntryExpression mapEntryExpression = new MapEntryExpression ( keyExpression , rightExpression ) ; expressionList . add ( mapEntryExpression ) ; return true ; } else { Expression expression = expression ( node ) ; expressionList . add ( expression ) ; return expression instanceof MapEntryExpression ; } } protected Expression expressionList ( AST node ) { List expressionList = new ArrayList ( ) ; for ( AST child = node . getFirstChild ( ) ; child != null ; child = child . getNextSibling ( ) ) { expressionList . add ( expression ( child ) ) ; } if ( expressionList . size ( ) == <NUM_LIT:1> ) { return ( Expression ) expressionList . get ( <NUM_LIT:0> ) ; } else { ListExpression listExpression = new ListExpression ( expressionList ) ; listExpression . setWrapped ( true ) ; configureAST ( listExpression , node ) ; return listExpression ; } } protected ClosureExpression closureExpression ( AST node ) { AST paramNode = node . getFirstChild ( ) ; Parameter [ ] parameters = null ; AST codeNode = paramNode ; if ( isType ( PARAMETERS , paramNode ) \|\| isType ( IMPLICIT_PARAMETERS , paramNode ) ) { parameters = parameters ( paramNode ) ; codeNode = paramNode . getNextSibling ( ) ; } Statement code = statementListNoChild ( codeNode , node ) ; ClosureExpression closureExpression = new ClosureExpression ( parameters , code ) ; configureAST ( closureExpression , node ) ; return closureExpression ; } protected Expression blockExpression ( AST node ) { AST codeNode = node . getFirstChild ( ) ; if ( codeNode == null ) return ConstantExpression . NULL ; if ( codeNode . getType ( ) == EXPR && codeNode . getNextSibling ( ) == null ) { return expression ( codeNode ) ; } Parameter [ ] parameters = Parameter . EMPTY_ARRAY ; Statement code = statementListNoChild ( codeNode , node ) ; ClosureExpression closureExpression = new ClosureExpression ( parameters , code ) ; configureAST ( closureExpression , node ) ; String callName = "<STR_LIT>" ; Expression noArguments = new ArgumentListExpression ( ) ; MethodCallExpression call = new MethodCallExpression ( closureExpression , callName , noArguments ) ; configureAST ( call , node ) ; return call ; } protected Expression unaryMinusExpression ( AST unaryMinusExpr ) { AST node = unaryMinusExpr . getFirstChild ( ) ; String text = node . getText ( ) ; switch ( node . getType ( ) ) { case NUM_DOUBLE : case NUM_FLOAT : case NUM_BIG_DECIMAL : ConstantExpression constantExpression = new ConstantExpression ( Numbers . parseDecimal ( "<STR_LIT:->" + text ) ) ; configureAST ( constantExpression , unaryMinusExpr ) ; return constantExpression ; case NUM_BIG_INT : case NUM_INT : case NUM_LONG : ConstantExpression constantLongExpression = new ConstantExpression ( Numbers . parseInteger ( "<STR_LIT:->" + text ) ) ; configureAST ( constantLongExpression , unaryMinusExpr ) ; return constantLongExpression ; default : UnaryMinusExpression unaryMinusExpression = new UnaryMinusExpression ( expression ( node ) ) ; configureAST ( unaryMinusExpression , unaryMinusExpr ) ; return unaryMinusExpression ; } } protected Expression unaryPlusExpression ( AST unaryPlusExpr ) { AST node = unaryPlusExpr . getFirstChild ( ) ; switch ( node . getType ( ) ) { case NUM_DOUBLE : case NUM_FLOAT : case NUM_BIG_DECIMAL : case NUM_BIG_INT : case NUM_INT : case NUM_LONG : return expression ( node ) ; default : UnaryPlusExpression unaryPlusExpression = new UnaryPlusExpression ( expression ( node ) ) ; configureAST ( unaryPlusExpression , unaryPlusExpr ) ; return unaryPlusExpression ; } } protected ConstantExpression decimalExpression ( AST node ) { String text = node . getText ( ) ; ConstantExpression constantExpression = new ConstantExpression ( Numbers . parseDecimal ( text ) ) ; configureAST ( constantExpression , node ) ; return constantExpression ; } protected ConstantExpression integerExpression ( AST node ) { String text = node . getText ( ) ; ConstantExpression constantExpression = new ConstantExpression ( Numbers . parseInteger ( text ) ) ; configureAST ( constantExpression , node ) ; return constantExpression ; } protected Expression gstring ( AST gstringNode ) { List strings = new ArrayList ( ) ; List values = new ArrayList ( ) ; StringBuffer buffer = new StringBuffer ( ) ; boolean isPrevString = false ; for ( AST node = gstringNode . getFirstChild ( ) ; node != null ; node = node . getNextSibling ( ) ) { int type = node . getType ( ) ; String text = null ; switch ( type ) { case STRING_LITERAL : if ( isPrevString ) assertNodeType ( IDENT , node ) ; isPrevString = true ; text = node . getText ( ) ; ConstantExpression constantExpression = new ConstantExpression ( text ) ; configureAST ( constantExpression , node ) ; strings . add ( constantExpression ) ; buffer . append ( text ) ; break ; default : { if ( ! isPrevString ) assertNodeType ( IDENT , node ) ; isPrevString = false ; Expression expression = expression ( node ) ; values . add ( expression ) ; buffer . append ( "<STR_LIT:$>" ) ; buffer . append ( expression . getText ( ) ) ; } break ; } } GStringExpression gStringExpression = new GStringExpression ( buffer . toString ( ) , strings , values ) ; configureAST ( gStringExpression , gstringNode ) ; return gStringExpression ; } protected ClassNode type ( AST typeNode ) { return buildName ( typeNode . getFirstChild ( ) ) ; } public static String qualifiedName ( AST qualifiedNameNode ) { if ( isType ( IDENT , qualifiedNameNode ) ) { return qualifiedNameNode . getText ( ) ; } if ( isType ( DOT , qualifiedNameNode ) ) { AST node = qualifiedNameNode . getFirstChild ( ) ; StringBuffer buffer = new StringBuffer ( ) ; boolean first = true ; for ( ; node != null && ! isType ( TYPE_ARGUMENTS , node ) ; node = node . getNextSibling ( ) ) { if ( first ) { first = false ; } else { buffer . append ( "<STR_LIT:.>" ) ; } buffer . append ( qualifiedName ( node ) ) ; } return buffer . toString ( ) ; } else { return qualifiedNameNode . getText ( ) ; } } private static AST getTypeArgumentsNode ( AST root ) { while ( root != null && ! isType ( TYPE_ARGUMENTS , root ) ) { root = root . getNextSibling ( ) ; } return root ; } private int getBoundType ( AST node ) { if ( node == null ) return - <NUM_LIT:1> ; if ( isType ( TYPE_UPPER_BOUNDS , node ) ) return TYPE_UPPER_BOUNDS ; if ( isType ( TYPE_LOWER_BOUNDS , node ) ) return TYPE_LOWER_BOUNDS ; throw new ASTRuntimeException ( node , "<STR_LIT>" + getTokenName ( node ) + "<STR_LIT>" + getTokenName ( TYPE_UPPER_BOUNDS ) + "<STR_LIT>" + getTokenName ( TYPE_LOWER_BOUNDS ) ) ; } private GenericsType makeGenericsArgumentType ( AST typeArgument ) { GenericsType gt ; AST rootNode = typeArgument . getFirstChild ( ) ; if ( isType ( WILDCARD_TYPE , rootNode ) ) { ClassNode base = ClassHelper . makeWithoutCaching ( "<STR_LIT:?>" ) ; if ( rootNode . getNextSibling ( ) != null ) { int boundType = getBoundType ( rootNode . getNextSibling ( ) ) ; ClassNode [ ] gts = makeGenericsBounds ( rootNode , boundType ) ; if ( boundType == TYPE_UPPER_BOUNDS ) { gt = new GenericsType ( base , gts , null ) ; } else { gt = new GenericsType ( base , null , gts [ <NUM_LIT:0> ] ) ; } } else { gt = new GenericsType ( base , null , null ) ; } gt . setName ( "<STR_LIT:?>" ) ; gt . setWildcard ( true ) ; } else { ClassNode argument = makeTypeWithArguments ( rootNode ) ; gt = new GenericsType ( argument ) ; } configureAST ( gt , typeArgument ) ; return gt ; } protected ClassNode makeTypeWithArguments ( AST rootNode ) { ClassNode basicType = makeType ( rootNode ) ; AST node = rootNode . getFirstChild ( ) ; if ( node == null \|\| isType ( INDEX_OP , node ) \|\| isType ( ARRAY_DECLARATOR , node ) ) return basicType ; if ( ! isType ( DOT , node ) ) { node = node . getFirstChild ( ) ; if ( node == null ) return basicType ; return addTypeArguments ( basicType , node ) ; } else { node = node . getFirstChild ( ) ; while ( node != null && ! isType ( TYPE_ARGUMENTS , node ) ) node = node . getNextSibling ( ) ; return node == null ? basicType : addTypeArguments ( basicType , node ) ; } } private ClassNode addTypeArguments ( ClassNode basicType , AST node ) { List < GenericsType > typeArgumentList = getTypeArgumentsList ( node ) ; if ( typeArgumentList . size ( ) > <NUM_LIT:0> ) { basicType . setGenericsTypes ( typeArgumentList . toArray ( new GenericsType [ typeArgumentList . size ( ) ] ) ) ; } return basicType ; } private List < GenericsType > getTypeArgumentsList ( AST node ) { assertNodeType ( TYPE_ARGUMENTS , node ) ; List < GenericsType > typeArgumentList = new LinkedList < GenericsType > ( ) ; AST typeArgument = node . getFirstChild ( ) ; while ( typeArgument != null ) { assertNodeType ( TYPE_ARGUMENT , typeArgument ) ; GenericsType gt = makeGenericsArgumentType ( typeArgument ) ; typeArgumentList . add ( gt ) ; typeArgument = typeArgument . getNextSibling ( ) ; } return typeArgumentList ; } private ClassNode [ ] makeGenericsBounds ( AST rn , int boundType ) { AST boundsRoot = rn . getNextSibling ( ) ; if ( boundsRoot == null ) return null ; assertNodeType ( boundType , boundsRoot ) ; LinkedList bounds = new LinkedList ( ) ; for ( AST boundsNode = boundsRoot . getFirstChild ( ) ; boundsNode != null ; boundsNode = boundsNode . getNextSibling ( ) ) { ClassNode bound = null ; bound = makeTypeWithArguments ( boundsNode ) ; configureAST ( bound , boundsNode ) ; bounds . add ( bound ) ; } if ( bounds . size ( ) == <NUM_LIT:0> ) return null ; return ( ClassNode [ ] ) bounds . toArray ( new ClassNode [ bounds . size ( ) ] ) ; } protected GenericsType [ ] makeGenericsType ( AST rootNode ) { AST typeParameter = rootNode . getFirstChild ( ) ; LinkedList ret = new LinkedList ( ) ; assertNodeType ( TYPE_PARAMETER , typeParameter ) ; while ( isType ( TYPE_PARAMETER , typeParameter ) ) { AST typeNode = typeParameter . getFirstChild ( ) ; ClassNode type = makeType ( typeParameter ) ; GenericsType gt = new GenericsType ( type , makeGenericsBounds ( typeNode , TYPE_UPPER_BOUNDS ) , null ) ; configureAST ( gt , typeParameter ) ; ret . add ( gt ) ; typeParameter = typeParameter . getNextSibling ( ) ; } return ( GenericsType [ ] ) ret . toArray ( new GenericsType [ <NUM_LIT:0> ] ) ; } protected ClassNode makeType ( AST typeNode ) { ClassNode answer = ClassHelper . DYNAMIC_TYPE ; AST node = typeNode . getFirstChild ( ) ; if ( node != null ) { if ( isType ( INDEX_OP , node ) \|\| isType ( ARRAY_DECLARATOR , node ) ) { answer = makeType ( node ) . makeArray ( ) ; } else { answer = ClassHelper . make ( qualifiedName ( node ) ) ; if ( answer . isUsingGenerics ( ) ) { ClassNode newAnswer = ClassHelper . makeWithoutCaching ( answer . getName ( ) ) ; newAnswer . setRedirect ( answer ) ; answer = newAnswer ; } } configureAST ( answer , node ) ; } return answer ; } protected ClassNode buildName ( AST node ) { if ( isType ( TYPE , node ) ) { node = node . getFirstChild ( ) ; } ClassNode answer = null ; if ( isType ( DOT , node ) \|\| isType ( OPTIONAL_DOT , node ) ) { answer = ClassHelper . make ( qualifiedName ( node ) ) ; } else if ( isPrimitiveTypeLiteral ( node ) ) { answer = ClassHelper . make ( node . getText ( ) ) ; } else if ( isType ( INDEX_OP , node ) \|\| isType ( ARRAY_DECLARATOR , node ) ) { AST child = node . getFirstChild ( ) ; answer = buildName ( child ) . makeArray ( ) ; configureAST ( answer , node ) ; return answer ; } else { String identifier = node . getText ( ) ; answer = ClassHelper . make ( identifier ) ; } AST nextSibling = node . getNextSibling ( ) ; if ( isType ( INDEX_OP , nextSibling ) \|\| isType ( ARRAY_DECLARATOR , node ) ) { answer = answer . makeArray ( ) ; configureAST ( answer , node ) ; return answer ; } else { configureAST ( answer , node ) ; return answer ; } } protected boolean isPrimitiveTypeLiteral ( AST node ) { int type = node . getType ( ) ; switch ( type ) { case LITERAL_boolean : case LITERAL_byte : case LITERAL_char : case LITERAL_double : case LITERAL_float : case LITERAL_int : case LITERAL_long : case LITERAL_short : return true ; default : return false ; } } protected String identifier ( AST node ) { assertNodeType ( IDENT , node ) ; return node . getText ( ) ; } protected String label ( AST labelNode ) { AST node = labelNode . getFirstChild ( ) ; if ( node == null ) { return null ; } return identifier ( node ) ; } protected boolean hasVisibility ( int modifiers ) { return ( modifiers & ( Opcodes . ACC_PRIVATE \| Opcodes . ACC_PROTECTED \| Opcodes . ACC_PUBLIC ) ) != <NUM_LIT:0> ; } protected void configureAST ( ASTNode node , AST ast ) { if ( ast == null ) throw new ASTRuntimeException ( ast , "<STR_LIT>" + node . getClass ( ) . getName ( ) + "<STR_LIT>" ) ; int startcol = ast . getColumn ( ) ; int startline = ast . getLine ( ) ; int startoffset = locations . findOffset ( startline , startcol ) ; int lastcol ; int lastline ; int endoffset ; if ( ast instanceof GroovySourceAST ) { GroovySourceAST groovySourceAST = ( GroovySourceAST ) ast ; lastcol = groovySourceAST . getColumnLast ( ) ; lastline = groovySourceAST . getLineLast ( ) ; endoffset = locations . findOffset ( lastline , lastcol ) ; if ( ( node instanceof BinaryExpression \|\| node instanceof MapEntryExpression \|\| node instanceof MapExpression \|\| node instanceof CastExpression ) && ( node . getStart ( ) <= startoffset && node . getEnd ( ) >= endoffset ) ) { return ; } if ( ( node instanceof VariableExpression \|\| node instanceof ConstantExpression ) && node . getEnd ( ) > <NUM_LIT:0> && ( startoffset <= node . getStart ( ) && endoffset >= node . getEnd ( ) ) ) { return ; } node . setLastColumnNumber ( lastcol ) ; node . setLastLineNumber ( lastline ) ; node . setEnd ( endoffset ) ; } node . setColumnNumber ( startcol ) ; node . setLineNumber ( startline ) ; node . setStart ( startoffset ) ; } protected static Token makeToken ( int typeCode , AST node ) { return Token . newSymbol ( typeCode , node . getLine ( ) , node . getColumn ( ) ) ; } protected String getFirstChildText ( AST node ) { AST child = node . getFirstChild ( ) ; return child != null ? child . getText ( ) : null ; } public static boolean isType ( int typeCode , AST node ) { return node != null && node . getType ( ) == typeCode ; } private String getTokenName ( int token ) { if ( tokenNames == null ) return "<STR_LIT>" + token ; return tokenNames [ token ] ; } private String getTokenName ( AST node ) { if ( node == null ) return "<STR_LIT:null>" ; return getTokenName ( node . getType ( ) ) ; } protected void assertNodeType ( int type , AST node ) { if ( node == null ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + getTokenName ( type ) ) ; } if ( node . getType ( ) != type ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + getTokenName ( node ) + "<STR_LIT>" + getTokenName ( type ) ) ; } } protected void notImplementedYet ( AST node ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + getTokenName ( node ) ) ; } protected Expression unknownAST ( AST node ) { if ( node . getType ( ) == CLASS_DEF ) { throw new ASTRuntimeException ( node , "<STR_LIT>" + "<STR_LIT>" ) ; } return new ConstantExpression ( "<STR_LIT>" ) ; } protected void dumpTree ( AST ast ) { for ( AST node = ast . getFirstChild ( ) ; node != null ; node = node . getNextSibling ( ) ) { dump ( node ) ; } } protected void dump ( AST node ) { System . out . println ( "<STR_LIT>" + getTokenName ( node ) + "<STR_LIT>" + node . getText ( ) ) ; } private void fixModuleNodeLocations ( ) { output . setStart ( <NUM_LIT:0> ) ; output . setEnd ( locations . getEnd ( ) ) ; output . setLineNumber ( <NUM_LIT:1> ) ; output . setColumnNumber ( <NUM_LIT:1> ) ; output . setLastColumnNumber ( locations . getEndColumn ( ) ) ; output . setLastLineNumber ( locations . getEndLine ( ) ) ; BlockStatement statements = output . getStatementBlock ( ) ; List < MethodNode > methods = output . getMethods ( ) ; if ( hasScriptMethodsOrStatements ( statements , methods ) ) { ASTNode first = getFirst ( statements , methods ) ; ASTNode last = getLast ( statements , methods ) ; if ( hasScriptStatements ( statements ) ) { statements . setStart ( first . getStart ( ) ) ; statements . setLineNumber ( first . getLineNumber ( ) ) ; statements . setColumnNumber ( first . getColumnNumber ( ) ) ; statements . setEnd ( last . getEnd ( ) ) ; statements . setLastLineNumber ( last . getLastLineNumber ( ) ) ; statements . setLastColumnNumber ( last . getLastColumnNumber ( ) ) ; } if ( output . getClasses ( ) . size ( ) > <NUM_LIT:0> ) { ClassNode scriptClass = output . getClasses ( ) . get ( <NUM_LIT:0> ) ; scriptClass . setStart ( first . getStart ( ) ) ; scriptClass . setLineNumber ( first . getLineNumber ( ) ) ; scriptClass . setColumnNumber ( first . getColumnNumber ( ) ) ; scriptClass . setEnd ( last . getEnd ( ) ) ; scriptClass . setLastLineNumber ( last . getLastLineNumber ( ) ) ; scriptClass . setLastColumnNumber ( last . getLastColumnNumber ( ) ) ; MethodNode runMethod = scriptClass . getDeclaredMethod ( "<STR_LIT>" , new Parameter [ <NUM_LIT:0> ] ) ; runMethod . setStart ( first . getStart ( ) ) ; runMethod . setLineNumber ( first . getLineNumber ( ) ) ; runMethod . setColumnNumber ( first . getColumnNumber ( ) ) ; runMethod . setEnd ( last . getEnd ( ) ) ; runMethod . setLastLineNumber ( last . getLastLineNumber ( ) ) ; runMethod . setLastColumnNumber ( last . getLastColumnNumber ( ) ) ; } } } private ASTNode getFirst ( BlockStatement statements , List < MethodNode > methods ) { Statement firstStatement = hasScriptStatements ( statements ) ? statements . getStatements ( ) . get ( <NUM_LIT:0> ) : null ; MethodNode firstMethod = hasScriptMethods ( methods ) ? methods . get ( <NUM_LIT:0> ) : null ; if ( firstMethod == null && ( firstStatement == null \|\| ( firstStatement . getStart ( ) == <NUM_LIT:0> && firstStatement . getLength ( ) == <NUM_LIT:0> ) ) ) { firstStatement = createSyntheticAfterImports ( ) ; } int statementStart = firstStatement != null ? firstStatement . getStart ( ) : Integer . MAX_VALUE ; int methodStart = firstMethod != null ? firstMethod . getStart ( ) : Integer . MAX_VALUE ; return statementStart <= methodStart ? firstStatement : firstMethod ; } private ASTNode getLast ( BlockStatement statements , List < MethodNode > methods ) { Statement lastStatement = hasScriptStatements ( statements ) ? statements . getStatements ( ) . get ( statements . getStatements ( ) . size ( ) - <NUM_LIT:1> ) : null ; MethodNode lastMethod = hasScriptMethods ( methods ) ? methods . get ( methods . size ( ) - <NUM_LIT:1> ) : null ; if ( lastMethod == null && ( lastStatement == null \|\| ( lastStatement . getStart ( ) == <NUM_LIT:0> && lastStatement . getLength ( ) == <NUM_LIT:0> ) ) ) { lastStatement = createSyntheticAfterImports ( ) ; } int statementStart = lastStatement != null ? lastStatement . getEnd ( ) : Integer . MIN_VALUE ; int methodStart = lastMethod != null ? lastMethod . getStart ( ) : Integer . MIN_VALUE ; return statementStart >= methodStart ? lastStatement : lastMethod ; } private Statement createSyntheticAfterImports ( ) { ASTNode target = null ; Statement synthetic = ReturnStatement . RETURN_NULL_OR_VOID ; if ( output . getImports ( ) != null && output . getImports ( ) . size ( ) > <NUM_LIT:0> ) { target = output . getImports ( ) . get ( output . getImports ( ) . size ( ) - <NUM_LIT:1> ) ; } else if ( output . hasPackage ( ) ) { target = output . getPackage ( ) ; } if ( target != null ) { synthetic = new ReturnStatement ( ConstantExpression . NULL ) ; synthetic . setStart ( target . getEnd ( ) + <NUM_LIT:1> ) ; synthetic . setEnd ( target . getEnd ( ) + <NUM_LIT:1> ) ; synthetic . setLineNumber ( target . getLastLineNumber ( ) ) ; synthetic . setLastLineNumber ( target . getLineNumber ( ) ) ; synthetic . setColumnNumber ( target . getLastColumnNumber ( ) + <NUM_LIT:1> ) ; synthetic . setLastColumnNumber ( target . getColumnNumber ( ) + <NUM_LIT:1> ) ; } return synthetic ; } private boolean hasScriptMethodsOrStatements ( BlockStatement statements , List < MethodNode > methods ) { return hasScriptStatements ( statements ) \|\| hasScriptMethods ( methods ) ; } private boolean hasScriptMethods ( List < MethodNode > methods ) { return methods != null && methods . size ( ) > <NUM_LIT:0> ; } private boolean hasScriptStatements ( BlockStatement statements ) { return statements != null && statements . getStatements ( ) != null && statements . getStatements ( ) . size ( ) > <NUM_LIT:0> ; } protected void configureAnnotationAST ( ASTNode node , AST ast ) { if ( ast == null ) { throw new ASTRuntimeException ( ast , "<STR_LIT>" + node . getClass ( ) . getName ( ) + "<STR_LIT>" ) ; } if ( ast instanceof GroovySourceAST ) { GroovySourceAST correctAst = ( GroovySourceAST ) ast ; correctAst = ( GroovySourceAST ) correctAst . getFirstChild ( ) ; setPositions ( node , correctAst . getColumn ( ) , correctAst . getLine ( ) , correctAst . getColumnLast ( ) , correctAst . getLineLast ( ) ) ; if ( node instanceof AnnotationNode ) { setPositions ( ( ( AnnotationNode ) node ) . getClassNode ( ) , correctAst . getColumn ( ) , correctAst . getLine ( ) , correctAst . getColumnLast ( ) + <NUM_LIT:1> , correctAst . getLineLast ( ) ) ; } } else { int startcol = ast . getColumn ( ) ; int startline = ast . getLine ( ) ; node . setColumnNumber ( startcol ) ; node . setLineNumber ( startline ) ; int startoffset = locations . findOffset ( startline , startcol ) ; node . setStart ( startoffset ) ; } } private void configureClassNodeForClassDefAST ( ASTNode node , AST ast ) { if ( ast == null ) { throw new ASTRuntimeException ( ast , "<STR_LIT>" + node . getClass ( ) . getName ( ) + "<STR_LIT>" ) ; } if ( ast instanceof GroovySourceAST ) { GroovySourceAST theAst = ( GroovySourceAST ) ast ; theAst = ( GroovySourceAST ) theAst . getFirstChild ( ) . getNextSibling ( ) ; setPositions ( node , theAst . getColumn ( ) , theAst . getLine ( ) , theAst . getColumnLast ( ) , theAst . getLineLast ( ) ) ; } else { int startcol = ast . getColumn ( ) ; int startline = ast . getLine ( ) ; node . setColumnNumber ( startcol ) ; node . setLineNumber ( startline ) ; int startoffset = locations . findOffset ( startline , startcol ) ; node . setStart ( startoffset ) ; } } private void setPositions ( ASTNode node , int scol , int sline , int ecol , int eline ) { node . setColumnNumber ( scol ) ; node . setLineNumber ( sline ) ; node . setStart ( locations . findOffset ( sline , scol ) ) ; node . setLastColumnNumber ( ecol ) ; node . setLastLineNumber ( eline ) ; node . setEnd ( locations . findOffset ( eline , ecol ) - <NUM_LIT:1> ) ; } } </s>
<s> package org . codehaus . groovy . antlr ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . GenericsType ; import org . codehaus . groovy . ast . InnerClassNode ; import org . codehaus . groovy . ast . MixinNode ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . expr . ListExpression ; import org . objectweb . asm . Opcodes ; public class EnumHelper { private static final int FS = Opcodes . ACC_FINAL \| Opcodes . ACC_STATIC ; private static final int PUBLIC_FS = Opcodes . ACC_PUBLIC \| FS ; public static ClassNode makeEnumNode ( String name , int modifiers , ClassNode [ ] interfaces , ClassNode outerClass ) { modifiers = modifiers \| Opcodes . ACC_FINAL \| Opcodes . ACC_ENUM ; ClassNode enumClass ; if ( outerClass == null ) { enumClass = new ClassNode ( name , modifiers , null , interfaces , MixinNode . EMPTY_ARRAY ) ; } else { name = outerClass . getName ( ) + "<STR_LIT:$>" + name ; enumClass = new InnerClassNode ( outerClass , name , modifiers , null , interfaces , MixinNode . EMPTY_ARRAY ) ; } GenericsType gt = new GenericsType ( enumClass ) ; ClassNode superClass = ClassHelper . makeWithoutCaching ( "<STR_LIT>" ) ; superClass . setGenericsTypes ( new GenericsType [ ] { gt } ) ; enumClass . setSuperClass ( superClass ) ; superClass . setRedirect ( ClassHelper . Enum_Type ) ; return enumClass ; } public static FieldNode addEnumConstant ( ClassNode enumClass , String name , Expression init ) { int modifiers = PUBLIC_FS \| Opcodes . ACC_ENUM ; if ( init != null && ! ( init instanceof ListExpression ) ) { ListExpression list = new ListExpression ( ) ; list . addExpression ( init ) ; init = list ; } FieldNode fn = new FieldNode ( name , modifiers , enumClass , enumClass , init ) ; enumClass . addField ( fn ) ; return fn ; } } </s>
<s> package org . codehaus . groovy . antlr ; import org . codehaus . groovy . control . ParserPlugin ; import org . codehaus . groovy . control . ParserPluginFactory ; public class ErrorRecoveredCSTParserPluginFactory extends ParserPluginFactory { private ICSTReporter cstReporter ; public ErrorRecoveredCSTParserPluginFactory ( ICSTReporter cstReporter ) { this . cstReporter = cstReporter ; } public ErrorRecoveredCSTParserPluginFactory ( ) { this . cstReporter = null ; } public ParserPlugin createParserPlugin ( ) { return new ErrorRecoveredCSTParserPlugin ( cstReporter ) ; } } </s>
<s> package org . codehaus . groovy . antlr ; import java . util . ArrayList ; import java . util . List ; import javax . swing . text . BadLocationException ; public class LocationSupport { private static final int [ ] NO_LINE_ENDINGS = new int [ <NUM_LIT:0> ] ; public static final LocationSupport NO_LOCATIONS = new LocationSupport ( ) ; private final int [ ] lineEndings ; public LocationSupport ( char [ ] contents ) { if ( contents != null ) { lineEndings = processLineEndings ( contents ) ; } else { lineEndings = NO_LINE_ENDINGS ; } } public LocationSupport ( List < StringBuffer > lines ) { if ( lines != null ) { lineEndings = processLineEndings ( lines ) ; } else { lineEndings = NO_LINE_ENDINGS ; } } public LocationSupport ( int [ ] lineEndings ) { this . lineEndings = lineEndings ; } public LocationSupport ( ) { lineEndings = NO_LINE_ENDINGS ; } private int [ ] processLineEndings ( List < StringBuffer > lines ) { int [ ] newLineEndings = new int [ lines . size ( ) + <NUM_LIT:1> ] ; int total = <NUM_LIT:0> ; int current = <NUM_LIT:1> ; for ( StringBuffer line : lines ) { newLineEndings [ current ++ ] = total += ( line . length ( ) ) ; } return newLineEndings ; } private int [ ] processLineEndings ( char [ ] contents ) { List < Integer > l = new ArrayList < Integer > ( ) ; for ( int i = <NUM_LIT:0> ; i < contents . length ; i ++ ) { if ( contents [ i ] == '<STR_LIT:\n>' ) { l . add ( i ) ; } else if ( contents [ i ] == '<STR_LIT>' ) { l . add ( i ) ; if ( i < contents . length && contents [ i ] == '<STR_LIT:\n>' ) { i ++ ; } } } int [ ] newLineEndings = new int [ l . size ( ) ] ; int i = <NUM_LIT:0> ; for ( Integer integer : l ) { newLineEndings [ i ] = integer . intValue ( ) ; } return newLineEndings ; } public int findOffset ( int row , int col ) { return row <= lineEndings . length && row > <NUM_LIT:0> ? lineEndings [ row - <NUM_LIT:1> ] + col - <NUM_LIT:1> : <NUM_LIT:0> ; } public int getEnd ( ) { return lineEndings . length > <NUM_LIT:0> ? lineEndings [ lineEndings . length - <NUM_LIT:1> ] : <NUM_LIT:0> ; } public int getEndColumn ( ) { if ( lineEndings . length > <NUM_LIT:1> ) { return lineEndings [ lineEndings . length - <NUM_LIT:1> ] - lineEndings [ lineEndings . length - <NUM_LIT:2> ] ; } else if ( lineEndings . length > <NUM_LIT:0> ) { return lineEndings [ <NUM_LIT:0> ] ; } else { return <NUM_LIT:0> ; } } public int getEndLine ( ) { return lineEndings . length > <NUM_LIT:0> ? lineEndings . length - <NUM_LIT:1> : <NUM_LIT:0> ; } public int [ ] getRowCol ( int offset ) { for ( int i = <NUM_LIT:1> ; i < lineEndings . length ; i ++ ) { if ( lineEndings [ i ] > offset ) { return new int [ ] { i , offset - lineEndings [ i - <NUM_LIT:1> ] + <NUM_LIT:1> } ; } } throw new RuntimeException ( "<STR_LIT>" + offset ) ; } public boolean isPopulated ( ) { return lineEndings . length > <NUM_LIT:0> ; } } </s>
<s> package org . codehaus . groovy . antlr ; import java . util . List ; import org . codehaus . groovy . antlr . GroovySourceAST ; public interface ICSTReporter { public void generatedCST ( String fileName , GroovySourceAST ast ) ; public void reportErrors ( String fileName , List errors ) ; } </s>
<s> package org . codehaus . groovy . ast ; public class GenericsType extends ASTNode { protected ClassNode [ ] upperBounds ; protected ClassNode lowerBound ; protected ClassNode type ; protected String name ; protected boolean placeholder ; private boolean resolved ; private boolean wildcard ; public GenericsType ( ClassNode type , ClassNode [ ] upperBounds , ClassNode lowerBound ) { this . type = type ; this . name = type . isGenericsPlaceHolder ( ) ? type . getUnresolvedName ( ) : type . getName ( ) ; this . upperBounds = upperBounds ; this . lowerBound = lowerBound ; placeholder = type . isGenericsPlaceHolder ( ) ; resolved = false ; } public GenericsType ( ) { } public GenericsType ( ClassNode basicType ) { this ( basicType , null , null ) ; } public ClassNode getType ( ) { return type ; } public void setType ( ClassNode type ) { this . type = type ; } public String toString ( ) { String ret = name ; if ( upperBounds != null ) { ret += "<STR_LIT>" ; for ( int i = <NUM_LIT:0> ; i < upperBounds . length ; i ++ ) { ret += upperBounds [ i ] . toString ( ) ; if ( i + <NUM_LIT:1> < upperBounds . length ) ret += "<STR_LIT>" ; } } else if ( lowerBound != null ) { ret += "<STR_LIT>" + lowerBound ; } return ret ; } public ClassNode [ ] getUpperBounds ( ) { return upperBounds ; } public String getName ( ) { return name ; } public boolean isPlaceholder ( ) { return placeholder ; } public void setPlaceholder ( boolean placeholder ) { this . placeholder = placeholder ; type . setGenericsPlaceHolder ( true ) ; } public boolean isResolved ( ) { return resolved \|\| placeholder ; } public void setResolved ( boolean res ) { resolved = res ; } public void setName ( String name ) { this . name = name ; } public boolean isWildcard ( ) { return wildcard ; } public void setWildcard ( boolean wildcard ) { this . wildcard = wildcard ; } public ClassNode getLowerBound ( ) { return lowerBound ; } public void setUpperBounds ( ClassNode [ ] bounds ) { this . upperBounds = bounds ; } public void setLowerBound ( ClassNode bound ) { this . lowerBound = bound ; } } </s>
<s> package org . codehaus . groovy . ast ; import org . codehaus . groovy . ast . expr . * ; import org . codehaus . groovy . ast . stmt . * ; import org . codehaus . groovy . classgen . BytecodeExpression ; import java . util . List ; public abstract class CodeVisitorSupport implements GroovyCodeVisitor { public void visitBlockStatement ( BlockStatement block ) { for ( Statement statement : block . getStatements ( ) ) { statement . visit ( this ) ; } } public void visitForLoop ( ForStatement forLoop ) { forLoop . getCollectionExpression ( ) . visit ( this ) ; forLoop . getLoopBlock ( ) . visit ( this ) ; } public void visitWhileLoop ( WhileStatement loop ) { loop . getBooleanExpression ( ) . visit ( this ) ; loop . getLoopBlock ( ) . visit ( this ) ; } public void visitDoWhileLoop ( DoWhileStatement loop ) { loop . getLoopBlock ( ) . visit ( this ) ; loop . getBooleanExpression ( ) . visit ( this ) ; } public void visitIfElse ( IfStatement ifElse ) { ifElse . getBooleanExpression ( ) . visit ( this ) ; ifElse . getIfBlock ( ) . visit ( this ) ; Statement elseBlock = ifElse . getElseBlock ( ) ; if ( elseBlock instanceof EmptyStatement ) { visitEmptyStatement ( ( EmptyStatement ) elseBlock ) ; } else { elseBlock . visit ( this ) ; } } public void visitExpressionStatement ( ExpressionStatement statement ) { statement . getExpression ( ) . visit ( this ) ; } public void visitReturnStatement ( ReturnStatement statement ) { statement . getExpression ( ) . visit ( this ) ; } public void visitAssertStatement ( AssertStatement statement ) { statement . getBooleanExpression ( ) . visit ( this ) ; statement . getMessageExpression ( ) . visit ( this ) ; } public void visitTryCatchFinally ( TryCatchStatement statement ) { statement . getTryStatement ( ) . visit ( this ) ; for ( CatchStatement catchStatement : statement . getCatchStatements ( ) ) { catchStatement . visit ( this ) ; } Statement finallyStatement = statement . getFinallyStatement ( ) ; if ( finallyStatement instanceof EmptyStatement ) { visitEmptyStatement ( ( EmptyStatement ) finallyStatement ) ; } else { finallyStatement . visit ( this ) ; } } protected void visitEmptyStatement ( EmptyStatement statement ) { } public void visitSwitch ( SwitchStatement statement ) { statement . getExpression ( ) . visit ( this ) ; for ( CaseStatement caseStatement : statement . getCaseStatements ( ) ) { caseStatement . visit ( this ) ; } statement . getDefaultStatement ( ) . visit ( this ) ; } public void visitCaseStatement ( CaseStatement statement ) { statement . getExpression ( ) . visit ( this ) ; statement . getCode ( ) . visit ( this ) ; } public void visitBreakStatement ( BreakStatement statement ) { } public void visitContinueStatement ( ContinueStatement statement ) { } public void visitSynchronizedStatement ( SynchronizedStatement statement ) { statement . getExpression ( ) . visit ( this ) ; statement . getCode ( ) . visit ( this ) ; } public void visitThrowStatement ( ThrowStatement statement ) { statement . getExpression ( ) . visit ( this ) ; } public void visitMethodCallExpression ( MethodCallExpression call ) { call . getObjectExpression ( ) . visit ( this ) ; call . getMethod ( ) . visit ( this ) ; call . getArguments ( ) . visit ( this ) ; } public void visitStaticMethodCallExpression ( StaticMethodCallExpression call ) { call . getArguments ( ) . visit ( this ) ; } public void visitConstructorCallExpression ( ConstructorCallExpression call ) { call . getArguments ( ) . visit ( this ) ; } public void visitBinaryExpression ( BinaryExpression expression ) { expression . getLeftExpression ( ) . visit ( this ) ; expression . getRightExpression ( ) . visit ( this ) ; } public void visitTernaryExpression ( TernaryExpression expression ) { expression . getBooleanExpression ( ) . visit ( this ) ; expression . getTrueExpression ( ) . visit ( this ) ; expression . getFalseExpression ( ) . visit ( this ) ; } public void visitShortTernaryExpression ( ElvisOperatorExpression expression ) { visitTernaryExpression ( expression ) ; } public void visitPostfixExpression ( PostfixExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitPrefixExpression ( PrefixExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitBooleanExpression ( BooleanExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitNotExpression ( NotExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitClosureExpression ( ClosureExpression expression ) { expression . getCode ( ) . visit ( this ) ; } public void visitTupleExpression ( TupleExpression expression ) { visitListOfExpressions ( expression . getExpressions ( ) ) ; } public void visitListExpression ( ListExpression expression ) { visitListOfExpressions ( expression . getExpressions ( ) ) ; } public void visitArrayExpression ( ArrayExpression expression ) { visitListOfExpressions ( expression . getExpressions ( ) ) ; visitListOfExpressions ( expression . getSizeExpression ( ) ) ; } public void visitMapExpression ( MapExpression expression ) { visitListOfExpressions ( expression . getMapEntryExpressions ( ) ) ; } public void visitMapEntryExpression ( MapEntryExpression expression ) { expression . getKeyExpression ( ) . visit ( this ) ; expression . getValueExpression ( ) . visit ( this ) ; } public void visitRangeExpression ( RangeExpression expression ) { expression . getFrom ( ) . visit ( this ) ; expression . getTo ( ) . visit ( this ) ; } public void visitSpreadExpression ( SpreadExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitSpreadMapExpression ( SpreadMapExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitMethodPointerExpression ( MethodPointerExpression expression ) { expression . getExpression ( ) . visit ( this ) ; expression . getMethodName ( ) . visit ( this ) ; } public void visitUnaryMinusExpression ( UnaryMinusExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitUnaryPlusExpression ( UnaryPlusExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitBitwiseNegationExpression ( BitwiseNegationExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitCastExpression ( CastExpression expression ) { expression . getExpression ( ) . visit ( this ) ; } public void visitConstantExpression ( ConstantExpression expression ) { } public void visitClassExpression ( ClassExpression expression ) { } public void visitVariableExpression ( VariableExpression expression ) { } public void visitDeclarationExpression ( DeclarationExpression expression ) { visitBinaryExpression ( expression ) ; } public void visitPropertyExpression ( PropertyExpression expression ) { expression . getObjectExpression ( ) . visit ( this ) ; expression . getProperty ( ) . visit ( this ) ; } public void visitAttributeExpression ( AttributeExpression expression ) { expression . getObjectExpression ( ) . visit ( this ) ; expression . getProperty ( ) . visit ( this ) ; } public void visitFieldExpression ( FieldExpression expression ) { } @ Deprecated public void visitRegexExpression ( RegexExpression expression ) { } public void visitGStringExpression ( GStringExpression expression ) { visitListOfExpressions ( expression . getStrings ( ) ) ; visitListOfExpressions ( expression . getValues ( ) ) ; } protected void visitListOfExpressions ( List < ? extends Expression > list ) { if ( list == null ) return ; for ( Expression expression : list ) { if ( expression instanceof SpreadExpression ) { Expression spread = ( ( SpreadExpression ) expression ) . getExpression ( ) ; spread . visit ( this ) ; } else { if ( expression != null ) expression . visit ( this ) ; } } } public void visitCatchStatement ( CatchStatement statement ) { statement . getCode ( ) . visit ( this ) ; } public void visitArgumentlistExpression ( ArgumentListExpression ale ) { visitTupleExpression ( ale ) ; } public void visitClosureListExpression ( ClosureListExpression cle ) { visitListOfExpressions ( cle . getExpressions ( ) ) ; } public void visitBytecodeExpression ( BytecodeExpression cle ) { } } </s>
<s> package org . codehaus . groovy . ast ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . objectweb . asm . Opcodes ; public class ImportNode extends AnnotatedNode implements Opcodes { private final ClassNode type ; private final String alias ; private final String fieldName ; private final String packageName ; private final boolean isStar ; private final boolean isStatic ; public ImportNode ( ClassNode type , String alias ) { this . type = type ; this . alias = alias ; this . isStar = false ; this . isStatic = false ; this . packageName = null ; this . fieldName = null ; } public ImportNode ( String packageName ) { this . type = null ; this . alias = null ; this . isStar = true ; this . isStatic = false ; this . packageName = packageName ; this . fieldName = null ; } public ImportNode ( ClassNode type ) { this . type = type ; this . alias = null ; this . isStar = true ; this . isStatic = true ; this . packageName = null ; this . fieldName = null ; } public ImportNode ( ClassNode type , String fieldName , String alias ) { this . type = type ; this . alias = alias ; this . isStar = false ; this . isStatic = true ; this . packageName = null ; this . fieldName = fieldName ; } public String getText ( ) { String typeName = getClassName ( ) ; if ( isStar && ! isStatic ) { return "<STR_LIT>" + packageName + "<STR_LIT:*>" ; } if ( isStar ) { return "<STR_LIT>" + typeName + "<STR_LIT>" ; } if ( isStatic ) { if ( alias != null && alias . length ( ) != <NUM_LIT:0> && ! alias . equals ( fieldName ) ) { return "<STR_LIT>" + typeName + "<STR_LIT:.>" + fieldName + "<STR_LIT>" + alias ; } return "<STR_LIT>" + typeName + "<STR_LIT:.>" + fieldName ; } if ( alias == null \|\| alias . length ( ) == <NUM_LIT:0> ) { return "<STR_LIT>" + typeName ; } return "<STR_LIT>" + typeName + "<STR_LIT>" + alias ; } public String getPackageName ( ) { return packageName ; } public String getFieldName ( ) { return fieldName ; } public boolean isStar ( ) { return isStar ; } public boolean isStatic ( ) { return isStatic ; } public String getAlias ( ) { return alias ; } public ClassNode getType ( ) { return type ; } public String getClassName ( ) { return type == null ? null : type . getName ( ) ; } public void visit ( GroovyCodeVisitor visitor ) { } private boolean unresolvable = false ; private ConstantExpression aliasExpr ; private ConstantExpression fieldNameExpr ; public ConstantExpression getFieldNameExpr ( ) { return fieldNameExpr ; } public void setFieldNameExpr ( ConstantExpression fieldNameExpr ) { this . fieldNameExpr = fieldNameExpr ; } public ConstantExpression getAliasExpr ( ) { return aliasExpr ; } public void setAliasExpr ( ConstantExpression aliasExpr ) { this . aliasExpr = aliasExpr ; } public void markAsUnresolvable ( ) { unresolvable = true ; } public boolean isUnresolvable ( ) { return unresolvable ; } public boolean isStaticStar ( ) { return type != null && alias == null ; } } </s>
<s> package org . codehaus . groovy . ast ; public class PackageNode extends AnnotatedNode { private final String packageName ; public PackageNode ( String packageName ) { this . packageName = packageName ; } public String getText ( ) { return "<STR_LIT>" + packageName ; } public String getPackageName ( ) { return packageName ; } public void visit ( GroovyCodeVisitor visitor ) { } } </s>
<s> package org . codehaus . groovy . ast ; import java . util . Comparator ; import java . util . List ; import java . util . Map ; import java . util . SortedSet ; import java . util . TreeSet ; public class ImportNodeCompatibilityWrapper { private class ImportNodeComparator implements Comparator < ImportNode > { public int compare ( ImportNode i1 , ImportNode i2 ) { int start1 = i1 . getStart ( ) ; if ( start1 <= <NUM_LIT:0> && i1 . getType ( ) != null ) { start1 = i1 . getType ( ) . getStart ( ) ; } int start2 = i2 . getStart ( ) ; if ( start2 <= <NUM_LIT:0> && i2 . getType ( ) != null ) { start2 = i2 . getType ( ) . getStart ( ) ; } return start1 - start2 ; } } private SortedSet < ImportNode > sortedImports ; private ModuleNode module ; public ImportNodeCompatibilityWrapper ( ModuleNode module ) { if ( module == null ) { throw new IllegalArgumentException ( "<STR_LIT>" ) ; } this . module = module ; } public SortedSet < ImportNode > getAllImportNodes ( ) { if ( sortedImports == null ) { initialize ( ) ; } return sortedImports ; } private void initialize ( ) { sortedImports = new TreeSet < ImportNode > ( new ImportNodeComparator ( ) ) ; sortedImports . addAll ( module . getImports ( ) ) ; sortedImports . addAll ( module . getStarImports ( ) ) ; sortedImports . addAll ( module . getStaticStarImports ( ) . values ( ) ) ; sortedImports . addAll ( module . getStaticImports ( ) . values ( ) ) ; } public static String getFieldName ( ImportNode node ) { return node . getFieldName ( ) ; } public static Map < String , ImportNode > getStaticImports ( ModuleNode node ) { return node . getStaticImports ( ) ; } public static Map < String , ImportNode > getStaticStarImports ( ModuleNode node ) { return node . getStaticStarImports ( ) ; } public static List < ImportNode > getStarImports ( ModuleNode node ) { return node . getStarImports ( ) ; } } </s>
<s> package org . codehaus . groovy . ast ; import groovy . lang . Binding ; import java . io . File ; import java . util . ArrayList ; import java . util . HashMap ; import java . util . Iterator ; import java . util . LinkedHashMap ; import java . util . LinkedList ; import java . util . List ; import java . util . Map ; import org . codehaus . groovy . ast . expr . ArgumentListExpression ; import org . codehaus . groovy . ast . expr . ClassExpression ; import org . codehaus . groovy . ast . expr . MethodCallExpression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . codehaus . groovy . ast . stmt . BlockStatement ; import org . codehaus . groovy . ast . stmt . ExpressionStatement ; import org . codehaus . groovy . ast . stmt . Statement ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . runtime . InvokerHelper ; import org . objectweb . asm . Opcodes ; public class ModuleNode extends ASTNode implements Opcodes { private BlockStatement statementBlock = new BlockStatement ( ) ; List < ClassNode > classes = new LinkedList < ClassNode > ( ) ; private List < MethodNode > methods = new ArrayList < MethodNode > ( ) ; private Map < String , ImportNode > imports = new HashMap < String , ImportNode > ( ) ; private List < ImportNode > starImports = new ArrayList < ImportNode > ( ) ; private Map < String , ImportNode > staticImports = new LinkedHashMap < String , ImportNode > ( ) ; private Map < String , ImportNode > staticStarImports = new LinkedHashMap < String , ImportNode > ( ) ; private CompileUnit unit ; private PackageNode packageNode ; private String description ; private boolean createClassForStatements = true ; private transient SourceUnit context ; private boolean importsResolved = false ; private ClassNode scriptDummy ; private String mainClassName = null ; public ModuleNode ( SourceUnit context ) { this . context = context ; } public ModuleNode ( CompileUnit unit ) { this . unit = unit ; } public BlockStatement getStatementBlock ( ) { return statementBlock ; } public List < MethodNode > getMethods ( ) { return methods ; } public List < ClassNode > getClasses ( ) { if ( createClassForStatements && ( ! statementBlock . isEmpty ( ) \|\| ! methods . isEmpty ( ) \|\| isPackageInfo ( ) ) ) { ClassNode mainClass = createStatementsClass ( ) ; mainClassName = mainClass . getName ( ) ; createClassForStatements = false ; classes . add ( <NUM_LIT:0> , mainClass ) ; mainClass . setModule ( this ) ; addToCompileUnit ( mainClass ) ; } return classes ; } private int knowIfPackageInfo = <NUM_LIT:0> ; private boolean encounteredUnrecoverableError ; public void setEncounteredUnrecoverableError ( boolean b ) { encounteredUnrecoverableError = b ; } public boolean encounteredUnrecoverableError ( ) { return encounteredUnrecoverableError ; } private boolean isPackageInfo ( ) { if ( knowIfPackageInfo == <NUM_LIT:0> ) { if ( context != null && context . getName ( ) != null && context . getName ( ) . endsWith ( "<STR_LIT>" ) ) { knowIfPackageInfo = <NUM_LIT:1> ; } else { knowIfPackageInfo = <NUM_LIT:2> ; } } return knowIfPackageInfo == <NUM_LIT:1> ; } public List < ImportNode > getImports ( ) { return new ArrayList < ImportNode > ( imports . values ( ) ) ; } @ Deprecated public List < String > getImportPackages ( ) { List < String > result = new ArrayList < String > ( ) ; for ( ImportNode importStarNode : starImports ) { result . add ( importStarNode . getPackageName ( ) ) ; } return result ; } public List < ImportNode > getStarImports ( ) { return starImports ; } public ClassNode getImportType ( String alias ) { ImportNode importNode = imports . get ( alias ) ; return importNode == null ? null : importNode . getType ( ) ; } public ImportNode getImport ( String alias ) { return imports . get ( alias ) ; } public void addImport ( String alias , ClassNode type ) { addImport ( alias , type , new ArrayList < AnnotationNode > ( ) ) ; } public void addImport ( String alias , ClassNode type , List < AnnotationNode > annotations ) { ImportNode importNode = new ImportNode ( type , alias ) ; if ( type != null ) { importNode . setSourcePosition ( type ) ; importNode . setColumnNumber ( <NUM_LIT:1> ) ; importNode . setStart ( type . getStart ( ) - type . getColumnNumber ( ) + <NUM_LIT:1> ) ; } imports . put ( alias , importNode ) ; importNode . addAnnotations ( annotations ) ; } @ Deprecated public String [ ] addImportPackage ( String packageName ) { addStarImport ( packageName ) ; return new String [ ] { } ; } public void addStarImport ( String packageName ) { addStarImport ( packageName , new ArrayList < AnnotationNode > ( ) ) ; } public void addStarImport ( String packageName , List < AnnotationNode > annotations ) { ImportNode importNode = new ImportNode ( packageName ) ; importNode . addAnnotations ( annotations ) ; starImports . add ( importNode ) ; } public void addStatement ( Statement node ) { statementBlock . addStatement ( node ) ; } public void addClass ( ClassNode node ) { if ( classes . isEmpty ( ) ) mainClassName = node . getName ( ) ; classes . add ( node ) ; node . setModule ( this ) ; addToCompileUnit ( node ) ; } private void addToCompileUnit ( ClassNode node ) { if ( unit != null ) { unit . addClass ( node ) ; } } public void addMethod ( MethodNode node ) { methods . add ( node ) ; } public void visit ( GroovyCodeVisitor visitor ) { } public String getPackageName ( ) { return packageNode == null ? null : packageNode . getPackageName ( ) ; } public PackageNode getPackage ( ) { return packageNode ; } public void setPackage ( PackageNode packageNode ) { this . packageNode = packageNode ; } public void setPackageName ( String packageName ) { this . packageNode = new PackageNode ( packageName ) ; } public boolean hasPackageName ( ) { return packageNode != null && packageNode . getPackageName ( ) != null ; } public boolean hasPackage ( ) { return this . packageNode != null ; } public SourceUnit getContext ( ) { return context ; } public String getDescription ( ) { if ( context != null ) { return context . getName ( ) ; } else { return this . description ; } } public void setDescription ( String description ) { this . description = description ; } public CompileUnit getUnit ( ) { return unit ; } void setUnit ( CompileUnit unit ) { this . unit = unit ; } public ClassNode getScriptClassDummy ( ) { if ( scriptDummy != null ) { setScriptBaseClassFromConfig ( scriptDummy ) ; return scriptDummy ; } String name = getPackageName ( ) ; if ( name == null ) { name = "<STR_LIT>" ; } if ( getDescription ( ) == null ) { throw new RuntimeException ( "<STR_LIT>" ) ; } name += extractClassFromFileDescription ( ) ; ClassNode classNode ; if ( isPackageInfo ( ) ) { classNode = new ClassNode ( name , ACC_ABSTRACT \| ACC_INTERFACE , ClassHelper . OBJECT_TYPE ) ; } else { classNode = new ClassNode ( name , ACC_PUBLIC , ClassHelper . SCRIPT_TYPE ) ; setScriptBaseClassFromConfig ( classNode ) ; classNode . setScript ( true ) ; classNode . setScriptBody ( true ) ; } scriptDummy = classNode ; return classNode ; } private void setScriptBaseClassFromConfig ( ClassNode cn ) { if ( unit != null ) { String baseClassName = unit . getConfig ( ) . getScriptBaseClass ( ) ; if ( baseClassName != null ) { if ( ! cn . getSuperClass ( ) . getName ( ) . equals ( baseClassName ) ) { cn . setSuperClass ( ClassHelper . make ( baseClassName ) ) ; } } } } protected ClassNode createStatementsClass ( ) { ClassNode classNode = getScriptClassDummy ( ) ; if ( classNode . getName ( ) . endsWith ( "<STR_LIT>" ) ) { return classNode ; } handleMainMethodIfPresent ( methods ) ; classNode . addMethod ( new MethodNode ( "<STR_LIT>" , ACC_PUBLIC \| ACC_STATIC , ClassHelper . VOID_TYPE , new Parameter [ ] { new Parameter ( ClassHelper . STRING_TYPE . makeArray ( ) , "<STR_LIT>" ) } , ClassNode . EMPTY_ARRAY , new ExpressionStatement ( new MethodCallExpression ( new ClassExpression ( ClassHelper . make ( InvokerHelper . class ) ) , "<STR_LIT>" , new ArgumentListExpression ( new ClassExpression ( classNode ) , new VariableExpression ( "<STR_LIT>" ) ) ) ) ) ) ; classNode . addMethod ( new MethodNode ( "<STR_LIT>" , ACC_PUBLIC , ClassHelper . OBJECT_TYPE , Parameter . EMPTY_ARRAY , ClassNode . EMPTY_ARRAY , statementBlock ) ) ; classNode . addConstructor ( ACC_PUBLIC , Parameter . EMPTY_ARRAY , ClassNode . EMPTY_ARRAY , new BlockStatement ( ) ) ; Statement stmt = new ExpressionStatement ( new MethodCallExpression ( new VariableExpression ( "<STR_LIT>" ) , "<STR_LIT>" , new ArgumentListExpression ( new VariableExpression ( "<STR_LIT>" ) ) ) ) ; classNode . addConstructor ( ACC_PUBLIC , new Parameter [ ] { new Parameter ( ClassHelper . make ( Binding . class ) , "<STR_LIT>" ) } , ClassNode . EMPTY_ARRAY , stmt ) ; for ( MethodNode node : methods ) { int modifiers = node . getModifiers ( ) ; if ( ( modifiers & ACC_ABSTRACT ) != <NUM_LIT:0> ) { throw new RuntimeException ( "<STR_LIT>" + node . getName ( ) ) ; } node . setModifiers ( modifiers ) ; classNode . addMethod ( node ) ; } return classNode ; } private void handleMainMethodIfPresent ( List methods ) { boolean found = false ; for ( Iterator iter = methods . iterator ( ) ; iter . hasNext ( ) ; ) { MethodNode node = ( MethodNode ) iter . next ( ) ; if ( node . getName ( ) . equals ( "<STR_LIT>" ) ) { int modifiers = node . getModifiers ( ) ; if ( node . isStatic ( ) && node . getParameters ( ) . length == <NUM_LIT:1> ) { boolean retTypeMatches , argTypeMatches ; ClassNode argType = node . getParameters ( ) [ <NUM_LIT:0> ] . getType ( ) ; ClassNode retType = node . getReturnType ( ) ; argTypeMatches = ( argType . equals ( ClassHelper . OBJECT_TYPE ) \|\| argType . getName ( ) . contains ( "<STR_LIT>" ) ) ; retTypeMatches = ( retType == ClassHelper . VOID_TYPE \|\| retType == ClassHelper . OBJECT_TYPE ) ; if ( retTypeMatches && argTypeMatches ) { if ( found ) { throw new RuntimeException ( "<STR_LIT>" ) ; } else { found = true ; } if ( statementBlock . isEmpty ( ) ) { addStatement ( node . getCode ( ) ) ; } iter . remove ( ) ; } } } } } protected String extractClassFromFileDescription ( ) { String answer = getDescription ( ) ; int slashIdx = answer . lastIndexOf ( '<CHAR_LIT:/>' ) ; int separatorIdx = answer . lastIndexOf ( File . separatorChar ) ; int dotIdx = answer . lastIndexOf ( '<CHAR_LIT:.>' ) ; if ( dotIdx > <NUM_LIT:0> && dotIdx > Math . max ( slashIdx , separatorIdx ) ) { answer = answer . substring ( <NUM_LIT:0> , dotIdx ) ; } if ( slashIdx >= <NUM_LIT:0> ) { answer = answer . substring ( slashIdx + <NUM_LIT:1> ) ; } separatorIdx = answer . lastIndexOf ( File . separatorChar ) ; if ( separatorIdx >= <NUM_LIT:0> ) { answer = answer . substring ( separatorIdx + <NUM_LIT:1> ) ; } return answer ; } public boolean isEmpty ( ) { return classes . isEmpty ( ) && statementBlock . getStatements ( ) . isEmpty ( ) ; } public void sortClasses ( ) { if ( isEmpty ( ) ) return ; List < ClassNode > classes = getClasses ( ) ; LinkedList < ClassNode > sorted = new LinkedList < ClassNode > ( ) ; int level = <NUM_LIT:1> ; while ( ! classes . isEmpty ( ) ) { for ( Iterator < ClassNode > cni = classes . iterator ( ) ; cni . hasNext ( ) ; ) { ClassNode cn = cni . next ( ) ; ClassNode sn = cn ; for ( int i = <NUM_LIT:0> ; sn != null && i < level ; i ++ ) sn = sn . getSuperClass ( ) ; if ( sn != null && sn . isPrimaryClassNode ( ) ) continue ; cni . remove ( ) ; sorted . addLast ( cn ) ; } level ++ ; } this . classes = sorted ; } public boolean hasImportsResolved ( ) { return importsResolved ; } public void setImportsResolved ( boolean importsResolved ) { this . importsResolved = importsResolved ; } @ Deprecated public Map < String , ClassNode > getStaticImportAliases ( ) { Map < String , ClassNode > result = new HashMap < String , ClassNode > ( ) ; for ( Map . Entry < String , ImportNode > entry : staticImports . entrySet ( ) ) { result . put ( entry . getKey ( ) , entry . getValue ( ) . getType ( ) ) ; } return result ; } @ Deprecated public Map < String , ClassNode > getStaticImportClasses ( ) { Map < String , ClassNode > result = new HashMap < String , ClassNode > ( ) ; for ( Map . Entry < String , ImportNode > entry : staticStarImports . entrySet ( ) ) { result . put ( entry . getKey ( ) , entry . getValue ( ) . getType ( ) ) ; } return result ; } @ Deprecated public Map < String , String > getStaticImportFields ( ) { Map < String , String > result = new HashMap < String , String > ( ) ; for ( Map . Entry < String , ImportNode > entry : staticImports . entrySet ( ) ) { result . put ( entry . getKey ( ) , entry . getValue ( ) . getFieldName ( ) ) ; } return result ; } public Map < String , ImportNode > getStaticImports ( ) { return staticImports ; } public Map < String , ImportNode > getStaticStarImports ( ) { return staticStarImports ; } @ Deprecated public void addStaticMethodOrField ( ClassNode type , String fieldName , String alias ) { addStaticImport ( type , fieldName , alias ) ; } public void addStaticImport ( ClassNode type , String fieldName , String alias ) { addStaticImport ( type , fieldName , alias , new ArrayList < AnnotationNode > ( ) ) ; } public void addStaticImport ( ClassNode type , String fieldName , String alias , List < AnnotationNode > annotations ) { ImportNode node = new ImportNode ( type , fieldName , alias ) ; node . addAnnotations ( annotations ) ; staticImports . put ( alias , node ) ; } @ Deprecated public void addStaticImportClass ( String name , ClassNode type ) { addStaticStarImport ( name , type ) ; } public void addStaticStarImport ( String name , ClassNode type ) { addStaticStarImport ( name , type , new ArrayList < AnnotationNode > ( ) ) ; } public void addStaticStarImport ( String name , ClassNode type , List < AnnotationNode > annotations ) { ImportNode node = new ImportNode ( type ) ; node . addAnnotations ( annotations ) ; staticStarImports . put ( name , node ) ; } public String getMainClassName ( ) { return mainClassName ; } } </s>
<s> package org . codehaus . groovy . ast ; public class TaskEntry { public int start ; private int end ; public String taskTag ; public String taskPriority ; public TaskEntry isAdjacentTo ; private String commentText ; private int offsetToStartOfCommentTextInFile ; public TaskEntry ( int startOffset , int endOffset , String taskTag , String taskPriority , String commentText , int offsetToStartOfCommentTextInFile ) { this . start = startOffset ; this . end = endOffset ; this . taskTag = taskTag ; this . taskPriority = taskPriority ; this . commentText = commentText ; this . offsetToStartOfCommentTextInFile = offsetToStartOfCommentTextInFile ; } public int getEnd ( ) { if ( isAdjacentTo != null ) { return isAdjacentTo . getEnd ( ) ; } return end ; } public void setEnd ( int end ) { this . end = end ; } public String getText ( ) { if ( isAdjacentTo != null ) { return isAdjacentTo . getText ( ) ; } else { int commentStartIndex = start - offsetToStartOfCommentTextInFile + taskTag . length ( ) ; int commentEndIndex = end - offsetToStartOfCommentTextInFile + <NUM_LIT:1> ; return commentText . substring ( commentStartIndex , commentEndIndex ) . trim ( ) ; } } public String toString ( ) { StringBuffer task = new StringBuffer ( ) ; task . append ( "<STR_LIT>" + taskTag + "<STR_LIT:[>" + getText ( ) + "<STR_LIT>" + start + "<STR_LIT>" + end + "<STR_LIT:(>" + getEnd ( ) + "<STR_LIT:)>" ) ; return task . toString ( ) ; } } </s>
<s> package org . codehaus . groovy . ast ; import java . util . Collections ; import java . util . Iterator ; import java . util . List ; import org . objectweb . asm . Opcodes ; public class ASTNodeCompatibilityWrapper { private ASTNodeCompatibilityWrapper ( ) { } public static ClassNode getScriptClassDummy ( ModuleNode module ) { return module . getScriptClassDummy ( ) ; } public static Iterator < InnerClassNode > getInnerClasses ( ClassNode clazz ) { return clazz . getInnerClasses ( ) ; } } </s>
<s> package org . codehaus . groovy . ast . expr ; import java . util . Map ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . GroovyCodeVisitor ; public class AnnotationConstantExpression extends ConstantExpression { public AnnotationConstantExpression ( AnnotationNode node ) { super ( node ) ; setType ( node . getClassNode ( ) ) ; } public void visit ( GroovyCodeVisitor visitor ) { AnnotationNode node = ( AnnotationNode ) getValue ( ) ; Map < String , Expression > attrs = node . getMembers ( ) ; for ( Expression expr : attrs . values ( ) ) { expr . visit ( visitor ) ; } super . visit ( visitor ) ; } } </s>
<s> package org . codehaus . groovy . ast ; import org . codehaus . groovy . ast . stmt . BlockStatement ; import org . codehaus . groovy . ast . stmt . Statement ; import org . objectweb . asm . Opcodes ; import java . util . List ; public class MethodNode extends AnnotatedNode implements Opcodes { private final String name ; private int modifiers ; private ClassNode returnType ; private Parameter [ ] parameters ; private boolean hasDefaultValue = false ; private Statement code ; private boolean dynamicReturnType ; private VariableScope variableScope ; private final ClassNode [ ] exceptions ; private final boolean staticConstructor ; private GenericsType [ ] genericsTypes = null ; private boolean hasDefault ; String typeDescriptor ; public MethodNode ( String name , int modifiers , ClassNode returnType , Parameter [ ] parameters , ClassNode [ ] exceptions , Statement code ) { this . name = name ; this . modifiers = modifiers ; this . code = code ; setReturnType ( returnType ) ; VariableScope scope = new VariableScope ( ) ; setVariableScope ( scope ) ; setParameters ( parameters ) ; this . hasDefault = false ; this . exceptions = exceptions ; this . staticConstructor = ( name != null && name . equals ( "<STR_LIT>" ) ) ; } public String getTypeDescriptor ( ) { if ( typeDescriptor == null ) { StringBuffer buf = new StringBuffer ( name . length ( ) + parameters . length * <NUM_LIT:10> ) ; buf . append ( returnType . getName ( ) ) ; buf . append ( '<CHAR_LIT:U+0020>' ) ; buf . append ( name ) ; buf . append ( '<CHAR_LIT:(>' ) ; for ( int i = <NUM_LIT:0> ; i < parameters . length ; i ++ ) { if ( i > <NUM_LIT:0> ) { buf . append ( "<STR_LIT:U+002CU+0020>" ) ; } Parameter param = parameters [ i ] ; buf . append ( param . getType ( ) . getName ( ) ) ; } buf . append ( '<CHAR_LIT:)>' ) ; typeDescriptor = buf . toString ( ) ; } return typeDescriptor ; } private void invalidateCachedData ( ) { typeDescriptor = null ; } public boolean isVoidMethod ( ) { return returnType == ClassHelper . VOID_TYPE ; } public Statement getCode ( ) { return code ; } public void setCode ( Statement code ) { this . code = code ; } public int getModifiers ( ) { return modifiers ; } public void setModifiers ( int modifiers ) { invalidateCachedData ( ) ; this . modifiers = modifiers ; } public String getName ( ) { return name ; } public Parameter [ ] getParameters ( ) { return parameters ; } public void setParameters ( Parameter [ ] parameters ) { invalidateCachedData ( ) ; VariableScope scope = new VariableScope ( ) ; this . parameters = parameters ; if ( parameters != null && parameters . length > <NUM_LIT:0> ) { for ( Parameter para : parameters ) { if ( para . hasInitialExpression ( ) ) { this . hasDefaultValue = true ; } para . setInStaticContext ( isStatic ( ) ) ; scope . putDeclaredVariable ( para ) ; } } setVariableScope ( scope ) ; } public ClassNode getReturnType ( ) { return returnType ; } public VariableScope getVariableScope ( ) { return variableScope ; } public void setVariableScope ( VariableScope variableScope ) { this . variableScope = variableScope ; variableScope . setInStaticContext ( isStatic ( ) ) ; } public boolean isDynamicReturnType ( ) { return dynamicReturnType ; } public boolean isAbstract ( ) { return ( modifiers & ACC_ABSTRACT ) != <NUM_LIT:0> ; } public boolean isStatic ( ) { return ( modifiers & ACC_STATIC ) != <NUM_LIT:0> ; } public boolean isPublic ( ) { return ( modifiers & ACC_PUBLIC ) != <NUM_LIT:0> ; } public boolean isPrivate ( ) { return ( modifiers & ACC_PRIVATE ) != <NUM_LIT:0> ; } public boolean isProtected ( ) { return ( modifiers & ACC_PROTECTED ) != <NUM_LIT:0> ; } public boolean hasDefaultValue ( ) { return this . hasDefaultValue ; } public String toString ( ) { return "<STR_LIT>" + hashCode ( ) + "<STR_LIT:[>" + getTypeDescriptor ( ) + "<STR_LIT:]>" ; } public void setReturnType ( ClassNode returnType ) { invalidateCachedData ( ) ; dynamicReturnType \|= ClassHelper . DYNAMIC_TYPE == returnType ; this . returnType = returnType ; if ( returnType == null ) this . returnType = ClassHelper . OBJECT_TYPE ; } public ClassNode [ ] getExceptions ( ) { return exceptions ; } public Statement getFirstStatement ( ) { if ( code == null ) return null ; Statement first = code ; while ( first instanceof BlockStatement ) { List < Statement > list = ( ( BlockStatement ) first ) . getStatements ( ) ; if ( list . isEmpty ( ) ) { first = null ; } else { first = list . get ( <NUM_LIT:0> ) ; } } return first ; } public GenericsType [ ] getGenericsTypes ( ) { return genericsTypes ; } public void setGenericsTypes ( GenericsType [ ] genericsTypes ) { invalidateCachedData ( ) ; this . genericsTypes = genericsTypes ; } public void setAnnotationDefault ( boolean b ) { this . hasDefault = b ; } public boolean hasAnnotationDefault ( ) { return hasDefault ; } public boolean isStaticConstructor ( ) { return staticConstructor ; } private MethodNode original = this ; public MethodNode getOriginal ( ) { return original ; } public void setOriginal ( MethodNode original ) { this . original = original ; } public boolean isScriptBody ( ) { return getDeclaringClass ( ) != null && getDeclaringClass ( ) . isScript ( ) && getName ( ) . equals ( "<STR_LIT>" ) && ( parameters == null \|\| parameters . length == <NUM_LIT:0> ) && ( returnType != null && returnType . getName ( ) . equals ( "<STR_LIT>" ) ) ; } } </s>
<s> package org . codehaus . groovy . ast ; import java . util . List ; import java . util . Map ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . codehaus . groovy . ast . stmt . AssertStatement ; import org . codehaus . groovy . ast . stmt . BlockStatement ; import org . codehaus . groovy . ast . stmt . BreakStatement ; import org . codehaus . groovy . ast . stmt . CaseStatement ; import org . codehaus . groovy . ast . stmt . CatchStatement ; import org . codehaus . groovy . ast . stmt . ContinueStatement ; import org . codehaus . groovy . ast . stmt . DoWhileStatement ; import org . codehaus . groovy . ast . stmt . ExpressionStatement ; import org . codehaus . groovy . ast . stmt . ForStatement ; import org . codehaus . groovy . ast . stmt . IfStatement ; import org . codehaus . groovy . ast . stmt . ReturnStatement ; import org . codehaus . groovy . ast . stmt . Statement ; import org . codehaus . groovy . ast . stmt . SwitchStatement ; import org . codehaus . groovy . ast . stmt . SynchronizedStatement ; import org . codehaus . groovy . ast . stmt . ThrowStatement ; import org . codehaus . groovy . ast . stmt . TryCatchStatement ; import org . codehaus . groovy . ast . stmt . WhileStatement ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . control . messages . SyntaxErrorMessage ; import org . codehaus . groovy . syntax . SyntaxException ; import org . codehaus . groovy . syntax . PreciseSyntaxException ; public abstract class ClassCodeVisitorSupport extends CodeVisitorSupport implements GroovyClassVisitor { public void visitClass ( ClassNode node ) { visitAnnotations ( node ) ; visitPackage ( node . getPackage ( ) ) ; visitImports ( node . getModule ( ) ) ; node . visitContents ( this ) ; visitObjectInitializerStatements ( node ) ; } protected void visitObjectInitializerStatements ( ClassNode node ) { for ( Statement element : node . getObjectInitializerStatements ( ) ) { element . visit ( this ) ; } } public void visitPackage ( PackageNode node ) { if ( node != null ) { visitAnnotations ( node ) ; node . visit ( this ) ; } } public void visitImports ( ModuleNode node ) { if ( node != null ) { for ( ImportNode importNode : node . getImports ( ) ) { visitAnnotations ( importNode ) ; importNode . visit ( this ) ; } for ( ImportNode importStarNode : node . getStarImports ( ) ) { visitAnnotations ( importStarNode ) ; importStarNode . visit ( this ) ; } for ( ImportNode importStaticNode : node . getStaticImports ( ) . values ( ) ) { visitAnnotations ( importStaticNode ) ; importStaticNode . visit ( this ) ; } for ( ImportNode importStaticStarNode : node . getStaticStarImports ( ) . values ( ) ) { visitAnnotations ( importStaticStarNode ) ; importStaticStarNode . visit ( this ) ; } } } public void visitAnnotations ( AnnotatedNode node ) { List < AnnotationNode > annotations = node . getAnnotations ( ) ; if ( annotations . isEmpty ( ) ) return ; for ( AnnotationNode an : annotations ) { if ( an . isBuiltIn ( ) ) continue ; for ( Map . Entry < String , Expression > member : an . getMembers ( ) . entrySet ( ) ) { member . getValue ( ) . visit ( this ) ; } } } protected void visitClassCodeContainer ( Statement code ) { if ( code != null ) code . visit ( this ) ; } @ Override public void visitVariableExpression ( VariableExpression expression ) { visitAnnotations ( expression ) ; super . visitVariableExpression ( expression ) ; } protected void visitConstructorOrMethod ( MethodNode node , boolean isConstructor ) { visitAnnotations ( node ) ; visitClassCodeContainer ( node . getCode ( ) ) ; for ( Parameter param : node . getParameters ( ) ) { visitAnnotations ( param ) ; } } public void visitConstructor ( ConstructorNode node ) { visitConstructorOrMethod ( node , true ) ; } public void visitMethod ( MethodNode node ) { visitConstructorOrMethod ( node , false ) ; } public void visitField ( FieldNode node ) { visitAnnotations ( node ) ; Expression init = node . getInitialExpression ( ) ; if ( init != null ) init . visit ( this ) ; } public void visitProperty ( PropertyNode node ) { visitAnnotations ( node ) ; Statement statement = node . getGetterBlock ( ) ; visitClassCodeContainer ( statement ) ; statement = node . getSetterBlock ( ) ; visitClassCodeContainer ( statement ) ; Expression init = node . getInitialExpression ( ) ; if ( init != null ) init . visit ( this ) ; } protected void addError ( String msg , ASTNode expr ) { int line = expr . getLineNumber ( ) ; int col = expr . getColumnNumber ( ) ; SourceUnit source = getSourceUnit ( ) ; source . getErrorCollector ( ) . addErrorAndContinue ( new SyntaxErrorMessage ( new SyntaxException ( msg + '<STR_LIT:\n>' , line , col ) , source ) ) ; } protected void addTypeError ( String msg , ClassNode expr ) { int line = expr . getLineNumber ( ) ; int col = expr . getColumnNumber ( ) ; SourceUnit source = getSourceUnit ( ) ; source . getErrorCollector ( ) . addErrorAndContinue ( new SyntaxErrorMessage ( new PreciseSyntaxException ( msg + '<STR_LIT:\n>' , line , col , expr . getNameStart ( ) , expr . getNameEnd ( ) ) , source ) ) ; } protected abstract SourceUnit getSourceUnit ( ) ; protected void visitStatement ( Statement statement ) { } public void visitAssertStatement ( AssertStatement statement ) { visitStatement ( statement ) ; super . visitAssertStatement ( statement ) ; } public void visitBlockStatement ( BlockStatement block ) { visitStatement ( block ) ; super . visitBlockStatement ( block ) ; } public void visitBreakStatement ( BreakStatement statement ) { visitStatement ( statement ) ; super . visitBreakStatement ( statement ) ; } public void visitCaseStatement ( CaseStatement statement ) { visitStatement ( statement ) ; super . visitCaseStatement ( statement ) ; } public void visitCatchStatement ( CatchStatement statement ) { visitStatement ( statement ) ; super . visitCatchStatement ( statement ) ; } public void visitContinueStatement ( ContinueStatement statement ) { visitStatement ( statement ) ; super . visitContinueStatement ( statement ) ; } public void visitDoWhileLoop ( DoWhileStatement loop ) { visitStatement ( loop ) ; super . visitDoWhileLoop ( loop ) ; } public void visitExpressionStatement ( ExpressionStatement statement ) { visitStatement ( statement ) ; super . visitExpressionStatement ( statement ) ; } public void visitForLoop ( ForStatement forLoop ) { visitStatement ( forLoop ) ; super . visitForLoop ( forLoop ) ; } public void visitIfElse ( IfStatement ifElse ) { visitStatement ( ifElse ) ; super . visitIfElse ( ifElse ) ; } public void visitReturnStatement ( ReturnStatement statement ) { visitStatement ( statement ) ; super . visitReturnStatement ( statement ) ; } public void visitSwitch ( SwitchStatement statement ) { visitStatement ( statement ) ; super . visitSwitch ( statement ) ; } public void visitSynchronizedStatement ( SynchronizedStatement statement ) { visitStatement ( statement ) ; super . visitSynchronizedStatement ( statement ) ; } public void visitThrowStatement ( ThrowStatement statement ) { visitStatement ( statement ) ; super . visitThrowStatement ( statement ) ; } public void visitTryCatchFinally ( TryCatchStatement statement ) { visitStatement ( statement ) ; super . visitTryCatchFinally ( statement ) ; } public void visitWhileLoop ( WhileStatement loop ) { visitStatement ( loop ) ; super . visitWhileLoop ( loop ) ; } } </s>
<s> package org . codehaus . groovy . ast ; import groovy . lang . GroovyObject ; import java . lang . reflect . Array ; import java . util . ArrayList ; import java . util . Collections ; import java . util . EnumMap ; import java . util . HashMap ; import java . util . HashSet ; import java . util . Iterator ; import java . util . LinkedHashSet ; import java . util . LinkedList ; import java . util . List ; import java . util . ListIterator ; import java . util . Map ; import java . util . Set ; import org . codehaus . groovy . GroovyBugError ; import org . codehaus . groovy . ast . expr . BinaryExpression ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . expr . FieldExpression ; import org . codehaus . groovy . ast . expr . MapExpression ; import org . codehaus . groovy . ast . expr . TupleExpression ; import org . codehaus . groovy . ast . stmt . BlockStatement ; import org . codehaus . groovy . ast . stmt . ExpressionStatement ; import org . codehaus . groovy . ast . stmt . Statement ; import org . codehaus . groovy . control . CompilePhase ; import org . codehaus . groovy . transform . ASTTransformation ; import org . codehaus . groovy . transform . GroovyASTTransformation ; import org . codehaus . groovy . vmplugin . VMPluginFactory ; import org . objectweb . asm . Opcodes ; public class ClassNode extends AnnotatedNode implements Opcodes { private static class MapOfLists { private Map < Object , List < MethodNode > > map = new HashMap < Object , List < MethodNode > > ( ) ; public List < MethodNode > get ( Object key ) { return map . get ( key ) ; } public List < MethodNode > getNotNull ( Object key ) { List < MethodNode > ret = get ( key ) ; if ( ret == null ) ret = Collections . emptyList ( ) ; return ret ; } public void put ( Object key , MethodNode value ) { if ( map . containsKey ( key ) ) { get ( key ) . add ( value ) ; } else { ArrayList < MethodNode > list = new ArrayList < MethodNode > ( <NUM_LIT:2> ) ; list . add ( value ) ; map . put ( key , list ) ; } } } public static final ClassNode [ ] EMPTY_ARRAY = new ClassNode [ <NUM_LIT:0> ] ; public static final ClassNode THIS = new ClassNode ( Object . class ) ; public static final ClassNode SUPER = new ClassNode ( Object . class ) ; private String name ; private int modifiers ; private ClassNode [ ] interfaces ; private MixinNode [ ] mixins ; private List < ConstructorNode > constructors ; private List < Statement > objectInitializers ; private MapOfLists methods ; private List < MethodNode > methodsList ; private LinkedList < FieldNode > fields ; private List < PropertyNode > properties ; private Map < String , FieldNode > fieldIndex ; private ModuleNode module ; private CompileUnit compileUnit ; private boolean staticClass = false ; private boolean scriptBody = false ; private boolean script ; private ClassNode superClass ; protected boolean isPrimaryNode ; protected List < InnerClassNode > innerClasses ; private int bitflags = <NUM_LIT> ; private static final int BIT_INCONSISTENT_HIERARCHY = <NUM_LIT> ; public boolean hasInconsistentHierarchy ( ) { return ( ( redirect ( ) . bitflags ) & BIT_INCONSISTENT_HIERARCHY ) != <NUM_LIT:0> ; } public void setHasInconsistentHierarchy ( boolean b ) { ClassNode redirect = redirect ( ) ; if ( b ) { redirect . bitflags \|= BIT_INCONSISTENT_HIERARCHY ; } else { redirect . bitflags &= ~ BIT_INCONSISTENT_HIERARCHY ; } } private Map < CompilePhase , Map < Class < ? extends ASTTransformation > , Set < ASTNode > > > transformInstances ; protected Object lazyInitLock = new Object ( ) ; protected Class clazz ; protected boolean lazyInitDone = true ; protected ClassNode componentType = null ; private ClassNode redirect = null ; private boolean annotated ; private GenericsType [ ] genericsTypes = null ; private boolean usesGenerics = false ; private boolean placeholder ; public ClassNode redirect ( ) { if ( redirect == null ) return this ; return redirect . redirect ( ) ; } public void setRedirect ( ClassNode cn ) { if ( isPrimaryNode ) throw new GroovyBugError ( "<STR_LIT>" + getName ( ) + "<STR_LIT>" + cn . getName ( ) + "<STR_LIT>" ) ; if ( cn != null ) cn = cn . redirect ( ) ; if ( cn == this ) return ; redirect = cn ; } public ClassNode makeArray ( ) { if ( redirect != null ) { ClassNode res = redirect ( ) . makeArray ( ) ; res . componentType = this ; return res ; } ClassNode cn ; if ( clazz != null ) { Class ret = Array . newInstance ( clazz , <NUM_LIT:0> ) . getClass ( ) ; cn = new ClassNode ( ret , this ) ; } else { cn = new ClassNode ( this ) ; } return cn ; } public boolean isPrimaryClassNode ( ) { return redirect ( ) . isPrimaryNode \|\| ( componentType != null && componentType . isPrimaryClassNode ( ) ) ; } public ClassNode ( ClassNode componentType ) { this ( computeArrayName ( componentType ) , ACC_PUBLIC , ClassHelper . OBJECT_TYPE ) ; this . componentType = componentType . redirect ( ) ; isPrimaryNode = false ; } public static String computeArrayName ( ClassNode componentType ) { String n = componentType . getName ( ) ; if ( componentType . isPrimitive ( ) ) { int len = n . length ( ) ; if ( len == <NUM_LIT:7> ) { return "<STR_LIT>" ; } else if ( len == <NUM_LIT:6> ) { return "<STR_LIT>" ; } else if ( len == <NUM_LIT:5> ) { if ( n . charAt ( <NUM_LIT:0> ) == '<CHAR_LIT>' ) { return "<STR_LIT>" ; } else { return "<STR_LIT>" ; } } else if ( len == <NUM_LIT:4> ) { switch ( n . charAt ( <NUM_LIT:0> ) ) { case '<CHAR_LIT:b>' : return "<STR_LIT>" ; case '<CHAR_LIT:c>' : return "<STR_LIT>" ; default : return "<STR_LIT>" ; } } else { return "<STR_LIT>" ; } } else if ( componentType . isArray ( ) ) { if ( n . charAt ( <NUM_LIT:0> ) == '<CHAR_LIT:[>' ) { return new StringBuilder ( "<STR_LIT:[>" ) . append ( n ) . toString ( ) ; } else { return new StringBuilder ( n ) . append ( "<STR_LIT:[]>" ) . toString ( ) ; } } else { return new StringBuilder ( "<STR_LIT>" ) . append ( componentType . getName ( ) ) . append ( "<STR_LIT:;>" ) . toString ( ) ; } } private ClassNode ( Class c , ClassNode componentType ) { this ( c ) ; this . componentType = componentType ; isPrimaryNode = false ; } public ClassNode ( Class c ) { this ( c . getName ( ) , c . getModifiers ( ) , null , null , MixinNode . EMPTY_ARRAY ) ; clazz = c ; lazyInitDone = false ; CompileUnit cu = getCompileUnit ( ) ; if ( cu != null ) cu . addClass ( this ) ; isPrimaryNode = false ; } public void lazyClassInit ( ) { synchronized ( lazyInitLock ) { if ( redirect != null ) { throw new GroovyBugError ( "<STR_LIT>" + "<STR_LIT>" ) ; } if ( lazyInitDone ) return ; VMPluginFactory . getPlugin ( ) . configureClassNode ( compileUnit , this ) ; lazyInitDone = true ; } } private MethodNode enclosingMethod = null ; public MethodNode getEnclosingMethod ( ) { return redirect ( ) . enclosingMethod ; } public void setEnclosingMethod ( MethodNode enclosingMethod ) { redirect ( ) . enclosingMethod = enclosingMethod ; } public ClassNode ( String name , int modifiers , ClassNode superClass ) { this ( name , modifiers , superClass , EMPTY_ARRAY , MixinNode . EMPTY_ARRAY ) ; } public ClassNode ( String name , int modifiers , ClassNode superClass , ClassNode [ ] interfaces , MixinNode [ ] mixins ) { this . name = name ; this . modifiers = modifiers ; this . superClass = superClass ; this . interfaces = interfaces ; this . mixins = mixins ; isPrimaryNode = true ; if ( superClass != null ) { usesGenerics = superClass . isUsingGenerics ( ) ; } if ( ! usesGenerics && interfaces != null ) { for ( ClassNode anInterface : interfaces ) { usesGenerics = usesGenerics \|\| anInterface . isUsingGenerics ( ) ; } } this . methods = new MapOfLists ( ) ; this . methodsList = new ArrayList < MethodNode > ( ) ; } public void setSuperClass ( ClassNode superClass ) { redirect ( ) . superClass = superClass ; } public List < FieldNode > getFields ( ) { if ( ! redirect ( ) . lazyInitDone ) redirect ( ) . lazyClassInit ( ) ; if ( redirect != null ) return redirect ( ) . getFields ( ) ; if ( fields == null ) fields = new LinkedList < FieldNode > ( ) ; return fields ; } public ClassNode [ ] getInterfaces ( ) { if ( ! redirect ( ) . lazyInitDone ) redirect ( ) . lazyClassInit ( ) ; if ( hasInconsistentHierarchy ( ) ) { return EMPTY_ARRAY ; } if ( redirect != null ) return redirect ( ) . getInterfaces ( ) ; return interfaces ; } public void setInterfaces ( ClassNode [ ] interfaces ) { if ( redirect != null ) { redirect ( ) . setInterfaces ( interfaces ) ; } else { this . interfaces = interfaces ; } } public MixinNode [ ] getMixins ( ) { return redirect ( ) . mixins ; } public List < MethodNode > getMethods ( ) { if ( ! redirect ( ) . lazyInitDone ) redirect ( ) . lazyClassInit ( ) ; if ( redirect != null ) return redirect ( ) . getMethods ( ) ; return methodsList ; } public List < MethodNode > getAbstractMethods ( ) { List < MethodNode > result = new ArrayList < MethodNode > ( <NUM_LIT:3> ) ; for ( MethodNode method : getDeclaredMethodsMap ( ) . values ( ) ) { if ( method . isAbstract ( ) ) { result . add ( method ) ; } } if ( result . isEmpty ( ) ) { return null ; } else { return result ; } } public List < MethodNode > getAllDeclaredMethods ( ) { return new ArrayList < MethodNode > ( getDeclaredMethodsMap ( ) . values ( ) ) ; } public Set < ClassNode > getAllInterfaces ( ) { Set < ClassNode > res = new HashSet < ClassNode > ( ) ; getAllInterfaces ( res ) ; return res ; } private void getAllInterfaces ( Set < ClassNode > res ) { if ( isInterface ( ) ) res . add ( this ) ; for ( ClassNode anInterface : getInterfaces ( ) ) { res . add ( anInterface ) ; anInterface . getAllInterfaces ( res ) ; } } public Map < String , MethodNode > getDeclaredMethodsMap ( ) { ClassNode parent = getSuperClass ( ) ; Map < String , MethodNode > result = null ; if ( parent != null ) { result = parent . getDeclaredMethodsMap ( ) ; } else { result = new HashMap < String , MethodNode > ( ) ; } for ( ClassNode iface : getInterfaces ( ) ) { Map < String , MethodNode > ifaceMethodsMap = iface . getDeclaredMethodsMap ( ) ; for ( String methSig : ifaceMethodsMap . keySet ( ) ) { if ( ! result . containsKey ( methSig ) ) { MethodNode methNode = ifaceMethodsMap . get ( methSig ) ; result . put ( methSig , methNode ) ; } } } for ( MethodNode method : getMethods ( ) ) { String sig = method . getTypeDescriptor ( ) ; result . put ( sig , method ) ; } return result ; } public String getName ( ) { return redirect ( ) . name ; } public String getUnresolvedName ( ) { return name ; } public String setName ( String name ) { return redirect ( ) . name = name ; } public int getModifiers ( ) { return redirect ( ) . modifiers ; } public void setModifiers ( int modifiers ) { redirect ( ) . modifiers = modifiers ; } protected void ensurePropertiesInitialized ( ) { } public List < PropertyNode > getProperties ( ) { redirect ( ) . ensurePropertiesInitialized ( ) ; final ClassNode r = redirect ( ) ; if ( r . properties == null ) r . properties = new ArrayList < PropertyNode > ( ) ; return r . properties ; } public List < ConstructorNode > getDeclaredConstructors ( ) { if ( ! redirect ( ) . lazyInitDone ) redirect ( ) . lazyClassInit ( ) ; final ClassNode r = redirect ( ) ; if ( r . constructors == null ) r . constructors = new ArrayList < ConstructorNode > ( ) ; return r . constructors ; } public ModuleNode getModule ( ) { return redirect ( ) . module ; } public PackageNode getPackage ( ) { return getModule ( ) == null ? null : getModule ( ) . getPackage ( ) ; } public void setModule ( ModuleNode module ) { redirect ( ) . module = module ; if ( module != null ) { redirect ( ) . compileUnit = module . getUnit ( ) ; } } public void addField ( FieldNode node ) { final ClassNode r = redirect ( ) ; node . setDeclaringClass ( r ) ; node . setOwner ( r ) ; if ( r . fields == null ) r . fields = new LinkedList < FieldNode > ( ) ; if ( r . fieldIndex == null ) r . fieldIndex = new HashMap < String , FieldNode > ( ) ; r . fields . add ( node ) ; r . fieldIndex . put ( node . getName ( ) , node ) ; } public void addFieldFirst ( FieldNode node ) { final ClassNode r = redirect ( ) ; node . setDeclaringClass ( r ) ; node . setOwner ( r ) ; if ( r . fields == null ) r . fields = new LinkedList < FieldNode > ( ) ; if ( r . fieldIndex == null ) r . fieldIndex = new HashMap < String , FieldNode > ( ) ; r . fields . addFirst ( node ) ; r . fieldIndex . put ( node . getName ( ) , node ) ; } public boolean isRedirectNode ( ) { return redirect != null ; } public void addPropertyWithoutField ( PropertyNode node ) { node . setDeclaringClass ( redirect ( ) ) ; final ClassNode r = redirect ( ) ; if ( r . properties == null ) r . properties = new ArrayList < PropertyNode > ( ) ; r . properties . add ( node ) ; } public void addProperty ( PropertyNode node ) { node . setDeclaringClass ( redirect ( ) ) ; FieldNode field = node . getField ( ) ; addField ( field ) ; final ClassNode r = redirect ( ) ; if ( r . properties == null ) r . properties = new ArrayList < PropertyNode > ( ) ; r . properties . add ( node ) ; } public PropertyNode addProperty ( String name , int modifiers , ClassNode type , Expression initialValueExpression , Statement getterBlock , Statement setterBlock ) { for ( PropertyNode pn : getProperties ( ) ) { if ( pn . getName ( ) . equals ( name ) ) { if ( pn . getInitialExpression ( ) == null && initialValueExpression != null ) pn . getField ( ) . setInitialValueExpression ( initialValueExpression ) ; if ( pn . getGetterBlock ( ) == null && getterBlock != null ) pn . setGetterBlock ( getterBlock ) ; if ( pn . getSetterBlock ( ) == null && setterBlock != null ) pn . setSetterBlock ( setterBlock ) ; return pn ; } } PropertyNode node = new PropertyNode ( name , modifiers , type , redirect ( ) , initialValueExpression , getterBlock , setterBlock ) ; addProperty ( node ) ; return node ; } public boolean hasProperty ( String name ) { return getProperty ( name ) != null ; } public PropertyNode getProperty ( String name ) { try { for ( PropertyNode pn : getProperties ( ) ) { String pname = pn . getName ( ) ; if ( pname . equals ( name ) ) return pn ; } } catch ( NullPointerException npe ) { throw new RuntimeException ( "<STR_LIT>" + this . getName ( ) + "<STR_LIT>" + getProperties ( ) , npe ) ; } return null ; } public void addConstructor ( ConstructorNode node ) { node . setDeclaringClass ( this ) ; final ClassNode r = redirect ( ) ; if ( r . constructors == null ) r . constructors = new ArrayList < ConstructorNode > ( ) ; r . constructors . add ( node ) ; } public ConstructorNode addConstructor ( int modifiers , Parameter [ ] parameters , ClassNode [ ] exceptions , Statement code ) { ConstructorNode node = new ConstructorNode ( modifiers , parameters , exceptions , code ) ; addConstructor ( node ) ; return node ; } public void addMethod ( MethodNode node ) { node . setDeclaringClass ( this ) ; ClassNode redirect = redirect ( ) ; redirect . methodsList . add ( node ) ; redirect . methods . put ( node . getName ( ) , node ) ; } public MethodNode addMethod ( String name , int modifiers , ClassNode returnType , Parameter [ ] parameters , ClassNode [ ] exceptions , Statement code ) { MethodNode other = getDeclaredMethod ( name , parameters ) ; if ( other != null ) { return other ; } MethodNode node = new MethodNode ( name , modifiers , returnType , parameters , exceptions , code ) ; addMethod ( node ) ; return node ; } public boolean hasDeclaredMethod ( String name , Parameter [ ] parameters ) { MethodNode other = getDeclaredMethod ( name , parameters ) ; return other != null ; } public boolean hasMethod ( String name , Parameter [ ] parameters ) { MethodNode other = getMethod ( name , parameters ) ; return other != null ; } public MethodNode addSyntheticMethod ( String name , int modifiers , ClassNode returnType , Parameter [ ] parameters , ClassNode [ ] exceptions , Statement code ) { MethodNode answer = addMethod ( name , modifiers \| ACC_SYNTHETIC , returnType , parameters , exceptions , code ) ; answer . setSynthetic ( true ) ; return answer ; } public FieldNode addField ( String name , int modifiers , ClassNode type , Expression initialValue ) { FieldNode node = new FieldNode ( name , modifiers , type , redirect ( ) , initialValue ) ; addField ( node ) ; return node ; } public FieldNode addFieldFirst ( String name , int modifiers , ClassNode type , Expression initialValue ) { FieldNode node = new FieldNode ( name , modifiers , type , redirect ( ) , initialValue ) ; addFieldFirst ( node ) ; return node ; } public void addInterface ( ClassNode type ) { boolean skip = false ; ClassNode [ ] interfaces = redirect ( ) . interfaces ; for ( ClassNode existing : interfaces ) { if ( type . equals ( existing ) ) { skip = true ; } } if ( ! skip ) { ClassNode [ ] newInterfaces = new ClassNode [ interfaces . length + <NUM_LIT:1> ] ; System . arraycopy ( interfaces , <NUM_LIT:0> , newInterfaces , <NUM_LIT:0> , interfaces . length ) ; newInterfaces [ interfaces . length ] = type ; redirect ( ) . interfaces = newInterfaces ; } } public boolean equals ( Object o ) { if ( redirect != null ) return redirect ( ) . equals ( o ) ; ClassNode cn = ( ClassNode ) o ; return ( cn . getName ( ) . equals ( getName ( ) ) ) ; } public int hashCode ( ) { if ( redirect != null ) return redirect ( ) . hashCode ( ) ; return getName ( ) . hashCode ( ) ; } public void addMixin ( MixinNode mixin ) { MixinNode [ ] mixins = redirect ( ) . mixins ; boolean skip = false ; for ( MixinNode existing : mixins ) { if ( mixin . equals ( existing ) ) { skip = true ; } } if ( ! skip ) { MixinNode [ ] newMixins = new MixinNode [ mixins . length + <NUM_LIT:1> ] ; System . arraycopy ( mixins , <NUM_LIT:0> , newMixins , <NUM_LIT:0> , mixins . length ) ; newMixins [ mixins . length ] = mixin ; redirect ( ) . mixins = newMixins ; } } public FieldNode getDeclaredField ( String name ) { if ( ! redirect ( ) . lazyInitDone ) redirect ( ) . lazyClassInit ( ) ; ClassNode r = redirect ( ) ; if ( r . fieldIndex == null ) r . fieldIndex = new HashMap < String , FieldNode > ( ) ; return r . fieldIndex . get ( name ) ; } public FieldNode getField ( String name ) { ClassNode node = this ; while ( node != null ) { FieldNode fn = node . getDeclaredField ( name ) ; if ( fn != null ) return fn ; node = node . getSuperClass ( ) ; } return null ; } public FieldNode getOuterField ( String name ) { return null ; } public ClassNode getOuterClass ( ) { return null ; } public void addObjectInitializerStatements ( Statement statements ) { getObjectInitializerStatements ( ) . add ( statements ) ; } public List < Statement > getObjectInitializerStatements ( ) { if ( objectInitializers == null ) objectInitializers = new ArrayList < Statement > ( ) ; return objectInitializers ; } private MethodNode getOrAddStaticConstructorNode ( ) { MethodNode method = null ; List declaredMethods = getDeclaredMethods ( "<STR_LIT>" ) ; if ( declaredMethods . isEmpty ( ) ) { method = addMethod ( "<STR_LIT>" , ACC_STATIC , ClassHelper . VOID_TYPE , Parameter . EMPTY_ARRAY , ClassNode . EMPTY_ARRAY , new BlockStatement ( ) ) ; method . setSynthetic ( true ) ; } else { method = ( MethodNode ) declaredMethods . get ( <NUM_LIT:0> ) ; } return method ; } public void addStaticInitializerStatements ( List < Statement > staticStatements , boolean fieldInit ) { MethodNode method = getOrAddStaticConstructorNode ( ) ; BlockStatement block = null ; Statement statement = method . getCode ( ) ; if ( statement == null ) { block = new BlockStatement ( ) ; } else if ( statement instanceof BlockStatement ) { block = ( BlockStatement ) statement ; } else { block = new BlockStatement ( ) ; block . addStatement ( statement ) ; } if ( ! fieldInit ) { block . addStatements ( staticStatements ) ; } else { List < Statement > blockStatements = block . getStatements ( ) ; staticStatements . addAll ( blockStatements ) ; blockStatements . clear ( ) ; blockStatements . addAll ( staticStatements ) ; } } public void positionStmtsAfterEnumInitStmts ( List < Statement > staticFieldStatements ) { MethodNode method = getOrAddStaticConstructorNode ( ) ; Statement statement = method . getCode ( ) ; if ( statement instanceof BlockStatement ) { BlockStatement block = ( BlockStatement ) statement ; List < Statement > blockStatements = block . getStatements ( ) ; ListIterator < Statement > litr = blockStatements . listIterator ( ) ; while ( litr . hasNext ( ) ) { Statement stmt = litr . next ( ) ; if ( stmt instanceof ExpressionStatement && ( ( ExpressionStatement ) stmt ) . getExpression ( ) instanceof BinaryExpression ) { BinaryExpression bExp = ( BinaryExpression ) ( ( ExpressionStatement ) stmt ) . getExpression ( ) ; if ( bExp . getLeftExpression ( ) instanceof FieldExpression ) { FieldExpression fExp = ( FieldExpression ) bExp . getLeftExpression ( ) ; if ( fExp . getFieldName ( ) . equals ( "<STR_LIT>" ) ) { for ( Statement tmpStmt : staticFieldStatements ) { litr . add ( tmpStmt ) ; } } } } } } } public List < MethodNode > getDeclaredMethods ( String name ) { if ( ! redirect ( ) . lazyInitDone ) redirect ( ) . lazyClassInit ( ) ; if ( redirect != null ) return redirect ( ) . getDeclaredMethods ( name ) ; return methods . getNotNull ( name ) ; } public List < MethodNode > getMethods ( String name ) { List < MethodNode > answer = new ArrayList < MethodNode > ( ) ; ClassNode node = this ; while ( node != null ) { answer . addAll ( node . getDeclaredMethods ( name ) ) ; node = node . getSuperClass ( ) ; } return answer ; } public MethodNode getDeclaredMethod ( String name , Parameter [ ] parameters ) { for ( MethodNode method : getDeclaredMethods ( name ) ) { if ( parametersEqual ( method . getParameters ( ) , parameters ) ) { return method ; } } return null ; } public MethodNode getMethod ( String name , Parameter [ ] parameters ) { for ( MethodNode method : getMethods ( name ) ) { if ( parametersEqual ( method . getParameters ( ) , parameters ) ) { return method ; } } return null ; } public boolean isDerivedFrom ( ClassNode type ) { if ( this . equals ( ClassHelper . VOID_TYPE ) ) { return type . equals ( ClassHelper . VOID_TYPE ) ; } if ( type . equals ( ClassHelper . OBJECT_TYPE ) ) return true ; ClassNode node = this ; while ( node != null ) { if ( type . equals ( node ) ) { return true ; } node = node . getSuperClass ( ) ; } return false ; } public boolean isDerivedFromGroovyObject ( ) { return implementsInterface ( ClassHelper . make ( GroovyObject . class ) ) ; } public boolean implementsInterface ( ClassNode classNode ) { ClassNode node = redirect ( ) ; do { if ( node . declaresInterface ( classNode ) ) { return true ; } node = node . getSuperClass ( ) ; } while ( node != null ) ; return false ; } public boolean declaresInterface ( ClassNode classNode ) { ClassNode [ ] interfaces = redirect ( ) . getInterfaces ( ) ; for ( ClassNode cn : interfaces ) { if ( cn . equals ( classNode ) ) return true ; } for ( ClassNode cn : interfaces ) { if ( cn . declaresInterface ( classNode ) ) return true ; } return false ; } public ClassNode getSuperClass ( ) { if ( ! lazyInitDone && ! isResolved ( ) ) { throw new GroovyBugError ( "<STR_LIT>" + getName ( ) + "<STR_LIT>" ) ; } if ( hasInconsistentHierarchy ( ) ) { return ClassHelper . OBJECT_TYPE ; } ClassNode sn = redirect ( ) . getUnresolvedSuperClass ( ) ; if ( sn != null ) sn = sn . redirect ( ) ; return sn ; } public ClassNode getUnresolvedSuperClass ( ) { return getUnresolvedSuperClass ( true ) ; } public ClassNode getUnresolvedSuperClass ( boolean useRedirect ) { if ( hasInconsistentHierarchy ( ) ) { return ClassHelper . OBJECT_TYPE ; } if ( ! useRedirect ) return superClass ; if ( ! redirect ( ) . lazyInitDone ) redirect ( ) . lazyClassInit ( ) ; return redirect ( ) . superClass ; } public void setUnresolvedSuperClass ( ClassNode sn ) { superClass = sn ; } public ClassNode [ ] getUnresolvedInterfaces ( ) { return getUnresolvedInterfaces ( true ) ; } public ClassNode [ ] getUnresolvedInterfaces ( boolean useRedirect ) { if ( hasInconsistentHierarchy ( ) ) { return EMPTY_ARRAY ; } if ( ! useRedirect ) return interfaces ; if ( ! redirect ( ) . lazyInitDone ) redirect ( ) . lazyClassInit ( ) ; return redirect ( ) . interfaces ; } public CompileUnit getCompileUnit ( ) { if ( redirect != null ) return redirect ( ) . getCompileUnit ( ) ; if ( compileUnit == null && module != null ) { compileUnit = module . getUnit ( ) ; } return compileUnit ; } protected void setCompileUnit ( CompileUnit cu ) { if ( redirect != null ) redirect ( ) . setCompileUnit ( cu ) ; if ( compileUnit != null ) compileUnit = cu ; } protected boolean parametersEqual ( Parameter [ ] a , Parameter [ ] b ) { if ( a . length == b . length ) { boolean answer = true ; for ( int i = <NUM_LIT:0> ; i < a . length ; i ++ ) { if ( ! a [ i ] . getType ( ) . equals ( b [ i ] . getType ( ) ) ) { answer = false ; break ; } } return answer ; } return false ; } public String getPackageName ( ) { int idx = getName ( ) . lastIndexOf ( '<CHAR_LIT:.>' ) ; if ( idx > <NUM_LIT:0> ) { return getName ( ) . substring ( <NUM_LIT:0> , idx ) ; } return null ; } public String getNameWithoutPackage ( ) { int idx = getName ( ) . lastIndexOf ( '<CHAR_LIT:.>' ) ; if ( idx > <NUM_LIT:0> ) { return getName ( ) . substring ( idx + <NUM_LIT:1> ) ; } return getName ( ) ; } public void visitContents ( GroovyClassVisitor visitor ) { for ( PropertyNode pn : getProperties ( ) ) { visitor . visitProperty ( pn ) ; } for ( FieldNode fn : getFields ( ) ) { visitor . visitField ( fn ) ; } for ( ConstructorNode cn : getDeclaredConstructors ( ) ) { visitor . visitConstructor ( cn ) ; } for ( MethodNode mn : getMethods ( ) ) { visitor . visitMethod ( mn ) ; } } public MethodNode getGetterMethod ( String getterName ) { for ( MethodNode method : getDeclaredMethods ( getterName ) ) { if ( getterName . equals ( method . getName ( ) ) && ClassHelper . VOID_TYPE != method . getReturnType ( ) && method . getParameters ( ) . length == <NUM_LIT:0> ) { return method ; } } ClassNode parent = getSuperClass ( ) ; if ( parent != null ) return parent . getGetterMethod ( getterName ) ; return null ; } public MethodNode getSetterMethod ( String setterName ) { for ( MethodNode method : getDeclaredMethods ( setterName ) ) { if ( setterName . equals ( method . getName ( ) ) && ClassHelper . VOID_TYPE == method . getReturnType ( ) && method . getParameters ( ) . length == <NUM_LIT:1> ) { return method ; } } ClassNode parent = getSuperClass ( ) ; if ( parent != null ) return parent . getSetterMethod ( setterName ) ; return null ; } public boolean isStaticClass ( ) { return redirect ( ) . staticClass ; } public void setStaticClass ( boolean staticClass ) { redirect ( ) . staticClass = staticClass ; } public boolean isScriptBody ( ) { return redirect ( ) . scriptBody ; } public void setScriptBody ( boolean scriptBody ) { redirect ( ) . scriptBody = scriptBody ; } public boolean isScript ( ) { return redirect ( ) . script \|\| isDerivedFrom ( ClassHelper . SCRIPT_TYPE ) ; } public void setScript ( boolean script ) { redirect ( ) . script = script ; } public String toString ( ) { String ret = getName ( ) ; if ( genericsTypes != null ) { ret += "<STR_LIT>" ; for ( int i = <NUM_LIT:0> ; i < genericsTypes . length ; i ++ ) { if ( i != <NUM_LIT:0> ) ret += "<STR_LIT:U+002CU+0020>" ; GenericsType genericsType = genericsTypes [ i ] ; ret += genericTypeAsString ( genericsType ) ; } ret += "<STR_LIT:>>" ; } if ( redirect != null ) { ret += "<STR_LIT>" + redirect ( ) . toString ( ) ; } return ret ; } private String genericTypeAsString ( GenericsType genericsType ) { String ret = genericsType . getName ( ) ; if ( genericsType . getUpperBounds ( ) != null ) { ret += "<STR_LIT>" ; for ( int i = <NUM_LIT:0> ; i < genericsType . getUpperBounds ( ) . length ; i ++ ) { ClassNode classNode = genericsType . getUpperBounds ( ) [ i ] ; if ( classNode . equals ( this ) ) { ret += classNode . getName ( ) ; } else { ret += classNode . toString ( ) ; } if ( i + <NUM_LIT:1> < genericsType . getUpperBounds ( ) . length ) ret += "<STR_LIT>" ; } } else if ( genericsType . getLowerBound ( ) != null ) { ClassNode classNode = genericsType . getLowerBound ( ) ; if ( classNode . equals ( this ) ) { ret += "<STR_LIT>" + classNode . getName ( ) ; } else { ret += "<STR_LIT>" + classNode ; } } return ret ; } public boolean hasPossibleMethod ( String name , Expression arguments ) { int count = <NUM_LIT:0> ; if ( arguments instanceof TupleExpression ) { TupleExpression tuple = ( TupleExpression ) arguments ; count = tuple . getExpressions ( ) . size ( ) ; } ClassNode node = this ; do { for ( MethodNode method : getMethods ( name ) ) { if ( method . getParameters ( ) . length == count && ! method . isStatic ( ) ) { return true ; } } node = node . getSuperClass ( ) ; } while ( node != null ) ; return false ; } public MethodNode tryFindPossibleMethod ( String name , Expression arguments ) { int count = <NUM_LIT:0> ; if ( arguments instanceof TupleExpression ) { TupleExpression tuple = ( TupleExpression ) arguments ; count = tuple . getExpressions ( ) . size ( ) ; } else return null ; MethodNode res = null ; ClassNode node = this ; TupleExpression args = ( TupleExpression ) arguments ; do { for ( MethodNode method : node . getMethods ( name ) ) { if ( method . getParameters ( ) . length == count ) { boolean match = true ; for ( int i = <NUM_LIT:0> ; i != count ; ++ i ) if ( ! args . getType ( ) . isDerivedFrom ( method . getParameters ( ) [ i ] . getType ( ) ) ) { match = false ; break ; } if ( match ) { if ( res == null ) res = method ; else { if ( res . getParameters ( ) . length != count ) return null ; if ( node . equals ( this ) ) return null ; match = true ; for ( int i = <NUM_LIT:0> ; i != count ; ++ i ) if ( ! res . getParameters ( ) [ i ] . getType ( ) . equals ( method . getParameters ( ) [ i ] . getType ( ) ) ) { match = false ; break ; } if ( ! match ) return null ; } } } } node = node . getSuperClass ( ) ; } while ( node != null ) ; return res ; } public boolean hasPossibleStaticMethod ( String name , Expression arguments ) { int count = <NUM_LIT:0> ; if ( arguments instanceof TupleExpression ) { TupleExpression tuple = ( TupleExpression ) arguments ; count = tuple . getExpressions ( ) . size ( ) ; } else if ( arguments instanceof MapExpression ) { count = <NUM_LIT:1> ; } for ( MethodNode method : getMethods ( name ) ) { if ( method . isStatic ( ) ) { Parameter [ ] parameters = method . getParameters ( ) ; if ( parameters . length == count ) return true ; if ( parameters . length > <NUM_LIT:0> && parameters [ parameters . length - <NUM_LIT:1> ] . getType ( ) . isArray ( ) ) { if ( count >= parameters . length - <NUM_LIT:1> ) return true ; } int nonDefaultParameters = <NUM_LIT:0> ; for ( Parameter parameter : parameters ) { if ( ! parameter . hasInitialExpression ( ) ) { nonDefaultParameters ++ ; } } if ( count < parameters . length && nonDefaultParameters <= count ) { return true ; } } } return false ; } public boolean isInterface ( ) { return ( getModifiers ( ) & Opcodes . ACC_INTERFACE ) > <NUM_LIT:0> ; } public boolean isResolved ( ) { return redirect ( ) . isReallyResolved ( ) \|\| redirect ( ) . clazz != null \|\| ( componentType != null && componentType . isResolved ( ) ) ; } public boolean isReallyResolved ( ) { return false ; } public boolean isArray ( ) { return componentType != null ; } public ClassNode getComponentType ( ) { return componentType ; } public boolean hasClass ( ) { return redirect ( ) . clazz != null ; } public Class getTypeClass ( ) { Class c = redirect ( ) . clazz ; if ( c != null ) return c ; ClassNode component = redirect ( ) . componentType ; if ( component != null && component . isResolved ( ) ) { ClassNode cn = component . makeArray ( ) ; setRedirect ( cn ) ; return redirect ( ) . clazz ; } if ( redirect ( ) . getClass ( ) . getName ( ) . endsWith ( "<STR_LIT>" ) ) { return redirect ( ) . getTypeClass ( ) ; } throw new GroovyBugError ( "<STR_LIT>" + getName ( ) + "<STR_LIT>" ) ; } public boolean hasPackageName ( ) { return redirect ( ) . name . indexOf ( '<CHAR_LIT:.>' ) > <NUM_LIT:0> ; } public void setAnnotated ( boolean flag ) { this . annotated = flag ; } public boolean isAnnotated ( ) { return this . annotated ; } public GenericsType [ ] getGenericsTypes ( ) { return genericsTypes ; } public void setGenericsTypes ( GenericsType [ ] genericsTypes ) { usesGenerics = usesGenerics \|\| genericsTypes != null ; this . genericsTypes = genericsTypes ; } public void setGenericsPlaceHolder ( boolean b ) { usesGenerics = usesGenerics \|\| b ; placeholder = b ; } public boolean isGenericsPlaceHolder ( ) { return placeholder ; } public boolean isUsingGenerics ( ) { return usesGenerics ; } public void setUsingGenerics ( boolean b ) { usesGenerics = b ; } public ClassNode getPlainNodeReference ( ) { if ( ClassHelper . isPrimitiveType ( this ) ) return this ; ClassNode n = new ClassNode ( getName ( ) , getModifiers ( ) , getSuperClass ( ) , getInterfaces ( ) , null ) ; n . isPrimaryNode = false ; n . setRedirect ( this . redirect ) ; n . componentType = redirect ( ) . getComponentType ( ) ; return n ; } public boolean isAnnotationDefinition ( ) { return redirect ( ) . isPrimaryNode && isInterface ( ) && ( getModifiers ( ) & Opcodes . ACC_ANNOTATION ) != <NUM_LIT:0> ; } public List < AnnotationNode > getAnnotations ( ) { if ( redirect != null ) return redirect . getAnnotations ( ) ; lazyClassInit ( ) ; return super . getAnnotations ( ) ; } public List < AnnotationNode > getAnnotations ( ClassNode type ) { if ( redirect != null ) return redirect . getAnnotations ( type ) ; lazyClassInit ( ) ; return super . getAnnotations ( type ) ; } public void addTransform ( Class < ? extends ASTTransformation > transform , ASTNode node ) { GroovyASTTransformation annotation = transform . getAnnotation ( GroovyASTTransformation . class ) ; Set < ASTNode > nodes = getTransformInstances ( ) . get ( annotation . phase ( ) ) . get ( transform ) ; if ( nodes == null ) { nodes = new LinkedHashSet < ASTNode > ( ) ; getTransformInstances ( ) . get ( annotation . phase ( ) ) . put ( transform , nodes ) ; } nodes . add ( node ) ; } public Map < Class < ? extends ASTTransformation > , Set < ASTNode > > getTransforms ( CompilePhase phase ) { return getTransformInstances ( ) . get ( phase ) ; } public void renameField ( String oldName , String newName ) { ClassNode r = redirect ( ) ; if ( r . fieldIndex == null ) r . fieldIndex = new HashMap < String , FieldNode > ( ) ; final Map < String , FieldNode > index = r . fieldIndex ; index . put ( newName , index . remove ( oldName ) ) ; } public void removeField ( String oldName ) { ClassNode r = redirect ( ) ; if ( r . fieldIndex == null ) r . fieldIndex = new HashMap < String , FieldNode > ( ) ; final Map < String , FieldNode > index = r . fieldIndex ; r . fields . remove ( index . get ( oldName ) ) ; index . remove ( oldName ) ; } public boolean isEnum ( ) { return ( getModifiers ( ) & Opcodes . ACC_ENUM ) != <NUM_LIT:0> ; } public Iterator < InnerClassNode > getInnerClasses ( ) { return ( innerClasses == null ? Collections . < InnerClassNode > emptyList ( ) : innerClasses ) . iterator ( ) ; } public void forgetInnerClass ( InnerClassNode icn ) { if ( innerClasses != null ) { innerClasses . remove ( icn ) ; } } private Map < CompilePhase , Map < Class < ? extends ASTTransformation > , Set < ASTNode > > > getTransformInstances ( ) { if ( transformInstances == null ) { transformInstances = new EnumMap < CompilePhase , Map < Class < ? extends ASTTransformation > , Set < ASTNode > > > ( CompilePhase . class ) ; for ( CompilePhase phase : CompilePhase . values ( ) ) { transformInstances . put ( phase , new HashMap < Class < ? extends ASTTransformation > , Set < ASTNode > > ( ) ) ; } } return transformInstances ; } public String getClassInternalName ( ) { if ( redirect != null ) return redirect ( ) . getClassInternalName ( ) ; return null ; } public boolean isPrimitive ( ) { if ( clazz != null ) { return clazz . isPrimitive ( ) ; } return false ; } public boolean mightHaveInners ( ) { ClassNode redirect = redirect ( ) ; if ( redirect . hasClass ( ) ) { return true ; } boolean b = redirect . innerClasses != null && redirect . innerClasses . size ( ) > <NUM_LIT:0> ; return b ; } } </s>
<s> package org . codehaus . groovy . ast ; import java . util . Collections ; import java . util . HashMap ; import java . util . Iterator ; import java . util . Map ; public class VariableScope { private Map < String , Variable > declaredVariables = Collections . emptyMap ( ) ; private Map < String , Variable > referencedLocalVariables = Collections . emptyMap ( ) ; private Map < String , Variable > referencedClassVariables = Collections . emptyMap ( ) ; private boolean inStaticContext = false ; private boolean resolvesDynamic = false ; private ClassNode clazzScope ; private VariableScope parent ; public VariableScope ( ) { } public VariableScope ( VariableScope parent ) { this . parent = parent ; } public Variable getDeclaredVariable ( String name ) { return declaredVariables . get ( name ) ; } public Iterator < Variable > getDeclaredVariablesIterator ( ) { return declaredVariables . values ( ) . iterator ( ) ; } public boolean isReferencedLocalVariable ( String name ) { return referencedLocalVariables . containsKey ( name ) ; } public boolean isReferencedClassVariable ( String name ) { return referencedClassVariables . containsKey ( name ) ; } public VariableScope getParent ( ) { return parent ; } public boolean isInStaticContext ( ) { return inStaticContext ; } public void setInStaticContext ( boolean inStaticContext ) { this . inStaticContext = inStaticContext ; } @ Deprecated public boolean isResolvingDynamic ( ) { return resolvesDynamic ; } @ Deprecated public void setDynamicResolving ( boolean resolvesDynamic ) { this . resolvesDynamic = resolvesDynamic ; } public void setClassScope ( ClassNode node ) { this . clazzScope = node ; } public ClassNode getClassScope ( ) { return clazzScope ; } public boolean isClassScope ( ) { return clazzScope != null ; } public boolean isRoot ( ) { return parent == null ; } public VariableScope copy ( ) { VariableScope copy = new VariableScope ( ) ; copy . clazzScope = clazzScope ; if ( declaredVariables . size ( ) > <NUM_LIT:0> ) { copy . declaredVariables = new HashMap < String , Variable > ( ) ; copy . declaredVariables . putAll ( declaredVariables ) ; } copy . inStaticContext = inStaticContext ; copy . parent = parent ; if ( referencedClassVariables . size ( ) > <NUM_LIT:0> ) { copy . referencedClassVariables = new HashMap < String , Variable > ( ) ; copy . referencedClassVariables . putAll ( referencedClassVariables ) ; } if ( referencedLocalVariables . size ( ) > <NUM_LIT:0> ) { copy . referencedLocalVariables = new HashMap < String , Variable > ( ) ; copy . referencedLocalVariables . putAll ( referencedLocalVariables ) ; } copy . resolvesDynamic = resolvesDynamic ; return copy ; } public void putDeclaredVariable ( Variable var ) { if ( declaredVariables == Collections . EMPTY_MAP ) declaredVariables = new HashMap < String , Variable > ( ) ; declaredVariables . put ( var . getName ( ) , var ) ; } public Iterator < Variable > getReferencedLocalVariablesIterator ( ) { return referencedLocalVariables . values ( ) . iterator ( ) ; } public int getReferencedLocalVariablesCount ( ) { return referencedLocalVariables . size ( ) ; } public Variable getReferencedLocalVariable ( String name ) { return referencedLocalVariables . get ( name ) ; } public void putReferencedLocalVariable ( Variable var ) { if ( referencedLocalVariables == Collections . EMPTY_MAP ) referencedLocalVariables = new HashMap < String , Variable > ( ) ; referencedLocalVariables . put ( var . getName ( ) , var ) ; } public void putReferencedClassVariable ( Variable var ) { if ( referencedClassVariables == Collections . EMPTY_MAP ) referencedClassVariables = new HashMap < String , Variable > ( ) ; referencedClassVariables . put ( var . getName ( ) , var ) ; } public Variable getReferencedClassVariable ( String name ) { return referencedClassVariables . get ( name ) ; } public Object removeReferencedClassVariable ( String name ) { if ( referencedClassVariables == Collections . EMPTY_MAP ) return null ; else return referencedClassVariables . remove ( name ) ; } public Map < String , Variable > getReferencedClassVariables ( ) { if ( referencedClassVariables == Collections . EMPTY_MAP ) { return referencedClassVariables ; } else { return Collections . unmodifiableMap ( referencedClassVariables ) ; } } public Iterator < Variable > getReferencedClassVariablesIterator ( ) { return getReferencedClassVariables ( ) . values ( ) . iterator ( ) ; } } </s>
<s> package org . codehaus . groovy . ast ; import org . codehaus . groovy . GroovyBugError ; class ImmutableClassNode extends ClassNode { class ImmutableGenericsType extends GenericsType { ImmutableGenericsType ( GenericsType delegate ) { super . setType ( delegate . getType ( ) ) ; super . setPlaceholder ( delegate . isPlaceholder ( ) ) ; super . setResolved ( delegate . isResolved ( ) ) ; super . setName ( delegate . getName ( ) ) ; super . setWildcard ( delegate . isWildcard ( ) ) ; super . setUpperBounds ( delegate . getUpperBounds ( ) ) ; super . setLowerBound ( delegate . getLowerBound ( ) ) ; } @ Override public void setType ( ClassNode type ) { throw new GroovyBugError ( "<STR_LIT>" + ImmutableClassNode . this . getName ( ) ) ; } @ Override public void setPlaceholder ( boolean placeholder ) { throw new GroovyBugError ( "<STR_LIT>" + ImmutableClassNode . this . getName ( ) ) ; } @ Override public void setResolved ( boolean res ) { throw new GroovyBugError ( "<STR_LIT>" + ImmutableClassNode . this . getName ( ) ) ; } @ Override public void setName ( String name ) { throw new GroovyBugError ( "<STR_LIT>" + ImmutableClassNode . this . getName ( ) ) ; } @ Override public void setWildcard ( boolean wildcard ) { throw new GroovyBugError ( "<STR_LIT>" + ImmutableClassNode . this . getName ( ) ) ; } @ Override public void setUpperBounds ( ClassNode [ ] bounds ) { throw new GroovyBugError ( "<STR_LIT>" + ImmutableClassNode . this . getName ( ) ) ; } @ Override public void setLowerBound ( ClassNode bound ) { throw new GroovyBugError ( "<STR_LIT>" + ImmutableClassNode . this . getName ( ) ) ; } } private boolean genericsInitialized = false ; public ImmutableClassNode ( Class c ) { super ( c ) ; } @ Override public void setGenericsTypes ( GenericsType [ ] genericsTypes ) { if ( genericsInitialized ) { throw new GroovyBugError ( "<STR_LIT>" + this . getName ( ) ) ; } if ( genericsTypes != null ) { GenericsType [ ] immutable = new GenericsType [ genericsTypes . length ] ; for ( int i = <NUM_LIT:0> ; i < genericsTypes . length ; i ++ ) { immutable [ i ] = new ImmutableGenericsType ( genericsTypes [ i ] ) ; } genericsTypes = immutable ; } super . setGenericsTypes ( genericsTypes ) ; genericsInitialized = true ; } } </s>
<s> package org . codehaus . groovy . ast ; import java . util . * ; public class AnnotatedNode extends ASTNode { private List < AnnotationNode > annotations = Collections . emptyList ( ) ; private boolean synthetic ; ClassNode declaringClass ; private boolean hasNoRealSourcePositionFlag ; private int nameEnd ; private int nameStart ; public AnnotatedNode ( ) { } public List < AnnotationNode > getAnnotations ( ) { return annotations ; } public List < AnnotationNode > getAnnotations ( ClassNode type ) { List < AnnotationNode > ret = new ArrayList < AnnotationNode > ( annotations . size ( ) ) ; for ( AnnotationNode node : annotations ) { if ( type . equals ( node . getClassNode ( ) ) ) ret . add ( node ) ; } return ret ; } public void addAnnotation ( AnnotationNode value ) { checkInit ( ) ; annotations . add ( value ) ; } private void checkInit ( ) { if ( annotations == Collections . EMPTY_LIST ) annotations = new ArrayList < AnnotationNode > ( <NUM_LIT:3> ) ; } public void addAnnotations ( List < AnnotationNode > annotations ) { for ( AnnotationNode node : annotations ) { addAnnotation ( node ) ; } } public boolean isSynthetic ( ) { return synthetic ; } public void setSynthetic ( boolean synthetic ) { this . synthetic = synthetic ; } public ClassNode getDeclaringClass ( ) { return declaringClass ; } public void setDeclaringClass ( ClassNode declaringClass ) { this . declaringClass = declaringClass ; } public boolean hasNoRealSourcePosition ( ) { return hasNoRealSourcePositionFlag ; } public void setHasNoRealSourcePosition ( boolean value ) { this . hasNoRealSourcePositionFlag = value ; } public int getNameStart ( ) { return nameStart ; } public void setNameStart ( int nameStart ) { this . nameStart = nameStart ; } public int getNameEnd ( ) { return nameEnd ; } public void setNameEnd ( int nameEnd ) { this . nameEnd = nameEnd ; } @ Override public void setSourcePosition ( ASTNode node ) { super . setSourcePosition ( node ) ; if ( node instanceof AnnotatedNode ) { AnnotatedNode aNode = ( AnnotatedNode ) node ; setNameStart ( aNode . getNameStart ( ) ) ; setNameEnd ( aNode . getNameEnd ( ) ) ; } } } </s>
<s> package org . codehaus . groovy . ast ; import groovy . lang . * ; import org . codehaus . groovy . runtime . GeneratedClosure ; import org . codehaus . groovy . vmplugin . VMPluginFactory ; import org . objectweb . asm . Opcodes ; import java . math . BigDecimal ; import java . math . BigInteger ; import java . util . List ; import java . util . Map ; import java . util . WeakHashMap ; import java . util . regex . Pattern ; import java . lang . ref . SoftReference ; public class ClassHelper { public static final Class [ ] classes = new Class [ ] { Object . class , Boolean . TYPE , Character . TYPE , Byte . TYPE , Short . TYPE , Integer . TYPE , Long . TYPE , Double . TYPE , Float . TYPE , Void . TYPE , Closure . class , GString . class , List . class , Map . class , Range . class , Pattern . class , Script . class , String . class , Boolean . class , Character . class , Byte . class , Short . class , Integer . class , Long . class , Double . class , Float . class , BigDecimal . class , BigInteger . class , Void . class , Reference . class , Class . class , MetaClass . class , } ; private static final String [ ] primitiveClassNames = new String [ ] { "<STR_LIT>" , "<STR_LIT:boolean>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT:int>" , "<STR_LIT:long>" , "<STR_LIT:double>" , "<STR_LIT:float>" , "<STR_LIT>" } ; public static final ClassNode DYNAMIC_TYPE = makeCached ( Object . class ) , OBJECT_TYPE = DYNAMIC_TYPE , VOID_TYPE = makeCached ( Void . TYPE ) , CLOSURE_TYPE = makeCached ( Closure . class ) , GSTRING_TYPE = makeCached ( GString . class ) , LIST_TYPE = makeWithoutCaching ( List . class ) , MAP_TYPE = makeWithoutCaching ( Map . class ) , RANGE_TYPE = makeCached ( Range . class ) , PATTERN_TYPE = makeCached ( Pattern . class ) , STRING_TYPE = makeCached ( String . class ) , SCRIPT_TYPE = makeCached ( Script . class ) , REFERENCE_TYPE = makeWithoutCaching ( Reference . class ) , boolean_TYPE = makeCached ( boolean . class ) , char_TYPE = makeCached ( char . class ) , byte_TYPE = makeCached ( byte . class ) , int_TYPE = makeCached ( int . class ) , long_TYPE = makeCached ( long . class ) , short_TYPE = makeCached ( short . class ) , double_TYPE = makeCached ( double . class ) , float_TYPE = makeCached ( float . class ) , Byte_TYPE = makeCached ( Byte . class ) , Short_TYPE = makeCached ( Short . class ) , Integer_TYPE = makeCached ( Integer . class ) , Long_TYPE = makeCached ( Long . class ) , Character_TYPE = makeCached ( Character . class ) , Float_TYPE = makeCached ( Float . class ) , Double_TYPE = makeCached ( Double . class ) , Boolean_TYPE = makeCached ( Boolean . class ) , BigInteger_TYPE = makeCached ( java . math . BigInteger . class ) , BigDecimal_TYPE = makeCached ( java . math . BigDecimal . class ) , void_WRAPPER_TYPE = makeCached ( Void . class ) , CLASS_Type = makeWithoutCaching ( Class . class ) , METACLASS_TYPE = makeCached ( MetaClass . class ) , GENERATED_CLOSURE_Type = makeCached ( GeneratedClosure . class ) , Enum_Type = new ClassNode ( "<STR_LIT>" , <NUM_LIT:0> , OBJECT_TYPE ) , Annotation_TYPE = new ClassNode ( "<STR_LIT>" , <NUM_LIT:0> , OBJECT_TYPE ) , ELEMENT_TYPE_TYPE = new ClassNode ( "<STR_LIT>" , <NUM_LIT:0> , Enum_Type ) ; static { Enum_Type . isPrimaryNode = false ; Annotation_TYPE . isPrimaryNode = false ; } private static ClassNode [ ] types = new ClassNode [ ] { OBJECT_TYPE , boolean_TYPE , char_TYPE , byte_TYPE , short_TYPE , int_TYPE , long_TYPE , double_TYPE , float_TYPE , VOID_TYPE , CLOSURE_TYPE , GSTRING_TYPE , LIST_TYPE , MAP_TYPE , RANGE_TYPE , PATTERN_TYPE , SCRIPT_TYPE , STRING_TYPE , Boolean_TYPE , Character_TYPE , Byte_TYPE , Short_TYPE , Integer_TYPE , Long_TYPE , Double_TYPE , Float_TYPE , BigDecimal_TYPE , BigInteger_TYPE , void_WRAPPER_TYPE , REFERENCE_TYPE , CLASS_Type , METACLASS_TYPE , GENERATED_CLOSURE_Type , Enum_Type , Annotation_TYPE } ; private static ClassNode [ ] numbers = new ClassNode [ ] { char_TYPE , byte_TYPE , short_TYPE , int_TYPE , long_TYPE , double_TYPE , float_TYPE , Short_TYPE , Byte_TYPE , Character_TYPE , Integer_TYPE , Float_TYPE , Long_TYPE , Double_TYPE , BigInteger_TYPE , BigDecimal_TYPE } ; protected static final ClassNode [ ] EMPTY_TYPE_ARRAY = { } ; public static final String OBJECT = "<STR_LIT>" ; public static ClassNode makeCached ( Class c ) { final SoftReference < ClassNode > classNodeSoftReference = ClassHelperCache . classCache . get ( c ) ; ClassNode classNode ; if ( classNodeSoftReference == null \|\| ( classNode = classNodeSoftReference . get ( ) ) == null ) { classNode = new ImmutableClassNode ( c ) ; ClassHelperCache . classCache . put ( c , new SoftReference < ClassNode > ( classNode ) ) ; VMPluginFactory . getPlugin ( ) . setAdditionalClassInformation ( classNode ) ; } return classNode ; } public static ClassNode [ ] make ( Class [ ] classes ) { ClassNode [ ] cns = new ClassNode [ classes . length ] ; for ( int i = <NUM_LIT:0> ; i < cns . length ; i ++ ) { cns [ i ] = make ( classes [ i ] ) ; } return cns ; } public static ClassNode make ( Class c ) { return make ( c , true ) ; } public static ClassNode make ( Class c , boolean includeGenerics ) { for ( int i = <NUM_LIT:0> ; i < classes . length ; i ++ ) { if ( c == classes [ i ] ) return types [ i ] ; } if ( c . isArray ( ) ) { ClassNode cn = make ( c . getComponentType ( ) , includeGenerics ) ; return cn . makeArray ( ) ; } return makeWithoutCaching ( c , includeGenerics ) ; } public static ClassNode makeWithoutCaching ( Class c ) { return makeWithoutCaching ( c , true ) ; } public static ClassNode makeWithoutCaching ( Class c , boolean includeGenerics ) { if ( c . isArray ( ) ) { ClassNode cn = makeWithoutCaching ( c . getComponentType ( ) , includeGenerics ) ; return cn . makeArray ( ) ; } final ClassNode cached = makeCached ( c ) ; if ( includeGenerics ) { return cached ; } else { ClassNode t = makeWithoutCaching ( c . getName ( ) ) ; t . setRedirect ( cached ) ; return t ; } } public static ClassNode makeWithoutCaching ( String name ) { ClassNode cn = new ClassNode ( name , Opcodes . ACC_PUBLIC , OBJECT_TYPE ) ; cn . isPrimaryNode = false ; return cn ; } public static ClassNode make ( String name ) { if ( name == null \|\| name . length ( ) == <NUM_LIT:0> ) return DYNAMIC_TYPE ; for ( int i = <NUM_LIT:0> ; i < primitiveClassNames . length ; i ++ ) { if ( primitiveClassNames [ i ] . equals ( name ) ) return types [ i ] ; } for ( int i = <NUM_LIT:0> ; i < classes . length ; i ++ ) { String cname = classes [ i ] . getName ( ) ; if ( name . equals ( cname ) ) return types [ i ] ; } return makeWithoutCaching ( name ) ; } public static ClassNode getWrapper ( ClassNode cn ) { cn = cn . redirect ( ) ; if ( ! isPrimitiveType ( cn ) ) return cn ; if ( cn == boolean_TYPE ) { return Boolean_TYPE ; } else if ( cn == byte_TYPE ) { return Byte_TYPE ; } else if ( cn == char_TYPE ) { return Character_TYPE ; } else if ( cn == short_TYPE ) { return Short_TYPE ; } else if ( cn == int_TYPE ) { return Integer_TYPE ; } else if ( cn == long_TYPE ) { return Long_TYPE ; } else if ( cn == float_TYPE ) { return Float_TYPE ; } else if ( cn == double_TYPE ) { return Double_TYPE ; } else if ( cn == VOID_TYPE ) { return void_WRAPPER_TYPE ; } else { return cn ; } } public static ClassNode getUnwrapper ( ClassNode cn ) { cn = cn . redirect ( ) ; if ( isPrimitiveType ( cn ) ) return cn ; if ( cn == Boolean_TYPE ) { return boolean_TYPE ; } else if ( cn == Byte_TYPE ) { return byte_TYPE ; } else if ( cn == Character_TYPE ) { return char_TYPE ; } else if ( cn == Short_TYPE ) { return short_TYPE ; } else if ( cn == Integer_TYPE ) { return int_TYPE ; } else if ( cn == Long_TYPE ) { return long_TYPE ; } else if ( cn == Float_TYPE ) { return float_TYPE ; } else if ( cn == Double_TYPE ) { return double_TYPE ; } else { return cn ; } } public static boolean isPrimitiveType ( ClassNode cn ) { return cn == boolean_TYPE \|\| cn == char_TYPE \|\| cn == byte_TYPE \|\| cn == short_TYPE \|\| cn == int_TYPE \|\| cn == long_TYPE \|\| cn == float_TYPE \|\| cn == double_TYPE \|\| cn == VOID_TYPE ; } public static boolean isNumberType ( ClassNode cn ) { return cn == Byte_TYPE \|\| cn == Short_TYPE \|\| cn == Integer_TYPE \|\| cn == Long_TYPE \|\| cn == Float_TYPE \|\| cn == Double_TYPE \|\| cn == byte_TYPE \|\| cn == short_TYPE \|\| cn == int_TYPE \|\| cn == long_TYPE \|\| cn == float_TYPE \|\| cn == double_TYPE ; } public static ClassNode makeReference ( ) { return make ( Reference . class ) ; } public static boolean isCachedType ( ClassNode type ) { for ( ClassNode cachedType : types ) { if ( cachedType == type ) return true ; } return false ; } static class ClassHelperCache { static Map < Class , SoftReference < ClassNode > > classCache = new WeakHashMap < Class , SoftReference < ClassNode > > ( ) ; } } </s>
<s> package org . codehaus . groovy . ast ; import org . codehaus . groovy . GroovyBugError ; import org . codehaus . groovy . util . ListHashMap ; public class ASTNode { private int lineNumber = - <NUM_LIT:1> ; private int columnNumber = - <NUM_LIT:1> ; private int lastLineNumber = - <NUM_LIT:1> ; private int lastColumnNumber = - <NUM_LIT:1> ; private ListHashMap metaDataMap = new ListHashMap ( ) ; private int start = <NUM_LIT:0> ; private int end = <NUM_LIT:0> ; public void visit ( GroovyCodeVisitor visitor ) { throw new RuntimeException ( "<STR_LIT>" + getClass ( ) . getName ( ) ) ; } public String getText ( ) { return "<STR_LIT>" + getClass ( ) . getName ( ) + "<STR_LIT:>>" ; } public int getLineNumber ( ) { return lineNumber ; } public void setLineNumber ( int lineNumber ) { this . lineNumber = lineNumber ; } public int getColumnNumber ( ) { return columnNumber ; } public void setColumnNumber ( int columnNumber ) { this . columnNumber = columnNumber ; } public int getLastLineNumber ( ) { return lastLineNumber ; } public void setLastLineNumber ( int lastLineNumber ) { this . lastLineNumber = lastLineNumber ; } public int getLastColumnNumber ( ) { return lastColumnNumber ; } public void setLastColumnNumber ( int lastColumnNumber ) { this . lastColumnNumber = lastColumnNumber ; } public int getStart ( ) { return start ; } public void setStart ( int start ) { this . start = start ; } public int getEnd ( ) { return end ; } public void setEnd ( int end ) { this . end = end ; } public int getLength ( ) { return end >= <NUM_LIT:0> && start >= <NUM_LIT:0> ? end - start : - <NUM_LIT:1> ; } public void setSourcePosition ( ASTNode node ) { this . columnNumber = node . getColumnNumber ( ) ; this . lastLineNumber = node . getLastLineNumber ( ) ; this . lastColumnNumber = node . getLastColumnNumber ( ) ; this . lineNumber = node . getLineNumber ( ) ; this . start = node . getStart ( ) ; this . end = node . getEnd ( ) ; } public Object getNodeMetaData ( Object key ) { return metaDataMap . get ( key ) ; } public void copyNodeMetaData ( ASTNode other ) { metaDataMap . putAll ( other . metaDataMap ) ; } public void setNodeMetaData ( Object key , Object value ) { if ( key == null ) throw new GroovyBugError ( "<STR_LIT>" + this + "<STR_LIT:.>" ) ; Object old = metaDataMap . put ( key , value ) ; if ( old != null ) throw new GroovyBugError ( "<STR_LIT>" + this + "<STR_LIT:.>" ) ; } public void removeNodeMetaData ( Object key ) { if ( key == null ) throw new GroovyBugError ( "<STR_LIT>" ) ; metaDataMap . remove ( key ) ; if ( metaDataMap . size ( ) == <NUM_LIT:0> ) metaDataMap = null ; } } </s>
<s> package org . codehaus . groovy . ast ; import java . util . ArrayList ; import java . util . Collections ; import java . util . List ; public abstract class Comment { protected static final int BLOCK = <NUM_LIT:0> ; protected static final int LINE = <NUM_LIT:1> ; protected static final int JAVADOC = <NUM_LIT:2> ; protected static final boolean debug = false ; protected String comment ; private int kind ; public boolean usedUp = false ; public int sline , scol , eline , ecol ; public Comment ( int kind , int sline , int scol , int eline , int ecol , String string ) { this . kind = kind ; this . sline = sline ; this . scol = scol ; this . eline = eline ; this . ecol = ecol ; this . comment = string ; } public int getLastLine ( ) { return eline ; } public static Comment makeSingleLineComment ( int sline , int scol , int eline , int ecol , String string ) { return new SingleLineComment ( sline , scol , eline , ecol , string ) ; } public static Comment makeMultiLineComment ( int sline , int scol , int eline , int ecol , String string ) { return new MultiLineComment ( sline , scol , eline , ecol , string ) ; } public abstract List < TaskEntry > getPositionsOf ( String taskTag , String taskPriority , int [ ] lineseps , boolean caseSensitive ) ; public int [ ] getPositions ( int [ ] lineseps ) { int offsetToStartLine = ( sline == <NUM_LIT:1> ? <NUM_LIT:0> : lineseps [ sline - <NUM_LIT:2> ] + <NUM_LIT:1> ) ; int start = offsetToStartLine + ( scol - <NUM_LIT:1> ) ; int offsetToEndLine = ( eline == <NUM_LIT:1> ? <NUM_LIT:0> : lineseps [ eline - <NUM_LIT:2> ] + <NUM_LIT:1> ) ; int end = offsetToEndLine + ( ecol - <NUM_LIT:1> ) ; if ( kind == LINE ) { return new int [ ] { - start , - end } ; } else if ( kind == BLOCK ) { return new int [ ] { start , - end } ; } else { return new int [ ] { start , end } ; } } public String toString ( ) { return comment ; } protected boolean isValidStartLocationForTask ( String text , int index , String taskTag ) { int tagLen = taskTag . length ( ) ; if ( comment . charAt ( index - <NUM_LIT:1> ) == '<CHAR_LIT>' ) { return false ; } if ( Character . isJavaIdentifierStart ( comment . charAt ( index ) ) ) { if ( Character . isJavaIdentifierPart ( comment . charAt ( index - <NUM_LIT:1> ) ) ) { return false ; } } if ( ( index + tagLen ) < comment . length ( ) && Character . isJavaIdentifierStart ( comment . charAt ( index + tagLen - <NUM_LIT:1> ) ) ) { if ( Character . isJavaIdentifierPart ( comment . charAt ( index + tagLen ) ) ) { return false ; } } return true ; } protected int findTaskTag ( String text , String tag , boolean caseSensitive , int fromIndex ) { if ( caseSensitive ) { return text . indexOf ( tag , fromIndex ) ; } else { int taglen = tag . length ( ) ; String lcTag = tag . toLowerCase ( ) ; char firstChar = lcTag . charAt ( <NUM_LIT:0> ) ; for ( int p = fromIndex , max = text . length ( ) - tag . length ( ) + <NUM_LIT:1> ; p < max ; p ++ ) { if ( Character . toLowerCase ( text . charAt ( p ) ) == firstChar ) { boolean matched = true ; for ( int t = <NUM_LIT:1> ; t < taglen ; t ++ ) { if ( Character . toLowerCase ( text . charAt ( p + t ) ) != lcTag . charAt ( t ) ) { matched = false ; break ; } } if ( matched ) { return p ; } } } return - <NUM_LIT:1> ; } } public boolean isJavadoc ( ) { return kind == JAVADOC ; } } class SingleLineComment extends Comment { public SingleLineComment ( int sline , int scol , int eline , int ecol , String string ) { super ( LINE , sline , scol , eline , ecol , string ) ; if ( debug ) { System . out . println ( "<STR_LIT>" + string + "<STR_LIT>" + sline + "<STR_LIT:C>" + scol + "<STR_LIT>" + eline + "<STR_LIT:C>" + ecol ) ; } } public List < TaskEntry > getPositionsOf ( String taskTag , String taskPriority , int [ ] lineseps , boolean caseSensitive ) { int i = findTaskTag ( comment , taskTag , caseSensitive , <NUM_LIT:0> ) ; if ( debug ) { System . out . println ( "<STR_LIT>" + comment + "<STR_LIT>" + taskTag + "<STR_LIT>" + i ) ; } if ( i == - <NUM_LIT:1> ) { return Collections . emptyList ( ) ; } List < TaskEntry > tasks = new ArrayList < TaskEntry > ( ) ; while ( i != - <NUM_LIT:1> ) { if ( isValidStartLocationForTask ( comment , i , taskTag ) ) { int offsetToLineStart = ( sline == <NUM_LIT:1> ? <NUM_LIT:0> : lineseps [ sline - <NUM_LIT:2> ] + <NUM_LIT:1> ) ; int taskTagStart = offsetToLineStart + ( scol - <NUM_LIT:1> ) + i ; int taskEnd = offsetToLineStart + ecol - <NUM_LIT:2> ; TaskEntry taskEntry = new TaskEntry ( taskTagStart , taskEnd , taskTag , taskPriority , comment , offsetToLineStart + scol - <NUM_LIT:1> ) ; if ( debug ) { System . out . println ( "<STR_LIT>" + taskEntry . toString ( ) ) ; } tasks . add ( taskEntry ) ; } i = findTaskTag ( comment , taskTag , caseSensitive , i + taskTag . length ( ) ) ; } return tasks ; } } class MultiLineComment extends Comment { public MultiLineComment ( int sline , int scol , int eline , int ecol , String string ) { super ( string . charAt ( <NUM_LIT:2> ) == '<CHAR_LIT>' ? JAVADOC : BLOCK , sline , scol , eline , ecol , string ) ; if ( debug ) { System . out . println ( "<STR_LIT>" + string + "<STR_LIT>" + sline + "<STR_LIT:C>" + scol + "<STR_LIT>" + eline + "<STR_LIT:C>" + ecol ) ; } } @ Override public List < TaskEntry > getPositionsOf ( String taskTag , String taskPriority , int [ ] lineseps , boolean caseSensitive ) { int i = findTaskTag ( comment , taskTag , caseSensitive , <NUM_LIT:0> ) ; if ( debug ) { System . out . println ( "<STR_LIT>" + comment + "<STR_LIT>" + taskTag + "<STR_LIT>" + i ) ; } if ( i == - <NUM_LIT:1> ) { return Collections . emptyList ( ) ; } List < TaskEntry > taskPositions = new ArrayList < TaskEntry > ( ) ; while ( i != - <NUM_LIT:1> ) { if ( isValidStartLocationForTask ( comment , i , taskTag ) ) { int offsetToCommentStart = ( sline == <NUM_LIT:1> ? <NUM_LIT:0> : lineseps [ sline - <NUM_LIT:2> ] + <NUM_LIT:1> ) + scol - <NUM_LIT:1> ; int taskTagStart = offsetToCommentStart + i ; int taskEnd = taskTagStart ; while ( true ) { int pos = taskEnd - offsetToCommentStart ; char ch = comment . charAt ( pos ) ; if ( ch == '<STR_LIT:\n>' \|\| ch == '<STR_LIT>' ) { break ; } if ( ( pos + <NUM_LIT:2> ) > comment . length ( ) ) { taskEnd -- ; break ; } taskEnd ++ ; } TaskEntry taskEntry = new TaskEntry ( taskTagStart , taskEnd - <NUM_LIT:1> , taskTag , taskPriority , comment , offsetToCommentStart ) ; if ( debug ) { System . out . println ( "<STR_LIT>" + taskEntry . toString ( ) ) ; } taskPositions . add ( taskEntry ) ; } i = findTaskTag ( comment , taskTag , caseSensitive , i + taskTag . length ( ) ) ; } return taskPositions ; } } </s>
<s> package org . codehaus . groovy . ast ; import groovy . lang . GroovyClassLoader ; import java . security . CodeSource ; import java . util . ArrayList ; import java . util . HashMap ; import java . util . Iterator ; import java . util . List ; import java . util . Map ; import org . codehaus . groovy . control . CompilerConfiguration ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . control . messages . SyntaxErrorMessage ; import org . codehaus . groovy . syntax . SyntaxException ; public class CompileUnit { private final List < ModuleNode > modules = new ArrayList < ModuleNode > ( ) ; private List < ModuleNode > sortedModules ; private Map < String , ClassNode > classes = new HashMap < String , ClassNode > ( ) ; private CompilerConfiguration config ; private GroovyClassLoader classLoader ; private CodeSource codeSource ; private Map < String , ClassNode > classesToCompile = new HashMap < String , ClassNode > ( ) ; private Map < String , SourceUnit > classNameToSource = new HashMap < String , SourceUnit > ( ) ; public CompileUnit ( GroovyClassLoader classLoader , CompilerConfiguration config ) { this ( classLoader , null , config ) ; } public CompileUnit ( GroovyClassLoader classLoader , CodeSource codeSource , CompilerConfiguration config ) { this . classLoader = classLoader ; this . config = config ; this . codeSource = codeSource ; } public List < ModuleNode > getModules ( ) { return modules ; } public void addModule ( ModuleNode node ) { if ( node == null ) return ; modules . add ( node ) ; this . sortedModules = null ; node . setUnit ( this ) ; addClasses ( node . getClasses ( ) ) ; } public ClassNode getClass ( String name ) { ClassNode cn = classes . get ( name ) ; if ( cn != null ) return cn ; return classesToCompile . get ( name ) ; } public List getClasses ( ) { List < ClassNode > answer = new ArrayList < ClassNode > ( ) ; for ( ModuleNode module : modules ) { answer . addAll ( module . getClasses ( ) ) ; } return answer ; } public CompilerConfiguration getConfig ( ) { return config ; } public GroovyClassLoader getClassLoader ( ) { return classLoader ; } public CodeSource getCodeSource ( ) { return codeSource ; } void addClasses ( List < ClassNode > classList ) { for ( ClassNode node : classList ) { addClass ( node ) ; } } public void addClass ( ClassNode node ) { node = node . redirect ( ) ; String name = node . getName ( ) ; ClassNode stored = classes . get ( name ) ; if ( stored != null && stored != node ) { SourceUnit nodeSource = node . getModule ( ) . getContext ( ) ; SourceUnit storedSource = stored . getModule ( ) . getContext ( ) ; String txt = "<STR_LIT>" + node . getName ( ) + "<STR_LIT:U+0020:U+0020>" ; if ( nodeSource == storedSource ) { txt += "<STR_LIT>" + nodeSource . getName ( ) + "<STR_LIT>" + node . getName ( ) + "<STR_LIT>" ; if ( node . isScriptBody ( ) \|\| stored . isScriptBody ( ) ) { txt += "<STR_LIT>" + "<STR_LIT>" ; } } else { txt += "<STR_LIT>" + nodeSource . getName ( ) + "<STR_LIT:U+0020andU+0020>" + storedSource . getName ( ) + "<STR_LIT>" + node . getName ( ) + "<STR_LIT>" ; } nodeSource . getErrorCollector ( ) . addErrorAndContinue ( new SyntaxErrorMessage ( new SyntaxException ( txt , node . getLineNumber ( ) , node . getColumnNumber ( ) ) , nodeSource ) ) ; } classes . put ( name , node ) ; if ( classesToCompile . containsKey ( name ) ) { ClassNode cn = classesToCompile . get ( name ) ; cn . setRedirect ( node ) ; classesToCompile . remove ( name ) ; } } public void addClassNodeToCompile ( ClassNode node , SourceUnit location ) { classesToCompile . put ( node . getName ( ) , node ) ; classNameToSource . put ( node . getName ( ) , location ) ; } public SourceUnit getScriptSourceLocation ( String className ) { return classNameToSource . get ( className ) ; } public boolean hasClassNodeToCompile ( ) { return ! classesToCompile . isEmpty ( ) ; } public Iterator < String > iterateClassNodeToCompile ( ) { return classesToCompile . keySet ( ) . iterator ( ) ; } public List < ModuleNode > getSortedModules ( ) { return this . sortedModules ; } public void setSortedModules ( List < ModuleNode > sortedModules ) { this . sortedModules = sortedModules ; } } </s>
<s> package org . codehaus . greclipse ; import org . codehaus . groovy . antlr . parser . GroovyTokenTypes ; public class GroovyTokenTypeBridge { public static int IDENT = GroovyTokenTypes . IDENT ; public static int LBRACK = GroovyTokenTypes . LBRACK ; public static int LCURLY = GroovyTokenTypes . LCURLY ; public static int LPAREN = GroovyTokenTypes . LPAREN ; public static int NLS = GroovyTokenTypes . NLS ; public static int RPAREN = GroovyTokenTypes . RPAREN ; public static int STRING_CTOR_START = GroovyTokenTypes . STRING_CTOR_START ; public static int WS = GroovyTokenTypes . WS ; public static int COMMA = GroovyTokenTypes . COMMA ; public static int SEMI = GroovyTokenTypes . SEMI ; public static int RCURLY = GroovyTokenTypes . RCURLY ; public static int SL_COMMENT = GroovyTokenTypes . SL_COMMENT ; public static int CLOSABLE_BLOCK_OP = GroovyTokenTypes . CLOSABLE_BLOCK_OP ; public static int EOF = GroovyTokenTypes . EOF ; public static int LITERAL_if = GroovyTokenTypes . LITERAL_if ; public static int LITERAL_else = GroovyTokenTypes . LITERAL_else ; public static int LITERAL_for = GroovyTokenTypes . LITERAL_for ; public static int LITERAL_switch = GroovyTokenTypes . LITERAL_switch ; public static int LITERAL_while = GroovyTokenTypes . LITERAL_while ; public static int RBRACK = GroovyTokenTypes . RBRACK ; public static int ML_COMMENT = GroovyTokenTypes . ML_COMMENT ; public static int STRING_CTOR_END = GroovyTokenTypes . STRING_CTOR_END ; public static int LITERAL_as = GroovyTokenTypes . LITERAL_as ; } </s>
<s> package org . codehaus . groovy . eclipse ; import java . util . Date ; @ SuppressWarnings ( "<STR_LIT>" ) public class DefaultGroovyLogger implements IGroovyLogger { public void log ( TraceCategory category , String message ) { System . out . println ( category . label + "<STR_LIT:U+0020:U+0020>" + new Date ( ) + "<STR_LIT:U+0020:U+0020>" + message ) ; } public boolean isCategoryEnabled ( TraceCategory category ) { return true ; } } </s>
<s> package org . codehaus . groovy . eclipse ; import junit . framework . TestCase ; public class LoggerTest extends TestCase { public void testLoggers ( ) throws Exception { DefaultGroovyLogger l1 = new DefaultGroovyLogger ( ) ; DefaultGroovyLogger l2 = new DefaultGroovyLogger ( ) ; DefaultGroovyLogger l3 = new DefaultGroovyLogger ( ) ; DefaultGroovyLogger l4 = new DefaultGroovyLogger ( ) ; DefaultGroovyLogger l5 = new DefaultGroovyLogger ( ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l1 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l1 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l2 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l2 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l3 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l3 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l4 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l4 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l5 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l5 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l1 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l1 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l2 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l2 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l3 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l3 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l4 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l4 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l5 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l5 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l1 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l1 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l2 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l2 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l3 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l3 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l4 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l4 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l5 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l5 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l5 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l5 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l4 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l4 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l3 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l3 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l2 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l2 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l1 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l1 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l1 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l1 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l2 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l2 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l3 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l3 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l4 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l4 ) ) ; assertTrue ( GroovyLogManager . manager . addLogger ( l5 ) ) ; assertFalse ( GroovyLogManager . manager . addLogger ( l5 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l3 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l3 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l2 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l2 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l4 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l4 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l5 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l5 ) ) ; assertTrue ( GroovyLogManager . manager . removeLogger ( l1 ) ) ; assertFalse ( GroovyLogManager . manager . removeLogger ( l1 ) ) ; } } </s>
<s> package org . codehaus . groovy . eclipse ; import java . io . PrintWriter ; import java . io . StringWriter ; import java . util . HashMap ; import java . util . Map ; public class GroovyLogManager { public static final GroovyLogManager manager = new GroovyLogManager ( ) ; private GroovyLogManager ( ) { defaultLogger = new DefaultGroovyLogger ( ) ; timers = new HashMap < String , Long > ( ) ; } private IGroovyLogger [ ] loggers = null ; private IGroovyLogger defaultLogger ; private Map < String , Long > timers ; private boolean useDefaultLogger ; public boolean addLogger ( IGroovyLogger logger ) { int newIndex ; if ( loggers == null ) { loggers = new IGroovyLogger [ <NUM_LIT:1> ] ; newIndex = <NUM_LIT:0> ; } else { for ( IGroovyLogger l : loggers ) { if ( l == logger ) { return false ; } } newIndex = loggers . length ; IGroovyLogger [ ] newLoggers = new IGroovyLogger [ newIndex + <NUM_LIT:1> ] ; System . arraycopy ( loggers , <NUM_LIT:0> , newLoggers , <NUM_LIT:0> , newIndex ) ; loggers = newLoggers ; } loggers [ newIndex ] = logger ; return true ; } public boolean removeLogger ( IGroovyLogger logger ) { if ( logger != null ) { int foundIndex = - <NUM_LIT:1> ; for ( int i = <NUM_LIT:0> ; i < loggers . length ; i ++ ) { if ( loggers [ i ] == logger ) { foundIndex = i ; } } if ( foundIndex >= <NUM_LIT:0> ) { if ( loggers . length > <NUM_LIT:1> ) { IGroovyLogger [ ] newLoggers = new IGroovyLogger [ loggers . length - <NUM_LIT:1> ] ; if ( foundIndex > <NUM_LIT:0> ) { System . arraycopy ( loggers , <NUM_LIT:0> , newLoggers , <NUM_LIT:0> , foundIndex ) ; } System . arraycopy ( loggers , foundIndex + <NUM_LIT:1> , newLoggers , foundIndex , loggers . length - foundIndex - <NUM_LIT:1> ) ; loggers = newLoggers ; } else { loggers = null ; } return true ; } } return false ; } public void logStart ( String event ) { timers . put ( event , System . currentTimeMillis ( ) ) ; } public void logEnd ( String event , TraceCategory category ) { logEnd ( event , category , null ) ; } public void logEnd ( String event , TraceCategory category , String message ) { Long then = timers . get ( event ) ; if ( then != null ) { if ( hasLoggers ( ) ) { long now = System . currentTimeMillis ( ) ; long elapsed = now - then . longValue ( ) ; if ( ( message != null ) && ( message . length ( ) > <NUM_LIT:0> ) ) { log ( category , "<STR_LIT>" + elapsed + "<STR_LIT>" + event + "<STR_LIT:U+0020(>" + message + "<STR_LIT:)>" ) ; } else { log ( category , "<STR_LIT>" + elapsed + "<STR_LIT>" + event ) ; } } timers . remove ( event ) ; } } public void log ( String message ) { log ( TraceCategory . DEFAULT , message ) ; } public void log ( TraceCategory category , String message ) { if ( ! hasLoggers ( ) ) { return ; } if ( loggers != null ) { for ( IGroovyLogger logger : loggers ) { if ( logger . isCategoryEnabled ( category ) ) { logger . log ( category , message ) ; } } } if ( useDefaultLogger ) { defaultLogger . log ( category , message ) ; } } public boolean hasLoggers ( ) { return loggers != null \|\| useDefaultLogger ; } public void setUseDefaultLogger ( boolean useDefaultLogger ) { this . useDefaultLogger = useDefaultLogger ; } public void logException ( TraceCategory cat , Throwable t ) { if ( hasLoggers ( ) ) { StringWriter writer = new StringWriter ( ) ; t . printStackTrace ( new PrintWriter ( writer ) ) ; log ( cat , "<STR_LIT>" + writer . getBuffer ( ) ) ; } } } </s>
<s> package org . codehaus . groovy . eclipse ; public interface IGroovyLogger { void log ( TraceCategory category , String message ) ; boolean isCategoryEnabled ( TraceCategory category ) ; } </s>
<s> package org . codehaus . groovy . eclipse ; import java . util . Arrays ; @ SuppressWarnings ( "<STR_LIT>" ) public enum TraceCategory { DEFAULT ( "<STR_LIT:_>" ) , CLASSPATH ( "<STR_LIT>" ) , REFACTORING ( "<STR_LIT>" ) , COMPILER ( "<STR_LIT>" ) , DSL ( "<STR_LIT>" ) , CODESELECT ( "<STR_LIT>" ) , CONTENT_ASSIST ( "<STR_LIT>" ) , AST_TRANSFORM ( "<STR_LIT>" ) ; TraceCategory ( String label ) { this . label = label ; } public final String label ; private String paddedLabel ; public String getPaddedLabel ( ) { if ( paddedLabel == null ) { synchronized ( TraceCategory . class ) { if ( longestLabel == - <NUM_LIT:1> ) { calculateLongest ( ) ; } } int extraSpace = longestLabel - label . length ( ) ; paddedLabel = spaces ( extraSpace ) + label ; } return paddedLabel ; } private String spaces ( int extraSpace ) { char [ ] a = new char [ extraSpace ] ; Arrays . fill ( a , '<CHAR_LIT:U+0020>' ) ; return new String ( a ) ; } private static void calculateLongest ( ) { int maybeLongest = longestLabel ; for ( TraceCategory category : values ( ) ) { maybeLongest = Math . max ( category . label . length ( ) , maybeLongest ) ; } longestLabel = maybeLongest ; } private static String [ ] stringValues ; public static String [ ] stringValues ( ) { if ( stringValues == null ) { TraceCategory [ ] values = values ( ) ; stringValues = new String [ values . length ] ; for ( int i = <NUM_LIT:0> ; i < values . length ; i ++ ) { stringValues [ i ] = values [ i ] . label ; } } return stringValues ; } private static int longestLabel = - <NUM_LIT:1> ; } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler ; import java . util . Comparator ; import java . util . Map ; import java . util . Set ; import java . util . TreeMap ; import org . codehaus . jdt . groovy . integration . LanguageSupportFactory ; import org . codehaus . jdt . groovy . model . GroovyNature ; import org . eclipse . core . resources . ICommand ; import org . eclipse . core . resources . IContainer ; import org . eclipse . core . resources . IFile ; import org . eclipse . core . resources . IFolder ; import org . eclipse . core . resources . IProject ; import org . eclipse . core . resources . IResource ; import org . eclipse . core . resources . IWorkspaceRoot ; import org . eclipse . core . resources . ResourceAttributes ; import org . eclipse . core . runtime . CoreException ; import org . eclipse . core . runtime . IPath ; import org . eclipse . core . runtime . Path ; import org . eclipse . jdt . core . IClasspathEntry ; import org . eclipse . jdt . core . IJavaProject ; import org . eclipse . jdt . core . JavaCore ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . compiler . BuildContext ; import org . eclipse . jdt . core . compiler . CategorizedProblem ; import org . eclipse . jdt . core . compiler . CompilationParticipant ; import org . eclipse . jdt . groovy . core . util . ScriptFolderSelector ; import org . eclipse . jdt . groovy . core . util . ScriptFolderSelector . FileKind ; import org . eclipse . jdt . internal . compiler . problem . DefaultProblem ; import org . eclipse . jdt . internal . compiler . problem . ProblemSeverities ; import org . eclipse . jdt . internal . core . util . Util ; public class ScriptFolderCompilationParticipant extends CompilationParticipant { static class PathLengthComparator implements Comparator < IContainer > { public int compare ( IContainer c1 , IContainer c2 ) { if ( c1 == null ) { if ( c2 == null ) { return <NUM_LIT:0> ; } return - <NUM_LIT:1> ; } if ( c2 == null ) { return <NUM_LIT:1> ; } int len1 = c1 . getFullPath ( ) . segmentCount ( ) ; int len2 = c2 . getFullPath ( ) . segmentCount ( ) ; if ( len1 > len2 ) { return - <NUM_LIT:1> ; } else if ( len1 == len2 ) { return c1 . toString ( ) . compareTo ( c2 . toString ( ) ) ; } else { return <NUM_LIT:1> ; } } } private static final PathLengthComparator comparator = new PathLengthComparator ( ) ; private BuildContext [ ] compiledFiles ; private IJavaProject project ; @ Override public boolean isActive ( IJavaProject project ) { boolean hasGroovyNature = GroovyNature . hasGroovyNature ( project . getProject ( ) ) ; if ( ! hasGroovyNature ) { return false ; } this . project = project ; return true ; } @ Override public void buildStarting ( BuildContext [ ] files , boolean isBatch ) { sanityCheckBuilder ( files ) ; compiledFiles = files ; } private void sanityCheckBuilder ( BuildContext [ ] files ) { if ( ! LanguageSupportFactory . isGroovyLanguageSupportInstalled ( ) ) { for ( BuildContext buildContext : files ) { buildContext . recordNewProblems ( createProblem ( buildContext ) ) ; } } try { ICommand [ ] buildSpec = project . getProject ( ) . getDescription ( ) . getBuildSpec ( ) ; boolean found = false ; for ( ICommand command : buildSpec ) { if ( command . getBuilderName ( ) . equals ( JavaCore . BUILDER_ID ) ) { found = true ; break ; } } if ( ! found ) { for ( BuildContext buildContext : files ) { buildContext . recordNewProblems ( createProblem ( buildContext ) ) ; } } } catch ( CoreException e ) { Util . log ( e ) ; } } private CategorizedProblem [ ] createProblem ( BuildContext buildContext ) { DefaultProblem problem = new DefaultProblem ( buildContext . getFile ( ) . getFullPath ( ) . toOSString ( ) . toCharArray ( ) , "<STR_LIT>" , <NUM_LIT:0> , new String [ <NUM_LIT:0> ] , ProblemSeverities . Error , <NUM_LIT:0> , <NUM_LIT:0> , <NUM_LIT:1> , <NUM_LIT:0> ) ; return new CategorizedProblem [ ] { problem } ; } @ Override public void buildFinished ( IJavaProject project ) { try { IProject iproject = project . getProject ( ) ; if ( compiledFiles == null \|\| ! ScriptFolderSelector . isEnabled ( iproject ) ) { return ; } ScriptFolderSelector selector = new ScriptFolderSelector ( iproject ) ; Map < IContainer , IContainer > sourceToOut = generateSourceToOut ( project ) ; for ( BuildContext compiledFile : compiledFiles ) { IFile file = compiledFile . getFile ( ) ; if ( selector . getFileKind ( file ) == FileKind . SCRIPT ) { IPath filePath = file . getFullPath ( ) ; IContainer containingSourceFolder = findContainingSourceFolder ( sourceToOut , filePath ) ; if ( containingSourceFolder != null ) { IPath packagePath = findPackagePath ( filePath , containingSourceFolder ) ; IContainer out = sourceToOut . get ( containingSourceFolder ) ; copyFile ( file , packagePath , out ) ; } } } } catch ( CoreException e ) { Util . log ( e , "<STR_LIT>" ) ; } finally { compiledFiles = null ; } } private IPath findPackagePath ( IPath filePath , IContainer containingSourceFolder ) { IPath containerPath = containingSourceFolder . getFullPath ( ) ; filePath = filePath . removeFirstSegments ( containerPath . segmentCount ( ) ) ; filePath = filePath . removeLastSegments ( <NUM_LIT:1> ) ; return filePath ; } private IContainer findContainingSourceFolder ( Map < IContainer , IContainer > sourceToOut , IPath filePath ) { Set < IContainer > sourceFolders = sourceToOut . keySet ( ) ; for ( IContainer container : sourceFolders ) { if ( container . getFullPath ( ) . isPrefixOf ( filePath ) ) { return container ; } } return null ; } private void copyFile ( IFile file , IPath packagePath , IContainer outputFolder ) throws CoreException { IContainer createdFolder = createFolder ( packagePath , outputFolder , true ) ; IFile toFile = createdFolder . getFile ( new Path ( file . getName ( ) ) ) ; if ( toFile . exists ( ) ) { toFile . delete ( true , null ) ; } file . copy ( toFile . getFullPath ( ) , true , null ) ; ResourceAttributes newAttrs = new ResourceAttributes ( ) ; newAttrs . setReadOnly ( false ) ; newAttrs . setHidden ( false ) ; toFile . setResourceAttributes ( newAttrs ) ; toFile . setDerived ( true , null ) ; toFile . refreshLocal ( IResource . DEPTH_ZERO , null ) ; } private IContainer createFolder ( IPath packagePath , IContainer outputFolder , boolean derived ) throws CoreException { if ( ! outputFolder . exists ( ) && outputFolder instanceof IFolder ) { ( ( IFolder ) outputFolder ) . create ( true , true , null ) ; } if ( packagePath . isEmpty ( ) ) return outputFolder ; IFolder folder = outputFolder . getFolder ( packagePath ) ; folder . refreshLocal ( IResource . DEPTH_ZERO , null ) ; if ( ! folder . exists ( ) ) { createFolder ( packagePath . removeLastSegments ( <NUM_LIT:1> ) , outputFolder , derived ) ; folder . create ( true , true , null ) ; folder . setDerived ( derived , null ) ; folder . refreshLocal ( IResource . DEPTH_ZERO , null ) ; } return folder ; } private Map < IContainer , IContainer > generateSourceToOut ( IJavaProject project ) throws JavaModelException { IProject p = project . getProject ( ) ; IWorkspaceRoot root = ( IWorkspaceRoot ) p . getParent ( ) ; IClasspathEntry [ ] cp = project . getRawClasspath ( ) ; IPath defaultOutPath = project . getOutputLocation ( ) ; IContainer defaultOutContainer ; if ( defaultOutPath . segmentCount ( ) > <NUM_LIT:1> ) { defaultOutContainer = root . getFolder ( defaultOutPath ) ; } else { defaultOutContainer = p ; } Map < IContainer , IContainer > sourceToOut = new TreeMap < IContainer , IContainer > ( comparator ) ; for ( IClasspathEntry cpe : cp ) { if ( cpe . getEntryKind ( ) == IClasspathEntry . CPE_SOURCE ) { IContainer sourceContainer ; IPath sourcePath = cpe . getPath ( ) ; if ( sourcePath . segmentCount ( ) > <NUM_LIT:1> ) { sourceContainer = root . getFolder ( sourcePath ) ; } else { sourceContainer = p ; } IPath outPath = cpe . getOutputLocation ( ) ; IContainer outContainer ; if ( outPath == null ) { outContainer = defaultOutContainer ; } else if ( outPath . segmentCount ( ) > <NUM_LIT:1> ) { outContainer = root . getFolder ( outPath ) ; } else { outContainer = p ; } if ( ! sourceContainer . equals ( outContainer ) ) { sourceToOut . put ( sourceContainer , outContainer ) ; } } } return sourceToOut ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . util . List ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . expr . Expression ; import org . eclipse . jdt . internal . compiler . lookup . AnnotationBinding ; import org . eclipse . jdt . internal . compiler . lookup . Binding ; import org . eclipse . jdt . internal . compiler . lookup . FieldBinding ; @ SuppressWarnings ( "<STR_LIT>" ) public class JDTFieldNode extends FieldNode implements JDTNode { private FieldBinding fieldBinding ; private JDTResolver resolver ; private int bits = <NUM_LIT:0> ; public JDTFieldNode ( FieldBinding fieldBinding , JDTResolver resolver , String name , int modifiers , ClassNode type , JDTClassNode declaringType , Expression initializerExpression ) { super ( name , modifiers , type , declaringType , initializerExpression ) ; this . resolver = resolver ; this . fieldBinding = fieldBinding ; } @ Override public void addAnnotation ( AnnotationNode value ) { throw new IllegalStateException ( "<STR_LIT>" ) ; } @ Override public void addAnnotations ( List annotations ) { throw new IllegalStateException ( "<STR_LIT>" ) ; } @ Override public List < AnnotationNode > getAnnotations ( ) { ensureAnnotationsInitialized ( ) ; return super . getAnnotations ( ) ; } @ Override public List < AnnotationNode > getAnnotations ( ClassNode type ) { ensureAnnotationsInitialized ( ) ; return super . getAnnotations ( type ) ; } private void ensureAnnotationsInitialized ( ) { if ( ( bits & ANNOTATIONS_INITIALIZED ) == <NUM_LIT:0> ) { AnnotationBinding [ ] annotationBindings = fieldBinding . getAnnotations ( ) ; for ( AnnotationBinding annotationBinding : annotationBindings ) { super . addAnnotation ( new JDTAnnotationNode ( annotationBinding , this . resolver ) ) ; } bits \|= ANNOTATIONS_INITIALIZED ; } } public FieldBinding getFieldBinding ( ) { return fieldBinding ; } public JDTResolver getResolver ( ) { return resolver ; } public Binding getJdtBinding ( ) { return fieldBinding ; } public boolean isDeprecated ( ) { return fieldBinding . isDeprecated ( ) ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . util . List ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . Parameter ; import org . codehaus . groovy . ast . stmt . Statement ; import org . eclipse . jdt . internal . compiler . lookup . AnnotationBinding ; import org . eclipse . jdt . internal . compiler . lookup . Binding ; import org . eclipse . jdt . internal . compiler . lookup . MethodBinding ; @ SuppressWarnings ( "<STR_LIT>" ) public class JDTMethodNode extends MethodNode implements JDTNode { private MethodBinding methodBinding ; private JDTResolver resolver ; private int bits = <NUM_LIT:0> ; public JDTMethodNode ( MethodBinding methodBinding , JDTResolver resolver , String name , int modifiers , ClassNode returnType , Parameter [ ] gParameters , ClassNode [ ] thrownExceptions , Statement object ) { super ( name , modifiers , returnType , gParameters , thrownExceptions , object ) ; this . resolver = resolver ; this . methodBinding = methodBinding ; } @ Override public void addAnnotation ( AnnotationNode value ) { throwImmutableException ( ) ; } @ Override public void addAnnotations ( List annotations ) { throwImmutableException ( ) ; } @ Override public List < AnnotationNode > getAnnotations ( ) { ensureAnnotationsInitialized ( ) ; return super . getAnnotations ( ) ; } @ Override public List < AnnotationNode > getAnnotations ( ClassNode type ) { ensureAnnotationsInitialized ( ) ; return super . getAnnotations ( type ) ; } private void ensureAnnotationsInitialized ( ) { if ( ( bits & ANNOTATIONS_INITIALIZED ) == <NUM_LIT:0> ) { AnnotationBinding [ ] annotationBindings = methodBinding . getAnnotations ( ) ; for ( AnnotationBinding annotationBinding : annotationBindings ) { super . addAnnotation ( new JDTAnnotationNode ( annotationBinding , this . resolver ) ) ; } bits \|= ANNOTATIONS_INITIALIZED ; } } private void throwImmutableException ( ) { throw new IllegalStateException ( "<STR_LIT>" ) ; } public JDTResolver getResolver ( ) { return resolver ; } public MethodBinding getMethodBinding ( ) { return methodBinding ; } public Binding getJdtBinding ( ) { return methodBinding ; } public boolean isDeprecated ( ) { return methodBinding . isDeprecated ( ) ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import org . codehaus . groovy . control . CompilationFailedException ; import org . codehaus . groovy . control . CompilerConfiguration ; import org . codehaus . groovy . control . ErrorCollector ; import org . codehaus . groovy . control . messages . Message ; import org . codehaus . groovy . control . messages . SimpleMessage ; public class GroovyErrorCollectorForJDT extends ErrorCollector { public GroovyErrorCollectorForJDT ( CompilerConfiguration configuration ) { super ( configuration ) ; } @ Override public void addErrorAndContinue ( Message message ) { System . err . println ( message ) ; if ( message instanceof SimpleMessage ) { System . err . println ( "<STR_LIT>" + ( ( SimpleMessage ) message ) . getMessage ( ) ) ; } super . addErrorAndContinue ( message ) ; } @ Override protected void failIfErrors ( ) throws CompilationFailedException { if ( transformActive ) { super . failIfErrors ( ) ; } } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . io . PrintWriter ; import java . io . StringWriter ; import java . util . ArrayList ; import java . util . Arrays ; import java . util . Comparator ; import java . util . HashMap ; import java . util . Iterator ; import java . util . LinkedList ; import java . util . List ; import java . util . Map ; import org . codehaus . groovy . GroovyBugError ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . Comment ; import org . codehaus . groovy . ast . ConstructorNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . GenericsType ; import org . codehaus . groovy . ast . ImportNode ; import org . codehaus . groovy . ast . ImportNodeCompatibilityWrapper ; import org . codehaus . groovy . ast . InnerClassNode ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . ModuleNode ; import org . codehaus . groovy . ast . PackageNode ; import org . codehaus . groovy . ast . Parameter ; import org . codehaus . groovy . ast . TaskEntry ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . expr . ListExpression ; import org . codehaus . groovy . ast . expr . PropertyExpression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . codehaus . groovy . control . CompilationUnit ; import org . codehaus . groovy . control . ErrorCollector ; import org . codehaus . groovy . control . MultipleCompilationErrorsException ; import org . codehaus . groovy . control . Phases ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . control . messages . ExceptionMessage ; import org . codehaus . groovy . control . messages . LocatedMessage ; import org . codehaus . groovy . control . messages . Message ; import org . codehaus . groovy . control . messages . SimpleMessage ; import org . codehaus . groovy . control . messages . SyntaxErrorMessage ; import org . codehaus . groovy . syntax . CSTNode ; import org . codehaus . groovy . syntax . PreciseSyntaxException ; import org . codehaus . groovy . syntax . RuntimeParserException ; import org . codehaus . groovy . syntax . SyntaxException ; import org . codehaus . groovy . syntax . Token ; import org . codehaus . groovy . tools . GroovyClass ; import org . eclipse . jdt . core . compiler . CategorizedProblem ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . internal . compiler . ast . SingleMemberAnnotation ; import org . eclipse . jdt . internal . compiler . ast . MarkerAnnotation ; import org . eclipse . jdt . internal . compiler . ASTVisitor ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . ast . ASTNode ; import org . eclipse . jdt . internal . compiler . ast . AbstractMethodDeclaration ; import org . eclipse . jdt . internal . compiler . ast . Annotation ; import org . eclipse . jdt . internal . compiler . ast . AnnotationMethodDeclaration ; import org . eclipse . jdt . internal . compiler . ast . Argument ; import org . eclipse . jdt . internal . compiler . ast . ArrayInitializer ; import org . eclipse . jdt . internal . compiler . ast . ArrayQualifiedTypeReference ; import org . eclipse . jdt . internal . compiler . ast . ArrayTypeReference ; import org . eclipse . jdt . internal . compiler . ast . ClassLiteralAccess ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . ast . ConstructorDeclaration ; import org . eclipse . jdt . internal . compiler . ast . FieldDeclaration ; import org . eclipse . jdt . internal . compiler . ast . ImportReference ; import org . eclipse . jdt . internal . compiler . ast . Javadoc ; import org . eclipse . jdt . internal . compiler . ast . MethodDeclaration ; import org . eclipse . jdt . internal . compiler . ast . ParameterizedQualifiedTypeReference ; import org . eclipse . jdt . internal . compiler . ast . ParameterizedSingleTypeReference ; import org . eclipse . jdt . internal . compiler . ast . QualifiedTypeReference ; import org . eclipse . jdt . internal . compiler . ast . SingleTypeReference ; import org . eclipse . jdt . internal . compiler . ast . StringLiteral ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . ast . TypeParameter ; import org . eclipse . jdt . internal . compiler . ast . TypeReference ; import org . eclipse . jdt . internal . compiler . ast . Wildcard ; import org . eclipse . jdt . internal . compiler . classfmt . ClassFileConstants ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . impl . IrritantSet ; import org . eclipse . jdt . internal . compiler . lookup . BlockScope ; import org . eclipse . jdt . internal . compiler . lookup . CompilationUnitScope ; import org . eclipse . jdt . internal . compiler . lookup . LocalTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . LookupEnvironment ; import org . eclipse . jdt . internal . compiler . lookup . SourceTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeIds ; import org . eclipse . jdt . internal . compiler . problem . AbortCompilation ; import org . eclipse . jdt . internal . compiler . problem . DefaultProblemFactory ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; import org . eclipse . jdt . internal . compiler . problem . ProblemSeverities ; import org . eclipse . jdt . internal . core . util . Util ; import org . objectweb . asm . Opcodes ; @ SuppressWarnings ( "<STR_LIT>" ) public class GroovyCompilationUnitDeclaration extends CompilationUnitDeclaration { private CompilationUnit groovyCompilationUnit ; private SourceUnit groovySourceUnit ; private CompilerOptions compilerOptions ; private boolean checkGenerics ; public static boolean defaultCheckGenerics = false ; public static boolean earlyTransforms = true ; private boolean isScript = false ; private static final boolean DEBUG_TASK_TAGS = false ; public GroovyCompilationUnitDeclaration ( ProblemReporter problemReporter , CompilationResult compilationResult , int sourceLength , CompilationUnit groovyCompilationUnit , SourceUnit groovySourceUnit , CompilerOptions compilerOptions ) { super ( problemReporter , compilationResult , sourceLength ) ; this . groovyCompilationUnit = groovyCompilationUnit ; this . groovySourceUnit = groovySourceUnit ; this . compilerOptions = compilerOptions ; this . checkGenerics = defaultCheckGenerics ; } private void setComments ( ) { List < Comment > groovyComments = this . groovySourceUnit . getComments ( ) ; if ( groovyComments == null \|\| groovyComments . size ( ) == <NUM_LIT:0> ) { return ; } this . comments = new int [ groovyComments . size ( ) ] [ <NUM_LIT:2> ] ; for ( int c = <NUM_LIT:0> , max = groovyComments . size ( ) ; c < max ; c ++ ) { Comment groovyComment = groovyComments . get ( c ) ; this . comments [ c ] = groovyComment . getPositions ( compilationResult . lineSeparatorPositions ) ; } } public boolean processToPhase ( int phase ) { boolean alreadyHasProblems = compilationResult . hasProblems ( ) ; try { ClassLoader cl = Thread . currentThread ( ) . getContextClassLoader ( ) ; try { Thread . currentThread ( ) . setContextClassLoader ( groovyCompilationUnit . getTransformLoader ( ) ) ; groovyCompilationUnit . compile ( phase ) ; } finally { Thread . currentThread ( ) . setContextClassLoader ( cl ) ; } if ( groovySourceUnit . getErrorCollector ( ) . hasErrors ( ) ) { recordProblems ( groovySourceUnit . getErrorCollector ( ) . getErrors ( ) ) ; return false ; } else { return true ; } } catch ( MultipleCompilationErrorsException problems ) { AbortCompilation abort = getAbortCompilation ( problems ) ; if ( abort != null ) { System . out . println ( "<STR_LIT>" ) ; throw abort ; } else { System . err . println ( "<STR_LIT>" ) ; problems . printStackTrace ( ) ; recordProblems ( problems . getErrorCollector ( ) . getErrors ( ) ) ; } } catch ( GroovyBugError gbr ) { if ( alreadyHasProblems ) { System . err . println ( "<STR_LIT>" + gbr . getMessage ( ) + "<STR_LIT:'>" ) ; } else { boolean reportit = true ; if ( gbr . getCause ( ) instanceof AbortCompilation ) { AbortCompilation abort = ( AbortCompilation ) gbr . getCause ( ) ; if ( abort . isSilent ) { reportit = false ; } } if ( reportit ) { System . err . println ( "<STR_LIT>" + gbr . getBugText ( ) ) ; gbr . printStackTrace ( ) ; Util . log ( gbr , "<STR_LIT>" ) ; groovySourceUnit . getErrorCollector ( ) . addError ( new SyntaxErrorMessage ( new SyntaxException ( "<STR_LIT>" + gbr . getBugText ( ) , gbr , <NUM_LIT:1> , <NUM_LIT:0> ) , groovySourceUnit ) ) ; recordProblems ( groovySourceUnit . getErrorCollector ( ) . getErrors ( ) ) ; } } } return false ; } private org . eclipse . jdt . internal . compiler . problem . AbortCompilation getAbortCompilation ( MultipleCompilationErrorsException problems ) { ErrorCollector collector = problems . getErrorCollector ( ) ; if ( collector . getErrorCount ( ) == <NUM_LIT:1> && problems . getErrorCollector ( ) . getError ( <NUM_LIT:0> ) instanceof ExceptionMessage ) { Exception abort = ( ( ExceptionMessage ) problems . getErrorCollector ( ) . getError ( <NUM_LIT:0> ) ) . getCause ( ) ; return abort instanceof AbortCompilation ? ( AbortCompilation ) abort : null ; } return null ; } public CompilationUnit getCompilationUnit ( ) { return groovyCompilationUnit ; } public void populateCompilationUnitDeclaration ( ) { ModuleNode moduleNode = groovySourceUnit . getAST ( ) ; createPackageDeclaration ( moduleNode ) ; createImports ( moduleNode ) ; createTypeDeclarations ( moduleNode ) ; } protected void createImports ( ModuleNode moduleNode ) { List < ImportNode > importNodes = moduleNode . getImports ( ) ; List < ImportNode > importPackages = ImportNodeCompatibilityWrapper . getStarImports ( moduleNode ) ; Map < String , ImportNode > importStatics = ImportNodeCompatibilityWrapper . getStaticImports ( moduleNode ) ; Map < String , ImportNode > importStaticStars = ImportNodeCompatibilityWrapper . getStaticStarImports ( moduleNode ) ; if ( importNodes . size ( ) > <NUM_LIT:0> \|\| importPackages . size ( ) > <NUM_LIT:0> \|\| importStatics . size ( ) > <NUM_LIT:0> \|\| importStaticStars . size ( ) > <NUM_LIT:0> ) { List < ImportReference > importReferences = new ArrayList < ImportReference > ( ) ; for ( ImportNode importNode : importNodes ) { char [ ] [ ] splits = CharOperation . splitOn ( '<CHAR_LIT:.>' , importNode . getClassName ( ) . toCharArray ( ) ) ; ImportReference ref = null ; ClassNode type = importNode . getType ( ) ; int typeStartOffset = startOffset ( type ) ; int typeEndOffset = endOffset ( type ) ; if ( typeStartOffset == <NUM_LIT:0> ) { continue ; } if ( importNode . getAlias ( ) != null && importNode . getAlias ( ) . length ( ) > <NUM_LIT:0> ) { ref = new AliasImportReference ( importNode . getAlias ( ) . toCharArray ( ) , splits , positionsFor ( splits , typeStartOffset , typeEndOffset ) , false , ClassFileConstants . AccDefault ) ; } else { ref = new ImportReference ( splits , positionsFor ( splits , typeStartOffset , typeEndOffset ) , false , ClassFileConstants . AccDefault ) ; } ref . sourceEnd = Math . max ( typeEndOffset - <NUM_LIT:1> , ref . sourceStart ) ; int start = importNode . getStart ( ) ; ref . declarationSourceStart = start ; int end = importNode . getEnd ( ) ; ref . declarationSourceEnd = end ; ref . declarationEnd = ref . sourceEnd ; importReferences . add ( ref ) ; } for ( ImportNode importPackage : importPackages ) { String importText = importPackage . getText ( ) ; int packageStartOffset = importPackage . getStart ( ) + "<STR_LIT>" . length ( ) ; int packageEndOffset = packageStartOffset + importText . length ( ) - "<STR_LIT>" . length ( ) - "<STR_LIT>" . length ( ) ; char [ ] [ ] splits = CharOperation . splitOn ( '<CHAR_LIT:.>' , importPackage . getPackageName ( ) . substring ( <NUM_LIT:0> , importPackage . getPackageName ( ) . length ( ) - <NUM_LIT:1> ) . toCharArray ( ) ) ; ImportReference ref = new ImportReference ( splits , positionsFor ( splits , packageStartOffset , packageEndOffset ) , true , ClassFileConstants . AccDefault ) ; ref . sourceEnd = packageEndOffset ; ref . declarationSourceStart = importPackage . getStart ( ) ; ref . declarationSourceEnd = importPackage . getEnd ( ) ; ref . declarationEnd = ref . sourceEnd ; importReferences . add ( ref ) ; } for ( Map . Entry < String , ImportNode > importStatic : importStatics . entrySet ( ) ) { ImportNode importNode = importStatic . getValue ( ) ; String importName = importNode . getClassName ( ) + "<STR_LIT:.>" + importStatic . getKey ( ) ; char [ ] [ ] splits = CharOperation . splitOn ( '<CHAR_LIT:.>' , importName . toCharArray ( ) ) ; ImportReference ref = null ; ClassNode type = importNode . getType ( ) ; int typeStartOffset = startOffset ( type ) ; int typeEndOffset = endOffset ( type ) ; if ( importNode . getAlias ( ) != null && importNode . getAlias ( ) . length ( ) > <NUM_LIT:0> ) { ref = new AliasImportReference ( importNode . getAlias ( ) . toCharArray ( ) , splits , positionsFor ( splits , typeStartOffset , typeEndOffset ) , false , ClassFileConstants . AccDefault \| ClassFileConstants . AccStatic ) ; } else { ref = new ImportReference ( splits , positionsFor ( splits , typeStartOffset , typeEndOffset ) , false , ClassFileConstants . AccDefault \| ClassFileConstants . AccStatic ) ; } ref . sourceEnd = Math . max ( typeEndOffset - <NUM_LIT:1> , ref . sourceStart ) ; ref . declarationSourceStart = importNode . getStart ( ) ; ref . declarationSourceEnd = importNode . getEnd ( ) ; ref . declarationEnd = ref . sourceEnd ; importReferences . add ( ref ) ; } for ( Map . Entry < String , ImportNode > importStaticStar : importStaticStars . entrySet ( ) ) { String classname = importStaticStar . getKey ( ) ; ImportNode importNode = importStaticStar . getValue ( ) ; ClassNode importedType = importNode . getType ( ) ; int typeStartOffset = importedType != null ? startOffset ( importedType ) : <NUM_LIT:0> ; int typeEndOffset = importedType != null ? endOffset ( importedType ) : <NUM_LIT:0> ; char [ ] [ ] splits = CharOperation . splitOn ( '<CHAR_LIT:.>' , classname . toCharArray ( ) ) ; ImportReference ref = new ImportReference ( splits , positionsFor ( splits , typeStartOffset , typeEndOffset ) , true , ClassFileConstants . AccDefault \| ClassFileConstants . AccStatic ) ; ref . sourceEnd = Math . max ( typeEndOffset - <NUM_LIT:1> , ref . sourceStart ) ; ref . declarationSourceStart = importNode . getStart ( ) ; ref . declarationSourceEnd = importNode . getEnd ( ) ; ref . declarationEnd = ref . sourceEnd ; importReferences . add ( ref ) ; } if ( importReferences . size ( ) != <NUM_LIT:0> ) { imports = importReferences . toArray ( new ImportReference [ importReferences . size ( ) ] ) ; Arrays . sort ( imports , new Comparator < ImportReference > ( ) { public int compare ( ImportReference left , ImportReference right ) { return left . sourceStart - right . sourceStart ; } } ) ; for ( ImportReference ref : imports ) { if ( ref . declarationSourceStart > <NUM_LIT:0> && ( ref . declarationEnd - ref . declarationSourceStart + <NUM_LIT:1> ) < <NUM_LIT:0> ) { throw new IllegalStateException ( "<STR_LIT>" + moduleNode . getClasses ( ) . get ( <NUM_LIT:0> ) + "<STR_LIT>" + ref . toString ( ) + "<STR_LIT>" + ref . declarationSourceStart + "<STR_LIT>" + + ref . declarationEnd ) ; } } } } } private void createPackageDeclaration ( ModuleNode moduleNode ) { if ( moduleNode . hasPackageName ( ) ) { PackageNode packageNode = moduleNode . getPackage ( ) ; String packageName = moduleNode . getPackageName ( ) ; if ( packageName . endsWith ( "<STR_LIT:.>" ) ) { packageName = packageName . substring ( <NUM_LIT:0> , packageName . length ( ) - <NUM_LIT:1> ) ; } long start = startOffset ( packageNode ) ; long end = endOffset ( packageNode ) ; char [ ] [ ] packageReference = CharOperation . splitOn ( '<CHAR_LIT:.>' , packageName . toCharArray ( ) ) ; currentPackage = new ImportReference ( packageReference , positionsFor ( packageReference , start , end ) , true , ClassFileConstants . AccDefault ) ; currentPackage . declarationSourceStart = currentPackage . sourceStart ; currentPackage . declarationSourceEnd = currentPackage . sourceEnd ; currentPackage . declarationEnd = currentPackage . sourceEnd ; currentPackage . declarationSourceStart = currentPackage . sourceStart - "<STR_LIT>" . length ( ) ; currentPackage . declarationEnd = currentPackage . declarationSourceEnd = currentPackage . sourceEnd ; } } private Annotation [ ] transformAnnotations ( List < AnnotationNode > groovyAnnotations ) { if ( groovyAnnotations != null && groovyAnnotations . size ( ) > <NUM_LIT:0> ) { List < Annotation > annotations = new ArrayList < Annotation > ( ) ; for ( AnnotationNode annotationNode : groovyAnnotations ) { ClassNode annoType = annotationNode . getClassNode ( ) ; Map < String , Expression > memberValuePairs = annotationNode . getMembers ( ) ; if ( memberValuePairs == null \|\| memberValuePairs . size ( ) == <NUM_LIT:0> ) { TypeReference annotationReference = createTypeReferenceForClassNode ( annoType ) ; annotationReference . sourceStart = annotationNode . getStart ( ) ; annotationReference . sourceEnd = annotationNode . getEnd ( ) ; MarkerAnnotation annotation = new MarkerAnnotation ( annotationReference , annotationNode . getStart ( ) ) ; annotation . declarationSourceEnd = annotation . sourceEnd ; annotations . add ( annotation ) ; } else { if ( memberValuePairs . size ( ) == <NUM_LIT:1> && memberValuePairs . containsKey ( "<STR_LIT:value>" ) ) { Expression value = memberValuePairs . get ( "<STR_LIT:value>" ) ; if ( value instanceof PropertyExpression ) { String pExpression = ( ( PropertyExpression ) value ) . getPropertyAsString ( ) ; if ( pExpression . equals ( "<STR_LIT:class>" ) ) { TypeReference annotationReference = createTypeReferenceForClassNode ( annoType ) ; annotationReference . sourceStart = annotationNode . getStart ( ) ; annotationReference . sourceEnd = annotationNode . getEnd ( ) ; SingleMemberAnnotation annotation = new SingleMemberAnnotation ( annotationReference , annotationNode . getStart ( ) ) ; annotation . memberValue = new ClassLiteralAccess ( value . getEnd ( ) , classLiteralToTypeReference ( ( PropertyExpression ) value ) ) ; annotation . declarationSourceEnd = annotation . sourceStart + annoType . getNameWithoutPackage ( ) . length ( ) ; annotations . add ( annotation ) ; } } else if ( value instanceof VariableExpression && annoType . getName ( ) . endsWith ( "<STR_LIT>" ) ) { TypeReference annotationReference = createTypeReferenceForClassNode ( annoType ) ; annotationReference . sourceStart = annotationNode . getStart ( ) ; annotationReference . sourceEnd = annotationNode . getEnd ( ) ; SingleMemberAnnotation annotation = new SingleMemberAnnotation ( annotationReference , annotationNode . getStart ( ) ) ; String v = ( ( VariableExpression ) value ) . getName ( ) ; TypeReference ref = null ; int start = annotationReference . sourceStart ; int end = annotationReference . sourceEnd ; if ( v . indexOf ( "<STR_LIT:.>" ) == - <NUM_LIT:1> ) { ref = new SingleTypeReference ( v . toCharArray ( ) , toPos ( start , end - <NUM_LIT:1> ) ) ; } else { char [ ] [ ] splits = CharOperation . splitOn ( '<CHAR_LIT:.>' , v . toCharArray ( ) ) ; ref = new QualifiedTypeReference ( splits , positionsFor ( splits , start , end - <NUM_LIT:2> ) ) ; } annotation . memberValue = new ClassLiteralAccess ( value . getEnd ( ) , ref ) ; annotation . declarationSourceEnd = annotation . sourceStart + annoType . getNameWithoutPackage ( ) . length ( ) ; annotations . add ( annotation ) ; } else if ( annoType . getName ( ) . equals ( "<STR_LIT>" ) && ( value instanceof ConstantExpression \|\| value instanceof ListExpression ) ) { if ( value instanceof ListExpression ) { ListExpression listExpression = ( ListExpression ) value ; List < Expression > listOfExpressions = listExpression . getExpressions ( ) ; TypeReference annotationReference = createTypeReferenceForClassNode ( annoType ) ; annotationReference . sourceStart = annotationNode . getStart ( ) ; annotationReference . sourceEnd = annotationNode . getEnd ( ) - <NUM_LIT:1> ; SingleMemberAnnotation annotation = new SingleMemberAnnotation ( annotationReference , annotationNode . getStart ( ) ) ; ArrayInitializer arrayInitializer = new ArrayInitializer ( ) ; arrayInitializer . expressions = new org . eclipse . jdt . internal . compiler . ast . Expression [ listOfExpressions . size ( ) ] ; for ( int c = <NUM_LIT:0> ; c < listOfExpressions . size ( ) ; c ++ ) { ConstantExpression cExpression = ( ConstantExpression ) listOfExpressions . get ( c ) ; String v = ( String ) cExpression . getValue ( ) ; TypeReference ref = null ; int start = cExpression . getStart ( ) ; int end = cExpression . getEnd ( ) - <NUM_LIT:1> ; if ( v . indexOf ( "<STR_LIT:.>" ) == - <NUM_LIT:1> ) { ref = new SingleTypeReference ( v . toCharArray ( ) , toPos ( start , end - <NUM_LIT:1> ) ) ; annotation . declarationSourceEnd = annotation . sourceStart + annoType . getNameWithoutPackage ( ) . length ( ) - <NUM_LIT:1> ; } else { char [ ] [ ] splits = CharOperation . splitOn ( '<CHAR_LIT:.>' , v . toCharArray ( ) ) ; ref = new QualifiedTypeReference ( splits , positionsFor ( splits , start , end - <NUM_LIT:2> ) ) ; annotation . declarationSourceEnd = annotation . sourceStart + annoType . getName ( ) . length ( ) - <NUM_LIT:1> ; } arrayInitializer . expressions [ c ] = new StringLiteral ( v . toCharArray ( ) , start , end , - <NUM_LIT:1> ) ; } annotation . memberValue = arrayInitializer ; annotations . add ( annotation ) ; } else { ConstantExpression constantExpression = ( ConstantExpression ) value ; if ( value . getType ( ) . getName ( ) . equals ( "<STR_LIT>" ) ) { TypeReference annotationReference = createTypeReferenceForClassNode ( annoType ) ; annotationReference . sourceStart = annotationNode . getStart ( ) ; annotationReference . sourceEnd = annotationNode . getEnd ( ) - <NUM_LIT:1> ; SingleMemberAnnotation annotation = new SingleMemberAnnotation ( annotationReference , annotationNode . getStart ( ) ) ; String v = ( String ) constantExpression . getValue ( ) ; TypeReference ref = null ; int start = constantExpression . getStart ( ) ; int end = constantExpression . getEnd ( ) - <NUM_LIT:1> ; if ( v . indexOf ( "<STR_LIT:.>" ) == - <NUM_LIT:1> ) { ref = new SingleTypeReference ( v . toCharArray ( ) , toPos ( start , end - <NUM_LIT:1> ) ) ; annotation . declarationSourceEnd = annotation . sourceStart + annoType . getNameWithoutPackage ( ) . length ( ) - <NUM_LIT:1> ; } else { char [ ] [ ] splits = CharOperation . splitOn ( '<CHAR_LIT:.>' , v . toCharArray ( ) ) ; ref = new QualifiedTypeReference ( splits , positionsFor ( splits , start , end - <NUM_LIT:2> ) ) ; annotation . declarationSourceEnd = annotation . sourceStart + annoType . getName ( ) . length ( ) - <NUM_LIT:1> ; } annotation . memberValue = new StringLiteral ( v . toCharArray ( ) , start , end , - <NUM_LIT:1> ) ; annotations . add ( annotation ) ; } } } } else if ( annoType . getNameWithoutPackage ( ) . equals ( "<STR_LIT:Test>" ) ) { TypeReference annotationReference = createTypeReferenceForClassNode ( annoType ) ; annotationReference . sourceStart = annotationNode . getStart ( ) ; annotationReference . sourceEnd = annotationNode . getEnd ( ) ; MarkerAnnotation annotation = new MarkerAnnotation ( annotationReference , annotationNode . getStart ( ) ) ; annotation . declarationSourceEnd = annotation . sourceEnd ; annotations . add ( annotation ) ; } } } if ( annotations . size ( ) > <NUM_LIT:0> ) { return annotations . toArray ( new Annotation [ annotations . size ( ) ] ) ; } } return null ; } private TypeReference classLiteralToTypeReference ( PropertyExpression value ) { assert value . getPropertyAsString ( ) . equals ( "<STR_LIT:class>" ) ; Expression candidate = value . getObjectExpression ( ) ; List < char [ ] > nameParts = new LinkedList < char [ ] > ( ) ; while ( candidate instanceof PropertyExpression ) { nameParts . add ( <NUM_LIT:0> , ( ( PropertyExpression ) candidate ) . getPropertyAsString ( ) . toCharArray ( ) ) ; candidate = ( ( PropertyExpression ) candidate ) . getObjectExpression ( ) ; } if ( candidate instanceof VariableExpression ) { nameParts . add ( <NUM_LIT:0> , ( ( VariableExpression ) candidate ) . getName ( ) . toCharArray ( ) ) ; } char [ ] [ ] namePartsArr = nameParts . toArray ( new char [ nameParts . size ( ) ] [ ] ) ; long [ ] poss = positionsFor ( namePartsArr , value . getObjectExpression ( ) . getStart ( ) , value . getObjectExpression ( ) . getEnd ( ) ) ; TypeReference ref ; if ( namePartsArr . length > <NUM_LIT:1> ) { ref = new QualifiedTypeReference ( namePartsArr , poss ) ; } else if ( namePartsArr . length == <NUM_LIT:1> ) { ref = new SingleTypeReference ( namePartsArr [ <NUM_LIT:0> ] , poss [ <NUM_LIT:0> ] ) ; } else { ref = TypeReference . baseTypeReference ( nameToPrimitiveTypeId . get ( "<STR_LIT>" ) , <NUM_LIT:0> ) ; } return ref ; } private Javadoc findJavadoc ( int line ) { for ( Comment comment : groovySourceUnit . getComments ( ) ) { if ( comment . isJavadoc ( ) ) { if ( comment . getLastLine ( ) + <NUM_LIT:1> == line \|\| ( comment . getLastLine ( ) + <NUM_LIT:2> == line && ! comment . usedUp ) ) { int [ ] pos = comment . getPositions ( compilationResult . lineSeparatorPositions ) ; comment . usedUp = true ; return new Javadoc ( pos [ <NUM_LIT:0> ] , pos [ <NUM_LIT:1> ] ) ; } } } return null ; } private void createTypeDeclarations ( ModuleNode moduleNode ) { List < ClassNode > moduleClassNodes = moduleNode . getClasses ( ) ; List < TypeDeclaration > typeDeclarations = new ArrayList < TypeDeclaration > ( ) ; Map < ClassNode , TypeDeclaration > fromClassNodeToDecl = new HashMap < ClassNode , TypeDeclaration > ( ) ; char [ ] mainName = toMainName ( compilationResult . getFileName ( ) ) ; boolean isInner = false ; List < ClassNode > classNodes = null ; classNodes = moduleClassNodes ; Map < ClassNode , List < TypeDeclaration > > innersToRecord = new HashMap < ClassNode , List < TypeDeclaration > > ( ) ; for ( ClassNode classNode : classNodes ) { if ( ! classNode . isPrimaryClassNode ( ) ) { continue ; } GroovyTypeDeclaration typeDeclaration = new GroovyTypeDeclaration ( compilationResult , classNode ) ; typeDeclaration . annotations = transformAnnotations ( classNode . getAnnotations ( ) ) ; if ( classNode instanceof InnerClassNode ) { InnerClassNode innerClassNode = ( InnerClassNode ) classNode ; ClassNode outerClass = innerClassNode . getOuterClass ( ) ; String outername = outerClass . getNameWithoutPackage ( ) ; String newInner = innerClassNode . getNameWithoutPackage ( ) . substring ( outername . length ( ) + <NUM_LIT:1> ) ; typeDeclaration . name = newInner . toCharArray ( ) ; isInner = true ; } else { typeDeclaration . name = classNode . getNameWithoutPackage ( ) . toCharArray ( ) ; isInner = false ; } boolean isInterface = classNode . isInterface ( ) ; int mods = classNode . getModifiers ( ) ; if ( ( mods & Opcodes . ACC_ENUM ) != <NUM_LIT:0> ) { mods = mods & ~ Opcodes . ACC_FINAL ; } mods = mods & ~ ( Opcodes . ACC_PRIVATE \| Opcodes . ACC_PROTECTED ) ; if ( ! isInner ) { if ( ( mods & Opcodes . ACC_STATIC ) != <NUM_LIT:0> ) { mods = mods & ~ ( Opcodes . ACC_STATIC ) ; } } typeDeclaration . modifiers = mods & ~ ( isInterface ? Opcodes . ACC_ABSTRACT : <NUM_LIT:0> ) ; if ( ! ( classNode instanceof InnerClassNode ) ) { if ( ! CharOperation . equals ( typeDeclaration . name , mainName ) ) { typeDeclaration . bits \|= ASTNode . IsSecondaryType ; } } fixupSourceLocationsForTypeDeclaration ( typeDeclaration , classNode ) ; if ( classNode . getGenericsTypes ( ) != null ) { GenericsType [ ] genericInfo = classNode . getGenericsTypes ( ) ; typeDeclaration . typeParameters = new TypeParameter [ genericInfo . length ] ; for ( int tp = <NUM_LIT:0> ; tp < genericInfo . length ; tp ++ ) { TypeParameter typeParameter = new TypeParameter ( ) ; typeParameter . name = genericInfo [ tp ] . getName ( ) . toCharArray ( ) ; ClassNode [ ] upperBounds = genericInfo [ tp ] . getUpperBounds ( ) ; if ( upperBounds != null ) { typeParameter . type = createTypeReferenceForClassNode ( upperBounds [ <NUM_LIT:0> ] ) ; typeParameter . bounds = ( upperBounds . length > <NUM_LIT:1> ? new TypeReference [ upperBounds . length - <NUM_LIT:1> ] : null ) ; for ( int b = <NUM_LIT:1> , max = upperBounds . length ; b < max ; b ++ ) { typeParameter . bounds [ b - <NUM_LIT:1> ] = createTypeReferenceForClassNode ( upperBounds [ b ] ) ; typeParameter . bounds [ b - <NUM_LIT:1> ] . bits \|= ASTNode . IsSuperType ; } } typeDeclaration . typeParameters [ tp ] = typeParameter ; } } boolean isEnum = ( classNode . getModifiers ( ) & Opcodes . ACC_ENUM ) != <NUM_LIT:0> ; configureSuperClass ( typeDeclaration , classNode . getSuperClass ( ) , isEnum ) ; configureSuperInterfaces ( typeDeclaration , classNode ) ; typeDeclaration . methods = createMethodAndConstructorDeclarations ( classNode , isEnum , compilationResult ) ; typeDeclaration . fields = createFieldDeclarations ( classNode ) ; typeDeclaration . properties = classNode . getProperties ( ) ; if ( classNode instanceof InnerClassNode ) { InnerClassNode innerClassNode = ( InnerClassNode ) classNode ; ClassNode outerClass = innerClassNode . getOuterClass ( ) ; String outername = outerClass . getNameWithoutPackage ( ) ; String newInner = innerClassNode . getNameWithoutPackage ( ) . substring ( outername . length ( ) + <NUM_LIT:1> ) ; typeDeclaration . name = newInner . toCharArray ( ) ; List < TypeDeclaration > inners = innersToRecord . get ( outerClass ) ; if ( inners == null ) { inners = new ArrayList < TypeDeclaration > ( ) ; innersToRecord . put ( outerClass , inners ) ; } inners . add ( typeDeclaration ) ; } else { typeDeclarations . add ( typeDeclaration ) ; } fromClassNodeToDecl . put ( classNode , typeDeclaration ) ; } for ( Map . Entry < ClassNode , List < TypeDeclaration > > innersToRecordEntry : innersToRecord . entrySet ( ) ) { TypeDeclaration outerTypeDeclaration = fromClassNodeToDecl . get ( innersToRecordEntry . getKey ( ) ) ; if ( outerTypeDeclaration == null ) { throw new GroovyEclipseBug ( "<STR_LIT>" + innersToRecordEntry . getKey ( ) . getName ( ) ) ; } List < TypeDeclaration > newInnersList = innersToRecordEntry . getValue ( ) ; outerTypeDeclaration . memberTypes = newInnersList . toArray ( new TypeDeclaration [ newInnersList . size ( ) ] ) ; } types = typeDeclarations . toArray ( new TypeDeclaration [ typeDeclarations . size ( ) ] ) ; } public char [ ] toMainName ( char [ ] fileName ) { if ( fileName == null ) { return new char [ <NUM_LIT:0> ] ; } int start = CharOperation . lastIndexOf ( '<CHAR_LIT:/>' , fileName ) + <NUM_LIT:1> ; if ( start == <NUM_LIT:0> \|\| start < CharOperation . lastIndexOf ( '<STR_LIT:\\>' , fileName ) ) start = CharOperation . lastIndexOf ( '<STR_LIT:\\>' , fileName ) + <NUM_LIT:1> ; int end = CharOperation . lastIndexOf ( '<CHAR_LIT:.>' , fileName ) ; if ( end == - <NUM_LIT:1> ) end = fileName . length ; return CharOperation . subarray ( fileName , start , end ) ; } private AbstractMethodDeclaration [ ] createMethodAndConstructorDeclarations ( ClassNode classNode , boolean isEnum , CompilationResult compilationResult ) { List < AbstractMethodDeclaration > accumulatedDeclarations = new ArrayList < AbstractMethodDeclaration > ( ) ; createConstructorDeclarations ( classNode , isEnum , accumulatedDeclarations ) ; createMethodDeclarations ( classNode , isEnum , accumulatedDeclarations ) ; return accumulatedDeclarations . toArray ( new AbstractMethodDeclaration [ accumulatedDeclarations . size ( ) ] ) ; } static class FieldDeclarationWithInitializer extends FieldDeclaration { private Expression initializer ; public FieldDeclarationWithInitializer ( char [ ] name , int sourceStart , int sourceEnd ) { super ( name , sourceStart , sourceEnd ) ; } public void setGroovyInitializer ( Expression initializer ) { this . initializer = initializer ; } public Expression getGroovyInitializer ( ) { return this . initializer ; } } private FieldDeclaration [ ] createFieldDeclarations ( ClassNode classNode ) { List < FieldDeclaration > fieldDeclarations = new ArrayList < FieldDeclaration > ( ) ; List < FieldNode > fieldNodes = classNode . getFields ( ) ; if ( fieldNodes != null ) { for ( FieldNode fieldNode : fieldNodes ) { boolean isEnumField = ( fieldNode . getModifiers ( ) & Opcodes . ACC_ENUM ) != <NUM_LIT:0> ; boolean isSynthetic = ( fieldNode . getModifiers ( ) & Opcodes . ACC_SYNTHETIC ) != <NUM_LIT:0> ; if ( ! isSynthetic ) { FieldDeclarationWithInitializer fieldDeclaration = new FieldDeclarationWithInitializer ( fieldNode . getName ( ) . toCharArray ( ) , <NUM_LIT:0> , <NUM_LIT:0> ) ; fieldDeclaration . annotations = transformAnnotations ( fieldNode . getAnnotations ( ) ) ; if ( ! isEnumField ) { fieldDeclaration . modifiers = fieldNode . getModifiers ( ) & ~ <NUM_LIT> ; fieldDeclaration . type = createTypeReferenceForClassNode ( fieldNode . getType ( ) ) ; } fieldDeclaration . javadoc = new Javadoc ( <NUM_LIT> , <NUM_LIT> ) ; fixupSourceLocationsForFieldDeclaration ( fieldDeclaration , fieldNode , isEnumField ) ; fieldDeclaration . setGroovyInitializer ( fieldNode . getInitialExpression ( ) ) ; fieldDeclarations . add ( fieldDeclaration ) ; } } } return fieldDeclarations . toArray ( new FieldDeclaration [ fieldDeclarations . size ( ) ] ) ; } private void createConstructorDeclarations ( ClassNode classNode , boolean isEnum , List < AbstractMethodDeclaration > accumulatedMethodDeclarations ) { List < ConstructorNode > constructorNodes = classNode . getDeclaredConstructors ( ) ; char [ ] ctorName = null ; if ( classNode instanceof InnerClassNode ) { InnerClassNode innerClassNode = ( InnerClassNode ) classNode ; ClassNode outerClass = innerClassNode . getOuterClass ( ) ; String outername = outerClass . getNameWithoutPackage ( ) ; String newInner = innerClassNode . getNameWithoutPackage ( ) . substring ( outername . length ( ) + <NUM_LIT:1> ) ; ctorName = newInner . toCharArray ( ) ; } else { ctorName = classNode . getNameWithoutPackage ( ) . toCharArray ( ) ; } boolean needsDefaultCtor = constructorNodes . size ( ) == <NUM_LIT:0> && ! classNode . isInterface ( ) ; if ( needsDefaultCtor ) { ConstructorDeclaration constructor = new ConstructorDeclaration ( compilationResult ) ; constructor . bits \|= ASTNode . IsDefaultConstructor ; if ( isEnum ) { constructor . modifiers = ClassFileConstants . AccPrivate ; } else { constructor . modifiers = ClassFileConstants . AccPublic ; } constructor . selector = ctorName ; accumulatedMethodDeclarations . add ( constructor ) ; } for ( ConstructorNode constructorNode : constructorNodes ) { ConstructorDeclaration constructorDeclaration = new ConstructorDeclaration ( compilationResult ) ; fixupSourceLocationsForConstructorDeclaration ( constructorDeclaration , constructorNode ) ; constructorDeclaration . annotations = transformAnnotations ( constructorNode . getAnnotations ( ) ) ; constructorDeclaration . modifiers = isEnum ? ClassFileConstants . AccPrivate : ClassFileConstants . AccPublic ; constructorDeclaration . selector = ctorName ; constructorDeclaration . arguments = createArguments ( constructorNode . getParameters ( ) , false ) ; constructorDeclaration . thrownExceptions = createTypeReferencesForClassNodes ( constructorNode . getExceptions ( ) ) ; if ( constructorNode . hasDefaultValue ( ) ) { createConstructorVariants ( constructorNode , constructorDeclaration , accumulatedMethodDeclarations , compilationResult , isEnum ) ; } else { accumulatedMethodDeclarations . add ( constructorDeclaration ) ; } } if ( earlyTransforms ) { executeEarlyTransforms_ConstructorRelated ( ctorName , classNode , accumulatedMethodDeclarations ) ; } } private void executeEarlyTransforms_ConstructorRelated ( char [ ] ctorName , ClassNode classNode , List < AbstractMethodDeclaration > accumulatedMethodDeclarations ) { List < AnnotationNode > annos = classNode . getAnnotations ( ) ; boolean hasImmutableAnnotation = false ; if ( annos != null ) { for ( AnnotationNode anno : annos ) { if ( anno . getClassNode ( ) != null && anno . getClassNode ( ) . getName ( ) . equals ( "<STR_LIT>" ) ) { hasImmutableAnnotation = true ; } } } if ( hasImmutableAnnotation ) { List < FieldNode > fields = classNode . getFields ( ) ; Argument [ ] arguments = new Argument [ fields . size ( ) ] ; for ( int i = <NUM_LIT:0> ; i < fields . size ( ) ; i ++ ) { FieldNode field = fields . get ( i ) ; TypeReference parameterTypeReference = createTypeReferenceForClassNode ( field . getType ( ) ) ; arguments [ i ] = new Argument ( fields . get ( i ) . getName ( ) . toCharArray ( ) , toPos ( field . getStart ( ) , field . getEnd ( ) - <NUM_LIT:1> ) , parameterTypeReference , ClassFileConstants . AccPublic ) ; arguments [ i ] . declarationSourceStart = fields . get ( i ) . getStart ( ) ; } ConstructorDeclaration constructor = new ConstructorDeclaration ( compilationResult ) ; constructor . selector = ctorName ; constructor . modifiers = ClassFileConstants . AccPublic ; constructor . arguments = arguments ; accumulatedMethodDeclarations . add ( constructor ) ; } } private Argument [ ] createArguments ( Parameter [ ] ps , boolean isMain ) { if ( ps == null \|\| ps . length == <NUM_LIT:0> ) { return null ; } Argument [ ] arguments = new Argument [ ps . length ] ; for ( int i = <NUM_LIT:0> ; i < ps . length ; i ++ ) { Parameter parameter = ps [ i ] ; TypeReference parameterTypeReference = createTypeReferenceForClassNode ( parameter . getType ( ) ) ; arguments [ i ] = new Argument ( parameter . getName ( ) . toCharArray ( ) , toPos ( parameter . getStart ( ) , parameter . getEnd ( ) - <NUM_LIT:1> ) , parameterTypeReference , ClassFileConstants . AccPublic ) ; arguments [ i ] . declarationSourceStart = parameter . getStart ( ) ; } if ( isVargs ( ps ) ) { arguments [ ps . length - <NUM_LIT:1> ] . type . bits \|= ASTNode . IsVarArgs ; } return arguments ; } private void createMethodDeclarations ( ClassNode classNode , boolean isEnum , List < AbstractMethodDeclaration > accumulatedDeclarations ) { List < MethodNode > methods = classNode . getMethods ( ) ; for ( MethodNode methodNode : methods ) { if ( isEnum && methodNode . isSynthetic ( ) ) { String name = methodNode . getName ( ) ; Parameter [ ] params = methodNode . getParameters ( ) ; if ( name . equals ( "<STR_LIT>" ) && params . length == <NUM_LIT:0> ) { continue ; } if ( name . equals ( "<STR_LIT>" ) && params . length == <NUM_LIT:1> && params [ <NUM_LIT:0> ] . getType ( ) . equals ( ClassHelper . STRING_TYPE ) ) { continue ; } } MethodDeclaration methodDeclaration = createMethodDeclaration ( classNode , methodNode , isEnum , compilationResult ) ; if ( methodNode . hasDefaultValue ( ) ) { createMethodVariants ( methodNode , methodDeclaration , accumulatedDeclarations , compilationResult ) ; } else { accumulatedDeclarations . add ( methodDeclaration ) ; } } } private void createMethodVariants ( MethodNode method , MethodDeclaration methodDecl , List < AbstractMethodDeclaration > accumulatedDeclarations , CompilationResult compilationResult ) { List < Argument [ ] > variants = getVariantsAllowingForDefaulting ( method . getParameters ( ) , methodDecl . arguments ) ; for ( Argument [ ] variant : variants ) { MethodDeclaration variantMethodDeclaration = genMethodDeclarationVariant ( method , variant , methodDecl . returnType , compilationResult ) ; addUnlessDuplicate ( accumulatedDeclarations , variantMethodDeclaration ) ; } } private List < Argument [ ] > getVariantsAllowingForDefaulting ( Parameter [ ] groovyParams , Argument [ ] jdtArguments ) { List < Argument [ ] > variants = new ArrayList < Argument [ ] > ( ) ; int psCount = groovyParams . length ; Parameter [ ] wipableParameters = new Parameter [ psCount ] ; System . arraycopy ( groovyParams , <NUM_LIT:0> , wipableParameters , <NUM_LIT:0> , psCount ) ; List < Argument > oneVariation = new ArrayList < Argument > ( ) ; int nextToLetDefault = - <NUM_LIT:1> ; do { oneVariation . clear ( ) ; nextToLetDefault = - <NUM_LIT:1> ; for ( int p = <NUM_LIT:0> ; p < psCount ; p ++ ) { if ( wipableParameters [ p ] != null ) { oneVariation . add ( jdtArguments [ p ] ) ; if ( wipableParameters [ p ] . hasInitialExpression ( ) ) { nextToLetDefault = p ; } } } if ( nextToLetDefault != - <NUM_LIT:1> ) { wipableParameters [ nextToLetDefault ] = null ; } Argument [ ] argumentsVariant = ( oneVariation . size ( ) == <NUM_LIT:0> ? null : oneVariation . toArray ( new Argument [ oneVariation . size ( ) ] ) ) ; variants . add ( argumentsVariant ) ; } while ( nextToLetDefault != - <NUM_LIT:1> ) ; return variants ; } private void addUnlessDuplicate ( List < AbstractMethodDeclaration > accumulatedDeclarations , AbstractMethodDeclaration newDeclaration ) { boolean isDuplicate = false ; for ( AbstractMethodDeclaration aMethodDecl : accumulatedDeclarations ) { if ( CharOperation . equals ( aMethodDecl . selector , newDeclaration . selector ) ) { Argument [ ] mdArgs = aMethodDecl . arguments ; Argument [ ] vmdArgs = newDeclaration . arguments ; int mdArgsLen = mdArgs == null ? <NUM_LIT:0> : mdArgs . length ; int vmdArgsLen = vmdArgs == null ? <NUM_LIT:0> : vmdArgs . length ; if ( mdArgsLen == vmdArgsLen ) { boolean argsTheSame = true ; for ( int i = <NUM_LIT:0> ; i < mdArgsLen ; i ++ ) { if ( ! CharOperation . equals ( mdArgs [ i ] . type . getTypeName ( ) , vmdArgs [ i ] . type . getTypeName ( ) ) ) { argsTheSame = false ; break ; } } if ( argsTheSame ) { isDuplicate = true ; break ; } } } } if ( ! isDuplicate ) { accumulatedDeclarations . add ( newDeclaration ) ; } } private void createConstructorVariants ( ConstructorNode constructorNode , ConstructorDeclaration constructorDecl , List < AbstractMethodDeclaration > accumulatedDeclarations , CompilationResult compilationResult , boolean isEnum ) { List < Argument [ ] > variants = getVariantsAllowingForDefaulting ( constructorNode . getParameters ( ) , constructorDecl . arguments ) ; for ( Argument [ ] variant : variants ) { ConstructorDeclaration constructorDeclaration = new ConstructorDeclaration ( compilationResult ) ; constructorDeclaration . annotations = transformAnnotations ( constructorNode . getAnnotations ( ) ) ; constructorDeclaration . modifiers = isEnum ? ClassFileConstants . AccPrivate : ClassFileConstants . AccPublic ; constructorDeclaration . selector = constructorDecl . selector ; constructorDeclaration . arguments = variant ; fixupSourceLocationsForConstructorDeclaration ( constructorDeclaration , constructorNode ) ; addUnlessDuplicate ( accumulatedDeclarations , constructorDeclaration ) ; } } private MethodDeclaration createMethodDeclaration ( ClassNode classNode , MethodNode methodNode , boolean isEnum , CompilationResult compilationResult ) { if ( classNode . isAnnotationDefinition ( ) ) { AnnotationMethodDeclaration methodDeclaration = new AnnotationMethodDeclaration ( compilationResult ) ; int modifiers = methodNode . getModifiers ( ) ; modifiers &= ~ ( ClassFileConstants . AccSynthetic \| ClassFileConstants . AccTransient ) ; methodDeclaration . annotations = transformAnnotations ( methodNode . getAnnotations ( ) ) ; methodDeclaration . modifiers = modifiers ; if ( methodNode . hasAnnotationDefault ( ) ) { methodDeclaration . modifiers \|= ClassFileConstants . AccAnnotationDefault ; } methodDeclaration . selector = methodNode . getName ( ) . toCharArray ( ) ; fixupSourceLocationsForMethodDeclaration ( methodDeclaration , methodNode ) ; ClassNode returnType = methodNode . getReturnType ( ) ; methodDeclaration . returnType = createTypeReferenceForClassNode ( returnType ) ; return methodDeclaration ; } else { MethodDeclaration methodDeclaration = new MethodDeclaration ( compilationResult ) ; GenericsType [ ] generics = methodNode . getGenericsTypes ( ) ; if ( generics != null && generics . length != <NUM_LIT:0> ) { methodDeclaration . typeParameters = new TypeParameter [ generics . length ] ; for ( int tp = <NUM_LIT:0> ; tp < generics . length ; tp ++ ) { TypeParameter typeParameter = new TypeParameter ( ) ; typeParameter . name = generics [ tp ] . getName ( ) . toCharArray ( ) ; ClassNode [ ] upperBounds = generics [ tp ] . getUpperBounds ( ) ; if ( upperBounds != null ) { typeParameter . type = createTypeReferenceForClassNode ( upperBounds [ <NUM_LIT:0> ] ) ; typeParameter . bounds = ( upperBounds . length > <NUM_LIT:1> ? new TypeReference [ upperBounds . length - <NUM_LIT:1> ] : null ) ; for ( int b = <NUM_LIT:1> , max = upperBounds . length ; b < max ; b ++ ) { typeParameter . bounds [ b - <NUM_LIT:1> ] = createTypeReferenceForClassNode ( upperBounds [ b ] ) ; typeParameter . bounds [ b - <NUM_LIT:1> ] . bits \|= ASTNode . IsSuperType ; } } methodDeclaration . typeParameters [ tp ] = typeParameter ; } } boolean isMain = false ; int modifiers = methodNode . getModifiers ( ) ; modifiers &= ~ ( ClassFileConstants . AccSynthetic \| ClassFileConstants . AccTransient ) ; methodDeclaration . annotations = transformAnnotations ( methodNode . getAnnotations ( ) ) ; methodDeclaration . modifiers = modifiers ; methodDeclaration . selector = methodNode . getName ( ) . toCharArray ( ) ; Parameter [ ] params = methodNode . getParameters ( ) ; ClassNode returnType = methodNode . getReturnType ( ) ; if ( ( modifiers & ClassFileConstants . AccStatic ) != <NUM_LIT:0> && params != null && params . length == <NUM_LIT:1> && methodNode . getName ( ) . equals ( "<STR_LIT>" ) ) { Parameter p = params [ <NUM_LIT:0> ] ; if ( p . getType ( ) == null \|\| p . getType ( ) . getName ( ) . equals ( ClassHelper . OBJECT ) ) { String name = p . getName ( ) ; params = new Parameter [ <NUM_LIT:1> ] ; params [ <NUM_LIT:0> ] = new Parameter ( ClassHelper . STRING_TYPE . makeArray ( ) , name ) ; if ( returnType . getName ( ) . equals ( ClassHelper . OBJECT ) ) { returnType = ClassHelper . VOID_TYPE ; } } } methodDeclaration . arguments = createArguments ( params , isMain ) ; methodDeclaration . returnType = createTypeReferenceForClassNode ( returnType ) ; methodDeclaration . thrownExceptions = createTypeReferencesForClassNodes ( methodNode . getExceptions ( ) ) ; fixupSourceLocationsForMethodDeclaration ( methodDeclaration , methodNode ) ; return methodDeclaration ; } } private MethodDeclaration genMethodDeclarationVariant ( MethodNode methodNode , Argument [ ] alternativeArguments , TypeReference returnType , CompilationResult compilationResult ) { MethodDeclaration methodDeclaration = new MethodDeclaration ( compilationResult ) ; int modifiers = methodNode . getModifiers ( ) ; modifiers &= ~ ( ClassFileConstants . AccSynthetic \| ClassFileConstants . AccTransient ) ; methodDeclaration . annotations = transformAnnotations ( methodNode . getAnnotations ( ) ) ; methodDeclaration . modifiers = modifiers ; methodDeclaration . selector = methodNode . getName ( ) . toCharArray ( ) ; methodDeclaration . arguments = alternativeArguments ; methodDeclaration . returnType = returnType ; fixupSourceLocationsForMethodDeclaration ( methodDeclaration , methodNode ) ; return methodDeclaration ; } private void configureSuperInterfaces ( TypeDeclaration typeDeclaration , ClassNode classNode ) { ClassNode [ ] interfaces = classNode . getInterfaces ( ) ; if ( interfaces != null && interfaces . length > <NUM_LIT:0> ) { typeDeclaration . superInterfaces = new TypeReference [ interfaces . length ] ; for ( int i = <NUM_LIT:0> ; i < interfaces . length ; i ++ ) { typeDeclaration . superInterfaces [ i ] = createTypeReferenceForClassNode ( interfaces [ i ] ) ; } } else { typeDeclaration . superInterfaces = new TypeReference [ <NUM_LIT:0> ] ; } } private void configureSuperClass ( TypeDeclaration typeDeclaration , ClassNode superclass , boolean isEnum ) { if ( isEnum && superclass . getName ( ) . equals ( "<STR_LIT>" ) ) { typeDeclaration . superclass = null ; } else { if ( ! ( superclass . getStart ( ) == <NUM_LIT:0> && superclass . equals ( ClassHelper . OBJECT_TYPE ) ) ) { typeDeclaration . superclass = createTypeReferenceForClassNode ( superclass ) ; } } } private final static Map < Character , Integer > charToTypeId = new HashMap < Character , Integer > ( ) ; private final static Map < String , Integer > nameToPrimitiveTypeId = new HashMap < String , Integer > ( ) ; static { charToTypeId . put ( '<CHAR_LIT>' , TypeIds . T_double ) ; charToTypeId . put ( '<CHAR_LIT>' , TypeIds . T_int ) ; charToTypeId . put ( '<CHAR_LIT>' , TypeIds . T_float ) ; charToTypeId . put ( '<CHAR_LIT>' , TypeIds . T_long ) ; charToTypeId . put ( '<CHAR_LIT:Z>' , TypeIds . T_boolean ) ; charToTypeId . put ( '<CHAR_LIT>' , TypeIds . T_byte ) ; charToTypeId . put ( '<CHAR_LIT>' , TypeIds . T_char ) ; charToTypeId . put ( '<CHAR_LIT>' , TypeIds . T_short ) ; nameToPrimitiveTypeId . put ( "<STR_LIT:double>" , TypeIds . T_double ) ; nameToPrimitiveTypeId . put ( "<STR_LIT:int>" , TypeIds . T_int ) ; nameToPrimitiveTypeId . put ( "<STR_LIT:float>" , TypeIds . T_float ) ; nameToPrimitiveTypeId . put ( "<STR_LIT:long>" , TypeIds . T_long ) ; nameToPrimitiveTypeId . put ( "<STR_LIT:boolean>" , TypeIds . T_boolean ) ; nameToPrimitiveTypeId . put ( "<STR_LIT>" , TypeIds . T_byte ) ; nameToPrimitiveTypeId . put ( "<STR_LIT>" , TypeIds . T_char ) ; nameToPrimitiveTypeId . put ( "<STR_LIT>" , TypeIds . T_short ) ; nameToPrimitiveTypeId . put ( "<STR_LIT>" , TypeIds . T_void ) ; try { String value = System . getProperty ( "<STR_LIT>" ) ; if ( value != null ) { if ( value . equalsIgnoreCase ( "<STR_LIT:true>" ) ) { System . out . println ( "<STR_LIT>" ) ; earlyTransforms = true ; } else if ( value . equalsIgnoreCase ( "<STR_LIT:false>" ) ) { System . out . println ( "<STR_LIT>" ) ; earlyTransforms = false ; } } } catch ( Throwable t ) { } } private long [ ] positionsFor ( char [ ] [ ] reference , long start , long end ) { long [ ] result = new long [ reference . length ] ; if ( start < end ) { long pos = start ; for ( int i = <NUM_LIT:0> , max = result . length ; i < max ; i ++ ) { long s = pos ; pos = pos + reference [ i ] . length - <NUM_LIT:1> ; result [ i ] = ( ( s << <NUM_LIT:32> ) \| pos ) ; pos += <NUM_LIT:2> ; } } else { long pos = ( start << <NUM_LIT:32> ) \| start ; for ( int i = <NUM_LIT:0> , max = result . length ; i < max ; i ++ ) { result [ i ] = pos ; } } return result ; } private TypeReference createTypeReferenceForArrayNameTrailingBrackets ( ClassNode node , int start , int end ) { String name = node . getName ( ) ; int dim = <NUM_LIT:0> ; int pos = name . length ( ) - <NUM_LIT:2> ; ClassNode componentType = node ; while ( pos > <NUM_LIT:0> && name . charAt ( pos ) == '<CHAR_LIT:[>' ) { dim ++ ; pos -= <NUM_LIT:2> ; componentType = componentType . getComponentType ( ) ; } if ( componentType . isPrimitive ( ) ) { Integer ii = charToTypeId . get ( name . charAt ( dim ) ) ; if ( ii == null ) { throw new IllegalStateException ( "<STR_LIT>" + node + "<STR_LIT>" ) ; } else { TypeReference baseTypeReference = TypeReference . baseTypeReference ( ii , dim ) ; baseTypeReference . sourceStart = start ; baseTypeReference . sourceEnd = start + componentType . getName ( ) . length ( ) ; return baseTypeReference ; } } if ( dim == <NUM_LIT:0> ) { throw new IllegalStateException ( "<STR_LIT>" + node . getName ( ) ) ; } String arrayComponentTypename = name . substring ( <NUM_LIT:0> , pos + <NUM_LIT:2> ) ; if ( arrayComponentTypename . indexOf ( "<STR_LIT:.>" ) == - <NUM_LIT:1> ) { return createJDTArrayTypeReference ( arrayComponentTypename , dim , start , end ) ; } else { return createJDTArrayQualifiedTypeReference ( arrayComponentTypename , dim , start , end ) ; } } private TypeReference createTypeReferenceForArrayNameLeadingBrackets ( ClassNode node , int start , int end ) { String name = node . getName ( ) ; int dim = <NUM_LIT:0> ; ClassNode componentType = node ; while ( name . charAt ( dim ) == '<CHAR_LIT:[>' ) { dim ++ ; componentType = componentType . getComponentType ( ) ; } if ( componentType . isPrimitive ( ) ) { Integer ii = charToTypeId . get ( name . charAt ( dim ) ) ; if ( ii == null ) { throw new IllegalStateException ( "<STR_LIT>" + node + "<STR_LIT>" ) ; } else { TypeReference baseTypeReference = TypeReference . baseTypeReference ( ii , dim ) ; baseTypeReference . sourceStart = start ; baseTypeReference . sourceEnd = start + componentType . getName ( ) . length ( ) ; return baseTypeReference ; } } else { String arrayComponentTypename = name . substring ( dim ) ; if ( arrayComponentTypename . charAt ( arrayComponentTypename . length ( ) - <NUM_LIT:1> ) == '<CHAR_LIT:;>' ) { arrayComponentTypename = name . substring ( dim + <NUM_LIT:1> , name . length ( ) - <NUM_LIT:1> ) ; } if ( arrayComponentTypename . indexOf ( "<STR_LIT:.>" ) == - <NUM_LIT:1> ) { return createJDTArrayTypeReference ( arrayComponentTypename , dim , start , end ) ; } else { return createJDTArrayQualifiedTypeReference ( arrayComponentTypename , dim , start , end ) ; } } } private static long NON_EXISTENT_POSITION = toPos ( - <NUM_LIT:1> , - <NUM_LIT:2> ) ; private static long toPos ( long start , long end ) { if ( start == <NUM_LIT:0> && end <= <NUM_LIT:0> ) { return NON_EXISTENT_POSITION ; } return ( ( start << <NUM_LIT:32> ) \| end ) ; } private TypeReference createTypeReferenceForClassNode ( GenericsType genericsType ) { if ( genericsType . isWildcard ( ) ) { ClassNode [ ] bounds = genericsType . getUpperBounds ( ) ; if ( bounds != null ) { TypeReference boundReference = createTypeReferenceForClassNode ( bounds [ <NUM_LIT:0> ] ) ; Wildcard wildcard = new Wildcard ( Wildcard . EXTENDS ) ; wildcard . sourceStart = genericsType . getStart ( ) ; wildcard . sourceEnd = boundReference . sourceEnd ( ) ; wildcard . bound = boundReference ; return wildcard ; } else if ( genericsType . getLowerBound ( ) != null ) { TypeReference boundReference = createTypeReferenceForClassNode ( genericsType . getLowerBound ( ) ) ; Wildcard wildcard = new Wildcard ( Wildcard . SUPER ) ; wildcard . sourceStart = genericsType . getStart ( ) ; wildcard . sourceEnd = boundReference . sourceEnd ( ) ; wildcard . bound = boundReference ; return wildcard ; } else { Wildcard w = new Wildcard ( Wildcard . UNBOUND ) ; w . sourceStart = genericsType . getStart ( ) ; w . sourceEnd = genericsType . getStart ( ) ; return w ; } } else if ( ! genericsType . getType ( ) . isGenericsPlaceHolder ( ) ) { TypeReference typeReference = createTypeReferenceForClassNode ( genericsType . getType ( ) ) ; return typeReference ; } else { return null ; } } private TypeReference [ ] createTypeReferencesForClassNodes ( ClassNode [ ] classNodes ) { if ( classNodes == null \|\| classNodes . length == <NUM_LIT:0> ) { return null ; } TypeReference [ ] refs = new TypeReference [ classNodes . length ] ; for ( int i = <NUM_LIT:0> ; i < classNodes . length ; i ++ ) { refs [ i ] = createTypeReferenceForClassNode ( classNodes [ i ] ) ; } return refs ; } private TypeReference createTypeReferenceForClassNode ( ClassNode classNode ) { int start = startOffset ( classNode ) ; int end = endOffset ( classNode ) ; List < TypeReference > typeArguments = null ; if ( classNode . isUsingGenerics ( ) ) { GenericsType [ ] genericsInfo = classNode . getGenericsTypes ( ) ; if ( genericsInfo != null ) { for ( int g = <NUM_LIT:0> ; g < genericsInfo . length ; g ++ ) { TypeReference tr = createTypeReferenceForClassNode ( genericsInfo [ g ] ) ; if ( tr != null ) { if ( typeArguments == null ) { typeArguments = new ArrayList < TypeReference > ( ) ; } typeArguments . add ( tr ) ; } } } } String name = classNode . getName ( ) ; if ( name . length ( ) == <NUM_LIT:1> && name . charAt ( <NUM_LIT:0> ) == '<CHAR_LIT>' ) { return new Wildcard ( Wildcard . UNBOUND ) ; } int arrayLoc = name . indexOf ( "<STR_LIT:[>" ) ; if ( arrayLoc == <NUM_LIT:0> ) { return createTypeReferenceForArrayNameLeadingBrackets ( classNode , start , end ) ; } else if ( arrayLoc > <NUM_LIT:0> ) { return createTypeReferenceForArrayNameTrailingBrackets ( classNode , start , end ) ; } if ( nameToPrimitiveTypeId . containsKey ( name ) ) { return TypeReference . baseTypeReference ( nameToPrimitiveTypeId . get ( name ) , <NUM_LIT:0> ) ; } if ( name . indexOf ( "<STR_LIT:.>" ) == - <NUM_LIT:1> ) { if ( typeArguments == null ) { TypeReference tr = verify ( new SingleTypeReference ( name . toCharArray ( ) , toPos ( start , end - <NUM_LIT:1> ) ) ) ; if ( ! checkGenerics ) { tr . bits \|= TypeReference . IgnoreRawTypeCheck ; } return tr ; } else { long l = toPos ( start , end - <NUM_LIT:1> ) ; return new ParameterizedSingleTypeReference ( name . toCharArray ( ) , typeArguments . toArray ( new TypeReference [ typeArguments . size ( ) ] ) , <NUM_LIT:0> , l ) ; } } else { char [ ] [ ] compoundName = CharOperation . splitOn ( '<CHAR_LIT:.>' , name . toCharArray ( ) ) ; if ( typeArguments == null ) { TypeReference tr = new QualifiedTypeReference ( compoundName , positionsFor ( compoundName , start , end ) ) ; if ( ! checkGenerics ) { tr . bits \|= TypeReference . IgnoreRawTypeCheck ; } return tr ; } else { TypeReference [ ] [ ] typeReferences = new TypeReference [ compoundName . length ] [ ] ; typeReferences [ compoundName . length - <NUM_LIT:1> ] = typeArguments . toArray ( new TypeReference [ typeArguments . size ( ) ] ) ; return new ParameterizedQualifiedTypeReference ( compoundName , typeReferences , <NUM_LIT:0> , positionsFor ( compoundName , start , end ) ) ; } } } private final static boolean DEBUG = false ; private long [ ] getPositionsFor ( char [ ] [ ] compoundName ) { long [ ] ls = new long [ compoundName . length ] ; for ( int i = <NUM_LIT:0> ; i < compoundName . length ; i ++ ) { ls [ i ] = <NUM_LIT:0> ; } return ls ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void generateCode ( ) { boolean successful = processToPhase ( Phases . ALL ) ; if ( successful ) { List < GroovyClass > classes = groovyCompilationUnit . getClasses ( ) ; if ( DEBUG ) { log ( "<STR_LIT>" + groovySourceUnit . getName ( ) ) ; } for ( GroovyClass clazz : classes ) { ClassNode classnode = clazz . getClassNode ( ) ; if ( DEBUG ) { log ( "<STR_LIT>" + clazz . getName ( ) ) ; log ( "<STR_LIT>" + classnode ) ; } if ( clazz . getSourceUnit ( ) == groovySourceUnit ) { if ( DEBUG ) { log ( "<STR_LIT>" ) ; } String classname = clazz . getName ( ) ; SourceTypeBinding binding = null ; if ( types != null && types . length != <NUM_LIT:0> ) { binding = findBinding ( types , clazz . getClassNode ( ) ) ; } if ( DEBUG ) { log ( "<STR_LIT>" + ( binding != null ) ) ; } if ( binding == null ) { ClassNode current = classnode ; while ( current instanceof InnerClassNode && binding == null ) { current = ( ( InnerClassNode ) current ) . getOuterClass ( ) ; binding = findBinding ( types , current ) ; if ( DEBUG ) { log ( "<STR_LIT>" + ( binding != null ) ) ; } } } if ( binding == null ) { RuntimeException rEx = new RuntimeException ( "<STR_LIT>" + classname + "<STR_LIT>" ) ; rEx . printStackTrace ( ) ; Util . log ( rEx , "<STR_LIT>" + classname + "<STR_LIT>" ) ; } else { boolean isScript = false ; if ( binding . scope != null && ( binding . scope . parent instanceof GroovyCompilationUnitScope ) ) { GroovyCompilationUnitScope gcuScope = ( GroovyCompilationUnitScope ) binding . scope . parent ; if ( gcuScope . isScript ( ) ) { isScript = true ; } } if ( ! isScript ) { byte [ ] classbytes = clazz . getBytes ( ) ; String path = clazz . getName ( ) . replace ( '<CHAR_LIT:.>' , '<CHAR_LIT:/>' ) ; compilationResult . record ( classname . toCharArray ( ) , new GroovyClassFile ( classname , classbytes , binding , path ) ) ; } } } } } } private void log ( String message ) { System . out . println ( message ) ; } private SourceTypeBinding findBinding ( TypeDeclaration [ ] typedeclarations , ClassNode cnode ) { for ( TypeDeclaration typedeclaration : typedeclarations ) { GroovyTypeDeclaration groovyTypeDeclaration = ( GroovyTypeDeclaration ) typedeclaration ; if ( groovyTypeDeclaration . getClassNode ( ) . equals ( cnode ) ) { return groovyTypeDeclaration . binding ; } if ( typedeclaration . memberTypes != null ) { SourceTypeBinding binding = findBinding ( typedeclaration . memberTypes , cnode ) ; if ( binding != null ) { return binding ; } } } return null ; } private int startOffset ( org . codehaus . groovy . ast . ASTNode astnode ) { return ( Math . max ( astnode . getStart ( ) , <NUM_LIT:0> ) ) ; } private int endOffset ( org . codehaus . groovy . ast . ASTNode astnode ) { return ( Math . max ( astnode . getEnd ( ) , <NUM_LIT:0> ) ) ; } private void recordProblems ( List < ? > errors ) { List errorsRecorded = new ArrayList ( ) ; for ( Iterator < ? > iterator = errors . iterator ( ) ; iterator . hasNext ( ) ; ) { SyntaxException syntaxException = null ; Message message = ( Message ) iterator . next ( ) ; StringWriter sw = new StringWriter ( ) ; message . write ( new PrintWriter ( sw ) ) ; String msg = sw . toString ( ) ; CategorizedProblem p = null ; int line = <NUM_LIT:0> ; int sev = <NUM_LIT:0> ; int scol = <NUM_LIT:0> ; int ecol = <NUM_LIT:0> ; if ( message instanceof LocatedMessage ) { CSTNode context = ( ( LocatedMessage ) message ) . getContext ( ) ; if ( context instanceof Token ) { line = context . getStartLine ( ) ; scol = context . getStartColumn ( ) ; String text = ( ( Token ) context ) . getText ( ) ; ecol = scol + ( text == null ? <NUM_LIT:1> : ( text . length ( ) - <NUM_LIT:1> ) ) ; } } if ( message instanceof SimpleMessage ) { SimpleMessage simpleMessage = ( SimpleMessage ) message ; sev \|= ProblemSeverities . Error ; String simpleText = simpleMessage . getMessage ( ) ; if ( simpleText . length ( ) > <NUM_LIT:1> && simpleText . charAt ( <NUM_LIT:0> ) == '<STR_LIT:\n>' ) { simpleText = simpleText . substring ( <NUM_LIT:1> ) ; } msg = "<STR_LIT>" + simpleText ; if ( msg . indexOf ( "<STR_LIT:n>" ) != - <NUM_LIT:1> ) { msg = msg . substring ( <NUM_LIT:0> , msg . indexOf ( "<STR_LIT:n>" ) ) ; } } if ( message instanceof SyntaxErrorMessage ) { SyntaxErrorMessage errorMessage = ( SyntaxErrorMessage ) message ; syntaxException = errorMessage . getCause ( ) ; sev \|= ProblemSeverities . Error ; String actualMessage = syntaxException . getMessage ( ) ; if ( actualMessage . length ( ) > <NUM_LIT:1> && actualMessage . charAt ( <NUM_LIT:0> ) == '<STR_LIT:\n>' ) { actualMessage = actualMessage . substring ( <NUM_LIT:1> ) ; } msg = "<STR_LIT>" + actualMessage ; if ( msg . indexOf ( "<STR_LIT:n>" ) != - <NUM_LIT:1> ) { msg = msg . substring ( <NUM_LIT:0> , msg . indexOf ( "<STR_LIT:n>" ) ) ; } line = syntaxException . getLine ( ) ; scol = errorMessage . getCause ( ) . getStartColumn ( ) ; ecol = errorMessage . getCause ( ) . getEndColumn ( ) - <NUM_LIT:1> ; } int soffset = - <NUM_LIT:1> ; int eoffset = - <NUM_LIT:1> ; if ( message instanceof ExceptionMessage ) { ExceptionMessage em = ( ExceptionMessage ) message ; sev \|= ProblemSeverities . Error ; if ( em . getCause ( ) instanceof RuntimeParserException ) { RuntimeParserException rpe = ( RuntimeParserException ) em . getCause ( ) ; sev \|= ProblemSeverities . Error ; msg = "<STR_LIT>" + rpe . getMessage ( ) ; if ( msg . indexOf ( "<STR_LIT:n>" ) != - <NUM_LIT:1> ) { msg = msg . substring ( <NUM_LIT:0> , msg . indexOf ( "<STR_LIT:n>" ) ) ; } ModuleNode errorModuleNode = rpe . getModule ( ) ; ModuleNode thisModuleNode = this . getModuleNode ( ) ; if ( ! errorModuleNode . equals ( thisModuleNode ) ) { continue ; } soffset = rpe . getNode ( ) . getStart ( ) ; eoffset = rpe . getNode ( ) . getEnd ( ) - <NUM_LIT:1> ; line = <NUM_LIT:0> ; while ( compilationResult . lineSeparatorPositions [ line ] < soffset && line < compilationResult . lineSeparatorPositions . length ) { line ++ ; } line ++ ; } } if ( syntaxException instanceof PreciseSyntaxException ) { soffset = ( ( PreciseSyntaxException ) syntaxException ) . getStartOffset ( ) ; eoffset = ( ( PreciseSyntaxException ) syntaxException ) . getEndOffset ( ) ; line = <NUM_LIT:0> ; while ( line < compilationResult . lineSeparatorPositions . length && compilationResult . lineSeparatorPositions [ line ] < soffset ) { line ++ ; } ; line ++ ; } else { if ( soffset == - <NUM_LIT:1> ) { soffset = getOffset ( compilationResult . lineSeparatorPositions , line , scol ) ; } if ( eoffset == - <NUM_LIT:1> ) { eoffset = getOffset ( compilationResult . lineSeparatorPositions , line , ecol ) ; } } if ( soffset > eoffset ) { eoffset = soffset ; } if ( soffset > sourceEnd ) { soffset = sourceEnd ; eoffset = sourceEnd ; } char [ ] filename = getFileName ( ) ; p = new DefaultProblemFactory ( ) . createProblem ( filename , <NUM_LIT:0> , new String [ ] { msg } , <NUM_LIT:0> , new String [ ] { msg } , sev , soffset , eoffset , line , scol ) ; this . problemReporter . record ( p , compilationResult , this , false ) ; errorsRecorded . add ( message ) ; System . err . println ( new String ( compilationResult . getFileName ( ) ) + "<STR_LIT::U+0020>" + line + "<STR_LIT:U+0020>" + msg ) ; } errors . removeAll ( errorsRecorded ) ; } private int getOffset ( int [ ] lineSeparatorPositions , int line , int col ) { if ( lineSeparatorPositions . length > ( line - <NUM_LIT:2> ) && line > <NUM_LIT:1> ) { return lineSeparatorPositions [ line - <NUM_LIT:2> ] + col ; } else { return col ; } } @ Override public CompilationUnitScope buildCompilationUnitScope ( LookupEnvironment lookupEnvironment ) { GroovyCompilationUnitScope gcus = new GroovyCompilationUnitScope ( this , lookupEnvironment ) ; gcus . setIsScript ( isScript ) ; return gcus ; } public ModuleNode getModuleNode ( ) { return groovySourceUnit == null ? null : groovySourceUnit . getAST ( ) ; } public SourceUnit getSourceUnit ( ) { return groovySourceUnit ; } @ Override public org . eclipse . jdt . core . dom . CompilationUnit getSpecialDomCompilationUnit ( org . eclipse . jdt . core . dom . AST ast ) { return new org . codehaus . jdt . groovy . core . dom . GroovyCompilationUnit ( ast ) ; } private void fixupSourceLocationsForTypeDeclaration ( GroovyTypeDeclaration typeDeclaration , ClassNode classNode ) { typeDeclaration . sourceStart = Math . max ( classNode . getNameStart ( ) , classNode . getStart ( ) ) ; typeDeclaration . sourceEnd = Math . max ( classNode . getNameEnd ( ) , classNode . getStart ( ) ) ; int line = classNode . getLineNumber ( ) ; Javadoc doc = findJavadoc ( line ) ; if ( doc != null ) { if ( imports != null && imports . length > <NUM_LIT:0> ) { if ( doc . sourceStart < imports [ imports . length - <NUM_LIT:1> ] . sourceStart ) { doc = null ; } } else if ( currentPackage != null ) { if ( doc . sourceStart < currentPackage . sourceStart ) { doc = null ; } } } typeDeclaration . javadoc = doc ; typeDeclaration . declarationSourceStart = doc == null ? classNode . getStart ( ) : doc . sourceStart ; typeDeclaration . declarationSourceEnd = classNode . getEnd ( ) - <NUM_LIT:1> ; typeDeclaration . bodyStart = Math . max ( classNode . getNameEnd ( ) , classNode . getStart ( ) ) ; typeDeclaration . bodyEnd = classNode . getEnd ( ) - <NUM_LIT:1> ; typeDeclaration . modifiersSourceStart = classNode . getStart ( ) ; } private void fixupSourceLocationsForConstructorDeclaration ( ConstructorDeclaration ctorDeclaration , ConstructorNode ctorNode ) { ctorDeclaration . sourceStart = ctorNode . getNameStart ( ) ; ctorDeclaration . sourceEnd = ctorNode . getNameEnd ( ) ; int line = ctorNode . getLineNumber ( ) ; Javadoc doc = findJavadoc ( line ) ; ctorDeclaration . javadoc = doc ; ctorDeclaration . declarationSourceStart = doc == null ? ctorNode . getStart ( ) : doc . sourceStart ; ctorDeclaration . declarationSourceEnd = ctorNode . getEnd ( ) - <NUM_LIT:1> ; ctorDeclaration . modifiersSourceStart = ctorNode . getStart ( ) ; ctorDeclaration . bodyStart = ctorNode . getCode ( ) != null ? ctorNode . getCode ( ) . getStart ( ) : ctorNode . getNameEnd ( ) ; ctorDeclaration . bodyEnd = ctorNode . getEnd ( ) - <NUM_LIT:1> ; } private void fixupSourceLocationsForMethodDeclaration ( MethodDeclaration methodDeclaration , MethodNode methodNode ) { methodDeclaration . sourceStart = Math . max ( methodNode . getNameStart ( ) , methodNode . getStart ( ) ) ; methodDeclaration . sourceEnd = Math . max ( methodNode . getNameEnd ( ) , methodNode . getStart ( ) ) ; int line = methodNode . getLineNumber ( ) ; Javadoc doc = findJavadoc ( line ) ; methodDeclaration . javadoc = doc ; methodDeclaration . declarationSourceStart = doc == null ? methodNode . getStart ( ) : doc . sourceStart ; methodDeclaration . declarationSourceEnd = methodNode . getEnd ( ) - <NUM_LIT:1> ; methodDeclaration . modifiersSourceStart = methodNode . getStart ( ) ; methodDeclaration . bodyStart = methodNode . getCode ( ) != null ? methodNode . getCode ( ) . getStart ( ) : Math . max ( methodNode . getNameEnd ( ) , methodNode . getStart ( ) ) ; methodDeclaration . bodyEnd = methodNode . getEnd ( ) - <NUM_LIT:1> ; } private void fixupSourceLocationsForFieldDeclaration ( FieldDeclaration fieldDeclaration , FieldNode fieldNode , boolean isEnumField ) { fieldDeclaration . sourceStart = fieldNode . getNameStart ( ) ; fieldDeclaration . sourceEnd = fieldNode . getNameEnd ( ) ; int line = fieldNode . getLineNumber ( ) ; Javadoc doc = findJavadoc ( line ) ; fieldDeclaration . javadoc = doc ; if ( isEnumField ) { fieldDeclaration . declarationSourceStart = doc == null ? fieldNode . getNameStart ( ) : doc . sourceStart ; fieldDeclaration . declarationSourceEnd = fieldNode . getNameEnd ( ) - <NUM_LIT:1> ; } else { fieldDeclaration . declarationSourceStart = doc == null ? fieldNode . getStart ( ) : doc . sourceStart ; fieldDeclaration . declarationSourceEnd = fieldNode . getEnd ( ) - <NUM_LIT:1> ; } fieldDeclaration . modifiersSourceStart = fieldNode . getStart ( ) ; fieldDeclaration . declarationEnd = fieldNode . getEnd ( ) ; fieldDeclaration . endPart1Position = fieldNode . getNameStart ( ) ; fieldDeclaration . endPart2Position = fieldNode . getEnd ( ) - <NUM_LIT:1> ; } private boolean isVargs ( Parameter [ ] parameters ) { if ( parameters . length == <NUM_LIT:0> ) { return false ; } ClassNode clazz = parameters [ parameters . length - <NUM_LIT:1> ] . getType ( ) ; return ( clazz . isArray ( ) ) ; } public String print ( ) { return toString ( ) ; } public GroovyCompilationUnitScope getScope ( ) { return ( GroovyCompilationUnitScope ) scope ; } @ Override public void resolve ( ) { processToPhase ( Phases . SEMANTIC_ANALYSIS ) ; checkForTags ( ) ; setComments ( ) ; } private void checkForTags ( ) { if ( this . compilerOptions == null ) { return ; } List < Comment > comments = groovySourceUnit . getComments ( ) ; if ( comments == null ) { return ; } char [ ] [ ] taskTags = this . compilerOptions . taskTags ; char [ ] [ ] taskPriorities = this . compilerOptions . taskPriorities ; boolean caseSensitiveTags = this . compilerOptions . isTaskCaseSensitive ; try { if ( taskTags != null ) { for ( Comment comment : comments ) { List < TaskEntry > allTasksInComment = new ArrayList < TaskEntry > ( ) ; for ( int t = <NUM_LIT:0> ; t < taskTags . length ; t ++ ) { String taskTag = new String ( taskTags [ t ] ) ; String taskPriority = null ; if ( taskPriorities != null ) { taskPriority = new String ( taskPriorities [ t ] ) ; } allTasksInComment . addAll ( comment . getPositionsOf ( taskTag , taskPriority , compilationResult . lineSeparatorPositions , caseSensitiveTags ) ) ; } if ( ! allTasksInComment . isEmpty ( ) ) { for ( int t1 = <NUM_LIT:0> ; t1 < allTasksInComment . size ( ) ; t1 ++ ) { for ( int t2 = <NUM_LIT:0> ; t2 < allTasksInComment . size ( ) ; t2 ++ ) { if ( t1 == t2 ) continue ; TaskEntry taskOne = allTasksInComment . get ( t1 ) ; TaskEntry taskTwo = allTasksInComment . get ( t2 ) ; if ( DEBUG_TASK_TAGS ) { System . out . println ( "<STR_LIT>" + taskOne . toString ( ) + "<STR_LIT:U+0020andU+0020>" + taskTwo . toString ( ) ) ; } if ( ( taskOne . start + taskOne . taskTag . length ( ) + <NUM_LIT:1> ) == taskTwo . start ) { taskOne . isAdjacentTo = taskTwo ; } else { if ( ( taskOne . getEnd ( ) > taskTwo . start ) && ( taskOne . start < taskTwo . start ) ) { taskOne . setEnd ( taskTwo . start - <NUM_LIT:1> ) ; if ( DEBUG_TASK_TAGS ) { System . out . println ( "<STR_LIT>" + taskOne . toString ( ) + "<STR_LIT:U+0020andU+0020>" + taskTwo . toString ( ) ) ; } } else if ( taskTwo . getEnd ( ) > taskOne . start && taskTwo . start < taskOne . start ) { taskTwo . setEnd ( taskOne . start - <NUM_LIT:1> ) ; if ( DEBUG_TASK_TAGS ) { System . out . println ( "<STR_LIT>" + taskOne . toString ( ) + "<STR_LIT:U+0020andU+0020>" + taskTwo . toString ( ) ) ; } } } } } for ( TaskEntry taskEntry : allTasksInComment ) { this . problemReporter . referenceContext = this ; if ( DEBUG_TASK_TAGS ) { System . out . println ( "<STR_LIT>" + taskEntry . toString ( ) ) ; } problemReporter . task ( taskEntry . taskTag , taskEntry . getText ( ) , taskEntry . taskPriority , taskEntry . start , taskEntry . getEnd ( ) ) ; } } } } } catch ( AbortCompilation ac ) { } catch ( Throwable t ) { Util . log ( t , "<STR_LIT>" + groovySourceUnit . getName ( ) ) ; new RuntimeException ( "<STR_LIT>" + groovySourceUnit . getName ( ) , t ) . printStackTrace ( ) ; } } @ Override public void analyseCode ( ) { processToPhase ( Phases . CANONICALIZATION ) ; } @ Override public void abort ( int abortLevel , CategorizedProblem problem ) { super . abort ( abortLevel , problem ) ; } @ Override public void checkUnusedImports ( ) { super . checkUnusedImports ( ) ; } @ Override public void cleanUp ( ) { super . cleanUp ( ) ; } @ Override public CompilationResult compilationResult ( ) { return super . compilationResult ( ) ; } @ Override public TypeDeclaration declarationOfType ( char [ ] [ ] typeName ) { return super . declarationOfType ( typeName ) ; } @ Override public void finalizeProblems ( ) { super . finalizeProblems ( ) ; } @ Override public char [ ] getFileName ( ) { return super . getFileName ( ) ; } @ Override public char [ ] getMainTypeName ( ) { return super . getMainTypeName ( ) ; } @ Override public boolean hasErrors ( ) { return super . hasErrors ( ) ; } @ Override public boolean isEmpty ( ) { return super . isEmpty ( ) ; } @ Override public boolean isPackageInfo ( ) { return super . isPackageInfo ( ) ; } @ Override public StringBuffer print ( int indent , StringBuffer output ) { return super . print ( indent , output ) ; } @ Override public void propagateInnerEmulationForAllLocalTypes ( ) { super . propagateInnerEmulationForAllLocalTypes ( ) ; } @ Override public void record ( LocalTypeBinding localType ) { super . record ( localType ) ; } @ Override public void recordStringLiteral ( StringLiteral literal , boolean fromRecovery ) { super . recordStringLiteral ( literal , fromRecovery ) ; } @ Override public void recordSuppressWarnings ( IrritantSet irritants , Annotation annotation , int scopeStart , int scopeEnd ) { super . recordSuppressWarnings ( irritants , annotation , scopeStart , scopeEnd ) ; } @ Override public void tagAsHavingErrors ( ) { super . tagAsHavingErrors ( ) ; } @ Override public void traverse ( ASTVisitor visitor , CompilationUnitScope unitScope ) { super . traverse ( visitor , unitScope ) ; } @ Override public ASTNode concreteStatement ( ) { return super . concreteStatement ( ) ; } @ Override public boolean isImplicitThis ( ) { return super . isImplicitThis ( ) ; } @ Override public boolean isSuper ( ) { return super . isSuper ( ) ; } @ Override public boolean isThis ( ) { return super . isThis ( ) ; } @ Override public int sourceEnd ( ) { return super . sourceEnd ( ) ; } @ Override public int sourceStart ( ) { return super . sourceStart ( ) ; } @ Override public String toString ( ) { return super . toString ( ) ; } @ Override public void traverse ( ASTVisitor visitor , BlockScope scope ) { super . traverse ( visitor , scope ) ; } private ArrayTypeReference createJDTArrayTypeReference ( String arrayComponentTypename , int dimensions , int start , int end ) { ArrayTypeReference atr = new ArrayTypeReference ( arrayComponentTypename . toCharArray ( ) , dimensions , toPos ( start , end - <NUM_LIT:1> ) ) ; atr . originalSourceEnd = atr . sourceStart + arrayComponentTypename . length ( ) - <NUM_LIT:1> ; return atr ; } private ArrayQualifiedTypeReference createJDTArrayQualifiedTypeReference ( String arrayComponentTypename , int dimensions , int start , int end ) { char [ ] [ ] compoundName = CharOperation . splitOn ( '<CHAR_LIT:.>' , arrayComponentTypename . toCharArray ( ) ) ; ArrayQualifiedTypeReference aqtr = new ArrayQualifiedTypeReference ( compoundName , dimensions , positionsFor ( compoundName , start , end - dimensions * <NUM_LIT:2> ) ) ; aqtr . sourceEnd = end - <NUM_LIT:1> ; return aqtr ; } private TypeReference verify ( TypeReference toVerify ) { if ( GroovyCheckingControl . checkTypeReferences ) { if ( toVerify . getClass ( ) . equals ( SingleTypeReference . class ) ) { SingleTypeReference str = ( SingleTypeReference ) toVerify ; if ( str . sourceStart == - <NUM_LIT:1> ) { if ( str . sourceEnd != - <NUM_LIT:2> ) { throw new IllegalStateException ( "<STR_LIT>" + new String ( str . token ) + "<STR_LIT>" ) ; } } else { if ( str . sourceEnd < str . sourceStart ) { throw new IllegalStateException ( "<STR_LIT>" + new String ( str . token ) + "<STR_LIT>" + str . sourceStart + "<STR_LIT>" ) ; } } } else { throw new IllegalStateException ( "<STR_LIT>" + toVerify . getClass ( ) ) ; } } return toVerify ; } public void tagAsScript ( ) { this . isScript = true ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . util . List ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . PropertyNode ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . parser . Parser ; @ SuppressWarnings ( "<STR_LIT>" ) public class GroovyTypeDeclaration extends TypeDeclaration { public List < PropertyNode > properties ; private ClassNode classNode ; public GroovyTypeDeclaration ( CompilationResult compilationResult , ClassNode classNode ) { super ( compilationResult ) ; this . classNode = classNode ; } public ClassNode getClassNode ( ) { return classNode ; } @ Override public void parseMethods ( Parser parser , CompilationUnitDeclaration unit ) { } @ Override public boolean isScannerUsableOnThisDeclaration ( ) { return false ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; public interface IGroovyDebugRequestor { void acceptCompilationUnitDeclaration ( GroovyCompilationUnitDeclaration gcuDeclaration ) ; } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . util . ArrayList ; import org . eclipse . jdt . core . compiler . CategorizedProblem ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . internal . compiler . ClassFile ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . ast . AbstractMethodDeclaration ; import org . eclipse . jdt . internal . compiler . ast . AnnotationMethodDeclaration ; import org . eclipse . jdt . internal . compiler . ast . MethodDeclaration ; import org . eclipse . jdt . internal . compiler . lookup . MethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . SourceTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . SyntheticMethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeBinding ; @ SuppressWarnings ( "<STR_LIT>" ) class GroovyClassFile extends ClassFile { private byte [ ] bytes ; private char [ ] [ ] name ; private char [ ] filename ; public GroovyClassFile ( String name , byte [ ] bs , SourceTypeBinding sourceTypeBinding , String filename ) { this . name = CharOperation . splitOn ( '<CHAR_LIT:.>' , name . toCharArray ( ) ) ; this . bytes = bs ; this . referenceBinding = sourceTypeBinding ; this . header = new byte [ <NUM_LIT:0> ] ; this . headerOffset = <NUM_LIT:0> ; this . contents = bs ; this . contentsOffset = bs . length ; this . filename = filename . toCharArray ( ) ; } @ Override public void addAbstractMethod ( AbstractMethodDeclaration method , MethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void addAttributes ( ) { throw new ImmutableException ( ) ; } @ Override public void addDefaultAbstractMethods ( ) { throw new ImmutableException ( ) ; } @ Override public void addFieldInfos ( ) { throw new ImmutableException ( ) ; } @ Override public void addProblemClinit ( CategorizedProblem [ ] problems ) { throw new ImmutableException ( ) ; } @ Override public void addProblemConstructor ( AbstractMethodDeclaration method , MethodBinding methodBinding , CategorizedProblem [ ] problems , int savedOffset ) { throw new ImmutableException ( ) ; } @ Override public void addProblemConstructor ( AbstractMethodDeclaration method , MethodBinding methodBinding , CategorizedProblem [ ] problems ) { throw new ImmutableException ( ) ; } @ Override public void addProblemMethod ( AbstractMethodDeclaration method , MethodBinding methodBinding , CategorizedProblem [ ] problems , int savedOffset ) { throw new ImmutableException ( ) ; } @ Override public void addProblemMethod ( AbstractMethodDeclaration method , MethodBinding methodBinding , CategorizedProblem [ ] problems ) { throw new ImmutableException ( ) ; } @ Override public void addSpecialMethods ( ) { throw new ImmutableException ( ) ; } @ Override public void addSyntheticConstructorAccessMethod ( SyntheticMethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void addSyntheticEnumValueOfMethod ( SyntheticMethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void addSyntheticEnumValuesMethod ( SyntheticMethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void addSyntheticFieldReadAccessMethod ( SyntheticMethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void addSyntheticFieldWriteAccessMethod ( SyntheticMethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void addSyntheticMethodAccessMethod ( SyntheticMethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void addSyntheticSwitchTable ( SyntheticMethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void completeCodeAttribute ( int codeAttributeOffset ) { throw new ImmutableException ( ) ; } @ Override public void completeCodeAttributeForClinit ( int codeAttributeOffset , int problemLine ) { throw new ImmutableException ( ) ; } @ Override public void completeCodeAttributeForClinit ( int codeAttributeOffset ) { throw new ImmutableException ( ) ; } @ Override public void completeCodeAttributeForMissingAbstractProblemMethod ( MethodBinding binding , int codeAttributeOffset , int [ ] startLineIndexes , int problemLine ) { throw new ImmutableException ( ) ; } @ Override public void completeCodeAttributeForProblemMethod ( AbstractMethodDeclaration method , MethodBinding binding , int codeAttributeOffset , int [ ] startLineIndexes , int problemLine ) { throw new ImmutableException ( ) ; } @ Override public void completeCodeAttributeForSyntheticMethod ( boolean hasExceptionHandlers , SyntheticMethodBinding binding , int codeAttributeOffset , int [ ] startLineIndexes ) { throw new ImmutableException ( ) ; } @ Override public void completeCodeAttributeForSyntheticMethod ( SyntheticMethodBinding binding , int codeAttributeOffset , int [ ] startLineIndexes ) { throw new ImmutableException ( ) ; } public void completeMethodInfo ( int methodAttributeOffset , int attributeNumber ) { throw new ImmutableException ( ) ; } public void completeMethodInfo ( MethodBinding methodBinding , int methodAttributeOffset , int attributeNumber ) { throw new ImmutableException ( ) ; } @ Override public char [ ] fileName ( ) { return filename ; } @ Override public void generateCodeAttributeHeader ( ) { throw new ImmutableException ( ) ; } public int generateMethodInfoAttribute ( MethodBinding methodBinding , AnnotationMethodDeclaration declaration ) { throw new ImmutableException ( ) ; } public int generateMethodInfoAttribute ( MethodBinding methodBinding ) { throw new ImmutableException ( ) ; } public int generateMethodInfoAttributes ( MethodBinding methodBinding , AnnotationMethodDeclaration declaration ) { throw new ImmutableException ( ) ; } public int generateMethodInfoAttributes ( MethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void generateMethodInfoHeader ( MethodBinding methodBinding , int accessFlags ) { throw new ImmutableException ( ) ; } @ Override public void generateMethodInfoHeader ( MethodBinding methodBinding ) { throw new ImmutableException ( ) ; } @ Override public void generateMethodInfoHeaderForClinit ( ) { throw new ImmutableException ( ) ; } @ Override public void generateMissingAbstractMethods ( MethodDeclaration [ ] methodDeclarations , CompilationResult compilationResult ) { throw new ImmutableException ( ) ; } @ Override public byte [ ] getBytes ( ) { return bytes ; } @ Override public char [ ] [ ] getCompoundName ( ) { return name ; } @ Override protected void initByteArrays ( ) { throw new UnsupportedOperationException ( ) ; } @ Override public void initialize ( SourceTypeBinding type , ClassFile parentClassFile , boolean createProblemType ) { throw new UnsupportedOperationException ( ) ; } @ Override public ClassFile outerMostEnclosingClassFile ( ) { throw new UnsupportedOperationException ( ) ; } @ Override public void recordInnerClasses ( TypeBinding binding ) { throw new UnsupportedOperationException ( ) ; } @ Override public void reset ( SourceTypeBinding typeBinding ) { throw new UnsupportedOperationException ( ) ; } @ Override public void setForMethodInfos ( ) { throw new UnsupportedOperationException ( ) ; } @ Override public void traverse ( MethodBinding methodBinding , int maxLocals , byte [ ] bytecodes , int codeOffset , int codeLength , @ SuppressWarnings ( "<STR_LIT:rawtypes>" ) ArrayList frames , boolean isClinit ) { throw new UnsupportedOperationException ( ) ; } @ Override public char [ ] utf8At ( byte [ ] reference , int absoluteOffset , int bytesAvailable ) { throw new UnsupportedOperationException ( ) ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . util . List ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassNode ; import org . eclipse . jdt . internal . compiler . lookup . Binding ; public interface JDTNode { int ANNOTATIONS_INITIALIZED = <NUM_LIT> ; int PROPERTIES_INITIALIZED = <NUM_LIT> ; JDTResolver getResolver ( ) ; List < AnnotationNode > getAnnotations ( ) ; List < AnnotationNode > getAnnotations ( ClassNode type ) ; Binding getJdtBinding ( ) ; boolean isDeprecated ( ) ; } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . lang . reflect . Modifier ; import java . util . ArrayList ; import java . util . List ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . PropertyNode ; import org . codehaus . groovy . runtime . MetaClassHelper ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . core . compiler . IProblem ; import org . eclipse . jdt . internal . compiler . ast . AbstractMethodDeclaration ; import org . eclipse . jdt . internal . compiler . ast . Argument ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . classfmt . ClassFileConstants ; import org . eclipse . jdt . internal . compiler . lookup . ClassScope ; import org . eclipse . jdt . internal . compiler . lookup . CompilationUnitScope ; import org . eclipse . jdt . internal . compiler . lookup . ExtraCompilerModifiers ; import org . eclipse . jdt . internal . compiler . lookup . FieldBinding ; import org . eclipse . jdt . internal . compiler . lookup . LazilyResolvedMethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . MethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . MissingTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . ReferenceBinding ; import org . eclipse . jdt . internal . compiler . lookup . Scope ; import org . eclipse . jdt . internal . compiler . lookup . SourceTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeConstants ; @ SuppressWarnings ( "<STR_LIT>" ) public class GroovyClassScope extends ClassScope { public static EventListener debugListener = null ; public GroovyClassScope ( Scope parent , TypeDeclaration typeDecl ) { super ( parent , typeDecl ) ; } @ Override protected boolean connectSuperInterfaces ( ) { boolean noProblems = super . connectSuperInterfaces ( ) ; return noProblems ; } char [ ] GROOVY = "<STR_LIT>" . toCharArray ( ) ; char [ ] [ ] GROOVY_LANG_METACLASS = { GROOVY , TypeConstants . LANG , "<STR_LIT>" . toCharArray ( ) } ; char [ ] [ ] GROOVY_LANG_GROOVYOBJECT = { GROOVY , TypeConstants . LANG , "<STR_LIT>" . toCharArray ( ) } ; public final ReferenceBinding getGroovyLangMetaClassBinding ( ) { CompilationUnitScope unitScope = compilationUnitScope ( ) ; unitScope . recordQualifiedReference ( GROOVY_LANG_METACLASS ) ; return unitScope . environment . getResolvedType ( GROOVY_LANG_METACLASS , this ) ; } @ Override protected MethodBinding [ ] augmentMethodBindings ( MethodBinding [ ] methodBindings ) { SourceTypeBinding binding = this . referenceContext . binding ; if ( binding != null && ( binding . isAnnotationType ( ) \|\| binding . isInterface ( ) ) ) { return methodBindings ; } boolean implementsGroovyLangObject = false ; ReferenceBinding [ ] superInterfaces = binding . superInterfaces ; if ( superInterfaces != null ) { for ( int i = <NUM_LIT:0> , max = superInterfaces . length ; i < max ; i ++ ) { char [ ] [ ] interfaceName = superInterfaces [ i ] . compoundName ; if ( CharOperation . equals ( interfaceName , GROOVY_LANG_GROOVYOBJECT ) ) { implementsGroovyLangObject = true ; break ; } } } List < MethodBinding > groovyMethods = new ArrayList < MethodBinding > ( ) ; if ( implementsGroovyLangObject ) { if ( debugListener != null ) { debugListener . record ( "<STR_LIT>" + new String ( this . referenceContext . name ) + "<STR_LIT>" ) ; } TypeBinding bindingJLO = getJavaLangObject ( ) ; TypeBinding bindingJLS = getJavaLangString ( ) ; TypeBinding bindingGLM = getGroovyLangMetaClassBinding ( ) ; createMethod ( "<STR_LIT>" , false , "<STR_LIT>" , new TypeBinding [ ] { bindingJLS , bindingJLO } , bindingJLO , groovyMethods , methodBindings , null ) ; createMethod ( "<STR_LIT>" , false , "<STR_LIT>" , new TypeBinding [ ] { bindingJLS } , bindingJLO , groovyMethods , methodBindings , null ) ; createMethod ( "<STR_LIT>" , false , "<STR_LIT>" , new TypeBinding [ ] { bindingJLS , bindingJLO } , TypeBinding . VOID , groovyMethods , methodBindings , null ) ; createMethod ( "<STR_LIT>" , false , "<STR_LIT>" , null , bindingGLM , groovyMethods , methodBindings , null ) ; createMethod ( "<STR_LIT>" , false , "<STR_LIT>" , new TypeBinding [ ] { bindingGLM } , TypeBinding . VOID , groovyMethods , methodBindings , null ) ; } if ( this . referenceContext instanceof GroovyTypeDeclaration ) { GroovyTypeDeclaration typeDeclaration = ( GroovyTypeDeclaration ) this . referenceContext ; boolean useOldWay = false ; if ( useOldWay ) { List < PropertyNode > properties = typeDeclaration . properties ; for ( PropertyNode property : properties ) { String name = property . getName ( ) ; FieldBinding fBinding = typeDeclaration . binding . getField ( name . toCharArray ( ) , false ) ; if ( fBinding != null && ! ( fBinding . type instanceof MissingTypeBinding ) ) { String getterName = "<STR_LIT:get>" + MetaClassHelper . capitalize ( name ) ; createMethod ( getterName , property . isStatic ( ) , "<STR_LIT>" , null , fBinding . type , groovyMethods , methodBindings , typeDeclaration ) ; if ( ! fBinding . isFinal ( ) ) { String setterName = "<STR_LIT>" + MetaClassHelper . capitalize ( name ) ; createMethod ( setterName , property . isStatic ( ) , "<STR_LIT>" , new TypeBinding [ ] { fBinding . type } , TypeBinding . VOID , groovyMethods , methodBindings , typeDeclaration ) ; } if ( fBinding . type == TypeBinding . BOOLEAN ) { createMethod ( "<STR_LIT>" + MetaClassHelper . capitalize ( name ) , property . isStatic ( ) , "<STR_LIT>" , null , fBinding . type , groovyMethods , methodBindings , typeDeclaration ) ; } } } } else { List < PropertyNode > properties = typeDeclaration . properties ; for ( PropertyNode property : properties ) { String name = property . getName ( ) ; String capitalizedName = MetaClassHelper . capitalize ( name ) ; createGetterMethod ( name , "<STR_LIT:get>" + capitalizedName , property . isStatic ( ) , groovyMethods , methodBindings , typeDeclaration ) ; if ( ! Modifier . isFinal ( property . getModifiers ( ) ) ) { createSetterMethod ( name , "<STR_LIT>" + capitalizedName , property . isStatic ( ) , groovyMethods , methodBindings , typeDeclaration , property . getType ( ) . getName ( ) ) ; } String propertyType = property . getType ( ) . getName ( ) ; if ( propertyType . equals ( "<STR_LIT:boolean>" ) ) { createGetterMethod ( name , "<STR_LIT>" + capitalizedName , property . isStatic ( ) , groovyMethods , methodBindings , typeDeclaration ) ; } } } } MethodBinding [ ] newMethodBindings = groovyMethods . toArray ( new MethodBinding [ methodBindings . length + groovyMethods . size ( ) ] ) ; System . arraycopy ( methodBindings , <NUM_LIT:0> , newMethodBindings , groovyMethods . size ( ) , methodBindings . length ) ; return newMethodBindings ; } private void createMethod ( String name , boolean isStatic , String signature , TypeBinding [ ] parameterTypes , TypeBinding returnType , List < MethodBinding > groovyMethods , MethodBinding [ ] existingMethods , GroovyTypeDeclaration typeDeclaration ) { boolean found = false ; for ( MethodBinding existingMethod : existingMethods ) { if ( new String ( existingMethod . selector ) . equals ( name ) ) { ( ( SourceTypeBinding ) existingMethod . declaringClass ) . resolveTypesFor ( existingMethod ) ; boolean equalParameters = true ; if ( parameterTypes == null ) { if ( existingMethod . parameters . length != <NUM_LIT:0> ) { equalParameters = false ; } } else if ( existingMethod . parameters . length == parameterTypes . length ) { TypeBinding [ ] existingParams = existingMethod . parameters ; for ( int p = <NUM_LIT:0> , max = parameterTypes . length ; p < max ; p ++ ) { if ( ! CharOperation . equals ( parameterTypes [ p ] . signature ( ) , existingParams [ p ] . signature ( ) ) ) { equalParameters = false ; break ; } } } if ( equalParameters ) { found = true ; break ; } } } if ( ! found ) { int modifiers = ClassFileConstants . AccPublic ; if ( isStatic ) { modifiers \|= ClassFileConstants . AccStatic ; } if ( this . referenceContext . binding . isInterface ( ) ) { modifiers \|= ClassFileConstants . AccAbstract ; } char [ ] methodName = name . toCharArray ( ) ; MethodBinding mb = new MethodBinding ( modifiers , methodName , returnType , parameterTypes , null , this . referenceContext . binding ) ; groovyMethods . add ( mb ) ; } } private void createGetterMethod ( String propertyName , String name , boolean isStatic , List < MethodBinding > groovyMethods , MethodBinding [ ] existingMethods , GroovyTypeDeclaration typeDeclaration ) { boolean found = false ; char [ ] nameAsCharArray = name . toCharArray ( ) ; for ( MethodBinding existingMethod : existingMethods ) { if ( CharOperation . equals ( nameAsCharArray , existingMethod . selector ) ) { if ( ( existingMethod . modifiers & ExtraCompilerModifiers . AccUnresolved ) != <NUM_LIT:0> ) { AbstractMethodDeclaration methodDecl = existingMethod . sourceMethod ( ) ; if ( methodDecl == null ) { } else { Argument [ ] arguments = methodDecl . arguments ; if ( arguments == null \|\| arguments . length == <NUM_LIT:0> ) { found = true ; } } } else { TypeBinding [ ] existingParams = existingMethod . parameters ; if ( existingParams == null \|\| existingParams . length == <NUM_LIT:0> ) { found = true ; } } } } if ( ! found ) { int modifiers = ClassFileConstants . AccPublic ; if ( isStatic ) { modifiers \|= ClassFileConstants . AccStatic ; } if ( this . referenceContext . binding . isInterface ( ) ) { modifiers \|= ClassFileConstants . AccAbstract ; } MethodBinding mb = new LazilyResolvedMethodBinding ( true , propertyName , modifiers , nameAsCharArray , null , this . referenceContext . binding ) ; groovyMethods . add ( mb ) ; } } private void createSetterMethod ( String propertyName , String name , boolean isStatic , List < MethodBinding > groovyMethods , MethodBinding [ ] existingMethods , GroovyTypeDeclaration typeDeclaration , String propertyType ) { boolean found = false ; char [ ] nameAsCharArray = name . toCharArray ( ) ; for ( MethodBinding existingMethod : existingMethods ) { if ( CharOperation . equals ( nameAsCharArray , existingMethod . selector ) ) { if ( ( existingMethod . modifiers & ExtraCompilerModifiers . AccUnresolved ) != <NUM_LIT:0> ) { AbstractMethodDeclaration methodDecl = existingMethod . sourceMethod ( ) ; if ( methodDecl == null ) { } else { Argument [ ] arguments = methodDecl . arguments ; if ( arguments != null && arguments . length == <NUM_LIT:1> ) { found = true ; } } } else { TypeBinding [ ] existingParams = existingMethod . parameters ; if ( existingParams != null && existingParams . length == <NUM_LIT:1> ) { found = true ; } } } } if ( ! found ) { int modifiers = ClassFileConstants . AccPublic ; if ( isStatic ) { modifiers \|= ClassFileConstants . AccStatic ; } if ( this . referenceContext . binding . isInterface ( ) ) { modifiers \|= ClassFileConstants . AccAbstract ; } char [ ] methodName = name . toCharArray ( ) ; MethodBinding mb = new LazilyResolvedMethodBinding ( false , propertyName , modifiers , methodName , null , this . referenceContext . binding ) ; groovyMethods . add ( mb ) ; } } @ Override public boolean shouldReport ( int problem ) { if ( problem == IProblem . SuperclassMustBeAClass ) { return false ; } if ( problem == IProblem . IncompatibleReturnType ) { return false ; } if ( problem == IProblem . AbstractMethodMustBeImplemented ) { return false ; } if ( problem == IProblem . MethodNameClash ) { return false ; } if ( problem == IProblem . VarargsConflict ) { return false ; } return true ; } @ Override public MethodBinding [ ] getAnyExtraMethods ( char [ ] selector ) { if ( true ) { return null ; } List < MethodNode > mns = ( ( GroovyTypeDeclaration ) referenceContext ) . getClassNode ( ) . getMethods ( new String ( selector ) ) ; MethodBinding [ ] newMethods = new MethodBinding [ mns . size ( ) ] ; int idx = <NUM_LIT:0> ; for ( MethodNode methodNode : mns ) { TypeBinding [ ] parameterTypes = null ; TypeBinding returnType = compilationUnitScope ( ) . environment . getResolvedType ( CharOperation . splitAndTrimOn ( '<CHAR_LIT:.>' , methodNode . getReturnType ( ) . getName ( ) . toCharArray ( ) ) , this ) ; newMethods [ idx ++ ] = new MethodBinding ( methodNode . getModifiers ( ) , selector , returnType , parameterTypes , null , this . referenceContext . binding ) ; } return newMethods ; } @ Override protected ClassScope buildClassScope ( Scope parent , TypeDeclaration typeDecl ) { return new GroovyClassScope ( parent , typeDecl ) ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import org . eclipse . jdt . internal . compiler . ast . ImportReference ; @ SuppressWarnings ( "<STR_LIT>" ) public class AliasImportReference extends ImportReference { private char [ ] alias ; public AliasImportReference ( char [ ] alias , char [ ] [ ] tokens , long [ ] sourcePositions , boolean onDemand , int modifiers ) { super ( tokens , sourcePositions , onDemand , modifiers ) ; this . alias = alias ; } @ Override public char [ ] getSimpleName ( ) { return alias ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . lang . reflect . Modifier ; import java . util . HashSet ; import java . util . List ; import java . util . Set ; import org . codehaus . groovy . GroovyBugError ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . ConstructorNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . GenericsType ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . Parameter ; import org . codehaus . groovy . ast . PropertyNode ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . stmt . Statement ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyCompilationUnitDeclaration . FieldDeclarationWithInitializer ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . internal . compiler . ast . FieldDeclaration ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . ast . Wildcard ; import org . eclipse . jdt . internal . compiler . classfmt . ClassFileConstants ; import org . eclipse . jdt . internal . compiler . impl . BooleanConstant ; import org . eclipse . jdt . internal . compiler . impl . ByteConstant ; import org . eclipse . jdt . internal . compiler . impl . CharConstant ; import org . eclipse . jdt . internal . compiler . impl . Constant ; import org . eclipse . jdt . internal . compiler . impl . DoubleConstant ; import org . eclipse . jdt . internal . compiler . impl . FloatConstant ; import org . eclipse . jdt . internal . compiler . impl . IntConstant ; import org . eclipse . jdt . internal . compiler . impl . LongConstant ; import org . eclipse . jdt . internal . compiler . impl . ShortConstant ; import org . eclipse . jdt . internal . compiler . impl . StringConstant ; import org . eclipse . jdt . internal . compiler . lookup . AnnotationBinding ; import org . eclipse . jdt . internal . compiler . lookup . ArrayBinding ; import org . eclipse . jdt . internal . compiler . lookup . BinaryTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . ClassScope ; import org . eclipse . jdt . internal . compiler . lookup . CompilationUnitScope ; import org . eclipse . jdt . internal . compiler . lookup . FieldBinding ; import org . eclipse . jdt . internal . compiler . lookup . LookupEnvironment ; import org . eclipse . jdt . internal . compiler . lookup . MemberTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . MethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . MethodVerifier ; import org . eclipse . jdt . internal . compiler . lookup . ParameterizedTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . ReferenceBinding ; import org . eclipse . jdt . internal . compiler . lookup . SourceTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . SyntheticMethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeVariableBinding ; import org . eclipse . jdt . internal . compiler . lookup . WildcardBinding ; @ SuppressWarnings ( "<STR_LIT>" ) public class JDTClassNode extends ClassNode implements JDTNode { private static final Parameter [ ] NO_PARAMETERS = new Parameter [ <NUM_LIT:0> ] ; private final static String [ ] argNames = new String [ ] { "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; ReferenceBinding jdtBinding ; private boolean beingInitialized = false ; JDTResolver resolver ; private int bits = <NUM_LIT:0> ; private static final int ANNOTATIONS_INITIALIZED = <NUM_LIT> ; private static final int PROPERTIES_INITIALIZED = <NUM_LIT> ; private TypeDeclaration groovyDecl = null ; static final ClassNode unboundWildcard ; static final GenericsType genericsTypeUnboundWildcard ; static { ClassNode base = ClassHelper . makeWithoutCaching ( "<STR_LIT:?>" ) ; base . setRedirect ( ClassHelper . OBJECT_TYPE ) ; GenericsType t = new GenericsType ( base , null , null ) ; t . setName ( "<STR_LIT:?>" ) ; t . setWildcard ( true ) ; unboundWildcard = ClassHelper . makeWithoutCaching ( "<STR_LIT:?>" ) ; unboundWildcard . setRedirect ( ClassHelper . OBJECT_TYPE ) ; genericsTypeUnboundWildcard = t ; } @ Override public boolean mightHaveInners ( ) { return jdtBinding . memberTypes ( ) . length != <NUM_LIT:0> ; } public JDTClassNode ( ReferenceBinding jdtReferenceBinding , JDTResolver resolver ) { super ( getName ( jdtReferenceBinding ) , getMods ( jdtReferenceBinding ) , null ) ; this . jdtBinding = jdtReferenceBinding ; this . resolver = resolver ; this . lazyInitDone = false ; this . isPrimaryNode = false ; } private static String getName ( TypeBinding tb ) { if ( tb instanceof ArrayBinding ) { return new String ( ( ( ArrayBinding ) tb ) . signature ( ) ) ; } else if ( tb instanceof MemberTypeBinding ) { MemberTypeBinding mtb = ( MemberTypeBinding ) tb ; return CharOperation . toString ( mtb . compoundName ) ; } else if ( tb instanceof ReferenceBinding ) { return CharOperation . toString ( ( ( ReferenceBinding ) tb ) . compoundName ) ; } else { return new String ( tb . sourceName ( ) ) ; } } private static int getMods ( TypeBinding tb ) { if ( tb instanceof ReferenceBinding ) { return ( ( ReferenceBinding ) tb ) . modifiers ; } else { return ClassFileConstants . AccPublic ; } } @ Override public void lazyClassInit ( ) { synchronized ( lazyInitLock ) { if ( lazyInitDone ) { return ; } initialize ( ) ; lazyInitDone = true ; } } public void setupGenerics ( ) { if ( jdtBinding instanceof ParameterizedTypeBinding ) { ParameterizedTypeBinding ptb = ( ParameterizedTypeBinding ) jdtBinding ; TypeBinding [ ] parameterizationArguments = ptb . arguments ; if ( parameterizationArguments != null && parameterizationArguments . length > <NUM_LIT:0> ) { GenericsType [ ] generics = new GenericsType [ parameterizationArguments . length ] ; for ( int g = <NUM_LIT:0> ; g < parameterizationArguments . length ; g ++ ) { TypeBinding typeBinding = parameterizationArguments [ g ] ; if ( typeBinding instanceof TypeVariableBinding ) { generics [ g ] = createGenericsTypeInfoForTypeVariableBinding ( ( TypeVariableBinding ) parameterizationArguments [ g ] ) ; } else { if ( typeBinding instanceof WildcardBinding && ( ( WildcardBinding ) typeBinding ) . boundKind == Wildcard . UNBOUND ) { generics [ g ] = genericsTypeUnboundWildcard ; } else { generics [ g ] = new GenericsType ( resolver . convertToClassNode ( typeBinding ) ) ; } } } this . setGenericsTypes ( generics ) ; } this . setRedirect ( resolver . convertToClassNode ( ptb . original ( ) ) ) ; } else { TypeVariableBinding [ ] typeVariables = jdtBinding . typeVariables ( ) ; GenericsType [ ] generics = createGenericsTypeInfoForTypeVariableBindings ( typeVariables ) ; if ( generics != null ) { this . setGenericsTypes ( generics ) ; } } } @ Override public boolean isResolved ( ) { return true ; } void initialize ( ) { try { if ( beingInitialized ) { return ; } beingInitialized = true ; if ( jdtBinding instanceof ParameterizedTypeBinding ) { ClassNode rd = redirect ( ) ; rd . lazyClassInit ( ) ; return ; } resolver . pushTypeGenerics ( getGenericsTypes ( ) ) ; if ( ! jdtBinding . isInterface ( ) ) { ReferenceBinding superClass = jdtBinding . superclass ( ) ; if ( superClass != null ) { setUnresolvedSuperClass ( resolver . convertToClassNode ( superClass ) ) ; } } ReferenceBinding [ ] superInterfaceBindings = jdtBinding . superInterfaces ( ) ; superInterfaceBindings = superInterfaceBindings == null ? ReferenceBinding . NO_SUPERINTERFACES : superInterfaceBindings ; ClassNode [ ] interfaces = new ClassNode [ superInterfaceBindings . length ] ; for ( int i = <NUM_LIT:0> ; i < superInterfaceBindings . length ; i ++ ) { interfaces [ i ] = resolver . convertToClassNode ( superInterfaceBindings [ i ] ) ; } setInterfaces ( interfaces ) ; initializeMembers ( ) ; resolver . popTypeGenerics ( ) ; } finally { beingInitialized = false ; } } private void initializeMembers ( ) { if ( jdtBinding instanceof SourceTypeBinding ) { SourceTypeBinding sourceType = ( SourceTypeBinding ) jdtBinding ; if ( sourceType . scope != null ) { TypeDeclaration typeDecl = sourceType . scope . referenceContext ; if ( typeDecl instanceof GroovyTypeDeclaration ) { groovyDecl = typeDecl ; } } } MethodBinding [ ] bindings = null ; if ( jdtBinding instanceof ParameterizedTypeBinding ) { ReferenceBinding genericType = ( ( ParameterizedTypeBinding ) jdtBinding ) . genericType ( ) ; bindings = genericType . methods ( ) ; } else { bindings = jdtBinding . methods ( ) ; } if ( bindings != null ) { for ( int i = <NUM_LIT:0> ; i < bindings . length ; i ++ ) { if ( bindings [ i ] . isConstructor ( ) ) { ConstructorNode cNode = constructorBindingToConstructorNode ( bindings [ i ] ) ; addConstructor ( cNode ) ; } else { MethodNode mNode = methodBindingToMethodNode ( bindings [ i ] ) ; addMethod ( mNode ) ; } } } if ( jdtBinding instanceof BinaryTypeBinding ) { MethodBinding [ ] infraBindings = ( ( BinaryTypeBinding ) jdtBinding ) . infraMethods ( ) ; for ( int i = <NUM_LIT:0> ; i < infraBindings . length ; i ++ ) { if ( infraBindings [ i ] . isConstructor ( ) ) { ConstructorNode cNode = constructorBindingToConstructorNode ( infraBindings [ i ] ) ; addConstructor ( cNode ) ; } else { MethodNode mNode = methodBindingToMethodNode ( infraBindings [ i ] ) ; addMethod ( mNode ) ; } } } if ( jdtBinding instanceof SourceTypeBinding ) { SourceTypeBinding jdtSourceTypeBinding = ( SourceTypeBinding ) jdtBinding ; ClassScope classScope = jdtSourceTypeBinding . scope ; if ( classScope != null ) { CompilationUnitScope cuScope = classScope . compilationUnitScope ( ) ; LookupEnvironment environment = classScope . environment ( ) ; MethodVerifier verifier = environment . methodVerifier ( ) ; cuScope . verifyMethods ( verifier ) ; } SyntheticMethodBinding [ ] syntheticMethodBindings = ( ( SourceTypeBinding ) jdtBinding ) . syntheticMethods ( ) ; if ( syntheticMethodBindings != null ) { for ( int i = <NUM_LIT:0> ; i < syntheticMethodBindings . length ; i ++ ) { if ( syntheticMethodBindings [ i ] . isConstructor ( ) ) { ConstructorNode cNode = constructorBindingToConstructorNode ( bindings [ i ] ) ; addConstructor ( cNode ) ; } else { MethodNode mNode = methodBindingToMethodNode ( syntheticMethodBindings [ i ] ) ; addMethod ( mNode ) ; } } } } FieldBinding [ ] fieldBindings = null ; if ( jdtBinding instanceof ParameterizedTypeBinding ) { fieldBindings = ( ( ParameterizedTypeBinding ) jdtBinding ) . genericType ( ) . fields ( ) ; } else { fieldBindings = jdtBinding . fields ( ) ; } if ( fieldBindings != null ) { for ( int i = <NUM_LIT:0> ; i < fieldBindings . length ; i ++ ) { FieldNode fNode = fieldBindingToFieldNode ( fieldBindings [ i ] , groovyDecl ) ; addField ( fNode ) ; } } } private MethodNode methodBindingToMethodNode ( MethodBinding methodBinding ) { String name = new String ( methodBinding . selector ) ; TypeVariableBinding [ ] typeVariables = methodBinding . typeVariables ( ) ; GenericsType [ ] generics = createGenericsTypeInfoForTypeVariableBindings ( typeVariables ) ; MethodNode mNode = null ; try { resolver . pushMemberGenerics ( generics ) ; int modifiers = methodBinding . modifiers ; if ( jdtBinding . isInterface ( ) ) { modifiers \|= Modifier . ABSTRACT ; } ClassNode returnType = resolver . convertToClassNode ( methodBinding . returnType ) ; Parameter [ ] gParameters = convertJdtParametersToGroovyParameters ( methodBinding . parameters ) ; ClassNode [ ] thrownExceptions = new ClassNode [ <NUM_LIT:0> ] ; if ( methodBinding . thrownExceptions != null ) { thrownExceptions = new ClassNode [ methodBinding . thrownExceptions . length ] ; for ( int i = <NUM_LIT:0> ; i < methodBinding . thrownExceptions . length ; i ++ ) { thrownExceptions [ i ] = resolver . convertToClassNode ( methodBinding . thrownExceptions [ i ] ) ; } } mNode = new JDTMethodNode ( methodBinding , resolver , name , modifiers , returnType , gParameters , thrownExceptions , null ) ; } finally { resolver . popMemberGenerics ( ) ; } mNode . setGenericsTypes ( generics ) ; return mNode ; } private Parameter [ ] convertJdtParametersToGroovyParameters ( TypeBinding [ ] jdtParameters ) { Parameter [ ] gParameters = NO_PARAMETERS ; if ( jdtParameters != null && jdtParameters . length > <NUM_LIT:0> ) { gParameters = new Parameter [ jdtParameters . length ] ; if ( jdtParameters . length < <NUM_LIT:8> ) { for ( int i = <NUM_LIT:0> ; i < jdtParameters . length ; i ++ ) { ClassNode paramType = resolver . convertToClassNode ( jdtParameters [ i ] ) ; gParameters [ i ] = new Parameter ( paramType , argNames [ i ] ) ; } } else { for ( int i = <NUM_LIT:0> ; i < jdtParameters . length ; i ++ ) { ClassNode c2 = resolver . convertToClassNode ( jdtParameters [ i ] ) ; if ( i < <NUM_LIT:8> ) { gParameters [ i ] = new Parameter ( c2 , argNames [ i ] ) ; } else { gParameters [ i ] = new Parameter ( c2 , "<STR_LIT>" + i ) ; } } } } return gParameters ; } private ConstructorNode constructorBindingToConstructorNode ( MethodBinding methodBinding ) { TypeVariableBinding [ ] typeVariables = methodBinding . typeVariables ( ) ; GenericsType [ ] generics = createGenericsTypeInfoForTypeVariableBindings ( typeVariables ) ; ConstructorNode ctorNode = null ; try { resolver . pushMemberGenerics ( generics ) ; int modifiers = methodBinding . modifiers ; Parameter [ ] parameters = convertJdtParametersToGroovyParameters ( methodBinding . parameters ) ; ClassNode [ ] thrownExceptions = new ClassNode [ <NUM_LIT:0> ] ; if ( methodBinding . thrownExceptions != null ) { thrownExceptions = new ClassNode [ methodBinding . thrownExceptions . length ] ; for ( int i = <NUM_LIT:0> ; i < methodBinding . thrownExceptions . length ; i ++ ) { thrownExceptions [ i ] = resolver . convertToClassNode ( methodBinding . thrownExceptions [ i ] ) ; } } ctorNode = new ConstructorNode ( modifiers , parameters , thrownExceptions , null ) ; } finally { resolver . popMemberGenerics ( ) ; } ctorNode . setGenericsTypes ( generics ) ; return ctorNode ; } private FieldNode fieldBindingToFieldNode ( FieldBinding fieldBinding , TypeDeclaration groovyTypeDecl ) { String name = new String ( fieldBinding . name ) ; int modifiers = fieldBinding . modifiers ; ClassNode fieldType = resolver . convertToClassNode ( fieldBinding . type ) ; Constant c = fieldBinding . constant ( ) ; Expression initializerExpression = null ; if ( c == Constant . NotAConstant ) { if ( groovyTypeDecl != null ) { FieldDeclaration fieldDecl = groovyTypeDecl . declarationOf ( fieldBinding ) ; if ( fieldDecl instanceof FieldDeclarationWithInitializer ) { initializerExpression = ( ( FieldDeclarationWithInitializer ) fieldDecl ) . getGroovyInitializer ( ) ; } } } else { if ( c instanceof StringConstant ) { initializerExpression = new ConstantExpression ( ( ( StringConstant ) c ) . stringValue ( ) ) ; } else if ( c instanceof BooleanConstant ) { initializerExpression = new ConstantExpression ( ( ( BooleanConstant ) c ) . booleanValue ( ) ) ; } else if ( c instanceof IntConstant ) { initializerExpression = new ConstantExpression ( ( ( IntConstant ) c ) . intValue ( ) ) ; } else if ( c instanceof LongConstant ) { initializerExpression = new ConstantExpression ( ( ( LongConstant ) c ) . longValue ( ) ) ; } else if ( c instanceof DoubleConstant ) { initializerExpression = new ConstantExpression ( ( ( DoubleConstant ) c ) . doubleValue ( ) ) ; } else if ( c instanceof FloatConstant ) { initializerExpression = new ConstantExpression ( ( ( FloatConstant ) c ) . floatValue ( ) ) ; } else if ( c instanceof ByteConstant ) { initializerExpression = new ConstantExpression ( ( ( ByteConstant ) c ) . byteValue ( ) ) ; } else if ( c instanceof CharConstant ) { initializerExpression = new ConstantExpression ( ( ( CharConstant ) c ) . charValue ( ) ) ; } else if ( c instanceof ShortConstant ) { initializerExpression = new ConstantExpression ( ( ( ShortConstant ) c ) . shortValue ( ) ) ; } } FieldNode fNode = new JDTFieldNode ( fieldBinding , resolver , name , modifiers , fieldType , this , initializerExpression ) ; return fNode ; } @ Override public boolean isReallyResolved ( ) { return true ; } @ Override public String getClassInternalName ( ) { return getName ( ) . replace ( '<CHAR_LIT:.>' , '<CHAR_LIT:/>' ) ; } @ Override public boolean isPrimitive ( ) { return false ; } private GenericsType [ ] createGenericsTypeInfoForTypeVariableBindings ( TypeVariableBinding ... typeVariables ) { if ( typeVariables == null \|\| typeVariables . length == <NUM_LIT:0> ) { return null ; } GenericsType [ ] genericTypeInfo = new GenericsType [ typeVariables . length ] ; for ( int g = <NUM_LIT:0> ; g < typeVariables . length ; g ++ ) { genericTypeInfo [ g ] = createGenericsTypeInfoForTypeVariableBinding ( typeVariables [ g ] ) ; } return genericTypeInfo ; } private GenericsType createGenericsTypeInfoForTypeVariableBinding ( TypeVariableBinding typeVariableBinding ) { GenericsType gt = new LazyGenericsType ( typeVariableBinding , resolver ) ; return gt ; } @ Override public List < AnnotationNode > getAnnotations ( ) { if ( ( bits & ANNOTATIONS_INITIALIZED ) == <NUM_LIT:0> ) { ensureAnnotationsInitialized ( ) ; } return super . getAnnotations ( ) ; } private synchronized void ensureAnnotationsInitialized ( ) { if ( ( bits & ANNOTATIONS_INITIALIZED ) == <NUM_LIT:0> ) { if ( ( jdtBinding instanceof SourceTypeBinding ) ) { ( ( SourceTypeBinding ) jdtBinding ) . getAnnotationTagBits ( ) ; } AnnotationBinding [ ] annotationBindings = jdtBinding . getAnnotations ( ) ; for ( AnnotationBinding annotationBinding : annotationBindings ) { addAnnotation ( new JDTAnnotationNode ( annotationBinding , this . resolver ) ) ; } bits \|= ANNOTATIONS_INITIALIZED ; } } protected void ensurePropertiesInitialized ( ) { if ( ( bits & PROPERTIES_INITIALIZED ) == <NUM_LIT:0> ) { initializeProperties ( ) ; } } protected synchronized void initializeProperties ( ) { if ( ( bits & PROPERTIES_INITIALIZED ) == <NUM_LIT:0> ) { lazyClassInit ( ) ; if ( groovyDecl != null ) { Set < String > existing = new HashSet < String > ( ) ; for ( MethodNode methodNode : getMethods ( ) ) { if ( isGetter ( methodNode ) ) { String propertyName = convertToPropertyName ( methodNode . getName ( ) ) ; if ( ! existing . contains ( propertyName ) ) { existing . add ( propertyName ) ; super . addPropertyWithoutField ( createPropertyNodeForMethodNode ( methodNode , propertyName ) ) ; } } } } bits \|= PROPERTIES_INITIALIZED ; } } private PropertyNode createPropertyNodeForMethodNode ( MethodNode methodNode , String propertyName ) { ClassNode propertyType = methodNode . getReturnType ( ) ; int mods = methodNode . getModifiers ( ) ; FieldNode field = this . getField ( propertyName ) ; if ( field == null ) { field = new FieldNode ( propertyName , mods , propertyType , this , null ) ; field . setDeclaringClass ( this ) ; } else { this . removeField ( propertyName ) ; } PropertyNode property = new PropertyNode ( field , mods , null , null ) ; property . setDeclaringClass ( this ) ; return property ; } private String convertToPropertyName ( String methodName ) { StringBuffer propertyName = new StringBuffer ( ) ; int prefixLen ; if ( methodName . startsWith ( "<STR_LIT>" ) ) { prefixLen = <NUM_LIT:2> ; } else { prefixLen = <NUM_LIT:3> ; } propertyName . append ( Character . toLowerCase ( methodName . charAt ( prefixLen ) ) ) ; if ( methodName . length ( ) > prefixLen + <NUM_LIT:1> ) { propertyName . append ( methodName . substring ( prefixLen + <NUM_LIT:1> ) ) ; } String name = propertyName . toString ( ) ; return name ; } private boolean isSetter ( MethodNode methodNode ) { return methodNode . getReturnType ( ) == ClassHelper . VOID_TYPE && methodNode . getParameters ( ) . length == <NUM_LIT:1> && methodNode . getName ( ) . startsWith ( "<STR_LIT>" ) && methodNode . getName ( ) . length ( ) > <NUM_LIT:3> ; } private boolean isGetter ( MethodNode methodNode ) { return methodNode . getReturnType ( ) != ClassHelper . VOID_TYPE && methodNode . getParameters ( ) . length == <NUM_LIT:0> && ( ( methodNode . getName ( ) . startsWith ( "<STR_LIT:get>" ) && methodNode . getName ( ) . length ( ) > <NUM_LIT:3> ) \|\| ( methodNode . getName ( ) . startsWith ( "<STR_LIT>" ) && methodNode . getName ( ) . length ( ) > <NUM_LIT:2> ) ) ; } @ Override public List < PropertyNode > getProperties ( ) { ensurePropertiesInitialized ( ) ; return super . getProperties ( ) ; } @ Override public PropertyNode getProperty ( String name ) { ensurePropertiesInitialized ( ) ; return super . getProperty ( name ) ; } @ Override public boolean hasProperty ( String name ) { ensurePropertiesInitialized ( ) ; return super . hasProperty ( name ) ; } @ Override public void addProperty ( PropertyNode node ) { new RuntimeException ( "<STR_LIT>" + node . getName ( ) ) . printStackTrace ( ) ; } @ Override public PropertyNode addProperty ( String name , int modifiers , ClassNode type , Expression initialValueExpression , Statement getterBlock , Statement setterBlock ) { new RuntimeException ( "<STR_LIT>" + name ) . printStackTrace ( ) ; return null ; } public ReferenceBinding getJdtBinding ( ) { return jdtBinding ; } public JDTResolver getResolver ( ) { return resolver ; } public boolean isDeprecated ( ) { return jdtBinding . isDeprecated ( ) ; } private boolean unfindable = false ; public Class getTypeClass ( ) { if ( clazz != null \|\| unfindable ) { return clazz ; } ClassLoader transformLoader = resolver . compilationUnit . getTransformLoader ( ) ; if ( transformLoader != null ) { try { clazz = Class . forName ( this . getName ( ) , false , transformLoader ) ; return clazz ; } catch ( ClassNotFoundException e ) { unfindable = true ; } } throw new GroovyBugError ( "<STR_LIT>" + getName ( ) + "<STR_LIT>" + transformLoader ) ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . lang . reflect . InvocationTargetException ; import java . lang . reflect . Method ; import groovy . lang . GroovyClassLoader ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . classgen . GeneratorContext ; import org . codehaus . groovy . control . CompilationFailedException ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . control . CompilationUnit . PrimaryClassNodeOperation ; public class GrailsInjector extends PrimaryClassNodeOperation { private GroovyClassLoader groovyClassLoader ; private boolean broken = false ; private Class < ? > injectorClazz ; private Object injectorInstance ; private Method injectorMethod ; public GrailsInjector ( GroovyClassLoader groovyClassLoader ) { this . groovyClassLoader = groovyClassLoader ; } @ Override public void call ( SourceUnit sourceUnit , GeneratorContext context , ClassNode classNode ) throws CompilationFailedException { if ( broken ) { return ; } if ( injectorClazz == null ) { try { injectorClazz = groovyClassLoader . loadClass ( "<STR_LIT>" ) ; injectorInstance = injectorClazz . newInstance ( ) ; } catch ( Throwable t ) { broken = true ; System . err . println ( "<STR_LIT>" ) ; t . printStackTrace ( ) ; return ; } try { injectorMethod = injectorClazz . getDeclaredMethod ( "<STR_LIT>" , new Class [ ] { SourceUnit . class , GeneratorContext . class , ClassNode . class } ) ; } catch ( SecurityException se ) { broken = true ; System . err . println ( "<STR_LIT>" ) ; se . printStackTrace ( ) ; return ; } catch ( NoSuchMethodException nsme ) { broken = true ; System . err . println ( "<STR_LIT>" ) ; nsme . printStackTrace ( ) ; return ; } if ( injectorMethod == null ) { broken = true ; return ; } } try { if ( sourceUnit . getName ( ) . indexOf ( "<STR_LIT>" ) != - <NUM_LIT:1> ) { injectorMethod . invoke ( injectorInstance , sourceUnit , context , classNode ) ; } } catch ( IllegalArgumentException iae ) { System . err . println ( "<STR_LIT>" ) ; iae . printStackTrace ( ) ; } catch ( IllegalAccessException iae ) { System . err . println ( "<STR_LIT>" ) ; iae . printStackTrace ( ) ; } catch ( InvocationTargetException e ) { System . err . println ( "<STR_LIT>" ) ; e . printStackTrace ( ) ; } } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import groovy . lang . GroovyClassLoader ; import java . io . File ; import java . lang . reflect . Field ; import java . net . MalformedURLException ; import java . net . URL ; import java . net . URLClassLoader ; import java . util . ArrayList ; import java . util . Collections ; import java . util . HashMap ; import java . util . List ; import java . util . Map ; import java . util . jar . JarFile ; import org . apache . xbean . classloader . NonLockingJarFileClassLoader ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . control . CompilationUnit ; import org . codehaus . groovy . control . CompilationUnit . PrimaryClassNodeOperation ; import org . codehaus . groovy . control . CompilationUnit . ProgressListener ; import org . codehaus . groovy . control . CompilerConfiguration ; import org . codehaus . groovy . control . ErrorCollector ; import org . codehaus . groovy . control . Phases ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . eclipse . GroovyLogManager ; import org . codehaus . groovy . eclipse . TraceCategory ; import org . codehaus . jdt . groovy . control . EclipseSourceUnit ; import org . eclipse . core . resources . IFile ; import org . eclipse . core . resources . ResourcesPlugin ; import org . eclipse . core . runtime . IPath ; import org . eclipse . core . runtime . Path ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . core . util . CompilerUtils ; import org . eclipse . jdt . groovy . core . util . GroovyUtils ; import org . eclipse . jdt . groovy . core . util . ScriptFolderSelector ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . batch . FileSystem ; import org . eclipse . jdt . internal . compiler . batch . FileSystem . Classpath ; import org . eclipse . jdt . internal . compiler . env . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . env . INameEnvironment ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . lookup . LookupEnvironment ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; import org . eclipse . jdt . internal . core . builder . BatchImageBuilder ; import org . eclipse . jdt . internal . core . builder . BuildNotifier ; import org . eclipse . jdt . internal . core . builder . SourceFile ; @ SuppressWarnings ( "<STR_LIT>" ) public class GroovyParser { public ProblemReporter problemReporter ; CompilationUnit groovyCompilationUnit ; private JDTResolver resolver ; private String projectName ; private String gclClasspath ; public static IGroovyDebugRequestor debugRequestor ; private CompilerOptions compilerOptions ; public Object requestor ; private boolean allowTransforms ; private boolean isReconcile ; private ScriptFolderSelector scriptFolderSelector ; private static Map < String , PathLoaderPair > projectToLoaderCache = Collections . synchronizedMap ( new HashMap < String , PathLoaderPair > ( ) ) ; static class PathLoaderPair { String classpath ; GroovyClassLoader groovyClassLoader ; PathLoaderPair ( String classpath ) { this . classpath = classpath ; this . groovyClassLoader = new GroovyClassLoader ( createConfigureLoader ( classpath ) ) ; } } public static void close ( GroovyClassLoader groovyClassLoader ) { try { Class < ? > clazz = java . net . URLClassLoader . class ; Field field_urlClasspath = clazz . getDeclaredField ( "<STR_LIT>" ) ; field_urlClasspath . setAccessible ( true ) ; Object urlClasspath = field_urlClasspath . get ( groovyClassLoader ) ; Field field_loaders = urlClasspath . getClass ( ) . getDeclaredField ( "<STR_LIT>" ) ; field_loaders . setAccessible ( true ) ; Object [ ] jarLoaders = ( ( java . util . Collection < ? > ) field_loaders . get ( urlClasspath ) ) . toArray ( ) ; for ( Object jarLoader : jarLoaders ) { try { Field field_jarFile = jarLoader . getClass ( ) . getDeclaredField ( "<STR_LIT>" ) ; field_jarFile . setAccessible ( true ) ; JarFile jarFile = ( JarFile ) field_jarFile . get ( jarLoader ) ; String jarFileName = jarFile . getName ( ) ; if ( jarFileName . indexOf ( "<STR_LIT>" ) != - <NUM_LIT:1> \|\| jarFileName . indexOf ( "<STR_LIT>" ) != - <NUM_LIT:1> ) { jarFile . close ( ) ; } } catch ( Throwable t ) { } } } catch ( Throwable t ) { } } public static void tidyCache ( String projectName ) { projectToLoaderCache . remove ( projectName ) ; } public static void closeClassLoader ( String projectName ) { PathLoaderPair pathLoaderPair = projectToLoaderCache . get ( projectName ) ; if ( pathLoaderPair != null ) { close ( pathLoaderPair . groovyClassLoader ) ; } } public GroovyParser ( CompilerOptions options , ProblemReporter problemReporter , boolean allowTransforms , boolean isReconcile ) { this ( null , options , problemReporter , allowTransforms , isReconcile ) ; } private GroovyClassLoader gclForBatch = null ; private GroovyClassLoader getLoaderFor ( String path ) { GroovyClassLoader gcl = null ; if ( projectName == null && path == null ) { if ( gclForBatch == null ) { try { if ( requestor instanceof org . eclipse . jdt . internal . compiler . Compiler ) { org . eclipse . jdt . internal . compiler . Compiler compiler = ( ( org . eclipse . jdt . internal . compiler . Compiler ) requestor ) ; LookupEnvironment lookupEnvironment = compiler . lookupEnvironment ; if ( lookupEnvironment != null ) { INameEnvironment nameEnvironment = lookupEnvironment . nameEnvironment ; if ( nameEnvironment instanceof FileSystem ) { FileSystem fileSystem = ( FileSystem ) nameEnvironment ; if ( fileSystem != null ) { Field f = FileSystem . class . getDeclaredField ( "<STR_LIT>" ) ; if ( f != null ) { f . setAccessible ( true ) ; gclForBatch = new GroovyClassLoader ( ) ; Classpath [ ] classpaths = ( Classpath [ ] ) f . get ( fileSystem ) ; if ( classpaths != null ) { for ( int i = <NUM_LIT:0> ; i < classpaths . length ; i ++ ) { gclForBatch . addClasspath ( classpaths [ i ] . getPath ( ) ) ; } } } else { System . err . println ( "<STR_LIT>" ) ; } } } } } } catch ( Exception e ) { System . err . println ( "<STR_LIT>" ) ; e . printStackTrace ( System . err ) ; } } return gclForBatch ; } if ( path != null ) { if ( projectName == null ) { } else { PathLoaderPair pathAndLoader = projectToLoaderCache . get ( projectName ) ; if ( pathAndLoader == null ) { if ( GroovyLogManager . manager . hasLoggers ( ) ) { GroovyLogManager . manager . log ( TraceCategory . AST_TRANSFORM , "<STR_LIT>" + path ) ; } pathAndLoader = new PathLoaderPair ( path ) ; projectToLoaderCache . put ( projectName , pathAndLoader ) ; } else { if ( ! path . equals ( pathAndLoader . classpath ) ) { pathAndLoader = new PathLoaderPair ( path ) ; projectToLoaderCache . put ( projectName , pathAndLoader ) ; } } gcl = pathAndLoader . groovyClassLoader ; } } return gcl ; } public GroovyParser ( Object requestor , CompilerOptions options , ProblemReporter problemReporter , boolean allowTransforms , boolean isReconcile ) { String path = ( options == null ? null : options . groovyClassLoaderPath ) ; this . requestor = requestor ; this . allowTransforms = allowTransforms ; this . isReconcile = isReconcile ; this . gclClasspath = path ; this . compilerOptions = options ; this . projectName = options . groovyProjectName ; GroovyClassLoader gcl = getLoaderFor ( path ) ; GrapeAwareGroovyClassLoader grabbyLoader = new GrapeAwareGroovyClassLoader ( ) ; this . groovyCompilationUnit = makeCompilationUnit ( grabbyLoader , gcl , isReconcile , allowTransforms ) ; this . groovyCompilationUnit . tweak ( isReconcile ) ; if ( grabbyLoader != null ) { grabbyLoader . setCompilationUnit ( groovyCompilationUnit ) ; } this . groovyCompilationUnit . removeOutputPhaseOperation ( ) ; if ( ( options . groovyFlags & CompilerUtils . IsGrails ) != <NUM_LIT:0> ) { this . groovyCompilationUnit . addPhaseOperation ( new GrailsInjector ( gcl ) , Phases . CANONICALIZATION ) ; new Grails20TestSupport ( options , gcl ) . addGrailsTestCompilerCustomizers ( groovyCompilationUnit ) ; if ( allowTransforms && gcl != null ) { this . groovyCompilationUnit . addPhaseOperation ( new GrailsGlobalPluginAwareEntityInjector ( gcl ) , Phases . CANONICALIZATION ) ; } } this . problemReporter = problemReporter ; this . resolver = new JDTResolver ( groovyCompilationUnit ) ; groovyCompilationUnit . setResolveVisitor ( resolver ) ; } static class GrapeAwareGroovyClassLoader extends GroovyClassLoader { private CompilationUnit groovyCompilationUnit ; public boolean grabbed = false ; @ Override public void addURL ( URL url ) { this . grabbed = true ; super . addURL ( url ) ; } public void setCompilationUnit ( CompilationUnit groovyCompilationUnit ) { this . groovyCompilationUnit = groovyCompilationUnit ; } } private static boolean NONLOCKING = false ; static { try { boolean value = System . getProperty ( "<STR_LIT>" , "<STR_LIT:false>" ) . equalsIgnoreCase ( "<STR_LIT:true>" ) ; NONLOCKING = value ; if ( value ) { System . out . println ( "<STR_LIT>" ) ; } } catch ( Throwable t ) { } } private static URLClassLoader createLoader ( URL [ ] urls , ClassLoader parent ) { if ( NONLOCKING ) { return new NonLockingJarFileClassLoader ( "<STR_LIT>" , urls , parent ) ; } else { return new URLClassLoader ( urls , parent ) ; } } private static URLClassLoader createConfigureLoader ( String path ) { ClassLoader pcl = GroovyParser . class . getClassLoader ( ) ; if ( path == null ) { return createLoader ( null , pcl ) ; } List < URL > urls = new ArrayList < URL > ( ) ; if ( path . indexOf ( File . pathSeparator ) != - <NUM_LIT:1> ) { int pos = <NUM_LIT:0> ; while ( pos != - <NUM_LIT:1> ) { int nextSep = path . indexOf ( File . pathSeparator , pos ) ; if ( nextSep == - <NUM_LIT:1> ) { addNewURL ( path . substring ( pos ) , urls ) ; pos = - <NUM_LIT:1> ; } else { addNewURL ( path . substring ( pos , nextSep ) , urls ) ; pos = nextSep + <NUM_LIT:1> ; } } } else { addNewURL ( path , urls ) ; } return createLoader ( urls . toArray ( new URL [ urls . size ( ) ] ) , pcl ) ; } private static void addNewURL ( String path , List < URL > existingURLs ) { try { File f = new File ( path ) ; URL newURL = f . toURI ( ) . toURL ( ) ; for ( URL url : existingURLs ) { if ( url . equals ( newURL ) ) { return ; } } existingURLs . add ( newURL ) ; } catch ( MalformedURLException e ) { } } public CompilationUnitDeclaration dietParse ( ICompilationUnit sourceUnit , CompilationResult compilationResult ) { char [ ] sourceCode = sourceUnit . getContents ( ) ; if ( sourceCode == null ) { sourceCode = CharOperation . NO_CHAR ; } CompilerConfiguration groovyCompilerConfig = new CompilerConfiguration ( ) ; ErrorCollector errorCollector = new GroovyErrorCollectorForJDT ( groovyCompilerConfig ) ; String filepath = null ; if ( sourceUnit instanceof org . eclipse . jdt . internal . compiler . batch . CompilationUnit ) { filepath = new String ( ( ( org . eclipse . jdt . internal . compiler . batch . CompilationUnit ) sourceUnit ) . fileName ) ; } else { filepath = new String ( sourceUnit . getFileName ( ) ) ; } Path path = new Path ( filepath ) ; IFile eclipseFile = null ; if ( ResourcesPlugin . getPlugin ( ) != null && path . segmentCount ( ) >= <NUM_LIT:2> ) { eclipseFile = ResourcesPlugin . getWorkspace ( ) . getRoot ( ) . getFile ( new Path ( filepath ) ) ; final IPath location = eclipseFile . getLocation ( ) ; if ( location != null ) { filepath = location . toFile ( ) . getAbsolutePath ( ) ; } } SourceUnit groovySourceUnit = new EclipseSourceUnit ( eclipseFile , filepath , new String ( sourceCode ) , groovyCompilerConfig , groovyCompilationUnit . getClassLoader ( ) , errorCollector ) ; groovySourceUnit . isReconcile = isReconcile ; GroovyCompilationUnitDeclaration gcuDeclaration = new GroovyCompilationUnitDeclaration ( problemReporter , compilationResult , sourceCode . length , groovyCompilationUnit , groovySourceUnit , compilerOptions ) ; compilationResult . lineSeparatorPositions = GroovyUtils . getSourceLineSeparatorsIn ( sourceCode ) ; groovyCompilationUnit . addSource ( groovySourceUnit ) ; if ( requestor instanceof org . eclipse . jdt . internal . compiler . Compiler ) { org . eclipse . jdt . internal . compiler . Compiler compiler = ( ( org . eclipse . jdt . internal . compiler . Compiler ) requestor ) ; if ( compiler . requestor instanceof BatchImageBuilder ) { BuildNotifier notifier = ( ( BatchImageBuilder ) compiler . requestor ) . notifier ; if ( notifier != null ) { groovyCompilationUnit . setProgressListener ( new ProgressListenerImpl ( notifier ) ) ; } } } gcuDeclaration . processToPhase ( Phases . CONVERSION ) ; if ( gcuDeclaration . getModuleNode ( ) != null ) { gcuDeclaration . populateCompilationUnitDeclaration ( ) ; for ( TypeDeclaration decl : gcuDeclaration . types ) { GroovyTypeDeclaration gtDeclaration = ( GroovyTypeDeclaration ) decl ; resolver . record ( gtDeclaration ) ; } } if ( allowTransforms && ( sourceUnit instanceof SourceFile ) ) { if ( this . scriptFolderSelector == null ) { this . scriptFolderSelector = new ScriptFolderSelector ( ( ( SourceFile ) sourceUnit ) . resource . getProject ( ) ) ; } SourceFile file = ( SourceFile ) sourceUnit ; if ( scriptFolderSelector . isScript ( file . resource ) ) { gcuDeclaration . tagAsScript ( ) ; } } if ( debugRequestor != null ) { debugRequestor . acceptCompilationUnitDeclaration ( gcuDeclaration ) ; } return gcuDeclaration ; } static class ProgressListenerImpl implements ProgressListener { private BuildNotifier notifier ; public ProgressListenerImpl ( BuildNotifier notifier ) { this . notifier = notifier ; } public void parseComplete ( int phase , String sourceUnitName ) { try { int lastSlash = sourceUnitName . lastIndexOf ( "<STR_LIT:/>" ) ; if ( lastSlash == - <NUM_LIT:1> ) { lastSlash = sourceUnitName . lastIndexOf ( "<STR_LIT:\\>" ) ; } if ( lastSlash != - <NUM_LIT:1> ) { StringBuffer msg = new StringBuffer ( ) ; msg . append ( "<STR_LIT>" ) ; msg . append ( sourceUnitName , <NUM_LIT:0> , lastSlash ) ; notifier . subTask ( msg . toString ( ) ) ; } } catch ( Exception e ) { } notifier . checkCancel ( ) ; } public void generateComplete ( int phase , ClassNode classNode ) { try { String pkgName = classNode . getPackageName ( ) ; if ( pkgName != null && pkgName . length ( ) > <NUM_LIT:0> ) { StringBuffer msg = new StringBuffer ( ) ; msg . append ( "<STR_LIT>" ) ; msg . append ( pkgName ) ; notifier . subTask ( msg . toString ( ) ) ; } } catch ( Exception e ) { } notifier . checkCancel ( ) ; } } public void reset ( ) { GroovyClassLoader gcl = getLoaderFor ( gclClasspath ) ; GrapeAwareGroovyClassLoader grabbyLoader = new GrapeAwareGroovyClassLoader ( ) ; boolean allowTransforms = this . groovyCompilationUnit . allowTransforms ; boolean isReconcile = this . groovyCompilationUnit . isReconcile ; this . groovyCompilationUnit = makeCompilationUnit ( grabbyLoader , gcl , isReconcile , allowTransforms ) ; this . scriptFolderSelector = null ; grabbyLoader . setCompilationUnit ( this . groovyCompilationUnit ) ; this . resolver = new JDTResolver ( groovyCompilationUnit ) ; this . groovyCompilationUnit . setResolveVisitor ( resolver ) ; } private CompilationUnit makeCompilationUnit ( GroovyClassLoader loader , GroovyClassLoader transformLoader , boolean isReconcile , boolean allowTransforms ) { CompilationUnit it = new CompilationUnit ( null , null , loader , transformLoader , allowTransforms , compilerOptions . groovyTransformsToRunOnReconcile ) ; if ( allowTransforms && transformLoader != null && compilerOptions != null && ( ( compilerOptions . groovyFlags & <NUM_LIT> ) != <NUM_LIT:0> ) ) { try { Class < ? > klass = Class . forName ( "<STR_LIT>" , true , transformLoader ) ; if ( klass != null ) { ClassLoader savedLoader = Thread . currentThread ( ) . getContextClassLoader ( ) ; try { Thread . currentThread ( ) . setContextClassLoader ( transformLoader ) ; PrimaryClassNodeOperation op = ( PrimaryClassNodeOperation ) klass . newInstance ( ) ; it . addPhaseOperation ( op , Phases . CANONICALIZATION ) ; } finally { Thread . currentThread ( ) . setContextClassLoader ( savedLoader ) ; } } } catch ( Exception e ) { } } it . tweak ( isReconcile ) ; return it ; } public CompilerOptions getCompilerOptions ( ) { return compilerOptions ; } public boolean getAllowTranforms ( ) { return allowTransforms ; } public boolean getIsReconcile ( ) { return isReconcile ; } public CompilationUnit getGroovyCompilationUnit ( ) { return groovyCompilationUnit ; } public String getProjectName ( ) { return projectName ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; public class AbortResolutionException extends IllegalStateException { private static final long serialVersionUID = <NUM_LIT:1L> ; public AbortResolutionException ( String message ) { super ( message ) ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import groovy . lang . GroovyClassLoader ; import groovy . lang . GroovySystem ; import java . io . File ; import java . lang . reflect . Constructor ; import java . lang . reflect . InvocationTargetException ; import java . lang . reflect . Method ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . classgen . GeneratorContext ; import org . codehaus . groovy . control . CompilationFailedException ; import org . codehaus . groovy . control . CompilationUnit ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . control . customizers . ASTTransformationCustomizer ; import org . codehaus . groovy . control . customizers . ImportCustomizer ; import org . codehaus . jdt . groovy . control . EclipseSourceUnit ; import org . eclipse . core . resources . IFile ; import org . eclipse . core . resources . IProject ; import org . eclipse . core . resources . ResourcesPlugin ; import org . eclipse . core . runtime . Assert ; import org . eclipse . core . runtime . IPath ; import org . eclipse . core . runtime . Path ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; public class Grails20TestSupport { public static boolean DEBUG = false ; private static void debug ( String msg ) { if ( DEBUG ) { System . out . println ( "<STR_LIT>" + msg ) ; } } private static final String GRAILS_UTIL_BUILD_SETTINGS = "<STR_LIT>" ; private static final String GRAILS_UTIL_BUILD_SETTINGS_HOLDER = "<STR_LIT>" ; CompilerOptions options ; GroovyClassLoader gcl ; public Grails20TestSupport ( CompilerOptions options , GroovyClassLoader gcl ) { this . options = options ; this . gcl = gcl ; } public void addGrailsTestCompilerCustomizers ( CompilationUnit groovyCompilationUnit ) { if ( GroovySystem . getVersion ( ) . startsWith ( "<STR_LIT>" ) ) { ImportCustomizer importCustomizer = new ImportCustomizer ( ) { @ Override public void call ( SourceUnit source , GeneratorContext context , ClassNode classNode ) throws CompilationFailedException { if ( isInGrailsUnitTestSourceFolder ( source ) ) { super . call ( source , context , classNode ) ; } } } ; importCustomizer . addStarImports ( "<STR_LIT>" ) ; importCustomizer . addStarImports ( "<STR_LIT>" ) ; importCustomizer . addStaticStars ( "<STR_LIT>" ) ; groovyCompilationUnit . addPhaseOperation ( importCustomizer , importCustomizer . getPhase ( ) . getPhaseNumber ( ) ) ; @ SuppressWarnings ( "<STR_LIT:rawtypes>" ) Class testForClass = null ; try { testForClass = Class . forName ( "<STR_LIT>" , false , gcl ) ; if ( testForClass != null ) { ASTTransformationCustomizer astTransformationCustomizer = new ASTTransformationCustomizer ( testForClass ) { @ Override public void call ( SourceUnit source , GeneratorContext context , ClassNode classNode ) throws CompilationFailedException { if ( isInGrailsUnitTestSourceFolder ( source ) ) { super . call ( source , context , classNode ) ; } } } ; groovyCompilationUnit . addPhaseOperation ( astTransformationCustomizer , astTransformationCustomizer . getPhase ( ) . getPhaseNumber ( ) ) ; ensureGrailsBuildSettings ( ) ; } } catch ( LinkageError e ) { } catch ( ClassNotFoundException e ) { } catch ( Exception e ) { e . printStackTrace ( System . err ) ; } } } @ SuppressWarnings ( "<STR_LIT:rawtypes>" ) void ensureGrailsBuildSettings ( ) { debug ( "<STR_LIT>" ) ; try { String projectName = options . groovyProjectName ; debug ( "<STR_LIT>" + projectName ) ; if ( projectName != null ) { Class buildSettingsHolder = gcl . loadClass ( GRAILS_UTIL_BUILD_SETTINGS_HOLDER ) ; debug ( "<STR_LIT>" + buildSettingsHolder ) ; Object buildSettings = getBuildSettings ( buildSettingsHolder ) ; debug ( "<STR_LIT>" + buildSettings ) ; if ( buildSettings == null ) { debug ( "<STR_LIT>" ) ; buildSettings = createBuildSettings ( ) ; debug ( "<STR_LIT>" + buildSettingsHolder ) ; setBuildSettings ( buildSettingsHolder , buildSettings ) ; Object checkit = getBuildSettings ( buildSettingsHolder ) ; debug ( "<STR_LIT>" + checkit ) ; } } } catch ( Exception e ) { debug ( "<STR_LIT>" ) ; e . printStackTrace ( ) ; } debug ( "<STR_LIT>" ) ; } @ SuppressWarnings ( "<STR_LIT:rawtypes>" ) private Object createBuildSettings ( ) throws ClassNotFoundException , SecurityException , NoSuchMethodException , IllegalArgumentException , InstantiationException , IllegalAccessException , InvocationTargetException { Class buildSettingsClass = gcl . loadClass ( GRAILS_UTIL_BUILD_SETTINGS ) ; debug ( "<STR_LIT>" + buildSettingsClass ) ; Constructor constructor = buildSettingsClass . getConstructor ( File . class , File . class ) ; debug ( "<STR_LIT>" + constructor ) ; Object grailsHome = getGrailsHome ( ) ; debug ( "<STR_LIT>" + grailsHome ) ; File projectHome = getProjectHome ( ) ; debug ( "<STR_LIT>" + projectHome ) ; return constructor . newInstance ( grailsHome , projectHome ) ; } private Object getGrailsHome ( ) { return null ; } private File getProjectHome ( ) { String projectName = options . groovyProjectName ; if ( projectName != null ) { IProject project = ResourcesPlugin . getWorkspace ( ) . getRoot ( ) . getProject ( projectName ) ; IPath location = project . getLocation ( ) ; if ( location != null ) { return location . toFile ( ) ; } } return null ; } @ SuppressWarnings ( "<STR_LIT:rawtypes>" ) private static Object getBuildSettings ( Class buildSettingsHolder ) throws SecurityException , NoSuchMethodException , IllegalArgumentException , IllegalAccessException , InvocationTargetException { Method m = buildSettingsHolder . getMethod ( "<STR_LIT>" ) ; return m . invoke ( null ) ; } @ SuppressWarnings ( "<STR_LIT:rawtypes>" ) private static synchronized void setBuildSettings ( Class buildSettingsHolder , Object buildSettings ) throws SecurityException , NoSuchMethodException , ClassNotFoundException , IllegalArgumentException , IllegalAccessException , InvocationTargetException { Method m = buildSettingsHolder . getMethod ( "<STR_LIT>" , buildSettingsHolder . getClassLoader ( ) . loadClass ( GRAILS_UTIL_BUILD_SETTINGS ) ) ; m . invoke ( null , buildSettings ) ; Assert . isTrue ( getBuildSettings ( buildSettingsHolder ) == buildSettings ) ; } static boolean isInGrailsUnitTestSourceFolder ( SourceUnit source ) { if ( source instanceof EclipseSourceUnit ) { EclipseSourceUnit eclipseSource = ( EclipseSourceUnit ) source ; IFile file = eclipseSource . getEclipseFile ( ) ; if ( file != null ) { IPath path = file . getProjectRelativePath ( ) ; return new Path ( "<STR_LIT>" ) . isPrefixOf ( path ) ; } } return false ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; public class GroovyEclipseBug extends IllegalStateException { private static final long serialVersionUID = <NUM_LIT:1L> ; public GroovyEclipseBug ( String message ) { super ( message ) ; } public GroovyEclipseBug ( ) { } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; public class GroovyCheckingControl { public final static boolean globalControl = true ; public final static boolean checkTypeReferences = globalControl && true ; } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . util . ArrayList ; import java . util . Collections ; import java . util . HashSet ; import java . util . List ; import java . util . Set ; public class EventListener { private List < String > events = new ArrayList < String > ( ) ; private Set < String > interestingEvents = new HashSet < String > ( ) ; public EventListener ( ) { } public EventListener ( String key ) { interestingEvents . add ( key ) ; } public EventListener ( String ... keys ) { if ( keys != null ) { for ( String k : keys ) { interestingEvents . add ( k ) ; } } } public void record ( String event ) { String key = event . substring ( <NUM_LIT:0> , event . indexOf ( '<CHAR_LIT::>' ) ) . toLowerCase ( ) ; if ( interestingEvents . size ( ) > <NUM_LIT:0> && ! interestingEvents . contains ( key ) ) { return ; } events . add ( event ) ; } public void clear ( ) { events . clear ( ) ; } public String toString ( ) { StringBuilder sb = new StringBuilder ( ) ; for ( String event : events ) { sb . append ( event ) . append ( "<STR_LIT:n>" ) ; } return sb . toString ( ) ; } public int eventCount ( ) { return events . size ( ) ; } public List < String > getEvents ( ) { return Collections . unmodifiableList ( events ) ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import groovy . lang . GroovyClassLoader ; import java . util . List ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . ModuleNode ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . classgen . GeneratorContext ; import org . codehaus . groovy . control . CompilationFailedException ; import org . codehaus . groovy . control . CompilationUnit . PrimaryClassNodeOperation ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . jdt . groovy . control . EclipseSourceUnit ; import org . eclipse . core . resources . IFile ; import org . eclipse . core . runtime . IPath ; public class GrailsGlobalPluginAwareEntityInjector extends PrimaryClassNodeOperation { private static final boolean DEBUG = false ; private static void debug ( String msg ) { System . out . println ( msg ) ; } private static class PluginInfo { final String name ; final String version ; public PluginInfo ( String name , String version ) { this . name = name ; this . version = version ; } @ Override public String toString ( ) { return "<STR_LIT>" + name + "<STR_LIT>" + version + "<STR_LIT:)>" ; } } private GroovyClassLoader groovyClassLoader ; private boolean broken = false ; public GrailsGlobalPluginAwareEntityInjector ( GroovyClassLoader groovyClassLoader ) { this . groovyClassLoader = groovyClassLoader ; } @ Override public void call ( SourceUnit _sourceUnit , GeneratorContext context , ClassNode classNode ) throws CompilationFailedException { if ( broken ) { return ; } if ( _sourceUnit instanceof EclipseSourceUnit ) { EclipseSourceUnit sourceUnit = ( EclipseSourceUnit ) _sourceUnit ; try { if ( classNode . isAnnotationDefinition ( ) ) { return ; } if ( ! isFirstClassInModule ( classNode ) ) { return ; } IFile file = sourceUnit . getEclipseFile ( ) ; PluginInfo info = getInfo ( file ) ; if ( info != null ) { if ( DEBUG ) { debug ( "<STR_LIT>" + classNode ) ; } Class < ? > GrailsPlugin_class = Class . forName ( "<STR_LIT>" , false , groovyClassLoader ) ; final ClassNode annotation = new ClassNode ( GrailsPlugin_class ) ; final List < ? > list = classNode . getAnnotations ( annotation ) ; if ( ! list . isEmpty ( ) ) { return ; } final AnnotationNode annotationNode = new AnnotationNode ( annotation ) ; annotationNode . addMember ( "<STR_LIT:name>" , new ConstantExpression ( info . name ) ) ; annotationNode . addMember ( "<STR_LIT:version>" , new ConstantExpression ( info . version ) ) ; annotationNode . setRuntimeRetention ( true ) ; annotationNode . setClassRetention ( true ) ; classNode . addAnnotation ( annotationNode ) ; } else { if ( DEBUG ) { debug ( "<STR_LIT>" + classNode ) ; } } } catch ( Exception e ) { e . printStackTrace ( System . err ) ; broken = true ; } } } private boolean isFirstClassInModule ( ClassNode classNode ) { ModuleNode module = classNode . getModule ( ) ; if ( module != null ) { List < ClassNode > classes = module . getClasses ( ) ; if ( classes != null && classes . size ( ) > <NUM_LIT:0> ) { return classes . get ( <NUM_LIT:0> ) == classNode ; } } return false ; } public static PluginInfo getInfo ( IFile file ) { if ( file == null ) { return null ; } IPath path = file . getFullPath ( ) ; if ( path != null ) { if ( path . segmentCount ( ) > <NUM_LIT:3> ) { String link = path . segment ( <NUM_LIT:1> ) ; if ( link . equals ( "<STR_LIT>" ) ) { String pluginNameAndVersion = path . segment ( <NUM_LIT:2> ) ; int split = findVersionDash ( pluginNameAndVersion ) ; if ( split >= <NUM_LIT:0> ) { if ( "<STR_LIT:test>" . equals ( path . segment ( <NUM_LIT:3> ) ) ) { return null ; } else { return new PluginInfo ( pluginNameAndVersion . substring ( <NUM_LIT:0> , split ) , pluginNameAndVersion . substring ( split + <NUM_LIT:1> ) ) ; } } } } } return null ; } private static int findVersionDash ( String pluginNameAndVersion ) { int split = pluginNameAndVersion . lastIndexOf ( '<CHAR_LIT:->' ) ; if ( pluginNameAndVersion . endsWith ( "<STR_LIT>" ) ) { split = pluginNameAndVersion . lastIndexOf ( '<CHAR_LIT:->' , split - <NUM_LIT:1> ) ; } return split ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . util . Map ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . expr . ClassExpression ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . expr . ListExpression ; import org . codehaus . groovy . ast . expr . PropertyExpression ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . internal . compiler . impl . IntConstant ; import org . eclipse . jdt . internal . compiler . impl . StringConstant ; import org . eclipse . jdt . internal . compiler . lookup . AnnotationBinding ; import org . eclipse . jdt . internal . compiler . lookup . ArrayBinding ; import org . eclipse . jdt . internal . compiler . lookup . ElementValuePair ; import org . eclipse . jdt . internal . compiler . lookup . FieldBinding ; import org . eclipse . jdt . internal . compiler . lookup . MethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . TagBits ; import org . eclipse . jdt . internal . compiler . lookup . TypeBinding ; @ SuppressWarnings ( "<STR_LIT>" ) public class JDTAnnotationNode extends AnnotationNode { private static final char [ ] jlString = "<STR_LIT>" . toCharArray ( ) ; private static final char [ ] baseInt = "<STR_LIT:I>" . toCharArray ( ) ; private boolean membersInitialized = false ; private AnnotationBinding annotationBinding ; private JDTResolver resolver ; public JDTAnnotationNode ( AnnotationBinding annotationBinding , JDTResolver resolver ) { super ( new JDTClassNode ( annotationBinding . getAnnotationType ( ) , resolver ) ) ; this . annotationBinding = annotationBinding ; this . resolver = resolver ; } @ Override public void addMember ( String name , Expression value ) { throw new ImmutableException ( ) ; } @ Override public ClassNode getClassNode ( ) { return super . getClassNode ( ) ; } @ Override public Expression getMember ( String name ) { ensureMembersInitialized ( ) ; return super . getMember ( name ) ; } @ Override public Map < String , Expression > getMembers ( ) { ensureMembersInitialized ( ) ; return super . getMembers ( ) ; } @ Override public boolean hasClassRetention ( ) { return ( annotationBinding . getAnnotationType ( ) . tagBits & TagBits . AnnotationClassRetention ) == TagBits . AnnotationClassRetention ; } @ Override public boolean hasRuntimeRetention ( ) { return ( annotationBinding . getAnnotationType ( ) . tagBits & TagBits . AnnotationRuntimeRetention ) == TagBits . AnnotationRuntimeRetention ; } @ Override public boolean hasSourceRetention ( ) { return ( annotationBinding . getAnnotationType ( ) . tagBits & TagBits . AnnotationSourceRetention ) == TagBits . AnnotationSourceRetention ; } @ Override public boolean isBuiltIn ( ) { return super . isBuiltIn ( ) ; } @ Override public boolean isTargetAllowed ( int target ) { return super . isTargetAllowed ( target ) ; } @ Override public void setMember ( String name , Expression value ) { throw new ImmutableException ( ) ; } private void ensureMembersInitialized ( ) { if ( membersInitialized ) { return ; } membersInitialized = true ; ElementValuePair [ ] evpairs = annotationBinding . getElementValuePairs ( ) ; for ( ElementValuePair evpair : evpairs ) { char [ ] name = evpair . getName ( ) ; MethodBinding mb = evpair . binding ; Expression valueExpression = null ; if ( mb == null && ( evpair . value instanceof StringConstant ) ) { String v = ( ( StringConstant ) evpair . value ) . stringValue ( ) ; valueExpression = new ConstantExpression ( v ) ; } else { valueExpression = createExpressionFor ( mb . returnType , evpair . value ) ; } super . addMember ( new String ( name ) , valueExpression ) ; } } private Expression createExpressionFor ( TypeBinding b , Object value ) { if ( b . isArrayType ( ) ) { ListExpression listExpression = new ListExpression ( ) ; if ( value . getClass ( ) . isArray ( ) ) { Object [ ] values = ( Object [ ] ) value ; for ( Object v : values ) { listExpression . addExpression ( createExpressionFor ( ( ( ArrayBinding ) b ) . leafComponentType , v ) ) ; } } else { listExpression . addExpression ( createExpressionFor ( ( ( ArrayBinding ) b ) . leafComponentType , value ) ) ; } return listExpression ; } else if ( b . isEnum ( ) ) { ClassExpression classExpression = new ClassExpression ( resolver . convertToClassNode ( b ) ) ; Expression valueExpression = new PropertyExpression ( classExpression , new String ( ( ( FieldBinding ) value ) . name ) ) ; return valueExpression ; } else if ( CharOperation . equals ( b . signature ( ) , jlString ) ) { String v = ( ( StringConstant ) value ) . stringValue ( ) ; return new ConstantExpression ( v ) ; } else if ( b . isBaseType ( ) ) { char [ ] sig = b . signature ( ) ; if ( CharOperation . equals ( sig , baseInt ) ) { return new ConstantExpression ( ( ( IntConstant ) value ) . intValue ( ) ) ; } else { throw new GroovyEclipseBug ( "<STR_LIT>" + new String ( sig ) ) ; } } else if ( b . isClass ( ) ) { ClassExpression classExpression = new ClassExpression ( resolver . convertToClassNode ( ( TypeBinding ) value ) ) ; return classExpression ; } throw new GroovyEclipseBug ( "<STR_LIT>" + b + "<STR_LIT>" + value + "<STR_LIT:)>" ) ; } public JDTResolver getResolver ( ) { return resolver ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import groovy . lang . GroovyClassLoader ; import java . util . ArrayList ; import java . util . Collections ; import java . util . HashMap ; import java . util . HashSet ; import java . util . Iterator ; import java . util . List ; import java . util . Map ; import java . util . Set ; import java . util . Stack ; import java . util . StringTokenizer ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . GenericsType ; import org . codehaus . groovy . ast . InnerClassNode ; import org . codehaus . groovy . control . CompilationFailedException ; import org . codehaus . groovy . control . CompilationUnit ; import org . codehaus . groovy . control . ResolveVisitor ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyParser . GrapeAwareGroovyClassLoader ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . ast . Wildcard ; import org . eclipse . jdt . internal . compiler . lookup . ArrayBinding ; import org . eclipse . jdt . internal . compiler . lookup . BaseTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . BinaryTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . Binding ; import org . eclipse . jdt . internal . compiler . lookup . MethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . ParameterizedMethodBinding ; import org . eclipse . jdt . internal . compiler . lookup . ReferenceBinding ; import org . eclipse . jdt . internal . compiler . lookup . SourceTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeIds ; import org . eclipse . jdt . internal . compiler . lookup . TypeVariableBinding ; import org . eclipse . jdt . internal . compiler . lookup . WildcardBinding ; @ SuppressWarnings ( "<STR_LIT>" ) public class JDTResolver extends ResolveVisitor { private static final int BOOLEAN_LENGTH = "<STR_LIT:boolean>" . length ( ) ; private static final boolean debug = false ; private static Map < String , ClassNode > commonTypes = new HashMap < String , ClassNode > ( ) ; public static boolean recordInstances = false ; public static List < JDTResolver > instances = null ; static { commonTypes . put ( "<STR_LIT>" , ClassHelper . OBJECT_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . STRING_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . CLASS_Type ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . Boolean_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . Byte_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . Character_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . Double_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . Float_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . Integer_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . Long_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . Short_TYPE ) ; commonTypes . put ( "<STR_LIT:boolean>" , ClassHelper . boolean_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . byte_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . char_TYPE ) ; commonTypes . put ( "<STR_LIT:double>" , ClassHelper . double_TYPE ) ; commonTypes . put ( "<STR_LIT:float>" , ClassHelper . float_TYPE ) ; commonTypes . put ( "<STR_LIT:int>" , ClassHelper . int_TYPE ) ; commonTypes . put ( "<STR_LIT:long>" , ClassHelper . long_TYPE ) ; commonTypes . put ( "<STR_LIT>" , ClassHelper . short_TYPE ) ; } private Stack < GenericsType [ ] > memberGenericsCurrentlyActive = new Stack < GenericsType [ ] > ( ) ; private Stack < GenericsType [ ] > typeGenericsCurrentlyActive = new Stack < GenericsType [ ] > ( ) ; void pushMemberGenerics ( GenericsType [ ] generics ) { memberGenericsCurrentlyActive . push ( generics ) ; } void popMemberGenerics ( ) { memberGenericsCurrentlyActive . pop ( ) ; } public void pushTypeGenerics ( GenericsType [ ] genericsTypes ) { typeGenericsCurrentlyActive . push ( genericsTypes ) ; } public void popTypeGenerics ( ) { typeGenericsCurrentlyActive . pop ( ) ; } private Map < TypeBinding , JDTClassNode > inProgress = new HashMap < TypeBinding , JDTClassNode > ( ) ; private Stack < JDTClassNode > inProgressStack = new Stack < JDTClassNode > ( ) ; private GroovyCompilationUnitScope activeScope = null ; private Map < ClassNode , GroovyTypeDeclaration > scopes = new HashMap < ClassNode , GroovyTypeDeclaration > ( ) ; private List < ClassNode > haveBeenResolved = new ArrayList < ClassNode > ( ) ; private Map < Binding , JDTClassNode > nodeCache = Collections . synchronizedMap ( new HashMap < Binding , JDTClassNode > ( ) ) ; public JDTResolver ( CompilationUnit groovyCompilationUnit ) { super ( groovyCompilationUnit ) ; if ( recordInstances ) { if ( instances == null ) { instances = new ArrayList < JDTResolver > ( ) ; } instances . add ( this ) ; } } public JDTClassNode getCachedNode ( String name ) { for ( Map . Entry < Binding , JDTClassNode > nodeFromCache : nodeCache . entrySet ( ) ) { String nodename = new String ( nodeFromCache . getKey ( ) . readableName ( ) ) ; if ( nodename . equals ( name ) ) { return nodeFromCache . getValue ( ) ; } } return null ; } @ Override protected boolean resolveFromModule ( ClassNode type , boolean testModuleImports ) { boolean foundit = super . resolveFromModule ( type , testModuleImports ) ; recordDependency ( type . getName ( ) ) ; if ( debug ) { log ( "<STR_LIT>" , type , foundit ) ; } return foundit ; } @ Override protected boolean resolveFromCompileUnit ( ClassNode type ) { boolean foundit = super . resolveFromCompileUnit ( type ) ; recordDependency ( type . getName ( ) ) ; if ( debug ) { log ( "<STR_LIT>" , type , foundit ) ; } if ( foundit ) { return true ; } String typename = type . getName ( ) ; ClassNode node = getScope ( ) . lookupClassNodeForSource ( typename , this ) ; if ( debug ) { log ( "<STR_LIT>" , type , node != null ) ; } if ( node != null ) { type . setRedirect ( node ) ; return true ; } else { return false ; } } @ Override protected boolean resolveFromDefaultImports ( ClassNode type , boolean testDefaultImports ) { boolean foundit = super . resolveFromDefaultImports ( type , testDefaultImports ) ; if ( activeScope != null ) { boolean b = testDefaultImports & ! type . hasPackageName ( ) ; b &= ! ( type instanceof LowerCaseClass ) ; if ( b ) { String extraImports = activeScope . compilerOptions ( ) . groovyExtraImports ; if ( extraImports != null ) { try { String filename = new String ( activeScope . referenceContext . getFileName ( ) ) ; StringTokenizer st = new StringTokenizer ( extraImports , "<STR_LIT:;>" ) ; while ( st . hasMoreTokens ( ) ) { String onesuffix = st . nextToken ( ) ; int equals = onesuffix . indexOf ( '<CHAR_LIT:=>' ) ; boolean shouldApply = false ; String imports = null ; if ( equals == - <NUM_LIT:1> ) { shouldApply = true ; imports = onesuffix ; } else { String suffix = onesuffix . substring ( <NUM_LIT:0> , equals ) ; shouldApply = filename . endsWith ( suffix ) ; imports = onesuffix . substring ( equals + <NUM_LIT:1> ) ; } StringTokenizer st2 = new StringTokenizer ( imports , "<STR_LIT:U+002C>" ) ; while ( st2 . hasMoreTokens ( ) ) { String nextElement = st2 . nextToken ( ) ; if ( nextElement . endsWith ( "<STR_LIT>" ) ) { String withoutStar = nextElement . substring ( <NUM_LIT:0> , nextElement . length ( ) - <NUM_LIT:1> ) ; ConstructedClassWithPackage tmp = new ConstructedClassWithPackage ( withoutStar , type . getName ( ) ) ; if ( resolve ( tmp , false , false , false ) ) { type . setRedirect ( tmp . redirect ( ) ) ; return true ; } } else { String importedTypeName = nextElement ; if ( importedTypeName . endsWith ( type . getName ( ) ) ) { int lastdot = importedTypeName . lastIndexOf ( '<CHAR_LIT:.>' ) ; String importTypeNameChopped = importedTypeName . substring ( <NUM_LIT:0> , lastdot + <NUM_LIT:1> ) ; ConstructedClassWithPackage tmp = new ConstructedClassWithPackage ( importTypeNameChopped , type . getName ( ) ) ; if ( resolve ( tmp , false , false , false ) ) { type . setRedirect ( tmp . redirect ( ) ) ; return true ; } } } } } } catch ( Exception e ) { new RuntimeException ( "<STR_LIT>" + extraImports , e ) . printStackTrace ( ) ; } } } } recordDependency ( type . getName ( ) ) ; if ( debug ) { log ( "<STR_LIT>" , type , foundit ) ; } return foundit ; } @ Override protected boolean resolveFromStaticInnerClasses ( ClassNode type , boolean testStaticInnerClasses ) { boolean foundit = super . resolveFromStaticInnerClasses ( type , testStaticInnerClasses ) ; recordDependency ( type . getName ( ) ) ; if ( debug ) { log ( "<STR_LIT>" , type , foundit ) ; } return foundit ; } @ Override protected boolean resolveFromClassCache ( ClassNode type ) { return false ; } protected boolean resolveToOuter ( ClassNode type ) { return resolveToClass ( type ) ; } protected boolean resolveToClass ( ClassNode type ) { String typename = type . getName ( ) ; ClassNode node = getScope ( ) . lookupClassNodeForBinary ( typename , this ) ; if ( debug ) { log ( "<STR_LIT>" , type , node != null ) ; } if ( node != null ) { type . setRedirect ( node ) ; return true ; } GroovyClassLoader loader = compilationUnit . getClassLoader ( ) ; if ( loader instanceof GrapeAwareGroovyClassLoader ) { GrapeAwareGroovyClassLoader gagc = ( GrapeAwareGroovyClassLoader ) loader ; if ( gagc . grabbed ) { Class < ? > cls ; try { cls = loader . loadClass ( type . getName ( ) , false , true ) ; } catch ( ClassNotFoundException cnfe ) { return false ; } catch ( CompilationFailedException cfe ) { return false ; } if ( cls == null ) { return false ; } node = ClassHelper . make ( cls ) ; type . setRedirect ( node ) ; return true ; } } return false ; } @ Override protected boolean resolveToScript ( ClassNode type ) { return false ; } private Set < String > unresolvables = new HashSet < String > ( ) ; @ Override protected boolean resolve ( ClassNode type , boolean testModuleImports , boolean testDefaultImports , boolean testStaticInnerClasses ) { String name = type . getName ( ) ; if ( name . charAt ( <NUM_LIT:0> ) == '<CHAR_LIT>' \|\| name . length ( ) <= BOOLEAN_LENGTH ) { ClassNode commonRedirect = commonTypes . get ( type . getName ( ) ) ; if ( commonRedirect != null ) { type . setRedirect ( commonRedirect ) ; return true ; } } if ( unresolvables . contains ( name ) ) { return false ; } else { boolean b = super . resolve ( type , testModuleImports , testDefaultImports , testStaticInnerClasses ) ; if ( ! b ) { unresolvables . add ( name ) ; } return b ; } } public ClassNode resolve ( String qualifiedName ) { ClassNode type = ClassHelper . makeWithoutCaching ( qualifiedName ) ; if ( super . resolve ( type ) ) { return type . redirect ( ) ; } else { return ClassHelper . DYNAMIC_TYPE ; } } @ Override protected boolean resolveToInnerEnum ( ClassNode type ) { if ( existsAsInnerClass ( type ) ) { return super . resolveToInnerEnum ( type ) ; } return false ; } @ Override protected boolean resolveToInner ( ClassNode type ) { if ( existsAsInnerClass ( type ) ) { return super . resolveToInner ( type ) ; } return false ; } private boolean existsAsInnerClass ( ClassNode type ) { Iterator < InnerClassNode > innerClasses = currentClass . getInnerClasses ( ) ; if ( innerClasses != null ) { while ( innerClasses . hasNext ( ) ) { InnerClassNode innerClass = innerClasses . next ( ) ; if ( innerClass . getName ( ) . equals ( type . getName ( ) ) ) { return true ; } } } return false ; } private void recordDependency ( String typename ) { GroovyCompilationUnitScope gcuScope = getScope ( ) ; if ( typename . indexOf ( "<STR_LIT:.>" ) != - <NUM_LIT:1> ) { gcuScope . recordQualifiedReference ( CharOperation . splitOn ( '<CHAR_LIT:.>' , typename . toCharArray ( ) ) ) ; } else { gcuScope . recordSimpleReference ( typename . toCharArray ( ) ) ; } } ClassNode convertToClassNode ( TypeBinding jdtBinding ) { if ( inProgress . containsKey ( jdtBinding ) ) { return inProgress . get ( jdtBinding ) ; } JDTClassNode existingNode = nodeCache . get ( jdtBinding ) ; if ( existingNode != null ) { if ( debug ) { log ( "<STR_LIT>" + new String ( jdtBinding . readableName ( ) ) ) ; } return existingNode ; } if ( debug ) { log ( "<STR_LIT>" + new String ( jdtBinding . readableName ( ) ) ) ; } ClassNode jdtNode = createJDTClassNode ( jdtBinding ) ; return jdtNode ; } private ClassNode createJDTClassNode ( TypeBinding jdtBinding ) { ClassNode classNode = createClassNode ( jdtBinding ) ; if ( classNode instanceof JDTClassNode ) { JDTClassNode jdtNode = ( JDTClassNode ) classNode ; inProgress . put ( jdtBinding , jdtNode ) ; inProgressStack . push ( jdtNode ) ; jdtNode . setupGenerics ( ) ; inProgressStack . pop ( ) ; inProgress . remove ( jdtBinding ) ; nodeCache . put ( jdtBinding , jdtNode ) ; } return classNode ; } private ClassNode createClassNode ( TypeBinding jdtTypeBinding ) { if ( jdtTypeBinding instanceof WildcardBinding ) { return createClassNodeForWildcardBinding ( ( WildcardBinding ) jdtTypeBinding ) ; } else if ( jdtTypeBinding instanceof BaseTypeBinding ) { return createClassNodeForPrimitiveBinding ( ( BaseTypeBinding ) jdtTypeBinding ) ; } else if ( jdtTypeBinding instanceof ArrayBinding ) { return createClassNodeForArrayBinding ( ( ArrayBinding ) jdtTypeBinding ) ; } else if ( jdtTypeBinding instanceof TypeVariableBinding ) { String typeVariableName = new String ( jdtTypeBinding . sourceName ( ) ) ; TypeVariableBinding typeVariableBinding = ( TypeVariableBinding ) jdtTypeBinding ; if ( typeVariableBinding . declaringElement instanceof SourceTypeBinding ) { GenericsType [ ] genericTypes = typeGenericsCurrentlyActive . peek ( ) ; GenericsType matchingGenericType = findMatchingGenericType ( genericTypes , typeVariableName ) ; if ( matchingGenericType != null ) { ClassNode newNode = ClassHelper . makeWithoutCaching ( typeVariableName ) ; newNode . setRedirect ( matchingGenericType . getType ( ) ) ; newNode . setGenericsTypes ( new GenericsType [ ] { matchingGenericType } ) ; newNode . setGenericsPlaceHolder ( true ) ; return newNode ; } if ( typeVariableBinding . firstBound == null ) { return ClassHelper . OBJECT_TYPE ; } else { return convertToClassNode ( typeVariableBinding . firstBound ) ; } } else if ( typeVariableBinding . declaringElement instanceof BinaryTypeBinding ) { GenericsType [ ] genericTypes = convertToClassNode ( ( ( BinaryTypeBinding ) typeVariableBinding . declaringElement ) ) . getGenericsTypes ( ) ; GenericsType matchingGenericType = findMatchingGenericType ( genericTypes , typeVariableName ) ; if ( matchingGenericType != null ) { ClassNode newNode = ClassHelper . makeWithoutCaching ( typeVariableName ) ; ClassNode [ ] upper = matchingGenericType . getUpperBounds ( ) ; if ( upper != null && upper . length > <NUM_LIT:0> ) { newNode . setRedirect ( upper [ <NUM_LIT:0> ] ) ; } else { newNode . setRedirect ( matchingGenericType . getType ( ) ) ; } newNode . setGenericsTypes ( new GenericsType [ ] { matchingGenericType } ) ; newNode . setGenericsPlaceHolder ( true ) ; return newNode ; } throw new GroovyEclipseBug ( "<STR_LIT>" + typeVariableBinding . declaringElement ) ; } else if ( typeVariableBinding . declaringElement instanceof ParameterizedMethodBinding \|\| typeVariableBinding . declaringElement instanceof MethodBinding ) { GenericsType [ ] genericTypes = memberGenericsCurrentlyActive . peek ( ) ; GenericsType matchingGenericType = findMatchingGenericType ( genericTypes , typeVariableName ) ; if ( matchingGenericType != null ) { ClassNode newNode = ClassHelper . makeWithoutCaching ( typeVariableName ) ; newNode . setRedirect ( matchingGenericType . getType ( ) ) ; newNode . setGenericsTypes ( new GenericsType [ ] { matchingGenericType } ) ; newNode . setGenericsPlaceHolder ( true ) ; return newNode ; } throw new GroovyEclipseBug ( "<STR_LIT>" + typeVariableBinding . declaringElement ) ; } throw new GroovyEclipseBug ( "<STR_LIT>" + typeVariableBinding . declaringElement ) ; } else if ( jdtTypeBinding instanceof ReferenceBinding ) { if ( jdtTypeBinding . id == TypeIds . T_JavaLangObject ) { return ClassHelper . OBJECT_TYPE ; } return new JDTClassNode ( ( ReferenceBinding ) jdtTypeBinding , this ) ; } else { throw new GroovyEclipseBug ( "<STR_LIT>" + jdtTypeBinding . getClass ( ) ) ; } } private GenericsType findMatchingGenericType ( GenericsType [ ] genericTypes , String typeVariableName ) { if ( genericTypes != null ) { for ( GenericsType genericType : genericTypes ) { if ( genericType . getName ( ) . equals ( typeVariableName ) ) { return genericType ; } } } return null ; } ClassNode createClassNodeForArrayBinding ( ArrayBinding arrayBinding ) { int dims = arrayBinding . dimensions ; ClassNode classNode = convertToClassNode ( arrayBinding . leafComponentType ) ; while ( dims > <NUM_LIT:0> ) { classNode = new ClassNode ( classNode ) ; dims -- ; } return classNode ; } ClassNode createClassNodeForPrimitiveBinding ( BaseTypeBinding jdtBinding ) { switch ( jdtBinding . id ) { case TypeIds . T_boolean : return ClassHelper . boolean_TYPE ; case TypeIds . T_char : return ClassHelper . char_TYPE ; case TypeIds . T_byte : return ClassHelper . byte_TYPE ; case TypeIds . T_short : return ClassHelper . short_TYPE ; case TypeIds . T_int : return ClassHelper . int_TYPE ; case TypeIds . T_long : return ClassHelper . long_TYPE ; case TypeIds . T_double : return ClassHelper . double_TYPE ; case TypeIds . T_float : return ClassHelper . float_TYPE ; case TypeIds . T_void : return ClassHelper . VOID_TYPE ; default : throw new GroovyEclipseBug ( "<STR_LIT>" + jdtBinding ) ; } } private ClassNode [ ] convertToClassNodes ( TypeBinding [ ] typeBindings ) { if ( typeBindings . length == <NUM_LIT:0> ) { return null ; } ClassNode [ ] nodes = new ClassNode [ typeBindings . length ] ; for ( int i = <NUM_LIT:0> ; i < typeBindings . length ; i ++ ) { nodes [ i ] = convertToClassNode ( typeBindings [ i ] ) ; } return nodes ; } private ClassNode createClassNodeForWildcardBinding ( WildcardBinding wildcardBinding ) { ClassNode base = ClassHelper . makeWithoutCaching ( "<STR_LIT:?>" ) ; ClassNode lowerBound = null ; ClassNode [ ] allUppers = null ; if ( wildcardBinding . boundKind == Wildcard . EXTENDS ) { ClassNode firstUpper = convertToClassNode ( wildcardBinding . bound ) ; ClassNode [ ] otherUppers = ( wildcardBinding . otherBounds == null ? null : convertToClassNodes ( wildcardBinding . otherBounds ) ) ; if ( otherUppers == null ) { allUppers = new ClassNode [ ] { firstUpper } ; } else { allUppers = new ClassNode [ otherUppers . length + <NUM_LIT:1> ] ; System . arraycopy ( otherUppers , <NUM_LIT:0> , allUppers , <NUM_LIT:1> , otherUppers . length ) ; allUppers [ <NUM_LIT:0> ] = firstUpper ; } } else if ( wildcardBinding . boundKind == Wildcard . SUPER ) { lowerBound = convertToClassNode ( wildcardBinding . bound ) ; } else { assert ( wildcardBinding . boundKind == Wildcard . UNBOUND ) ; return JDTClassNode . unboundWildcard ; } GenericsType t = new GenericsType ( base , allUppers , lowerBound ) ; t . setWildcard ( true ) ; ClassNode ref = ClassHelper . makeWithoutCaching ( Object . class , false ) ; ref . setGenericsTypes ( new GenericsType [ ] { t } ) ; return ref ; } @ Override protected boolean commencingResolution ( ) { GroovyTypeDeclaration gtDeclaration = scopes . get ( this . currentClass ) ; if ( gtDeclaration == null ) { if ( haveBeenResolved . contains ( currentClass ) ) { return false ; } GroovyEclipseBug geb = new GroovyEclipseBug ( "<STR_LIT>" + currentClass ) ; geb . printStackTrace ( ) ; throw geb ; } activeScope = null ; if ( gtDeclaration . scope == null ) { if ( gtDeclaration . hasErrors ( ) ) { return false ; } GroovyEclipseBug geb = new GroovyEclipseBug ( "<STR_LIT>" + currentClass . getName ( ) ) ; geb . printStackTrace ( ) ; throw geb ; } activeScope = ( GroovyCompilationUnitScope ) gtDeclaration . scope . compilationUnitScope ( ) ; if ( debug ) { System . err . println ( "<STR_LIT>" + this . currentClass . getName ( ) ) ; } return true ; } @ Override protected void finishedResolution ( ) { scopes . remove ( this . currentClass ) ; haveBeenResolved . add ( currentClass ) ; unresolvables . clear ( ) ; } private GroovyCompilationUnitScope getScope ( ) { return activeScope ; } private void log ( String string ) { System . err . println ( "<STR_LIT>" + string ) ; } public void record ( GroovyTypeDeclaration gtDeclaration ) { scopes . put ( gtDeclaration . getClassNode ( ) , gtDeclaration ) ; if ( gtDeclaration . memberTypes != null ) { TypeDeclaration [ ] members = gtDeclaration . memberTypes ; for ( int m = <NUM_LIT:0> ; m < members . length ; m ++ ) { record ( ( GroovyTypeDeclaration ) members [ m ] ) ; } } } private void log ( String string , ClassNode type , boolean foundit ) { System . err . println ( "<STR_LIT>" + string + "<STR_LIT:U+0020>" + type . getName ( ) + "<STR_LIT>" + foundit ) ; } public void startResolving ( ClassNode node , SourceUnit source ) { try { super . startResolving ( node , source ) ; unresolvables . clear ( ) ; } catch ( AbortResolutionException are ) { } } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . GenericsType ; import org . eclipse . jdt . internal . compiler . lookup . TypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeVariableBinding ; @ SuppressWarnings ( "<STR_LIT>" ) public class LazyGenericsType extends GenericsType { private boolean initialized = false ; private TypeVariableBinding tvBinding ; private JDTResolver resolver ; public LazyGenericsType ( TypeVariableBinding typeVariableBinding , JDTResolver jdtResolver ) { this . tvBinding = typeVariableBinding ; this . resolver = jdtResolver ; this . name = new String ( typeVariableBinding . sourceName ) ; this . placeholder = true ; } @ Override public ClassNode getLowerBound ( ) { ensureInitialized ( ) ; return lowerBound ; } @ Override public ClassNode getType ( ) { ensureInitialized ( ) ; return type ; } @ Override public ClassNode [ ] getUpperBounds ( ) { ensureInitialized ( ) ; return upperBounds ; } @ Override public boolean isResolved ( ) { return true ; } @ Override public boolean isWildcard ( ) { return false ; } @ Override public void setLowerBound ( ClassNode bound ) { throw new ImmutableException ( ) ; } @ Override public void setName ( String name ) { throw new ImmutableException ( ) ; } @ Override public void setPlaceholder ( boolean placeholder ) { throw new ImmutableException ( ) ; } @ Override public void setResolved ( boolean res ) { throw new ImmutableException ( ) ; } @ Override public void setType ( ClassNode type ) { throw new ImmutableException ( ) ; } @ Override public void setUpperBounds ( ClassNode [ ] bounds ) { throw new ImmutableException ( ) ; } @ Override public void setWildcard ( boolean wildcard ) { throw new ImmutableException ( ) ; } @ Override public String toString ( ) { if ( ! initialized ) { return "<STR_LIT>" + tvBinding ; } else { return super . toString ( ) ; } } private void ensureInitialized ( ) { if ( ! initialized ) { ClassNode cn = ClassHelper . makeWithoutCaching ( name ) ; cn . setGenericsPlaceHolder ( true ) ; ClassNode cn2 = ClassHelper . makeWithoutCaching ( name ) ; cn2 . setGenericsPlaceHolder ( true ) ; GenericsType [ ] gts = new GenericsType [ ] { new GenericsType ( cn2 ) } ; cn . setGenericsTypes ( gts ) ; cn . setRedirect ( ClassHelper . OBJECT_TYPE ) ; type = cn ; if ( tvBinding . firstBound == null ) { type = ClassHelper . OBJECT_TYPE ; } else { ClassNode firstBoundType = resolver . convertToClassNode ( tvBinding . firstBound ) ; TypeBinding [ ] otherUpperBounds = tvBinding . otherUpperBounds ( ) ; if ( otherUpperBounds . length == <NUM_LIT:0> ) { upperBounds = new ClassNode [ ] { firstBoundType } ; } else { ClassNode [ ] nodes = new ClassNode [ <NUM_LIT:1> + otherUpperBounds . length ] ; int idx = <NUM_LIT:0> ; nodes [ idx ++ ] = firstBoundType ; for ( TypeBinding typeBinding : otherUpperBounds ) { nodes [ idx ++ ] = resolver . convertToClassNode ( typeBinding ) ; } upperBounds = nodes ; } } lowerBound = null ; initialized = true ; } } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; import java . util . ArrayList ; import java . util . HashMap ; import java . util . List ; import java . util . Map ; import java . util . StringTokenizer ; import org . codehaus . groovy . ast . ClassNode ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . ast . ImportReference ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . ast . TypeReference ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . lookup . BinaryTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . Binding ; import org . eclipse . jdt . internal . compiler . lookup . ClassScope ; import org . eclipse . jdt . internal . compiler . lookup . CompilationUnitScope ; import org . eclipse . jdt . internal . compiler . lookup . ImportBinding ; import org . eclipse . jdt . internal . compiler . lookup . LookupEnvironment ; import org . eclipse . jdt . internal . compiler . lookup . PackageBinding ; import org . eclipse . jdt . internal . compiler . lookup . ProblemReasons ; import org . eclipse . jdt . internal . compiler . lookup . ProblemReferenceBinding ; import org . eclipse . jdt . internal . compiler . lookup . ReferenceBinding ; import org . eclipse . jdt . internal . compiler . lookup . Scope ; import org . eclipse . jdt . internal . compiler . lookup . SourceTypeBinding ; import org . eclipse . jdt . internal . compiler . lookup . TypeBinding ; import org . eclipse . jdt . internal . compiler . problem . AbortCompilation ; import org . eclipse . jdt . internal . core . builder . AbortIncrementalBuildException ; @ SuppressWarnings ( "<STR_LIT>" ) public class GroovyCompilationUnitScope extends CompilationUnitScope { private Map < String , ClassNode > typenameToClassNodeCache = new HashMap < String , ClassNode > ( ) ; private static final char [ ] [ ] javaLang ; private static final char [ ] [ ] javaIo ; private static final char [ ] [ ] javaNet ; private static final char [ ] [ ] javaUtil ; private static final char [ ] [ ] groovyLang ; private static final char [ ] [ ] groovyUtil ; private static final char [ ] [ ] javaMathBigDecimal ; private static final char [ ] [ ] javaMathBigInteger ; static { javaLang = CharOperation . splitOn ( '<CHAR_LIT:.>' , "<STR_LIT>" . toCharArray ( ) ) ; javaIo = CharOperation . splitOn ( '<CHAR_LIT:.>' , "<STR_LIT>" . toCharArray ( ) ) ; javaNet = CharOperation . splitOn ( '<CHAR_LIT:.>' , "<STR_LIT>" . toCharArray ( ) ) ; javaUtil = CharOperation . splitOn ( '<CHAR_LIT:.>' , "<STR_LIT>" . toCharArray ( ) ) ; groovyLang = CharOperation . splitOn ( '<CHAR_LIT:.>' , "<STR_LIT>" . toCharArray ( ) ) ; groovyUtil = CharOperation . splitOn ( '<CHAR_LIT:.>' , "<STR_LIT>" . toCharArray ( ) ) ; javaMathBigDecimal = CharOperation . splitOn ( '<CHAR_LIT:.>' , "<STR_LIT>" . toCharArray ( ) ) ; javaMathBigInteger = CharOperation . splitOn ( '<CHAR_LIT:.>' , "<STR_LIT>" . toCharArray ( ) ) ; } private final static char [ ] GROOVY = "<STR_LIT>" . toCharArray ( ) ; private final static char [ ] LANG = "<STR_LIT>" . toCharArray ( ) ; private final static char [ ] [ ] GROOVY_LANG_GROOVYOBJECT = { GROOVY , LANG , "<STR_LIT>" . toCharArray ( ) } ; private boolean isScript = false ; public GroovyCompilationUnitScope ( GroovyCompilationUnitDeclaration compilationUnitDeclaration , LookupEnvironment lookupEnvironment ) { super ( compilationUnitDeclaration , lookupEnvironment ) ; } @ Override protected ImportBinding [ ] getDefaultImports ( ) { ImportBinding [ ] defaultImports = super . getDefaultImports ( ) ; List < ImportBinding > importBindings = new ArrayList < ImportBinding > ( ) ; importBindings . add ( defaultImports [ <NUM_LIT:0> ] ) ; Binding importBinding = environment . createPackage ( javaIo ) ; importBindings . add ( new ImportBinding ( javaIo , true , importBinding , null ) ) ; importBinding = environment . createPackage ( javaNet ) ; importBindings . add ( new ImportBinding ( javaNet , true , importBinding , null ) ) ; importBinding = environment . createPackage ( javaUtil ) ; importBindings . add ( new ImportBinding ( javaUtil , true , importBinding , null ) ) ; importBinding = environment . createPackage ( groovyLang ) ; importBindings . add ( new ImportBinding ( groovyLang , true , importBinding , null ) ) ; importBinding = environment . createPackage ( groovyUtil ) ; importBindings . add ( new ImportBinding ( groovyUtil , true , importBinding , null ) ) ; Binding jmBigDecimal = environment . getType ( javaMathBigDecimal ) ; importBindings . add ( new ImportBinding ( javaMathBigDecimal , false , jmBigDecimal , null ) ) ; Binding jmBigInteger = environment . getType ( javaMathBigInteger ) ; importBindings . add ( new ImportBinding ( javaMathBigInteger , false , jmBigInteger , null ) ) ; CompilerOptions co = compilerOptions ( ) ; String extraImports = co . groovyExtraImports ; if ( extraImports != null ) { try { String filename = new String ( this . referenceContext . getFileName ( ) ) ; StringTokenizer st = new StringTokenizer ( extraImports , "<STR_LIT:;>" ) ; while ( st . hasMoreTokens ( ) ) { String onesuffix = st . nextToken ( ) ; int equals = onesuffix . indexOf ( '<CHAR_LIT:=>' ) ; boolean shouldApply = false ; String imports = null ; if ( equals == - <NUM_LIT:1> ) { shouldApply = true ; imports = onesuffix ; } else { String suffix = onesuffix . substring ( <NUM_LIT:0> , equals ) ; shouldApply = filename . endsWith ( suffix ) ; imports = onesuffix . substring ( equals + <NUM_LIT:1> ) ; } StringTokenizer st2 = new StringTokenizer ( imports , "<STR_LIT:U+002C>" ) ; while ( st2 . hasMoreTokens ( ) ) { String nextElement = st2 . nextToken ( ) ; if ( nextElement . endsWith ( "<STR_LIT>" ) ) { char [ ] withoutDotStar = nextElement . substring ( <NUM_LIT:0> , nextElement . length ( ) - <NUM_LIT:2> ) . toCharArray ( ) ; char [ ] [ ] cs = CharOperation . splitOn ( '<CHAR_LIT:.>' , withoutDotStar ) ; importBinding = environment . createPackage ( cs ) ; importBindings . add ( new ImportBinding ( cs , true , importBinding , null ) ) ; } else { char [ ] type = nextElement . toCharArray ( ) ; char [ ] [ ] cs = CharOperation . splitOn ( '<CHAR_LIT:.>' , type ) ; Binding typeBinding = environment . getType ( cs ) ; importBindings . add ( new ImportBinding ( cs , false , typeBinding , null ) ) ; } } } } catch ( Exception e ) { new RuntimeException ( "<STR_LIT>" + extraImports , e ) . printStackTrace ( ) ; } } return importBindings . toArray ( new ImportBinding [ importBindings . size ( ) ] ) ; } @ Override protected ClassScope buildClassScope ( Scope parent , TypeDeclaration typeDecl ) { return new GroovyClassScope ( parent , typeDecl ) ; } @ Override public void augmentTypeHierarchy ( ) { for ( int i = <NUM_LIT:0> , length = topLevelTypes . length ; i < length ; i ++ ) { augmentTypeHierarchy ( topLevelTypes [ i ] ) ; } } private void augmentTypeHierarchy ( SourceTypeBinding typeBinding ) { if ( typeBinding . isAnnotationType ( ) \|\| typeBinding . isInterface ( ) ) { return ; } ReferenceBinding groovyLangObjectBinding = getGroovyLangObjectBinding ( ) ; if ( ! typeBinding . implementsInterface ( groovyLangObjectBinding , true ) ) { ReferenceBinding [ ] superInterfaceBindings = typeBinding . superInterfaces ; if ( superInterfaceBindings != null ) { int count = superInterfaceBindings . length ; System . arraycopy ( superInterfaceBindings , <NUM_LIT:0> , superInterfaceBindings = new ReferenceBinding [ count + <NUM_LIT:1> ] , <NUM_LIT:0> , count ) ; superInterfaceBindings [ count ] = groovyLangObjectBinding ; typeBinding . superInterfaces = superInterfaceBindings ; } } } private final ReferenceBinding getGroovyLangObjectBinding ( ) { CompilationUnitScope unitScope = compilationUnitScope ( ) ; unitScope . recordQualifiedReference ( GROOVY_LANG_GROOVYOBJECT ) ; return unitScope . environment . getResolvedType ( GROOVY_LANG_GROOVYOBJECT , this ) ; } public ClassNode lookupClassNodeForSource ( String typename , JDTResolver jdtResolver ) { ClassNode node = typenameToClassNodeCache . get ( typename ) ; if ( node != null ) { return node ; } char [ ] [ ] compoundName = CharOperation . splitOn ( '<CHAR_LIT:.>' , typename . toCharArray ( ) ) ; TypeBinding jdtBinding = null ; try { jdtBinding = getType ( compoundName , compoundName . length ) ; } catch ( AbortCompilation t ) { if ( t . silentException instanceof AbortIncrementalBuildException ) { jdtBinding = null ; } else { throw t ; } } if ( jdtBinding != null ) { if ( jdtBinding instanceof SourceTypeBinding ) { ClassNode classNode = jdtResolver . convertToClassNode ( jdtBinding ) ; if ( classNode != null ) { typenameToClassNodeCache . put ( typename , classNode ) ; } return classNode ; } else if ( jdtBinding instanceof BinaryTypeBinding ) { ClassNode newNode = jdtResolver . convertToClassNode ( jdtBinding ) ; if ( newNode != null ) { typenameToClassNodeCache . put ( typename , newNode ) ; } return newNode ; } } if ( jdtBinding != null && ( jdtBinding instanceof ProblemReferenceBinding ) ) { ProblemReferenceBinding prBinding = ( ProblemReferenceBinding ) jdtBinding ; if ( prBinding . problemId ( ) == ProblemReasons . InternalNameProvided ) { jdtBinding = prBinding . closestMatch ( ) ; if ( jdtBinding != null && ( jdtBinding instanceof SourceTypeBinding ) ) { return jdtResolver . convertToClassNode ( jdtBinding ) ; } if ( jdtBinding != null && ( jdtBinding instanceof BinaryTypeBinding ) ) { return jdtResolver . convertToClassNode ( jdtBinding ) ; } } } return null ; } public ClassNode lookupClassNodeForBinary ( String typename , JDTResolver jdtResolver ) { char [ ] [ ] compoundName = CharOperation . splitOn ( '<CHAR_LIT:.>' , typename . toCharArray ( ) ) ; TypeBinding jdtBinding = getType ( compoundName , compoundName . length ) ; if ( jdtBinding != null && ( jdtBinding instanceof BinaryTypeBinding ) ) { ClassNode classNode = jdtResolver . convertToClassNode ( jdtBinding ) ; return classNode ; } if ( jdtBinding != null && ( jdtBinding instanceof ProblemReferenceBinding ) ) { ProblemReferenceBinding prBinding = ( ProblemReferenceBinding ) jdtBinding ; if ( prBinding . problemId ( ) == ProblemReasons . InternalNameProvided ) { jdtBinding = prBinding . closestMatch ( ) ; if ( jdtBinding != null && ( jdtBinding instanceof BinaryTypeBinding ) ) { return jdtResolver . convertToClassNode ( jdtBinding ) ; } } } return null ; } @ Override protected void checkPublicTypeNameMatchesFilename ( TypeDeclaration typeDecl ) { } @ Override protected void recordImportProblem ( ImportReference importReference , Binding importBinding ) { } @ Override protected boolean reportPackageIsNotExpectedPackage ( CompilationUnitDeclaration compUnitDecl ) { if ( compUnitDecl != null && compUnitDecl . compilationResult != null && compUnitDecl . compilationResult . compilationUnit != null ) { char [ ] [ ] packageName = compUnitDecl . compilationResult . compilationUnit . getPackageName ( ) ; String shouldBe = packageName == null ? "<STR_LIT>" : CharOperation . toString ( packageName ) ; String actuallyIs = compUnitDecl . currentPackage == null ? "<STR_LIT>" : CharOperation . toString ( compUnitDecl . currentPackage . tokens ) ; if ( actuallyIs . length ( ) > <NUM_LIT:0> && ! shouldBe . equals ( actuallyIs ) ) { problemReporter ( ) . packageIsNotExpectedPackage ( compUnitDecl ) ; return true ; } } return false ; } @ Override protected void checkParameterizedTypes ( ) { } @ Override public boolean reportInvalidType ( TypeReference typeReference , TypeBinding resolvedType ) { if ( resolvedType instanceof ProblemReferenceBinding ) { ProblemReferenceBinding problemRefBinding = ( ProblemReferenceBinding ) resolvedType ; if ( problemRefBinding . problemId ( ) == ProblemReasons . Ambiguous ) { return true ; } } return false ; } @ Override protected void reportImportProblem ( ImportReference importReference , Binding importBinding ) { if ( importBinding instanceof ProblemReferenceBinding ) { ProblemReferenceBinding problemRefBinding = ( ProblemReferenceBinding ) importBinding ; if ( problemRefBinding . problemId ( ) == ProblemReasons . NotFound ) { return ; } } problemReporter ( ) . importProblem ( importReference , importBinding ) ; } @ Override public boolean canSeeEverything ( ) { return true ; } @ Override public boolean checkTargetCompatibility ( ) { return false ; } @ Override protected boolean canBeSeenBy ( ReferenceBinding type , PackageBinding fPackage ) { return true ; } @ Override public boolean scannerAvailable ( ) { return false ; } public void setIsScript ( boolean isScript ) { this . isScript = isScript ; } public boolean isScript ( ) { return isScript ; } public ReferenceBinding selectBinding ( ReferenceBinding newlyFound , ReferenceBinding originallyFound , boolean isDeclaredImport ) { if ( isDeclaredImport ) { if ( originallyFound . fPackage != null ) { char [ ] [ ] packageName = originallyFound . fPackage . compoundName ; if ( CharOperation . equals ( javaLang , packageName ) \|\| CharOperation . equals ( javaIo , packageName ) \|\| CharOperation . equals ( javaNet , packageName ) \|\| CharOperation . equals ( javaUtil , packageName ) \|\| CharOperation . equals ( groovyLang , packageName ) \|\| CharOperation . equals ( groovyUtil , packageName ) ) { return newlyFound ; } else { return originallyFound ; } } } return null ; } } </s>
<s> package org . codehaus . jdt . groovy . internal . compiler . ast ; public class ImmutableException extends IllegalStateException { private static final long serialVersionUID = <NUM_LIT:1L> ; } </s>
<s> package org . codehaus . jdt . groovy . core . dom ; import org . eclipse . jdt . core . dom . AST ; import org . eclipse . jdt . core . dom . ASTVisitor ; import org . eclipse . jdt . core . dom . CompilationUnit ; public class GroovyCompilationUnit extends CompilationUnit { public GroovyCompilationUnit ( AST ast ) { super ( ast ) ; } @ Override protected void accept0 ( ASTVisitor visitor ) { String visitorName = visitor . getClass ( ) . getName ( ) ; if ( visitorName . equals ( "<STR_LIT>" ) ) { return ; } super . accept0 ( visitor ) ; } } </s>
<s> package org . codehaus . jdt . groovy . model ; import java . util . Map ; import org . eclipse . jdt . core . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . SourceElementParser ; import org . eclipse . jdt . internal . core . CompilationUnitElementInfo ; import org . eclipse . jdt . internal . core . CompilationUnitStructureRequestor ; @ SuppressWarnings ( "<STR_LIT>" ) class GroovyCompilationUnitStructureRequestor extends CompilationUnitStructureRequestor { @ SuppressWarnings ( "<STR_LIT:unchecked>" ) protected GroovyCompilationUnitStructureRequestor ( ICompilationUnit unit , CompilationUnitElementInfo unitInfo , Map newElements ) { super ( unit , unitInfo , newElements ) ; } void setParser ( SourceElementParser parser ) { this . parser = parser ; } } </s>
<s> package org . codehaus . jdt . groovy . model ; import java . util . ArrayList ; import java . util . HashMap ; import java . util . List ; import java . util . Map ; import org . codehaus . groovy . ast . ModuleNode ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyCompilationUnitDeclaration ; import org . codehaus . jdt . groovy . internal . compiler . ast . JDTResolver ; import org . eclipse . core . runtime . Platform ; import org . eclipse . jdt . groovy . core . util . ReflectionUtils ; import org . eclipse . jdt . internal . core . JavaModelManager ; import org . eclipse . jdt . internal . core . JavaModelManager . PerWorkingCopyInfo ; import org . eclipse . jdt . internal . core . util . Util ; public class ModuleNodeMapper { public class ModuleNodeInfo { public ModuleNodeInfo ( ModuleNode module , JDTResolver resolver ) { this . module = module ; this . resolver = resolver ; } public final ModuleNode module ; public final JDTResolver resolver ; } private static final ModuleNodeMapper INSTANCE = new ModuleNodeMapper ( ) ; static ModuleNodeMapper getInstance ( ) { return INSTANCE ; } private final Map < PerWorkingCopyInfo , ModuleNodeInfo > infoToModuleMap = new HashMap < PerWorkingCopyInfo , ModuleNodeInfo > ( ) ; synchronized void store ( PerWorkingCopyInfo info , ModuleNode module , JDTResolver resolver ) { sweepAndPurgeModuleNodes ( ) ; infoToModuleMap . put ( info , new ModuleNodeInfo ( module , shouldStoreResovler ( ) ? resolver : null ) ) ; } private final static boolean DSL_BUNDLE_INSTALLED ; static { boolean result = false ; try { result = Platform . getBundle ( "<STR_LIT>" ) != null ; } catch ( Exception e ) { Util . log ( e ) ; } DSL_BUNDLE_INSTALLED = result ; } private boolean shouldStoreResovler ( ) { return DSL_BUNDLE_INSTALLED ; } synchronized ModuleNode getModule ( PerWorkingCopyInfo info ) { ModuleNodeInfo moduleNodeInfo = get ( info ) ; return moduleNodeInfo != null ? moduleNodeInfo . module : null ; } synchronized ModuleNodeInfo get ( PerWorkingCopyInfo info ) { sweepAndPurgeModuleNodes ( ) ; return infoToModuleMap . get ( info ) ; } synchronized JDTResolver getResolver ( PerWorkingCopyInfo info ) { ModuleNodeInfo moduleNodeInfo = get ( info ) ; return moduleNodeInfo != null ? moduleNodeInfo . resolver : null ; } synchronized ModuleNode remove ( PerWorkingCopyInfo info ) { sweepAndPurgeModuleNodes ( ) ; ModuleNodeInfo removed = infoToModuleMap . remove ( info ) ; return removed != null ? removed . module : null ; } synchronized protected void maybeCacheModuleNode ( JavaModelManager . PerWorkingCopyInfo perWorkingCopyInfo , GroovyCompilationUnitDeclaration compilationUnitDeclaration ) { if ( perWorkingCopyInfo != null && compilationUnitDeclaration != null ) { ModuleNode module = compilationUnitDeclaration . getModuleNode ( ) ; if ( module != null ) { JDTResolver resolver ; if ( shouldStoreResovler ( ) ) { resolver = ( JDTResolver ) compilationUnitDeclaration . getCompilationUnit ( ) . getResolveVisitor ( ) ; } else { resolver = null ; } ModuleNodeMapper . getInstance ( ) . store ( perWorkingCopyInfo , module , resolver ) ; } } } public static boolean isEmpty ( ) { return INSTANCE . infoToModuleMap . isEmpty ( ) ; } synchronized void sweepAndPurgeModuleNodes ( ) { if ( System . getProperty ( "<STR_LIT>" ) == null ) { return ; } List < PerWorkingCopyInfo > toPurge = new ArrayList < PerWorkingCopyInfo > ( ) ; for ( PerWorkingCopyInfo info : infoToModuleMap . keySet ( ) ) { int useCount = ( ( Integer ) ReflectionUtils . getPrivateField ( PerWorkingCopyInfo . class , "<STR_LIT>" , info ) ) . intValue ( ) ; if ( useCount <= <NUM_LIT:0> ) { String message = "<STR_LIT>" + info . getWorkingCopy ( ) . getElementName ( ) ; System . out . println ( message ) ; Util . log ( new RuntimeException ( message ) , message ) ; toPurge . add ( info ) ; } else if ( useCount > <NUM_LIT:1> ) { System . out . println ( info . getWorkingCopy ( ) . getElementName ( ) + "<STR_LIT>" + useCount ) ; } } if ( toPurge . size ( ) > <NUM_LIT:0> ) { for ( PerWorkingCopyInfo info : toPurge ) { infoToModuleMap . remove ( info ) ; } } } } </s>
<s> package org . codehaus . jdt . groovy . model ; import org . eclipse . jdt . core . IJavaElement ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . WorkingCopyOwner ; import org . eclipse . jdt . internal . core . ClassFile ; import org . eclipse . jdt . internal . core . PackageFragment ; public class GroovyClassFile extends ClassFile { protected GroovyClassFile ( PackageFragment parent , String nameWithoutExtension ) { super ( parent , nameWithoutExtension ) ; } @ Override protected IJavaElement [ ] codeSelect ( org . eclipse . jdt . internal . compiler . env . ICompilationUnit cu , int offset , int length , WorkingCopyOwner o ) throws JavaModelException { if ( CodeSelectHelperFactory . selectHelper != null ) { } return new IJavaElement [ <NUM_LIT:0> ] ; } } </s>
<s> package org . codehaus . jdt . groovy . model ; import java . util . HashMap ; import java . util . Map ; import org . codehaus . groovy . ast . ModuleNode ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyCompilationUnitDeclaration ; import org . eclipse . jdt . core . ICompilationUnit ; import org . eclipse . jdt . core . IJavaElement ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . WorkingCopyOwner ; import org . eclipse . jdt . core . dom . AST ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . core . CompilationUnit ; import org . eclipse . jdt . internal . core . CompilationUnitProblemFinder ; import org . eclipse . jdt . internal . core . JavaElementDelta ; import org . eclipse . jdt . internal . core . JavaModelManager ; import org . eclipse . jdt . internal . core . JavaProject ; import org . eclipse . jdt . internal . core . ReconcileWorkingCopyOperation ; public class GroovyReconcileWorkingCopyOperation extends ReconcileWorkingCopyOperation { WorkingCopyOwner workingCopyOwner ; public GroovyReconcileWorkingCopyOperation ( IJavaElement workingCopy , int astLevel , int reconcileFlags , WorkingCopyOwner workingCopyOwner ) { super ( workingCopy , astLevel , reconcileFlags , workingCopyOwner ) ; this . workingCopyOwner = workingCopyOwner ; } public org . eclipse . jdt . core . dom . CompilationUnit makeConsistent ( CompilationUnit workingCopy ) throws JavaModelException { if ( ! workingCopy . isConsistent ( ) ) { if ( this . problems == null ) this . problems = new HashMap ( ) ; this . resolveBindings = this . requestorIsActive ; this . ast = workingCopy . makeConsistent ( this . astLevel , this . resolveBindings , this . reconcileFlags , this . problems , this . progressMonitor ) ; this . deltaBuilder . buildDeltas ( ) ; if ( this . ast != null && this . deltaBuilder . delta != null ) this . deltaBuilder . delta . changedAST ( this . ast ) ; return this . ast ; } if ( this . ast != null ) return this . ast ; CompilationUnitDeclaration unit = null ; try { JavaModelManager . getJavaModelManager ( ) . abortOnMissingSource . set ( Boolean . TRUE ) ; CompilationUnit source = workingCopy . cloneCachingContents ( ) ; if ( JavaProject . hasJavaNature ( workingCopy . getJavaProject ( ) . getProject ( ) ) && ( this . reconcileFlags & ICompilationUnit . FORCE_PROBLEM_DETECTION ) != <NUM_LIT:0> ) { this . resolveBindings = this . requestorIsActive ; if ( this . problems == null ) this . problems = new HashMap ( ) ; unit = CompilationUnitProblemFinder . process ( source , this . workingCopyOwner , this . problems , this . astLevel != ICompilationUnit . NO_AST , this . reconcileFlags , this . progressMonitor ) ; if ( unit instanceof GroovyCompilationUnitDeclaration ) { ModuleNodeMapper . getInstance ( ) . maybeCacheModuleNode ( workingCopy . getPerWorkingCopyInfo ( ) , ( GroovyCompilationUnitDeclaration ) unit ) ; } if ( this . progressMonitor != null ) this . progressMonitor . worked ( <NUM_LIT:1> ) ; } if ( this . astLevel != ICompilationUnit . NO_AST && unit != null ) { Map options = workingCopy . getJavaProject ( ) . getOptions ( true ) ; this . ast = AST . convertCompilationUnit ( this . astLevel , unit , options , this . resolveBindings , source , this . reconcileFlags , this . progressMonitor ) ; if ( this . ast != null ) { if ( this . deltaBuilder . delta == null ) { this . deltaBuilder . delta = new JavaElementDelta ( workingCopy ) ; } this . deltaBuilder . delta . changedAST ( this . ast ) ; } if ( this . progressMonitor != null ) this . progressMonitor . worked ( <NUM_LIT:1> ) ; } } catch ( JavaModelException e ) { if ( JavaProject . hasJavaNature ( workingCopy . getJavaProject ( ) . getProject ( ) ) ) throw e ; } finally { JavaModelManager . getJavaModelManager ( ) . abortOnMissingSource . set ( null ) ; if ( unit != null ) { unit . cleanUp ( ) ; } } return this . ast ; } } </s>
<s> package org . codehaus . jdt . groovy . model ; import org . eclipse . core . runtime . CoreException ; import org . eclipse . core . runtime . IConfigurationElement ; import org . eclipse . core . runtime . IExtension ; import org . eclipse . core . runtime . IExtensionPoint ; import org . eclipse . core . runtime . Platform ; import org . eclipse . jdt . core . IJavaElement ; public interface ICodeSelectHelper { public IJavaElement [ ] select ( GroovyCompilationUnit unit , int start , int length ) ; } class CodeSelectHelperFactory { private final static String CODE_SELECT_HELPER_EXTENSION = "<STR_LIT>" ; static ICodeSelectHelper selectHelper ; static { IExtensionPoint extPoint = Platform . getExtensionRegistry ( ) . getExtensionPoint ( CODE_SELECT_HELPER_EXTENSION ) ; IExtension [ ] exts = extPoint . getExtensions ( ) ; if ( exts . length < <NUM_LIT:1> ) { throw new IllegalArgumentException ( "<STR_LIT>" ) ; } else if ( exts . length > <NUM_LIT:1> ) { StringBuilder sb = new StringBuilder ( ) ; sb . append ( "<STR_LIT>" ) ; for ( IExtension ext : exts ) { sb . append ( "<STR_LIT:U+0020U+0020U+0020U+0020>" + ext . getNamespaceIdentifier ( ) + "<STR_LIT:.>" + ext . getSimpleIdentifier ( ) ) ; } throw new IllegalArgumentException ( sb . toString ( ) ) ; } IConfigurationElement [ ] elts = exts [ <NUM_LIT:0> ] . getConfigurationElements ( ) ; if ( elts . length < <NUM_LIT:1> ) { throw new IllegalArgumentException ( "<STR_LIT>" ) ; } else if ( elts . length > <NUM_LIT:1> ) { StringBuilder sb = new StringBuilder ( ) ; sb . append ( "<STR_LIT>" ) ; for ( IConfigurationElement elt : elts ) { sb . append ( "<STR_LIT:U+0020U+0020U+0020U+0020>" + elt . getNamespaceIdentifier ( ) ) ; } throw new IllegalArgumentException ( sb . toString ( ) ) ; } try { selectHelper = ( ICodeSelectHelper ) elts [ <NUM_LIT:0> ] . createExecutableExtension ( "<STR_LIT:class>" ) ; } catch ( CoreException e ) { throw new IllegalArgumentException ( e ) ; } } public static void setSelectHelper ( ICodeSelectHelper newSelectHelper ) { selectHelper = newSelectHelper ; } } </s>
<s> package org . codehaus . jdt . groovy . model ; import java . util . ArrayList ; import java . util . List ; import org . eclipse . core . resources . IProject ; import org . eclipse . core . resources . IProjectNature ; import org . eclipse . core . resources . IncrementalProjectBuilder ; import org . eclipse . core . resources . ResourcesPlugin ; import org . eclipse . core . resources . WorkspaceJob ; import org . eclipse . core . runtime . CoreException ; import org . eclipse . core . runtime . IProgressMonitor ; import org . eclipse . core . runtime . IStatus ; import org . eclipse . core . runtime . Status ; import org . eclipse . core . runtime . jobs . Job ; public class GroovyNature implements IProjectNature { private IProject project ; public static final String GROOVY_NATURE = "<STR_LIT>" ; public static void configure ( final IProject project ) throws CoreException { cleanAndRebuildProject ( project ) ; } public static void deconfigure ( final IProject project ) throws CoreException { cleanAndRebuildProject ( project ) ; } private static void cleanAndRebuildProject ( final IProject project ) { if ( project == null \|\| ! project . isAccessible ( ) ) return ; final Job [ ] existingJob = Job . getJobManager ( ) . find ( project ) ; if ( existingJob != null && existingJob . length > <NUM_LIT:0> ) return ; final WorkspaceJob job = new WorkspaceJob ( "<STR_LIT>" + project . getName ( ) ) { @ Override public IStatus runInWorkspace ( final IProgressMonitor monitor ) throws CoreException { project . build ( IncrementalProjectBuilder . CLEAN_BUILD , monitor ) ; if ( ! ResourcesPlugin . getWorkspace ( ) . isAutoBuilding ( ) ) project . build ( IncrementalProjectBuilder . FULL_BUILD , monitor ) ; return Status . OK_STATUS ; } @ Override public boolean belongsTo ( final Object family ) { if ( family instanceof IProject ) return project . getName ( ) . equals ( ( ( IProject ) family ) . getName ( ) ) ; return super . belongsTo ( family ) ; } } ; job . setRule ( ResourcesPlugin . getWorkspace ( ) . getRoot ( ) ) ; job . schedule ( ) ; } public void configure ( ) throws CoreException { configure ( getProject ( ) ) ; } public void deconfigure ( ) throws CoreException { deconfigure ( getProject ( ) ) ; } public IProject getProject ( ) { return project ; } public void setProject ( IProject project ) { this . project = project ; } public static boolean hasGroovyNature ( IProject project ) { try { return project . hasNature ( GROOVY_NATURE ) ; } catch ( CoreException e ) { } return false ; } public static List < IProject > getAllAccessibleGroovyProjects ( ) { IProject [ ] projects = ResourcesPlugin . getWorkspace ( ) . getRoot ( ) . getProjects ( ) ; List < IProject > groovyProjects = new ArrayList < IProject > ( ) ; if ( projects != null ) { for ( IProject project : projects ) { if ( project . isAccessible ( ) && hasGroovyNature ( project ) ) { groovyProjects . add ( project ) ; } } } return groovyProjects ; } } </s>
<s> package org . codehaus . jdt . groovy . model ; import org . eclipse . jdt . internal . compiler . ASTVisitor ; public class ASTNodeLocationsChecker extends ASTVisitor { } </s>
<s> package org . codehaus . jdt . groovy . model ; import org . eclipse . core . runtime . IProgressMonitor ; import org . eclipse . jdt . core . CompletionRequestor ; import org . eclipse . jdt . core . ITypeRoot ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . WorkingCopyOwner ; public interface ICodeCompletionDelegate { void codeComplete ( org . eclipse . jdt . internal . compiler . env . ICompilationUnit cu , org . eclipse . jdt . internal . compiler . env . ICompilationUnit unitToSkip , int position , CompletionRequestor requestor , WorkingCopyOwner owner , ITypeRoot typeRoot , IProgressMonitor monitor ) throws JavaModelException ; boolean shouldCodeComplete ( CompletionRequestor requestor , ITypeRoot typeRoot ) ; } </s>
<s> package org . codehaus . jdt . groovy . model ; import java . util . HashMap ; import java . util . Iterator ; import java . util . Map ; import org . codehaus . groovy . ast . ModuleNode ; import org . codehaus . groovy . eclipse . GroovyLogManager ; import org . codehaus . groovy . eclipse . TraceCategory ; import org . codehaus . jdt . groovy . integration . internal . MultiplexingSourceElementRequestorParser ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyCompilationUnitDeclaration ; import org . codehaus . jdt . groovy . model . ModuleNodeMapper . ModuleNodeInfo ; import org . eclipse . core . resources . IProject ; import org . eclipse . core . resources . IResource ; import org . eclipse . core . runtime . Assert ; import org . eclipse . core . runtime . IProgressMonitor ; import org . eclipse . core . runtime . NullProgressMonitor ; import org . eclipse . core . runtime . OperationCanceledException ; import org . eclipse . core . runtime . PerformanceStats ; import org . eclipse . jdt . core . CompletionRequestor ; import org . eclipse . jdt . core . IBuffer ; import org . eclipse . jdt . core . ICompilationUnit ; import org . eclipse . jdt . core . IJavaElement ; import org . eclipse . jdt . core . IJavaModelStatusConstants ; import org . eclipse . jdt . core . IJavaProject ; import org . eclipse . jdt . core . IType ; import org . eclipse . jdt . core . ITypeRoot ; import org . eclipse . jdt . core . JavaCore ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . WorkingCopyOwner ; import org . eclipse . jdt . core . compiler . CategorizedProblem ; import org . eclipse . jdt . core . dom . AST ; import org . eclipse . jdt . core . util . CompilerUtils ; import org . eclipse . jdt . groovy . core . util . ReflectionUtils ; import org . eclipse . jdt . internal . compiler . IErrorHandlingPolicy ; import org . eclipse . jdt . internal . compiler . IProblemFactory ; import org . eclipse . jdt . internal . compiler . SourceElementParser ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . problem . DefaultProblemFactory ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; import org . eclipse . jdt . internal . core . ASTHolderCUInfo ; import org . eclipse . jdt . internal . core . CompilationUnit ; import org . eclipse . jdt . internal . core . CompilationUnitElementInfo ; import org . eclipse . jdt . internal . core . CompilationUnitProblemFinder ; import org . eclipse . jdt . internal . core . DefaultWorkingCopyOwner ; import org . eclipse . jdt . internal . core . JavaModelManager ; import org . eclipse . jdt . internal . core . JavaModelManager . PerWorkingCopyInfo ; import org . eclipse . jdt . internal . core . JavaProject ; import org . eclipse . jdt . internal . core . OpenableElementInfo ; import org . eclipse . jdt . internal . core . PackageFragment ; import org . eclipse . jdt . internal . core . ReconcileWorkingCopyOperation ; import org . eclipse . jdt . internal . core . util . Util ; public class GroovyCompilationUnit extends CompilationUnit { private class GroovyErrorHandlingPolicy implements IErrorHandlingPolicy { final boolean stopOnFirst ; public GroovyErrorHandlingPolicy ( boolean stopOnFirst ) { this . stopOnFirst = stopOnFirst ; } public boolean proceedOnErrors ( ) { return ! stopOnFirst ; } public boolean stopOnFirstError ( ) { return stopOnFirst ; } } public GroovyCompilationUnit ( PackageFragment parent , String name , WorkingCopyOwner owner ) { super ( parent , name , owner ) ; } public ModuleNode getModuleNode ( ) { ModuleNodeInfo moduleInfo = getModuleInfo ( true ) ; return moduleInfo != null ? moduleInfo . module : null ; } public ModuleNodeInfo getModuleInfo ( boolean force ) { try { if ( ! isConsistent ( ) ) { makeConsistent ( null ) ; } synchronized ( ModuleNodeMapper . getInstance ( ) ) { boolean becameWorkingCopy = false ; try { if ( becameWorkingCopy = ( force && ! isWorkingCopy ( ) ) ) { becomeWorkingCopy ( null ) ; } PerWorkingCopyInfo info = getPerWorkingCopyInfo ( ) ; if ( info != null ) { return ModuleNodeMapper . getInstance ( ) . get ( info ) ; } } finally { if ( becameWorkingCopy ) { discardWorkingCopy ( ) ; } } } } catch ( JavaModelException e ) { Util . log ( e , "<STR_LIT>" + this . getElementName ( ) ) ; } return null ; } public ModuleNodeInfo getNewModuleInfo ( ) { try { openWhenClosed ( createElementInfo ( ) , false , new NullProgressMonitor ( ) ) ; } catch ( JavaModelException e ) { Util . log ( e , "<STR_LIT>" + this . getElementName ( ) ) ; } return getModuleInfo ( true ) ; } @ Override public void discardWorkingCopy ( ) throws JavaModelException { synchronized ( ModuleNodeMapper . getInstance ( ) ) { PerWorkingCopyInfo info = getPerWorkingCopyInfo ( ) ; if ( workingCopyInfoWillBeDiscarded ( info ) ) { ModuleNodeMapper . getInstance ( ) . remove ( info ) ; } super . discardWorkingCopy ( ) ; } } private boolean workingCopyInfoWillBeDiscarded ( PerWorkingCopyInfo info ) { return info != null && ( ( Integer ) ReflectionUtils . getPrivateField ( PerWorkingCopyInfo . class , "<STR_LIT>" , info ) ) . intValue ( ) <= <NUM_LIT:1> ; } static MyThreadLocal depth = new MyThreadLocal ( ) ; static class MyThreadLocal extends ThreadLocal < Integer > { @ Override protected Integer initialValue ( ) { return <NUM_LIT:0> ; } } @ SuppressWarnings ( { "<STR_LIT:unchecked>" , "<STR_LIT:rawtypes>" , "<STR_LIT>" , "<STR_LIT>" } ) @ Override protected boolean buildStructure ( OpenableElementInfo info , IProgressMonitor pm , Map newElements , IResource underlyingResource ) throws JavaModelException { try { depth . set ( depth . get ( ) + <NUM_LIT:1> ) ; if ( GroovyLogManager . manager . hasLoggers ( ) ) { GroovyLogManager . manager . log ( TraceCategory . COMPILER , "<STR_LIT>" + this . name ) ; GroovyLogManager . manager . logStart ( "<STR_LIT>" + name + "<STR_LIT:U+0020:U+0020>" + Thread . currentThread ( ) . getName ( ) ) ; } CompilationUnitElementInfo unitInfo = ( CompilationUnitElementInfo ) info ; IBuffer buffer = getBufferManager ( ) . getBuffer ( this ) ; if ( buffer == null ) { openBuffer ( pm , unitInfo ) ; } GroovyCompilationUnitStructureRequestor requestor = new GroovyCompilationUnitStructureRequestor ( this , unitInfo , newElements ) ; JavaModelManager . PerWorkingCopyInfo perWorkingCopyInfo = getPerWorkingCopyInfo ( ) ; JavaProject project = ( JavaProject ) getJavaProject ( ) ; boolean createAST ; int reconcileFlags ; boolean resolveBindings ; HashMap problems ; if ( info instanceof ASTHolderCUInfo ) { ASTHolderCUInfo astHolder = ( ASTHolderCUInfo ) info ; createAST = ( ( Integer ) ReflectionUtils . getPrivateField ( ASTHolderCUInfo . class , "<STR_LIT>" , astHolder ) ) . intValue ( ) != NO_AST ; resolveBindings = ( ( Boolean ) ReflectionUtils . getPrivateField ( ASTHolderCUInfo . class , "<STR_LIT>" , astHolder ) ) . booleanValue ( ) ; reconcileFlags = ( ( Integer ) ReflectionUtils . getPrivateField ( ASTHolderCUInfo . class , "<STR_LIT>" , astHolder ) ) . intValue ( ) ; problems = ( HashMap ) ReflectionUtils . getPrivateField ( ASTHolderCUInfo . class , "<STR_LIT>" , astHolder ) ; } else { createAST = false ; resolveBindings = false ; reconcileFlags = <NUM_LIT:0> ; problems = null ; } boolean computeProblems = perWorkingCopyInfo != null && perWorkingCopyInfo . isActive ( ) && project != null && JavaProject . hasJavaNature ( project . getProject ( ) ) ; IProblemFactory problemFactory = new DefaultProblemFactory ( ) ; Map < String , String > options = ( project == null ? JavaCore . getOptions ( ) : project . getOptions ( true ) ) ; if ( ! computeProblems ) { options . put ( JavaCore . COMPILER_TASK_TAGS , "<STR_LIT>" ) ; } options . put ( CompilerOptions . OPTIONG_BuildGroovyFiles , CompilerOptions . ENABLED ) ; CompilerOptions compilerOptions = new CompilerOptions ( options ) ; if ( project != null ) { CompilerUtils . setGroovyClasspath ( compilerOptions , project ) ; } ProblemReporter reporter = new ProblemReporter ( new GroovyErrorHandlingPolicy ( ! computeProblems ) , compilerOptions , new DefaultProblemFactory ( ) ) ; SourceElementParser parser = new MultiplexingSourceElementRequestorParser ( reporter , requestor , problemFactory , compilerOptions , true , ! createAST ) ; parser . reportOnlyOneSyntaxError = ! computeProblems ; parser . setMethodsFullRecovery ( true ) ; parser . setStatementsRecovery ( ( reconcileFlags & ICompilationUnit . ENABLE_STATEMENTS_RECOVERY ) != <NUM_LIT:0> ) ; if ( ! computeProblems && ! resolveBindings && ! createAST ) parser . javadocParser . checkDocComment = false ; requestor . setParser ( parser ) ; if ( underlyingResource == null ) { underlyingResource = getResource ( ) ; } if ( underlyingResource != null ) { ReflectionUtils . setPrivateField ( CompilationUnitElementInfo . class , "<STR_LIT>" , unitInfo , underlyingResource . getModificationStamp ( ) ) ; } GroovyCompilationUnitDeclaration compilationUnitDeclaration = null ; CompilationUnit source = cloneCachingContents ( ) ; try { if ( computeProblems \|\| depth . get ( ) < <NUM_LIT:2> ) { if ( problems == null ) { problems = new HashMap ( ) ; compilationUnitDeclaration = ( GroovyCompilationUnitDeclaration ) CompilationUnitProblemFinder . process ( source , parser , this . owner , problems , createAST , reconcileFlags , pm ) ; if ( computeProblems ) { try { perWorkingCopyInfo . beginReporting ( ) ; for ( Iterator iteraror = problems . values ( ) . iterator ( ) ; iteraror . hasNext ( ) ; ) { CategorizedProblem [ ] categorizedProblems = ( CategorizedProblem [ ] ) iteraror . next ( ) ; if ( categorizedProblems == null ) continue ; for ( int i = <NUM_LIT:0> , length = categorizedProblems . length ; i < length ; i ++ ) { perWorkingCopyInfo . acceptProblem ( categorizedProblems [ i ] ) ; } } } finally { perWorkingCopyInfo . endReporting ( ) ; } } } else { compilationUnitDeclaration = ( GroovyCompilationUnitDeclaration ) CompilationUnitProblemFinder . process ( source , parser , this . owner , problems , createAST , reconcileFlags , pm ) ; } } else { compilationUnitDeclaration = ( GroovyCompilationUnitDeclaration ) parser . parseCompilationUnit ( source , true , pm ) ; } maybeCacheModuleNode ( perWorkingCopyInfo , compilationUnitDeclaration ) ; if ( createAST ) { org . eclipse . jdt . core . dom . CompilationUnit ast ; try { ast = AST . convertCompilationUnit ( AST . JLS3 , compilationUnitDeclaration , options , computeProblems , source , reconcileFlags , pm ) ; ReflectionUtils . setPrivateField ( ASTHolderCUInfo . class , "<STR_LIT>" , info , ast ) ; } catch ( OperationCanceledException e ) { throw e ; } catch ( IllegalArgumentException e ) { Util . log ( e , "<STR_LIT>" + this . getParent ( ) . getElementName ( ) + "<STR_LIT:.>" + getElementName ( ) ) ; } catch ( Exception e ) { Util . log ( e , "<STR_LIT>" + this . getElementName ( ) ) ; } } } catch ( OperationCanceledException e ) { throw e ; } catch ( JavaModelException e ) { if ( e . getStatus ( ) . getCode ( ) != IJavaModelStatusConstants . ELEMENT_DOES_NOT_EXIST \|\| this . getJavaProject ( ) . exists ( ) ) { Util . log ( e , "<STR_LIT>" + this . getElementName ( ) ) ; } } catch ( Exception e ) { Util . log ( e , "<STR_LIT>" + this . getElementName ( ) ) ; } finally { if ( compilationUnitDeclaration != null ) { compilationUnitDeclaration . cleanUp ( ) ; } } return unitInfo . isStructureKnown ( ) ; } finally { depth . set ( depth . get ( ) - <NUM_LIT:1> ) ; if ( GroovyLogManager . manager . hasLoggers ( ) ) { GroovyLogManager . manager . logEnd ( "<STR_LIT>" + name + "<STR_LIT:U+0020:U+0020>" + Thread . currentThread ( ) . getName ( ) , TraceCategory . COMPILER ) ; } } } protected void maybeCacheModuleNode ( JavaModelManager . PerWorkingCopyInfo perWorkingCopyInfo , GroovyCompilationUnitDeclaration compilationUnitDeclaration ) { ModuleNodeMapper . getInstance ( ) . maybeCacheModuleNode ( perWorkingCopyInfo , compilationUnitDeclaration ) ; } @ Override public org . eclipse . jdt . core . dom . CompilationUnit reconcile ( int astLevel , int reconcileFlags , WorkingCopyOwner workingCopyOwner , IProgressMonitor monitor ) throws JavaModelException { if ( ! isWorkingCopy ( ) ) return null ; if ( workingCopyOwner == null ) workingCopyOwner = DefaultWorkingCopyOwner . PRIMARY ; PerformanceStats stats = null ; if ( ReconcileWorkingCopyOperation . PERF ) { stats = PerformanceStats . getStats ( JavaModelManager . RECONCILE_PERF , this ) ; stats . startRun ( new String ( this . getFileName ( ) ) ) ; } ReconcileWorkingCopyOperation op = new GroovyReconcileWorkingCopyOperation ( this , astLevel , reconcileFlags , workingCopyOwner ) ; JavaModelManager manager = JavaModelManager . getJavaModelManager ( ) ; try { manager . cacheZipFiles ( this ) ; op . runOperation ( monitor ) ; } finally { manager . flushZipFiles ( this ) ; } if ( ReconcileWorkingCopyOperation . PERF ) { stats . endRun ( ) ; } return op . ast ; } @ SuppressWarnings ( { "<STR_LIT:unchecked>" , "<STR_LIT:rawtypes>" } ) @ Override public Object getAdapter ( Class adapter ) { if ( adapter == GroovyCompilationUnit . class ) { return this ; } if ( adapter == ModuleNode . class ) { return getModuleNode ( ) ; } return super . getAdapter ( adapter ) ; } class CompilationUnitClone extends GroovyCompilationUnit { private char [ ] cachedContents ; public CompilationUnitClone ( char [ ] cachedContents ) { this ( ) ; this . cachedContents = cachedContents ; } public CompilationUnitClone ( ) { super ( ( PackageFragment ) GroovyCompilationUnit . this . parent , GroovyCompilationUnit . this . name , GroovyCompilationUnit . this . owner ) ; } @ Override public char [ ] getContents ( ) { if ( this . cachedContents == null ) this . cachedContents = GroovyCompilationUnit . this . getContents ( ) ; return this . cachedContents ; } @ Override public CompilationUnit originalFromClone ( ) { return GroovyCompilationUnit . this ; } @ Override public char [ ] getFileName ( ) { return GroovyCompilationUnit . this . getFileName ( ) ; } } public GroovyCompilationUnit cloneCachingContents ( char [ ] newContents ) { return new CompilationUnitClone ( newContents ) ; } @ Override public GroovyCompilationUnit cloneCachingContents ( ) { return new CompilationUnitClone ( ) ; } @ Override public IJavaElement [ ] codeSelect ( int offset , int length ) throws JavaModelException { return codeSelect ( offset , length , DefaultWorkingCopyOwner . PRIMARY ) ; } @ Override public IJavaElement [ ] codeSelect ( int offset , int length , WorkingCopyOwner workingCopyOwner ) throws JavaModelException { return codeSelect ( this , offset , length , workingCopyOwner ) ; } @ Override protected IJavaElement [ ] codeSelect ( org . eclipse . jdt . internal . compiler . env . ICompilationUnit cu , int offset , int length , WorkingCopyOwner o ) throws JavaModelException { if ( CodeSelectHelperFactory . selectHelper != null ) { return CodeSelectHelperFactory . selectHelper . select ( this , offset , length ) ; } return new IJavaElement [ <NUM_LIT:0> ] ; } @ SuppressWarnings ( "<STR_LIT>" ) @ Override public IType findPrimaryType ( ) { IType type = super . findPrimaryType ( ) ; if ( type != null ) { return type ; } try { IType [ ] types = getTypes ( ) ; if ( types != null && types . length > <NUM_LIT:0> ) { return types [ <NUM_LIT:0> ] ; } } catch ( JavaModelException e ) { if ( e . getStatus ( ) . getCode ( ) != IJavaModelStatusConstants . ELEMENT_NOT_ON_CLASSPATH ) { Util . log ( e , "<STR_LIT>" + this . getElementName ( ) ) ; } } return null ; } public boolean isOnBuildPath ( ) { IJavaProject project = this . getJavaProject ( ) ; if ( ! project . isOnClasspath ( this ) ) { return false ; } IProject resourceProject = project . getProject ( ) ; if ( resourceProject == null \|\| ! resourceProject . isAccessible ( ) \|\| ! GroovyNature . hasGroovyNature ( resourceProject ) ) { return false ; } return true ; } @ Override public IResource getUnderlyingResource ( ) throws JavaModelException { if ( isOnBuildPath ( ) ) { return super . getUnderlyingResource ( ) ; } else { IResource rsrc = getResource ( ) ; try { Assert . isTrue ( rsrc . getFullPath ( ) . toString ( ) . endsWith ( name ) ) ; } catch ( Throwable e ) { Util . log ( e ) ; return super . getUnderlyingResource ( ) ; } return rsrc ; } } @ Override public void rename ( String newName , boolean force , IProgressMonitor monitor ) throws JavaModelException { super . rename ( newName , force , monitor ) ; if ( this . isWorkingCopy ( ) ) { this . discardWorkingCopy ( ) ; } } protected void codeComplete ( org . eclipse . jdt . internal . compiler . env . ICompilationUnit cu , org . eclipse . jdt . internal . compiler . env . ICompilationUnit unitToSkip , int position , CompletionRequestor requestor , WorkingCopyOwner owner , ITypeRoot typeRoot , IProgressMonitor monitor ) throws JavaModelException { ICodeCompletionDelegate delegate = ( ICodeCompletionDelegate ) getAdapter ( ICodeCompletionDelegate . class ) ; if ( delegate != null && delegate . shouldCodeComplete ( requestor , typeRoot ) ) { delegate . codeComplete ( cu , unitToSkip , position , requestor , owner , typeRoot , monitor ) ; } else { super . codeComplete ( cu , unitToSkip , position , requestor , owner , typeRoot , monitor ) ; } } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import java . util . Collections ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyCompilationUnitDeclaration ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyParser ; import org . eclipse . core . runtime . IProgressMonitor ; import org . eclipse . jdt . groovy . core . util . ContentTypeUtils ; import org . eclipse . jdt . groovy . core . util . ReflectionUtils ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . IProblemFactory ; import org . eclipse . jdt . internal . compiler . ISourceElementRequestor ; import org . eclipse . jdt . internal . compiler . SourceElementNotifier ; import org . eclipse . jdt . internal . compiler . SourceElementParser ; import org . eclipse . jdt . internal . compiler . ast . AbstractMethodDeclaration ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . ast . FieldDeclaration ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . env . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . util . HashtableOfObjectToInt ; import org . eclipse . jdt . internal . core . search . indexing . IndexingParser ; public class MultiplexingIndexingParser extends IndexingParser { SourceElementNotifier notifier ; boolean groovyReportReferenceInfo ; ISourceElementRequestor requestor ; public MultiplexingIndexingParser ( ISourceElementRequestor requestor , IProblemFactory problemFactory , CompilerOptions options , boolean reportLocalDeclarations , boolean optimizeStringLiterals , boolean useSourceJavadocParser ) { super ( requestor , problemFactory , options , reportLocalDeclarations , optimizeStringLiterals , useSourceJavadocParser ) ; this . notifier = ( SourceElementNotifier ) ReflectionUtils . getPrivateField ( SourceElementParser . class , "<STR_LIT>" , this ) ; this . groovyReportReferenceInfo = reportLocalDeclarations ; this . requestor = requestor ; } @ Override public void setRequestor ( ISourceElementRequestor requestor ) { super . setRequestor ( requestor ) ; this . requestor = requestor ; } @ Override public CompilationUnitDeclaration parseCompilationUnit ( ICompilationUnit unit , boolean fullParse , IProgressMonitor pm ) { if ( ContentTypeUtils . isGroovyLikeFileName ( unit . getFileName ( ) ) ) { CompilationResult compilationResult = new CompilationResult ( unit , <NUM_LIT:0> , <NUM_LIT:0> , this . options . maxProblemsPerUnit ) ; GroovyCompilationUnitDeclaration cud = ( GroovyCompilationUnitDeclaration ) new GroovyParser ( this . options , problemReporter , false , true ) . dietParse ( unit , compilationResult ) ; HashtableOfObjectToInt sourceEnds = createSourceEnds ( cud ) ; GroovyIndexingVisitor visitor = new GroovyIndexingVisitor ( requestor ) ; visitor . doVisit ( cud . getModuleNode ( ) , cud . currentPackage ) ; notifier . notifySourceElementRequestor ( cud , <NUM_LIT:0> , unit . getContents ( ) . length , groovyReportReferenceInfo , sourceEnds , Collections . EMPTY_MAP ) ; return cud ; } else { return super . parseCompilationUnit ( unit , fullParse , pm ) ; } } private HashtableOfObjectToInt createSourceEnds ( CompilationUnitDeclaration cDecl ) { HashtableOfObjectToInt table = new HashtableOfObjectToInt ( ) ; if ( cDecl . types != null ) { for ( TypeDeclaration tDecl : cDecl . types ) { createSourceEndsForType ( tDecl , table ) ; } } return table ; } private void createSourceEndsForType ( TypeDeclaration tDecl , HashtableOfObjectToInt table ) { table . put ( tDecl , tDecl . sourceEnd ) ; if ( tDecl . fields != null ) { for ( FieldDeclaration fDecl : tDecl . fields ) { table . put ( fDecl , fDecl . sourceEnd ) ; } } if ( tDecl . methods != null ) { for ( AbstractMethodDeclaration mDecl : tDecl . methods ) { table . put ( mDecl , mDecl . sourceEnd ) ; } } if ( tDecl . memberTypes != null ) { for ( TypeDeclaration innerTDecl : tDecl . memberTypes ) { createSourceEndsForType ( innerTDecl , table ) ; } } } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import java . util . Collections ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyParser ; import org . eclipse . core . runtime . IProgressMonitor ; import org . eclipse . jdt . groovy . core . util . ContentTypeUtils ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . IProblemFactory ; import org . eclipse . jdt . internal . compiler . SourceElementNotifier ; import org . eclipse . jdt . internal . compiler . SourceElementParser ; import org . eclipse . jdt . internal . compiler . ast . AbstractMethodDeclaration ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . ast . FieldDeclaration ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . env . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; import org . eclipse . jdt . internal . compiler . util . HashtableOfObjectToInt ; import org . eclipse . jdt . internal . compiler . ISourceElementRequestor ; @ SuppressWarnings ( "<STR_LIT>" ) public class MultiplexingSourceElementRequestorParser extends SourceElementParser { ISourceElementRequestor groovyRequestor ; SourceElementNotifier notifier ; boolean groovyReportReferenceInfo ; private GroovyParser parser ; public MultiplexingSourceElementRequestorParser ( ProblemReporter problemReporter , ISourceElementRequestor requestor , IProblemFactory problemFactory , CompilerOptions options , boolean reportLocalDeclarations , boolean optimizeStringLiterals ) { super ( requestor , problemFactory , options , reportLocalDeclarations , optimizeStringLiterals ) ; this . groovyRequestor = requestor ; this . notifier = new SourceElementNotifier ( requestor , reportLocalDeclarations ) ; this . parser = new GroovyParser ( requestor , this . options , problemReporter , false , true ) ; } @ Override public CompilationUnitDeclaration parseCompilationUnit ( ICompilationUnit unit , boolean fullParse , IProgressMonitor pm ) { if ( ContentTypeUtils . isGroovyLikeFileName ( unit . getFileName ( ) ) ) { CompilationResult compilationResult = new CompilationResult ( unit , <NUM_LIT:0> , <NUM_LIT:0> , this . options . maxProblemsPerUnit ) ; CompilationUnitDeclaration cud = new GroovyParser ( this . parser . requestor , this . options , problemReporter , false , true ) . dietParse ( unit , compilationResult ) ; HashtableOfObjectToInt sourceEnds = createSourceEnds ( cud ) ; notifier . notifySourceElementRequestor ( cud , <NUM_LIT:0> , unit . getContents ( ) . length , groovyReportReferenceInfo , sourceEnds , Collections . EMPTY_MAP ) ; return cud ; } else { return super . parseCompilationUnit ( unit , fullParse , pm ) ; } } @ Override public CompilationUnitDeclaration dietParse ( ICompilationUnit sourceUnit , CompilationResult compilationResult ) { if ( ContentTypeUtils . isGroovyLikeFileName ( sourceUnit . getFileName ( ) ) ) { return parser . dietParse ( sourceUnit , compilationResult ) ; } else { return super . dietParse ( sourceUnit , compilationResult ) ; } } private HashtableOfObjectToInt createSourceEnds ( CompilationUnitDeclaration cDecl ) { HashtableOfObjectToInt table = new HashtableOfObjectToInt ( ) ; if ( cDecl . types != null ) { for ( TypeDeclaration tDecl : cDecl . types ) { createSourceEndsForType ( tDecl , table ) ; } } return table ; } @ Override public void reset ( ) { parser . reset ( ) ; } private void createSourceEndsForType ( TypeDeclaration tDecl , HashtableOfObjectToInt table ) { table . put ( tDecl , tDecl . sourceEnd ) ; if ( tDecl . fields != null ) { for ( FieldDeclaration fDecl : tDecl . fields ) { table . put ( fDecl , fDecl . sourceEnd ) ; } } if ( tDecl . methods != null ) { for ( AbstractMethodDeclaration mDecl : tDecl . methods ) { table . put ( mDecl , mDecl . sourceEnd ) ; } } if ( tDecl . memberTypes != null ) { for ( TypeDeclaration innerTDecl : tDecl . memberTypes ) { createSourceEndsForType ( innerTDecl , table ) ; } } } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import java . util . SortedSet ; import org . codehaus . groovy . ast . AnnotatedNode ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassCodeVisitorSupport ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . GenericsType ; import org . codehaus . groovy . ast . ImportNode ; import org . codehaus . groovy . ast . ImportNodeCompatibilityWrapper ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . ModuleNode ; import org . codehaus . groovy . ast . Parameter ; import org . codehaus . groovy . ast . expr . CastExpression ; import org . codehaus . groovy . ast . expr . ClassExpression ; import org . codehaus . groovy . ast . expr . ClosureExpression ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . ast . expr . ConstructorCallExpression ; import org . codehaus . groovy . ast . expr . DeclarationExpression ; import org . codehaus . groovy . ast . expr . FieldExpression ; import org . codehaus . groovy . ast . expr . MethodCallExpression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . codehaus . groovy . ast . stmt . Statement ; import org . codehaus . groovy . control . SourceUnit ; import org . eclipse . core . runtime . IStatus ; import org . eclipse . core . runtime . Status ; import org . eclipse . jdt . groovy . core . Activator ; import org . eclipse . jdt . internal . compiler . ISourceElementRequestor ; import org . eclipse . jdt . internal . compiler . ast . ImportReference ; import org . eclipse . jdt . internal . core . util . Util ; public class GroovyIndexingVisitor extends ClassCodeVisitorSupport { private ISourceElementRequestor requestor ; private ModuleNode module ; public GroovyIndexingVisitor ( ISourceElementRequestor requestor ) { this . requestor = requestor ; } @ Override protected SourceUnit getSourceUnit ( ) { return null ; } void doVisit ( ModuleNode node , ImportReference pkg ) { if ( node == null ) { return ; } module = node ; try { this . visitImports ( node ) ; for ( ClassNode clazz : ( Iterable < ClassNode > ) node . getClasses ( ) ) { this . visitClass ( clazz ) ; } } catch ( RuntimeException e ) { Util . log ( e ) ; } } public void visitImports ( ModuleNode node ) { if ( node != null ) { SortedSet < ImportNode > allImports = new ImportNodeCompatibilityWrapper ( node ) . getAllImportNodes ( ) ; for ( ImportNode importNode : allImports ) { visitAnnotations ( importNode ) ; if ( importNode . getType ( ) != null ) { handleType ( importNode . getType ( ) , false , true ) ; } String importFieldName = ImportNodeCompatibilityWrapper . getFieldName ( importNode ) ; if ( importFieldName != null ) { requestor . acceptUnknownReference ( importFieldName . toCharArray ( ) , <NUM_LIT:0> ) ; } } } } @ Override public void visitMethodCallExpression ( MethodCallExpression call ) { super . visitMethodCallExpression ( call ) ; String methodStr = call . getMethodAsString ( ) ; if ( methodStr == null ) return ; char [ ] methodName = methodStr . toCharArray ( ) ; int start = call . getStart ( ) ; requestor . acceptFieldReference ( methodName , start ) ; for ( int i = <NUM_LIT:0> ; i < <NUM_LIT:7> ; i ++ ) { requestor . acceptMethodReference ( methodName , i , start ) ; } } @ Override public void visitFieldExpression ( FieldExpression expression ) { super . visitFieldExpression ( expression ) ; requestor . acceptFieldReference ( expression . getFieldName ( ) . toCharArray ( ) , expression . getStart ( ) ) ; } @ Override public void visitConstantExpression ( ConstantExpression expression ) { if ( ! ( expression . isTrueExpression ( ) \|\| expression . isFalseExpression ( ) \|\| expression . isNullExpression ( ) \|\| expression . isEmptyStringExpression ( ) ) ) { char [ ] constName = expression . getValue ( ) . toString ( ) . toCharArray ( ) ; int start = expression . getStart ( ) ; requestor . acceptFieldReference ( constName , start ) ; for ( int i = <NUM_LIT:0> ; i < <NUM_LIT:7> ; i ++ ) { requestor . acceptMethodReference ( constName , i , start ) ; } } super . visitConstantExpression ( expression ) ; } @ Override public void visitCastExpression ( CastExpression expression ) { handleType ( expression . getType ( ) , false , true ) ; } @ Override public void visitClassExpression ( ClassExpression expression ) { handleType ( expression . getType ( ) , false , true ) ; } @ Override public void visitConstructorCallExpression ( ConstructorCallExpression call ) { super . visitConstructorCallExpression ( call ) ; requestor . acceptConstructorReference ( call . getType ( ) . getName ( ) . toCharArray ( ) , <NUM_LIT:0> , call . getStart ( ) ) ; } @ Override public void visitDeclarationExpression ( DeclarationExpression expression ) { handleType ( expression . getLeftExpression ( ) . getType ( ) , false , true ) ; expression . getRightExpression ( ) . visit ( this ) ; } @ Override public void visitVariableExpression ( VariableExpression expression ) { requestor . acceptUnknownReference ( expression . getName ( ) . toCharArray ( ) , expression . getStart ( ) ) ; } @ Override public void visitField ( FieldNode node ) { super . visitField ( node ) ; } @ Override public void visitMethod ( MethodNode node ) { if ( ! node . isSynthetic ( ) ) { handleType ( node . getReturnType ( ) , false , true ) ; for ( Parameter param : node . getParameters ( ) ) { handleType ( param . getType ( ) , false , true ) ; } } super . visitMethod ( node ) ; } @ Override public void visitClass ( ClassNode node ) { if ( ! node . isSynthetic ( ) ) { handleType ( node , false , false ) ; handleType ( node . getSuperClass ( ) , false , true ) ; for ( ClassNode impls : node . getInterfaces ( ) ) { handleType ( impls , false , true ) ; } } visitAnnotations ( node ) ; node . visitContents ( this ) ; for ( Statement element : ( Iterable < Statement > ) node . getObjectInitializerStatements ( ) ) { element . visit ( this ) ; } } @ Override public void visitClosureExpression ( ClosureExpression node ) { if ( node . getParameters ( ) != null ) { for ( Parameter param : node . getParameters ( ) ) { handleType ( param . getType ( ) , false , true ) ; } } super . visitClosureExpression ( node ) ; } @ Override public void visitAnnotations ( AnnotatedNode node ) { for ( AnnotationNode an : ( Iterable < AnnotationNode > ) node . getAnnotations ( ) ) { handleType ( an . getClassNode ( ) , true , true ) ; } super . visitAnnotations ( node ) ; } private void handleType ( ClassNode node , boolean isAnnotation , boolean useQualifiedName ) { if ( node == null ) { Util . log ( new Status ( IStatus . WARNING , Activator . PLUGIN_ID , "<STR_LIT>" + module . getDescription ( ) , new RuntimeException ( ) ) ) ; return ; } if ( isAnnotation ) { requestor . acceptAnnotationTypeReference ( splitName ( node , useQualifiedName ) , node . getStart ( ) , node . getEnd ( ) ) ; } else { ClassNode componentType = node . getComponentType ( ) ; requestor . acceptTypeReference ( splitName ( componentType != null ? componentType : node , useQualifiedName ) , node . getStart ( ) , node . getEnd ( ) ) ; } if ( node . isUsingGenerics ( ) && node . getGenericsTypes ( ) != null ) { for ( GenericsType gen : node . getGenericsTypes ( ) ) { ClassNode lowerBound = gen . getLowerBound ( ) ; if ( lowerBound != null ) { handleType ( lowerBound , lowerBound . isAnnotationDefinition ( ) , true ) ; } if ( gen . getUpperBounds ( ) != null ) { for ( ClassNode upper : gen . getUpperBounds ( ) ) { if ( ! upper . getName ( ) . equals ( node . getName ( ) ) ) { handleType ( upper , upper . isAnnotationDefinition ( ) , true ) ; } } } ClassNode genType = gen . getType ( ) ; if ( genType != null && gen . getName ( ) . charAt ( <NUM_LIT:0> ) != '<CHAR_LIT>' ) { handleType ( genType , genType . isAnnotationDefinition ( ) , true ) ; } } } } private char [ ] [ ] splitName ( ClassNode node , boolean useQualifiedName ) { String name = useQualifiedName ? node . getName ( ) : node . getNameWithoutPackage ( ) ; String [ ] nameArr = name . split ( "<STR_LIT:\\.>" ) ; char [ ] [ ] nameCharArr = new char [ nameArr . length ] [ ] ; for ( int i = <NUM_LIT:0> ; i < nameArr . length ; i ++ ) { nameCharArr [ i ] = nameArr [ i ] . toCharArray ( ) ; } return nameCharArr ; } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import java . util . ArrayList ; import java . util . Arrays ; import java . util . Iterator ; import java . util . LinkedList ; import java . util . List ; import org . codehaus . groovy . control . CompilerConfiguration ; import org . codehaus . groovy . control . ErrorCollector ; import org . codehaus . groovy . control . Phases ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . jdt . groovy . integration . EventHandler ; import org . codehaus . jdt . groovy . integration . LanguageSupport ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyCompilationUnitDeclaration ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyErrorCollectorForJDT ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyTypeDeclaration ; import org . codehaus . jdt . groovy . internal . compiler . ast . JDTResolver ; import org . codehaus . jdt . groovy . model . GroovyCompilationUnit ; import org . codehaus . jdt . groovy . model . GroovyNature ; import org . eclipse . core . resources . IProject ; import org . eclipse . jdt . core . IJavaElement ; import org . eclipse . jdt . core . ISourceRange ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . WorkingCopyOwner ; import org . eclipse . jdt . core . search . IJavaSearchScope ; import org . eclipse . jdt . core . search . SearchPattern ; import org . eclipse . jdt . core . search . SearchRequestor ; import org . eclipse . jdt . groovy . core . util . ContentTypeUtils ; import org . eclipse . jdt . groovy . core . util . GroovyUtils ; import org . eclipse . jdt . groovy . core . util . ReflectionUtils ; import org . eclipse . jdt . groovy . search . ITypeRequestor ; import org . eclipse . jdt . groovy . search . TypeInferencingVisitorFactory ; import org . eclipse . jdt . groovy . search . TypeInferencingVisitorWithRequestor ; import org . eclipse . jdt . groovy . search . TypeRequestorFactory ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . DefaultErrorHandlingPolicies ; import org . eclipse . jdt . internal . compiler . IProblemFactory ; import org . eclipse . jdt . internal . compiler . ISourceElementRequestor ; import org . eclipse . jdt . internal . compiler . SourceElementParser ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . env . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . parser . Parser ; import org . eclipse . jdt . internal . compiler . problem . DefaultProblemFactory ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; import org . eclipse . jdt . internal . core . BinaryMember ; import org . eclipse . jdt . internal . core . BinaryType ; import org . eclipse . jdt . internal . core . ClassFile ; import org . eclipse . jdt . internal . core . CompilationUnit ; import org . eclipse . jdt . internal . core . JavaElement ; import org . eclipse . jdt . internal . core . JavaModelManager ; import org . eclipse . jdt . internal . core . PackageFragment ; import org . eclipse . jdt . internal . core . search . indexing . IndexingParser ; import org . eclipse . jdt . internal . core . search . matching . ImportMatchLocatorParser ; import org . eclipse . jdt . internal . core . search . matching . MatchLocator ; import org . eclipse . jdt . internal . core . search . matching . MatchLocatorParser ; import org . eclipse . jdt . internal . core . search . matching . PossibleMatch ; import org . eclipse . jdt . internal . core . util . Util ; @ SuppressWarnings ( "<STR_LIT>" ) public class GroovyLanguageSupport implements LanguageSupport { public Parser getParser ( Object requestor , CompilerOptions compilerOptions , ProblemReporter problemReporter , boolean parseLiteralExpressionsAsConstants , int variant ) { if ( variant == <NUM_LIT:1> ) { return new MultiplexingParser ( requestor , compilerOptions , problemReporter , parseLiteralExpressionsAsConstants ) ; } else if ( variant == <NUM_LIT:2> ) { return new MultiplexingCommentRecorderParser ( requestor , compilerOptions , problemReporter , parseLiteralExpressionsAsConstants ) ; } else { return new MultiplexingCommentRecorderParser ( requestor , compilerOptions , problemReporter , parseLiteralExpressionsAsConstants , false ) ; } } public IndexingParser getIndexingParser ( ISourceElementRequestor requestor , IProblemFactory problemFactory , CompilerOptions options , boolean reportLocalDeclarations , boolean optimizeStringLiterals , boolean useSourceJavadocParser ) { return new MultiplexingIndexingParser ( requestor , problemFactory , options , reportLocalDeclarations , optimizeStringLiterals , useSourceJavadocParser ) ; } public MatchLocatorParser getMatchLocatorParserParser ( ProblemReporter problemReporter , MatchLocator locator ) { return new MultiplexingMatchLocatorParser ( problemReporter , locator ) ; } public ImportMatchLocatorParser getImportMatchLocatorParserParser ( ProblemReporter problemReporter , MatchLocator locator ) { return new MultiplexingImportMatchLocatorParser ( problemReporter , locator ) ; } public SourceElementParser getSourceElementParser ( ISourceElementRequestor requestor , IProblemFactory problemFactory , CompilerOptions options , boolean reportLocalDeclarations , boolean optimizeStringLiterals , boolean useSourceJavadocParser ) { ProblemReporter problemReporter = new ProblemReporter ( DefaultErrorHandlingPolicies . proceedWithAllProblems ( ) , options , new DefaultProblemFactory ( ) ) ; return new MultiplexingSourceElementRequestorParser ( problemReporter , requestor , problemFactory , options , reportLocalDeclarations , optimizeStringLiterals ) ; } public CompilationUnit newCompilationUnit ( PackageFragment parent , String name , WorkingCopyOwner owner ) { if ( ContentTypeUtils . isGroovyLikeFileName ( name ) ) { return new GroovyCompilationUnit ( parent , name , owner ) ; } else { return new CompilationUnit ( parent , name , owner ) ; } } public CompilationUnitDeclaration newCompilationUnitDeclaration ( ICompilationUnit unit , ProblemReporter problemReporter , CompilationResult compilationResult , int sourceLength ) { if ( ContentTypeUtils . isGroovyLikeFileName ( compilationResult . getFileName ( ) ) ) { CompilerConfiguration groovyCompilerConfig = new CompilerConfiguration ( ) ; ErrorCollector errorCollector = new GroovyErrorCollectorForJDT ( groovyCompilerConfig ) ; SourceUnit groovySourceUnit = new SourceUnit ( new String ( compilationResult . getFileName ( ) ) , new String ( unit . getContents ( ) ) , groovyCompilerConfig , null , errorCollector ) ; org . codehaus . groovy . control . CompilationUnit groovyCU = new org . codehaus . groovy . control . CompilationUnit ( groovyCompilerConfig ) ; JDTResolver resolver = new JDTResolver ( groovyCU ) ; groovyCU . setResolveVisitor ( resolver ) ; compilationResult . lineSeparatorPositions = GroovyUtils . getSourceLineSeparatorsIn ( unit . getContents ( ) ) ; groovyCU . addSource ( groovySourceUnit ) ; GroovyCompilationUnitDeclaration gcuDeclaration = new GroovyCompilationUnitDeclaration ( problemReporter , compilationResult , sourceLength , groovyCU , groovySourceUnit , null ) ; gcuDeclaration . processToPhase ( Phases . CONVERSION ) ; gcuDeclaration . populateCompilationUnitDeclaration ( ) ; for ( TypeDeclaration decl : gcuDeclaration . types ) { GroovyTypeDeclaration gtDeclaration = ( GroovyTypeDeclaration ) decl ; resolver . record ( gtDeclaration ) ; } return gcuDeclaration ; } else { return new CompilationUnitDeclaration ( problemReporter , compilationResult , sourceLength ) ; } } public boolean isInterestingProject ( IProject project ) { return GroovyNature . hasGroovyNature ( project ) ; } public boolean isSourceFile ( String fileName , boolean isInterestingProject ) { if ( isInterestingProject ) { return Util . isJavaLikeFileName ( fileName ) ; } else { return ContentTypeUtils . isJavaLikeButNotGroovyLikeExtension ( fileName ) ; } } public boolean isInterestingSourceFile ( String fileName ) { return ContentTypeUtils . isGroovyLikeFileName ( fileName ) ; } public boolean maybePerformDelegatedSearch ( PossibleMatch possibleMatch , SearchPattern pattern , SearchRequestor requestor ) { if ( possibleMatch . openable != null && possibleMatch . openable . exists ( ) ) { ITypeRequestor typeRequestor = new TypeRequestorFactory ( ) . createRequestor ( possibleMatch , pattern , requestor ) ; if ( typeRequestor != null ) { TypeInferencingVisitorWithRequestor visitor = new TypeInferencingVisitorFactory ( ) . createVisitor ( possibleMatch ) ; visitor . visitCompilationUnit ( typeRequestor ) ; return true ; } } return false ; } public EventHandler getEventHandler ( ) { return new GroovyEventHandler ( ) ; } public void filterNonSourceMembers ( BinaryType binaryType ) { try { IJavaElement [ ] childrenArr = binaryType . getChildren ( ) ; List < IJavaElement > children = new ArrayList < IJavaElement > ( Arrays . asList ( childrenArr ) ) ; List < JavaElement > removedChildren = new LinkedList < JavaElement > ( ) ; for ( Iterator < IJavaElement > childIter = children . iterator ( ) ; childIter . hasNext ( ) ; ) { IJavaElement child = childIter . next ( ) ; if ( child instanceof BinaryMember ) { BinaryMember binaryChild = ( BinaryMember ) child ; ISourceRange range = binaryChild . getSourceRange ( ) ; if ( range == null \|\| range . getOffset ( ) == - <NUM_LIT:1> ) { removedChildren . add ( binaryChild ) ; childIter . remove ( ) ; } } } JavaElement [ ] newChildrenArr = children . toArray ( new JavaElement [ children . size ( ) ] ) ; Object classFileInfo = ( ( ClassFile ) binaryType . getParent ( ) ) . getElementInfo ( ) ; ReflectionUtils . setPrivateField ( classFileInfo . getClass ( ) , "<STR_LIT>" , classFileInfo , newChildrenArr ) ; JavaModelManager manager = JavaModelManager . getJavaModelManager ( ) ; for ( JavaElement removedChild : removedChildren ) { if ( removedChild instanceof BinaryType ) { manager . removeInfoAndChildren ( ( JavaElement ) removedChild . getParent ( ) ) ; } else { manager . removeInfoAndChildren ( removedChild ) ; } } } catch ( JavaModelException e ) { e . printStackTrace ( ) ; } } public static ISearchScopeExpander searchScopeExpander ; public IJavaSearchScope expandSearchScope ( IJavaSearchScope scope , SearchPattern pattern , SearchRequestor requestor ) { if ( searchScopeExpander != null ) { return searchScopeExpander . expandSearchScope ( scope , pattern , requestor ) ; } return scope ; } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import org . codehaus . jdt . groovy . model . GroovyCompilationUnit ; import org . eclipse . jdt . core . search . IJavaSearchScope ; import org . eclipse . jdt . core . search . SearchPattern ; import org . eclipse . jdt . core . search . SearchRequestor ; public interface ISearchScopeExpander { IJavaSearchScope expandSearchScope ( IJavaSearchScope scope , SearchPattern pattern , SearchRequestor requestor ) ; } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyParser ; import org . eclipse . jdt . groovy . core . util . ContentTypeUtils ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . env . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; import org . eclipse . jdt . internal . core . search . matching . ImportMatchLocatorParser ; import org . eclipse . jdt . internal . core . search . matching . MatchLocator ; public class MultiplexingImportMatchLocatorParser extends ImportMatchLocatorParser { GroovyParser groovyParser ; protected MultiplexingImportMatchLocatorParser ( ProblemReporter problemReporter , MatchLocator locator ) { super ( problemReporter , locator ) ; groovyParser = new GroovyParser ( locator . options , problemReporter , false , true ) ; } @ Override public CompilationUnitDeclaration dietParse ( ICompilationUnit sourceUnit , CompilationResult compilationResult ) { if ( ContentTypeUtils . isGroovyLikeFileName ( sourceUnit . getFileName ( ) ) ) { return new GroovyParser ( this . groovyParser . getCompilerOptions ( ) , this . groovyParser . problemReporter , false , true ) . dietParse ( sourceUnit , compilationResult ) ; } else { return super . dietParse ( sourceUnit , compilationResult ) ; } } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyParser ; import org . eclipse . jdt . groovy . core . util . ContentTypeUtils ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . env . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . parser . Parser ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; @ SuppressWarnings ( "<STR_LIT>" ) public class MultiplexingParser extends Parser { GroovyParser groovyParser ; public MultiplexingParser ( Object requestor , CompilerOptions compilerOptions , ProblemReporter problemReporter , boolean optimizeStringLiterals ) { super ( problemReporter , optimizeStringLiterals ) ; groovyParser = new GroovyParser ( requestor , compilerOptions , problemReporter , true , false ) ; } @ Override public CompilationUnitDeclaration dietParse ( ICompilationUnit sourceUnit , CompilationResult compilationResult ) { if ( ContentTypeUtils . isGroovyLikeFileName ( sourceUnit . getFileName ( ) ) ) { return groovyParser . dietParse ( sourceUnit , compilationResult ) ; } else { return super . dietParse ( sourceUnit , compilationResult ) ; } } @ Override public void reset ( ) { groovyParser . reset ( ) ; } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import org . codehaus . jdt . groovy . integration . EventHandler ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyParser ; import org . eclipse . jdt . internal . core . JavaProject ; @ SuppressWarnings ( "<STR_LIT>" ) public class GroovyEventHandler implements EventHandler { public void handle ( JavaProject javaProject , String event ) { if ( event . equals ( "<STR_LIT>" ) ) { if ( javaProject != null ) { GroovyParser . tidyCache ( javaProject . getProject ( ) . getName ( ) ) ; } } else if ( event . equals ( "<STR_LIT>" ) ) { if ( javaProject != null ) { String projectName = javaProject . getProject ( ) . getName ( ) ; GroovyParser . closeClassLoader ( projectName ) ; GroovyParser . tidyCache ( projectName ) ; } } } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyParser ; import org . eclipse . jdt . groovy . core . util . ContentTypeUtils ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . env . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . impl . CompilerOptions ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; import org . eclipse . jdt . internal . core . util . CommentRecorderParser ; @ SuppressWarnings ( "<STR_LIT>" ) public class MultiplexingCommentRecorderParser extends CommentRecorderParser { GroovyParser groovyParser ; private boolean allowTransforms = true ; public MultiplexingCommentRecorderParser ( Object requestor , CompilerOptions compilerOptions , ProblemReporter problemReporter , boolean optimizeStringLiterals , boolean allowTransforms ) { super ( problemReporter , optimizeStringLiterals ) ; groovyParser = new GroovyParser ( requestor , compilerOptions , problemReporter , allowTransforms , true ) ; this . allowTransforms = allowTransforms ; } public MultiplexingCommentRecorderParser ( Object requestor , CompilerOptions compilerOptions , ProblemReporter problemReporter , boolean optimizeStringLiterals ) { this ( requestor , compilerOptions , problemReporter , optimizeStringLiterals , true ) ; } @ Override public CompilationUnitDeclaration dietParse ( ICompilationUnit sourceUnit , CompilationResult compilationResult ) { if ( ContentTypeUtils . isGroovyLikeFileName ( sourceUnit . getFileName ( ) ) ) { if ( this . scanner != null ) { this . scanner . setSource ( sourceUnit . getContents ( ) ) ; } return new GroovyParser ( this . groovyParser . requestor , this . groovyParser . getCompilerOptions ( ) , this . groovyParser . problemReporter , allowTransforms , true ) . dietParse ( sourceUnit , compilationResult ) ; } else { return super . dietParse ( sourceUnit , compilationResult ) ; } } @ Override public void reset ( ) { groovyParser . reset ( ) ; } } </s>
<s> package org . codehaus . jdt . groovy . integration . internal ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyParser ; import org . eclipse . jdt . groovy . core . util . ContentTypeUtils ; import org . eclipse . jdt . internal . compiler . CompilationResult ; import org . eclipse . jdt . internal . compiler . ast . CompilationUnitDeclaration ; import org . eclipse . jdt . internal . compiler . env . ICompilationUnit ; import org . eclipse . jdt . internal . compiler . problem . ProblemReporter ; import org . eclipse . jdt . internal . core . search . matching . MatchLocator ; import org . eclipse . jdt . internal . core . search . matching . MatchLocatorParser ; public class MultiplexingMatchLocatorParser extends MatchLocatorParser { GroovyParser groovyParser ; protected MultiplexingMatchLocatorParser ( ProblemReporter problemReporter , MatchLocator locator ) { super ( problemReporter , locator ) ; groovyParser = new GroovyParser ( locator . options , problemReporter , false , true ) ; } @ Override public CompilationUnitDeclaration dietParse ( ICompilationUnit sourceUnit , CompilationResult compilationResult ) { if ( ContentTypeUtils . isGroovyLikeFileName ( sourceUnit . getFileName ( ) ) ) { return new GroovyParser ( this . groovyParser . getCompilerOptions ( ) , this . groovyParser . problemReporter , false , true ) . dietParse ( sourceUnit , compilationResult ) ; } else { return super . dietParse ( sourceUnit , compilationResult ) ; } } } </s>
<s> package org . codehaus . jdt . groovy . control ; import groovy . lang . GroovyClassLoader ; import org . codehaus . groovy . control . CompilerConfiguration ; import org . codehaus . groovy . control . ErrorCollector ; import org . codehaus . groovy . control . SourceUnit ; import org . eclipse . core . resources . IFile ; public class EclipseSourceUnit extends SourceUnit { final private IFile file ; public EclipseSourceUnit ( IFile resource , String filepath , String string , CompilerConfiguration groovyCompilerConfig , GroovyClassLoader classLoader , ErrorCollector errorCollector ) { super ( filepath , string , groovyCompilerConfig , classLoader , errorCollector ) ; this . file = resource ; } public IFile getEclipseFile ( ) { return file ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import org . codehaus . groovy . ast . ASTNode ; import org . eclipse . jdt . core . IJavaElement ; public interface ITypeRequestor { public static enum VisitStatus { CONTINUE ( <NUM_LIT:0> ) , CANCEL_BRANCH ( <NUM_LIT:1> ) , CANCEL_MEMBER ( <NUM_LIT:2> ) , STOP_VISIT ( <NUM_LIT:3> ) ; int val ; private VisitStatus ( int val ) { this . val = val ; } public static VisitStatus merge ( VisitStatus status1 , VisitStatus status2 ) { if ( status1 . val > status2 . val ) { return status1 ; } return status2 ; } } VisitStatus acceptASTNode ( ASTNode node , TypeLookupResult result , IJavaElement enclosingElement ) ; } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . HashMap ; import java . util . Iterator ; import java . util . LinkedHashSet ; import java . util . Map ; import java . util . Stack ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . GenericsType ; import org . eclipse . core . runtime . IStatus ; import org . eclipse . core . runtime . Status ; import org . eclipse . jdt . internal . core . util . Util ; public class GenericsMapper { private Stack < Map < String , ClassNode > > allGenerics = new Stack < Map < String , ClassNode > > ( ) ; public static GenericsMapper gatherGenerics ( ClassNode resolvedType , ClassNode declaringType ) { ClassNode ucandidate = resolvedType . redirect ( ) ; ClassNode rcandidate = resolvedType ; GenericsType [ ] ugts ; GenericsType [ ] rgts ; GenericsMapper mapper = new GenericsMapper ( ) ; LinkedHashSet < ClassNode > uHierarchy = new LinkedHashSet < ClassNode > ( ) ; VariableScope . createTypeHierarchy ( ucandidate , uHierarchy , false ) ; Iterator < ClassNode > uIter = uHierarchy . iterator ( ) ; LinkedHashSet < ClassNode > rHierarchy = new LinkedHashSet < ClassNode > ( ) ; VariableScope . createTypeHierarchy ( rcandidate , rHierarchy , true ) ; Iterator < ClassNode > rIter = rHierarchy . iterator ( ) ; while ( uIter . hasNext ( ) && rIter . hasNext ( ) ) { ucandidate = uIter . next ( ) ; rcandidate = rIter . next ( ) ; ugts = ucandidate . getGenericsTypes ( ) ; ugts = ugts == null ? VariableScope . NO_GENERICS : ugts ; rgts = rcandidate . getGenericsTypes ( ) ; rgts = rgts == null ? VariableScope . NO_GENERICS : rgts ; HashMap < String , ClassNode > resolved = new HashMap < String , ClassNode > ( <NUM_LIT:2> , <NUM_LIT:1.0f> ) ; for ( int i = <NUM_LIT:0> ; i < rgts . length && i < ugts . length ; i ++ ) { resolved . put ( ugts [ i ] . getName ( ) , mapper . resolveParameter ( rgts [ i ] , <NUM_LIT:0> ) ) ; } mapper . allGenerics . push ( resolved ) ; if ( rcandidate . getName ( ) . equals ( declaringType . getName ( ) ) ) { break ; } } return mapper ; } boolean hasGenerics ( ) { return ! allGenerics . isEmpty ( ) && allGenerics . peek ( ) . size ( ) > <NUM_LIT:0> ; } public ClassNode resolveParameter ( GenericsType topGT , int depth ) { if ( depth > <NUM_LIT:10> ) { Util . log ( new Status ( IStatus . WARNING , "<STR_LIT>" , "<STR_LIT>" + topGT ) ) ; return topGT . getType ( ) ; } if ( allGenerics . isEmpty ( ) ) { return topGT . getType ( ) ; } ClassNode origType = findParameter ( topGT . getName ( ) , topGT . getType ( ) ) ; if ( origType . getGenericsTypes ( ) != null ) { origType = VariableScope . clone ( origType ) ; GenericsType [ ] genericsTypes = origType . getGenericsTypes ( ) ; for ( GenericsType genericsType : genericsTypes ) { if ( genericsType . getName ( ) . equals ( topGT . getName ( ) ) ) { continue ; } genericsType . setType ( findParameter ( genericsType . getName ( ) , resolveParameter ( genericsType , depth + <NUM_LIT:1> ) ) ) ; genericsType . setLowerBound ( null ) ; genericsType . setUpperBounds ( null ) ; genericsType . setName ( genericsType . getType ( ) . getName ( ) ) ; } } return origType ; } ClassNode findParameter ( String parameterName , ClassNode defaultType ) { if ( allGenerics . isEmpty ( ) ) { return defaultType ; } ClassNode type = allGenerics . peek ( ) . get ( parameterName ) ; if ( type == null ) { return defaultType ; } return type ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . List ; import org . codehaus . jdt . groovy . model . GroovyCompilationUnit ; import org . eclipse . core . resources . IProject ; import org . eclipse . core . runtime . CoreException ; import org . eclipse . jdt . core . IOpenable ; import org . eclipse . jdt . internal . core . search . matching . PossibleMatch ; import org . eclipse . jdt . internal . core . util . Util ; public class TypeInferencingVisitorFactory { public TypeInferencingVisitorWithRequestor createVisitor ( PossibleMatch possibleMatch ) { try { IOpenable openable = possibleMatch . openable ; if ( openable instanceof GroovyCompilationUnit ) { TypeInferencingVisitorWithRequestor visitor = new TypeInferencingVisitorWithRequestor ( ( GroovyCompilationUnit ) openable , createLookups ( ( ( GroovyCompilationUnit ) openable ) . getJavaProject ( ) . getProject ( ) ) ) ; return visitor ; } else { Util . log ( new RuntimeException ( ) , "<STR_LIT>" + new String ( possibleMatch . getFileName ( ) ) ) ; } } catch ( Exception e ) { Util . log ( e , "<STR_LIT>" + possibleMatch . document . getPath ( ) ) ; } return null ; } public TypeInferencingVisitorWithRequestor createVisitor ( GroovyCompilationUnit unit ) { return new TypeInferencingVisitorWithRequestor ( unit , createLookups ( unit . getJavaProject ( ) . getProject ( ) ) ) ; } private ITypeLookup [ ] createLookups ( IProject project ) { ITypeLookup [ ] lookups ; try { List < ITypeLookup > lookupsList = TypeLookupRegistry . getRegistry ( ) . getLookupsFor ( project ) ; lookupsList . add ( new CategoryTypeLookup ( ) ) ; lookupsList . add ( new SimpleTypeLookup ( ) ) ; lookups = lookupsList . toArray ( new ITypeLookup [ <NUM_LIT:0> ] ) ; } catch ( CoreException e ) { Util . log ( e , "<STR_LIT>" + project . getName ( ) + "<STR_LIT>" ) ; lookups = new ITypeLookup [ ] { new CategoryTypeLookup ( ) , new SimpleTypeLookup ( ) } ; } return lookups ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . Collections ; import java . util . List ; import org . codehaus . groovy . ast . AnnotatedNode ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . ImportNode ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . Parameter ; import org . codehaus . groovy . ast . Variable ; import org . codehaus . groovy . ast . expr . BinaryExpression ; import org . codehaus . groovy . ast . expr . DeclarationExpression ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . expr . ListExpression ; import org . codehaus . groovy . ast . expr . TupleExpression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . codehaus . groovy . syntax . Types ; public class AssignmentStorer { public void storeAssignment ( BinaryExpression assign , VariableScope scope , ClassNode rhsType ) { if ( assign instanceof DeclarationExpression ) { DeclarationExpression declExpr = ( DeclarationExpression ) assign ; if ( declExpr . isMultipleAssignmentDeclaration ( ) ) { TupleExpression tuple = ( TupleExpression ) declExpr . getLeftExpression ( ) ; handleMultiAssignment ( scope , rhsType , declExpr , tuple ) ; } else { VariableExpression variableExpression = declExpr . getVariableExpression ( ) ; ClassNode varType ; if ( variableExpression . getOriginType ( ) != null ) { varType = variableExpression . getOriginType ( ) ; } else { varType = variableExpression . getType ( ) ; } ClassNode typeToStore ; if ( ! VariableScope . isVoidOrObject ( varType ) && ! varType . equals ( VariableScope . OBJECT_CLASS_NODE ) ) { typeToStore = varType ; } else if ( rhsType != null ) { typeToStore = rhsType ; } else { typeToStore = VariableScope . OBJECT_CLASS_NODE ; } scope . addVariable ( variableExpression . getName ( ) , typeToStore , null ) ; } } else { if ( isInterestingOperation ( assign ) && ! VariableScope . isVoidOrObject ( rhsType ) ) { if ( assign . getLeftExpression ( ) instanceof VariableExpression ) { VariableExpression var = ( VariableExpression ) assign . getLeftExpression ( ) ; ClassNode declaringType = findDeclaringType ( var ) ; if ( scope . inScriptRunMethod ( ) ) { scope . updateOrAddVariable ( var . getName ( ) , rhsType , declaringType ) ; } else { scope . updateVariable ( var . getName ( ) , rhsType , declaringType ) ; } } else if ( assign . getLeftExpression ( ) instanceof TupleExpression ) { TupleExpression tuple = ( TupleExpression ) assign . getLeftExpression ( ) ; handleMultiAssignment ( scope , rhsType , assign , tuple ) ; } else { } } } } public void storeField ( FieldNode node , VariableScope scope ) { Expression init = node . getInitialExpression ( ) ; if ( ! isObjectType ( init ) ) { scope . addVariable ( node . getName ( ) , init . getType ( ) , node . getDeclaringClass ( ) ) ; } } public void storeImport ( ImportNode node , VariableScope scope ) { ClassNode type = node . getType ( ) ; if ( node . isStar ( ) && type != null ) { List < FieldNode > fields = type . getFields ( ) ; for ( FieldNode field : fields ) { if ( field . isStatic ( ) ) { scope . addVariable ( field . getName ( ) , field . getType ( ) , type ) ; } } List < MethodNode > methods = node . getType ( ) . getMethods ( ) ; for ( MethodNode method : methods ) { if ( method . isStatic ( ) ) { scope . addVariable ( method . getName ( ) , method . getReturnType ( ) , type ) ; } } } else { String fieldName = node . getFieldName ( ) ; if ( node . isStatic ( ) && type != null && fieldName != null ) { String alias ; if ( node . getAlias ( ) != null ) { alias = node . getAlias ( ) ; } else { alias = fieldName ; } FieldNode field = type . getField ( fieldName ) ; if ( field != null ) { scope . addVariable ( alias , field . getType ( ) , type ) ; } List < MethodNode > methods = type . getDeclaredMethods ( fieldName ) ; if ( methods != null ) { for ( MethodNode method : methods ) { scope . addVariable ( alias , method . getReturnType ( ) , type ) ; } } } } } public void storeParameterType ( Parameter node , VariableScope scope ) { scope . addVariable ( node ) ; } private void handleMultiAssignment ( VariableScope scope , ClassNode objectExpressionType , BinaryExpression binaryExpr , TupleExpression tuple ) { ClassNode maybeType = findComponentType ( objectExpressionType ) ; ListExpression rhs = binaryExpr . getRightExpression ( ) instanceof ListExpression ? ( ListExpression ) binaryExpr . getRightExpression ( ) : null ; List < Expression > lhsExprs = ( List < Expression > ) ( tuple == null ? Collections . emptyList ( ) : tuple . getExpressions ( ) ) ; List < Expression > rhsExprs = ( List < Expression > ) ( rhs == null ? Collections . emptyList ( ) : rhs . getExpressions ( ) ) ; for ( int i = <NUM_LIT:0> , lhsSize = lhsExprs . size ( ) , rhsSize = rhsExprs . size ( ) ; i < lhsSize ; i ++ ) { Expression lhsExpr = lhsExprs . get ( i ) ; ClassNode rhsType = i < rhsSize ? rhsExprs . get ( i ) . getType ( ) : maybeType ; if ( lhsExpr instanceof VariableExpression ) { scope . addVariable ( ( ( Variable ) lhsExpr ) . getName ( ) , rhsType , null ) ; } } } private ClassNode findComponentType ( ClassNode objectExpressionType ) { if ( objectExpressionType == null ) { return VariableScope . OBJECT_CLASS_NODE ; } else { return VariableScope . extractElementType ( objectExpressionType ) ; } } private boolean isInterestingOperation ( BinaryExpression assign ) { switch ( assign . getOperation ( ) . getType ( ) ) { case Types . EQUALS : return true ; default : return false ; } } private ClassNode findDeclaringType ( VariableExpression var ) { return var . getAccessedVariable ( ) instanceof AnnotatedNode ? ( ( AnnotatedNode ) var . getAccessedVariable ( ) ) . getDeclaringClass ( ) : null ; } private boolean isObjectType ( Expression init ) { return init == null \|\| ClassHelper . OBJECT_TYPE . equals ( init . getType ( ) ) ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import org . codehaus . groovy . ast . ASTNode ; import org . codehaus . groovy . ast . ClassCodeVisitorSupport ; import org . codehaus . groovy . ast . expr . BinaryExpression ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . ast . expr . FieldExpression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . codehaus . groovy . control . SourceUnit ; public class EqualityVisitor extends ClassCodeVisitorSupport { private final ASTNode nodeToLookFor ; private boolean nodeFound = false ; public EqualityVisitor ( ASTNode nodeToLookFor ) { this . nodeToLookFor = nodeToLookFor ; } public boolean doVisit ( ASTNode toVisit ) { toVisit . visit ( this ) ; return nodeFound ; } @ Override protected SourceUnit getSourceUnit ( ) { return null ; } @ Override public void visitFieldExpression ( FieldExpression expression ) { if ( nodeToLookFor == expression ) { nodeFound = true ; } else { super . visitFieldExpression ( expression ) ; } } @ Override public void visitVariableExpression ( VariableExpression expression ) { if ( nodeToLookFor == expression ) { nodeFound = true ; } else { super . visitVariableExpression ( expression ) ; } } @ Override public void visitConstantExpression ( ConstantExpression expression ) { if ( nodeToLookFor == expression ) { nodeFound = true ; } else { super . visitConstantExpression ( expression ) ; } } public static boolean checkForAssignment ( ASTNode node , BinaryExpression binaryExpr ) { return binaryExpr != null && new EqualityVisitor ( node ) . doVisit ( binaryExpr . getLeftExpression ( ) ) ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . ImportNode ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . Parameter ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . expr . PropertyExpression ; import org . codehaus . jdt . groovy . model . GroovyCompilationUnit ; public interface ITypeLookup { TypeLookupResult lookupType ( Expression node , VariableScope scope , ClassNode objectExpressionType ) ; TypeLookupResult lookupType ( FieldNode node , VariableScope scope ) ; TypeLookupResult lookupType ( MethodNode node , VariableScope scope ) ; TypeLookupResult lookupType ( AnnotationNode node , VariableScope scope ) ; TypeLookupResult lookupType ( ImportNode node , VariableScope scope ) ; TypeLookupResult lookupType ( ClassNode node , VariableScope scope ) ; TypeLookupResult lookupType ( Parameter node , VariableScope scope ) ; void initialize ( GroovyCompilationUnit unit , VariableScope topLevelScope ) ; } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . List ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . MethodNode ; public enum AccessorSupport { GETTER ( "<STR_LIT:get>" ) , SETTER ( "<STR_LIT>" ) , ISSER ( "<STR_LIT>" ) , NONE ( "<STR_LIT>" ) ; private final String prefix ; private AccessorSupport ( String prefix ) { this . prefix = prefix ; } public boolean isAccessor ( ) { return this != NONE ; } public boolean isAccessorKind ( MethodNode node , boolean isCategory ) { int args = isCategory ? <NUM_LIT:1> : <NUM_LIT:0> ; ClassNode returnType = node . getReturnType ( ) ; switch ( this ) { case GETTER : return ( node . getParameters ( ) == null \|\| node . getParameters ( ) . length == args ) && ! returnType . equals ( VariableScope . VOID_CLASS_NODE ) ; case ISSER : return ! isCategory && ( node . getParameters ( ) == null \|\| node . getParameters ( ) . length == args ) && ( returnType . equals ( VariableScope . OBJECT_CLASS_NODE ) \|\| returnType . equals ( VariableScope . BOOLEAN_CLASS_NODE ) \|\| returnType . equals ( ClassHelper . boolean_TYPE ) ) ; case SETTER : return node . getParameters ( ) != null && node . getParameters ( ) . length == args + <NUM_LIT:1> && ( returnType . equals ( VariableScope . VOID_CLASS_NODE ) \|\| returnType . equals ( VariableScope . OBJECT_CLASS_NODE ) ) ; case NONE : default : return false ; } } public String createAccessorName ( String name ) { if ( ! name . startsWith ( GETTER . prefix ) && ! name . startsWith ( SETTER . prefix ) && name . length ( ) > <NUM_LIT:0> ) { return this . prefix + Character . toUpperCase ( name . charAt ( <NUM_LIT:0> ) ) + ( name . length ( ) > <NUM_LIT:1> ? name . substring ( <NUM_LIT:1> ) : "<STR_LIT>" ) ; } else { return null ; } } public static AccessorSupport findAccessorKind ( MethodNode node , boolean isCategory ) { AccessorSupport accessor = create ( node . getName ( ) , isCategory ) ; return accessor . isAccessorKind ( node , isCategory ) ? accessor : NONE ; } public static MethodNode findAccessorMethodForPropertyName ( String name , ClassNode declaringType , boolean isCategory ) { if ( name . length ( ) <= <NUM_LIT:0> ) { return null ; } String suffix = Character . toUpperCase ( name . charAt ( <NUM_LIT:0> ) ) + ( name . length ( ) > <NUM_LIT:1> ? name . substring ( <NUM_LIT:1> ) : "<STR_LIT>" ) ; String getterName = "<STR_LIT:get>" + suffix ; List < MethodNode > methods = declaringType . getMethods ( getterName ) ; if ( ! methods . isEmpty ( ) ) { MethodNode maybeMethod = methods . get ( <NUM_LIT:0> ) ; if ( findAccessorKind ( maybeMethod , isCategory ) == GETTER ) { return maybeMethod ; } } String setterName = "<STR_LIT>" + suffix ; methods = declaringType . getMethods ( setterName ) ; if ( ! methods . isEmpty ( ) ) { MethodNode maybeMethod = methods . get ( <NUM_LIT:0> ) ; if ( findAccessorKind ( maybeMethod , isCategory ) == SETTER ) { return maybeMethod ; } } String isserName = "<STR_LIT>" + suffix ; methods = declaringType . getMethods ( isserName ) ; if ( ! methods . isEmpty ( ) ) { MethodNode maybeMethod = methods . get ( <NUM_LIT:0> ) ; if ( findAccessorKind ( maybeMethod , isCategory ) == ISSER ) { return maybeMethod ; } } return null ; } public static boolean isGetter ( MethodNode node ) { return node . getReturnType ( ) != VariableScope . VOID_CLASS_NODE && node . getParameters ( ) . length == <NUM_LIT:0> && ( ( node . getName ( ) . startsWith ( "<STR_LIT:get>" ) && node . getName ( ) . length ( ) > <NUM_LIT:3> ) \|\| ( node . getName ( ) . startsWith ( "<STR_LIT>" ) && node . getName ( ) . length ( ) > <NUM_LIT:2> ) ) ; } public static AccessorSupport create ( String methodName , boolean isCategory ) { AccessorSupport accessor = AccessorSupport . NONE ; if ( ! isCategory && methodName . length ( ) > <NUM_LIT:2> && methodName . startsWith ( "<STR_LIT>" ) && Character . isUpperCase ( methodName . charAt ( <NUM_LIT:2> ) ) ) { accessor = AccessorSupport . ISSER ; } if ( ! accessor . isAccessor ( ) ) { if ( methodName . length ( ) > <NUM_LIT:3> && ( methodName . startsWith ( "<STR_LIT:get>" ) \|\| methodName . startsWith ( "<STR_LIT>" ) ) && Character . isUpperCase ( methodName . charAt ( <NUM_LIT:3> ) ) ) { accessor = methodName . charAt ( <NUM_LIT:0> ) == '<CHAR_LIT>' ? AccessorSupport . GETTER : AccessorSupport . SETTER ; } } return accessor ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . List ; import org . codehaus . groovy . ast . ASTNode ; import org . eclipse . jdt . core . IJavaElement ; public class OrPatternRequestor implements ITypeRequestor { private final ITypeRequestor [ ] requestors ; public OrPatternRequestor ( List < ITypeRequestor > requestors ) { this . requestors = requestors . toArray ( new ITypeRequestor [ requestors . size ( ) ] ) ; } public VisitStatus acceptASTNode ( ASTNode node , TypeLookupResult result , IJavaElement enclosingElement ) { VisitStatus status = VisitStatus . CONTINUE ; for ( ITypeRequestor requestor : requestors ) { status = VisitStatus . merge ( status , requestor . acceptASTNode ( node , result , enclosingElement ) ) ; } return status ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . HashSet ; import java . util . Set ; import org . codehaus . groovy . ast . ASTNode ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . ConstructorNode ; import org . codehaus . groovy . ast . ImportNode ; import org . codehaus . groovy . ast . expr . ClassExpression ; import org . eclipse . core . runtime . CoreException ; import org . eclipse . core . runtime . NullProgressMonitor ; import org . eclipse . jdt . core . IJavaElement ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . core . search . SearchMatch ; import org . eclipse . jdt . core . search . SearchParticipant ; import org . eclipse . jdt . core . search . SearchRequestor ; import org . eclipse . jdt . core . search . TypeReferenceMatch ; import org . eclipse . jdt . groovy . core . util . ReflectionUtils ; import org . eclipse . jdt . groovy . search . TypeLookupResult . TypeConfidence ; import org . eclipse . jdt . internal . core . CompilationUnit ; import org . eclipse . jdt . internal . core . search . matching . DeclarationOfReferencedTypesPattern ; import org . eclipse . jdt . internal . core . search . matching . JavaSearchPattern ; import org . eclipse . jdt . internal . core . search . matching . TypeReferencePattern ; import org . eclipse . jdt . internal . core . util . Util ; import org . eclipse . jface . text . Position ; public class TypeReferenceSearchRequestor implements ITypeRequestor { private static final String DOT = "<STR_LIT:.>" ; private final SearchRequestor requestor ; private final SearchParticipant participant ; private final char [ ] qualificationPattern ; private final char [ ] namePattern ; private final boolean isCaseSensitive ; private final boolean isCamelCase ; private final boolean findDeclaration ; private final Set < Position > acceptedPositions = new HashSet < Position > ( ) ; private char [ ] cachedContents ; @ SuppressWarnings ( "<STR_LIT>" ) public TypeReferenceSearchRequestor ( TypeReferencePattern pattern , SearchRequestor requestor , SearchParticipant participant ) { this . requestor = requestor ; this . participant = participant ; this . isCaseSensitive = ( ( Boolean ) ReflectionUtils . getPrivateField ( JavaSearchPattern . class , "<STR_LIT>" , pattern ) ) . booleanValue ( ) ; this . namePattern = extractArray ( pattern , "<STR_LIT>" ) ; this . qualificationPattern = extractArray ( pattern , "<STR_LIT>" ) ; this . isCamelCase = ( ( Boolean ) ReflectionUtils . getPrivateField ( JavaSearchPattern . class , "<STR_LIT>" , pattern ) ) . booleanValue ( ) ; this . findDeclaration = pattern instanceof DeclarationOfReferencedTypesPattern ; } protected char [ ] extractArray ( TypeReferencePattern pattern , String fieldName ) { char [ ] arr ; arr = ( char [ ] ) ReflectionUtils . getPrivateField ( TypeReferencePattern . class , fieldName , pattern ) ; if ( ! isCaseSensitive ) { arr = CharOperation . toLowerCase ( arr ) ; } return arr ; } public VisitStatus acceptASTNode ( ASTNode node , TypeLookupResult result , IJavaElement enclosingElement ) { if ( node instanceof ClassExpression \|\| node instanceof ClassNode \|\| node instanceof ImportNode \|\| node instanceof AnnotationNode ) { ClassNode type ; if ( node instanceof ConstructorNode ) { type = ( ( ConstructorNode ) node ) . getDeclaringClass ( ) ; } else if ( node instanceof AnnotationNode ) { type = ( ( AnnotationNode ) node ) . getClassNode ( ) ; } else { type = result . type ; } if ( node instanceof ClassExpression && type == VariableScope . CLASS_CLASS_NODE ) { type = ( ( ClassExpression ) node ) . getType ( ) ; } if ( type != null ) { type = removeArray ( type ) ; if ( qualifiedNameMatches ( type ) && hasValidSourceLocation ( node ) ) { int start = - <NUM_LIT:1> ; int end = - <NUM_LIT:1> ; boolean startEndFound = false ; if ( node instanceof ImportNode ) { if ( ( ( ImportNode ) node ) . getType ( ) == null ) { end = node . getEnd ( ) ; start = node . getStart ( ) ; } } else if ( node instanceof ClassExpression ) { end = node . getEnd ( ) ; start = node . getStart ( ) ; } else if ( node instanceof ClassNode ) { ClassNode classNode = ( ClassNode ) node ; if ( classNode . getNameEnd ( ) > <NUM_LIT:0> ) { } else if ( classNode . redirect ( ) == classNode ) { start = end = - <NUM_LIT:1> ; startEndFound = true ; } else { classNode = maybeGetComponentType ( classNode ) ; end = classNode . getEnd ( ) ; start = classNode . getStart ( ) ; } } else if ( node instanceof ConstructorNode ) { start = ( ( ConstructorNode ) node ) . getNameStart ( ) ; end = ( ( ConstructorNode ) node ) . getNameEnd ( ) + <NUM_LIT:1> ; if ( start == <NUM_LIT:0> && end == <NUM_LIT:1> ) { start = end = - <NUM_LIT:1> ; startEndFound = true ; } } else if ( node instanceof AnnotationNode ) { type = ( ( AnnotationNode ) node ) . getClassNode ( ) ; end = type . getEnd ( ) ; start = type . getStart ( ) ; } if ( ! startEndFound ) { StartEnd startEnd = getMatchLocation ( type , enclosingElement , start , end ) ; if ( startEnd != null ) { start = startEnd . start ; end = startEnd . end ; } else { start = end = - <NUM_LIT:1> ; } } if ( start >= <NUM_LIT:0> && end >= <NUM_LIT:0> ) { Position position = new Position ( start , end - start ) ; if ( ! acceptedPositions . contains ( position ) ) { try { requestor . acceptSearchMatch ( createMatch ( result , enclosingElement , start , end ) ) ; acceptedPositions . add ( position ) ; } catch ( CoreException e ) { Util . log ( e , "<STR_LIT>" + enclosingElement ) ; } } } } } } return VisitStatus . CONTINUE ; } protected TypeReferenceMatch createMatch ( TypeLookupResult result , IJavaElement enclosingElement , int start , int end ) { IJavaElement element ; if ( findDeclaration ) { try { element = enclosingElement . getJavaProject ( ) . findType ( result . type . getName ( ) . replace ( '<CHAR_LIT>' , '<CHAR_LIT:.>' ) , new NullProgressMonitor ( ) ) ; } catch ( JavaModelException e ) { Util . log ( e ) ; element = enclosingElement ; } } else { element = enclosingElement ; } return new TypeReferenceMatch ( element , getAccuracy ( result . confidence ) , start , end - start , false , participant , element . getResource ( ) ) ; } private boolean hasValidSourceLocation ( ASTNode node ) { ASTNode astNodeWithSourceLocation ; if ( node instanceof ClassNode ) { astNodeWithSourceLocation = maybeGetComponentType ( ( ClassNode ) node ) ; } else { astNodeWithSourceLocation = node ; } return astNodeWithSourceLocation . getEnd ( ) > <NUM_LIT:0> ; } private ClassNode maybeGetComponentType ( ClassNode orig ) { if ( orig . getComponentType ( ) != null ) { ClassNode componentType = orig . getComponentType ( ) ; if ( componentType . getColumnNumber ( ) != - <NUM_LIT:1> ) { return componentType ; } } return orig ; } private ClassNode removeArray ( ClassNode declaration ) { return declaration . getComponentType ( ) != null ? removeArray ( declaration . getComponentType ( ) ) : declaration ; } private String [ ] extractNameAndQualification ( ClassNode type ) { String qualification = type . getPackageName ( ) ; if ( qualification == null ) { qualification = "<STR_LIT>" ; } String semiQualified = type . getNameWithoutPackage ( ) ; String simple ; int lastDollar = semiQualified . lastIndexOf ( '<CHAR_LIT>' ) ; if ( lastDollar > <NUM_LIT:0> ) { simple = semiQualified . substring ( lastDollar + <NUM_LIT:1> ) ; semiQualified = semiQualified . replace ( '<CHAR_LIT>' , '<CHAR_LIT:.>' ) . substring ( <NUM_LIT:0> , lastDollar ) ; if ( qualification . length ( ) == <NUM_LIT:0> ) { qualification = semiQualified ; } else { qualification += DOT + semiQualified ; } } else { simple = semiQualified ; } return new String [ ] { qualification , simple } ; } private boolean qualifiedNameMatches ( ClassNode type ) { String [ ] nameAndQualification = extractNameAndQualification ( type ) ; String name , qualification ; qualification = nameAndQualification [ <NUM_LIT:0> ] ; name = nameAndQualification [ <NUM_LIT:1> ] ; if ( ! isCaseSensitive ) { name = name . toLowerCase ( ) ; qualification = qualification . toLowerCase ( ) ; } boolean match = true ; if ( namePattern != null ) { if ( isCamelCase ) { match = CharOperation . camelCaseMatch ( namePattern , name . toCharArray ( ) ) ; } else { match = CharOperation . equals ( namePattern , name . toCharArray ( ) ) ; } } if ( match && qualificationPattern != null ) { if ( isCamelCase ) { match = CharOperation . camelCaseMatch ( qualificationPattern , qualification . toCharArray ( ) ) ; } else { match = CharOperation . equals ( qualificationPattern , qualification . toCharArray ( ) ) ; } } return match ; } private class StartEnd { StartEnd ( int start , int end ) { this . start = start ; this . end = end ; } final int start ; final int end ; } private StartEnd getMatchLocation ( ClassNode node , IJavaElement elt , int maybeStart , int maybeEnd ) { CompilationUnit unit = ( CompilationUnit ) elt . getAncestor ( IJavaElement . COMPILATION_UNIT ) ; if ( unit != null && cachedContents == null ) { cachedContents = unit . getContents ( ) ; } if ( cachedContents != null ) { int nameLength = maybeEnd - maybeStart ; int start = - <NUM_LIT:1> ; int end = - <NUM_LIT:1> ; String name = node . getName ( ) ; int dollarIndex = name . lastIndexOf ( '<CHAR_LIT>' ) ; name = name . substring ( dollarIndex + <NUM_LIT:1> ) ; if ( name . length ( ) <= nameLength ) { start = CharOperation . indexOf ( name . toCharArray ( ) , cachedContents , true , maybeStart , maybeEnd + <NUM_LIT:1> ) ; end = start + name . length ( ) ; } if ( start == - <NUM_LIT:1> ) { String nameWithoutPackage = node . getNameWithoutPackage ( ) ; start = CharOperation . indexOf ( nameWithoutPackage . toCharArray ( ) , cachedContents , true , maybeStart , maybeEnd + <NUM_LIT:1> ) ; end = start + nameWithoutPackage . length ( ) ; } if ( start == - <NUM_LIT:1> ) { return null ; } else { return new StartEnd ( start , end ) ; } } return new StartEnd ( node . getStart ( ) , node . getEnd ( ) ) ; } private boolean shouldAlwaysBeAccurate ( ) { return requestor . getClass ( ) . getPackage ( ) . getName ( ) . indexOf ( "<STR_LIT>" ) != - <NUM_LIT:1> ; } private int getAccuracy ( TypeConfidence confidence ) { if ( shouldAlwaysBeAccurate ( ) ) { return SearchMatch . A_ACCURATE ; } switch ( confidence ) { case EXACT : return SearchMatch . A_ACCURATE ; default : return SearchMatch . A_INACCURATE ; } } } </s>
<s> package org . eclipse . jdt . groovy . search ; import org . codehaus . groovy . ast . ASTNode ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . expr . BinaryExpression ; public class TypeLookupResult { public static enum TypeConfidence { EXACT ( <NUM_LIT:0> ) , POTENTIAL ( <NUM_LIT:1> ) , INFERRED ( <NUM_LIT:2> ) , LOOSELY_INFERRED ( <NUM_LIT:3> ) , UNKNOWN ( <NUM_LIT:4> ) ; private final int val ; TypeConfidence ( int val ) { this . val = val ; } static TypeConfidence findLessPrecise ( TypeConfidence left , TypeConfidence right ) { return left . val > right . val ? left : right ; } boolean isLessPreciseThan ( TypeConfidence other ) { return this . val > other . val ; } } public final TypeConfidence confidence ; public final ClassNode type ; public final ClassNode declaringType ; public final ASTNode declaration ; public final VariableScope scope ; public final String extraDoc ; BinaryExpression enclosingAssignment ; public TypeLookupResult ( ClassNode type , ClassNode declaringType , ASTNode declaration , TypeConfidence confidence , VariableScope scope ) { this ( type , declaringType , declaration , confidence , scope , null ) ; } public TypeLookupResult ( ClassNode type , ClassNode declaringType , ASTNode declaration , TypeConfidence confidence , VariableScope scope , String extraDoc ) { this . confidence = confidence ; this . type = ClassHelper . isPrimitiveType ( type ) ? ClassHelper . getWrapper ( type ) : type ; this . declaringType = declaringType ; this . declaration = declaration ; this . scope = scope ; this . extraDoc = extraDoc ; } public BinaryExpression getEnclosingAssignment ( ) { return enclosingAssignment ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . ArrayList ; import java . util . List ; import org . eclipse . jdt . core . ILocalVariable ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . search . SearchPattern ; import org . eclipse . jdt . core . search . SearchRequestor ; import org . eclipse . jdt . groovy . core . util . ReflectionUtils ; import org . eclipse . jdt . internal . core . search . matching . FieldPattern ; import org . eclipse . jdt . internal . core . search . matching . LocalVariablePattern ; import org . eclipse . jdt . internal . core . search . matching . MethodPattern ; import org . eclipse . jdt . internal . core . search . matching . OrPattern ; import org . eclipse . jdt . internal . core . search . matching . PossibleMatch ; import org . eclipse . jdt . internal . core . search . matching . TypeDeclarationPattern ; import org . eclipse . jdt . internal . core . search . matching . TypeReferencePattern ; import org . eclipse . jdt . internal . core . util . Util ; public class TypeRequestorFactory { public ITypeRequestor createRequestor ( PossibleMatch possibleMatch , SearchPattern pattern , SearchRequestor requestor ) { if ( pattern instanceof TypeReferencePattern ) { return new TypeReferenceSearchRequestor ( ( TypeReferencePattern ) pattern , requestor , possibleMatch . document . getParticipant ( ) ) ; } else if ( pattern instanceof TypeDeclarationPattern ) { return new TypeDeclarationSearchRequestor ( ( TypeDeclarationPattern ) pattern , requestor , possibleMatch . document . getParticipant ( ) ) ; } else if ( pattern instanceof FieldPattern ) { return new FieldReferenceSearchRequestor ( ( FieldPattern ) pattern , requestor , possibleMatch . document . getParticipant ( ) ) ; } else if ( pattern instanceof MethodPattern ) { return new MethodReferenceSearchRequestor ( ( MethodPattern ) pattern , requestor , possibleMatch . document . getParticipant ( ) ) ; } else if ( pattern instanceof LocalVariablePattern ) { ILocalVariable localVar = ( ILocalVariable ) ReflectionUtils . getPrivateField ( LocalVariablePattern . class , "<STR_LIT>" , pattern ) ; int start ; try { start = localVar . getSourceRange ( ) . getOffset ( ) ; } catch ( JavaModelException e ) { Util . log ( e ) ; start = - <NUM_LIT:1> ; } return new LocalVariableReferenceRequestor ( localVar . getElementName ( ) , localVar . getParent ( ) , requestor , possibleMatch . document . getParticipant ( ) , start ) ; } else if ( pattern instanceof OrPattern ) { SearchPattern [ ] patterns = getPatterns ( ( OrPattern ) pattern ) ; List < ITypeRequestor > requestors = new ArrayList < ITypeRequestor > ( patterns . length ) ; for ( SearchPattern orPattern : patterns ) { if ( orPattern != null ) { ITypeRequestor maybeRequestor = createRequestor ( possibleMatch , orPattern , requestor ) ; if ( maybeRequestor != null ) { requestors . add ( maybeRequestor ) ; } } } return new OrPatternRequestor ( requestors ) ; } return null ; } private SearchPattern [ ] getPatterns ( OrPattern pattern ) { return ( SearchPattern [ ] ) ReflectionUtils . getPrivateField ( OrPattern . class , "<STR_LIT>" , pattern ) ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . Arrays ; import java . util . Collection ; import java . util . HashMap ; import java . util . HashSet ; import java . util . List ; import java . util . Map ; import java . util . Set ; import java . util . Stack ; import org . codehaus . groovy . ast . ASTNode ; import org . codehaus . groovy . ast . AnnotatedNode ; import org . codehaus . groovy . ast . AnnotationNode ; import org . codehaus . groovy . ast . ClassCodeVisitorSupport ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . ConstructorNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . GenericsType ; import org . codehaus . groovy . ast . ImportNode ; import org . codehaus . groovy . ast . ImportNodeCompatibilityWrapper ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . ModuleNode ; import org . codehaus . groovy . ast . PackageNode ; import org . codehaus . groovy . ast . Parameter ; import org . codehaus . groovy . ast . expr . AnnotationConstantExpression ; import org . codehaus . groovy . ast . expr . ArgumentListExpression ; import org . codehaus . groovy . ast . expr . ArrayExpression ; import org . codehaus . groovy . ast . expr . AttributeExpression ; import org . codehaus . groovy . ast . expr . BinaryExpression ; import org . codehaus . groovy . ast . expr . BitwiseNegationExpression ; import org . codehaus . groovy . ast . expr . BooleanExpression ; import org . codehaus . groovy . ast . expr . CastExpression ; import org . codehaus . groovy . ast . expr . ClassExpression ; import org . codehaus . groovy . ast . expr . ClosureExpression ; import org . codehaus . groovy . ast . expr . ClosureListExpression ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . ast . expr . ConstructorCallExpression ; import org . codehaus . groovy . ast . expr . DeclarationExpression ; import org . codehaus . groovy . ast . expr . ElvisOperatorExpression ; import org . codehaus . groovy . ast . expr . EmptyExpression ; import org . codehaus . groovy . ast . expr . Expression ; import org . codehaus . groovy . ast . expr . FieldExpression ; import org . codehaus . groovy . ast . expr . GStringExpression ; import org . codehaus . groovy . ast . expr . ListExpression ; import org . codehaus . groovy . ast . expr . MapEntryExpression ; import org . codehaus . groovy . ast . expr . MapExpression ; import org . codehaus . groovy . ast . expr . MethodCallExpression ; import org . codehaus . groovy . ast . expr . MethodPointerExpression ; import org . codehaus . groovy . ast . expr . NotExpression ; import org . codehaus . groovy . ast . expr . PostfixExpression ; import org . codehaus . groovy . ast . expr . PrefixExpression ; import org . codehaus . groovy . ast . expr . PropertyExpression ; import org . codehaus . groovy . ast . expr . RangeExpression ; import org . codehaus . groovy . ast . expr . SpreadExpression ; import org . codehaus . groovy . ast . expr . SpreadMapExpression ; import org . codehaus . groovy . ast . expr . StaticMethodCallExpression ; import org . codehaus . groovy . ast . expr . TernaryExpression ; import org . codehaus . groovy . ast . expr . TupleExpression ; import org . codehaus . groovy . ast . expr . UnaryMinusExpression ; import org . codehaus . groovy . ast . expr . UnaryPlusExpression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . codehaus . groovy . ast . stmt . BlockStatement ; import org . codehaus . groovy . ast . stmt . CatchStatement ; import org . codehaus . groovy . ast . stmt . ExpressionStatement ; import org . codehaus . groovy . ast . stmt . ForStatement ; import org . codehaus . groovy . ast . stmt . ReturnStatement ; import org . codehaus . groovy . ast . stmt . Statement ; import org . codehaus . groovy . classgen . BytecodeExpression ; import org . codehaus . groovy . control . SourceUnit ; import org . codehaus . groovy . syntax . Types ; import org . codehaus . jdt . groovy . internal . compiler . ast . JDTResolver ; import org . codehaus . jdt . groovy . model . GroovyCompilationUnit ; import org . codehaus . jdt . groovy . model . ModuleNodeMapper . ModuleNodeInfo ; import org . eclipse . core . runtime . Assert ; import org . eclipse . jdt . core . IField ; import org . eclipse . jdt . core . IJavaElement ; import org . eclipse . jdt . core . IMethod ; import org . eclipse . jdt . core . IType ; import org . eclipse . jdt . core . JavaModelException ; import org . eclipse . jdt . core . Signature ; import org . eclipse . jdt . groovy . search . ITypeRequestor . VisitStatus ; import org . eclipse . jdt . groovy . search . TypeLookupResult . TypeConfidence ; import org . eclipse . jdt . groovy . search . VariableScope . CallAndType ; import org . eclipse . jdt . groovy . search . VariableScope . VariableInfo ; import org . eclipse . jdt . internal . core . DefaultWorkingCopyOwner ; import org . eclipse . jdt . internal . core . util . Util ; @ SuppressWarnings ( "<STR_LIT>" ) public class TypeInferencingVisitorWithRequestor extends ClassCodeVisitorSupport { public class VisitCompleted extends RuntimeException { private static final long serialVersionUID = <NUM_LIT:1L> ; public final VisitStatus status ; public VisitCompleted ( VisitStatus status ) { super ( ) ; this . status = status ; } } public boolean DEBUG = false ; private static final Set < String > dgmClosureMethods = new HashSet < String > ( ) ; static { dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT:count>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; dgmClosureMethods . add ( "<STR_LIT>" ) ; } private static final Set < String > dgmClosureIdentityMethods = new HashSet < String > ( ) ; static { dgmClosureIdentityMethods . add ( "<STR_LIT>" ) ; dgmClosureIdentityMethods . add ( "<STR_LIT>" ) ; } private static final Set < String > dgmClosureMaybeMap = new HashSet < String > ( ) ; static { dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; dgmClosureMaybeMap . add ( "<STR_LIT>" ) ; } private static final Map < String , ClassNode > dgmClosureMethodsMap = new HashMap < String , ClassNode > ( ) ; static { dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . STRING_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . STRING_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . OBJECT_OUTPUT_STREAM ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . OBJECT_INPUT_STREAM ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . DATA_OUTPUT_STREAM_CLASS ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . DATA_INPUT_STREAM_CLASS ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . OUTPUT_STREAM_CLASS ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . INPUT_STREAM_CLASS ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . OUTPUT_STREAM_CLASS ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , ClassHelper . METACLASS_TYPE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . FILE_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . FILE_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . BUFFERED_READER_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . BUFFERED_WRITER_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . BUFFERED_WRITER_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . PRINT_WRITER_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . STRING_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . STRING_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . STRING_CLASS_NODE ) ; dgmClosureMethodsMap . put ( "<STR_LIT>" , VariableScope . STRING_CLASS_NODE ) ; } private final GroovyCompilationUnit unit ; private final Stack < VariableScope > scopes ; private final ITypeLookup [ ] lookups ; private ITypeRequestor requestor ; private IJavaElement enclosingElement ; private ASTNode enclosingDeclarationNode ; private BinaryExpression enclosingAssignment ; private ConstructorCallExpression enclosingConstructorCall ; private Stack < ASTNode > completeExpressionStack ; private Stack < ClassNode > primaryTypeStack ; private Stack < ClassNode > dependentDeclaringTypeStack ; private Stack < ClassNode > dependentTypeStack ; private final JDTResolver resolver ; private final AssignmentStorer assignmentStorer = new AssignmentStorer ( ) ; TypeInferencingVisitorWithRequestor ( GroovyCompilationUnit unit , ITypeLookup [ ] lookups ) { super ( ) ; this . unit = unit ; ModuleNodeInfo info = createModuleNode ( unit ) ; this . enclosingDeclarationNode = info != null ? info . module : null ; this . resolver = info != null ? info . resolver : null ; this . lookups = lookups ; scopes = new Stack < VariableScope > ( ) ; completeExpressionStack = new Stack < ASTNode > ( ) ; primaryTypeStack = new Stack < ClassNode > ( ) ; dependentTypeStack = new Stack < ClassNode > ( ) ; dependentDeclaringTypeStack = new Stack < ClassNode > ( ) ; } public void visitCompilationUnit ( ITypeRequestor requestor ) { if ( enclosingDeclarationNode == null ) { return ; } this . requestor = requestor ; enclosingElement = unit ; VariableScope topLevelScope = new VariableScope ( null , enclosingDeclarationNode , false ) ; scopes . push ( topLevelScope ) ; for ( ITypeLookup lookup : lookups ) { if ( lookup instanceof ITypeResolver ) { ( ( ITypeResolver ) lookup ) . setResolverInformation ( ( ModuleNode ) enclosingDeclarationNode , resolver ) ; } lookup . initialize ( unit , topLevelScope ) ; } try { visitPackage ( ( ( ModuleNode ) enclosingDeclarationNode ) . getPackage ( ) ) ; visitImports ( ( ModuleNode ) enclosingDeclarationNode ) ; try { IType [ ] types = unit . getTypes ( ) ; for ( IType type : types ) { visitJDT ( type , requestor ) ; } } catch ( JavaModelException e ) { Util . log ( e , "<STR_LIT>" + unit . getElementName ( ) ) ; } scopes . pop ( ) ; } catch ( VisitCompleted vc ) { } catch ( Exception e ) { Util . log ( e , "<STR_LIT>" + unit . getElementName ( ) ) ; if ( DEBUG ) { System . err . println ( "<STR_LIT>" ) ; e . printStackTrace ( ) ; } } if ( DEBUG ) { postVisitSanityCheck ( ) ; } } public void visitPackage ( PackageNode p ) { } public void visitJDT ( IType type , ITypeRequestor requestor ) { IJavaElement oldEnclosing = enclosingElement ; ASTNode oldEnclosingNode = enclosingDeclarationNode ; enclosingElement = type ; ClassNode node = findClassWithName ( createName ( type ) ) ; if ( node == null ) { return ; } try { scopes . push ( new VariableScope ( scopes . peek ( ) , node , false ) ) ; enclosingDeclarationNode = node ; visitClassInternal ( node ) ; try { boolean isEnum = type . isEnum ( ) ; for ( IJavaElement child : type . getChildren ( ) ) { if ( isEnum && shouldFilterEnumMember ( child ) ) { continue ; } switch ( child . getElementType ( ) ) { case IJavaElement . METHOD : visitJDT ( ( IMethod ) child , requestor ) ; break ; case IJavaElement . FIELD : visitJDT ( ( IField ) child , requestor ) ; break ; case IJavaElement . TYPE : visitJDT ( ( IType ) child , requestor ) ; break ; default : break ; } } if ( ! type . getMethod ( type . getElementName ( ) , new String [ <NUM_LIT:0> ] ) . exists ( ) ) { ConstructorNode defConstructor = findDefaultConstructor ( node ) ; if ( defConstructor != null ) { visitConstructorOrMethod ( defConstructor , true ) ; } } } catch ( JavaModelException e ) { Util . log ( e , "<STR_LIT>" + type . getFullyQualifiedName ( ) ) ; } } catch ( VisitCompleted vc ) { if ( vc . status == VisitStatus . STOP_VISIT ) { throw vc ; } } finally { enclosingElement = oldEnclosing ; enclosingDeclarationNode = oldEnclosingNode ; scopes . pop ( ) ; } } private ConstructorNode findDefaultConstructor ( ClassNode node ) { List < ConstructorNode > constructors = node . getDeclaredConstructors ( ) ; for ( ConstructorNode constructor : constructors ) { if ( constructor . getParameters ( ) == null \|\| constructor . getParameters ( ) . length == <NUM_LIT:0> ) { return constructor ; } } return null ; } private boolean shouldFilterEnumMember ( IJavaElement child ) { int type = child . getElementType ( ) ; String name = child . getElementName ( ) ; if ( name . indexOf ( '<CHAR_LIT>' ) >= <NUM_LIT:0> ) { return true ; } else if ( type == IJavaElement . METHOD ) { if ( ( name . equals ( "<STR_LIT>" ) \|\| name . equals ( "<STR_LIT>" ) ) && ( ( IMethod ) child ) . getNumberOfParameters ( ) == <NUM_LIT:0> ) { return true ; } } else if ( type == IJavaElement . METHOD ) { if ( name . equals ( "<STR_LIT>" ) \|\| name . equals ( "<STR_LIT>" ) ) { return true ; } } return false ; } private String createName ( IType type ) { StringBuilder sb = new StringBuilder ( ) ; sb . append ( type . getElementName ( ) ) ; while ( type . getParent ( ) . getElementType ( ) == IJavaElement . TYPE ) { sb . insert ( <NUM_LIT:0> , '<CHAR_LIT>' ) ; type = ( IType ) type . getParent ( ) ; sb . insert ( <NUM_LIT:0> , type . getElementName ( ) ) ; } return sb . toString ( ) ; } public void visitJDT ( IField field , ITypeRequestor requestor ) { IJavaElement oldEnclosing = enclosingElement ; ASTNode oldEnclosingNode = enclosingDeclarationNode ; enclosingElement = field ; this . requestor = requestor ; FieldNode fieldNode = findFieldNode ( field ) ; if ( fieldNode == null ) { return ; } enclosingDeclarationNode = fieldNode ; scopes . push ( new VariableScope ( scopes . peek ( ) , fieldNode , fieldNode . isStatic ( ) ) ) ; try { visitField ( fieldNode ) ; } catch ( VisitCompleted vc ) { if ( vc . status == VisitStatus . STOP_VISIT ) { throw vc ; } } finally { enclosingDeclarationNode = oldEnclosingNode ; enclosingElement = oldEnclosing ; scopes . pop ( ) ; } if ( isLazy ( fieldNode ) ) { List < MethodNode > lazyMethods = ( ( ClassNode ) enclosingDeclarationNode ) . getDeclaredMethods ( "<STR_LIT>" + field . getElementName ( ) ) ; if ( lazyMethods . size ( ) > <NUM_LIT:0> ) { MethodNode lazyMethod = lazyMethods . get ( <NUM_LIT:0> ) ; enclosingDeclarationNode = lazyMethod ; this . requestor = requestor ; scopes . push ( new VariableScope ( scopes . peek ( ) , lazyMethod , lazyMethod . isStatic ( ) ) ) ; try { visitConstructorOrMethod ( lazyMethod , lazyMethod instanceof ConstructorNode ) ; } catch ( VisitCompleted vc ) { if ( vc . status == VisitStatus . STOP_VISIT ) { throw vc ; } } finally { enclosingElement = oldEnclosing ; enclosingDeclarationNode = oldEnclosingNode ; scopes . pop ( ) ; } } } } public void visitJDT ( IMethod method , ITypeRequestor requestor ) { IJavaElement oldEnclosing = enclosingElement ; ASTNode oldEnclosingNode = enclosingDeclarationNode ; enclosingElement = method ; MethodNode methodNode = findMethodNode ( method ) ; if ( methodNode == null ) { return ; } enclosingDeclarationNode = methodNode ; this . requestor = requestor ; scopes . push ( new VariableScope ( scopes . peek ( ) , methodNode , methodNode . isStatic ( ) ) ) ; try { visitConstructorOrMethod ( methodNode , method . isConstructor ( ) ) ; } catch ( VisitCompleted vc ) { if ( vc . status == VisitStatus . STOP_VISIT ) { throw vc ; } } catch ( JavaModelException e ) { Util . log ( e , "<STR_LIT>" + method . getElementName ( ) + "<STR_LIT>" + method . getParent ( ) . getElementName ( ) ) ; } finally { enclosingElement = oldEnclosing ; enclosingDeclarationNode = oldEnclosingNode ; scopes . pop ( ) ; } } @ SuppressWarnings ( "<STR_LIT:cast>" ) private void visitClassInternal ( ClassNode node ) { if ( resolver != null ) { resolver . currentClass = node ; } VariableScope scope = scopes . peek ( ) ; scope . addVariable ( "<STR_LIT>" , node , node ) ; visitAnnotations ( node ) ; TypeLookupResult result = null ; result = new TypeLookupResult ( node , node , node , TypeConfidence . EXACT , scope ) ; VisitStatus status = notifyRequestor ( node , requestor , result ) ; switch ( status ) { case CONTINUE : break ; case CANCEL_BRANCH : return ; case CANCEL_MEMBER : case STOP_VISIT : throw new VisitCompleted ( status ) ; } if ( ! node . isEnum ( ) ) { visitGenerics ( node ) ; visitClassReference ( node . getUnresolvedSuperClass ( ) ) ; } for ( ClassNode intr : node . getInterfaces ( ) ) { visitClassReference ( intr ) ; } VariableScope currentScope = scope ; MethodNode clinit = node . getMethod ( "<STR_LIT>" , new Parameter [ <NUM_LIT:0> ] ) ; if ( clinit != null && clinit . getCode ( ) instanceof BlockStatement ) { for ( Statement element : ( Iterable < Statement > ) ( ( BlockStatement ) clinit . getCode ( ) ) . getStatements ( ) ) { if ( element instanceof ExpressionStatement && ( ( ExpressionStatement ) element ) . getExpression ( ) instanceof BinaryExpression ) { BinaryExpression bexpr = ( BinaryExpression ) ( ( ExpressionStatement ) element ) . getExpression ( ) ; if ( bexpr . getLeftExpression ( ) instanceof FieldExpression ) { FieldNode f = ( ( FieldExpression ) bexpr . getLeftExpression ( ) ) . getField ( ) ; if ( f != null && f . isStatic ( ) && bexpr . getRightExpression ( ) != null ) { VariableScope fieldScope = new VariableScope ( currentScope , f , true ) ; scopes . push ( fieldScope ) ; try { bexpr . getRightExpression ( ) . visit ( this ) ; } finally { scopes . pop ( ) ; } } } } } } for ( Statement element : ( Iterable < Statement > ) node . getObjectInitializerStatements ( ) ) { element . visit ( this ) ; } for ( ConstructorNode constructor : ( Iterable < ConstructorNode > ) node . getDeclaredConstructors ( ) ) { if ( constructor . isSynthetic ( ) && ( constructor . getParameters ( ) == null \|\| constructor . getParameters ( ) . length == <NUM_LIT:0> ) ) { visitConstructor ( constructor ) ; } } } @ Override public void visitField ( FieldNode node ) { TypeLookupResult result = null ; VariableScope scope = scopes . peek ( ) ; assignmentStorer . storeField ( node , scope ) ; for ( ITypeLookup lookup : lookups ) { TypeLookupResult candidate = lookup . lookupType ( node , scope ) ; if ( candidate != null ) { if ( result == null \|\| result . confidence . isLessPreciseThan ( candidate . confidence ) ) { result = candidate ; } if ( TypeConfidence . LOOSELY_INFERRED . isLessPreciseThan ( result . confidence ) ) { break ; } } } scope . setPrimaryNode ( false ) ; VisitStatus status = notifyRequestor ( node , requestor , result ) ; switch ( status ) { case CONTINUE : ClassNode fieldType = node . getType ( ) ; if ( fieldType != node . getDeclaringClass ( ) ) { visitClassReference ( fieldType ) ; } visitAnnotations ( node ) ; Expression init = node . getInitialExpression ( ) ; if ( init != null ) { init . visit ( this ) ; } case CANCEL_BRANCH : return ; case CANCEL_MEMBER : case STOP_VISIT : throw new VisitCompleted ( status ) ; } } private void visitClassReference ( ClassNode node ) { if ( node . isGenericsPlaceHolder ( ) ) { return ; } TypeLookupResult result = null ; VariableScope scope = scopes . peek ( ) ; for ( ITypeLookup lookup : lookups ) { TypeLookupResult candidate = lookup . lookupType ( node , scope ) ; if ( candidate != null ) { if ( result == null \|\| result . confidence . isLessPreciseThan ( candidate . confidence ) ) { result = candidate ; } if ( TypeConfidence . LOOSELY_INFERRED . isLessPreciseThan ( result . confidence ) ) { break ; } } } scope . setPrimaryNode ( false ) ; VisitStatus status = notifyRequestor ( node , requestor , result ) ; switch ( status ) { case CONTINUE : if ( ! node . isEnum ( ) ) { visitGenerics ( node ) ; } case CANCEL_BRANCH : return ; case CANCEL_MEMBER : case STOP_VISIT : throw new VisitCompleted ( status ) ; } } private void visitGenerics ( ClassNode node ) { if ( node . isUsingGenerics ( ) && node . getGenericsTypes ( ) != null ) { for ( GenericsType gen : node . getGenericsTypes ( ) ) { if ( gen . getLowerBound ( ) != null ) { visitClassReference ( gen . getLowerBound ( ) ) ; } if ( gen . getUpperBounds ( ) != null ) { for ( ClassNode upper : gen . getUpperBounds ( ) ) { if ( ! upper . getName ( ) . equals ( node . getName ( ) ) ) { visitClassReference ( upper ) ; } } } if ( gen . getType ( ) != null && gen . getName ( ) . charAt ( <NUM_LIT:0> ) != '<CHAR_LIT>' ) { visitClassReference ( gen . getType ( ) ) ; } } } } @ Override public void visitConstructorOrMethod ( MethodNode node , boolean isConstructor ) { TypeLookupResult result = null ; VariableScope scope = scopes . peek ( ) ; for ( ITypeLookup lookup : lookups ) { TypeLookupResult candidate = lookup . lookupType ( node , scope ) ; if ( candidate != null ) { if ( result == null \|\| result . confidence . isLessPreciseThan ( candidate . confidence ) ) { result = candidate ; } if ( TypeConfidence . LOOSELY_INFERRED . isLessPreciseThan ( result . confidence ) ) { break ; } } } scope . setPrimaryNode ( false ) ; VisitStatus status = notifyRequestor ( node , requestor , result ) ; switch ( status ) { case CONTINUE : GenericsType [ ] gens = node . getGenericsTypes ( ) ; if ( gens != null ) { for ( GenericsType gen : gens ) { if ( gen . getLowerBound ( ) != null ) { visitClassReference ( gen . getLowerBound ( ) ) ; } if ( gen . getUpperBounds ( ) != null ) { for ( ClassNode upper : gen . getUpperBounds ( ) ) { visitClassReference ( upper ) ; } } if ( gen . getType ( ) != null && gen . getType ( ) . getName ( ) . charAt ( <NUM_LIT:0> ) != '<CHAR_LIT>' ) { visitClassReference ( gen . getType ( ) ) ; } } } visitClassReference ( node . getReturnType ( ) ) ; if ( node . getExceptions ( ) != null ) { for ( ClassNode e : node . getExceptions ( ) ) { visitClassReference ( e ) ; } } if ( handleParameterList ( node . getParameters ( ) ) ) { super . visitConstructorOrMethod ( node , isConstructor ) ; } case CANCEL_BRANCH : return ; case CANCEL_MEMBER : case STOP_VISIT : throw new VisitCompleted ( status ) ; } } @ SuppressWarnings ( "<STR_LIT:cast>" ) @ Override public void visitAnnotations ( AnnotatedNode node ) { for ( AnnotationNode annotation : ( Iterable < AnnotationNode > ) node . getAnnotations ( ) ) { visitAnnotation ( annotation ) ; } super . visitAnnotations ( node ) ; } @ Override public void visitImports ( ModuleNode node ) { for ( ImportNode imp : new ImportNodeCompatibilityWrapper ( node ) . getAllImportNodes ( ) ) { TypeLookupResult result = null ; IJavaElement oldEnclosingElement = enclosingElement ; visitAnnotations ( imp ) ; ClassNode type = imp . getType ( ) ; if ( type != null ) { String importName = imp . getClassName ( ) . replace ( '<CHAR_LIT>' , '<CHAR_LIT:.>' ) + ( imp . getFieldName ( ) != null ? "<STR_LIT:.>" + imp . getFieldName ( ) : "<STR_LIT>" ) ; enclosingElement = unit . getImport ( importName ) ; if ( ! enclosingElement . exists ( ) ) { enclosingElement = oldEnclosingElement ; } } try { VariableScope scope = scopes . peek ( ) ; scope . setPrimaryNode ( false ) ; assignmentStorer . storeImport ( imp , scope ) ; for ( ITypeLookup lookup : lookups ) { TypeLookupResult candidate = lookup . lookupType ( imp , scope ) ; if ( candidate != null ) { if ( result == null \|\| result . confidence . isLessPreciseThan ( candidate . confidence ) ) { result = candidate ; } if ( TypeConfidence . LOOSELY_INFERRED . isLessPreciseThan ( result . confidence ) ) { break ; } } } VisitStatus status = notifyRequestor ( imp , requestor , result ) ; switch ( status ) { case CONTINUE : try { if ( type != null ) { visitClassReference ( type ) ; completeExpressionStack . push ( imp ) ; if ( imp . getFieldNameExpr ( ) != null ) { primaryTypeStack . push ( type ) ; imp . getFieldNameExpr ( ) . visit ( this ) ; dependentDeclaringTypeStack . pop ( ) ; dependentTypeStack . pop ( ) ; } completeExpressionStack . pop ( ) ; } } catch ( VisitCompleted e ) { if ( e . status == VisitStatus . STOP_VISIT ) { throw e ; } } continue ; case CANCEL_BRANCH : case CANCEL_MEMBER : return ; case STOP_VISIT : throw new VisitCompleted ( status ) ; } } finally { enclosingElement = oldEnclosingElement ; } } } @ Override public void visitVariableExpression ( VariableExpression node ) { scopes . peek ( ) . setCurrentNode ( node ) ; visitAnnotations ( node ) ; if ( node . getAccessedVariable ( ) == node ) { visitClassReference ( node . getType ( ) ) ; } handleSimpleExpression ( node ) ; scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitArgumentlistExpression ( ArgumentListExpression node ) { visitTupleExpression ( node ) ; } @ Override public void visitArrayExpression ( ArrayExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitArrayExpression ( node ) ; } } @ Override public void visitAttributeExpression ( AttributeExpression node ) { visitPropertyExpression ( node ) ; } @ Override public void visitBinaryExpression ( BinaryExpression node ) { if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } if ( node . getEnd ( ) == <NUM_LIT:0> ) { return ; } visitAnnotations ( node ) ; boolean isAssignment = node . getOperation ( ) . getType ( ) == Types . EQUALS ; BinaryExpression oldEnclosingAssignment = enclosingAssignment ; if ( isAssignment ) { enclosingAssignment = node ; } completeExpressionStack . push ( node ) ; Expression toVisitPrimary ; Expression toVisitDependent ; if ( isAssignment ) { toVisitPrimary = node . getRightExpression ( ) ; toVisitDependent = node . getLeftExpression ( ) ; } else { toVisitPrimary = node . getLeftExpression ( ) ; toVisitDependent = node . getRightExpression ( ) ; } toVisitPrimary . visit ( this ) ; ClassNode primaryExprType ; primaryExprType = primaryTypeStack . pop ( ) ; if ( isAssignment ) { assignmentStorer . storeAssignment ( node , scopes . peek ( ) , primaryExprType ) ; } toVisitDependent . visit ( this ) ; completeExpressionStack . pop ( ) ; ClassNode completeExprType = primaryExprType ; ClassNode dependentExprType = primaryTypeStack . pop ( ) ; if ( ! isAssignment ) { String associatedMethod = findBinaryOperatorName ( node . getOperation ( ) . getText ( ) ) ; if ( isArithmeticOperationOnNumberOrStringOrList ( node . getOperation ( ) . getText ( ) , primaryExprType , dependentExprType ) ) { completeExprType = dependentExprType . equals ( VariableScope . STRING_CLASS_NODE ) ? VariableScope . STRING_CLASS_NODE : primaryExprType ; } else if ( associatedMethod != null ) { TypeLookupResult result = lookupExpressionType ( new ConstantExpression ( associatedMethod ) , primaryExprType , false , scopes . peek ( ) ) ; completeExprType = result . type ; if ( associatedMethod . equals ( "<STR_LIT>" ) && result . declaringType . equals ( VariableScope . DGM_CLASS_NODE ) ) { if ( primaryExprType . getName ( ) . equals ( "<STR_LIT>" ) ) { completeExprType = VariableScope . BOOLEAN_CLASS_NODE ; } else { GenericsType [ ] lhsGenericsTypes = primaryExprType . getGenericsTypes ( ) ; ClassNode elementType ; if ( VariableScope . MAP_CLASS_NODE . equals ( primaryExprType ) && lhsGenericsTypes != null && lhsGenericsTypes . length == <NUM_LIT:2> ) { elementType = lhsGenericsTypes [ <NUM_LIT:1> ] . getType ( ) ; } else { elementType = VariableScope . extractElementType ( primaryExprType ) ; } if ( dependentExprType . isArray ( ) \|\| dependentExprType . getName ( ) . equals ( VariableScope . LIST_CLASS_NODE . getName ( ) ) \|\| dependentExprType . implementsInterface ( VariableScope . LIST_CLASS_NODE ) ) { completeExprType = createParameterizedList ( elementType ) ; } else { completeExprType = elementType ; } } } } else { completeExprType = findTypeOfBinaryExpression ( node . getOperation ( ) . getText ( ) , primaryExprType , dependentExprType ) ; } } handleCompleteExpression ( node , completeExprType , null ) ; enclosingAssignment = oldEnclosingAssignment ; } private boolean isArithmeticOperationOnNumberOrStringOrList ( String text , ClassNode lhs , ClassNode rhs ) { if ( text . length ( ) != <NUM_LIT:1> ) { return false ; } switch ( text . charAt ( <NUM_LIT:0> ) ) { case '<CHAR_LIT>' : case '<CHAR_LIT:->' : return VariableScope . STRING_CLASS_NODE . equals ( lhs ) \|\| lhs . isDerivedFrom ( VariableScope . NUMBER_CLASS_NODE ) \|\| VariableScope . NUMBER_CLASS_NODE . equals ( lhs ) \|\| VariableScope . LIST_CLASS_NODE . equals ( lhs ) \|\| lhs . implementsInterface ( VariableScope . LIST_CLASS_NODE ) ; case '<CHAR_LIT>' : case '<CHAR_LIT:/>' : case '<CHAR_LIT>' : return VariableScope . STRING_CLASS_NODE . equals ( lhs ) \|\| lhs . isDerivedFrom ( VariableScope . NUMBER_CLASS_NODE ) \|\| VariableScope . NUMBER_CLASS_NODE . equals ( lhs ) ; default : return false ; } } private String findBinaryOperatorName ( String text ) { char op = text . charAt ( <NUM_LIT:0> ) ; switch ( op ) { case '<CHAR_LIT>' : return "<STR_LIT>" ; case '<CHAR_LIT:->' : return "<STR_LIT>" ; case '<CHAR_LIT>' : if ( text . length ( ) > <NUM_LIT:1> && text . equals ( "<STR_LIT>" ) ) { return "<STR_LIT>" ; } return "<STR_LIT>" ; case '<CHAR_LIT:/>' : return "<STR_LIT>" ; case '<CHAR_LIT>' : return "<STR_LIT>" ; case '<CHAR_LIT>' : return "<STR_LIT>" ; case '<CHAR_LIT>' : return "<STR_LIT>" ; case '<CHAR_LIT>' : return "<STR_LIT>" ; case '<CHAR_LIT:>>' : if ( text . length ( ) > <NUM_LIT:1> && text . equals ( "<STR_LIT>" ) ) { return "<STR_LIT>" ; } break ; case '<CHAR_LIT>' : if ( text . length ( ) > <NUM_LIT:1> && text . equals ( "<STR_LIT>" ) ) { return "<STR_LIT>" ; } break ; case '<CHAR_LIT:[>' : return "<STR_LIT>" ; } return null ; } private String findUnaryOperatorName ( String text ) { char op = text . charAt ( <NUM_LIT:0> ) ; switch ( op ) { case '<CHAR_LIT>' : if ( text . length ( ) > <NUM_LIT:1> && text . equals ( "<STR_LIT>" ) ) { return "<STR_LIT>" ; } return "<STR_LIT>" ; case '<CHAR_LIT:->' : if ( text . length ( ) > <NUM_LIT:1> && text . equals ( "<STR_LIT:-->" ) ) { return "<STR_LIT>" ; } return "<STR_LIT>" ; case '<CHAR_LIT:]>' : return "<STR_LIT>" ; case '<CHAR_LIT>' : return "<STR_LIT>" ; } return null ; } @ Override public void visitBitwiseNegationExpression ( BitwiseNegationExpression node ) { visitUnaryExpression ( node , node . getExpression ( ) , "<STR_LIT>" ) ; } @ Override public void visitBooleanExpression ( BooleanExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitBooleanExpression ( node ) ; } } public void visitEmptyExpression ( EmptyExpression node ) { handleSimpleExpression ( node ) ; } @ Override public void visitBytecodeExpression ( BytecodeExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitBytecodeExpression ( node ) ; } } @ Override public void visitCastExpression ( CastExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { visitClassReference ( node . getType ( ) ) ; super . visitCastExpression ( node ) ; } } @ Override public void visitClassExpression ( ClassExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitClassExpression ( node ) ; } } @ Override public void visitClosureExpression ( ClosureExpression node ) { VariableScope parent = scopes . peek ( ) ; ClosureExpression enclosingClosure = parent . getEnclosingClosure ( ) ; VariableScope scope = new VariableScope ( parent , node , false ) ; scopes . push ( scope ) ; boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { ClassNode [ ] implicitParamType = findImplicitParamType ( scope , node ) ; if ( node . getParameters ( ) != null && node . getParameters ( ) . length > <NUM_LIT:0> ) { handleParameterList ( node . getParameters ( ) ) ; for ( int i = <NUM_LIT:0> ; i < node . getParameters ( ) . length ; i ++ ) { Parameter parameter = node . getParameters ( ) [ i ] ; if ( implicitParamType [ i ] != VariableScope . OBJECT_CLASS_NODE && parameter . getType ( ) . equals ( VariableScope . OBJECT_CLASS_NODE ) ) { parameter . setType ( implicitParamType [ i ] ) ; scope . addVariable ( parameter ) ; } } } else if ( implicitParamType [ <NUM_LIT:0> ] != VariableScope . OBJECT_CLASS_NODE && ! scope . containsInThisScope ( "<STR_LIT>" ) ) { scope . addVariable ( "<STR_LIT>" , implicitParamType [ <NUM_LIT:0> ] , VariableScope . OBJECT_CLASS_NODE ) ; } CallAndType cat = scope . getEnclosingMethodCallExpression ( ) ; if ( cat != null ) { scope . addVariable ( "<STR_LIT>" , cat . declaringType , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , cat . declaringType , VariableScope . CLOSURE_CLASS ) ; } else { ClassNode thisType = scope . getThis ( ) ; scope . addVariable ( "<STR_LIT>" , thisType , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , thisType , VariableScope . CLOSURE_CLASS ) ; } if ( enclosingClosure != null ) { scope . addVariable ( "<STR_LIT>" , VariableScope . CLOSURE_CLASS , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . CLOSURE_CLASS , VariableScope . CLOSURE_CLASS ) ; } else { ClassNode thisType = scope . getThis ( ) ; scope . addVariable ( "<STR_LIT>" , thisType , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , thisType , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . OBJECT_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . OBJECT_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . INTEGER_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . INTEGER_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . INTEGER_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . INTEGER_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . INTEGER_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . INTEGER_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . CLASS_ARRAY_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; scope . addVariable ( "<STR_LIT>" , VariableScope . CLASS_ARRAY_CLASS_NODE , VariableScope . CLOSURE_CLASS ) ; } super . visitClosureExpression ( node ) ; } scopes . pop ( ) ; } private ClassNode [ ] findImplicitParamType ( VariableScope scope , ClosureExpression closure ) { int numParams = closure . getParameters ( ) == null ? <NUM_LIT:0> : closure . getParameters ( ) . length ; if ( numParams == <NUM_LIT:0> ) { numParams ++ ; } ClassNode [ ] allInferred = new ClassNode [ numParams ] ; CallAndType call = scope . getEnclosingMethodCallExpression ( ) ; if ( call != null ) { String methodName = call . call . getMethodAsString ( ) ; ClassNode inferredType ; ClassNode delegateType = call . declaringType ; if ( dgmClosureMethods . contains ( methodName ) ) { inferredType = VariableScope . extractElementType ( delegateType ) ; } else if ( dgmClosureIdentityMethods . contains ( methodName ) ) { inferredType = VariableScope . clone ( delegateType ) ; } else { inferredType = dgmClosureMethodsMap . get ( methodName ) ; } if ( inferredType != null ) { Arrays . fill ( allInferred , inferredType ) ; if ( methodName . equals ( "<STR_LIT>" ) && allInferred . length > <NUM_LIT:1> ) { allInferred [ allInferred . length - <NUM_LIT:1> ] = VariableScope . INTEGER_CLASS_NODE ; } if ( delegateType . getName ( ) . equals ( VariableScope . MAP_CLASS_NODE . getName ( ) ) ) { if ( ( dgmClosureMaybeMap . contains ( methodName ) && numParams == <NUM_LIT:2> ) \|\| ( methodName . equals ( "<STR_LIT>" ) && numParams == <NUM_LIT:3> ) ) { GenericsType [ ] typeParams = inferredType . getGenericsTypes ( ) ; if ( typeParams != null && typeParams . length == <NUM_LIT:2> ) { allInferred [ <NUM_LIT:0> ] = typeParams [ <NUM_LIT:0> ] . getType ( ) ; allInferred [ <NUM_LIT:1> ] = typeParams [ <NUM_LIT:1> ] . getType ( ) ; } } } return allInferred ; } } Arrays . fill ( allInferred , VariableScope . OBJECT_CLASS_NODE ) ; return allInferred ; } @ Override public void visitBlockStatement ( BlockStatement block ) { scopes . push ( new VariableScope ( scopes . peek ( ) , block , false ) ) ; boolean shouldContinue = handleStatement ( block ) ; if ( shouldContinue ) { super . visitBlockStatement ( block ) ; } scopes . pop ( ) ; } @ Override public void visitReturnStatement ( ReturnStatement ret ) { boolean shouldContinue = handleStatement ( ret ) ; if ( shouldContinue ) { if ( ret . getExpression ( ) instanceof AnnotationConstantExpression ) { visitClassReference ( ( ( AnnotationConstantExpression ) ret . getExpression ( ) ) . getType ( ) ) ; } super . visitReturnStatement ( ret ) ; } } @ Override public void visitForLoop ( ForStatement node ) { completeExpressionStack . push ( node ) ; node . getCollectionExpression ( ) . visit ( this ) ; completeExpressionStack . pop ( ) ; ClassNode collectionType = primaryTypeStack . pop ( ) ; scopes . push ( new VariableScope ( scopes . peek ( ) , node , false ) ) ; Parameter param = node . getVariable ( ) ; if ( param != null ) { handleParameterList ( new Parameter [ ] { param } ) ; if ( param . getType ( ) . equals ( VariableScope . OBJECT_CLASS_NODE ) ) { ClassNode extractedElementType = VariableScope . extractElementType ( collectionType ) ; scopes . peek ( ) . addVariable ( param . getName ( ) , extractedElementType , null ) ; } } node . getLoopBlock ( ) . visit ( this ) ; scopes . pop ( ) ; } @ Override public void visitCatchStatement ( CatchStatement node ) { scopes . push ( new VariableScope ( scopes . peek ( ) , node , false ) ) ; Parameter param = node . getVariable ( ) ; if ( param != null ) { handleParameterList ( new Parameter [ ] { param } ) ; } super . visitCatchStatement ( node ) ; scopes . pop ( ) ; } @ Override public void visitClosureListExpression ( ClosureListExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitClosureListExpression ( node ) ; } } @ Override public void visitConstantExpression ( ConstantExpression node ) { scopes . peek ( ) . setCurrentNode ( node ) ; handleSimpleExpression ( node ) ; scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitConstructorCallExpression ( ConstructorCallExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { visitClassReference ( node . getType ( ) ) ; if ( node . getArguments ( ) instanceof TupleExpression && ( ( TupleExpression ) node . getArguments ( ) ) . getExpressions ( ) . size ( ) == <NUM_LIT:1> ) { Expression arg = ( ( TupleExpression ) node . getArguments ( ) ) . getExpressions ( ) . get ( <NUM_LIT:0> ) ; if ( arg instanceof MapExpression ) { enclosingConstructorCall = node ; } } super . visitConstructorCallExpression ( node ) ; } } @ Override public void visitDeclarationExpression ( DeclarationExpression node ) { visitBinaryExpression ( node ) ; } @ Override public void visitFieldExpression ( FieldExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitFieldExpression ( node ) ; } } @ Override public void visitGStringExpression ( GStringExpression node ) { scopes . peek ( ) . setCurrentNode ( node ) ; boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitGStringExpression ( node ) ; } scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitListExpression ( ListExpression node ) { if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } scopes . peek ( ) . setCurrentNode ( node ) ; completeExpressionStack . push ( node ) ; super . visitListExpression ( node ) ; ClassNode eltType ; if ( node . getExpressions ( ) . size ( ) > <NUM_LIT:0> ) { eltType = primaryTypeStack . pop ( ) ; } else { eltType = VariableScope . OBJECT_CLASS_NODE ; } completeExpressionStack . pop ( ) ; ClassNode exprType = createParameterizedList ( eltType ) ; handleCompleteExpression ( node , exprType , null ) ; scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitMapEntryExpression ( MapEntryExpression node ) { if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } scopes . peek ( ) . setCurrentNode ( node ) ; completeExpressionStack . push ( node ) ; node . getKeyExpression ( ) . visit ( this ) ; ClassNode k = primaryTypeStack . pop ( ) ; node . getValueExpression ( ) . visit ( this ) ; ClassNode v = primaryTypeStack . pop ( ) ; completeExpressionStack . pop ( ) ; ClassNode exprType ; if ( isPrimaryExpression ( node ) ) { exprType = createParameterizedMap ( k , v ) ; } else { exprType = VariableScope . OBJECT_CLASS_NODE ; } handleCompleteExpression ( node , exprType , null ) ; scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitMapExpression ( MapExpression node ) { if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } ClassNode newType ; if ( enclosingConstructorCall != null ) { newType = enclosingConstructorCall . getType ( ) ; enclosingConstructorCall = null ; } else { newType = null ; } scopes . peek ( ) . setCurrentNode ( node ) ; completeExpressionStack . push ( node ) ; if ( newType == null ) { for ( MapEntryExpression entry : node . getMapEntryExpressions ( ) ) { entry . visit ( this ) ; } } else { for ( MapEntryExpression entry : node . getMapEntryExpressions ( ) ) { Expression key = entry . getKeyExpression ( ) ; if ( key instanceof ConstantExpression ) { String fieldName = key . getText ( ) ; FieldNode field = newType . getField ( fieldName ) ; if ( field != null ) { TypeLookupResult result = new TypeLookupResult ( field . getType ( ) , field . getDeclaringClass ( ) , field , TypeConfidence . EXACT , scopes . peek ( ) ) ; handleRequestor ( key , newType , result ) ; } else { handleSimpleExpression ( key ) ; } } else { handleSimpleExpression ( key ) ; } handleSimpleExpression ( entry . getValueExpression ( ) ) ; } } completeExpressionStack . pop ( ) ; ClassNode exprType ; if ( node . getMapEntryExpressions ( ) . size ( ) > <NUM_LIT:0> && newType == null ) { exprType = primaryTypeStack . pop ( ) ; } else { exprType = createParameterizedMap ( VariableScope . OBJECT_CLASS_NODE , VariableScope . OBJECT_CLASS_NODE ) ; } handleCompleteExpression ( node , exprType , null ) ; scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitMethodCallExpression ( MethodCallExpression node ) { scopes . peek ( ) . setCurrentNode ( node ) ; if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } completeExpressionStack . push ( node ) ; node . getObjectExpression ( ) . visit ( this ) ; if ( node . isSpreadSafe ( ) ) { ClassNode objType = primaryTypeStack . pop ( ) ; primaryTypeStack . push ( VariableScope . extractElementType ( objType ) ) ; } node . getMethod ( ) . visit ( this ) ; ClassNode exprType = dependentTypeStack . pop ( ) ; ClassNode exprDeclaringType = dependentDeclaringTypeStack . pop ( ) ; CallAndType call = new CallAndType ( node , exprDeclaringType ) ; completeExpressionStack . pop ( ) ; ClassNode catNode = isCategoryDeclaration ( node ) ; if ( catNode != null ) { addCategoryToBeDeclared ( catNode ) ; } VariableScope scope = scopes . peek ( ) ; scope . addEnclosingMethodCall ( call ) ; node . getArguments ( ) . visit ( this ) ; scope . forgetEnclosingMethodCall ( ) ; if ( node . isSpreadSafe ( ) ) { exprType = createParameterizedList ( exprType ) ; } handleCompleteExpression ( node , exprType , exprDeclaringType ) ; scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitMethodPointerExpression ( MethodPointerExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitMethodPointerExpression ( node ) ; } } @ Override public void visitNotExpression ( NotExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitNotExpression ( node ) ; } } @ Override public void visitPostfixExpression ( PostfixExpression node ) { visitUnaryExpression ( node , node . getExpression ( ) , node . getOperation ( ) . getText ( ) ) ; } @ Override public void visitPrefixExpression ( PrefixExpression node ) { visitUnaryExpression ( node , node . getExpression ( ) , node . getOperation ( ) . getText ( ) ) ; } private void visitUnaryExpression ( Expression node , Expression expression , String operation ) { scopes . peek ( ) . setCurrentNode ( node ) ; completeExpressionStack . push ( node ) ; if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } expression . visit ( this ) ; ClassNode primaryType = primaryTypeStack . pop ( ) ; String associatedMethod = findUnaryOperatorName ( operation ) ; ClassNode completeExprType ; if ( associatedMethod == null && primaryType . equals ( VariableScope . NUMBER_CLASS_NODE ) \|\| primaryType . isDerivedFrom ( VariableScope . NUMBER_CLASS_NODE ) ) { completeExprType = primaryType ; } else { TypeLookupResult result = lookupExpressionType ( new ConstantExpression ( associatedMethod ) , primaryType , false , scopes . peek ( ) ) ; completeExprType = result . type ; } completeExpressionStack . pop ( ) ; handleCompleteExpression ( node , completeExprType , null ) ; } @ Override public void visitPropertyExpression ( PropertyExpression node ) { scopes . peek ( ) . setCurrentNode ( node ) ; completeExpressionStack . push ( node ) ; node . getObjectExpression ( ) . visit ( this ) ; ClassNode objType ; if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } if ( node . isSpreadSafe ( ) ) { objType = primaryTypeStack . pop ( ) ; primaryTypeStack . push ( objType = VariableScope . extractElementType ( objType ) ) ; } else { objType = primaryTypeStack . peek ( ) ; } node . getProperty ( ) . visit ( this ) ; ClassNode exprType = dependentTypeStack . pop ( ) ; dependentDeclaringTypeStack . pop ( ) ; completeExpressionStack . pop ( ) ; if ( node . isSpreadSafe ( ) ) { if ( objType . equals ( VariableScope . MAP_CLASS_NODE ) && objType . getGenericsTypes ( ) != null && objType . getGenericsTypes ( ) . length == <NUM_LIT:2> ) { exprType = objType . getGenericsTypes ( ) [ <NUM_LIT:1> ] . getType ( ) ; } exprType = createParameterizedList ( exprType ) ; } handleCompleteExpression ( node , exprType , null ) ; scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitRangeExpression ( RangeExpression node ) { if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } scopes . peek ( ) . setCurrentNode ( node ) ; completeExpressionStack . push ( node ) ; super . visitRangeExpression ( node ) ; ClassNode eltType = primaryTypeStack . pop ( ) ; completeExpressionStack . pop ( ) ; ClassNode rangeType = createParameterizedRange ( eltType ) ; handleCompleteExpression ( node , rangeType , null ) ; scopes . peek ( ) . forgetCurrentNode ( ) ; } @ Override public void visitShortTernaryExpression ( ElvisOperatorExpression node ) { if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } completeExpressionStack . push ( node ) ; node . getTrueExpression ( ) . visit ( this ) ; ClassNode exprType = primaryTypeStack . pop ( ) ; completeExpressionStack . pop ( ) ; node . getFalseExpression ( ) . visit ( this ) ; handleCompleteExpression ( node , exprType , null ) ; } @ Override public void visitSpreadExpression ( SpreadExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitSpreadExpression ( node ) ; } } @ Override public void visitSpreadMapExpression ( SpreadMapExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitSpreadMapExpression ( node ) ; } } @ Override public void visitStaticMethodCallExpression ( StaticMethodCallExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue && node . getEnd ( ) > <NUM_LIT:0> ) { visitClassReference ( node . getOwnerType ( ) ) ; super . visitStaticMethodCallExpression ( node ) ; } } @ Override public void visitTernaryExpression ( TernaryExpression node ) { if ( isDependentExpression ( node ) ) { primaryTypeStack . pop ( ) ; } completeExpressionStack . push ( node ) ; node . getBooleanExpression ( ) . visit ( this ) ; node . getTrueExpression ( ) . visit ( this ) ; ClassNode exprType = primaryTypeStack . pop ( ) ; node . getFalseExpression ( ) . visit ( this ) ; completeExpressionStack . pop ( ) ; handleCompleteExpression ( node , exprType , null ) ; } @ Override public void visitTupleExpression ( TupleExpression node ) { boolean shouldContinue = handleSimpleExpression ( node ) ; if ( shouldContinue ) { super . visitTupleExpression ( node ) ; } } @ Override public void visitUnaryMinusExpression ( UnaryMinusExpression node ) { visitUnaryExpression ( node , node . getExpression ( ) , "<STR_LIT:->" ) ; } @ Override public void visitUnaryPlusExpression ( UnaryPlusExpression node ) { visitUnaryExpression ( node , node . getExpression ( ) , "<STR_LIT:+>" ) ; } private void visitAnnotation ( AnnotationNode node ) { TypeLookupResult result = null ; VariableScope scope = scopes . peek ( ) ; for ( ITypeLookup lookup : lookups ) { TypeLookupResult candidate = lookup . lookupType ( node , scope ) ; if ( candidate != null ) { if ( result == null \|\| result . confidence . isLessPreciseThan ( candidate . confidence ) ) { result = candidate ; } if ( TypeConfidence . LOOSELY_INFERRED . isLessPreciseThan ( result . confidence ) ) { break ; } } } VisitStatus status = notifyRequestor ( node , requestor , result ) ; switch ( status ) { case CONTINUE : visitClassReference ( node . getClassNode ( ) ) ; if ( node . getMembers ( ) != null ) { @ SuppressWarnings ( "<STR_LIT:cast>" ) Collection < Expression > exprs = ( Collection < Expression > ) node . getMembers ( ) . values ( ) ; for ( Expression expr : exprs ) { if ( expr instanceof AnnotationConstantExpression ) { visitClassReference ( ( ( AnnotationConstantExpression ) expr ) . getType ( ) ) ; } expr . visit ( this ) ; } } break ; case CANCEL_BRANCH : return ; case CANCEL_MEMBER : case STOP_VISIT : throw new VisitCompleted ( status ) ; } } private boolean handleStatement ( Statement node ) { VariableScope scope = scopes . peek ( ) ; ClassNode declaring = scope . getDelegateOrThis ( ) ; scope . setPrimaryNode ( false ) ; if ( node instanceof BlockStatement ) { for ( ITypeLookup lookup : lookups ) { if ( lookup instanceof ITypeLookupExtension ) { ( ( ITypeLookupExtension ) lookup ) . lookupInBlock ( ( BlockStatement ) node , scope ) ; } } } TypeLookupResult noLookup = new TypeLookupResult ( declaring , declaring , declaring , TypeConfidence . EXACT , scope ) ; VisitStatus status = notifyRequestor ( node , requestor , noLookup ) ; switch ( status ) { case CONTINUE : return true ; case CANCEL_BRANCH : return false ; case CANCEL_MEMBER : case STOP_VISIT : default : throw new VisitCompleted ( status ) ; } } private boolean handleSimpleExpression ( Expression node ) { ClassNode primaryType ; boolean isStatic ; VariableScope scope = scopes . peek ( ) ; if ( isDependentExpression ( node ) ) { primaryType = primaryTypeStack . pop ( ) ; if ( isImplicitThis ( ) ) { primaryType = null ; } isStatic = hasStaticObjectExpression ( node ) ; scope . setMethodCallNumberOfArguments ( getMethodCallArgs ( ) ) ; } else { primaryType = null ; isStatic = false ; } scope . setPrimaryNode ( primaryType == null ) ; TypeLookupResult result = lookupExpressionType ( node , primaryType , isStatic , scope ) ; return handleRequestor ( node , primaryType , result ) ; } protected boolean isImplicitThis ( ) { return completeExpressionStack . peek ( ) instanceof MethodCallExpression && ( ( MethodCallExpression ) completeExpressionStack . peek ( ) ) . isImplicitThis ( ) ; } private void handleCompleteExpression ( Expression node , ClassNode exprType , ClassNode exprDeclaringType ) { VariableScope scope = scopes . peek ( ) ; scope . setPrimaryNode ( false ) ; handleRequestor ( node , exprDeclaringType , new TypeLookupResult ( exprType , exprDeclaringType , node , TypeConfidence . EXACT , scope ) ) ; } private void postVisit ( Expression node , ClassNode type , ClassNode declaringType ) { if ( isPrimaryExpression ( node ) ) { primaryTypeStack . push ( type ) ; } else if ( isDependentExpression ( node ) ) { dependentTypeStack . push ( type ) ; dependentDeclaringTypeStack . push ( declaringType ) ; } } private TypeLookupResult lookupExpressionType ( Expression node , ClassNode objectExprType , boolean isStatic , VariableScope scope ) { TypeLookupResult result = null ; for ( ITypeLookup lookup : lookups ) { TypeLookupResult candidate ; if ( lookup instanceof ITypeLookupExtension ) { candidate = ( ( ITypeLookupExtension ) lookup ) . lookupType ( node , scope , objectExprType , isStatic ) ; } else { candidate = lookup . lookupType ( node , scope , objectExprType ) ; } if ( candidate != null ) { if ( result == null \|\| result . confidence . isLessPreciseThan ( candidate . confidence ) ) { result = candidate ; } if ( TypeConfidence . LOOSELY_INFERRED . isLessPreciseThan ( result . confidence ) ) { break ; } } } return result ; } private int getMethodCallArgs ( ) { ASTNode peek = completeExpressionStack . peek ( ) ; if ( peek instanceof MethodCallExpression ) { MethodCallExpression call = ( MethodCallExpression ) peek ; Expression arguments = call . getArguments ( ) ; if ( arguments instanceof ArgumentListExpression ) { ArgumentListExpression list = ( ArgumentListExpression ) arguments ; List < Expression > expressions = list . getExpressions ( ) ; return expressions != null ? expressions . size ( ) : <NUM_LIT:0> ; } else { return <NUM_LIT:0> ; } } return - <NUM_LIT:1> ; } private boolean handleParameterList ( Parameter [ ] params ) { if ( params != null ) { VariableScope scope = scopes . peek ( ) ; for ( Parameter node : params ) { assignmentStorer . storeParameterType ( node , scope ) ; TypeLookupResult result = null ; for ( ITypeLookup lookup : lookups ) { lookup . lookupType ( node , scope ) ; result = lookup . lookupType ( node . getType ( ) , scope ) ; TypeLookupResult candidate = lookup . lookupType ( node . getType ( ) , scope ) ; if ( candidate != null ) { if ( result == null \|\| result . confidence . isLessPreciseThan ( candidate . confidence ) ) { result = candidate ; } if ( TypeConfidence . LOOSELY_INFERRED . isLessPreciseThan ( result . confidence ) ) { break ; } } } TypeLookupResult parameterResult = new TypeLookupResult ( result . type , result . declaringType , node , TypeConfidence . EXACT , scope ) ; scope . setPrimaryNode ( false ) ; VisitStatus status = notifyRequestor ( node , requestor , parameterResult ) ; switch ( status ) { case CONTINUE : break ; case CANCEL_BRANCH : return false ; case CANCEL_MEMBER : case STOP_VISIT : throw new VisitCompleted ( status ) ; } visitClassReference ( node . getType ( ) ) ; visitAnnotations ( node ) ; Expression init = node . getInitialExpression ( ) ; if ( init != null ) { init . visit ( this ) ; } } } return true ; } private boolean handleRequestor ( Expression node , ClassNode primaryType , TypeLookupResult result ) { result . enclosingAssignment = enclosingAssignment ; VisitStatus status = requestor . acceptASTNode ( node , result , enclosingElement ) ; VariableScope scope = scopes . peek ( ) ; scope . setMethodCallNumberOfArguments ( - <NUM_LIT:1> ) ; ClassNode rememberedDeclaringType = result . declaringType ; if ( scope . getCategoryNames ( ) . contains ( rememberedDeclaringType ) ) { rememberedDeclaringType = primaryType != null ? primaryType : scope . getDelegateOrThis ( ) ; } if ( rememberedDeclaringType == null ) { rememberedDeclaringType = VariableScope . OBJECT_CLASS_NODE ; } switch ( status ) { case CONTINUE : postVisit ( node , result . type , rememberedDeclaringType ) ; return true ; case CANCEL_BRANCH : postVisit ( node , result . type , rememberedDeclaringType ) ; return false ; case CANCEL_MEMBER : case STOP_VISIT : throw new VisitCompleted ( status ) ; } return false ; } private VisitStatus notifyRequestor ( ASTNode node , ITypeRequestor requestor , TypeLookupResult result ) { return requestor . acceptASTNode ( node , result , enclosingElement ) ; } private MethodNode findMethodNode ( IMethod method ) { ClassNode clazz = findClassWithName ( createName ( method . getDeclaringType ( ) ) ) ; try { if ( method . isConstructor ( ) ) { List < ConstructorNode > constructors = clazz . getDeclaredConstructors ( ) ; if ( constructors . size ( ) == <NUM_LIT:0> ) { return null ; } outer : for ( ConstructorNode constructorNode : constructors ) { String [ ] jdtParamTypes = method . getParameterTypes ( ) == null ? new String [ <NUM_LIT:0> ] : method . getParameterTypes ( ) ; Parameter [ ] groovyParams = constructorNode . getParameters ( ) == null ? new Parameter [ <NUM_LIT:0> ] : constructorNode . getParameters ( ) ; if ( groovyParams != null && groovyParams . length > <NUM_LIT:0> && groovyParams [ <NUM_LIT:0> ] . getName ( ) . startsWith ( "<STR_LIT:$>" ) ) { Parameter [ ] newGroovyParams = new Parameter [ groovyParams . length - <NUM_LIT:1> ] ; System . arraycopy ( groovyParams , <NUM_LIT:1> , newGroovyParams , <NUM_LIT:0> , newGroovyParams . length ) ; groovyParams = newGroovyParams ; } if ( groovyParams . length != jdtParamTypes . length ) { continue ; } for ( int i = <NUM_LIT:0> ; i < groovyParams . length ; i ++ ) { String groovyClassType = groovyParams [ i ] . getType ( ) . getName ( ) ; if ( ! groovyClassType . startsWith ( "<STR_LIT:[>" ) ) { groovyClassType = Signature . createTypeSignature ( groovyClassType , false ) ; } if ( ! groovyClassType . equals ( jdtParamTypes [ i ] ) ) { continue outer ; } } return constructorNode ; } return constructors . get ( <NUM_LIT:0> ) ; } else { List < MethodNode > methods = clazz . getMethods ( method . getElementName ( ) ) ; if ( methods . size ( ) == <NUM_LIT:0> ) { return null ; } outer : for ( MethodNode methodNode : methods ) { String [ ] jdtParamTypes = method . getParameterTypes ( ) == null ? new String [ <NUM_LIT:0> ] : method . getParameterTypes ( ) ; Parameter [ ] groovyParams = methodNode . getParameters ( ) == null ? new Parameter [ <NUM_LIT:0> ] : methodNode . getParameters ( ) ; if ( groovyParams . length != jdtParamTypes . length ) { continue ; } inner : for ( int i = <NUM_LIT:0> ; i < groovyParams . length ; i ++ ) { String simpleGroovyClassType = groovyParams [ i ] . getType ( ) . getNameWithoutPackage ( ) ; if ( ! simpleGroovyClassType . startsWith ( "<STR_LIT:[>" ) ) { simpleGroovyClassType = Signature . createTypeSignature ( simpleGroovyClassType , false ) ; } if ( simpleGroovyClassType . equals ( jdtParamTypes [ i ] ) ) { continue inner ; } String groovyClassType = groovyParams [ i ] . getType ( ) . getName ( ) ; if ( ! groovyClassType . startsWith ( "<STR_LIT:[>" ) ) { groovyClassType = Signature . createTypeSignature ( groovyClassType , false ) ; } if ( ! groovyClassType . equals ( jdtParamTypes [ i ] ) ) { continue outer ; } } return methodNode ; } return methods . get ( <NUM_LIT:0> ) ; } } catch ( JavaModelException e ) { Util . log ( e , "<STR_LIT>" + method . getElementName ( ) + "<STR_LIT>" + clazz . getName ( ) ) ; } return null ; } private FieldNode findFieldNode ( IField field ) { ClassNode clazz = findClassWithName ( createName ( field . getDeclaringType ( ) ) ) ; FieldNode fieldNode = clazz . getField ( field . getElementName ( ) ) ; if ( fieldNode == null ) { fieldNode = clazz . getField ( "<STR_LIT:$>" + field . getElementName ( ) ) ; } return fieldNode ; } private ClassNode createParameterizedList ( ClassNode propType ) { ClassNode list = VariableScope . clonedList ( ) ; list . getGenericsTypes ( ) [ <NUM_LIT:0> ] . setType ( propType ) ; list . getGenericsTypes ( ) [ <NUM_LIT:0> ] . setName ( propType . getName ( ) ) ; return list ; } private ClassNode createParameterizedRange ( ClassNode propType ) { ClassNode range = VariableScope . clonedRange ( ) ; range . getGenericsTypes ( ) [ <NUM_LIT:0> ] . setType ( propType ) ; range . getGenericsTypes ( ) [ <NUM_LIT:0> ] . setName ( propType . getName ( ) ) ; return range ; } private ClassNode createParameterizedMap ( ClassNode k , ClassNode v ) { ClassNode map = VariableScope . clonedMap ( ) ; map . getGenericsTypes ( ) [ <NUM_LIT:0> ] . setType ( k ) ; map . getGenericsTypes ( ) [ <NUM_LIT:0> ] . setName ( k . getName ( ) ) ; map . getGenericsTypes ( ) [ <NUM_LIT:1> ] . setType ( v ) ; map . getGenericsTypes ( ) [ <NUM_LIT:1> ] . setName ( v . getName ( ) ) ; return map ; } private boolean isLazy ( FieldNode field ) { List < AnnotationNode > annotations = field . getAnnotations ( ) ; for ( AnnotationNode annotation : annotations ) { if ( annotation . getClassNode ( ) . getName ( ) . equals ( "<STR_LIT>" ) ) { return true ; } } return false ; } @ Override protected SourceUnit getSourceUnit ( ) { return null ; } @ SuppressWarnings ( "<STR_LIT:cast>" ) private ClassNode findClassWithName ( String simpleName ) { for ( ClassNode clazz : ( Iterable < ClassNode > ) getModuleNode ( ) . getClasses ( ) ) { if ( clazz . getNameWithoutPackage ( ) . equals ( simpleName ) ) { return clazz ; } } return null ; } private ModuleNodeInfo createModuleNode ( GroovyCompilationUnit unit ) { if ( unit . getOwner ( ) == null \|\| unit . owner == DefaultWorkingCopyOwner . PRIMARY ) { return unit . getModuleInfo ( true ) ; } else { return unit . getNewModuleInfo ( ) ; } } private ModuleNode getModuleNode ( ) { if ( enclosingDeclarationNode instanceof ModuleNode ) { return ( ModuleNode ) enclosingDeclarationNode ; } else if ( enclosingDeclarationNode instanceof ClassNode ) { return ( ( ClassNode ) enclosingDeclarationNode ) . getModule ( ) ; } else if ( enclosingDeclarationNode instanceof MethodNode ) { return ( ( MethodNode ) enclosingDeclarationNode ) . getDeclaringClass ( ) . getModule ( ) ; } else if ( enclosingDeclarationNode instanceof FieldNode ) { return ( ( FieldNode ) enclosingDeclarationNode ) . getDeclaringClass ( ) . getModule ( ) ; } else { throw new IllegalArgumentException ( "<STR_LIT>" + enclosingDeclarationNode ) ; } } private boolean isPrimaryExpression ( Expression node ) { if ( ! completeExpressionStack . isEmpty ( ) ) { ASTNode complete = completeExpressionStack . peek ( ) ; if ( complete instanceof PropertyExpression ) { PropertyExpression prop = ( PropertyExpression ) complete ; return prop . getObjectExpression ( ) == node ; } else if ( complete instanceof MethodCallExpression ) { MethodCallExpression prop = ( MethodCallExpression ) complete ; return prop . getObjectExpression ( ) == node ; } else if ( complete instanceof BinaryExpression ) { BinaryExpression prop = ( BinaryExpression ) complete ; return prop . getRightExpression ( ) == node \|\| prop . getLeftExpression ( ) == node ; } else if ( complete instanceof AttributeExpression ) { AttributeExpression prop = ( AttributeExpression ) complete ; return prop . getObjectExpression ( ) == node ; } else if ( complete instanceof TernaryExpression ) { TernaryExpression prop = ( TernaryExpression ) complete ; return prop . getTrueExpression ( ) == node ; } else if ( complete instanceof ForStatement ) { ForStatement prop = ( ForStatement ) complete ; return prop . getCollectionExpression ( ) == node ; } else if ( complete instanceof ListExpression ) { return ( ( ListExpression ) complete ) . getExpressions ( ) . size ( ) > <NUM_LIT:0> && ( ( ListExpression ) complete ) . getExpression ( <NUM_LIT:0> ) == node ; } else if ( complete instanceof RangeExpression ) { return ( ( RangeExpression ) complete ) . getFrom ( ) == node ; } else if ( complete instanceof MapEntryExpression ) { return ( ( MapEntryExpression ) complete ) . getKeyExpression ( ) == node \|\| ( ( MapEntryExpression ) complete ) . getValueExpression ( ) == node ; } else if ( complete instanceof MapExpression ) { return ( ( MapExpression ) complete ) . getMapEntryExpressions ( ) . size ( ) > <NUM_LIT:0> && ( ( MapExpression ) complete ) . getMapEntryExpressions ( ) . get ( <NUM_LIT:0> ) == node ; } else if ( complete instanceof PrefixExpression ) { return ( ( PrefixExpression ) complete ) . getExpression ( ) == node ; } else if ( complete instanceof PostfixExpression ) { return ( ( PostfixExpression ) complete ) . getExpression ( ) == node ; } else if ( complete instanceof UnaryPlusExpression ) { return ( ( UnaryPlusExpression ) complete ) . getExpression ( ) == node ; } else if ( complete instanceof UnaryMinusExpression ) { return ( ( UnaryMinusExpression ) complete ) . getExpression ( ) == node ; } else if ( complete instanceof BitwiseNegationExpression ) { return ( ( BitwiseNegationExpression ) complete ) . getExpression ( ) == node ; } else { return false ; } } else { return false ; } } private boolean isDependentExpression ( Expression node ) { if ( ! completeExpressionStack . isEmpty ( ) ) { ASTNode complete = completeExpressionStack . peek ( ) ; if ( complete instanceof PropertyExpression ) { PropertyExpression prop = ( PropertyExpression ) complete ; return prop . getProperty ( ) == node ; } else if ( complete instanceof MethodCallExpression ) { MethodCallExpression prop = ( MethodCallExpression ) complete ; return prop . getMethod ( ) == node ; } else if ( complete instanceof ImportNode ) { ImportNode imp = ( ImportNode ) complete ; return node == imp . getAliasExpr ( ) \|\| node == imp . getFieldNameExpr ( ) ; } else { return false ; } } else { return false ; } } private boolean hasStaticObjectExpression ( Expression node ) { if ( ! completeExpressionStack . isEmpty ( ) ) { ASTNode maybeProperty = completeExpressionStack . peek ( ) ; if ( maybeProperty instanceof PropertyExpression ) { PropertyExpression prop = ( PropertyExpression ) maybeProperty ; return prop . getObjectExpression ( ) instanceof ClassExpression \|\| ( prop . isImplicitThis ( ) && scopes . peek ( ) . isStatic ( ) ) ; } else if ( maybeProperty instanceof MethodCallExpression ) { MethodCallExpression prop = ( MethodCallExpression ) maybeProperty ; return prop . getObjectExpression ( ) instanceof ClassExpression \|\| ( prop . isImplicitThis ( ) && scopes . peek ( ) . isStatic ( ) ) ; } else if ( maybeProperty instanceof AttributeExpression ) { AttributeExpression prop = ( AttributeExpression ) maybeProperty ; return prop . getObjectExpression ( ) instanceof ClassExpression \|\| ( prop . isImplicitThis ( ) && scopes . peek ( ) . isStatic ( ) ) ; } else { return false ; } } else { return false ; } } private ClassNode findTypeOfBinaryExpression ( String operation , ClassNode lhs , ClassNode rhs ) { char op = operation . charAt ( <NUM_LIT:0> ) ; switch ( op ) { case '<CHAR_LIT>' : if ( operation . equals ( "<STR_LIT>" ) \|\| operation . equals ( "<STR_LIT>" ) ) { return VariableScope . clonedList ( ) ; } case '<CHAR_LIT>' : return VariableScope . STRING_CLASS_NODE ; case '<CHAR_LIT>' : case '<CHAR_LIT>' : case '<CHAR_LIT:>>' : if ( operation . length ( ) > <NUM_LIT:1> ) { if ( operation . equals ( "<STR_LIT>" ) ) { return VariableScope . INTEGER_CLASS_NODE ; } } return VariableScope . BOOLEAN_CLASS_NODE ; case '<CHAR_LIT>' : if ( operation . equals ( "<STR_LIT>" ) \|\| operation . equals ( "<STR_LIT>" ) ) { return VariableScope . BOOLEAN_CLASS_NODE ; } else { return rhs ; } case '<CHAR_LIT:.>' : if ( operation . equals ( "<STR_LIT>" ) ) { return ClassHelper . CLOSURE_TYPE ; } else { return rhs ; } case '<CHAR_LIT:=>' : if ( operation . length ( ) > <NUM_LIT:1> ) { if ( operation . charAt ( <NUM_LIT:1> ) == '<CHAR_LIT:=>' ) { return VariableScope . BOOLEAN_CLASS_NODE ; } else if ( operation . charAt ( <NUM_LIT:1> ) == '<CHAR_LIT>' ) { return VariableScope . MATCHER_CLASS_NODE ; } } default : return rhs ; } } private void addCategoryToBeDeclared ( ClassNode catNode ) { scopes . peek ( ) . setCategoryBeingDeclared ( catNode ) ; } private ClassNode isCategoryDeclaration ( MethodCallExpression node ) { String methodAsString = node . getMethodAsString ( ) ; if ( methodAsString != null && methodAsString . equals ( "<STR_LIT>" ) ) { Expression exprs = node . getArguments ( ) ; if ( exprs instanceof ArgumentListExpression ) { ArgumentListExpression args = ( ArgumentListExpression ) exprs ; if ( args . getExpressions ( ) . size ( ) >= <NUM_LIT:2> && args . getExpressions ( ) . get ( <NUM_LIT:1> ) instanceof ClosureExpression ) { @ SuppressWarnings ( "<STR_LIT:cast>" ) Expression expr = ( ( List < Expression > ) args . getExpressions ( ) ) . get ( <NUM_LIT:0> ) ; if ( expr instanceof ClassExpression ) { return expr . getType ( ) ; } else if ( expr instanceof VariableExpression && expr . getText ( ) != null ) { VariableInfo info = scopes . peek ( ) . lookupName ( expr . getText ( ) ) ; if ( info != null ) { return info . type ; } } } } } return null ; } private void postVisitSanityCheck ( ) { Assert . isTrue ( completeExpressionStack . isEmpty ( ) , "<STR_LIT>" ) ; Assert . isTrue ( primaryTypeStack . isEmpty ( ) , "<STR_LIT>" ) ; Assert . isTrue ( dependentDeclaringTypeStack . isEmpty ( ) , "<STR_LIT>" ) ; Assert . isTrue ( dependentTypeStack . isEmpty ( ) , "<STR_LIT>" ) ; Assert . isTrue ( scopes . isEmpty ( ) , "<STR_LIT>" ) ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import groovy . lang . GroovyObjectSupport ; import groovy . lang . Tuple ; import java . io . BufferedReader ; import java . io . BufferedWriter ; import java . io . DataInputStream ; import java . io . DataOutputStream ; import java . io . File ; import java . io . InputStream ; import java . io . ObjectInputStream ; import java . io . ObjectOutputStream ; import java . io . OutputStream ; import java . io . PrintWriter ; import java . util . ArrayList ; import java . util . Collections ; import java . util . Enumeration ; import java . util . HashMap ; import java . util . Iterator ; import java . util . LinkedHashSet ; import java . util . List ; import java . util . Map ; import java . util . Map . Entry ; import java . util . NoSuchElementException ; import java . util . Set ; import java . util . Stack ; import java . util . regex . Matcher ; import org . codehaus . groovy . ast . ASTNode ; import org . codehaus . groovy . ast . ClassHelper ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . GenericsType ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . ModuleNode ; import org . codehaus . groovy . ast . Parameter ; import org . codehaus . groovy . ast . PropertyNode ; import org . codehaus . groovy . ast . Variable ; import org . codehaus . groovy . ast . expr . ClosureExpression ; import org . codehaus . groovy . ast . expr . MethodCallExpression ; import org . codehaus . groovy . runtime . DateGroovyMethods ; import org . codehaus . groovy . runtime . DefaultGroovyMethods ; import org . codehaus . groovy . runtime . DefaultGroovyStaticMethods ; import org . codehaus . groovy . runtime . EncodingGroovyMethods ; import org . codehaus . groovy . runtime . ProcessGroovyMethods ; import org . codehaus . groovy . runtime . SwingGroovyMethods ; import org . codehaus . groovy . runtime . XmlGroovyMethods ; import org . codehaus . jdt . groovy . internal . compiler . ast . LazyGenericsType ; import org . eclipse . core . runtime . Assert ; import org . eclipse . jdt . core . Signature ; import org . eclipse . jdt . internal . core . util . Util ; public class VariableScope { public static final ClassNode OBJECT_CLASS_NODE = ClassHelper . OBJECT_TYPE ; public static final ClassNode LIST_CLASS_NODE = ClassHelper . LIST_TYPE ; public static final ClassNode RANGE_CLASS_NODE = ClassHelper . RANGE_TYPE ; public static final ClassNode TUPLE_CLASS_NODE = ClassHelper . make ( Tuple . class ) ; public static final ClassNode PATTERN_CLASS_NODE = ClassHelper . PATTERN_TYPE ; public static final ClassNode MATCHER_CLASS_NODE = ClassHelper . make ( Matcher . class ) ; public static final ClassNode MAP_CLASS_NODE = ClassHelper . MAP_TYPE ; public static final ClassNode STRING_CLASS_NODE = ClassHelper . STRING_TYPE ; public static final ClassNode GSTRING_CLASS_NODE = ClassHelper . GSTRING_TYPE ; public static final ClassNode VOID_CLASS_NODE = ClassHelper . make ( void . class ) ; public static final ClassNode VOID_WRAPPER_CLASS_NODE = ClassHelper . void_WRAPPER_TYPE ; public static final ClassNode NUMBER_CLASS_NODE = ClassHelper . make ( Number . class ) ; public static final ClassNode ITERATOR_CLASS = ClassHelper . make ( Iterator . class ) ; public static final ClassNode ENUMERATION_CLASS = ClassHelper . make ( Enumeration . class ) ; public static final ClassNode INPUT_STREAM_CLASS = ClassHelper . make ( InputStream . class ) ; public static final ClassNode OUTPUT_STREAM_CLASS = ClassHelper . make ( OutputStream . class ) ; public static final ClassNode DATA_INPUT_STREAM_CLASS = ClassHelper . make ( DataInputStream . class ) ; public static final ClassNode DATA_OUTPUT_STREAM_CLASS = ClassHelper . make ( DataOutputStream . class ) ; public static final ClassNode OBJECT_OUTPUT_STREAM = ClassHelper . make ( ObjectOutputStream . class ) ; public static final ClassNode OBJECT_INPUT_STREAM = ClassHelper . make ( ObjectInputStream . class ) ; public static final ClassNode FILE_CLASS_NODE = ClassHelper . make ( File . class ) ; public static final ClassNode BUFFERED_READER_CLASS_NODE = ClassHelper . make ( BufferedReader . class ) ; public static final ClassNode BUFFERED_WRITER_CLASS_NODE = ClassHelper . make ( BufferedWriter . class ) ; public static final ClassNode PRINT_WRITER_CLASS_NODE = ClassHelper . make ( PrintWriter . class ) ; public static final ClassNode CLOSURE_CLASS = ClassHelper . CLOSURE_TYPE ; public static final ClassNode GROOVY_OBJECT_SUPPORT = ClassHelper . make ( GroovyObjectSupport . class ) ; public static final ClassNode DGM_CLASS_NODE = ClassHelper . make ( DefaultGroovyMethods . class ) ; public static final ClassNode EGM_CLASS_NODE = ClassHelper . make ( EncodingGroovyMethods . class ) ; public static final ClassNode PGM_CLASS_NODE = ClassHelper . make ( ProcessGroovyMethods . class ) ; public static final ClassNode SGM_CLASS_NODE = ClassHelper . make ( SwingGroovyMethods . class ) ; public static final ClassNode XGM_CLASS_NODE = ClassHelper . make ( XmlGroovyMethods . class ) ; public static final ClassNode DGSM_CLASS_NODE = ClassHelper . make ( DefaultGroovyStaticMethods . class ) ; public static final ClassNode DATE_GM_CLASS_NODE = ClassHelper . make ( DateGroovyMethods . class ) ; public static ClassNode RESOURCE_GROOVY_METHODS ; public static ClassNode STRING_GROOVY_METHODS ; public static ClassNode IO_GROOVY_METHODS ; static { try { RESOURCE_GROOVY_METHODS = ClassHelper . make ( Class . forName ( "<STR_LIT>" ) ) ; STRING_GROOVY_METHODS = ClassHelper . make ( Class . forName ( "<STR_LIT>" ) ) ; IO_GROOVY_METHODS = ClassHelper . make ( Class . forName ( "<STR_LIT>" ) ) ; } catch ( ClassNotFoundException e ) { RESOURCE_GROOVY_METHODS = null ; STRING_GROOVY_METHODS = null ; IO_GROOVY_METHODS = null ; } } public static Set < ClassNode > ALL_DEFAULT_CATEGORIES ; static { List < ClassNode > dgm_classes = new ArrayList < ClassNode > ( <NUM_LIT:10> ) ; if ( STRING_GROOVY_METHODS != null ) { dgm_classes . add ( STRING_GROOVY_METHODS ) ; } if ( RESOURCE_GROOVY_METHODS != null ) { dgm_classes . add ( RESOURCE_GROOVY_METHODS ) ; } if ( IO_GROOVY_METHODS != null ) { dgm_classes . add ( IO_GROOVY_METHODS ) ; } dgm_classes . add ( EGM_CLASS_NODE ) ; dgm_classes . add ( PGM_CLASS_NODE ) ; dgm_classes . add ( SGM_CLASS_NODE ) ; dgm_classes . add ( XGM_CLASS_NODE ) ; dgm_classes . add ( DATE_GM_CLASS_NODE ) ; dgm_classes . add ( DGSM_CLASS_NODE ) ; dgm_classes . add ( DGM_CLASS_NODE ) ; ALL_DEFAULT_CATEGORIES = Collections . unmodifiableSet ( new LinkedHashSet < ClassNode > ( dgm_classes ) ) ; } public static final ClassNode CLASS_CLASS_NODE = ClassHelper . makeWithoutCaching ( Class . class ) ; static { initializeProperties ( CLASS_CLASS_NODE ) ; } public static final ClassNode CLASS_ARRAY_CLASS_NODE = CLASS_CLASS_NODE . makeArray ( ) ; public static final ClassNode INTEGER_CLASS_NODE = ClassHelper . Integer_TYPE ; public static final ClassNode LONG_CLASS_NODE = ClassHelper . Long_TYPE ; public static final ClassNode SHORT_CLASS_NODE = ClassHelper . Short_TYPE ; public static final ClassNode FLOAT_CLASS_NODE = ClassHelper . Float_TYPE ; public static final ClassNode DOUBLE_CLASS_NODE = ClassHelper . Double_TYPE ; public static final ClassNode BYTE_CLASS_NODE = ClassHelper . Byte_TYPE ; public static final ClassNode BOOLEAN_CLASS_NODE = ClassHelper . Boolean_TYPE ; public static final ClassNode CHARACTER_CLASS_NODE = ClassHelper . Character_TYPE ; public static class VariableInfo { public final ClassNode type ; public final ClassNode declaringType ; public VariableInfo ( ClassNode type , ClassNode declaringType ) { super ( ) ; this . type = type ; this . declaringType = declaringType ; } public String getTypeSignature ( ) { String typeName = type . getName ( ) ; if ( typeName . startsWith ( "<STR_LIT:[>" ) ) { return typeName ; } else { return Signature . createTypeSignature ( typeName , true ) ; } } } public static class CallAndType { public CallAndType ( MethodCallExpression call , ClassNode declaringType ) { this . call = call ; this . declaringType = declaringType ; } public final MethodCallExpression call ; public final ClassNode declaringType ; } private class SharedState { final Map < String , Object > wormhole = new HashMap < String , Object > ( ) ; final Stack < CallAndType > enclosingCallStack = new Stack < VariableScope . CallAndType > ( ) ; final Stack < ASTNode > nodeStack = new Stack < ASTNode > ( ) ; boolean isRunMethod ; } public static ClassNode NO_CATEGORY = null ; private VariableScope parent ; private SharedState shared ; private ASTNode scopeNode ; private Map < String , VariableInfo > nameVariableMap = new HashMap < String , VariableInfo > ( ) ; private boolean isStaticScope ; private final ClosureExpression enclosingClosure ; private ClassNode categoryBeingDeclared ; private int methodCallNumberOfArguments = - <NUM_LIT:1> ; private boolean isPrimaryNode ; public VariableScope ( VariableScope parent , ASTNode enclosingNode , boolean isStatic ) { this . parent = parent ; this . scopeNode = enclosingNode ; if ( parent != null ) { this . shared = parent . shared ; } else { this . shared = new SharedState ( ) ; } if ( enclosingNode instanceof MethodNode ) { this . shared . isRunMethod = ( ( MethodNode ) enclosingNode ) . isScriptBody ( ) ; } else if ( enclosingNode instanceof FieldNode \|\| enclosingNode instanceof ClassNode ) { this . shared . isRunMethod = false ; } this . isStaticScope = isStatic \|\| ( parent != null && parent . isStaticScope ) ; if ( enclosingNode instanceof ClosureExpression ) { this . enclosingClosure = ( ClosureExpression ) enclosingNode ; } else { this . enclosingClosure = null ; } } public Map < String , Object > getWormhole ( ) { return shared . wormhole ; } public ASTNode getEnclosingNode ( ) { if ( shared . nodeStack . size ( ) > <NUM_LIT:1> ) { ASTNode current = shared . nodeStack . pop ( ) ; ASTNode enclosing = shared . nodeStack . peek ( ) ; shared . nodeStack . push ( current ) ; return enclosing ; } else { return null ; } } public void setPrimaryNode ( boolean isPrimaryNode ) { this . isPrimaryNode = isPrimaryNode ; } public void setCurrentNode ( ASTNode currentNode ) { shared . nodeStack . push ( currentNode ) ; } public void forgetCurrentNode ( ) { if ( ! shared . nodeStack . isEmpty ( ) ) { shared . nodeStack . pop ( ) ; } } public ASTNode getCurrentNode ( ) { if ( ! shared . nodeStack . isEmpty ( ) ) { return shared . nodeStack . peek ( ) ; } else { return null ; } } public Set < ClassNode > getCategoryNames ( ) { if ( parent != null ) { Set < ClassNode > categories = parent . getCategoryNames ( ) ; if ( parent . isCategoryBeingDeclared ( ) ) { categories . add ( parent . categoryBeingDeclared ) ; } return categories ; } else { return new LinkedHashSet < ClassNode > ( ALL_DEFAULT_CATEGORIES ) ; } } private boolean isCategoryBeingDeclared ( ) { return categoryBeingDeclared != null ; } public void setCategoryBeingDeclared ( ClassNode categoryBeingDeclared ) { this . categoryBeingDeclared = categoryBeingDeclared ; } public VariableInfo lookupName ( String name ) { if ( "<STR_LIT>" . equals ( name ) ) { ClassNode type = getDelegateOrThis ( ) ; if ( type != null ) { ClassNode superType = type . getSuperClass ( ) ; superType = superType == null ? VariableScope . OBJECT_CLASS_NODE : superType ; return new VariableInfo ( superType , superType ) ; } } VariableInfo var = lookupNameInCurrentScope ( name ) ; if ( var == null && parent != null ) { var = parent . lookupName ( name ) ; } return var ; } public ClassNode getThis ( ) { VariableInfo thiz = lookupName ( "<STR_LIT>" ) ; return thiz != null ? thiz . type : null ; } public ClassNode getDelegate ( ) { VariableInfo delegate = lookupName ( "<STR_LIT>" ) ; return delegate != null ? delegate . type : null ; } public VariableInfo getDelegateOrThisInfo ( ) { VariableInfo info = lookupName ( "<STR_LIT>" ) ; if ( info != null ) { return info ; } info = lookupName ( "<STR_LIT>" ) ; return info ; } public ClassNode getDelegateOrThis ( ) { VariableInfo info = getDelegateOrThisInfo ( ) ; return info != null ? info . type : null ; } public VariableInfo lookupNameInCurrentScope ( String name ) { return nameVariableMap . get ( name ) ; } public boolean isThisOrSuper ( Variable var ) { return var . getName ( ) . equals ( "<STR_LIT>" ) \|\| var . getName ( ) . equals ( "<STR_LIT>" ) ; } public void addVariable ( String name , ClassNode type , ClassNode declaringType ) { nameVariableMap . put ( name , new VariableInfo ( type , declaringType != null ? declaringType : OBJECT_CLASS_NODE ) ) ; } public void addVariable ( Variable var ) { addVariable ( var . getName ( ) , var . getType ( ) , var . getOriginType ( ) ) ; } public ModuleNode getEnclosingModuleNode ( ) { if ( scopeNode instanceof ModuleNode ) { return ( ModuleNode ) scopeNode ; } else if ( parent != null ) { return parent . getEnclosingModuleNode ( ) ; } else { return null ; } } public ClassNode getEnclosingTypeDeclaration ( ) { if ( scopeNode instanceof ClassNode ) { return ( ClassNode ) scopeNode ; } else if ( parent != null ) { return parent . getEnclosingTypeDeclaration ( ) ; } else { return null ; } } public FieldNode getEnclosingFieldDeclaration ( ) { if ( scopeNode instanceof FieldNode ) { return ( FieldNode ) scopeNode ; } else if ( parent != null ) { return parent . getEnclosingFieldDeclaration ( ) ; } else { return null ; } } public MethodNode getEnclosingMethodDeclaration ( ) { if ( scopeNode instanceof MethodNode ) { return ( MethodNode ) scopeNode ; } else if ( parent != null ) { return parent . getEnclosingMethodDeclaration ( ) ; } else { return null ; } } public static ClassNode maybeConvertFromPrimitive ( ClassNode type ) { if ( ClassHelper . isPrimitiveType ( type ) ) { return ClassHelper . getWrapper ( type ) ; } return type ; } private static PropertyNode createPropertyNodeForMethodNode ( MethodNode methodNode ) { ClassNode propertyType = methodNode . getReturnType ( ) ; String methodName = methodNode . getName ( ) ; StringBuffer propertyName = new StringBuffer ( ) ; propertyName . append ( Character . toLowerCase ( methodName . charAt ( <NUM_LIT:3> ) ) ) ; if ( methodName . length ( ) > <NUM_LIT:4> ) { propertyName . append ( methodName . substring ( <NUM_LIT:4> ) ) ; } int mods = methodNode . getModifiers ( ) ; ClassNode declaringClass = methodNode . getDeclaringClass ( ) ; PropertyNode property = new PropertyNode ( propertyName . toString ( ) , mods , propertyType , declaringClass , null , null , null ) ; property . setDeclaringClass ( declaringClass ) ; property . getField ( ) . setDeclaringClass ( declaringClass ) ; return property ; } private static void initializeProperties ( ClassNode node ) { for ( MethodNode methodNode : node . getMethods ( ) ) { if ( AccessorSupport . isGetter ( methodNode ) ) { node . addProperty ( createPropertyNodeForMethodNode ( methodNode ) ) ; } } } public static boolean isVoidOrObject ( ClassNode maybeVoid ) { return maybeVoid != null && ( maybeVoid . getName ( ) . equals ( VOID_CLASS_NODE . getName ( ) ) \|\| maybeVoid . getName ( ) . equals ( VOID_WRAPPER_CLASS_NODE . getName ( ) ) \|\| maybeVoid . getName ( ) . equals ( OBJECT_CLASS_NODE . getName ( ) ) ) ; } public void updateOrAddVariable ( String name , ClassNode type , ClassNode declaringType ) { if ( ! internalUpdateVariable ( name , type , declaringType ) ) { addVariable ( name , type , declaringType ) ; } } public boolean updateVariable ( String name , ClassNode type , ClassNode declaringType ) { return internalUpdateVariable ( name , type , declaringType ) ; } private boolean internalUpdateVariable ( String name , ClassNode type , ClassNode declaringType ) { VariableInfo info = lookupNameInCurrentScope ( name ) ; if ( info != null ) { nameVariableMap . put ( name , new VariableInfo ( type , declaringType == null ? info . declaringType : declaringType ) ) ; return true ; } else if ( parent != null ) { return parent . internalUpdateVariable ( name , type , declaringType ) ; } else { return false ; } } public static ClassNode resolveTypeParameterization ( GenericsMapper mapper , ClassNode typeToParameterize ) { if ( ! mapper . hasGenerics ( ) ) { return typeToParameterize ; } GenericsType [ ] typesToParameterize = typeToParameterize . getGenericsTypes ( ) ; if ( typesToParameterize == null ) { return typeToParameterize ; } for ( int i = <NUM_LIT:0> ; i < typesToParameterize . length ; i ++ ) { GenericsType genericsToParameterize = typesToParameterize [ i ] ; if ( genericsToParameterize instanceof LazyGenericsType ) { Util . log ( new RuntimeException ( ) , "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + typeToParameterize ) ; continue ; } resolveTypeParameterization ( mapper , genericsToParameterize . getType ( ) ) ; String toParameterizeName = genericsToParameterize . getName ( ) ; ClassNode resolved = mapper . findParameter ( toParameterizeName , genericsToParameterize . getType ( ) ) ; if ( typeParameterExistsInRedirected ( typeToParameterize , toParameterizeName ) ) { Assert . isLegal ( typeToParameterize . redirect ( ) != typeToParameterize , "<STR_LIT>" + typeToParameterize ) ; typeToParameterize . getGenericsTypes ( ) [ i ] . setType ( resolved ) ; genericsToParameterize . setName ( genericsToParameterize . getType ( ) . getName ( ) ) ; genericsToParameterize . setUpperBounds ( null ) ; genericsToParameterize . setLowerBound ( null ) ; } else { typeToParameterize = resolved ; break ; } } return typeToParameterize ; } static final public GenericsType [ ] NO_GENERICS = new GenericsType [ <NUM_LIT:0> ] ; private static boolean typeParameterExistsInRedirected ( ClassNode type , String toParameterizeName ) { ClassNode redirect = type . redirect ( ) ; GenericsType [ ] genericsTypes = redirect . getGenericsTypes ( ) ; if ( genericsTypes != null ) { return true ; } return false ; } public static ClassNode clone ( ClassNode type ) { return cloneInternal ( type , <NUM_LIT:0> ) ; } public static ClassNode clonedMap ( ) { ClassNode clone = clone ( MAP_CLASS_NODE ) ; cleanGenerics ( clone . getGenericsTypes ( ) [ <NUM_LIT:0> ] ) ; cleanGenerics ( clone . getGenericsTypes ( ) [ <NUM_LIT:1> ] ) ; return clone ; } public static ClassNode clonedList ( ) { ClassNode clone = clone ( LIST_CLASS_NODE ) ; cleanGenerics ( clone . getGenericsTypes ( ) [ <NUM_LIT:0> ] ) ; return clone ; } public static ClassNode clonedRange ( ) { ClassNode clone = clone ( RANGE_CLASS_NODE ) ; cleanGenerics ( clone . getGenericsTypes ( ) [ <NUM_LIT:0> ] ) ; return clone ; } public static ClassNode clonedTuple ( ) { return clonedList ( ) ; } private static void cleanGenerics ( GenericsType gt ) { gt . getType ( ) . setGenericsTypes ( null ) ; gt . setName ( "<STR_LIT>" ) ; gt . setPlaceholder ( false ) ; gt . setWildcard ( false ) ; gt . setResolved ( true ) ; gt . setUpperBounds ( null ) ; gt . setLowerBound ( null ) ; } private static ClassNode cloneInternal ( ClassNode type , int depth ) { if ( type == null ) { return type ; } ClassNode newType ; newType = type . getPlainNodeReference ( ) ; newType . setRedirect ( type . redirect ( ) ) ; ClassNode [ ] origIFaces = type . getInterfaces ( ) ; if ( origIFaces != null ) { ClassNode [ ] newIFaces = new ClassNode [ origIFaces . length ] ; for ( int i = <NUM_LIT:0> ; i < newIFaces . length ; i ++ ) { newIFaces [ i ] = origIFaces [ i ] ; } newType . setInterfaces ( newIFaces ) ; } newType . setSourcePosition ( type ) ; if ( depth > <NUM_LIT:10> ) { return newType ; } GenericsType [ ] origgts = type . getGenericsTypes ( ) ; if ( origgts != null ) { GenericsType [ ] newgts = new GenericsType [ origgts . length ] ; for ( int i = <NUM_LIT:0> ; i < origgts . length ; i ++ ) { newgts [ i ] = clone ( origgts [ i ] , depth ) ; } newType . setGenericsTypes ( newgts ) ; } return newType ; } private static GenericsType clone ( GenericsType origgt , int depth ) { GenericsType newgt = new GenericsType ( ) ; newgt . setType ( cloneInternal ( origgt . getType ( ) , depth + <NUM_LIT:1> ) ) ; newgt . setLowerBound ( cloneInternal ( origgt . getLowerBound ( ) , depth + <NUM_LIT:1> ) ) ; ClassNode [ ] oldUpperBounds = origgt . getUpperBounds ( ) ; if ( oldUpperBounds != null ) { ClassNode [ ] newUpperBounds = new ClassNode [ oldUpperBounds . length ] ; for ( int i = <NUM_LIT:0> ; i < newUpperBounds . length ; i ++ ) { if ( oldUpperBounds [ i ] . getName ( ) . equals ( newgt . getType ( ) . getName ( ) ) ) { newUpperBounds [ i ] = VariableScope . OBJECT_CLASS_NODE ; } else { newUpperBounds [ i ] = cloneInternal ( oldUpperBounds [ i ] , depth + <NUM_LIT:1> ) ; } } newgt . setUpperBounds ( newUpperBounds ) ; } newgt . setName ( origgt . getName ( ) ) ; newgt . setPlaceholder ( origgt . isPlaceholder ( ) ) ; newgt . setWildcard ( origgt . isWildcard ( ) ) ; newgt . setResolved ( origgt . isResolved ( ) ) ; newgt . setSourcePosition ( origgt ) ; return newgt ; } public boolean isStatic ( ) { return isStaticScope ; } public boolean isPrimaryNode ( ) { return isPrimaryNode ; } public ClosureExpression getEnclosingClosure ( ) { if ( enclosingClosure == null && parent != null ) { return parent . getEnclosingClosure ( ) ; } return enclosingClosure ; } public List < CallAndType > getAllEnclosingMethodCallExpressions ( ) { return shared . enclosingCallStack ; } public CallAndType getEnclosingMethodCallExpression ( ) { if ( shared . enclosingCallStack . isEmpty ( ) ) { return null ; } else { return shared . enclosingCallStack . peek ( ) ; } } public void addEnclosingMethodCall ( CallAndType enclosingMethodCall ) { shared . enclosingCallStack . push ( enclosingMethodCall ) ; } public void forgetEnclosingMethodCall ( ) { shared . enclosingCallStack . pop ( ) ; } public boolean isTopLevel ( ) { return parent == null ; } public boolean containsInThisScope ( String name ) { return nameVariableMap . containsKey ( name ) ; } int getMethodCallNumberOfArguments ( ) { return methodCallNumberOfArguments ; } void setMethodCallNumberOfArguments ( int methodCallNumberOfArguments ) { this . methodCallNumberOfArguments = methodCallNumberOfArguments ; } public boolean isMethodCall ( ) { return methodCallNumberOfArguments >= <NUM_LIT:0> ; } public Iterator < Map . Entry < String , VariableInfo > > variablesIterator ( ) { return new Iterator < Map . Entry < String , VariableInfo > > ( ) { VariableScope currentScope = VariableScope . this ; Iterator < Map . Entry < String , VariableInfo > > currentIter = currentScope . nameVariableMap . entrySet ( ) . iterator ( ) ; public boolean hasNext ( ) { if ( currentIter == null ) { return false ; } if ( ! currentIter . hasNext ( ) ) { currentScope = currentScope . parent ; currentIter = currentScope == null ? null : currentScope . nameVariableMap . entrySet ( ) . iterator ( ) ; } return currentIter != null && currentIter . hasNext ( ) ; } public Entry < String , VariableInfo > next ( ) { if ( ! currentIter . hasNext ( ) ) { throw new NoSuchElementException ( ) ; } return currentIter . next ( ) ; } public void remove ( ) { throw new UnsupportedOperationException ( ) ; } } ; } public static void findAllInterfaces ( ClassNode type , LinkedHashSet < ClassNode > allInterfaces , boolean useResolved ) { if ( ! useResolved ) { type = type . redirect ( ) ; } if ( ! type . isInterface ( ) \|\| ! allInterfaces . contains ( type ) ) { if ( type . isInterface ( ) ) { allInterfaces . add ( type ) ; } ClassNode [ ] interfaces ; if ( useResolved ) { interfaces = type . getUnresolvedInterfaces ( ) ; } else { interfaces = type . getInterfaces ( ) ; } if ( interfaces != null ) { for ( ClassNode superInterface : interfaces ) { findAllInterfaces ( superInterface , allInterfaces , useResolved ) ; } } } } public static void createTypeHierarchy ( ClassNode type , LinkedHashSet < ClassNode > allClasses , boolean useResolved ) { if ( ! useResolved ) { type = type . redirect ( ) ; } if ( ! allClasses . contains ( type ) ) { if ( ! type . isInterface ( ) ) { allClasses . add ( type ) ; ClassNode superClass ; if ( useResolved ) { superClass = type . getUnresolvedSuperClass ( ) ; } else { superClass = type . getSuperClass ( ) ; } if ( superClass != null ) { createTypeHierarchy ( superClass , allClasses , useResolved ) ; } } findAllInterfaces ( type , allClasses , useResolved ) ; } } public static ClassNode extractElementType ( ClassNode collectionType ) { if ( collectionType . isArray ( ) ) { return collectionType . getComponentType ( ) ; } MethodNode iterator = collectionType . getMethod ( "<STR_LIT>" , new Parameter [ <NUM_LIT:0> ] ) ; ClassNode typeToResolve = null ; if ( iterator == null && collectionType . isInterface ( ) ) { if ( collectionType . implementsInterface ( VariableScope . LIST_CLASS_NODE ) && collectionType . getGenericsTypes ( ) != null && collectionType . getGenericsTypes ( ) . length == <NUM_LIT:1> ) { typeToResolve = collectionType ; } else if ( collectionType . declaresInterface ( ITERATOR_CLASS ) \|\| collectionType . equals ( ITERATOR_CLASS ) \|\| collectionType . declaresInterface ( ENUMERATION_CLASS ) \|\| collectionType . equals ( ENUMERATION_CLASS ) ) { typeToResolve = collectionType ; } else if ( collectionType . declaresInterface ( MAP_CLASS_NODE ) \|\| collectionType . equals ( MAP_CLASS_NODE ) ) { MethodNode entrySetMethod = collectionType . getMethod ( "<STR_LIT>" , new Parameter [ <NUM_LIT:0> ] ) ; if ( entrySetMethod != null ) { typeToResolve = entrySetMethod . getReturnType ( ) ; } } } else if ( iterator != null ) { typeToResolve = iterator . getReturnType ( ) ; } if ( typeToResolve != null ) { typeToResolve = clone ( typeToResolve ) ; ClassNode unresolvedCollectionType = collectionType . redirect ( ) ; GenericsMapper mapper = GenericsMapper . gatherGenerics ( collectionType , unresolvedCollectionType ) ; ClassNode resolved = resolveTypeParameterization ( mapper , typeToResolve ) ; GenericsType [ ] resolvedReturnGenerics = resolved . getGenericsTypes ( ) ; if ( resolvedReturnGenerics != null && resolvedReturnGenerics . length > <NUM_LIT:0> ) { return resolvedReturnGenerics [ <NUM_LIT:0> ] . getType ( ) ; } } if ( collectionType . declaresInterface ( INPUT_STREAM_CLASS ) \|\| collectionType . declaresInterface ( DATA_INPUT_STREAM_CLASS ) \|\| collectionType . equals ( INPUT_STREAM_CLASS ) \|\| collectionType . equals ( DATA_INPUT_STREAM_CLASS ) ) { return BYTE_CLASS_NODE ; } return collectionType ; } public boolean inScriptRunMethod ( ) { return shared . isRunMethod ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . HashMap ; import java . util . HashSet ; import java . util . List ; import java . util . Map ; import java . util . Set ; import org . codehaus . groovy . ast . ASTNode ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . MethodNode ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . ast . expr . FieldExpression ; import org . codehaus . groovy . ast . expr . StaticMethodCallExpression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . codehaus . jdt . groovy . internal . compiler . ast . GroovyTypeDeclaration ; import org . codehaus . jdt . groovy . internal . compiler . ast . JDTClassNode ; import org . eclipse . core . runtime . CoreException ; import org . eclipse . jdt . core . IJavaElement ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . core . search . MethodDeclarationMatch ; import org . eclipse . jdt . core . search . MethodReferenceMatch ; import org . eclipse . jdt . core . search . SearchMatch ; import org . eclipse . jdt . core . search . SearchParticipant ; import org . eclipse . jdt . core . search . SearchRequestor ; import org . eclipse . jdt . groovy . core . util . ReflectionUtils ; import org . eclipse . jdt . groovy . search . TypeLookupResult . TypeConfidence ; import org . eclipse . jdt . internal . compiler . ast . TypeDeclaration ; import org . eclipse . jdt . internal . compiler . lookup . ReferenceBinding ; import org . eclipse . jdt . internal . compiler . lookup . SourceTypeBinding ; import org . eclipse . jdt . internal . core . search . matching . MethodPattern ; import org . eclipse . jdt . internal . core . util . Util ; import org . eclipse . jface . text . Position ; @ SuppressWarnings ( "<STR_LIT>" ) public class MethodReferenceSearchRequestor implements ITypeRequestor { private static final int MAX_PARAMS = <NUM_LIT:10> ; private final SearchRequestor requestor ; private final SearchParticipant participant ; private final char [ ] name ; private final String declaringQualifiedName ; private final boolean findDeclarations ; private final boolean findReferences ; @ SuppressWarnings ( "<STR_LIT:unused>" ) private char [ ] [ ] parameterQualifications ; @ SuppressWarnings ( "<STR_LIT:unused>" ) private char [ ] [ ] parameterSimpleNames ; private final int declaredParameterCount ; private final Set < Position > acceptedPositions = new HashSet < Position > ( ) ; public MethodReferenceSearchRequestor ( MethodPattern pattern , SearchRequestor requestor , SearchParticipant participant ) { this . requestor = requestor ; this . participant = participant ; name = ( char [ ] ) ReflectionUtils . getPrivateField ( MethodPattern . class , "<STR_LIT>" , pattern ) ; char [ ] arr = ( char [ ] ) ReflectionUtils . getPrivateField ( MethodPattern . class , "<STR_LIT>" , pattern ) ; String declaringSimpleName = arr == null ? "<STR_LIT>" : new String ( arr ) ; arr = ( char [ ] ) ReflectionUtils . getPrivateField ( MethodPattern . class , "<STR_LIT>" , pattern ) ; String declaringQualification = ( ( arr == null \|\| arr . length == <NUM_LIT:0> ) ? "<STR_LIT>" : ( new String ( arr ) + "<STR_LIT:.>" ) ) ; declaringQualifiedName = declaringQualification + declaringSimpleName ; findDeclarations = ( ( Boolean ) ReflectionUtils . getPrivateField ( MethodPattern . class , "<STR_LIT>" , pattern ) ) . booleanValue ( ) ; findReferences = ( ( Boolean ) ReflectionUtils . getPrivateField ( MethodPattern . class , "<STR_LIT>" , pattern ) ) . booleanValue ( ) ; parameterQualifications = pattern . parameterQualifications ; parameterSimpleNames = pattern . parameterSimpleNames ; declaredParameterCount = pattern . parameterSimpleNames == null ? <NUM_LIT:0> : pattern . parameterSimpleNames . length ; } public VisitStatus acceptASTNode ( ASTNode node , TypeLookupResult result , IJavaElement enclosingElement ) { boolean doCheck = false ; boolean isDeclaration = false ; boolean isConstructorCall = false ; int start = <NUM_LIT:0> ; int end = <NUM_LIT:0> ; if ( result . declaringType == null ) { return VisitStatus . CONTINUE ; } if ( node instanceof ConstantExpression ) { String cName = ( ( ConstantExpression ) node ) . getText ( ) ; if ( cName != null && CharOperation . equals ( name , cName . toCharArray ( ) ) ) { start = node . getStart ( ) ; end = node . getEnd ( ) ; doCheck = end > <NUM_LIT:0> ; } } else if ( node instanceof FieldExpression ) { if ( CharOperation . equals ( name , ( ( FieldExpression ) node ) . getFieldName ( ) . toCharArray ( ) ) ) { start = node . getStart ( ) ; end = node . getEnd ( ) ; doCheck = end > <NUM_LIT:0> ; } } else if ( node instanceof MethodNode ) { MethodNode mnode = ( MethodNode ) node ; if ( CharOperation . equals ( name , mnode . getName ( ) . toCharArray ( ) ) ) { isDeclaration = true ; start = mnode . getNameStart ( ) ; end = mnode . getNameEnd ( ) + <NUM_LIT:1> ; doCheck = true ; } } else if ( node instanceof VariableExpression ) { VariableExpression vnode = ( VariableExpression ) node ; if ( CharOperation . equals ( name , vnode . getName ( ) . toCharArray ( ) ) ) { start = vnode . getStart ( ) ; end = start + vnode . getName ( ) . length ( ) ; doCheck = true ; } } else if ( node instanceof StaticMethodCallExpression ) { StaticMethodCallExpression smnode = ( StaticMethodCallExpression ) node ; if ( CharOperation . equals ( name , smnode . getMethod ( ) . toCharArray ( ) ) ) { start = smnode . getStart ( ) ; end = start + name . length ; doCheck = true ; } } if ( doCheck && end > <NUM_LIT:0> ) { Position position = new Position ( start , end - start ) ; if ( ! acceptedPositions . contains ( position ) ) { int numberOfParameters = findNumberOfParameters ( node , result ) ; boolean isCompleteMatch = nameAndArgsMatch ( removeArray ( result . declaringType ) , numberOfParameters ) ; if ( isCompleteMatch ) { SearchMatch match = null ; if ( isDeclaration && findDeclarations ) { match = new MethodDeclarationMatch ( enclosingElement , getAccuracy ( result . confidence , isCompleteMatch ) , start , end - start , participant , enclosingElement . getResource ( ) ) ; } else if ( ! isDeclaration && findReferences ) { match = new MethodReferenceMatch ( enclosingElement , getAccuracy ( result . confidence , isCompleteMatch ) , start , end - start , isConstructorCall , false , false , false , participant , enclosingElement . getResource ( ) ) ; } if ( match != null ) { try { requestor . acceptSearchMatch ( match ) ; acceptedPositions . add ( position ) ; } catch ( CoreException e ) { Util . log ( e , "<STR_LIT>" + enclosingElement + "<STR_LIT>" + enclosingElement . getResource ( ) ) ; } } } } } return VisitStatus . CONTINUE ; } private int findNumberOfParameters ( ASTNode node , TypeLookupResult result ) { return node instanceof MethodNode && ( ( MethodNode ) node ) . getParameters ( ) != null ? ( ( MethodNode ) node ) . getParameters ( ) . length : Math . max ( <NUM_LIT:0> , result . scope . getMethodCallNumberOfArguments ( ) ) ; } private Map < ClassNode , Boolean > cachedDeclaringNameMatches = new HashMap < ClassNode , Boolean > ( ) ; private Map < ClassNode , boolean [ ] > cachedParameterCounts = new HashMap < ClassNode , boolean [ ] > ( ) ; private boolean nameAndArgsMatch ( ClassNode declaringType , int currentCallCount ) { return matchOnName ( declaringType ) && matchOnNumberOfParameters ( declaringType , currentCallCount ) ; } private boolean matchOnName ( ClassNode declaringType ) { if ( declaringType == null \|\| ( declaringType . getName ( ) . equals ( "<STR_LIT>" ) && declaringType . getDeclaredMethods ( String . valueOf ( name ) ) . size ( ) == <NUM_LIT:0> ) ) { return false ; } if ( declaringQualifiedName == null \|\| declaringQualifiedName . equals ( "<STR_LIT>" ) ) { return true ; } Boolean maybeMatch = cachedDeclaringNameMatches . get ( declaringType ) ; if ( maybeMatch != null ) { return maybeMatch ; } if ( declaringType . getName ( ) . equals ( declaringQualifiedName ) ) { cachedDeclaringNameMatches . put ( declaringType , true ) ; return true ; } else { maybeMatch = matchOnName ( declaringType . getSuperClass ( ) ) ; if ( ! maybeMatch ) { for ( ClassNode iface : declaringType . getInterfaces ( ) ) { maybeMatch = matchOnName ( iface ) ; if ( maybeMatch ) { break ; } } } cachedDeclaringNameMatches . put ( declaringType , maybeMatch ) ; return maybeMatch ; } } private boolean matchOnNumberOfParameters ( ClassNode declaringType , int currentCallCount ) { boolean methodParamNumberMatch ; if ( currentCallCount == declaredParameterCount ) { methodParamNumberMatch = true ; } else { boolean [ ] foundParameterNumbers = cachedParameterCounts . get ( declaringType ) ; if ( foundParameterNumbers == null ) { foundParameterNumbers = new boolean [ MAX_PARAMS + <NUM_LIT:1> ] ; gatherParameters ( declaringType , foundParameterNumbers ) ; cachedParameterCounts . put ( declaringType , foundParameterNumbers ) ; } methodParamNumberMatch = ! foundParameterNumbers [ Math . min ( MAX_PARAMS , currentCallCount ) ] ; } return methodParamNumberMatch ; } private void gatherParameters ( ClassNode declaringType , boolean [ ] foundParameterNumbers ) { if ( declaringType == null ) { return ; } declaringType = findWrappedNode ( declaringType . redirect ( ) ) ; List < MethodNode > methods = declaringType . getMethods ( String . valueOf ( name ) ) ; for ( MethodNode method : methods ) { method = method . getOriginal ( ) ; foundParameterNumbers [ Math . min ( method . getParameters ( ) . length , MAX_PARAMS ) ] = true ; } gatherParameters ( declaringType . getSuperClass ( ) , foundParameterNumbers ) ; for ( ClassNode iface : declaringType . getInterfaces ( ) ) { gatherParameters ( iface , foundParameterNumbers ) ; } } private ClassNode findWrappedNode ( ClassNode declaringType ) { ClassNode wrappedNode = null ; if ( declaringType instanceof JDTClassNode ) { ReferenceBinding binding = ( ( JDTClassNode ) declaringType ) . getJdtBinding ( ) ; if ( binding instanceof SourceTypeBinding ) { SourceTypeBinding sourceTypeBinding = ( SourceTypeBinding ) binding ; if ( sourceTypeBinding . scope != null ) { TypeDeclaration typeDeclaration = sourceTypeBinding . scope . referenceContext ; if ( typeDeclaration instanceof GroovyTypeDeclaration ) { GroovyTypeDeclaration groovyTypeDeclaration = ( GroovyTypeDeclaration ) typeDeclaration ; wrappedNode = groovyTypeDeclaration . getClassNode ( ) ; } } } } return wrappedNode == null ? declaringType : wrappedNode ; } private int getAccuracy ( TypeConfidence confidence , boolean isCompleteMatch ) { if ( shouldAlwaysBeAccurate ( ) ) { return SearchMatch . A_ACCURATE ; } if ( ! isCompleteMatch ) { return SearchMatch . A_INACCURATE ; } switch ( confidence ) { case EXACT : return SearchMatch . A_ACCURATE ; default : return SearchMatch . A_INACCURATE ; } } private boolean shouldAlwaysBeAccurate ( ) { return requestor . getClass ( ) . getPackage ( ) . getName ( ) . indexOf ( "<STR_LIT>" ) != - <NUM_LIT:1> ; } private ClassNode removeArray ( ClassNode declaration ) { return declaration . getComponentType ( ) != null ? removeArray ( declaration . getComponentType ( ) ) : declaration ; } } </s>
<s> package org . eclipse . jdt . groovy . search ; import java . util . HashSet ; import java . util . Set ; import org . codehaus . groovy . ast . ASTNode ; import org . codehaus . groovy . ast . ClassNode ; import org . codehaus . groovy . ast . FieldNode ; import org . codehaus . groovy . ast . expr . ConstantExpression ; import org . codehaus . groovy . ast . expr . FieldExpression ; import org . codehaus . groovy . ast . expr . VariableExpression ; import org . eclipse . core . runtime . CoreException ; import org . eclipse . jdt . core . IJavaElement ; import org . eclipse . jdt . core . compiler . CharOperation ; import org . eclipse . jdt . core . search . FieldDeclarationMatch ; import org . eclipse . jdt . core . search . FieldReferenceMatch ; import org . eclipse . jdt . core . search . SearchMatch ; import org . eclipse . jdt . core . search . SearchParticipant ; import org . eclipse . jdt . core . search . SearchRequestor ; import org . eclipse . jdt . groovy . core . util . ReflectionUtils ; import org . eclipse . jdt . groovy . search . TypeLookupResult . TypeConfidence ; import org . eclipse . jdt . internal . core . search . matching . FieldPattern ; import org . eclipse . jdt . internal . core . search . matching . VariablePattern ; import org . eclipse . jdt . internal . core . util . Util ; import org . eclipse . jface . text . Position ; public class FieldReferenceSearchRequestor implements ITypeRequestor { private final SearchRequestor requestor ; private final SearchParticipant participant ; private final char [ ] name ; private final String declaringQualifiedName ; private final boolean readAccess ; private final boolean writeAccess ; private final boolean findDeclarations ; private final boolean findReferences ; private final Set < Position > acceptedPositions = new HashSet < Position > ( ) ; @ SuppressWarnings ( "<STR_LIT>" ) public FieldReferenceSearchRequestor ( FieldPattern pattern , SearchRequestor requestor , SearchParticipant participant ) { this . requestor = requestor ; this . participant = participant ; name = ( char [ ] ) ReflectionUtils . getPrivateField ( VariablePattern . class , "<STR_LIT:name>" , pattern ) ; char [ ] arr = ( char [ ] ) ReflectionUtils . getPrivateField ( FieldPattern . class , "<STR_LIT>" , pattern ) ; String declaringSimpleName = arr == null ? "<STR_LIT>" : new String ( arr ) ; arr = ( char [ ] ) ReflectionUtils . getPrivateField ( FieldPattern . class , "<STR_LIT>" , pattern ) ; String declaringQualification = ( ( arr == null \|\| arr . length == <NUM_LIT:0> ) ? "<STR_LIT>" : ( new String ( arr ) + "<STR_LIT:.>" ) ) ; declaringQualifiedName = declaringQualification + declaringSimpleName ; readAccess = ( ( Boolean ) ReflectionUtils . getPrivateField ( VariablePattern . class , "<STR_LIT>" , pattern ) ) . booleanValue ( ) ; writeAccess = ( ( Boolean ) ReflectionUtils . getPrivateField ( VariablePattern . class , "<STR_LIT>" , pattern ) ) . booleanValue ( ) ; findDeclarations = ( ( Boolean ) ReflectionUtils . getPrivateField ( VariablePattern . class , "<STR_LIT>" , pattern ) ) . booleanValue ( ) ; findReferences = ( ( Boolean ) ReflectionUtils . getPrivateField ( VariablePattern . class , "<STR_LIT>" , pattern ) ) . booleanValue ( ) ; } @ SuppressWarnings ( "<STR_LIT>" ) public VisitStatus acceptASTNode ( ASTNode node , TypeLookupResult result , IJavaElement enclosingElement ) { boolean doCheck = false ; boolean isAssignment = false ; boolean isDeclaration = false ; int start = <NUM_LIT:0> ; int end = <NUM_LIT:0> ; if ( node instanceof ConstantExpression ) { String cName = ( ( ConstantExpression ) node ) . getText ( ) ; if ( cName != null && CharOperation . equals ( name , cName . toCharArray ( ) ) ) { doCheck = true ; if ( EqualityVisitor . checkForAssignment ( node , result . enclosingAssignment ) ) { isAssignment = true ; } start = node . getStart ( ) ; end = node . getEnd ( ) ; } } else if ( node instanceof FieldExpression ) { if ( CharOperation . equals ( name , ( ( FieldExpression ) node ) . getFieldName ( ) . toCharArray ( ) ) ) { doCheck = true ; if ( EqualityVisitor . checkForAssignment ( node , result . enclosingAssignment ) ) { isAssignment = true ; } end = node . getEnd ( ) ; start = end - name . length ; } } else if ( node instanceof FieldNode ) { FieldNode fnode = ( FieldNode ) node ; if ( CharOperation . equals ( name , fnode . getName ( ) . toCharArray ( ) ) ) { doCheck = true ; isDeclaration = true ; isAssignment = true ; start = fnode . getNameStart ( ) ; end = fnode . getNameEnd ( ) + <NUM_LIT:1> ; } } else if ( node instanceof VariableExpression ) { VariableExpression vnode = ( VariableExpression ) node ; if ( CharOperation . equals ( name , vnode . getName ( ) . toCharArray ( ) ) ) { doCheck = true ; if ( EqualityVisitor . checkForAssignment ( node , result . enclosingAssignment ) ) { isAssignment = true ; } start = vnode . getStart ( ) ; end = start + vnode . getName ( ) . length ( ) ; } } if ( doCheck && end > <NUM_LIT:0> ) { Position position = new Position ( start , end - start ) ; if ( ! acceptedPositions . contains ( position ) ) { boolean isCompleteMatch = qualifiedNameMatches ( removeArray ( result . declaringType ) ) ; if ( isCompleteMatch && ( ( isAssignment && writeAccess ) \|\| ( ! isAssignment && readAccess ) \|\| ( isDeclaration && findDeclarations ) ) ) { SearchMatch match = null ; if ( isDeclaration && findDeclarations ) { match = new FieldDeclarationMatch ( enclosingElement , getAccuracy ( result . confidence , isCompleteMatch ) , start , end - start , participant , enclosingElement . getResource ( ) ) ; } else if ( ! isDeclaration && findReferences ) { match = new FieldReferenceMatch ( enclosingElement , getAccuracy ( result . confidence , isCompleteMatch ) , start , end - start , ! isAssignment , isAssignment , false , participant , enclosingElement . getResource ( ) ) ; } if ( match != null ) { try { requestor . acceptSearchMatch ( match ) ; acceptedPositions . add ( position ) ; } catch ( CoreException e ) { Util . log ( e , "<STR_LIT>" + enclosingElement + "<STR_LIT>" + enclosingElement . getResource ( ) ) ; } } } } } return VisitStatus . CONTINUE ; } private boolean qualifiedNameMatches ( ClassNode declaringType ) { if ( declaringType == null ) { return false ; } else if ( declaringQualifiedName == null \|\| declaringQualifiedName . equals ( "<STR_LIT>" ) ) { return true ; } else if ( declaringType . getName ( ) . equals ( declaringQualifiedName ) ) { return true ; } else { return false ; } } private int getAccuracy ( TypeConfidence confidence , boolean isCompleteMatch ) { if ( shouldAlwaysBeAccurate ( ) ) { return SearchMatch . A_ACCURATE ; } if ( ! isCompleteMatch ) { return SearchMatch . A_INACCURATE ; } switch ( confidence ) { case EXACT : return SearchMatch . A_ACCURATE ; default : return SearchMatch . A_INACCURATE ; } } private boolean shouldAlwaysBeAccurate ( ) { return requestor . getClass ( ) . getPackage ( ) . getName ( ) . indexOf ( "<STR_LIT>" ) != - <NUM_LIT:1> ; } private ClassNode removeArray ( ClassNode declaration ) { return ( declaration != null && declaration . getComponentType ( ) != null ) ? removeArray ( declaration . getComponentType ( ) ) : declaration ; } } </s>

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