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/*******************************************************************************
 * Copyright (c) 2000, 2014 IBM Corporation and others.
 * All rights reserved. This program and the accompanying materials
 * are made available under the terms of the Eclipse Public License v1.0
 * which accompanies this distribution, and is available at
 * http://www.eclipse.org/legal/epl-v10.html
 * 
 * Contributors:
 *     IBM Corporation - initial API and implementation
 *     Tom Tromey - patch for readTable(String) as described in http://bugs.eclipse.org/bugs/show_bug.cgi?id=32196
 *     Stephan Herrmann - Contributions for 
 *								bug 366003 - CCE in ASTNode.resolveAnnotations(ASTNode.java:639)
 *								bug 374605 - Unreasonable warning for enum-based switch statements
 *								bug 393719 - [compiler] inconsistent warnings on iteration variables
 *								bug 382353 - [1.8][compiler] Implementation property modifiers should be accepted on default methods.
 *								bug 383973 - [1.8][compiler] syntax recovery in the presence of default methods
 *								bug 401035 - [1.8] A few tests have started failing recently
 *     Jesper S Moller - Contributions for
 *							bug 382701 - [1.8][compiler] Implement semantic analysis of Lambda expressions & Reference expression
 *							bug 399695 - [1.8][compiler] [1.8][compiler] migrate parser to other syntax for default methods
 *							bug 384567 - [1.5][compiler] Compiler accepts illegal modifiers on package declaration
 *									bug 393192 - Incomplete type hierarchy with > 10 annotations
 *        Andy Clement - Contributions for
 *                          Bug 383624 - [1.8][compiler] Revive code generation support for type annotations (from Olivier's work)
 *                          Bug 409250 - [1.8][compiler] Various loose ends in 308 code generation
 *                          Bug 415821 - [1.8][compiler] CLASS_EXTENDS target type annotation missing for anonymous classes
 *******************************************************************************/
package org.eclipse.jdt.internal.compiler.parser;
// GROOVY PATCHED
import java.io.BufferedInputStream;
import java.io.BufferedWriter;
import java.io.File;
import java.io.FileWriter;
import java.io.IOException;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.Properties;

import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.core.compiler.InvalidInputException;
import org.eclipse.jdt.internal.compiler.ASTVisitor;
import org.eclipse.jdt.internal.compiler.CompilationResult;
import org.eclipse.jdt.internal.compiler.ast.AND_AND_Expression;
import org.eclipse.jdt.internal.compiler.ast.ASTNode;
import org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.AbstractVariableDeclaration;
import org.eclipse.jdt.internal.compiler.ast.AllocationExpression;
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.ArrayAllocationExpression;
import org.eclipse.jdt.internal.compiler.ast.ArrayInitializer;
import org.eclipse.jdt.internal.compiler.ast.ArrayQualifiedTypeReference;
import org.eclipse.jdt.internal.compiler.ast.ArrayReference;
import org.eclipse.jdt.internal.compiler.ast.ArrayTypeReference;
import org.eclipse.jdt.internal.compiler.ast.AssertStatement;
import org.eclipse.jdt.internal.compiler.ast.Assignment;
import org.eclipse.jdt.internal.compiler.ast.BinaryExpression;
import org.eclipse.jdt.internal.compiler.ast.Block;
import org.eclipse.jdt.internal.compiler.ast.BreakStatement;
import org.eclipse.jdt.internal.compiler.ast.CaseStatement;
import org.eclipse.jdt.internal.compiler.ast.CastExpression;
import org.eclipse.jdt.internal.compiler.ast.CharLiteral;
import org.eclipse.jdt.internal.compiler.ast.ClassLiteralAccess;
import org.eclipse.jdt.internal.compiler.ast.CombinedBinaryExpression;
import org.eclipse.jdt.internal.compiler.ast.CompilationUnitDeclaration;
import org.eclipse.jdt.internal.compiler.ast.CompoundAssignment;
import org.eclipse.jdt.internal.compiler.ast.ConditionalExpression;
import org.eclipse.jdt.internal.compiler.ast.ConstructorDeclaration;
import org.eclipse.jdt.internal.compiler.ast.ContinueStatement;
import org.eclipse.jdt.internal.compiler.ast.DoStatement;
import org.eclipse.jdt.internal.compiler.ast.DoubleLiteral;
import org.eclipse.jdt.internal.compiler.ast.EmptyStatement;
import org.eclipse.jdt.internal.compiler.ast.EqualExpression;
import org.eclipse.jdt.internal.compiler.ast.ExplicitConstructorCall;
import org.eclipse.jdt.internal.compiler.ast.Expression;
import org.eclipse.jdt.internal.compiler.ast.FalseLiteral;
import org.eclipse.jdt.internal.compiler.ast.FieldDeclaration;
import org.eclipse.jdt.internal.compiler.ast.FieldReference;
import org.eclipse.jdt.internal.compiler.ast.FloatLiteral;
import org.eclipse.jdt.internal.compiler.ast.ForStatement;
import org.eclipse.jdt.internal.compiler.ast.ForeachStatement;
import org.eclipse.jdt.internal.compiler.ast.IfStatement;
import org.eclipse.jdt.internal.compiler.ast.ImportReference;
import org.eclipse.jdt.internal.compiler.ast.Initializer;
import org.eclipse.jdt.internal.compiler.ast.InstanceOfExpression;
import org.eclipse.jdt.internal.compiler.ast.IntLiteral;
import org.eclipse.jdt.internal.compiler.ast.IntersectionCastTypeReference;
import org.eclipse.jdt.internal.compiler.ast.Javadoc;
import org.eclipse.jdt.internal.compiler.ast.LabeledStatement;
import org.eclipse.jdt.internal.compiler.ast.LambdaExpression;
import org.eclipse.jdt.internal.compiler.ast.LocalDeclaration;
import org.eclipse.jdt.internal.compiler.ast.LongLiteral;
import org.eclipse.jdt.internal.compiler.ast.MarkerAnnotation;
import org.eclipse.jdt.internal.compiler.ast.MemberValuePair;
import org.eclipse.jdt.internal.compiler.ast.MessageSend;
import org.eclipse.jdt.internal.compiler.ast.MethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.NameReference;
import org.eclipse.jdt.internal.compiler.ast.NormalAnnotation;
import org.eclipse.jdt.internal.compiler.ast.NullLiteral;
import org.eclipse.jdt.internal.compiler.ast.OR_OR_Expression;
import org.eclipse.jdt.internal.compiler.ast.OperatorIds;
import org.eclipse.jdt.internal.compiler.ast.ParameterizedQualifiedTypeReference;
import org.eclipse.jdt.internal.compiler.ast.ParameterizedSingleTypeReference;
import org.eclipse.jdt.internal.compiler.ast.PostfixExpression;
import org.eclipse.jdt.internal.compiler.ast.PrefixExpression;
import org.eclipse.jdt.internal.compiler.ast.QualifiedAllocationExpression;
import org.eclipse.jdt.internal.compiler.ast.QualifiedNameReference;
import org.eclipse.jdt.internal.compiler.ast.QualifiedSuperReference;
import org.eclipse.jdt.internal.compiler.ast.QualifiedThisReference;
import org.eclipse.jdt.internal.compiler.ast.QualifiedTypeReference;
import org.eclipse.jdt.internal.compiler.ast.Receiver;
import org.eclipse.jdt.internal.compiler.ast.Reference;
import org.eclipse.jdt.internal.compiler.ast.ReferenceExpression;
import org.eclipse.jdt.internal.compiler.ast.ReturnStatement;
import org.eclipse.jdt.internal.compiler.ast.SingleMemberAnnotation;
import org.eclipse.jdt.internal.compiler.ast.SingleNameReference;
import org.eclipse.jdt.internal.compiler.ast.SingleTypeReference;
import org.eclipse.jdt.internal.compiler.ast.Statement;
import org.eclipse.jdt.internal.compiler.ast.StringLiteral;
import org.eclipse.jdt.internal.compiler.ast.SuperReference;
import org.eclipse.jdt.internal.compiler.ast.SwitchStatement;
import org.eclipse.jdt.internal.compiler.ast.SynchronizedStatement;
import org.eclipse.jdt.internal.compiler.ast.ThisReference;
import org.eclipse.jdt.internal.compiler.ast.ThrowStatement;
import org.eclipse.jdt.internal.compiler.ast.TrueLiteral;
import org.eclipse.jdt.internal.compiler.ast.TryStatement;
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.UnaryExpression;
import org.eclipse.jdt.internal.compiler.ast.UnionTypeReference;
import org.eclipse.jdt.internal.compiler.ast.WhileStatement;
import org.eclipse.jdt.internal.compiler.ast.Wildcard;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants;
import org.eclipse.jdt.internal.compiler.codegen.ConstantPool;
import org.eclipse.jdt.internal.compiler.env.ICompilationUnit;
import org.eclipse.jdt.internal.compiler.impl.CompilerOptions;
import org.eclipse.jdt.internal.compiler.impl.ReferenceContext;
import org.eclipse.jdt.internal.compiler.lookup.Binding;
import org.eclipse.jdt.internal.compiler.lookup.BlockScope;
import org.eclipse.jdt.internal.compiler.lookup.ClassScope;
import org.eclipse.jdt.internal.compiler.lookup.ExtraCompilerModifiers;
import org.eclipse.jdt.internal.compiler.lookup.MethodScope;
import org.eclipse.jdt.internal.compiler.lookup.TypeIds;
import org.eclipse.jdt.internal.compiler.parser.diagnose.DiagnoseParser;
import org.eclipse.jdt.internal.compiler.problem.AbortCompilation;
import org.eclipse.jdt.internal.compiler.problem.AbortCompilationUnit;
import org.eclipse.jdt.internal.compiler.problem.ProblemReporter;
import org.eclipse.jdt.internal.compiler.problem.ProblemSeverities;
import org.eclipse.jdt.internal.compiler.util.Messages;
import org.eclipse.jdt.internal.compiler.util.Util;

@SuppressWarnings({"rawtypes", "unchecked"})
public class Parser extends CommitRollbackParser implements ConflictedParser, OperatorIds, TypeIds {
	
	protected static final int THIS_CALL = ExplicitConstructorCall.This;
	protected static final int SUPER_CALL = ExplicitConstructorCall.Super;
	public static final char[] FALL_THROUGH_TAG = "$FALL-THROUGH$".toCharArray(); //$NON-NLS-1$
	public static final char[] CASES_OMITTED_TAG = "$CASES-OMITTED$".toCharArray(); //$NON-NLS-1$
	
	public static char asb[] = null;
	public static char asr[] = null;
	//ast stack
	protected final static int AstStackIncrement = 100;
	public static char base_action[] = null;
	public static final int BracketKinds = 3;

	public static short check_table[] = null;
	public static final int CurlyBracket = 2;
	private static final boolean DEBUG = false;
	private static final boolean DEBUG_AUTOMATON = false;
	private static final String EOF_TOKEN = "$eof" ; //$NON-NLS-1$
	private static final String ERROR_TOKEN = "$error" ; //$NON-NLS-1$
	//expression stack
	protected final static int ExpressionStackIncrement = 100;

	protected final static int GenericsStackIncrement = 10;

	private final static String FILEPREFIX = "parser"; //$NON-NLS-1$
    public static char in_symb[] = null;
	private static final String INVALID_CHARACTER = "Invalid Character" ; //$NON-NLS-1$
	public static char lhs[] =  null;

	public static String name[] = null;
	public static char nasb[] = null;
	public static char nasr[] = null;
	public static char non_terminal_index[] = null;
	private final static String READABLE_NAMES_FILE = "readableNames"; //$NON-NLS-1$

	public static String readableName[] = null;

	public static byte rhs[] = null;

	public static int[] reverse_index = null;
	public static char[] recovery_templates_index = null;
	public static char[] recovery_templates = null;
	public static char[] statements_recovery_filter = null;

	public static long rules_compliance[] =  null;

	public static final int RoundBracket = 0;

    public static byte scope_la[] = null;
    public static char scope_lhs[] = null;

	public static char scope_prefix[] = null;
    public static char scope_rhs[] = null;
    public static char scope_state[] = null;

    public static char scope_state_set[] = null;
    public static char scope_suffix[] = null;
	public static final int SquareBracket = 1;

	//internal data for the automat
	protected final static int StackIncrement = 255;

	public static char term_action[] = null;
	public static byte term_check[] = null;

	public static char terminal_index[] = null;

	private static final String UNEXPECTED_EOF = "Unexpected End Of File" ; //$NON-NLS-1$
	public static boolean VERBOSE_RECOVERY = false;
	
	private static enum LocalTypeKind {
		LOCAL,
		METHOD_REFERENCE,
		LAMBDA,
	}

	static {
		try{
			initTables();
		} catch(java.io.IOException ex){
			throw new ExceptionInInitializerError(ex.getMessage());
		}
	}
	public static int asi(int state) {
	
		return asb[original_state(state)];
	}
	public final static short base_check(int i) {
		return check_table[i - (NUM_RULES + 1)];
	}
	private final static void buildFile(String filename, List listToDump) {
		BufferedWriter writer = null;
		try {
			writer = new BufferedWriter(new FileWriter(filename));
	    	for (Iterator iterator = listToDump.iterator(); iterator.hasNext(); ) {
	    		writer.write(String.valueOf(iterator.next()));
	    	}
	    	writer.flush();
		} catch(IOException e) {
			// ignore
		} finally {
			if (writer != null) {
	        	try {
					writer.close();
				} catch (IOException e1) {
					// ignore
				}
			}
		}
		System.out.println(filename + " creation complete"); //$NON-NLS-1$
	}
	private static void buildFileForCompliance(
			String file,
			int length,
			String[] tokens) {
	
			byte[] result = new byte[length * 8];
	
			for (int i = 0; i < tokens.length; i = i + 3) {
				if("2".equals(tokens[i])) { //$NON-NLS-1$
					int index = Integer.parseInt(tokens[i + 1]);
					String token = tokens[i + 2].trim();
					long compliance = 0;
					if("1.4".equals(token)) { //$NON-NLS-1$
						compliance = ClassFileConstants.JDK1_4;
					} else if("1.5".equals(token)) { //$NON-NLS-1$
						compliance = ClassFileConstants.JDK1_5;
					} else if("1.6".equals(token)) { //$NON-NLS-1$
						compliance = ClassFileConstants.JDK1_6;
					} else if("1.7".equals(token)) { //$NON-NLS-1$
						compliance = ClassFileConstants.JDK1_7;
					} else if("1.8".equals(token)) { //$NON-NLS-1$
						compliance = ClassFileConstants.JDK1_8;
					} else if("recovery".equals(token)) { //$NON-NLS-1$
						compliance = ClassFileConstants.JDK_DEFERRED;
					}
	
					int j = index * 8;
					result[j] = 	(byte)(compliance >>> 56);
					result[j + 1] = (byte)(compliance >>> 48);
					result[j + 2] = (byte)(compliance >>> 40);
					result[j + 3] = (byte)(compliance >>> 32);
					result[j + 4] = (byte)(compliance >>> 24);
					result[j + 5] = (byte)(compliance >>> 16);
					result[j + 6] = (byte)(compliance >>> 8);
					result[j + 7] = (byte)(compliance);
				}
			}
	
			buildFileForTable(file, result);
		}
	private final static String[] buildFileForName(String filename, String contents) {
		String[] result = new String[contents.length()];
		result[0] = null;
		int resultCount = 1;
	
		StringBuffer buffer = new StringBuffer();
	
		int start = contents.indexOf("name[]"); //$NON-NLS-1$
		start = contents.indexOf('\"', start);
		int end = contents.indexOf("};", start); //$NON-NLS-1$
	
		contents = contents.substring(start, end);
	
		boolean addLineSeparator = false;
		int tokenStart = -1;
		StringBuffer currentToken = new StringBuffer();
		for (int i = 0; i < contents.length(); i++) {
			char c = contents.charAt(i);
			if(c == '\"') {
				if(tokenStart == -1) {
					tokenStart = i + 1;
				} else {
					if(addLineSeparator) {
						buffer.append('\n');
						result[resultCount++] = currentToken.toString();
						currentToken = new StringBuffer();
					}
					String token = contents.substring(tokenStart, i);
					if(token.equals(ERROR_TOKEN)){
						token = INVALID_CHARACTER;
					} else if(token.equals(EOF_TOKEN)) {
						token = UNEXPECTED_EOF;
					}
					buffer.append(token);
					currentToken.append(token);
					addLineSeparator = true;
					tokenStart = -1;
				}
			}
			if(tokenStart == -1 && c == '+'){
				addLineSeparator = false;
			}
		}
		if(currentToken.length() > 0) {
			result[resultCount++] = currentToken.toString();
		}
	
		buildFileForTable(filename, buffer.toString().toCharArray());
	
		System.arraycopy(result, 0, result = new String[resultCount], 0, resultCount);
		return result;
	}
	private static void buildFileForReadableName(
		String file,
		char[] newLhs,
		char[] newNonTerminalIndex,
		String[] newName,
		String[] tokens) {
	
		ArrayList entries = new ArrayList();
	
		boolean[] alreadyAdded = new boolean[newName.length];
	
		for (int i = 0; i < tokens.length; i = i + 3) {
			if("1".equals(tokens[i])) { //$NON-NLS-1$
				int index = newNonTerminalIndex[newLhs[Integer.parseInt(tokens[i + 1])]];
				StringBuffer buffer = new StringBuffer();
				if(!alreadyAdded[index]) {
					alreadyAdded[index] = true;
					buffer.append(newName[index]);
					buffer.append('=');
					buffer.append(tokens[i+2].trim());
					buffer.append('\n');
					entries.add(String.valueOf(buffer));
				}
			}
		}
		int i = 1;
		while(!INVALID_CHARACTER.equals(newName[i])) i++;
		i++;
		for (; i < alreadyAdded.length; i++) {
			if(!alreadyAdded[i]) {
				System.out.println(newName[i] + " has no readable name"); //$NON-NLS-1$
			}
		}
		Collections.sort(entries);
		buildFile(file, entries);
	}
	private final static void buildFileForTable(String filename, byte[] bytes) {
		java.io.FileOutputStream stream = null;
		try {
			stream = new java.io.FileOutputStream(filename);
			stream.write(bytes);
		} catch(IOException e) {
			// ignore
		} finally {
			if (stream != null) {
				try {
					stream.close();
				} catch (IOException e) {
					// ignore
				}
			}
		}
		System.out.println(filename + " creation complete"); //$NON-NLS-1$
	}
	private final static void buildFileForTable(String filename, char[] chars) {
		byte[] bytes = new byte[chars.length * 2];
		for (int i = 0; i < chars.length; i++) {
			bytes[2 * i] = (byte) (chars[i] >>> 8);
			bytes[2 * i + 1] = (byte) (chars[i] & 0xFF);
		}
	
		java.io.FileOutputStream stream = null;
		try {
			stream = new java.io.FileOutputStream(filename);
			stream.write(bytes);
		} catch(IOException e) {
			// ignore
		} finally {
			if (stream != null) {
				try {
					stream.close();
				} catch (IOException e) {
					// ignore
				}
			}
		}
		System.out.println(filename + " creation complete"); //$NON-NLS-1$
	}
	private final static byte[] buildFileOfByteFor(String filename, String tag, String[] tokens) {
	
		//transform the String tokens into chars before dumping then into file
	
		int i = 0;
		//read upto the tag
		while (!tokens[i++].equals(tag)){/*empty*/}
		//read upto the }
	
		byte[] bytes = new byte[tokens.length]; //can't be bigger
		int ic = 0;
		String token;
		while (!(token = tokens[i++]).equals("}")) { //$NON-NLS-1$
			int c = Integer.parseInt(token);
			bytes[ic++] = (byte) c;
		}
	
		//resize
		System.arraycopy(bytes, 0, bytes = new byte[ic], 0, ic);
	
		buildFileForTable(filename, bytes);
		return bytes;
	}
	private final static char[] buildFileOfIntFor(String filename, String tag, String[] tokens) {
	
		//transform the String tokens into chars before dumping then into file
	
		int i = 0;
		//read upto the tag
		while (!tokens[i++].equals(tag)){/*empty*/}
		//read upto the }
	
		char[] chars = new char[tokens.length]; //can't be bigger
		int ic = 0;
		String token;
		while (!(token = tokens[i++]).equals("}")) { //$NON-NLS-1$
			int c = Integer.parseInt(token);
			chars[ic++] = (char) c;
		}
	
		//resize
		System.arraycopy(chars, 0, chars = new char[ic], 0, ic);
	
		buildFileForTable(filename, chars);
		return chars;
	}
	private final static void buildFileOfShortFor(String filename, String tag, String[] tokens) {
	
		//transform the String tokens into chars before dumping then into file
	
		int i = 0;
		//read upto the tag
		while (!tokens[i++].equals(tag)){/*empty*/}
		//read upto the }
	
		char[] chars = new char[tokens.length]; //can't be bigger
		int ic = 0;
		String token;
		while (!(token = tokens[i++]).equals("}")) { //$NON-NLS-1$
			int c = Integer.parseInt(token);
			chars[ic++] = (char) (c + 32768);
		}
	
		//resize
		System.arraycopy(chars, 0, chars = new char[ic], 0, ic);
	
		buildFileForTable(filename, chars);
	}
	private static void buildFilesForRecoveryTemplates(
		String indexFilename,
		String templatesFilename,
		char[] newTerminalIndex,
		char[] newNonTerminalIndex,
		String[] newName,
		char[] newLhs,
		String[] tokens) {
	
		int[] newReverse = computeReverseTable(newTerminalIndex, newNonTerminalIndex, newName);
	
		char[] newRecoveyTemplatesIndex = new char[newNonTerminalIndex.length];
		char[] newRecoveyTemplates = new char[newNonTerminalIndex.length];
		int newRecoveyTemplatesPtr = 0;
	
		for (int i = 0; i < tokens.length; i = i + 3) {
			if("3".equals(tokens[i])) { //$NON-NLS-1$
				int length = newRecoveyTemplates.length;
				if(length == newRecoveyTemplatesPtr + 1) {
					System.arraycopy(newRecoveyTemplates, 0, newRecoveyTemplates = new char[length * 2], 0, length);
				}
				newRecoveyTemplates[newRecoveyTemplatesPtr++] = 0;
	
				int index = newLhs[Integer.parseInt(tokens[i + 1])];
	
				newRecoveyTemplatesIndex[index] = (char)newRecoveyTemplatesPtr;
	
				String token = tokens[i + 2].trim();
				java.util.StringTokenizer st = new java.util.StringTokenizer(token, " ");  //$NON-NLS-1$
				String[] terminalNames = new String[st.countTokens()];
				int t = 0;
				while (st.hasMoreTokens()) {
					terminalNames[t++] = st.nextToken();
				}
	
				for (int j = 0; j < terminalNames.length; j++) {
					int symbol = getSymbol(terminalNames[j], newName, newReverse);
					if(symbol > -1) {
						length = newRecoveyTemplates.length;
						if(length == newRecoveyTemplatesPtr + 1) {
							System.arraycopy(newRecoveyTemplates, 0, newRecoveyTemplates = new char[length * 2], 0, length);
						}
						newRecoveyTemplates[newRecoveyTemplatesPtr++] = (char)symbol;
					}
				}
			}
		}
		newRecoveyTemplates[newRecoveyTemplatesPtr++] = 0;
		System.arraycopy(newRecoveyTemplates, 0, newRecoveyTemplates = new char[newRecoveyTemplatesPtr], 0, newRecoveyTemplatesPtr);
	
		buildFileForTable(indexFilename, newRecoveyTemplatesIndex);
		buildFileForTable(templatesFilename, newRecoveyTemplates);
	}
	private static void buildFilesForStatementsRecoveryFilter(
			String filename,
			char[] newNonTerminalIndex,
			char[] newLhs,
			String[] tokens) {
	
			char[] newStatementsRecoveryFilter = new char[newNonTerminalIndex.length];
	
			for (int i = 0; i < tokens.length; i = i + 3) {
				if("4".equals(tokens[i])) { //$NON-NLS-1$
					int index = newLhs[Integer.parseInt(tokens[i + 1])];
	
					newStatementsRecoveryFilter[index] = 1;
				}
			}
			buildFileForTable(filename, newStatementsRecoveryFilter);
		}
	public final static void buildFilesFromLPG(String dataFilename, String dataFilename2) {
	
		//RUN THIS METHOD TO GENERATE PARSER*.RSC FILES
	
		//build from the lpg javadcl.java files that represents the parser tables
		//lhs check_table asb asr symbol_index
	
		//[org.eclipse.jdt.internal.compiler.parser.Parser.buildFilesFromLPG("d:/leapfrog/grammar/javadcl.java")]
		char[] contents = CharOperation.NO_CHAR;
		try {
			contents = Util.getFileCharContent(new File(dataFilename), null);
		} catch (IOException ex) {
			System.out.println(Messages.parser_incorrectPath);
			return;
		}
		java.util.StringTokenizer st =
			new java.util.StringTokenizer(new String(contents), " \t\n\r[]={,;");  //$NON-NLS-1$
		String[] tokens = new String[st.countTokens()];
		int j = 0;
		while (st.hasMoreTokens()) {
			tokens[j++] = st.nextToken();
		}
		final String prefix = FILEPREFIX;
		int i = 0;
	
		char[] newLhs = buildFileOfIntFor(prefix + (++i) + ".rsc", "lhs", tokens); //$NON-NLS-1$ //$NON-NLS-2$
		buildFileOfShortFor(prefix + (++i) + ".rsc", "check_table", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "asb", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "asr", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "nasb", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "nasr", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		char[] newTerminalIndex = buildFileOfIntFor(prefix + (++i) + ".rsc", "terminal_index", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		char[] newNonTerminalIndex = buildFileOfIntFor(prefix + (++i) + ".rsc", "non_terminal_index", tokens); //$NON-NLS-1$ //$NON-NLS-2$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "term_action", tokens); //$NON-NLS-2$ //$NON-NLS-1$
	
		buildFileOfIntFor(prefix + (++i) + ".rsc", "scope_prefix", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "scope_suffix", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "scope_lhs", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "scope_state_set", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "scope_rhs", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "scope_state", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfIntFor(prefix + (++i) + ".rsc", "in_symb", tokens); //$NON-NLS-2$ //$NON-NLS-1$
	
		byte[] newRhs = buildFileOfByteFor(prefix + (++i) + ".rsc", "rhs", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfByteFor(prefix + (++i) + ".rsc", "term_check", tokens); //$NON-NLS-2$ //$NON-NLS-1$
		buildFileOfByteFor(prefix + (++i) + ".rsc", "scope_la", tokens); //$NON-NLS-2$ //$NON-NLS-1$
	
		String[] newName = buildFileForName(prefix + (++i) + ".rsc", new String(contents)); //$NON-NLS-1$
	
		contents = CharOperation.NO_CHAR;
		try {
			contents = Util.getFileCharContent(new File(dataFilename2), null);
		} catch (IOException ex) {
			System.out.println(Messages.parser_incorrectPath);
			return;
		}
		st = new java.util.StringTokenizer(new String(contents), "\t\n\r#");  //$NON-NLS-1$
		tokens = new String[st.countTokens()];
		j = 0;
		while (st.hasMoreTokens()) {
			tokens[j++] = st.nextToken();
		}
	
		buildFileForCompliance(prefix + (++i) + ".rsc", newRhs.length, tokens);//$NON-NLS-1$
		buildFileForReadableName(READABLE_NAMES_FILE+".props", newLhs, newNonTerminalIndex, newName, tokens);//$NON-NLS-1$
	
		buildFilesForRecoveryTemplates(
				prefix + (++i) + ".rsc", //$NON-NLS-1$
				prefix + (++i) + ".rsc", //$NON-NLS-1$
				newTerminalIndex,
				newNonTerminalIndex,
				newName,
				newLhs,
				tokens);
	
		buildFilesForStatementsRecoveryFilter(
				prefix + (++i) + ".rsc", //$NON-NLS-1$
				newNonTerminalIndex,
				newLhs,
				tokens);
	
	
		System.out.println(Messages.parser_moveFiles);
	}
	protected static int[] computeReverseTable(char[] newTerminalIndex, char[] newNonTerminalIndex, String[] newName) {
		int[] newReverseTable = new int[newName.length];
		for (int j = 0; j < newName.length; j++) {
			found : {
				for (int k = 0; k < newTerminalIndex.length; k++) {
					if(newTerminalIndex[k] == j) {
						newReverseTable[j] = k;
						break found;
					}
				}
				for (int k = 0; k < newNonTerminalIndex.length; k++) {
					if(newNonTerminalIndex[k] == j) {
						newReverseTable[j] = -k;
						break found;
					}
				}
			}
		}
		return newReverseTable;
	}

	private static int getSymbol(String terminalName, String[] newName, int[] newReverse) {
		for (int j = 0; j < newName.length; j++) {
			if(terminalName.equals(newName[j])) {
				return newReverse[j];
			}
		}
		return -1;
	}
	public static int in_symbol(int state) {
		return in_symb[original_state(state)];
	}
	public final static void initTables() throws java.io.IOException {
	
		final String prefix = FILEPREFIX;
		int i = 0;
		lhs = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		char[] chars = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		check_table = new short[chars.length];
		for (int c = chars.length; c-- > 0;) {
			check_table[c] = (short) (chars[c] - 32768);
		}
		asb = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		asr = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		nasb = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		nasr = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		terminal_index = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		non_terminal_index = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		term_action = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
	
		scope_prefix = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		scope_suffix = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		scope_lhs = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		scope_state_set = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		scope_rhs = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		scope_state = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		in_symb = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
	
		rhs = readByteTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		term_check = readByteTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		scope_la = readByteTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
	
		name = readNameTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
	
		rules_compliance = readLongTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
	
		readableName = readReadableNameTable(READABLE_NAMES_FILE + ".props"); //$NON-NLS-1$
	
		reverse_index = computeReverseTable(terminal_index, non_terminal_index, name);
	
		recovery_templates_index = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
		recovery_templates = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
	
		statements_recovery_filter = readTable(prefix + (++i) + ".rsc"); //$NON-NLS-1$
	
		base_action = lhs;
	}
	public static int nasi(int state) {
		return nasb[original_state(state)];
	}
	public static int ntAction(int state, int sym) {
		return base_action[state + sym];
	}
	protected static int original_state(int state) {
		return -base_check(state);
	}

	protected static byte[] readByteTable(String filename) throws java.io.IOException {
	
		//files are located at Parser.class directory
	
		InputStream stream = Parser.class.getResourceAsStream(filename);
		if (stream == null) {
			throw new java.io.IOException(Messages.bind(Messages.parser_missingFile, filename));
		}
		byte[] bytes = null;
		try {
			stream = new BufferedInputStream(stream);
			bytes = Util.getInputStreamAsByteArray(stream, -1);
		} finally {
			try {
				stream.close();
			} catch (IOException e) {
				// ignore
			}
		}
		return bytes;
	}
	protected static long[] readLongTable(String filename) throws java.io.IOException {
	
		//files are located at Parser.class directory
	
		InputStream stream = Parser.class.getResourceAsStream(filename);
		if (stream == null) {
			throw new java.io.IOException(Messages.bind(Messages.parser_missingFile, filename));
		}
		byte[] bytes = null;
		try {
			stream = new BufferedInputStream(stream);
			bytes = Util.getInputStreamAsByteArray(stream, -1);
		} finally {
			try {
				stream.close();
			} catch (IOException e) {
				// ignore
			}
		}
	
		//minimal integrity check (even size expected)
		int length = bytes.length;
		if (length % 8 != 0)
			throw new java.io.IOException(Messages.bind(Messages.parser_corruptedFile, filename));
	
		// convert bytes into longs
		long[] longs = new long[length / 8];
		int i = 0;
		int longIndex = 0;
	
		while (true) {
			longs[longIndex++] =
			  (((long) (bytes[i++] & 0xFF)) << 56)
			+ (((long) (bytes[i++] & 0xFF)) << 48)
			+ (((long) (bytes[i++] & 0xFF)) << 40)
			+ (((long) (bytes[i++] & 0xFF)) << 32)
			+ (((long) (bytes[i++] & 0xFF)) << 24)
			+ (((long) (bytes[i++] & 0xFF)) << 16)
			+ (((long) (bytes[i++] & 0xFF)) << 8)
			+ (bytes[i++] & 0xFF);
	
			if (i == length)
				break;
		}
		return longs;
	}

	protected static String[] readNameTable(String filename) throws java.io.IOException {
		char[] contents = readTable(filename);
		char[][] nameAsChar = CharOperation.splitOn('\n', contents);
	
		String[] result = new String[nameAsChar.length + 1];
		result[0] = null;
		for (int i = 0; i < nameAsChar.length; i++) {
			result[i + 1] = new String(nameAsChar[i]);
		}
	
		return result;
	}
	protected static String[] readReadableNameTable(String filename){
		String[] result = new String[name.length];
		
		InputStream is = Parser.class.getResourceAsStream(filename);
		Properties props = new Properties();
		try {
			props.load(is);
		} catch (IOException e) {
			result = name;
			return result;
		}
		for (int i = 0; i < NT_OFFSET + 1; i++) {
			result[i] = name[i];
		}
		for (int i = NT_OFFSET; i < name.length; i++) {
			String n = props.getProperty(name[i]);
			if (n != null && n.length() > 0) {
				result[i] = n;
			} else {
				result[i] = name[i];
			}
		}
		return result;
	}
	protected static char[] readTable(String filename) throws java.io.IOException {
	
		//files are located at Parser.class directory
	
		InputStream stream = Parser.class.getResourceAsStream(filename);
		if (stream == null) {
			throw new java.io.IOException(Messages.bind(Messages.parser_missingFile, filename));
		}
		byte[] bytes = null;
		try {
			stream = new BufferedInputStream(stream);
			bytes = Util.getInputStreamAsByteArray(stream, -1);
		} finally {
			try {
				stream.close();
			} catch (IOException e) {
				// ignore
			}
		}
	
		//minimal integrity check (even size expected)
		int length = bytes.length;
		if ((length & 1) != 0)
			throw new java.io.IOException(Messages.bind(Messages.parser_corruptedFile, filename));
	
		// convert bytes into chars
		char[] chars = new char[length / 2];
		int i = 0;
		int charIndex = 0;
	
		while (true) {
			chars[charIndex++] = (char) (((bytes[i++] & 0xFF) << 8) + (bytes[i++] & 0xFF));
			if (i == length)
				break;
		}
		return chars;
	}
	public static int tAction(int state, int sym) {
		return term_action[term_check[base_action[state]+sym] == sym ? base_action[state] + sym : base_action[state]];
	}
	protected int astLengthPtr;

	protected int[] astLengthStack;
	protected int astPtr;
	protected ASTNode[] astStack = new ASTNode[AstStackIncrement];
	public CompilationUnitDeclaration compilationUnit; /*the result from parse()*/

	protected RecoveredElement currentElement;
	
	protected boolean diet = false; //tells the scanner to jump over some parts of the code/expressions like method bodies
	protected int dietInt = 0; // if > 0 force the none-diet-parsing mode (even if diet if requested) [field parsing with anonymous inner classes...]
	protected int endPosition; //accurate only when used ! (the start position is pushed into intStack while the end the current one)
	protected int endStatementPosition;
	protected int expressionLengthPtr;
	protected int[] expressionLengthStack;
	protected int expressionPtr;
	protected Expression[] expressionStack = new Expression[ExpressionStackIncrement];
	protected int rBracketPosition;
	public int firstToken ; // handle for multiple parsing goals
	
	/* jsr308 -- Type annotation management, we now maintain type annotations in a separate stack
	   as otherwise they get interspersed with other expressions and some of the code is not prepared
	   to handle such interleaving and will look ugly if changed. 
	   
	   See consumeArrayCreationExpressionWithoutInitializer for example. 

	   Where SE8 annotations occur in a place SE5 annotations are legal, the SE8 annotations end up in
	   the expression stack as we have no way of distinguishing between the two.
	*/  
	protected int typeAnnotationPtr;
	protected int typeAnnotationLengthPtr;
	protected Annotation [] typeAnnotationStack = new Annotation[TypeAnnotationStackIncrement];
	protected int [] typeAnnotationLengthStack;
	// annotation stack
	protected final static int TypeAnnotationStackIncrement = 100;
	
	// generics management
	protected int genericsIdentifiersLengthPtr;
	protected int[] genericsIdentifiersLengthStack = new int[GenericsStackIncrement];
	protected int genericsLengthPtr;
	protected int[] genericsLengthStack = new int[GenericsStackIncrement];
	protected int genericsPtr;
	protected ASTNode[] genericsStack = new ASTNode[GenericsStackIncrement];
	protected boolean hasError;
	protected boolean hasReportedError;
	//identifiers stacks
	protected int identifierLengthPtr;
	protected int[] identifierLengthStack;
	protected long[] identifierPositionStack;
	protected int identifierPtr;
	protected char[][] identifierStack;
	protected boolean ignoreNextOpeningBrace;

	//positions , dimensions , .... (int stacks)
	protected int intPtr;

	protected int[] intStack;
	public int lastAct ; //handle for multiple parsing goals
	//error recovery management
	protected int lastCheckPoint;
	protected int lastErrorEndPosition;
	protected int lastErrorEndPositionBeforeRecovery = -1;
	protected int lastIgnoredToken, nextIgnoredToken;

	protected int listLength; // for recovering some incomplete list (interfaces, throws or parameters)

	protected int listTypeParameterLength; // for recovering some incomplete list (type parameters)
	protected int lParenPos,rParenPos; //accurate only when used !
	protected int modifiers;
	protected int modifiersSourceStart;
	protected int colonColonStart = -1;
	protected int[] nestedMethod; //the ptr is nestedType

	protected int nestedType, dimensions;
	ASTNode [] noAstNodes = new ASTNode[AstStackIncrement];

	Expression [] noExpressions = new Expression[ExpressionStackIncrement];
	//modifiers dimensions nestedType etc.......
	protected boolean optimizeStringLiterals =true;
	protected CompilerOptions options;

	protected ProblemReporter problemReporter;

	protected int rBraceStart, rBraceEnd, rBraceSuccessorStart; //accurate only when used !
protected int realBlockPtr;
protected int[] realBlockStack;
protected int recoveredStaticInitializerStart;
public ReferenceContext referenceContext;
public boolean reportOnlyOneSyntaxError = false;
public boolean reportSyntaxErrorIsRequired = true;
protected boolean restartRecovery;
protected boolean annotationRecoveryActivated = true;
protected int lastPosistion;
// statement recovery
public boolean methodRecoveryActivated = false;
protected boolean statementRecoveryActivated = false;
protected TypeDeclaration[] recoveredTypes;
protected int recoveredTypePtr;
protected int nextTypeStart;
protected TypeDeclaration pendingRecoveredType;
public RecoveryScanner recoveryScanner;

protected int[] stack = new int[StackIncrement];
protected int stateStackTop;
protected int synchronizedBlockSourceStart;

protected int[] variablesCounter;

protected boolean checkExternalizeStrings;

protected boolean recordStringLiterals;
// javadoc
public Javadoc javadoc;
public JavadocParser javadocParser;
// used for recovery
protected int lastJavadocEnd;
public org.eclipse.jdt.internal.compiler.ReadManager readManager;
protected int valueLambdaNestDepth = -1;
private int stateStackLengthStack[] = new int[0];
protected boolean parsingJava8Plus;
protected int unstackedAct = ERROR_ACTION;
private boolean haltOnSyntaxError = false;
private boolean tolerateDefaultClassMethods = false;
private boolean processingLambdaParameterList = false;
private boolean expectTypeAnnotation = false;

public Parser () {
	// Caveat Emptor: For inheritance purposes and then only in very special needs. Only minimal state is initialized !
}
public Parser(ProblemReporter problemReporter, boolean optimizeStringLiterals) {

	this.problemReporter = problemReporter;
	this.options = problemReporter.options;
	this.optimizeStringLiterals = optimizeStringLiterals;
	initializeScanner();
	this.parsingJava8Plus = this.options.sourceLevel >= ClassFileConstants.JDK1_8;
	this.astLengthStack = new int[50];
	this.expressionLengthStack = new int[30];
	this.typeAnnotationLengthStack = new int[30];
	this.intStack = new int[50];
	this.identifierStack = new char[30][];
	this.identifierLengthStack = new int[30];
	this.nestedMethod = new int[30];
	this.realBlockStack = new int[30];
	this.identifierPositionStack = new long[30];
	this.variablesCounter = new int[30];

	// javadoc support
	this.javadocParser = createJavadocParser();
}
protected void annotationRecoveryCheckPoint(int start, int end) {
	if(this.lastCheckPoint < end) {
		this.lastCheckPoint = end + 1;
	}
}
public void arrayInitializer(int length) {
	//length is the size of the array Initializer
	//expressionPtr points on the last elt of the arrayInitializer,
	// in other words, it has not been decremented yet.

	ArrayInitializer ai = new ArrayInitializer();
	if (length != 0) {
		this.expressionPtr -= length;
		System.arraycopy(this.expressionStack, this.expressionPtr + 1, ai.expressions = new Expression[length], 0, length);
	}
	pushOnExpressionStack(ai);
	//positionning
	ai.sourceEnd = this.endStatementPosition;
	ai.sourceStart = this.intStack[this.intPtr--];
}
protected void blockReal() {
	// See consumeLocalVariableDeclarationStatement in case of change: duplicated code
	// increment the amount of declared variables for this block
	this.realBlockStack[this.realBlockPtr]++;
}
/*
 * Build initial recovery state.
 * Recovery state is inferred from the current state of the parser (reduced node stack).
 */
public RecoveredElement buildInitialRecoveryState(){

	/* initialize recovery by retrieving available reduced nodes
	 * also rebuild bracket balance
	 */
	this.lastCheckPoint = 0;
	this.lastErrorEndPositionBeforeRecovery = this.scanner.currentPosition;

	RecoveredElement element = null;
	if (this.referenceContext instanceof CompilationUnitDeclaration){
		element = new RecoveredUnit(this.compilationUnit, 0, this);

		/* ignore current stack state, since restarting from the beginnning
		   since could not trust simple brace count */
		// restart recovery from scratch
		this.compilationUnit.currentPackage = null;
		this.compilationUnit.imports = null;
		this.compilationUnit.types = null;
		this.currentToken = 0;
		this.listLength = 0;
		this.listTypeParameterLength = 0;
		this.endPosition = 0;
		this.endStatementPosition = 0;
		return element;
	} else {
		if (this.referenceContext instanceof AbstractMethodDeclaration){
			element = new RecoveredMethod((AbstractMethodDeclaration) this.referenceContext, null, 0, this);
			this.lastCheckPoint = ((AbstractMethodDeclaration) this.referenceContext).bodyStart;
			if(this.statementRecoveryActivated) {
				element = element.add(new Block(0), 0);
			}
		} else {
			/* Initializer bodies are parsed in the context of the type declaration, we must thus search it inside */
			if (this.referenceContext instanceof TypeDeclaration){
				TypeDeclaration type = (TypeDeclaration) this.referenceContext;
				FieldDeclaration[] fieldDeclarations = type.fields;
				int length = fieldDeclarations == null ? 0 : fieldDeclarations.length;
				for (int i = 0; i < length; i++){
					FieldDeclaration field = fieldDeclarations[i];
					if (field != null
						&& field.getKind() == AbstractVariableDeclaration.INITIALIZER
						&& ((Initializer) field).block != null
						&& field.declarationSourceStart <= this.scanner.initialPosition
						&& this.scanner.initialPosition <= field.declarationSourceEnd
						&& this.scanner.eofPosition <= field.declarationSourceEnd+1){
						element = new RecoveredInitializer(field, null, 1, this);
						this.lastCheckPoint = field.declarationSourceStart;
						break;
					}
				}
			}
		}
	}

	if (element == null) return element;

	for(int i = 0; i <= this.astPtr; i++){
		ASTNode node = this.astStack[i];
		if (node instanceof AbstractMethodDeclaration){
			AbstractMethodDeclaration method = (AbstractMethodDeclaration) node;
			if (method.declarationSourceEnd == 0){
				element = element.add(method, 0);
				this.lastCheckPoint = method.bodyStart;
			} else {
				element = element.add(method, 0);
				this.lastCheckPoint = method.declarationSourceEnd + 1;
			}
			continue;
		}
		if (node instanceof Initializer){
			Initializer initializer = (Initializer) node;
			// ignore initializer with no block
			if (initializer.block == null) continue;
			if (initializer.declarationSourceEnd == 0){
				element = element.add(initializer, 1);
				this.lastCheckPoint = initializer.sourceStart;
			} else {
				element = element.add(initializer, 0);
				this.lastCheckPoint = initializer.declarationSourceEnd + 1;
			}
			continue;
		}
		if (node instanceof FieldDeclaration){
			FieldDeclaration field = (FieldDeclaration) node;
			if (field.declarationSourceEnd == 0){
				element = element.add(field, 0);
				if (field.initialization == null){
					this.lastCheckPoint = field.sourceEnd + 1;
				} else {
					this.lastCheckPoint = field.initialization.sourceEnd + 1;
				}
			} else {
				element = element.add(field, 0);
				this.lastCheckPoint = field.declarationSourceEnd + 1;
			}
			continue;
		}
		if (node instanceof TypeDeclaration){
			TypeDeclaration type = (TypeDeclaration) node;
			if ((type.modifiers & ClassFileConstants.AccEnum) != 0) {
				// do not allow enums to be build as recovery types
				// https://bugs.eclipse.org/bugs/show_bug.cgi?id=340691
				continue;
			}
			if (type.declarationSourceEnd == 0){
				element = element.add(type, 0);
				this.lastCheckPoint = type.bodyStart;
			} else {
				element = element.add(type, 0);
				this.lastCheckPoint = type.declarationSourceEnd + 1;
			}
			continue;
		}
		if (node instanceof ImportReference){
			ImportReference importRef = (ImportReference) node;
			element = element.add(importRef, 0);
			this.lastCheckPoint = importRef.declarationSourceEnd + 1;
		}
		if(this.statementRecoveryActivated) {
			if(node instanceof Block) {
				Block block = (Block) node;
				element = element.add(block, 0);
				this.lastCheckPoint = block.sourceEnd + 1;
			} else if(node instanceof LocalDeclaration) {
				LocalDeclaration statement = (LocalDeclaration) node;
				element = element.add(statement, 0);
				this.lastCheckPoint = statement.sourceEnd + 1;
			} else if(node instanceof Expression) {
				if(node instanceof Assignment ||
						node instanceof PrefixExpression ||
						node instanceof PostfixExpression ||
						node instanceof MessageSend ||
						node instanceof AllocationExpression) {
					// recover only specific expressions
					Expression statement = (Expression) node;
					element = element.add(statement, 0);
					if(statement.statementEnd != -1) {
						this.lastCheckPoint = statement.statementEnd + 1;
					} else {
						this.lastCheckPoint = statement.sourceEnd + 1;
					}
				}
			} else if(node instanceof Statement) {
				Statement statement = (Statement) node;
				element = element.add(statement, 0);
				this.lastCheckPoint = statement.sourceEnd + 1;
			}
		}
	}

	if (this.statementRecoveryActivated) {
		if (this.pendingRecoveredType != null &&
				this.scanner.startPosition - 1 <= this.pendingRecoveredType.declarationSourceEnd) {
			// Add the pending type to the AST if this type isn't already added in the AST.
			element = element.add(this.pendingRecoveredType, 0);
			this.lastCheckPoint = this.pendingRecoveredType.declarationSourceEnd + 1;
			this.pendingRecoveredType = null;
		}
	}
	return element;
}

protected void checkAndSetModifiers(int flag){
	/*modify the current modifiers buffer.
	When the startPosition of the modifiers is 0
	it means that the modifier being parsed is the first
	of a list of several modifiers. The startPosition
	is zeroed when a copy of modifiers-buffer is push
	onto the this.astStack. */

	if ((this.modifiers & flag) != 0){ // duplicate modifier
		this.modifiers |= ExtraCompilerModifiers.AccAlternateModifierProblem;
	}
	this.modifiers |= flag;

	if (this.modifiersSourceStart < 0) this.modifiersSourceStart = this.scanner.startPosition;

	if (this.currentElement != null) {
		this.currentElement.addModifier(flag, this.modifiersSourceStart);
	}
}
public void checkComment() {

	// discard obsolete comments while inside methods or fields initializer (see bug 74369)
	if (!(this.diet && this.dietInt==0) && this.scanner.commentPtr >= 0) {
		flushCommentsDefinedPriorTo(this.endStatementPosition);
	}

	int lastComment = this.scanner.commentPtr;

	if (this.modifiersSourceStart >= 0) {
		// eliminate comments located after modifierSourceStart if positioned
		while (lastComment >= 0) {
			int commentSourceStart = this.scanner.commentStarts[lastComment];
			if (commentSourceStart < 0) commentSourceStart = -commentSourceStart;
			if (commentSourceStart <= this.modifiersSourceStart) break;
			lastComment--;
		}
	}
	if (lastComment >= 0) {
		// consider all remaining leading comments to be part of current declaration
		this.modifiersSourceStart = this.scanner.commentStarts[0];
		if (this.modifiersSourceStart < 0) this.modifiersSourceStart = -this.modifiersSourceStart;

		// check deprecation in last comment if javadoc (can be followed by non-javadoc comments which are simply ignored)
		while (lastComment >= 0 && this.scanner.commentStops[lastComment] < 0) lastComment--; // non javadoc comment have negative end positions
		if (lastComment >= 0 && this.javadocParser != null) {
			int commentEnd = this.scanner.commentStops[lastComment] - 1; //stop is one over,
			// do not report problem before last parsed comment while recovering code...
			if (this.javadocParser.shouldReportProblems) {
				this.javadocParser.reportProblems = this.currentElement == null || commentEnd > this.lastJavadocEnd;
			} else {
				this.javadocParser.reportProblems = false;
			}
			if (this.javadocParser.checkDeprecation(lastComment)) {
				checkAndSetModifiers(ClassFileConstants.AccDeprecated);
			}
			this.javadoc = this.javadocParser.docComment;	// null if check javadoc is not activated
			if (this.currentElement == null) this.lastJavadocEnd = commentEnd;
		}
	}
}
protected void checkNonNLSAfterBodyEnd(int declarationEnd){
	if(this.scanner.currentPosition - 1 <= declarationEnd) {
		this.scanner.eofPosition = declarationEnd < Integer.MAX_VALUE ? declarationEnd + 1 : declarationEnd;
		try {
			while(this.scanner.getNextToken() != TokenNameEOF){/*empty*/}
		} catch (InvalidInputException e) {
			// Nothing to do
		}
	}
}
protected void classInstanceCreation(boolean isQualified) {
	// ClassInstanceCreationExpression ::= 'new' ClassType '(' ArgumentListopt ')' ClassBodyopt

	// ClassBodyopt produces a null item on the astStak if it produces NO class body
	// An empty class body produces a 0 on the length stack.....

	AllocationExpression alloc;
	int length;
	if (((length = this.astLengthStack[this.astLengthPtr--]) == 1)
		&& (this.astStack[this.astPtr] == null)) {
		//NO ClassBody
		this.astPtr--;
		if (isQualified) {
			alloc = new QualifiedAllocationExpression();
		} else {
			alloc = new AllocationExpression();
		}
		alloc.sourceEnd = this.endPosition; //the position has been stored explicitly

		if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
			this.expressionPtr -= length;
			System.arraycopy(
				this.expressionStack,
				this.expressionPtr + 1,
				alloc.arguments = new Expression[length],
				0,
				length);
		}
		alloc.type = getTypeReference(0);
		checkForDiamond(alloc.type);

		//the default constructor with the correct number of argument
		//will be created and added by the TC (see createsInternalConstructorWithBinding)
		alloc.sourceStart = this.intStack[this.intPtr--];
		pushOnExpressionStack(alloc);
	} else {
		dispatchDeclarationInto(length);
		TypeDeclaration anonymousTypeDeclaration = (TypeDeclaration)this.astStack[this.astPtr];
		anonymousTypeDeclaration.declarationSourceEnd = this.endStatementPosition;
		anonymousTypeDeclaration.bodyEnd = this.endStatementPosition;
		if (anonymousTypeDeclaration.allocation != null) {
			anonymousTypeDeclaration.allocation.sourceEnd = this.endStatementPosition;
			checkForDiamond(anonymousTypeDeclaration.allocation.type);
		}
		if (length == 0 && !containsComment(anonymousTypeDeclaration.bodyStart, anonymousTypeDeclaration.bodyEnd)) {
			anonymousTypeDeclaration.bits |= ASTNode.UndocumentedEmptyBlock;
		}
		this.astPtr--;
		this.astLengthPtr--;
	}
}
protected void checkForDiamond(TypeReference allocType) {
	if (allocType instanceof ParameterizedSingleTypeReference) {
		ParameterizedSingleTypeReference type = (ParameterizedSingleTypeReference) allocType;
		if (type.typeArguments == TypeReference.NO_TYPE_ARGUMENTS) {
			if (this.options.sourceLevel < ClassFileConstants.JDK1_7) {
				problemReporter().diamondNotBelow17(allocType);
			}
			if (this.options.sourceLevel > ClassFileConstants.JDK1_4) { // https://bugs.eclipse.org/bugs/show_bug.cgi?id=351965
				type.bits |= ASTNode.IsDiamond;
			} // else don't even bother to recognize this as <>
		}
	} 
	else if (allocType instanceof ParameterizedQualifiedTypeReference) {
		ParameterizedQualifiedTypeReference type = (ParameterizedQualifiedTypeReference) allocType;
		if (type.typeArguments[type.typeArguments.length - 1] == TypeReference.NO_TYPE_ARGUMENTS) { // Don't care for X<>.Y<> and X<>.Y
			if (this.options.sourceLevel < ClassFileConstants.JDK1_7) {
				problemReporter().diamondNotBelow17(allocType, type.typeArguments.length - 1);
			}
			if (this.options.sourceLevel > ClassFileConstants.JDK1_4) { // https://bugs.eclipse.org/bugs/show_bug.cgi?id=351965
				type.bits |= ASTNode.IsDiamond;
			} // else don't even bother to recognize this as <>
		}
	}
}
protected ParameterizedQualifiedTypeReference computeQualifiedGenericsFromRightSide(TypeReference rightSide, int dim, Annotation [][] annotationsOnDimensions) {
	int nameSize = this.identifierLengthStack[this.identifierLengthPtr];
	int tokensSize = nameSize;
	if (rightSide instanceof ParameterizedSingleTypeReference) {
		tokensSize ++;
	} else if (rightSide instanceof SingleTypeReference) {
		tokensSize ++;
	} else if (rightSide instanceof ParameterizedQualifiedTypeReference) {
		tokensSize += ((QualifiedTypeReference) rightSide).tokens.length;
	} else if (rightSide instanceof QualifiedTypeReference) {
		tokensSize += ((QualifiedTypeReference) rightSide).tokens.length;
	}
	TypeReference[][] typeArguments = new TypeReference[tokensSize][];
	char[][] tokens = new char[tokensSize][];
	long[] positions = new long[tokensSize];
	Annotation [][] typeAnnotations = null;
	if (rightSide instanceof ParameterizedSingleTypeReference) {
		ParameterizedSingleTypeReference singleParameterizedTypeReference = (ParameterizedSingleTypeReference) rightSide;
		tokens[nameSize] = singleParameterizedTypeReference.token;
		positions[nameSize] = (((long) singleParameterizedTypeReference.sourceStart) << 32) + singleParameterizedTypeReference.sourceEnd;
		typeArguments[nameSize] = singleParameterizedTypeReference.typeArguments;
		if (singleParameterizedTypeReference.annotations != null) {
			typeAnnotations = new Annotation[tokensSize][];
		    typeAnnotations[nameSize] = singleParameterizedTypeReference.annotations[0];
		}
	} else if (rightSide instanceof SingleTypeReference) {
		SingleTypeReference singleTypeReference = (SingleTypeReference) rightSide;
		tokens[nameSize] = singleTypeReference.token;
		positions[nameSize] = (((long) singleTypeReference.sourceStart) << 32) + singleTypeReference.sourceEnd;
		if (singleTypeReference.annotations != null) {
			typeAnnotations = new Annotation[tokensSize][];
			typeAnnotations[nameSize] =  singleTypeReference.annotations[0];
		}
	} else if (rightSide instanceof ParameterizedQualifiedTypeReference) {
		ParameterizedQualifiedTypeReference parameterizedTypeReference = (ParameterizedQualifiedTypeReference) rightSide;
		TypeReference[][] rightSideTypeArguments = parameterizedTypeReference.typeArguments;
		System.arraycopy(rightSideTypeArguments, 0, typeArguments, nameSize, rightSideTypeArguments.length);
		char[][] rightSideTokens = parameterizedTypeReference.tokens;
		System.arraycopy(rightSideTokens, 0, tokens, nameSize, rightSideTokens.length);
		long[] rightSidePositions = parameterizedTypeReference.sourcePositions;
		System.arraycopy(rightSidePositions, 0, positions, nameSize, rightSidePositions.length);
		Annotation [][] rightSideAnnotations = parameterizedTypeReference.annotations;
		if (rightSideAnnotations != null) {
			typeAnnotations = new Annotation[tokensSize][];
			System.arraycopy(rightSideAnnotations, 0, typeAnnotations, nameSize, rightSideAnnotations.length);
		}
	} else if (rightSide instanceof QualifiedTypeReference) {
		QualifiedTypeReference qualifiedTypeReference = (QualifiedTypeReference) rightSide;
		char[][] rightSideTokens = qualifiedTypeReference.tokens;
		System.arraycopy(rightSideTokens, 0, tokens, nameSize, rightSideTokens.length);
		long[] rightSidePositions = qualifiedTypeReference.sourcePositions;
		System.arraycopy(rightSidePositions, 0, positions, nameSize, rightSidePositions.length);
		Annotation [][] rightSideAnnotations = qualifiedTypeReference.annotations;
		if (rightSideAnnotations != null) {
			typeAnnotations = new Annotation[tokensSize][];
			System.arraycopy(rightSideAnnotations, 0, typeAnnotations, nameSize, rightSideAnnotations.length);
		}
	}

	int currentTypeArgumentsLength = this.genericsLengthStack[this.genericsLengthPtr--];
	TypeReference[] currentTypeArguments = new TypeReference[currentTypeArgumentsLength];
	this.genericsPtr -= currentTypeArgumentsLength;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, currentTypeArguments, 0, currentTypeArgumentsLength);

	if (nameSize == 1) {
		tokens[0] = this.identifierStack[this.identifierPtr];
		positions[0] = this.identifierPositionStack[this.identifierPtr--];
		typeArguments[0] = currentTypeArguments;
	} else {
		this.identifierPtr -= nameSize;
		System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, nameSize);
		System.arraycopy(this.identifierPositionStack, this.identifierPtr + 1, positions, 0, nameSize);
		typeArguments[nameSize - 1] = currentTypeArguments;
	}
	this.identifierLengthPtr--;
	ParameterizedQualifiedTypeReference typeRef = new ParameterizedQualifiedTypeReference(tokens, typeArguments, dim, annotationsOnDimensions, positions);

	while (nameSize > 0) {
		int length;
		if ((length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--]) != 0) {
			if (typeAnnotations == null)
				typeAnnotations = new Annotation[tokensSize][];
			System.arraycopy(
					this.typeAnnotationStack,
					(this.typeAnnotationPtr -= length) + 1,
					typeAnnotations[nameSize - 1] = new Annotation[length],
					0,
					length);
			if (nameSize == 1) {
				typeRef.sourceStart = typeAnnotations[0][0].sourceStart;
			}
		}
		nameSize--;
	}
	
	if ((typeRef.annotations = typeAnnotations) != null) {
		typeRef.bits |= ASTNode.HasTypeAnnotations;
	}
	return typeRef;
}
protected void concatExpressionLists() {
	this.expressionLengthStack[--this.expressionLengthPtr]++;
}
protected void concatGenericsLists() {
	this.genericsLengthStack[this.genericsLengthPtr - 1] += this.genericsLengthStack[this.genericsLengthPtr--];
}
protected void concatNodeLists() {
	/*
	 * This is a case where you have two sublists into the this.astStack that you want
	 * to merge in one list. There is no action required on the this.astStack. The only
	 * thing you need to do is merge the two lengths specified on the astStackLength.
	 * The top two length are for example:
	 * ... p   n
	 * and you want to result in a list like:
	 * ... n+p
	 * This means that the p could be equals to 0 in case there is no astNode pushed
	 * on the this.astStack.
	 * Look at the InterfaceMemberDeclarations for an example.
	 */

	this.astLengthStack[this.astLengthPtr - 1] += this.astLengthStack[this.astLengthPtr--];
}
protected void consumeAdditionalBound() {
	pushOnGenericsStack(getTypeReference(this.intStack[this.intPtr--]));
}
protected void consumeAdditionalBound1() {
	// nothing to be done.
	// The reference type1 is consumed by consumeReferenceType1 method.
}
protected void consumeAdditionalBoundList() {
	concatGenericsLists();
}
protected void consumeAdditionalBoundList1() {
	concatGenericsLists();
}
protected boolean isIndirectlyInsideLambdaExpression() {
	return false;
}
protected void consumeAllocationHeader() {
	// ClassInstanceCreationExpression ::= 'new' ClassType '(' ArgumentListopt ')' ClassBodyopt

	// ClassBodyopt produces a null item on the astStak if it produces NO class body
	// An empty class body produces a 0 on the length stack.....

	if (this.currentElement == null){
		return; // should never occur, this consumeRule is only used in recovery mode
	}
	if (this.currentToken == TokenNameLBRACE){
		// beginning of an anonymous type
		TypeDeclaration anonymousType = new TypeDeclaration(this.compilationUnit.compilationResult);
		anonymousType.name = CharOperation.NO_CHAR;
		anonymousType.bits |= (ASTNode.IsAnonymousType|ASTNode.IsLocalType);
		anonymousType.sourceStart = this.intStack[this.intPtr--];
		anonymousType.declarationSourceStart = anonymousType.sourceStart;
		anonymousType.sourceEnd = this.rParenPos; // closing parenthesis
		QualifiedAllocationExpression alloc = new QualifiedAllocationExpression(anonymousType);
		alloc.type = getTypeReference(0);
		alloc.sourceStart = anonymousType.sourceStart;
		alloc.sourceEnd = anonymousType.sourceEnd ;
		this.lastCheckPoint = anonymousType.bodyStart = this.scanner.currentPosition;
		this.currentElement = this.currentElement.add(anonymousType, 0);
		this.lastIgnoredToken = -1;
		if (!isIndirectlyInsideLambdaExpression())
			this.currentToken = 0; // opening brace already taken into account
		return;
	}
	this.lastCheckPoint = this.scanner.startPosition; // force to restart at this exact position
	this.restartRecovery = true; // request to restart from here on
}
protected void consumeAnnotationAsModifier() {
	Expression expression = this.expressionStack[this.expressionPtr];
	int sourceStart = expression.sourceStart;
	if (this.modifiersSourceStart < 0) {
		this.modifiersSourceStart = sourceStart;
	}
}
protected void consumeAnnotationName() {
	if(this.currentElement != null && !this.expectTypeAnnotation) {
		int start = this.intStack[this.intPtr];
		int end = (int) (this.identifierPositionStack[this.identifierPtr] & 0x00000000FFFFFFFFL);
		annotationRecoveryCheckPoint(start, end);

		if (this.annotationRecoveryActivated) {
			this.currentElement = this.currentElement.addAnnotationName(this.identifierPtr, this.identifierLengthPtr, start, 0);
		}
	}
	this.recordStringLiterals = false;
	this.expectTypeAnnotation = false;
}
protected void consumeAnnotationTypeDeclaration() {
	int length;
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		//there are length declarations
		//dispatch according to the type of the declarations
		dispatchDeclarationInto(length);
	}

	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];

	//convert constructor that do not have the type's name into methods
	typeDecl.checkConstructors(this);

	//always add  (will be remove at code gen time if empty)
	if (this.scanner.containsAssertKeyword) {
		typeDecl.bits |= ASTNode.ContainsAssertion;
	}
	typeDecl.addClinit();
	typeDecl.bodyEnd = this.endStatementPosition;
	if (length == 0 && !containsComment(typeDecl.bodyStart, typeDecl.bodyEnd)) {
		typeDecl.bits |= ASTNode.UndocumentedEmptyBlock;
	}
	typeDecl.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
}
protected void consumeAnnotationTypeDeclarationHeader() {
	TypeDeclaration annotationTypeDeclaration = (TypeDeclaration) this.astStack[this.astPtr];
	if (this.currentToken == TokenNameLBRACE) {
		annotationTypeDeclaration.bodyStart = this.scanner.currentPosition;
	}
	if (this.currentElement != null) {
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
	// flush the comments related to the annotation type header
	this.scanner.commentPtr = -1;
}
protected void consumeAnnotationTypeDeclarationHeaderName() {
	// consumeAnnotationTypeDeclarationHeader ::= Modifiers '@' PushModifiers interface Identifier
	// consumeAnnotationTypeDeclarationHeader ::= '@' PushModifiers interface Identifier
	TypeDeclaration annotationTypeDeclaration = new TypeDeclaration(this.compilationUnit.compilationResult);
	if (this.nestedMethod[this.nestedType] == 0) {
		if (this.nestedType != 0) {
			annotationTypeDeclaration.bits |= ASTNode.IsMemberType;
		}
	} else {
		// Record that the block has a declaration for local types
		annotationTypeDeclaration.bits |= ASTNode.IsLocalType;
		markEnclosingMemberWithLocalType();
		blockReal();
	}

	//highlight the name of the type
	long pos = this.identifierPositionStack[this.identifierPtr];
	annotationTypeDeclaration.sourceEnd = (int) pos;
	annotationTypeDeclaration.sourceStart = (int) (pos >>> 32);
	annotationTypeDeclaration.name = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	//compute the declaration source too
	// 'interface' push two int positions: the beginning of the class token and its end.
	// we want to keep the beginning position but get rid of the end position
	// it is only used for the ClassLiteralAccess positions.
	this.intPtr--; // remove the start position of the interface token
	this.intPtr--; // remove the end position of the interface token

	annotationTypeDeclaration.modifiersSourceStart = this.intStack[this.intPtr--];
	annotationTypeDeclaration.modifiers = this.intStack[this.intPtr--] | ClassFileConstants.AccAnnotation | ClassFileConstants.AccInterface;
	if (annotationTypeDeclaration.modifiersSourceStart >= 0) {
		annotationTypeDeclaration.declarationSourceStart = annotationTypeDeclaration.modifiersSourceStart;
		this.intPtr--; // remove the position of the '@' token as we have modifiers
	} else {
		int atPosition = this.intStack[this.intPtr--];
		// remove the position of the '@' token as we don't have modifiers
		annotationTypeDeclaration.declarationSourceStart = atPosition;
	}

	// Store secondary info
	if ((annotationTypeDeclaration.bits & ASTNode.IsMemberType) == 0 && (annotationTypeDeclaration.bits & ASTNode.IsLocalType) == 0) {
		if (this.compilationUnit != null && !CharOperation.equals(annotationTypeDeclaration.name, this.compilationUnit.getMainTypeName())) {
			annotationTypeDeclaration.bits |= ASTNode.IsSecondaryType;
		}
	}

	// consume annotations
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			annotationTypeDeclaration.annotations = new Annotation[length],
			0,
			length);
	}
	annotationTypeDeclaration.bodyStart = annotationTypeDeclaration.sourceEnd + 1;

	// javadoc
	annotationTypeDeclaration.javadoc = this.javadoc;
	this.javadoc = null;
	pushOnAstStack(annotationTypeDeclaration);
	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		problemReporter().invalidUsageOfAnnotationDeclarations(annotationTypeDeclaration);
	}

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = annotationTypeDeclaration.bodyStart;
		this.currentElement = this.currentElement.add(annotationTypeDeclaration, 0);
		this.lastIgnoredToken = -1;
	}
}
protected void consumeAnnotationTypeDeclarationHeaderNameWithTypeParameters() {
	// consumeAnnotationTypeDeclarationHeader ::= Modifiers '@' PushModifiers interface Identifier TypeParameters
	// consumeAnnotationTypeDeclarationHeader ::= '@' PushModifiers interface Identifier TypeParameters
	TypeDeclaration annotationTypeDeclaration = new TypeDeclaration(this.compilationUnit.compilationResult);
	// consume type parameters
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, annotationTypeDeclaration.typeParameters = new TypeParameter[length], 0, length);

	problemReporter().invalidUsageOfTypeParametersForAnnotationDeclaration(annotationTypeDeclaration);

	annotationTypeDeclaration.bodyStart = annotationTypeDeclaration.typeParameters[length-1].declarationSourceEnd + 1;

//	annotationTypeDeclaration.typeParameters = null;

	this.listTypeParameterLength = 0;

	if (this.nestedMethod[this.nestedType] == 0) {
		if (this.nestedType != 0) {
			annotationTypeDeclaration.bits |= ASTNode.IsMemberType;
		}
	} else {
		// Record that the block has a declaration for local types
		annotationTypeDeclaration.bits |= ASTNode.IsLocalType;
		markEnclosingMemberWithLocalType();
		blockReal();
	}

	//highlight the name of the type
	long pos = this.identifierPositionStack[this.identifierPtr];
	annotationTypeDeclaration.sourceEnd = (int) pos;
	annotationTypeDeclaration.sourceStart = (int) (pos >>> 32);
	annotationTypeDeclaration.name = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	//compute the declaration source too
	// 'interface' push two int positions: the beginning of the class token and its end.
	// we want to keep the beginning position but get rid of the end position
	// it is only used for the ClassLiteralAccess positions.
	this.intPtr--; // remove the start position of the interface token
	this.intPtr--; // remove the end position of the interface token

	annotationTypeDeclaration.modifiersSourceStart = this.intStack[this.intPtr--];
	annotationTypeDeclaration.modifiers = this.intStack[this.intPtr--] | ClassFileConstants.AccAnnotation | ClassFileConstants.AccInterface;
	if (annotationTypeDeclaration.modifiersSourceStart >= 0) {
		annotationTypeDeclaration.declarationSourceStart = annotationTypeDeclaration.modifiersSourceStart;
		this.intPtr--; // remove the position of the '@' token as we have modifiers
	} else {
		int atPosition = this.intStack[this.intPtr--];
		// remove the position of the '@' token as we don't have modifiers
		annotationTypeDeclaration.declarationSourceStart = atPosition;
	}

	// Store secondary info
	if ((annotationTypeDeclaration.bits & ASTNode.IsMemberType) == 0 && (annotationTypeDeclaration.bits & ASTNode.IsLocalType) == 0) {
		if (this.compilationUnit != null && !CharOperation.equals(annotationTypeDeclaration.name, this.compilationUnit.getMainTypeName())) {
			annotationTypeDeclaration.bits |= ASTNode.IsSecondaryType;
		}
	}

	// consume annotations
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			annotationTypeDeclaration.annotations = new Annotation[length],
			0,
			length);
	}
	// javadoc
	annotationTypeDeclaration.javadoc = this.javadoc;
	this.javadoc = null;
	pushOnAstStack(annotationTypeDeclaration);
	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		problemReporter().invalidUsageOfAnnotationDeclarations(annotationTypeDeclaration);
	}

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = annotationTypeDeclaration.bodyStart;
		this.currentElement = this.currentElement.add(annotationTypeDeclaration, 0);
		this.lastIgnoredToken = -1;
	}
}
protected void consumeAnnotationTypeMemberDeclaration() {
	// AnnotationTypeMemberDeclaration ::= AnnotationTypeMemberDeclarationHeader AnnotationTypeMemberHeaderExtendedDims DefaultValueopt ';'
	AnnotationMethodDeclaration annotationTypeMemberDeclaration = (AnnotationMethodDeclaration) this.astStack[this.astPtr];
	annotationTypeMemberDeclaration.modifiers |= ExtraCompilerModifiers.AccSemicolonBody;
	// store the this.endPosition (position just before the '}') in case there is
	// a trailing comment behind the end of the method
	int declarationEndPosition = flushCommentsDefinedPriorTo(this.endStatementPosition);
	annotationTypeMemberDeclaration.bodyStart = this.endStatementPosition;
	annotationTypeMemberDeclaration.bodyEnd = declarationEndPosition;
	annotationTypeMemberDeclaration.declarationSourceEnd = declarationEndPosition;
}
protected void consumeAnnotationTypeMemberDeclarations() {
	// AnnotationTypeMemberDeclarations ::= AnnotationTypeMemberDeclarations AnnotationTypeMemberDeclaration
	concatNodeLists();
}
protected void consumeAnnotationTypeMemberDeclarationsopt() {
	this.nestedType-- ;
}
protected void consumeArgumentList() {
	// ArgumentList ::= ArgumentList ',' Expression
	concatExpressionLists();
}
protected void consumeArguments() {
	// Arguments ::= '(' ArgumentListopt ')'
	// nothing to do, the expression stack is already updated
	pushOnIntStack(this.rParenPos);
}
protected void consumeArrayAccess(boolean unspecifiedReference) {
	// ArrayAccess ::= Name '[' Expression ']' ==> true
	// ArrayAccess ::= PrimaryNoNewArray '[' Expression ']' ==> false


	//optimize push/pop
	Expression exp;
	if (unspecifiedReference) {
		exp =
			this.expressionStack[this.expressionPtr] =
				new ArrayReference(
					getUnspecifiedReferenceOptimized(),
					this.expressionStack[this.expressionPtr]);
	} else {
		this.expressionPtr--;
		this.expressionLengthPtr--;
		exp =
			this.expressionStack[this.expressionPtr] =
				new ArrayReference(
					this.expressionStack[this.expressionPtr],
					this.expressionStack[this.expressionPtr + 1]);
	}
	exp.sourceEnd = this.endStatementPosition;
}
protected void consumeArrayCreationExpressionWithInitializer() {
	// ArrayCreationWithArrayInitializer ::= 'new' PrimitiveType DimWithOrWithOutExprs ArrayInitializer
	// ArrayCreationWithArrayInitializer ::= 'new' ClassOrInterfaceType DimWithOrWithOutExprs ArrayInitializer

	int length;
	ArrayAllocationExpression arrayAllocation = new ArrayAllocationExpression();
	this.expressionLengthPtr -- ;
	arrayAllocation.initializer = (ArrayInitializer) this.expressionStack[this.expressionPtr--];

	length = (this.expressionLengthStack[this.expressionLengthPtr--]);
	this.expressionPtr -= length ;
	System.arraycopy(
		this.expressionStack,
		this.expressionPtr+1,
		arrayAllocation.dimensions = new Expression[length],
		0,
		length);
	Annotation[][] annotationsOnDimensions = getAnnotationsOnDimensions(length);
	arrayAllocation.annotationsOnDimensions = annotationsOnDimensions;

	arrayAllocation.type = getTypeReference(0);
	arrayAllocation.type.bits |= ASTNode.IgnoreRawTypeCheck; // no need to worry about raw type usage
	if (annotationsOnDimensions != null) {
		arrayAllocation.bits |= ASTNode.HasTypeAnnotations;
		arrayAllocation.type.bits |= ASTNode.HasTypeAnnotations;
	}

	arrayAllocation.sourceStart = this.intStack[this.intPtr--];
	if (arrayAllocation.initializer == null) {
		arrayAllocation.sourceEnd = this.endStatementPosition;
	} else {
		arrayAllocation.sourceEnd = arrayAllocation.initializer.sourceEnd ;
	}
	pushOnExpressionStack(arrayAllocation);
}
protected void consumeArrayCreationExpressionWithoutInitializer() {
	// ArrayCreationWithoutArrayInitializer ::= 'new' ClassOrInterfaceType DimWithOrWithOutExprs
	// ArrayCreationWithoutArrayInitializer ::= 'new' PrimitiveType DimWithOrWithOutExprs

	int length;
	ArrayAllocationExpression arrayAllocation = new ArrayAllocationExpression();
	length = (this.expressionLengthStack[this.expressionLengthPtr--]);
	this.expressionPtr -= length ;
	System.arraycopy(
		this.expressionStack,
		this.expressionPtr+1,
		arrayAllocation.dimensions = new Expression[length],
		0,
		length);
	Annotation[][] annotationsOnDimensions = getAnnotationsOnDimensions(length);
	arrayAllocation.annotationsOnDimensions = annotationsOnDimensions;
	arrayAllocation.type = getTypeReference(0);
	arrayAllocation.type.bits |= ASTNode.IgnoreRawTypeCheck; // no need to worry about raw type usage
	if (annotationsOnDimensions != null) {
		arrayAllocation.bits |= ASTNode.HasTypeAnnotations;
		arrayAllocation.type.bits |= ASTNode.HasTypeAnnotations;
	}
	arrayAllocation.sourceStart = this.intStack[this.intPtr--];
	if (arrayAllocation.initializer == null) {
		arrayAllocation.sourceEnd = this.endStatementPosition;
	} else {
		arrayAllocation.sourceEnd = arrayAllocation.initializer.sourceEnd ;
	}
	pushOnExpressionStack(arrayAllocation);
}
protected void consumeArrayCreationHeader() {
	// nothing to do
}
protected void consumeArrayInitializer() {
	// ArrayInitializer ::= '{' VariableInitializers '}'
	// ArrayInitializer ::= '{' VariableInitializers , '}'

	arrayInitializer(this.expressionLengthStack[this.expressionLengthPtr--]);
}
protected void consumeArrayTypeWithTypeArgumentsName() {
	this.genericsIdentifiersLengthStack[this.genericsIdentifiersLengthPtr] += this.identifierLengthStack[this.identifierLengthPtr];
	pushOnGenericsLengthStack(0); // handle type arguments
}
protected void consumeAssertStatement() {
	// AssertStatement ::= 'assert' Expression ':' Expression ';'
	this.expressionLengthPtr-=2;
	pushOnAstStack(new AssertStatement(this.expressionStack[this.expressionPtr--], this.expressionStack[this.expressionPtr--], this.intStack[this.intPtr--]));
}
protected void consumeAssignment() {
	// Assignment ::= LeftHandSide AssignmentOperator AssignmentExpression
	//optimize the push/pop

	int op = this.intStack[this.intPtr--] ; //<--the encoded operator

	this.expressionPtr -- ; this.expressionLengthPtr -- ;
	Expression expression = this.expressionStack[this.expressionPtr+1];
	this.expressionStack[this.expressionPtr] =
		(op != EQUAL ) ?
			new CompoundAssignment(
				this.expressionStack[this.expressionPtr] ,
				expression,
				op,
				expression.sourceEnd):
			new Assignment(
				this.expressionStack[this.expressionPtr] ,
				expression,
				expression.sourceEnd);

	if (this.pendingRecoveredType != null) {
		// Used only in statements recovery.
		// This is not a real assignment but a placeholder for an existing anonymous type.
		// The assignment must be replace by the anonymous type.
		if (this.pendingRecoveredType.allocation != null &&
				this.scanner.startPosition - 1 <= this.pendingRecoveredType.declarationSourceEnd) {
			this.expressionStack[this.expressionPtr] = this.pendingRecoveredType.allocation;
			this.pendingRecoveredType = null;
			return;
		}
		this.pendingRecoveredType = null;
	}
}
protected void consumeAssignmentOperator(int pos) {
	// AssignmentOperator ::= '='
	// AssignmentOperator ::= '*='
	// AssignmentOperator ::= '/='
	// AssignmentOperator ::= '%='
	// AssignmentOperator ::= '+='
	// AssignmentOperator ::= '-='
	// AssignmentOperator ::= '<<='
	// AssignmentOperator ::= '>>='
	// AssignmentOperator ::= '>>>='
	// AssignmentOperator ::= '&='
	// AssignmentOperator ::= '^='
	// AssignmentOperator ::= '|='

	pushOnIntStack(pos);
}
protected void consumeBinaryExpression(int op) {
	// MultiplicativeExpression ::= MultiplicativeExpression '*' UnaryExpression
	// MultiplicativeExpression ::= MultiplicativeExpression '/' UnaryExpression
	// MultiplicativeExpression ::= MultiplicativeExpression '%' UnaryExpression
	// AdditiveExpression ::= AdditiveExpression '+' MultiplicativeExpression
	// AdditiveExpression ::= AdditiveExpression '-' MultiplicativeExpression
	// ShiftExpression ::= ShiftExpression '<<'  AdditiveExpression
	// ShiftExpression ::= ShiftExpression '>>'  AdditiveExpression
	// ShiftExpression ::= ShiftExpression '>>>' AdditiveExpression
	// RelationalExpression ::= RelationalExpression '<'  ShiftExpression
	// RelationalExpression ::= RelationalExpression '>'  ShiftExpression
	// RelationalExpression ::= RelationalExpression '<=' ShiftExpression
	// RelationalExpression ::= RelationalExpression '>=' ShiftExpression
	// AndExpression ::= AndExpression '&' EqualityExpression
	// ExclusiveOrExpression ::= ExclusiveOrExpression '^' AndExpression
	// InclusiveOrExpression ::= InclusiveOrExpression '|' ExclusiveOrExpression
	// ConditionalAndExpression ::= ConditionalAndExpression '&&' InclusiveOrExpression
	// ConditionalOrExpression ::= ConditionalOrExpression '||' ConditionalAndExpression

	//optimize the push/pop

	this.expressionPtr--;
	this.expressionLengthPtr--;
	Expression expr1 = this.expressionStack[this.expressionPtr];
	Expression expr2 = this.expressionStack[this.expressionPtr + 1];
	switch(op) {
		case OR_OR :
			this.expressionStack[this.expressionPtr] =
				new OR_OR_Expression(
					expr1,
					expr2,
					op);
			break;
		case AND_AND :
			this.expressionStack[this.expressionPtr] =
				new AND_AND_Expression(
					expr1,
					expr2,
					op);
			break;
		case PLUS :
			// look for "string1" + "string2"
			if (this.optimizeStringLiterals) {
				if (expr1 instanceof StringLiteral) {
					if (((expr1.bits & ASTNode.ParenthesizedMASK) >> ASTNode.ParenthesizedSHIFT) == 0) {
						if (expr2 instanceof CharLiteral) { // string+char
							this.expressionStack[this.expressionPtr] =
								((StringLiteral) expr1).extendWith((CharLiteral) expr2);
						} else if (expr2 instanceof StringLiteral) { //string+string
							this.expressionStack[this.expressionPtr] =
								((StringLiteral) expr1).extendWith((StringLiteral) expr2);
						} else {
							this.expressionStack[this.expressionPtr] = new BinaryExpression(expr1, expr2, PLUS);
						}
					} else {
						this.expressionStack[this.expressionPtr] = new BinaryExpression(expr1, expr2, PLUS);
					}
				} else if (expr1 instanceof CombinedBinaryExpression) {
					CombinedBinaryExpression cursor;
					// left branch is comprised of PLUS BEs
					// cursor is shifted upwards, while needed BEs are added
					// on demand; past the arityMax-th
					// consecutive BE, a CBE is inserted that holds a
					// full-fledged references table
					if ((cursor = (CombinedBinaryExpression)expr1).arity < cursor.arityMax) {
						cursor.left = new BinaryExpression(cursor);
						cursor.arity++;
					} else {
						cursor.left = new CombinedBinaryExpression(cursor);
						cursor.arity = 0;
						cursor.tuneArityMax();
					}
					cursor.right = expr2;
					cursor.sourceEnd = expr2.sourceEnd;
					this.expressionStack[this.expressionPtr] = cursor;
					// BE_INSTRUMENTATION: neutralized in the released code
//					cursor.depthTracker = ((BinaryExpression)cursor.left).
//						depthTracker + 1;
				} else if (expr1 instanceof BinaryExpression &&
							// single out the a + b case, which is a BE
							// instead of a CBE (slightly more than a half of
							// strings concatenation are one-deep binary
							// expressions)
						((expr1.bits & ASTNode.OperatorMASK) >>
							ASTNode.OperatorSHIFT) == OperatorIds.PLUS) {
					this.expressionStack[this.expressionPtr] =
						new CombinedBinaryExpression(expr1, expr2, PLUS, 1);
				} else {
					this.expressionStack[this.expressionPtr] =
						new BinaryExpression(expr1, expr2, PLUS);
				}
			} else if (expr1 instanceof StringLiteral) {
				if (expr2 instanceof StringLiteral
						&& ((expr1.bits & ASTNode.ParenthesizedMASK) >> ASTNode.ParenthesizedSHIFT) == 0) {
					// string + string
					this.expressionStack[this.expressionPtr] =
						((StringLiteral) expr1).extendsWith((StringLiteral) expr2);
				} else {
					// single out the a + b case
					this.expressionStack[this.expressionPtr] =
						new BinaryExpression(expr1, expr2, PLUS);
				}
			} else if (expr1 instanceof CombinedBinaryExpression) {
					CombinedBinaryExpression cursor;
					// shift cursor; create BE/CBE as needed
					if ((cursor = (CombinedBinaryExpression)expr1).arity < cursor.arityMax) {
						cursor.left = new BinaryExpression(cursor);
						// clear the bits on cursor
						cursor.bits &= ~ASTNode.ParenthesizedMASK;
						cursor.arity++;
					} else {
						cursor.left = new CombinedBinaryExpression(cursor);
						// clear the bits on cursor
						cursor.bits &= ~ASTNode.ParenthesizedMASK;
						cursor.arity = 0;
						cursor.tuneArityMax();
					}
					cursor.right = expr2;
					cursor.sourceEnd = expr2.sourceEnd;
					// BE_INSTRUMENTATION: neutralized in the released code
//					cursor.depthTracker = ((BinaryExpression)cursor.left).
//						depthTracker + 1;
					this.expressionStack[this.expressionPtr] = cursor;
			} else if (expr1 instanceof BinaryExpression
					&& ((expr1.bits & ASTNode.OperatorMASK) >>
							ASTNode.OperatorSHIFT) == OperatorIds.PLUS) {
				// single out the a + b case
				this.expressionStack[this.expressionPtr] =
					new CombinedBinaryExpression(expr1, expr2, PLUS, 1);
			} else {
				this.expressionStack[this.expressionPtr] =
					new BinaryExpression(expr1, expr2, PLUS);
			}
			break;
		case LESS :
		case MULTIPLY :
			this.intPtr--; // star end position or starting position of angle bracket
			this.expressionStack[this.expressionPtr] =
				new BinaryExpression(
					expr1,
					expr2,
					op);
			break;
		default :
			this.expressionStack[this.expressionPtr] =
				new BinaryExpression(
					expr1,
					expr2,
					op);
	}
}
/**
 * @param op binary operator
 */
protected void consumeBinaryExpressionWithName(int op) {
	pushOnExpressionStack(getUnspecifiedReferenceOptimized());
	this.expressionPtr--;
	this.expressionLengthPtr--;
	/*
	if (op == OR_OR) {
		this.expressionStack[this.expressionPtr] =
			new OR_OR_Expression(
				this.expressionStack[this.expressionPtr + 1],
				this.expressionStack[this.expressionPtr],
				op);
	} else {
		if (op == AND_AND) {
			this.expressionStack[this.expressionPtr] =
				new AND_AND_Expression(
					this.expressionStack[this.expressionPtr + 1],
					this.expressionStack[this.expressionPtr],
					op);
		} else {
			// look for "string1" + "string2"
			if ((op == PLUS) && this.optimizeStringLiterals) {
				Expression expr1, expr2;
				expr1 = this.expressionStack[this.expressionPtr + 1];
				expr2 = this.expressionStack[this.expressionPtr];
				if (expr1 instanceof StringLiteral) {
					if (expr2 instanceof CharLiteral) { // string+char
						this.expressionStack[this.expressionPtr] =
							((StringLiteral) expr1).extendWith((CharLiteral) expr2);
					} else if (expr2 instanceof StringLiteral) { //string+string
						this.expressionStack[this.expressionPtr] =
							((StringLiteral) expr1).extendWith((StringLiteral) expr2);
					} else {
						this.expressionStack[this.expressionPtr] = new BinaryExpression(expr1, expr2, PLUS);
					}
				} else {
					this.expressionStack[this.expressionPtr] = new BinaryExpression(expr1, expr2, PLUS);
				}
			} else {
				this.expressionStack[this.expressionPtr] =
					new BinaryExpression(
						this.expressionStack[this.expressionPtr + 1],
						this.expressionStack[this.expressionPtr],
						op);
			}
		}
	}
	*/
	Expression expr1 = this.expressionStack[this.expressionPtr + 1];
	Expression expr2 = this.expressionStack[this.expressionPtr];
	// Note: we do not attempt to promote BinaryExpression-s to
	//       IndexedBinaryExpression-s here since expr1 always holds a name
	switch(op) {
		case OR_OR :
			this.expressionStack[this.expressionPtr] =
				new OR_OR_Expression(
					expr1,
					expr2,
					op);
			break;
		case AND_AND :
			this.expressionStack[this.expressionPtr] =
				new AND_AND_Expression(
					expr1,
					expr2,
					op);
			break;
		case PLUS :
			// look for "string1" + "string2"
			if (this.optimizeStringLiterals) {
				if (expr1 instanceof StringLiteral
						&& ((expr1.bits & ASTNode.ParenthesizedMASK) >> ASTNode.ParenthesizedSHIFT) == 0) {
					if (expr2 instanceof CharLiteral) { // string+char
						this.expressionStack[this.expressionPtr] =
							((StringLiteral) expr1).extendWith((CharLiteral) expr2);
					} else if (expr2 instanceof StringLiteral) { //string+string
						this.expressionStack[this.expressionPtr] =
							((StringLiteral) expr1).extendWith((StringLiteral) expr2);
					} else {
						this.expressionStack[this.expressionPtr] = new BinaryExpression(expr1, expr2, PLUS);
					}
				} else {
					this.expressionStack[this.expressionPtr] = new BinaryExpression(expr1, expr2, PLUS);
				}
			} else if (expr1 instanceof StringLiteral) {
				if (expr2 instanceof StringLiteral
						&& ((expr1.bits & ASTNode.ParenthesizedMASK) >> ASTNode.ParenthesizedSHIFT) == 0) {
					// string + string
					this.expressionStack[this.expressionPtr] =
						((StringLiteral) expr1).extendsWith((StringLiteral) expr2);
				} else {
					this.expressionStack[this.expressionPtr] =
						new BinaryExpression(
							expr1,
							expr2,
							op);
				}
			} else {
				this.expressionStack[this.expressionPtr] =
					new BinaryExpression(
						expr1,
						expr2,
						op);
			}
			break;
		case LESS :
		case MULTIPLY :
			this.intPtr--; // star end position or starting position of angle bracket
			this.expressionStack[this.expressionPtr] =
				new BinaryExpression(
					expr1,
					expr2,
					op);
			break;
		default :
			this.expressionStack[this.expressionPtr] =
				new BinaryExpression(
					expr1,
					expr2,
					op);
	}
}
protected void consumeBlock() {
	// Block ::= OpenBlock '{' BlockStatementsopt '}'
	// LambdaBody ::= NestedType NestedMethod  '{' BlockStatementsopt '}'
	// simpler action for empty blocks

	int statementsLength = this.astLengthStack[this.astLengthPtr--];
	Block block;
	if (statementsLength == 0) { // empty block
		block = new Block(0);
		block.sourceStart = this.intStack[this.intPtr--];
		block.sourceEnd = this.endStatementPosition;
		// check whether this block at least contains some comment in it
		if (!containsComment(block.sourceStart, block.sourceEnd)) {
			block.bits |= ASTNode.UndocumentedEmptyBlock;
		}
		this.realBlockPtr--; // still need to pop the block variable counter
	} else {
		block = new Block(this.realBlockStack[this.realBlockPtr--]);
		this.astPtr -= statementsLength;
		System.arraycopy(
			this.astStack,
			this.astPtr + 1,
			block.statements = new Statement[statementsLength],
			0,
			statementsLength);
		block.sourceStart = this.intStack[this.intPtr--];
		block.sourceEnd = this.endStatementPosition;
	}
	pushOnAstStack(block);
}
protected void consumeBlockStatement() {
	// for assist parsers.
}
protected void consumeBlockStatements() {
	// BlockStatements ::= BlockStatements BlockStatement
	concatNodeLists();
}
protected void consumeCaseLabel() {
	// SwitchLabel ::= 'case' ConstantExpression ':'
	this.expressionLengthPtr--;
	Expression expression = this.expressionStack[this.expressionPtr--];
	CaseStatement caseStatement = new CaseStatement(expression, expression.sourceEnd, this.intStack[this.intPtr--]);
	// Look for $fall-through$ tag in leading comment for case statement
	if (hasLeadingTagComment(FALL_THROUGH_TAG, caseStatement.sourceStart)) {
		caseStatement.bits |= ASTNode.DocumentedFallthrough;
	}
	pushOnAstStack(caseStatement);
}
protected void consumeCastExpressionLL1() {
	//CastExpression ::= '(' Name ')' InsideCastExpressionLL1 UnaryExpressionNotPlusMinus
	

	//optimize push/pop

	Expression cast;
	Expression exp;
	this.expressionPtr--;
	this.expressionStack[this.expressionPtr] =
		cast = new CastExpression(
			exp=this.expressionStack[this.expressionPtr+1] ,
			(TypeReference) this.expressionStack[this.expressionPtr]);
	this.expressionLengthPtr -- ;
	updateSourcePosition(cast);
	cast.sourceEnd=exp.sourceEnd;
}
public IntersectionCastTypeReference createIntersectionCastTypeReference(TypeReference[] typeReferences) {
	if (this.options.sourceLevel < ClassFileConstants.JDK1_8) {
		problemReporter().intersectionCastNotBelow18(typeReferences);
	}
	return new IntersectionCastTypeReference(typeReferences);
}
protected void consumeCastExpressionLL1WithBounds() {
	//CastExpression ::= '(' Name AdditionalBoundsList ')' UnaryExpressionNotPlusMinus
	Expression cast;
	Expression exp;
	int length;
	exp = this.expressionStack[this.expressionPtr--];
	this.expressionLengthPtr --;
	TypeReference[] bounds = new TypeReference[length = this.expressionLengthStack[this.expressionLengthPtr]];
	System.arraycopy(this.expressionStack, this.expressionPtr -= (length - 1), bounds, 0, length);
	this.expressionStack[this.expressionPtr] =
		cast = new CastExpression(
			exp,
			createIntersectionCastTypeReference(bounds));
	this.expressionLengthStack[this.expressionLengthPtr] = 1;
	updateSourcePosition(cast);
	cast.sourceEnd=exp.sourceEnd;
}
protected void consumeCastExpressionWithGenericsArray() {
	// CastExpression ::= PushLPAREN Name TypeArguments Dimsopt AdditionalBoundsListOpt PushRPAREN InsideCastExpression UnaryExpressionNotPlusMinus
	
	TypeReference[] bounds = null;
	int additionalBoundsLength = this.genericsLengthStack[this.genericsLengthPtr--];
	if (additionalBoundsLength > 0) {
		bounds = new TypeReference[additionalBoundsLength + 1];
		this.genericsPtr -= additionalBoundsLength;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, bounds, 1, additionalBoundsLength);
	}
	Expression exp;
	Expression cast;
	TypeReference castType;
	int end = this.intStack[this.intPtr--];

	int dim = this.intStack[this.intPtr--];
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	if (additionalBoundsLength > 0) {
		bounds[0] = getTypeReference(dim);
		castType = createIntersectionCastTypeReference(bounds); 
	} else {
		castType = getTypeReference(dim);
	}
	this.expressionStack[this.expressionPtr] = cast = new CastExpression(exp = this.expressionStack[this.expressionPtr], castType);
	this.intPtr--;  // pop position of '<'
	castType.sourceEnd = end - 1;
	castType.sourceStart = (cast.sourceStart = this.intStack[this.intPtr--]) + 1;
	cast.sourceEnd = exp.sourceEnd;
}
protected void consumeCastExpressionWithNameArray() {
	// CastExpression ::= PushLPAREN Name Dims AdditionalBoundsListOpt PushRPAREN InsideCastExpression UnaryExpressionNotPlusMinus

	Expression exp;
	Expression cast;
	TypeReference castType;
	int end = this.intStack[this.intPtr--];

	TypeReference[] bounds = null;
	int additionalBoundsLength = this.genericsLengthStack[this.genericsLengthPtr--];
	if (additionalBoundsLength > 0) {
		bounds = new TypeReference[additionalBoundsLength + 1];
		this.genericsPtr -= additionalBoundsLength;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, bounds, 1, additionalBoundsLength);
	}
	// handle type arguments
	pushOnGenericsLengthStack(0);
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	
	if (additionalBoundsLength > 0) {
		bounds[0] = getTypeReference(this.intStack[this.intPtr--]);
		castType = createIntersectionCastTypeReference(bounds);
	} else {
		castType = getTypeReference(this.intStack[this.intPtr--]);
	}
	this.expressionStack[this.expressionPtr] = cast = new CastExpression(exp = this.expressionStack[this.expressionPtr], castType);
	castType.sourceEnd = end - 1;
	castType.sourceStart = (cast.sourceStart = this.intStack[this.intPtr--]) + 1;
	cast.sourceEnd = exp.sourceEnd;
}
protected void consumeCastExpressionWithPrimitiveType() {
	// CastExpression ::= PushLPAREN PrimitiveType Dimsopt AdditionalBoundsListOpt PushRPAREN InsideCastExpression UnaryExpression

	//this.intStack : posOfLeftParen dim posOfRightParen

	TypeReference[] bounds = null;
	int additionalBoundsLength = this.genericsLengthStack[this.genericsLengthPtr--];
	if (additionalBoundsLength > 0) {
		bounds = new TypeReference[additionalBoundsLength + 1];
		this.genericsPtr -= additionalBoundsLength;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, bounds, 1, additionalBoundsLength);
	}
	
	//optimize the push/pop
	Expression exp;
	Expression cast;
	TypeReference castType;
	int end = this.intStack[this.intPtr--];
	if (additionalBoundsLength > 0) {
		bounds[0] = getTypeReference(this.intStack[this.intPtr--]);
		castType = createIntersectionCastTypeReference(bounds); 
	} else {
		castType = getTypeReference(this.intStack[this.intPtr--]);
	}
	this.expressionStack[this.expressionPtr] = cast = new CastExpression(exp = this.expressionStack[this.expressionPtr], castType);
	castType.sourceEnd = end - 1;
	castType.sourceStart = (cast.sourceStart = this.intStack[this.intPtr--]) + 1;
	cast.sourceEnd = exp.sourceEnd;
}
protected void consumeCastExpressionWithQualifiedGenericsArray() {
	// CastExpression ::= PushLPAREN Name OnlyTypeArguments '.' ClassOrInterfaceType Dimsopt AdditionalBoundsOpt PushRPAREN InsideCastExpression UnaryExpressionNotPlusMinus

	TypeReference[] bounds = null;
	int additionalBoundsLength = this.genericsLengthStack[this.genericsLengthPtr--];
	if (additionalBoundsLength > 0) {
		bounds = new TypeReference[additionalBoundsLength + 1];
		this.genericsPtr -= additionalBoundsLength;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, bounds, 1, additionalBoundsLength);
	}

	Expression exp;
	Expression cast;
	TypeReference castType;
	int end = this.intStack[this.intPtr--];
	int dim = this.intStack[this.intPtr--];
	Annotation [][] annotationsOnDimensions = dim == 0 ? null : getAnnotationsOnDimensions(dim);
	TypeReference rightSide = getTypeReference(0);
    castType = computeQualifiedGenericsFromRightSide(rightSide, dim, annotationsOnDimensions);

    if (additionalBoundsLength > 0) {
		bounds[0] = castType;
		castType = createIntersectionCastTypeReference(bounds); 
	}
    
    this.intPtr--;
	this.expressionStack[this.expressionPtr] = cast = new CastExpression(exp = this.expressionStack[this.expressionPtr], castType);
	castType.sourceEnd = end - 1;
	castType.sourceStart = (cast.sourceStart = this.intStack[this.intPtr--]) + 1;
	cast.sourceEnd = exp.sourceEnd;
}
protected void consumeCatches() {
	// Catches ::= Catches CatchClause
	optimizedConcatNodeLists();
}
protected void consumeCatchFormalParameter() {
	// CatchFormalParameter ::= Modifiersopt CatchType VariableDeclaratorId
	this.identifierLengthPtr--;
	char[] identifierName = this.identifierStack[this.identifierPtr];
	long namePositions = this.identifierPositionStack[this.identifierPtr--];
	int extendedDimensions = this.intStack[this.intPtr--]; // https://bugs.eclipse.org/bugs/show_bug.cgi?id=348369
	TypeReference type = (TypeReference) this.astStack[this.astPtr--];
	if (extendedDimensions > 0) {
		type = augmentTypeWithAdditionalDimensions(type, extendedDimensions, null, false);
		type.sourceEnd = this.endPosition;
		// https://bugs.eclipse.org/bugs/show_bug.cgi?id=391092
		if (type instanceof UnionTypeReference) {
			this.problemReporter().illegalArrayOfUnionType(identifierName, type);		
		}
	}
	this.astLengthPtr--;
	int modifierPositions = this.intStack[this.intPtr--];
	this.intPtr--;
	Argument arg =
		new Argument(
			identifierName,
			namePositions,
			type,
			this.intStack[this.intPtr + 1] & ~ClassFileConstants.AccDeprecated); // modifiers
	arg.bits &= ~ASTNode.IsArgument;
	arg.declarationSourceStart = modifierPositions;
	// consume annotations
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			arg.annotations = new Annotation[length],
			0,
			length);
	}
	pushOnAstStack(arg);
	/* if incomplete method header, this.listLength counter will not have been reset,
		indicating that some arguments are available on the stack */
	this.listLength++;
}
protected void consumeCatchHeader() {
	// CatchDeclaration ::= 'catch' '(' FormalParameter ')' '{'

	if (this.currentElement == null){
		return; // should never occur, this consumeRule is only used in recovery mode
	}
	// current element should be a block due to the presence of the opening brace
	if (!(this.currentElement instanceof RecoveredBlock)){
		if(!(this.currentElement instanceof RecoveredMethod)) {
			return;
		}
		RecoveredMethod rMethod = (RecoveredMethod) this.currentElement;
		if(!(rMethod.methodBody == null && rMethod.bracketBalance > 0)) {
			return;
		}
	}

	Argument arg = (Argument)this.astStack[this.astPtr--];
	// convert argument to local variable
	LocalDeclaration localDeclaration = new LocalDeclaration(arg.name, arg.sourceStart, arg.sourceEnd);
	localDeclaration.type = arg.type;
	localDeclaration.declarationSourceStart = arg.declarationSourceStart;
	localDeclaration.declarationSourceEnd = arg.declarationSourceEnd;

	this.currentElement = this.currentElement.add(localDeclaration, 0);
	this.lastCheckPoint = this.scanner.startPosition; // force to restart at this exact position
	this.restartRecovery = true; // request to restart from here on
	this.lastIgnoredToken = -1;
}
protected void consumeCatchType() {
	// CatchType ::= UnionType
	int length = this.astLengthStack[this.astLengthPtr--];
	if (length != 1) {
		TypeReference[] typeReferences;
		System.arraycopy(
				this.astStack,
				(this.astPtr -= length) + 1,
				(typeReferences = new TypeReference[length]),
				0,
				length);
		UnionTypeReference typeReference = new UnionTypeReference(typeReferences);
		pushOnAstStack(typeReference);
		if (this.options.sourceLevel < ClassFileConstants.JDK1_7) {
			problemReporter().multiCatchNotBelow17(typeReference);
		}
	} else {
		// push back the type reference
		pushOnAstLengthStack(1);
	}
}
protected void consumeClassBodyDeclaration() {
	// ClassBodyDeclaration ::= Diet NestedMethod CreateInitializer Block
	//push an Initializer
	//optimize the push/pop
	this.nestedMethod[this.nestedType]--;
	Block block = (Block) this.astStack[this.astPtr--];
	this.astLengthPtr--;
	if (this.diet) block.bits &= ~ASTNode.UndocumentedEmptyBlock; // clear bit since was diet
	Initializer initializer = (Initializer) this.astStack[this.astPtr];
	initializer.declarationSourceStart = initializer.sourceStart = block.sourceStart;
	initializer.block = block;
	this.intPtr--; // pop sourcestart left on the stack by consumeNestedMethod.
	initializer.bodyStart = this.intStack[this.intPtr--];
	this.realBlockPtr--; // pop the block variable counter left on the stack by consumeNestedMethod
	int javadocCommentStart = this.intStack[this.intPtr--];
	if (javadocCommentStart != -1) {
		initializer.declarationSourceStart = javadocCommentStart;
		initializer.javadoc = this.javadoc;
		this.javadoc = null;
	}
	initializer.bodyEnd = this.endPosition;
	initializer.sourceEnd = this.endStatementPosition;
	initializer.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
}
protected void consumeClassBodyDeclarations() {
	// ClassBodyDeclarations ::= ClassBodyDeclarations ClassBodyDeclaration
	concatNodeLists();
}
protected void consumeClassBodyDeclarationsopt() {
	// ClassBodyDeclarationsopt ::= NestedType ClassBodyDeclarations
	this.nestedType-- ;
}
protected void consumeClassBodyopt() {
	// ClassBodyopt ::= $empty
	pushOnAstStack(null);
	this.endPosition = this.rParenPos;
}
protected void consumeClassDeclaration() {
	// ClassDeclaration ::= ClassHeader ClassBody

	int length;
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		//there are length declarations
		//dispatch according to the type of the declarations
		dispatchDeclarationInto(length);
	}

	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];

	//convert constructor that do not have the type's name into methods
	boolean hasConstructor = typeDecl.checkConstructors(this);

	//add the default constructor when needed (interface don't have it)
	if (!hasConstructor) {
		switch(TypeDeclaration.kind(typeDecl.modifiers)) {
			case TypeDeclaration.CLASS_DECL :
			case TypeDeclaration.ENUM_DECL :
				boolean insideFieldInitializer = false;
				if (this.diet) {
					for (int i = this.nestedType; i > 0; i--){
						if (this.variablesCounter[i] > 0) {
							insideFieldInitializer = true;
							break;
						}
					}
				}
				typeDecl.createDefaultConstructor(!this.diet || insideFieldInitializer, true);
		}
	}
	//always add  (will be remove at code gen time if empty)
	if (this.scanner.containsAssertKeyword) {
		typeDecl.bits |= ASTNode.ContainsAssertion;
	}
	typeDecl.addClinit();
	typeDecl.bodyEnd = this.endStatementPosition;
	if (length == 0 && !containsComment(typeDecl.bodyStart, typeDecl.bodyEnd)) {
		typeDecl.bits |= ASTNode.UndocumentedEmptyBlock;
	}

	typeDecl.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
}
protected void consumeClassHeader() {
	// ClassHeader ::= ClassHeaderName ClassHeaderExtendsopt ClassHeaderImplementsopt

	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	if (this.currentToken == TokenNameLBRACE) {
		typeDecl.bodyStart = this.scanner.currentPosition;
	}
	if (this.currentElement != null) {
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
	// flush the comments related to the class header
	this.scanner.commentPtr = -1;
}
protected void consumeClassHeaderExtends() {
	// ClassHeaderExtends ::= 'extends' ClassType
	//superclass
	TypeReference superClass = getTypeReference(0);
	// There is a class declaration on the top of stack
	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	typeDecl.bits |= (superClass.bits & ASTNode.HasTypeAnnotations);
	typeDecl.superclass = superClass;
	superClass.bits |= ASTNode.IsSuperType;
	typeDecl.bodyStart = typeDecl.superclass.sourceEnd + 1;
	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = typeDecl.bodyStart;
	}
}
protected void consumeClassHeaderImplements() {
	// ClassHeaderImplements ::= 'implements' InterfaceTypeList
	int length = this.astLengthStack[this.astLengthPtr--];
	//super interfaces
	this.astPtr -= length;
	// There is a class declaration on the top of stack
	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	System.arraycopy(
		this.astStack,
		this.astPtr + 1,
		typeDecl.superInterfaces = new TypeReference[length],
		0,
		length);
	TypeReference[] superinterfaces = typeDecl.superInterfaces;
	for (int i = 0, max = superinterfaces.length; i < max; i++) {
		TypeReference typeReference = superinterfaces[i];
		typeDecl.bits |= (typeReference.bits & ASTNode.HasTypeAnnotations);
		typeReference.bits |= ASTNode.IsSuperType;
	}
	typeDecl.bodyStart = typeDecl.superInterfaces[length-1].sourceEnd + 1;
	this.listLength = 0; // reset after having read super-interfaces
	// recovery
	if (this.currentElement != null) { // is recovering
		this.lastCheckPoint = typeDecl.bodyStart;
	}
}
protected void consumeClassHeaderName1() {
	// ClassHeaderName1 ::= Modifiersopt 'class' 'Identifier'
	TypeDeclaration typeDecl = new TypeDeclaration(this.compilationUnit.compilationResult);
	if (this.nestedMethod[this.nestedType] == 0) {
		if (this.nestedType != 0) {
			typeDecl.bits |= ASTNode.IsMemberType;
		}
	} else {
		// Record that the block has a declaration for local types
		typeDecl.bits |= ASTNode.IsLocalType;
		markEnclosingMemberWithLocalType();
		blockReal();
	}

	//highlight the name of the type
	long pos = this.identifierPositionStack[this.identifierPtr];
	typeDecl.sourceEnd = (int) pos;
	typeDecl.sourceStart = (int) (pos >>> 32);
	typeDecl.name = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	//compute the declaration source too
	// 'class' and 'interface' push two int positions: the beginning of the class token and its end.
	// we want to keep the beginning position but get rid of the end position
	// it is only used for the ClassLiteralAccess positions.
	typeDecl.declarationSourceStart = this.intStack[this.intPtr--];
	this.intPtr--; // remove the end position of the class token

	typeDecl.modifiersSourceStart = this.intStack[this.intPtr--];
	typeDecl.modifiers = this.intStack[this.intPtr--];
	if (typeDecl.modifiersSourceStart >= 0) {
		typeDecl.declarationSourceStart = typeDecl.modifiersSourceStart;
	}

	// Store secondary info
	if ((typeDecl.bits & ASTNode.IsMemberType) == 0 && (typeDecl.bits & ASTNode.IsLocalType) == 0) {
		if (this.compilationUnit != null && !CharOperation.equals(typeDecl.name, this.compilationUnit.getMainTypeName())) {
			typeDecl.bits |= ASTNode.IsSecondaryType;
		}
	}

	// consume annotations
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			typeDecl.annotations = new Annotation[length],
			0,
			length);
	}
	typeDecl.bodyStart = typeDecl.sourceEnd + 1;
	pushOnAstStack(typeDecl);

	this.listLength = 0; // will be updated when reading super-interfaces
	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = typeDecl.bodyStart;
		this.currentElement = this.currentElement.add(typeDecl, 0);
		this.lastIgnoredToken = -1;
	}
	// javadoc
	typeDecl.javadoc = this.javadoc;
	this.javadoc = null;
}
protected void consumeClassInstanceCreationExpression() {
	// ClassInstanceCreationExpression ::= 'new' ClassType '(' ArgumentListopt ')' ClassBodyopt
	classInstanceCreation(false);
	consumeInvocationExpression();
}
protected void consumeClassInstanceCreationExpressionName() {
	// ClassInstanceCreationExpressionName ::= Name '.'
	pushOnExpressionStack(getUnspecifiedReferenceOptimized());
}
protected void consumeClassInstanceCreationExpressionQualified() {
	// ClassInstanceCreationExpression ::= Primary '.' 'new' SimpleName '(' ArgumentListopt ')' ClassBodyopt
	// ClassInstanceCreationExpression ::= ClassInstanceCreationExpressionName 'new' SimpleName '(' ArgumentListopt ')' ClassBodyopt
	classInstanceCreation(true);

	QualifiedAllocationExpression qae =
		(QualifiedAllocationExpression) this.expressionStack[this.expressionPtr];
	
	if (qae.anonymousType == null) {
		this.expressionLengthPtr--;
		this.expressionPtr--;
		qae.enclosingInstance = this.expressionStack[this.expressionPtr];
		this.expressionStack[this.expressionPtr] = qae;
	}
	qae.sourceStart = qae.enclosingInstance.sourceStart;
	consumeInvocationExpression();
}
protected void consumeClassInstanceCreationExpressionQualifiedWithTypeArguments() {
	// ClassInstanceCreationExpression ::= Primary '.' 'new' TypeArguments SimpleName '(' ArgumentListopt ')' ClassBodyopt
	// ClassInstanceCreationExpression ::= ClassInstanceCreationExpressionName 'new' TypeArguments SimpleName '(' ArgumentListopt ')' ClassBodyopt

	QualifiedAllocationExpression alloc;
	int length;
	if (((length = this.astLengthStack[this.astLengthPtr--]) == 1) && (this.astStack[this.astPtr] == null)) {
		//NO ClassBody
		this.astPtr--;
		alloc = new QualifiedAllocationExpression();
		alloc.sourceEnd = this.endPosition; //the position has been stored explicitly

		if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
			this.expressionPtr -= length;
			System.arraycopy(
				this.expressionStack,
				this.expressionPtr + 1,
				alloc.arguments = new Expression[length],
				0,
				length);
		}
		alloc.type = getTypeReference(0);
		checkForDiamond(alloc.type);
		length = this.genericsLengthStack[this.genericsLengthPtr--];
		this.genericsPtr -= length;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, alloc.typeArguments = new TypeReference[length], 0, length);
		this.intPtr--;

		//the default constructor with the correct number of argument
		//will be created and added by the TC (see createsInternalConstructorWithBinding)
		alloc.sourceStart = this.intStack[this.intPtr--];
		pushOnExpressionStack(alloc);
	} else {
		dispatchDeclarationInto(length);
		TypeDeclaration anonymousTypeDeclaration = (TypeDeclaration)this.astStack[this.astPtr];
		anonymousTypeDeclaration.declarationSourceEnd = this.endStatementPosition;
		anonymousTypeDeclaration.bodyEnd = this.endStatementPosition;
		if (length == 0 && !containsComment(anonymousTypeDeclaration.bodyStart, anonymousTypeDeclaration.bodyEnd)) {
			anonymousTypeDeclaration.bits |= ASTNode.UndocumentedEmptyBlock;
		}
		this.astPtr--;
		this.astLengthPtr--;

		QualifiedAllocationExpression allocationExpression = anonymousTypeDeclaration.allocation;
		if (allocationExpression != null) {
			allocationExpression.sourceEnd = this.endStatementPosition;
			// handle type arguments
			length = this.genericsLengthStack[this.genericsLengthPtr--];
			this.genericsPtr -= length;
			System.arraycopy(this.genericsStack, this.genericsPtr + 1, allocationExpression.typeArguments = new TypeReference[length], 0, length);
			allocationExpression.sourceStart = this.intStack[this.intPtr--];
			checkForDiamond(allocationExpression.type);
		}
	}
	
	QualifiedAllocationExpression qae =
		(QualifiedAllocationExpression) this.expressionStack[this.expressionPtr];
	
	if (qae.anonymousType == null) {
		this.expressionLengthPtr--;
		this.expressionPtr--;
		qae.enclosingInstance = this.expressionStack[this.expressionPtr];
		this.expressionStack[this.expressionPtr] = qae;
	}
	qae.sourceStart = qae.enclosingInstance.sourceStart;
	consumeInvocationExpression();
}
protected void consumeClassInstanceCreationExpressionWithTypeArguments() {
	// ClassInstanceCreationExpression ::= 'new' TypeArguments ClassType '(' ArgumentListopt ')' ClassBodyopt
	AllocationExpression alloc;
	int length;
	if (((length = this.astLengthStack[this.astLengthPtr--]) == 1)
		&& (this.astStack[this.astPtr] == null)) {
		//NO ClassBody
		this.astPtr--;
		alloc = new AllocationExpression();
		alloc.sourceEnd = this.endPosition; //the position has been stored explicitly

		if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
			this.expressionPtr -= length;
			System.arraycopy(
				this.expressionStack,
				this.expressionPtr + 1,
				alloc.arguments = new Expression[length],
				0,
				length);
		}
		alloc.type = getTypeReference(0);
		checkForDiamond(alloc.type);

		length = this.genericsLengthStack[this.genericsLengthPtr--];
		this.genericsPtr -= length;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, alloc.typeArguments = new TypeReference[length], 0, length);
		this.intPtr--;

		//the default constructor with the correct number of argument
		//will be created and added by the TC (see createsInternalConstructorWithBinding)
		alloc.sourceStart = this.intStack[this.intPtr--];
		pushOnExpressionStack(alloc);
	} else {
		dispatchDeclarationInto(length);
		TypeDeclaration anonymousTypeDeclaration = (TypeDeclaration)this.astStack[this.astPtr];
		anonymousTypeDeclaration.declarationSourceEnd = this.endStatementPosition;
		anonymousTypeDeclaration.bodyEnd = this.endStatementPosition;
		if (length == 0 && !containsComment(anonymousTypeDeclaration.bodyStart, anonymousTypeDeclaration.bodyEnd)) {
			anonymousTypeDeclaration.bits |= ASTNode.UndocumentedEmptyBlock;
		}
		this.astPtr--;
		this.astLengthPtr--;

		QualifiedAllocationExpression allocationExpression = anonymousTypeDeclaration.allocation;
		if (allocationExpression != null) {
			allocationExpression.sourceEnd = this.endStatementPosition;
			// handle type arguments
			length = this.genericsLengthStack[this.genericsLengthPtr--];
			this.genericsPtr -= length;
			System.arraycopy(this.genericsStack, this.genericsPtr + 1, allocationExpression.typeArguments = new TypeReference[length], 0, length);
			allocationExpression.sourceStart = this.intStack[this.intPtr--];
			checkForDiamond(allocationExpression.type);
		}
	}
	consumeInvocationExpression();
}
protected void consumeClassOrInterface() {
	this.genericsIdentifiersLengthStack[this.genericsIdentifiersLengthPtr] += this.identifierLengthStack[this.identifierLengthPtr];
	pushOnGenericsLengthStack(0); // handle type arguments
}
protected void consumeClassOrInterfaceName() {
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	pushOnGenericsLengthStack(0); // handle type arguments
}
protected void consumeClassTypeElt() {
	// ClassTypeElt ::= ClassType
	pushOnAstStack(getTypeReference(0));
	/* if incomplete thrown exception list, this.listLength counter will not have been reset,
		indicating that some items are available on the stack */
	this.listLength++;
}
protected void consumeClassTypeList() {
	// ClassTypeList ::= ClassTypeList ',' ClassTypeElt
	optimizedConcatNodeLists();
}
protected void consumeCompilationUnit() {
	// CompilationUnit ::= EnterCompilationUnit InternalCompilationUnit
	// do nothing by default
}
protected void consumeConditionalExpression(int op) {
	// ConditionalExpression ::= ConditionalOrExpression '?' Expression ':' ConditionalExpression
	//optimize the push/pop
	this.intPtr -= 2;//consume position of the question mark
	this.expressionPtr -= 2;
	this.expressionLengthPtr -= 2;
	this.expressionStack[this.expressionPtr] =
		new ConditionalExpression(
			this.expressionStack[this.expressionPtr],
			this.expressionStack[this.expressionPtr + 1],
			this.expressionStack[this.expressionPtr + 2]);
}
/**
 * @param op
 */
protected void consumeConditionalExpressionWithName(int op) {
	// ConditionalExpression ::= Name '?' Expression ':' ConditionalExpression
	this.intPtr -= 2;//consume position of the question mark
	pushOnExpressionStack(getUnspecifiedReferenceOptimized());
	this.expressionPtr -= 2;
	this.expressionLengthPtr -= 2;
	this.expressionStack[this.expressionPtr] =
		new ConditionalExpression(
			this.expressionStack[this.expressionPtr + 2],
			this.expressionStack[this.expressionPtr],
			this.expressionStack[this.expressionPtr + 1]);
}
protected void consumeConstructorBlockStatements() {
	// ConstructorBody ::= NestedMethod '{' ExplicitConstructorInvocation BlockStatements '}'
	concatNodeLists(); // explictly add the first statement into the list of statements
}
protected void consumeConstructorBody() {
	// ConstructorBody ::= NestedMethod  '{' BlockStatementsopt '}'
	// ConstructorBody ::= NestedMethod  '{' ExplicitConstructorInvocation '}'
	this.nestedMethod[this.nestedType] --;
}
protected void consumeConstructorDeclaration() {
	// ConstructorDeclaration ::= ConstructorHeader ConstructorBody

	/*
	this.astStack : MethodDeclaration statements
	this.identifierStack : name
	 ==>
	this.astStack : MethodDeclaration
	this.identifierStack :
	*/

	//must provide a default constructor call when needed

	int length;

	// pop the position of the {  (body of the method) pushed in block decl
	this.intPtr--;
	this.intPtr--;

	//statements
	this.realBlockPtr--;
	ExplicitConstructorCall constructorCall = null;
	Statement[] statements = null;
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		this.astPtr -= length;
		if (!this.options.ignoreMethodBodies) {
			if (this.astStack[this.astPtr + 1] instanceof ExplicitConstructorCall) {
				//avoid a isSomeThing that would only be used here BUT what is faster between two alternatives ?
				System.arraycopy(
					this.astStack,
					this.astPtr + 2,
					statements = new Statement[length - 1],
					0,
					length - 1);
				constructorCall = (ExplicitConstructorCall) this.astStack[this.astPtr + 1];
			} else { //need to add explicitly the super();
				System.arraycopy(
					this.astStack,
					this.astPtr + 1,
					statements = new Statement[length],
					0,
					length);
				constructorCall = SuperReference.implicitSuperConstructorCall();
			}
		}
	} else {
		boolean insideFieldInitializer = false;
		if (this.diet) {
			for (int i = this.nestedType; i > 0; i--){
				if (this.variablesCounter[i] > 0) {
					insideFieldInitializer = true;
					break;
				}
			}
		}

		if (!this.options.ignoreMethodBodies) {
			if (!this.diet || insideFieldInitializer){
				// add it only in non-diet mode, if diet_bodies, then constructor call will be added elsewhere.
				constructorCall = SuperReference.implicitSuperConstructorCall();
			}
		}
	}

	// now we know that the top of stack is a constructorDeclaration
	ConstructorDeclaration cd = (ConstructorDeclaration) this.astStack[this.astPtr];
	cd.constructorCall = constructorCall;
	cd.statements = statements;

	//highlight of the implicit call on the method name
	if (constructorCall != null && cd.constructorCall.sourceEnd == 0) {
		cd.constructorCall.sourceEnd = cd.sourceEnd;
		cd.constructorCall.sourceStart = cd.sourceStart;
	}

	if (!(this.diet && this.dietInt == 0)
			&& statements == null
			&& (constructorCall == null || constructorCall.isImplicitSuper())
			&& !containsComment(cd.bodyStart, this.endPosition)) {
		cd.bits |= ASTNode.UndocumentedEmptyBlock;
	}

	//watch for } that could be given as a unicode ! ( u007D is '}' )
	// store the this.endPosition (position just before the '}') in case there is
	// a trailing comment behind the end of the method
	cd.bodyEnd = this.endPosition;
	cd.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
}
protected void consumeConstructorHeader() {
	// ConstructorHeader ::= ConstructorHeaderName MethodHeaderParameters MethodHeaderThrowsClauseopt

	AbstractMethodDeclaration method = (AbstractMethodDeclaration)this.astStack[this.astPtr];

	if (this.currentToken == TokenNameLBRACE){
		method.bodyStart = this.scanner.currentPosition;
	}
	// recovery
	if (this.currentElement != null){
		if (this.currentToken == TokenNameSEMICOLON){ // for invalid constructors
			method.modifiers |= ExtraCompilerModifiers.AccSemicolonBody;
			method.declarationSourceEnd = this.scanner.currentPosition-1;
			method.bodyEnd = this.scanner.currentPosition-1;
			if (this.currentElement.parseTree() == method && this.currentElement.parent != null) {
				this.currentElement = this.currentElement.parent;
			}
		}
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
}
protected void consumeConstructorHeaderName() {

	/* recovering - might be an empty message send */
	if (this.currentElement != null){
		if (this.lastIgnoredToken == TokenNamenew){ // was an allocation expression
			this.lastCheckPoint = this.scanner.startPosition; // force to restart at this exact position
			this.restartRecovery = true;
			return;
		}
	}

	// ConstructorHeaderName ::=  Modifiersopt 'Identifier' '('
	ConstructorDeclaration cd = new ConstructorDeclaration(this.compilationUnit.compilationResult);

	//name -- this is not really revelant but we do .....
	cd.selector = this.identifierStack[this.identifierPtr];
	long selectorSource = this.identifierPositionStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	//modifiers
	cd.declarationSourceStart = this.intStack[this.intPtr--];
	cd.modifiers = this.intStack[this.intPtr--];
	// consume annotations
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			cd.annotations = new Annotation[length],
			0,
			length);
	}
	// javadoc
	cd.javadoc = this.javadoc;
	this.javadoc = null;

	//highlight starts at the selector starts
	cd.sourceStart = (int) (selectorSource >>> 32);
	pushOnAstStack(cd);
	cd.sourceEnd = this.lParenPos;
	cd.bodyStart = this.lParenPos+1;
	this.listLength = 0; // initialize this.listLength before reading parameters/throws

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = cd.bodyStart;
		if ((this.currentElement instanceof RecoveredType && this.lastIgnoredToken != TokenNameDOT)
			|| cd.modifiers != 0){
			this.currentElement = this.currentElement.add(cd, 0);
			this.lastIgnoredToken = -1;
		}
	}
}
protected void consumeConstructorHeaderNameWithTypeParameters() {

	/* recovering - might be an empty message send */
	if (this.currentElement != null){
		if (this.lastIgnoredToken == TokenNamenew){ // was an allocation expression
			this.lastCheckPoint = this.scanner.startPosition; // force to restart at this exact position
			this.restartRecovery = true;
			return;
		}
	}

	// ConstructorHeaderName ::=  Modifiersopt TypeParameters 'Identifier' '('
	ConstructorDeclaration cd = new ConstructorDeclaration(this.compilationUnit.compilationResult);

	//name -- this is not really revelant but we do .....
	cd.selector = this.identifierStack[this.identifierPtr];
	long selectorSource = this.identifierPositionStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	// consume type parameters
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, cd.typeParameters = new TypeParameter[length], 0, length);

	//modifiers
	cd.declarationSourceStart = this.intStack[this.intPtr--];
	cd.modifiers = this.intStack[this.intPtr--];
	// consume annotations
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			cd.annotations = new Annotation[length],
			0,
			length);
	}
	// javadoc
	cd.javadoc = this.javadoc;
	this.javadoc = null;

	//highlight starts at the selector starts
	cd.sourceStart = (int) (selectorSource >>> 32);
	pushOnAstStack(cd);
	cd.sourceEnd = this.lParenPos;
	cd.bodyStart = this.lParenPos+1;
	this.listLength = 0; // initialize this.listLength before reading parameters/throws

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = cd.bodyStart;
		if ((this.currentElement instanceof RecoveredType && this.lastIgnoredToken != TokenNameDOT)
			|| cd.modifiers != 0){
			this.currentElement = this.currentElement.add(cd, 0);
			this.lastIgnoredToken = -1;
		}
	}
}
protected void consumeCreateInitializer() {
	pushOnAstStack(new Initializer(null, 0));
}
protected void consumeDefaultLabel() {
	// SwitchLabel ::= 'default' ':'
	CaseStatement defaultStatement = new CaseStatement(null, this.intStack[this.intPtr--], this.intStack[this.intPtr--]);
	// Look for $fall-through$ and $CASES-OMITTED$ tags in leading comment for case statement
	if (hasLeadingTagComment(FALL_THROUGH_TAG, defaultStatement.sourceStart)) {
		defaultStatement.bits |= ASTNode.DocumentedFallthrough;
	}
	if (hasLeadingTagComment(CASES_OMITTED_TAG, defaultStatement.sourceStart)) {
		defaultStatement.bits |= ASTNode.DocumentedCasesOmitted;
	}
	pushOnAstStack(defaultStatement);
}
protected void consumeDefaultModifiers() {
	checkComment(); // might update modifiers with AccDeprecated
	pushOnIntStack(this.modifiers); // modifiers
	pushOnIntStack(
		this.modifiersSourceStart >= 0 ? this.modifiersSourceStart : this.scanner.startPosition);
	resetModifiers();
	pushOnExpressionStackLengthStack(0); // no annotation
}
protected void consumeDiet() {
	// Diet ::= $empty
	checkComment();
	pushOnIntStack(this.modifiersSourceStart); // push the start position of a javadoc comment if there is one
	resetModifiers();
	jumpOverMethodBody();
}
protected void consumeDims() {
	// Dims ::= DimsLoop
	pushOnIntStack(this.dimensions);
	this.dimensions = 0;
}
protected void consumeDimWithOrWithOutExpr() {
	// DimWithOrWithOutExpr ::= TypeAnnotationsopt '[' ']'
	// DimWithOrWithOutExpr ::= TypeAnnotationsopt '[' Expression ']'
	pushOnExpressionStack(null);

	if(this.currentElement != null && this.currentToken == TokenNameLBRACE) {
		this.ignoreNextOpeningBrace = true;
		this.currentElement.bracketBalance++;
	}
}
protected void consumeDimWithOrWithOutExprs() {
	// DimWithOrWithOutExprs ::= DimWithOrWithOutExprs DimWithOrWithOutExpr
	concatExpressionLists();
}
protected void consumeUnionType() {
	// UnionType ::= UnionType '|' Type
	pushOnAstStack(getTypeReference(this.intStack[this.intPtr--]));
	optimizedConcatNodeLists();
}
protected void consumeUnionTypeAsClassType() {
	// UnionType ::= Type
	pushOnAstStack(getTypeReference(this.intStack[this.intPtr--]));
}
protected void consumeEmptyAnnotationTypeMemberDeclarationsopt() {
	// AnnotationTypeMemberDeclarationsopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeEmptyArgumentListopt() {
	// ArgumentListopt ::= $empty
	pushOnExpressionStackLengthStack(0);
}
protected void consumeEmptyArguments() {
	// Argumentsopt ::= $empty
	final FieldDeclaration fieldDeclaration = (FieldDeclaration) this.astStack[this.astPtr];
	pushOnIntStack(fieldDeclaration.sourceEnd);
	pushOnExpressionStackLengthStack(0);
}
protected void consumeEmptyArrayInitializer() {
	// ArrayInitializer ::= '{' ,opt '}'
	arrayInitializer(0);
}
protected void consumeEmptyArrayInitializeropt() {
	// ArrayInitializeropt ::= $empty
	pushOnExpressionStackLengthStack(0);
}
protected void consumeEmptyBlockStatementsopt() {
	// BlockStatementsopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeEmptyCatchesopt() {
	// Catchesopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeEmptyClassBodyDeclarationsopt() {
	// ClassBodyDeclarationsopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeEmptyDimsopt() {
	// Dimsopt ::= $empty
	pushOnIntStack(0);
}
protected void consumeEmptyEnumDeclarations() {
	// EnumBodyDeclarationsopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeEmptyExpression() {
	// Expressionopt ::= $empty
	pushOnExpressionStackLengthStack(0);
}
protected void consumeEmptyForInitopt() {
	// ForInitopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeEmptyForUpdateopt() {
	// ForUpdateopt ::= $empty
	pushOnExpressionStackLengthStack(0);
}
protected void consumeEmptyInterfaceMemberDeclarationsopt() {
	// InterfaceMemberDeclarationsopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeEmptyInternalCompilationUnit() {
	// InternalCompilationUnit ::= $empty
	// nothing to do by default
	if (this.compilationUnit.isPackageInfo()) {
		this.compilationUnit.types = new TypeDeclaration[1];
		this.compilationUnit.createPackageInfoType();
	}
}
protected void consumeEmptyMemberValueArrayInitializer() {
	// MemberValueArrayInitializer ::= '{' ',' '}'
	// MemberValueArrayInitializer ::= '{' '}'
	arrayInitializer(0);
}
protected void consumeEmptyMemberValuePairsopt() {
	// MemberValuePairsopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeEmptyMethodHeaderDefaultValue() {
	// DefaultValueopt ::= $empty
	AbstractMethodDeclaration method = (AbstractMethodDeclaration)this.astStack[this.astPtr];
	if(method.isAnnotationMethod()) { //'method' can be a MethodDeclaration when recovery is started
		pushOnExpressionStackLengthStack(0);
	}
	this.recordStringLiterals = true;
}
protected void consumeEmptyStatement() {
	// EmptyStatement ::= ';'
	char[] source = this.scanner.source;
	if (source[this.endStatementPosition] == ';') {
		pushOnAstStack(new EmptyStatement(this.endStatementPosition, this.endStatementPosition));
	} else {
		if(source.length > 5) {
			int c1 = 0, c2 = 0, c3 = 0, c4 = 0;
			int pos = this.endStatementPosition - 4;
			while (source[pos] == 'u') {
				pos--;
			}
			if (source[pos] == '\\' &&
					!((c1 = ScannerHelper.getHexadecimalValue(source[this.endStatementPosition - 3])) > 15
						|| c1 < 0
						|| (c2 = ScannerHelper.getHexadecimalValue(source[this.endStatementPosition - 2])) > 15
						|| c2 < 0
						|| (c3 = ScannerHelper.getHexadecimalValue(source[this.endStatementPosition - 1])) > 15
						|| c3 < 0
						|| (c4 = ScannerHelper.getHexadecimalValue(source[this.endStatementPosition])) > 15
						|| c4 < 0) &&
					((char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4)) == ';'){
				// we have a Unicode for the ';' (/u003B)
				pushOnAstStack(new EmptyStatement(pos, this.endStatementPosition));
				return;
			}
		}
		pushOnAstStack(new EmptyStatement(this.endPosition + 1, this.endStatementPosition));
	}
}
protected void consumeEmptySwitchBlock() {
	// SwitchBlock ::= '{' '}'
	pushOnAstLengthStack(0);
}
protected void consumeEmptyTypeDeclaration() {
	// ClassMemberDeclaration ::= ';'
	// InterfaceMemberDeclaration ::= ';'
	// TypeDeclaration ::= ';'
	pushOnAstLengthStack(0);
	if(!this.statementRecoveryActivated) problemReporter().superfluousSemicolon(this.endPosition+1, this.endStatementPosition);
	flushCommentsDefinedPriorTo(this.endStatementPosition);
}
protected void consumeEnhancedForStatement() {
	// EnhancedForStatement ::= EnhancedForStatementHeader Statement
	// EnhancedForStatementNoShortIf ::= EnhancedForStatementHeader StatementNoShortIf

	//statements
	this.astLengthPtr--;
	Statement statement = (Statement) this.astStack[this.astPtr--];

	// foreach statement is on the ast stack
	ForeachStatement foreachStatement = (ForeachStatement) this.astStack[this.astPtr];
	foreachStatement.action = statement;
	// remember useful empty statement
	if (statement instanceof EmptyStatement) statement.bits |= ASTNode.IsUsefulEmptyStatement;

	foreachStatement.sourceEnd = this.endStatementPosition;
}
protected void consumeEnhancedForStatementHeader(){
	// EnhancedForStatementHeader ::= EnhancedForStatementHeaderInit ':' Expression ')'
	final ForeachStatement statement = (ForeachStatement) this.astStack[this.astPtr];
	//updates are on the expression stack
	this.expressionLengthPtr--;
	final Expression collection = this.expressionStack[this.expressionPtr--];
	statement.collection = collection;
	// https://bugs.eclipse.org/393719 - [compiler] inconsistent warnings on iteration variables
	// let declaration(Source)End include the collection to achieve that @SuppressWarnings affects this part, too:
	statement.elementVariable.declarationSourceEnd = collection.sourceEnd;
	statement.elementVariable.declarationEnd = collection.sourceEnd;
	statement.sourceEnd = this.rParenPos;

	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		problemReporter().invalidUsageOfForeachStatements(statement.elementVariable, collection);
	}
}
protected void consumeEnhancedForStatementHeaderInit(boolean hasModifiers) {
	TypeReference type;

	char[] identifierName = this.identifierStack[this.identifierPtr];
	long namePosition = this.identifierPositionStack[this.identifierPtr];

	LocalDeclaration localDeclaration = createLocalDeclaration(identifierName, (int) (namePosition >>> 32), (int) namePosition);
	localDeclaration.declarationSourceEnd = localDeclaration.declarationEnd;
	localDeclaration.bits |= ASTNode.IsForeachElementVariable;

	int extraDims = this.intStack[this.intPtr--];
	Annotation [][] annotationsOnExtendedDimensions = extraDims == 0 ? null : getAnnotationsOnDimensions(extraDims);
	this.identifierPtr--;
	this.identifierLengthPtr--;
	// remove fake modifiers/modifiers start
	int declarationSourceStart = 0;
	int modifiersValue  = 0;
	if (hasModifiers) {
		declarationSourceStart = this.intStack[this.intPtr--];
		modifiersValue = this.intStack[this.intPtr--];
	} else {
		this.intPtr-=2;
	}

	type = getTypeReference(this.intStack[this.intPtr--]); // type dimension

	// consume annotations
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--])!= 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			localDeclaration.annotations = new Annotation[length],
			0,
			length);
		localDeclaration.bits |= ASTNode.HasTypeAnnotations;
	}
	if (extraDims != 0) {
		type = augmentTypeWithAdditionalDimensions(type, extraDims, annotationsOnExtendedDimensions, false);
	}
	if (hasModifiers) {
		localDeclaration.declarationSourceStart = declarationSourceStart;
		localDeclaration.modifiers = modifiersValue;
	} else {
		localDeclaration.declarationSourceStart = type.sourceStart;
	}
	localDeclaration.type = type;
	localDeclaration.bits |= (type.bits & ASTNode.HasTypeAnnotations);

	ForeachStatement iteratorForStatement =
		new ForeachStatement(
			localDeclaration,
			this.intStack[this.intPtr--]);
	pushOnAstStack(iteratorForStatement);

	iteratorForStatement.sourceEnd = localDeclaration.declarationSourceEnd;
}
protected void consumeEnterAnonymousClassBody(boolean qualified) {
	// EnterAnonymousClassBody ::= $empty
	TypeReference typeReference = getTypeReference(0);

	TypeDeclaration anonymousType = new TypeDeclaration(this.compilationUnit.compilationResult);
	anonymousType.name = CharOperation.NO_CHAR;
	anonymousType.bits |= (ASTNode.IsAnonymousType|ASTNode.IsLocalType);
	anonymousType.bits |= (typeReference.bits & ASTNode.HasTypeAnnotations);
	QualifiedAllocationExpression alloc = new QualifiedAllocationExpression(anonymousType);
	markEnclosingMemberWithLocalType();
	pushOnAstStack(anonymousType);

	alloc.sourceEnd = this.rParenPos; //the position has been stored explicitly
	int argumentLength;
	if ((argumentLength = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		this.expressionPtr -= argumentLength;
		System.arraycopy(
			this.expressionStack,
			this.expressionPtr + 1,
			alloc.arguments = new Expression[argumentLength],
			0,
			argumentLength);
	}
	
	if (qualified) {
		this.expressionLengthPtr--;
		alloc.enclosingInstance = this.expressionStack[this.expressionPtr--];
	}
	
	alloc.type = typeReference;

	anonymousType.sourceEnd = alloc.sourceEnd;
	//position at the type while it impacts the anonymous declaration
	anonymousType.sourceStart = anonymousType.declarationSourceStart = alloc.type.sourceStart;
	alloc.sourceStart = this.intStack[this.intPtr--];
	pushOnExpressionStack(alloc);

	anonymousType.bodyStart = this.scanner.currentPosition;
	this.listLength = 0; // will be updated when reading super-interfaces

	// flush the comments related to the anonymous
	this.scanner.commentPtr = -1;

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = anonymousType.bodyStart;
		this.currentElement = this.currentElement.add(anonymousType, 0);
		if (!(this.currentElement instanceof RecoveredAnnotation)) {
			if (!isIndirectlyInsideLambdaExpression())
				this.currentToken = 0; // opening brace already taken into account
		} else {
			this.ignoreNextOpeningBrace = true;
			this.currentElement.bracketBalance++;
		}
		this.lastIgnoredToken = -1;
	}
}
protected void consumeEnterCompilationUnit() {
	// EnterCompilationUnit ::= $empty
	// do nothing by default
}
protected void consumeEnterMemberValue() {
	// EnterMemberValue ::= $empty
	if (this.currentElement != null && this.currentElement instanceof RecoveredAnnotation) {
		RecoveredAnnotation recoveredAnnotation = (RecoveredAnnotation)this.currentElement;
		recoveredAnnotation.hasPendingMemberValueName = true;
	}
}
protected void consumeEnterMemberValueArrayInitializer() {
	// EnterMemberValueArrayInitializer ::= $empty
	if(this.currentElement != null) {
		this.ignoreNextOpeningBrace = true;
		this.currentElement.bracketBalance++;
	}
}
protected void consumeEnterVariable() {
	// EnterVariable ::= $empty
	// do nothing by default

	char[] identifierName = this.identifierStack[this.identifierPtr];
	long namePosition = this.identifierPositionStack[this.identifierPtr];
	int extendedDimensions = this.intStack[this.intPtr--];
	// pop any annotations on extended dimensions now, so they don't pollute the base dimensions.
	Annotation [][] annotationsOnExtendedDimensions = extendedDimensions == 0 ? null : getAnnotationsOnDimensions(extendedDimensions);
	AbstractVariableDeclaration declaration;
	// create the ast node
	boolean isLocalDeclaration = this.nestedMethod[this.nestedType] != 0;
	if (isLocalDeclaration) {
		// create the local variable declarations
		declaration =
			createLocalDeclaration(identifierName, (int) (namePosition >>> 32), (int) namePosition);
	} else {
		// create the field declaration
		declaration =
			createFieldDeclaration(identifierName, (int) (namePosition >>> 32), (int) namePosition);
	}

	this.identifierPtr--;
	this.identifierLengthPtr--;
	TypeReference type;
	int variableIndex = this.variablesCounter[this.nestedType];
	if (variableIndex == 0) {
		// first variable of the declaration (FieldDeclaration or LocalDeclaration)
		if (isLocalDeclaration) {
			declaration.declarationSourceStart = this.intStack[this.intPtr--];
			declaration.modifiers = this.intStack[this.intPtr--];
			// consume annotations
			int length;
			if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
				System.arraycopy(
					this.expressionStack,
					(this.expressionPtr -= length) + 1,
					declaration.annotations = new Annotation[length],
					0,
					length);
			}
			type = getTypeReference(this.intStack[this.intPtr--]); // type dimension
			if (declaration.declarationSourceStart == -1) {
				// this is true if there is no modifiers for the local variable declaration
				declaration.declarationSourceStart = type.sourceStart;
			}
			pushOnAstStack(type);
		} else {
			type = getTypeReference(this.intStack[this.intPtr--]); // type dimension
			pushOnAstStack(type);
			declaration.declarationSourceStart = this.intStack[this.intPtr--];
			declaration.modifiers = this.intStack[this.intPtr--];
			// consume annotations
			int length;
			if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
				System.arraycopy(
					this.expressionStack,
					(this.expressionPtr -= length) + 1,
					declaration.annotations = new Annotation[length],
					0,
					length);
			}
			// Store javadoc only on first declaration as it is the same for all ones
			FieldDeclaration fieldDeclaration = (FieldDeclaration) declaration;
			fieldDeclaration.javadoc = this.javadoc;
		}
		this.javadoc = null;
	} else {
		type = (TypeReference) this.astStack[this.astPtr - variableIndex];
		AbstractVariableDeclaration previousVariable =
			(AbstractVariableDeclaration) this.astStack[this.astPtr];
		declaration.declarationSourceStart = previousVariable.declarationSourceStart;
		declaration.modifiers = previousVariable.modifiers;
		final Annotation[] annotations = previousVariable.annotations;
		if (annotations != null) {
			final int annotationsLength = annotations.length;
			System.arraycopy(annotations, 0, declaration.annotations = new Annotation[annotationsLength], 0, annotationsLength);
		}
	}

	declaration.type = extendedDimensions == 0 ? type : augmentTypeWithAdditionalDimensions(type, extendedDimensions, annotationsOnExtendedDimensions, false);
	declaration.bits |= (type.bits & ASTNode.HasTypeAnnotations);
	
	this.variablesCounter[this.nestedType]++;
	pushOnAstStack(declaration);
	// recovery
	if (this.currentElement != null) {
		if (!(this.currentElement instanceof RecoveredType)
			&& (this.currentToken == TokenNameDOT
				//|| declaration.modifiers != 0
				|| (Util.getLineNumber(declaration.type.sourceStart, this.scanner.lineEnds, 0, this.scanner.linePtr)
						!= Util.getLineNumber((int) (namePosition >>> 32), this.scanner.lineEnds, 0, this.scanner.linePtr)))){
			this.lastCheckPoint = (int) (namePosition >>> 32);
			this.restartRecovery = true;
			return;
		}
		if (isLocalDeclaration){
			LocalDeclaration localDecl = (LocalDeclaration) this.astStack[this.astPtr];
			this.lastCheckPoint = localDecl.sourceEnd + 1;
			this.currentElement = this.currentElement.add(localDecl, 0);
		} else {
			FieldDeclaration fieldDecl = (FieldDeclaration) this.astStack[this.astPtr];
			this.lastCheckPoint = fieldDecl.sourceEnd + 1;
			this.currentElement = this.currentElement.add(fieldDecl, 0);
		}
		this.lastIgnoredToken = -1;
	}
}
protected void consumeEnumBodyNoConstants() {
	// nothing to do
	// The 0 on the astLengthStack has been pushed by EnumBodyDeclarationsopt
}
protected void consumeEnumBodyWithConstants() {
	// merge the constants values with the class body
	concatNodeLists();
}
protected void consumeEnumConstantHeader() {
   FieldDeclaration enumConstant = (FieldDeclaration) this.astStack[this.astPtr];
   boolean foundOpeningBrace = this.currentToken == TokenNameLBRACE;
   if (foundOpeningBrace){
      // qualified allocation expression
      TypeDeclaration anonymousType = new TypeDeclaration(this.compilationUnit.compilationResult);
      anonymousType.name = CharOperation.NO_CHAR;
      anonymousType.bits |= (ASTNode.IsAnonymousType|ASTNode.IsLocalType);
      final int start = this.scanner.startPosition;
      anonymousType.declarationSourceStart = start;
      anonymousType.sourceStart = start;
      anonymousType.sourceEnd = start; // closing parenthesis
      anonymousType.modifiers = 0;
      anonymousType.bodyStart = this.scanner.currentPosition;
      markEnclosingMemberWithLocalType();
      consumeNestedType();
      this.variablesCounter[this.nestedType]++;
      pushOnAstStack(anonymousType);
      QualifiedAllocationExpression allocationExpression = new QualifiedAllocationExpression(anonymousType);
      allocationExpression.enumConstant = enumConstant;

      // fill arguments if needed
      int length;
      if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
         this.expressionPtr -= length;
         System.arraycopy(
               this.expressionStack,
               this.expressionPtr + 1,
               allocationExpression.arguments = new Expression[length],
               0,
               length);
      }
      enumConstant.initialization = allocationExpression;
   } else {
      AllocationExpression allocationExpression = new AllocationExpression();
      allocationExpression.enumConstant = enumConstant;
      // fill arguments if needed
      int length;
      if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
         this.expressionPtr -= length;
         System.arraycopy(
               this.expressionStack,
               this.expressionPtr + 1,
               allocationExpression.arguments = new Expression[length],
               0,
               length);
      }
      enumConstant.initialization = allocationExpression;
   }
   // initialize the starting position of the allocation expression
   enumConstant.initialization.sourceStart = enumConstant.declarationSourceStart;

   // recovery
   if (this.currentElement != null) {
	  if(foundOpeningBrace) {
	  	TypeDeclaration anonymousType = (TypeDeclaration) this.astStack[this.astPtr];
	  	this.currentElement = this.currentElement.add(anonymousType, 0);
      	this.lastCheckPoint = anonymousType.bodyStart;
        this.lastIgnoredToken = -1;
        if (!isIndirectlyInsideLambdaExpression())
        	this.currentToken = 0; // opening brace already taken into account
	  } else {
	  	  if(this.currentToken == TokenNameSEMICOLON) {
		  	RecoveredType currentType = currentRecoveryType();
			if(currentType != null) {
				currentType.insideEnumConstantPart = false;
			}
		  }
		  this.lastCheckPoint = this.scanner.startPosition; // force to restart at this exact position
	      this.lastIgnoredToken = -1;
	      this.restartRecovery = true;
	  }
   }
}
protected void consumeEnumConstantHeaderName() {
	if (this.currentElement != null) {
		if (!(this.currentElement instanceof RecoveredType
					|| (this.currentElement instanceof RecoveredField && ((RecoveredField)this.currentElement).fieldDeclaration.type == null))
				|| (this.lastIgnoredToken == TokenNameDOT)) {
			this.lastCheckPoint = this.scanner.startPosition;
			this.restartRecovery = true;
			return;
		}
	}
   long namePosition = this.identifierPositionStack[this.identifierPtr];
   char[] constantName = this.identifierStack[this.identifierPtr];
   final int sourceEnd = (int) namePosition;
   FieldDeclaration enumConstant = createFieldDeclaration(constantName, (int) (namePosition >>> 32), sourceEnd);
   this.identifierPtr--;
   this.identifierLengthPtr--;
   enumConstant.modifiersSourceStart = this.intStack[this.intPtr--];
   enumConstant.modifiers = this.intStack[this.intPtr--];
   enumConstant.declarationSourceStart = enumConstant.modifiersSourceStart;

	// consume annotations
   int length;
   if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
      System.arraycopy(
         this.expressionStack,
         (this.expressionPtr -= length) + 1,
         enumConstant.annotations = new Annotation[length],
         0,
         length);
		enumConstant.bits |= ASTNode.HasTypeAnnotations;
   }
   pushOnAstStack(enumConstant);
	if (this.currentElement != null){
		this.lastCheckPoint = enumConstant.sourceEnd + 1;
		this.currentElement = this.currentElement.add(enumConstant, 0);
	}
	// javadoc
	enumConstant.javadoc = this.javadoc;
	this.javadoc = null;
}
protected void consumeEnumConstantNoClassBody() {
	// set declarationEnd and declarationSourceEnd
	int endOfEnumConstant = this.intStack[this.intPtr--];
	final FieldDeclaration fieldDeclaration = (FieldDeclaration) this.astStack[this.astPtr];
	fieldDeclaration.declarationEnd = endOfEnumConstant;
	fieldDeclaration.declarationSourceEnd = endOfEnumConstant;
	// initialize the starting position of the allocation expression
	ASTNode initialization = fieldDeclaration.initialization;
	if (initialization != null) {
		initialization.sourceEnd = endOfEnumConstant;
	}
}
protected void consumeEnumConstants() {
	concatNodeLists();
}
protected void consumeEnumConstantWithClassBody() {
	dispatchDeclarationInto(this.astLengthStack[this.astLengthPtr--]);
	TypeDeclaration anonymousType = (TypeDeclaration) this.astStack[this.astPtr--]; // pop type
	this.astLengthPtr--;
	anonymousType.bodyEnd = this.endPosition;
	anonymousType.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
	final FieldDeclaration fieldDeclaration = ((FieldDeclaration) this.astStack[this.astPtr]);
	fieldDeclaration.declarationEnd = this.endStatementPosition;
	int declarationSourceEnd = anonymousType.declarationSourceEnd;
	fieldDeclaration.declarationSourceEnd = declarationSourceEnd;
	this.intPtr --; // remove end position of the arguments
	this.variablesCounter[this.nestedType] = 0;
	this.nestedType--;
	ASTNode initialization = fieldDeclaration.initialization;
	if (initialization != null) {
		initialization.sourceEnd = declarationSourceEnd;
	}
}
protected void consumeEnumDeclaration() {
	// EnumDeclaration ::= EnumHeader ClassHeaderImplementsopt EnumBody
	int length;
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		//there are length declarations
		//dispatch according to the type of the declarations
		dispatchDeclarationIntoEnumDeclaration(length);
	}

	TypeDeclaration enumDeclaration = (TypeDeclaration) this.astStack[this.astPtr];

	//convert constructor that do not have the type's name into methods
	boolean hasConstructor = enumDeclaration.checkConstructors(this);

	//add the default constructor when needed
	if (!hasConstructor) {
		boolean insideFieldInitializer = false;
		if (this.diet) {
			for (int i = this.nestedType; i > 0; i--){
				if (this.variablesCounter[i] > 0) {
					insideFieldInitializer = true;
					break;
				}
			}
		}
		enumDeclaration.createDefaultConstructor(!this.diet || insideFieldInitializer, true);
	}

	//always add  (will be remove at code gen time if empty)
	if (this.scanner.containsAssertKeyword) {
		enumDeclaration.bits |= ASTNode.ContainsAssertion;
	}
	enumDeclaration.addClinit();
	enumDeclaration.bodyEnd = this.endStatementPosition;
	if (length == 0 && !containsComment(enumDeclaration.bodyStart, enumDeclaration.bodyEnd)) {
		enumDeclaration.bits |= ASTNode.UndocumentedEmptyBlock;
	}

	enumDeclaration.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
}
protected void consumeEnumDeclarations() {
	// Do nothing by default
}
protected void consumeEnumHeader() {
	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	if (this.currentToken == TokenNameLBRACE) {
		typeDecl.bodyStart = this.scanner.currentPosition;
	}

	if (this.currentElement != null) {
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}

	// flush the comments related to the enum header
	this.scanner.commentPtr = -1;
}
protected void consumeEnumHeaderName() {
	// EnumHeaderName ::= Modifiersopt 'enum' Identifier
	TypeDeclaration enumDeclaration = new TypeDeclaration(this.compilationUnit.compilationResult);
	if (this.nestedMethod[this.nestedType] == 0) {
		if (this.nestedType != 0) {
			enumDeclaration.bits |= ASTNode.IsMemberType;
		}
	} else {
		// Record that the block has a declaration for local types
//		markEnclosingMemberWithLocalType();
		blockReal();
	}
	//highlight the name of the type
	long pos = this.identifierPositionStack[this.identifierPtr];
	enumDeclaration.sourceEnd = (int) pos;
	enumDeclaration.sourceStart = (int) (pos >>> 32);
	enumDeclaration.name = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	//compute the declaration source too
	// 'class' and 'interface' push two int positions: the beginning of the class token and its end.
	// we want to keep the beginning position but get rid of the end position
	// it is only used for the ClassLiteralAccess positions.
	enumDeclaration.declarationSourceStart = this.intStack[this.intPtr--];
	this.intPtr--; // remove the end position of the class token

	enumDeclaration.modifiersSourceStart = this.intStack[this.intPtr--];
	enumDeclaration.modifiers = this.intStack[this.intPtr--] | ClassFileConstants.AccEnum;
	if (enumDeclaration.modifiersSourceStart >= 0) {
		enumDeclaration.declarationSourceStart = enumDeclaration.modifiersSourceStart;
	}

	// Store secondary info
	if ((enumDeclaration.bits & ASTNode.IsMemberType) == 0 && (enumDeclaration.bits & ASTNode.IsLocalType) == 0) {
		if (this.compilationUnit != null && !CharOperation.equals(enumDeclaration.name, this.compilationUnit.getMainTypeName())) {
			enumDeclaration.bits |= ASTNode.IsSecondaryType;
		}
	}

	// consume annotations
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			enumDeclaration.annotations = new Annotation[length],
			0,
			length);
	}
//	if (this.currentToken == TokenNameLBRACE) {
//		enumDeclaration.bodyStart = this.scanner.currentPosition;
//	}
	enumDeclaration.bodyStart = enumDeclaration.sourceEnd + 1;
	pushOnAstStack(enumDeclaration);

	this.listLength = 0; // will be updated when reading super-interfaces

	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		//TODO this code will be never run while 'enum' is an identifier in 1.3 scanner
		problemReporter().invalidUsageOfEnumDeclarations(enumDeclaration);
	}

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = enumDeclaration.bodyStart;
		this.currentElement = this.currentElement.add(enumDeclaration, 0);
		this.lastIgnoredToken = -1;
	}
	// javadoc
	enumDeclaration.javadoc = this.javadoc;
	this.javadoc = null;
}
protected void consumeEnumHeaderNameWithTypeParameters() {
	// EnumHeaderNameWithTypeParameters ::= Modifiersopt 'enum' Identifier TypeParameters
	TypeDeclaration enumDeclaration = new TypeDeclaration(this.compilationUnit.compilationResult);
	// consume type parameters
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, enumDeclaration.typeParameters = new TypeParameter[length], 0, length);

	problemReporter().invalidUsageOfTypeParametersForEnumDeclaration(enumDeclaration);

	enumDeclaration.bodyStart = enumDeclaration.typeParameters[length-1].declarationSourceEnd + 1;

//	enumDeclaration.typeParameters = null;

	this.listTypeParameterLength = 0;

	if (this.nestedMethod[this.nestedType] == 0) {
		if (this.nestedType != 0) {
			enumDeclaration.bits |= ASTNode.IsMemberType;
		}
	} else {
		// Record that the block has a declaration for local types
//		markEnclosingMemberWithLocalType();
		blockReal();
	}
	//highlight the name of the type
	long pos = this.identifierPositionStack[this.identifierPtr];
	enumDeclaration.sourceEnd = (int) pos;
	enumDeclaration.sourceStart = (int) (pos >>> 32);
	enumDeclaration.name = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	//compute the declaration source too
	// 'class' and 'interface' push two int positions: the beginning of the class token and its end.
	// we want to keep the beginning position but get rid of the end position
	// it is only used for the ClassLiteralAccess positions.
	enumDeclaration.declarationSourceStart = this.intStack[this.intPtr--];
	this.intPtr--; // remove the end position of the class token

	enumDeclaration.modifiersSourceStart = this.intStack[this.intPtr--];
	enumDeclaration.modifiers = this.intStack[this.intPtr--] | ClassFileConstants.AccEnum;
	if (enumDeclaration.modifiersSourceStart >= 0) {
		enumDeclaration.declarationSourceStart = enumDeclaration.modifiersSourceStart;
	}

	// Store secondary info
	if ((enumDeclaration.bits & ASTNode.IsMemberType) == 0 && (enumDeclaration.bits & ASTNode.IsLocalType) == 0) {
		if (this.compilationUnit != null && !CharOperation.equals(enumDeclaration.name, this.compilationUnit.getMainTypeName())) {
			enumDeclaration.bits |= ASTNode.IsSecondaryType;
		}
	}

	// consume annotations
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			enumDeclaration.annotations = new Annotation[length],
			0,
			length);
	}
//	if (this.currentToken == TokenNameLBRACE) {
//		enumDeclaration.bodyStart = this.scanner.currentPosition;
//	}
	enumDeclaration.bodyStart = enumDeclaration.sourceEnd + 1;
	pushOnAstStack(enumDeclaration);

	this.listLength = 0; // will be updated when reading super-interfaces

	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		//TODO this code will be never run while 'enum' is an identifier in 1.3 scanner
		problemReporter().invalidUsageOfEnumDeclarations(enumDeclaration);
	}

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = enumDeclaration.bodyStart;
		this.currentElement = this.currentElement.add(enumDeclaration, 0);
		this.lastIgnoredToken = -1;
	}
	// javadoc
	enumDeclaration.javadoc = this.javadoc;
	this.javadoc = null;
}
protected void consumeEqualityExpression(int op) {
	// EqualityExpression ::= EqualityExpression '==' RelationalExpression
	// EqualityExpression ::= EqualityExpression '!=' RelationalExpression

	//optimize the push/pop

	this.expressionPtr--;
	this.expressionLengthPtr--;
	this.expressionStack[this.expressionPtr] =
		new EqualExpression(
			this.expressionStack[this.expressionPtr],
			this.expressionStack[this.expressionPtr + 1],
			op);
}
/*
 * @param op
 */
protected void consumeEqualityExpressionWithName(int op) {
	// EqualityExpression ::= Name '==' RelationalExpression
	// EqualityExpression ::= Name '!=' RelationalExpression
	pushOnExpressionStack(getUnspecifiedReferenceOptimized());
	this.expressionPtr--;
	this.expressionLengthPtr--;
	this.expressionStack[this.expressionPtr] =
		new EqualExpression(
			this.expressionStack[this.expressionPtr + 1],
			this.expressionStack[this.expressionPtr],
			op);
}
protected void consumeExitMemberValue() {
	// ExitMemberValue ::= $empty
	if (this.currentElement != null && this.currentElement instanceof RecoveredAnnotation) {
		RecoveredAnnotation recoveredAnnotation = (RecoveredAnnotation)this.currentElement;
		recoveredAnnotation.hasPendingMemberValueName = false;
		recoveredAnnotation.memberValuPairEqualEnd = -1;
	}
}
protected void consumeExitTryBlock() {
	//ExitTryBlock ::= $empty
	if(this.currentElement != null) {
		this.restartRecovery = true;
	}
}
protected void consumeExitVariableWithInitialization() {
	// ExitVariableWithInitialization ::= $empty
	// do nothing by default
	this.expressionLengthPtr--;
	AbstractVariableDeclaration variableDecl = (AbstractVariableDeclaration) this.astStack[this.astPtr];
	variableDecl.initialization = this.expressionStack[this.expressionPtr--];
	// we need to update the declarationSourceEnd of the local variable declaration to the
	// source end position of the initialization expression
	variableDecl.declarationSourceEnd = variableDecl.initialization.sourceEnd;
	variableDecl.declarationEnd = variableDecl.initialization.sourceEnd;

	recoveryExitFromVariable();
}
protected void consumeExitVariableWithoutInitialization() {
	// ExitVariableWithoutInitialization ::= $empty
	// do nothing by default

	AbstractVariableDeclaration variableDecl = (AbstractVariableDeclaration) this.astStack[this.astPtr];
	variableDecl.declarationSourceEnd = variableDecl.declarationEnd;
	if(this.currentElement != null && this.currentElement instanceof RecoveredField) {
		if(this.endStatementPosition > variableDecl.sourceEnd) {
			this.currentElement.updateSourceEndIfNecessary(this.endStatementPosition);
		}
	}
	recoveryExitFromVariable();
}
protected void consumeExplicitConstructorInvocation(int flag, int recFlag) {

	/* flag allows to distinguish 3 cases :
	(0) :
	ExplicitConstructorInvocation ::= 'this' '(' ArgumentListopt ')' ';'
	ExplicitConstructorInvocation ::= 'super' '(' ArgumentListopt ')' ';'
	(1) :
	ExplicitConstructorInvocation ::= Primary '.' 'super' '(' ArgumentListopt ')' ';'
	ExplicitConstructorInvocation ::= Primary '.' 'this' '(' ArgumentListopt ')' ';'
	(2) :
	ExplicitConstructorInvocation ::= Name '.' 'super' '(' ArgumentListopt ')' ';'
	ExplicitConstructorInvocation ::= Name '.' 'this' '(' ArgumentListopt ')' ';'
	*/
	int startPosition = this.intStack[this.intPtr--];
	ExplicitConstructorCall ecc = new ExplicitConstructorCall(recFlag);
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		this.expressionPtr -= length;
		System.arraycopy(this.expressionStack, this.expressionPtr + 1, ecc.arguments = new Expression[length], 0, length);
	}
	switch (flag) {
		case 0 :
			ecc.sourceStart = startPosition;
			break;
		case 1 :
			this.expressionLengthPtr--;
			ecc.sourceStart = (ecc.qualification = this.expressionStack[this.expressionPtr--]).sourceStart;
			break;
		case 2 :
			ecc.sourceStart = (ecc.qualification = getUnspecifiedReferenceOptimized()).sourceStart;
			break;
	}
	pushOnAstStack(ecc);
	ecc.sourceEnd = this.endStatementPosition;
}
protected void consumeExplicitConstructorInvocationWithTypeArguments(int flag, int recFlag) {

	/* flag allows to distinguish 3 cases :
	(0) :
	ExplicitConstructorInvocation ::= TypeArguments 'this' '(' ArgumentListopt ')' ';'
	ExplicitConstructorInvocation ::= TypeArguments 'super' '(' ArgumentListopt ')' ';'
	(1) :
	ExplicitConstructorInvocation ::= Primary '.' TypeArguments 'super' '(' ArgumentListopt ')' ';'
	ExplicitConstructorInvocation ::= Primary '.' TypeArguments 'this' '(' ArgumentListopt ')' ';'
	(2) :
	ExplicitConstructorInvocation ::= Name '.' TypeArguments 'super' '(' ArgumentListopt ')' ';'
	ExplicitConstructorInvocation ::= Name '.' TypeArguments 'this' '(' ArgumentListopt ')' ';'
	*/
	int startPosition = this.intStack[this.intPtr--];
	ExplicitConstructorCall ecc = new ExplicitConstructorCall(recFlag);
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		this.expressionPtr -= length;
		System.arraycopy(this.expressionStack, this.expressionPtr + 1, ecc.arguments = new Expression[length], 0, length);
	}
	length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, ecc.typeArguments = new TypeReference[length], 0, length);
	ecc.typeArgumentsSourceStart = this.intStack[this.intPtr--];

	switch (flag) {
		case 0 :
			ecc.sourceStart = startPosition;
			break;
		case 1 :
			this.expressionLengthPtr--;
			ecc.sourceStart = (ecc.qualification = this.expressionStack[this.expressionPtr--]).sourceStart;
			break;
		case 2 :
			ecc.sourceStart = (ecc.qualification = getUnspecifiedReferenceOptimized()).sourceStart;
			break;
	}

	pushOnAstStack(ecc);
	ecc.sourceEnd = this.endStatementPosition;
}
protected void consumeExpressionStatement() {
	// ExpressionStatement ::= StatementExpression ';'
	this.expressionLengthPtr--;
	Expression expression = this.expressionStack[this.expressionPtr--];
	expression.statementEnd = this.endStatementPosition;
	expression.bits |= ASTNode.InsideExpressionStatement;
	pushOnAstStack(expression);
}
protected void consumeFieldAccess(boolean isSuperAccess) {
	// FieldAccess ::= Primary '.' 'Identifier'
	// FieldAccess ::= 'super' '.' 'Identifier'

	FieldReference fr =
		new FieldReference(
			this.identifierStack[this.identifierPtr],
			this.identifierPositionStack[this.identifierPtr--]);
	this.identifierLengthPtr--;
	if (isSuperAccess) {
		//considers the fieldReference beginning at the 'super' ....
		fr.sourceStart = this.intStack[this.intPtr--];
		fr.receiver = new SuperReference(fr.sourceStart, this.endPosition);
		pushOnExpressionStack(fr);
	} else {
		//optimize push/pop
		fr.receiver = this.expressionStack[this.expressionPtr];
		//field reference begins at the receiver
		fr.sourceStart = fr.receiver.sourceStart;
		this.expressionStack[this.expressionPtr] = fr;
	}
}
protected void consumeFieldDeclaration() {
	// See consumeLocalVariableDeclarationDefaultModifier() in case of change: duplicated code
	// FieldDeclaration ::= Modifiersopt Type VariableDeclarators ';'

	/*
	this.astStack :
	this.expressionStack: Expression Expression ...... Expression
	this.identifierStack : type  identifier identifier ...... identifier
	this.intStack : typeDim      dim        dim               dim
	 ==>
	this.astStack : FieldDeclaration FieldDeclaration ...... FieldDeclaration
	this.expressionStack :
	this.identifierStack :
	this.intStack :

	*/
	int variableDeclaratorsCounter = this.astLengthStack[this.astLengthPtr];

	for (int i = variableDeclaratorsCounter - 1; i >= 0; i--) {
		FieldDeclaration fieldDeclaration = (FieldDeclaration) this.astStack[this.astPtr - i];
		fieldDeclaration.declarationSourceEnd = this.endStatementPosition;
		fieldDeclaration.declarationEnd = this.endStatementPosition;	// semi-colon included
	}

	updateSourceDeclarationParts(variableDeclaratorsCounter);
	int endPos = flushCommentsDefinedPriorTo(this.endStatementPosition);
	if (endPos != this.endStatementPosition) {
		for (int i = 0; i < variableDeclaratorsCounter; i++) {
			FieldDeclaration fieldDeclaration = (FieldDeclaration) this.astStack[this.astPtr - i];
			fieldDeclaration.declarationSourceEnd = endPos;
		}
	}
	// update the this.astStack, this.astPtr and this.astLengthStack
	int startIndex = this.astPtr - this.variablesCounter[this.nestedType] + 1;
	System.arraycopy(
		this.astStack,
		startIndex,
		this.astStack,
		startIndex - 1,
		variableDeclaratorsCounter);
	this.astPtr--; // remove the type reference
	this.astLengthStack[--this.astLengthPtr] = variableDeclaratorsCounter;

	// recovery
	if (this.currentElement != null) {
		this.lastCheckPoint = endPos + 1;
		if (this.currentElement.parent != null && this.currentElement instanceof RecoveredField){
			if (!(this.currentElement instanceof RecoveredInitializer)) {
				this.currentElement = this.currentElement.parent;
			}
		}
		this.restartRecovery = true;
	}
	this.variablesCounter[this.nestedType] = 0;
}
protected void consumeForceNoDiet() {
	// ForceNoDiet ::= $empty
	this.dietInt++;
}
protected void consumeForInit() {
	// ForInit ::= StatementExpressionList
	pushOnAstLengthStack(-1);
}
protected void consumeFormalParameter(boolean isVarArgs) {
	// FormalParameter ::= Modifiersopt Type VariableDeclaratorIdOrThis
	// FormalParameter ::= Modifiersopt Type PushZeroTypeAnnotations '...' VariableDeclaratorIdOrThis
	// FormalParameter ::= Modifiersopt Type @308... TypeAnnotations '...' VariableDeclaratorIdOrThis
	/*
	this.astStack :
	this.identifierStack : type identifier
	this.intStack : dim dim 1||0  // 1 => normal parameter, 0 => this parameter
	 ==>
	this.astStack : Argument
	this.identifierStack :
	this.intStack :
	*/
	NameReference qualifyingNameReference = null;
    boolean isReceiver = this.intStack[this.intPtr--] == 0;  // flag pushed in consumeExplicitThisParameter -> 0, consumeVariableDeclaratorIdParameter -> 1
    if (isReceiver) {
    	qualifyingNameReference = (NameReference) this.expressionStack[this.expressionPtr--];
    	this.expressionLengthPtr --;
    }
	this.identifierLengthPtr--;
	char[] identifierName = this.identifierStack[this.identifierPtr];
	long namePositions = this.identifierPositionStack[this.identifierPtr--];
	int extendedDimensions = this.intStack[this.intPtr--];
	Annotation [][] annotationsOnExtendedDimensions = extendedDimensions == 0 ? null : getAnnotationsOnDimensions(extendedDimensions);
	Annotation [] varArgsAnnotations = null;
	int endOfEllipsis = 0;
	int length;
	if (isVarArgs) {
		endOfEllipsis = this.intStack[this.intPtr--];
		if ((length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--]) != 0) {
			System.arraycopy(
				this.typeAnnotationStack,
				(this.typeAnnotationPtr -= length) + 1,
				varArgsAnnotations = new Annotation[length],
				0,
				length);
		} 
	}
	int firstDimensions = this.intStack[this.intPtr--];
	TypeReference type = getTypeReference(firstDimensions);
	if (isVarArgs || extendedDimensions != 0) {
		if (isVarArgs) {
			type = augmentTypeWithAdditionalDimensions(type, 1, varArgsAnnotations != null ? new Annotation[][] { varArgsAnnotations } : null, true);	
		} 
		if (extendedDimensions != 0) {
			type = augmentTypeWithAdditionalDimensions(type, extendedDimensions, annotationsOnExtendedDimensions, false);
		}
		type.sourceEnd = type.isParameterizedTypeReference() ? this.endStatementPosition : this.endPosition;
	}
	if (isVarArgs) {
		if (extendedDimensions == 0) {
			type.sourceEnd = endOfEllipsis;
		}
		type.bits |= ASTNode.IsVarArgs; // set isVarArgs
	}
	int modifierPositions = this.intStack[this.intPtr--];
	Argument arg;
	if (isReceiver) {
		arg = new Receiver(
				identifierName, 
				namePositions, 
				type,
				qualifyingNameReference,
				this.intStack[this.intPtr--] & ~ClassFileConstants.AccDeprecated);
	} else {
		arg = new Argument(
			identifierName,
			namePositions,
			type,
			this.intStack[this.intPtr--] & ~ClassFileConstants.AccDeprecated); // modifiers
	}
	arg.declarationSourceStart = modifierPositions;
	arg.bits |= (type.bits & ASTNode.HasTypeAnnotations);
	// consume annotations
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			arg.annotations = new Annotation[length],
			0,
			length);
		arg.bits |= ASTNode.HasTypeAnnotations;
		RecoveredType currentRecoveryType = this.currentRecoveryType();
		if (currentRecoveryType != null)
			currentRecoveryType.annotationsConsumed(arg.annotations);
	}
	pushOnAstStack(arg);

	/* if incomplete method header, this.listLength counter will not have been reset,
		indicating that some arguments are available on the stack */
	this.listLength++;

	if(isVarArgs) {
		if (!this.statementRecoveryActivated &&
				this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
				this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
				problemReporter().invalidUsageOfVarargs(arg);
		} else if (!this.statementRecoveryActivated &&
				extendedDimensions > 0) {
			problemReporter().illegalExtendedDimensions(arg);
		}
	}
}
protected Annotation[][] getAnnotationsOnDimensions(int dimensionsCount) {
	Annotation [][] dimensionsAnnotations = null;
	if (dimensionsCount > 0) {
		for (int i = 0; i < dimensionsCount; i++) {
			Annotation [] annotations = null;
			int length;
			if ((length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--]) != 0) {
				System.arraycopy(
						this.typeAnnotationStack,
						(this.typeAnnotationPtr -= length) + 1,
						annotations = new Annotation[length],
						0,
						length);
				if (dimensionsAnnotations == null) {
					dimensionsAnnotations = new Annotation[dimensionsCount][];
				}
				dimensionsAnnotations[dimensionsCount - i - 1] = annotations;
			}
		}
	}
	return dimensionsAnnotations;
}
protected void consumeFormalParameterList() {
	// FormalParameterList ::= FormalParameterList ',' FormalParameter
	// TypeElidedFormalParameterList ::= TypeElidedFormalParameterList ',' TypeElidedFormalParameter
	optimizedConcatNodeLists();
}
protected void consumeFormalParameterListopt() {
	// FormalParameterListopt ::= $empty
	pushOnAstLengthStack(0);
}
protected void consumeGenericType() {
	// GenericType ::= ClassOrInterface TypeArguments
	// nothing to do
	// Will be consume by a getTypeReference call
}
protected void consumeGenericTypeArrayType() {
	// nothing to do
	// Will be consume by a getTypeReference call
}
protected void consumeGenericTypeNameArrayType() {
	// nothing to do
	// Will be consume by a getTypeReference call
}
protected void consumeGenericTypeWithDiamond() {
	// GenericType ::= ClassOrInterface '<' '>'
	// zero type arguments == <>
	pushOnGenericsLengthStack(-1);
	concatGenericsLists();
	this.intPtr--;	// pop the null dimension pushed in by consumeReferenceType, as we have no type between <>, getTypeReference won't kick in 
}
protected void consumeImportDeclaration() {
	// SingleTypeImportDeclaration ::= SingleTypeImportDeclarationName ';'
	ImportReference impt = (ImportReference) this.astStack[this.astPtr];
	// flush annotations defined prior to import statements
	impt.declarationEnd = this.endStatementPosition;
	impt.declarationSourceEnd =
		flushCommentsDefinedPriorTo(impt.declarationSourceEnd);

	// recovery
	if (this.currentElement != null) {
		this.lastCheckPoint = impt.declarationSourceEnd + 1;
		this.currentElement = this.currentElement.add(impt, 0);
		this.lastIgnoredToken = -1;
		this.restartRecovery = true;
		// used to avoid branching back into the regular automaton
	}
}
protected void consumeImportDeclarations() {
	// ImportDeclarations ::= ImportDeclarations ImportDeclaration
	optimizedConcatNodeLists();
}
protected void consumeInsideCastExpression() {
	// InsideCastExpression ::= $empty
}
protected void consumeInsideCastExpressionLL1() {
	// InsideCastExpressionLL1 ::= $empty
	pushOnGenericsLengthStack(0); // handle type arguments
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	pushOnExpressionStack(getTypeReference(0));
}
protected void consumeInsideCastExpressionLL1WithBounds() {
	// InsideCastExpressionLL1WithBounds ::= $empty
	int additionalBoundsLength = this.genericsLengthStack[this.genericsLengthPtr--];
	TypeReference[] bounds = new TypeReference[additionalBoundsLength + 1];
	this.genericsPtr -= additionalBoundsLength;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, bounds, 1, additionalBoundsLength);

	pushOnGenericsLengthStack(0); // handle type arguments
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	bounds[0] = getTypeReference(0);
 
	for (int i = 0; i <= additionalBoundsLength; i++) {
		pushOnExpressionStack(bounds[i]);
		if (i > 0)
			this.expressionLengthStack[--this.expressionLengthPtr]++;
	}
}
protected void consumeInsideCastExpressionWithQualifiedGenerics() {
	// InsideCastExpressionWithQualifiedGenerics ::= $empty
}
protected void consumeInstanceOfExpression() {
	// RelationalExpression ::= RelationalExpression 'instanceof' ReferenceType
	//optimize the push/pop

	//by construction, no base type may be used in getTypeReference
	Expression exp;
	this.expressionStack[this.expressionPtr] = exp =
		new InstanceOfExpression(
			this.expressionStack[this.expressionPtr],
			getTypeReference(this.intStack[this.intPtr--]));
	if (exp.sourceEnd == 0) {
		//array on base type....
		exp.sourceEnd = this.scanner.startPosition - 1;
	}
	//the scanner is on the next token already....
}
protected void consumeInstanceOfExpressionWithName() {
	// RelationalExpression_NotName ::= Name instanceof ReferenceType
	//optimize the push/pop

	//by construction, no base type may be used in getTypeReference
	TypeReference reference = getTypeReference(this.intStack[this.intPtr--]);
	pushOnExpressionStack(getUnspecifiedReferenceOptimized());
	Expression exp;
	this.expressionStack[this.expressionPtr] = exp =
		new InstanceOfExpression(
			this.expressionStack[this.expressionPtr],
			reference);
	if (exp.sourceEnd == 0) {
		//array on base type....
		exp.sourceEnd = this.scanner.startPosition - 1;
	}
	//the scanner is on the next token already....
}
protected void consumeInterfaceDeclaration() {
	// see consumeClassDeclaration in case of changes: duplicated code
	// InterfaceDeclaration ::= InterfaceHeader InterfaceBody
	int length;
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		//there are length declarations
		//dispatch.....according to the type of the declarations
		dispatchDeclarationInto(length);
	}

	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];

	//convert constructor that do not have the type's name into methods
	typeDecl.checkConstructors(this);
	
	// https://bugs.eclipse.org/bugs/show_bug.cgi?id=212713, 
	// reject initializers that have been tolerated by the grammar.
	FieldDeclaration [] fields = typeDecl.fields;
	int fieldCount = fields == null ? 0 : fields.length;
	for (int i = 0; i < fieldCount; i++) {
		FieldDeclaration field = fields[i];
		if (field instanceof Initializer) {
			problemReporter().interfaceCannotHaveInitializers(typeDecl.name, field);
		}
	}

	//always add  (will be remove at code gen time if empty)
	if (this.scanner.containsAssertKeyword) {
		typeDecl.bits |= ASTNode.ContainsAssertion;
	}
	typeDecl.addClinit();
	typeDecl.bodyEnd = this.endStatementPosition;
	if (length == 0 && !containsComment(typeDecl.bodyStart, typeDecl.bodyEnd)) {
		typeDecl.bits |= ASTNode.UndocumentedEmptyBlock;
	}
	typeDecl.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
}
protected void consumeInterfaceHeader() {
	// InterfaceHeader ::= InterfaceHeaderName InterfaceHeaderExtendsopt

	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	if (this.currentToken == TokenNameLBRACE){
		typeDecl.bodyStart = this.scanner.currentPosition;
	}
	if (this.currentElement != null){
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
	// flush the comments related to the interface header
	this.scanner.commentPtr = -1;
}
protected void consumeInterfaceHeaderExtends() {
	// InterfaceHeaderExtends ::= 'extends' InterfaceTypeList
	int length = this.astLengthStack[this.astLengthPtr--];
	//super interfaces
	this.astPtr -= length;
	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	System.arraycopy(
		this.astStack,
		this.astPtr + 1,
		typeDecl.superInterfaces = new TypeReference[length],
		0,
		length);
	TypeReference[] superinterfaces = typeDecl.superInterfaces;
	for (int i = 0, max = superinterfaces.length; i < max; i++) {
		TypeReference typeReference = superinterfaces[i];
		typeDecl.bits |= (typeReference.bits & ASTNode.HasTypeAnnotations);
		typeReference.bits |= ASTNode.IsSuperType;
	}
	typeDecl.bodyStart = typeDecl.superInterfaces[length-1].sourceEnd + 1;
	this.listLength = 0; // reset after having read super-interfaces
	// recovery
	if (this.currentElement != null) {
		this.lastCheckPoint = typeDecl.bodyStart;
	}
}
protected void consumeInterfaceHeaderName1() {
	// InterfaceHeaderName ::= Modifiersopt 'interface' 'Identifier'
	TypeDeclaration typeDecl = new TypeDeclaration(this.compilationUnit.compilationResult);

	if (this.nestedMethod[this.nestedType] == 0) {
		if (this.nestedType != 0) {
			typeDecl.bits |= ASTNode.IsMemberType;
		}
	} else {
		// Record that the block has a declaration for local types
		typeDecl.bits |= ASTNode.IsLocalType;
		markEnclosingMemberWithLocalType();
		blockReal();
	}

	//highlight the name of the type
	long pos = this.identifierPositionStack[this.identifierPtr];
	typeDecl.sourceEnd = (int) pos;
	typeDecl.sourceStart = (int) (pos >>> 32);
	typeDecl.name = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	//compute the declaration source too
	// 'class' and 'interface' push two int positions: the beginning of the class token and its end.
	// we want to keep the beginning position but get rid of the end position
	// it is only used for the ClassLiteralAccess positions.
	typeDecl.declarationSourceStart = this.intStack[this.intPtr--];
	this.intPtr--; // remove the end position of the class token
	typeDecl.modifiersSourceStart = this.intStack[this.intPtr--];
	typeDecl.modifiers = this.intStack[this.intPtr--] | ClassFileConstants.AccInterface;
	if (typeDecl.modifiersSourceStart >= 0) {
		typeDecl.declarationSourceStart = typeDecl.modifiersSourceStart;
	}

	// Store secondary info
	if ((typeDecl.bits & ASTNode.IsMemberType) == 0 && (typeDecl.bits & ASTNode.IsLocalType) == 0) {
		if (this.compilationUnit != null && !CharOperation.equals(typeDecl.name, this.compilationUnit.getMainTypeName())) {
			typeDecl.bits |= ASTNode.IsSecondaryType;
		}
	}

	// consume annotations
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			typeDecl.annotations = new Annotation[length],
			0,
			length);
	}
	typeDecl.bodyStart = typeDecl.sourceEnd + 1;
	pushOnAstStack(typeDecl);
	this.listLength = 0; // will be updated when reading super-interfaces
	// recovery
	if (this.currentElement != null){ // is recovering
		this.lastCheckPoint = typeDecl.bodyStart;
		this.currentElement = this.currentElement.add(typeDecl, 0);
		this.lastIgnoredToken = -1;
	}
	// javadoc
	typeDecl.javadoc = this.javadoc;
	this.javadoc = null;
}
protected void consumeInterfaceMemberDeclarations() {
	// InterfaceMemberDeclarations ::= InterfaceMemberDeclarations InterfaceMemberDeclaration
	concatNodeLists();
}
protected void consumeInterfaceMemberDeclarationsopt() {
	// InterfaceMemberDeclarationsopt ::= NestedType InterfaceMemberDeclarations
	this.nestedType--;
}
protected void consumeInterfaceType() {
	// InterfaceType ::= ClassOrInterfaceType
	pushOnAstStack(getTypeReference(0));
	/* if incomplete type header, this.listLength counter will not have been reset,
		indicating that some interfaces are available on the stack */
	this.listLength++;
}
protected void consumeInterfaceTypeList() {
	// InterfaceTypeList ::= InterfaceTypeList ',' InterfaceType
	optimizedConcatNodeLists();
}
protected void consumeInternalCompilationUnit() {
	// InternalCompilationUnit ::= PackageDeclaration
	// InternalCompilationUnit ::= PackageDeclaration ImportDeclarations ReduceImports
	// InternalCompilationUnit ::= ImportDeclarations ReduceImports
	if (this.compilationUnit.isPackageInfo()) {
		this.compilationUnit.types = new TypeDeclaration[1];
		this.compilationUnit.createPackageInfoType();
	}
}
protected void consumeInternalCompilationUnitWithTypes() {
	// InternalCompilationUnit ::= PackageDeclaration ImportDeclarations ReduceImports TypeDeclarations
	// InternalCompilationUnit ::= PackageDeclaration TypeDeclarations
	// InternalCompilationUnit ::= TypeDeclarations
	// InternalCompilationUnit ::= ImportDeclarations ReduceImports TypeDeclarations
	// consume type declarations
	int length;
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		if (this.compilationUnit.isPackageInfo()) {
			this.compilationUnit.types = new TypeDeclaration[length + 1];
			this.astPtr -= length;
			System.arraycopy(this.astStack, this.astPtr + 1, this.compilationUnit.types, 1, length);
			this.compilationUnit.createPackageInfoType();
		} else {
			this.compilationUnit.types = new TypeDeclaration[length];
			this.astPtr -= length;
			System.arraycopy(this.astStack, this.astPtr + 1, this.compilationUnit.types, 0, length);
		}
	}
}
protected void consumeInvalidAnnotationTypeDeclaration() {
	// BlockStatement ::= AnnotationTypeDeclaration
	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	if(!this.statementRecoveryActivated) problemReporter().illegalLocalTypeDeclaration(typeDecl);
	// remove the ast node created in interface header
	this.astPtr--;
	pushOnAstLengthStack(-1);
	concatNodeLists();
}
protected void consumeInvalidConstructorDeclaration() {
	// ConstructorDeclaration ::= ConstructorHeader ';'
	// now we know that the top of stack is a constructorDeclaration
	ConstructorDeclaration cd = (ConstructorDeclaration) this.astStack[this.astPtr];

	cd.bodyEnd = this.endPosition; // position just before the trailing semi-colon
	cd.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
	// report the problem and continue the parsing - narrowing the problem onto the method

	cd.modifiers |= ExtraCompilerModifiers.AccSemicolonBody; // remember semi-colon body
}
protected void consumeInvalidConstructorDeclaration(boolean hasBody) {
	// InvalidConstructorDeclaration ::= ConstructorHeader ConstructorBody ==> true
	// InvalidConstructorDeclaration ::= ConstructorHeader ';' ==> false

	/*
	this.astStack : modifiers arguments throws statements
	this.identifierStack : name
	 ==>
	this.astStack : MethodDeclaration
	this.identifierStack :
	*/
	if (hasBody) {
		// pop the position of the {  (body of the method) pushed in block decl
		this.intPtr--;
	}

	//statements
	if (hasBody) {
		this.realBlockPtr--;
	}

	int length;
	if (hasBody && ((length = this.astLengthStack[this.astLengthPtr--]) != 0)) {
		this.astPtr -= length;
	}
	ConstructorDeclaration constructorDeclaration = (ConstructorDeclaration) this.astStack[this.astPtr];
	constructorDeclaration.bodyEnd = this.endStatementPosition;
	constructorDeclaration.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
	if (!hasBody) {
		constructorDeclaration.modifiers |= ExtraCompilerModifiers.AccSemicolonBody;
	}
}
protected void consumeInvalidEnumDeclaration() {
	// BlockStatement ::= EnumDeclaration
	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	if(!this.statementRecoveryActivated) problemReporter().illegalLocalTypeDeclaration(typeDecl);
	// remove the ast node created in interface header
	this.astPtr--;
	pushOnAstLengthStack(-1);
	concatNodeLists();
}
protected void consumeInvalidInterfaceDeclaration() {
	// BlockStatement ::= InvalidInterfaceDeclaration
	//InterfaceDeclaration ::= Modifiersopt 'interface' 'Identifier' ExtendsInterfacesopt InterfaceHeader InterfaceBody
	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	if(!this.statementRecoveryActivated) problemReporter().illegalLocalTypeDeclaration(typeDecl);
	// remove the ast node created in interface header
	this.astPtr--;
	pushOnAstLengthStack(-1);
	concatNodeLists();
}
protected void consumeInterfaceMethodDeclaration(boolean hasSemicolonBody) {
	// InterfaceMemberDeclaration ::= DefaultMethodHeader MethodBody
	// InterfaceMemberDeclaration ::= MethodHeader MethodBody
	// -- the next rule is illegal but allows to give a more canonical error message from inside consumeInterfaceMethodDeclaration(): 
	// InterfaceMemberDeclaration ::= DefaultMethodHeader ';'


	/*
	this.astStack : modifiers arguments throws statements
	this.identifierStack : type name
	this.intStack : dim dim dim
	 ==>
	this.astStack : MethodDeclaration
	this.identifierStack :
	this.intStack :
	*/

	int explicitDeclarations = 0;
	Statement[] statements = null;
	if (!hasSemicolonBody) {
		// pop the position of the {  (body of the method) pushed in block decl
		this.intPtr--;
		this.intPtr--;
		
		explicitDeclarations = this.realBlockStack[this.realBlockPtr--];
		
		//statements
		int length;
		if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
			if (this.options.ignoreMethodBodies) {
				this.astPtr -= length;
			} else {
				System.arraycopy(
					this.astStack,
					(this.astPtr -= length) + 1,
					statements = new Statement[length],
					0,
					length);
			}
		}
	}

	//watch for } that could be given as a unicode ! ( u007D is '}' )
	MethodDeclaration md = (MethodDeclaration) this.astStack[this.astPtr];
	md.statements = statements;
	md.explicitDeclarations = explicitDeclarations;
	md.bodyEnd = this.endPosition;
	md.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
	
	boolean isDefault = (md.modifiers & ExtraCompilerModifiers.AccDefaultMethod) != 0;
	boolean isStatic = (md.modifiers & ClassFileConstants.AccStatic) != 0;
	boolean bodyAllowed = isDefault || isStatic;
	if (this.parsingJava8Plus) {
		if (bodyAllowed && hasSemicolonBody) {
			md.modifiers |= ExtraCompilerModifiers.AccSemicolonBody; // avoid complaints regarding undocumented empty body
		}
	} else {
		if (isDefault) problemReporter().defaultMethodsNotBelow18(md);
		if (isStatic) problemReporter().staticInterfaceMethodsNotBelow18(md);
	}
	if (!bodyAllowed && !this.statementRecoveryActivated && !hasSemicolonBody) {
		problemReporter().abstractMethodNeedingNoBody(md);
	}
}
protected void consumeLabel() {
	// Do nothing
}
protected void consumeLeftParen() {
	// PushLPAREN ::= '('
	pushOnIntStack(this.lParenPos);
}
protected void consumeLocalVariableDeclaration() {
	// LocalVariableDeclaration ::= Modifiers Type VariableDeclarators ';'

	/*
	this.astStack :
	this.expressionStack: Expression Expression ...... Expression
	this.identifierStack : type  identifier identifier ...... identifier
	this.intStack : typeDim      dim        dim               dim
	 ==>
	this.astStack : FieldDeclaration FieldDeclaration ...... FieldDeclaration
	this.expressionStack :
	this.identifierStack :
	this.intStack :

	*/
	int variableDeclaratorsCounter = this.astLengthStack[this.astLengthPtr];

	// update the this.astStack, this.astPtr and this.astLengthStack
	int startIndex = this.astPtr - this.variablesCounter[this.nestedType] + 1;
	System.arraycopy(
		this.astStack,
		startIndex,
		this.astStack,
		startIndex - 1,
		variableDeclaratorsCounter);
	this.astPtr--; // remove the type reference
	this.astLengthStack[--this.astLengthPtr] = variableDeclaratorsCounter;
	this.variablesCounter[this.nestedType] = 0;
}
protected void consumeLocalVariableDeclarationStatement() {
	// LocalVariableDeclarationStatement ::= LocalVariableDeclaration ';'
	// see blockReal in case of change: duplicated code
	// increment the amount of declared variables for this block
	this.realBlockStack[this.realBlockPtr]++;

	// update source end to include the semi-colon
	int variableDeclaratorsCounter = this.astLengthStack[this.astLengthPtr];
	for (int i = variableDeclaratorsCounter - 1; i >= 0; i--) {
		LocalDeclaration localDeclaration = (LocalDeclaration) this.astStack[this.astPtr - i];
		localDeclaration.declarationSourceEnd = this.endStatementPosition;
		localDeclaration.declarationEnd = this.endStatementPosition;	// semi-colon included
	}

}
protected void consumeMarkerAnnotation(boolean isTypeAnnotation) {
	// MarkerAnnotation ::= AnnotationName
	// MarkerTypeAnnotation ::= TypeAnnotationName
	MarkerAnnotation markerAnnotation = null;

	int oldIndex = this.identifierPtr;

	TypeReference typeReference = getAnnotationType();
	markerAnnotation = new MarkerAnnotation(typeReference, this.intStack[this.intPtr--]);
	markerAnnotation.declarationSourceEnd = markerAnnotation.sourceEnd;
	if (isTypeAnnotation) {
		pushOnTypeAnnotationStack(markerAnnotation);
	} else {
		pushOnExpressionStack(markerAnnotation);
	}
	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		problemReporter().invalidUsageOfAnnotation(markerAnnotation);
	}
	this.recordStringLiterals = true;

	if (this.currentElement != null && this.currentElement instanceof RecoveredAnnotation) {
		this.currentElement = ((RecoveredAnnotation)this.currentElement).addAnnotation(markerAnnotation, oldIndex);
	}
}
protected void consumeMemberValueArrayInitializer() {
	// MemberValueArrayInitializer ::= '{' MemberValues ',' '}'
	// MemberValueArrayInitializer ::= '{' MemberValues '}'
	arrayInitializer(this.expressionLengthStack[this.expressionLengthPtr--]);
}
protected void consumeMemberValueAsName() {
	pushOnExpressionStack(getUnspecifiedReferenceOptimized());
}
protected void consumeMemberValuePair() {
	// MemberValuePair ::= SimpleName '=' MemberValue
	char[] simpleName = this.identifierStack[this.identifierPtr];
	long position = this.identifierPositionStack[this.identifierPtr--];
	this.identifierLengthPtr--;
	int end = (int) position;
	int start = (int) (position >>> 32);
	Expression value = this.expressionStack[this.expressionPtr--];
	this.expressionLengthPtr--;
	MemberValuePair memberValuePair = new MemberValuePair(simpleName, start, end, value);
	pushOnAstStack(memberValuePair);

	if (this.currentElement != null && this.currentElement instanceof RecoveredAnnotation) {
		RecoveredAnnotation recoveredAnnotation = (RecoveredAnnotation) this.currentElement;

		recoveredAnnotation.setKind(RecoveredAnnotation.NORMAL);
	}
}
protected void consumeMemberValuePairs() {
	// MemberValuePairs ::= MemberValuePairs ',' MemberValuePair
	concatNodeLists();
}
protected void consumeMemberValues() {
	// MemberValues ::= MemberValues ',' MemberValue
	concatExpressionLists();
}
protected void consumeMethodBody() {
	// MethodBody ::= NestedMethod '{' BlockStatementsopt '}'
	this.nestedMethod[this.nestedType] --;
}
protected void consumeMethodDeclaration(boolean isNotAbstract, boolean isDefaultMethod) {
	// MethodDeclaration ::= MethodHeader MethodBody
	// AbstractMethodDeclaration ::= MethodHeader ';'

	/*
	this.astStack : modifiers arguments throws statements
	this.identifierStack : type name
	this.intStack : dim dim dim
	 ==>
	this.astStack : MethodDeclaration
	this.identifierStack :
	this.intStack :
	*/

	int length;
	if (isNotAbstract) {
		// pop the position of the {  (body of the method) pushed in block decl
		this.intPtr--;
		this.intPtr--;
	}

	int explicitDeclarations = 0;
	Statement[] statements = null;
	if (isNotAbstract) {
		//statements
		explicitDeclarations = this.realBlockStack[this.realBlockPtr--];
		if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
			if (this.options.ignoreMethodBodies) {
				this.astPtr -= length;
			} else {
				System.arraycopy(
					this.astStack,
					(this.astPtr -= length) + 1,
					statements = new Statement[length],
					0,
					length);
			}
		}
	}

	// now we know that we have a method declaration at the top of the ast stack
	MethodDeclaration md = (MethodDeclaration) this.astStack[this.astPtr];
	md.statements = statements;
	md.explicitDeclarations = explicitDeclarations;

	// cannot be done in consumeMethodHeader because we have no idea whether or not there
	// is a body when we reduce the method header
	if (!isNotAbstract) { //remember the fact that the method has a semicolon body
		md.modifiers |= ExtraCompilerModifiers.AccSemicolonBody;
	} else if (!(this.diet && this.dietInt == 0) && statements == null && !containsComment(md.bodyStart, this.endPosition)) {
		md.bits |= ASTNode.UndocumentedEmptyBlock;
	}
	// store the this.endPosition (position just before the '}') in case there is
	// a trailing comment behind the end of the method
	md.bodyEnd = this.endPosition;
	md.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
	if (isDefaultMethod && !this.tolerateDefaultClassMethods) {
		if (this.options.sourceLevel >= ClassFileConstants.JDK1_8) {
			problemReporter().defaultModifierIllegallySpecified(md.sourceStart, md.sourceEnd);
		} else {
			problemReporter().illegalModifierForMethod(md);
		}
	}
}
protected void consumeMethodHeader() {
	// MethodHeader ::= MethodHeaderName MethodHeaderParameters MethodHeaderExtendedDims ThrowsClauseopt
	// AnnotationMethodHeader ::= AnnotationMethodHeaderName FormalParameterListopt MethodHeaderRightParen MethodHeaderExtendedDims AnnotationMethodHeaderDefaultValueopt
	// RecoveryMethodHeader ::= RecoveryMethodHeaderName FormalParameterListopt MethodHeaderRightParen MethodHeaderExtendedDims AnnotationMethodHeaderDefaultValueopt
	// RecoveryMethodHeader ::= RecoveryMethodHeaderName FormalParameterListopt MethodHeaderRightParen MethodHeaderExtendedDims MethodHeaderThrowsClause

	// retrieve end position of method declarator
	AbstractMethodDeclaration method = (AbstractMethodDeclaration)this.astStack[this.astPtr];

	if (this.currentToken == TokenNameLBRACE){
		method.bodyStart = this.scanner.currentPosition;
	}
	// recovery
	if (this.currentElement != null){
//		if(method.isAnnotationMethod()) {
//			method.modifiers |= AccSemicolonBody;
//			method.declarationSourceEnd = this.scanner.currentPosition-1;
//			method.bodyEnd = this.scanner.currentPosition-1;
//			this.currentElement = this.currentElement.parent;
//		} else
		if (this.currentToken == TokenNameSEMICOLON /*&& !method.isAnnotationMethod()*/){
			method.modifiers |= ExtraCompilerModifiers.AccSemicolonBody;
			method.declarationSourceEnd = this.scanner.currentPosition-1;
			method.bodyEnd = this.scanner.currentPosition-1;
			if (this.currentElement.parseTree() == method && this.currentElement.parent != null) {
				this.currentElement = this.currentElement.parent;
			}
		} else if(this.currentToken == TokenNameLBRACE) {
			if (this.currentElement instanceof RecoveredMethod &&
					((RecoveredMethod)this.currentElement).methodDeclaration != method) {
				this.ignoreNextOpeningBrace = true;
				this.currentElement.bracketBalance++;
			}
		}
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
}
protected void consumeMethodHeaderDefaultValue() {
	// MethodHeaderDefaultValue ::= DefaultValue
	MethodDeclaration md = (MethodDeclaration) this.astStack[this.astPtr];


	int length = this.expressionLengthStack[this.expressionLengthPtr--];
	if (length == 1) {
		this.intPtr--; // we get rid of the position of the default keyword
		this.intPtr--; // we get rid of the position of the default keyword
		if(md.isAnnotationMethod()) {
			((AnnotationMethodDeclaration)md).defaultValue = this.expressionStack[this.expressionPtr];
			md.modifiers |=  ClassFileConstants.AccAnnotationDefault;
		}
		this.expressionPtr--;
		this.recordStringLiterals = true;
	}

	if(this.currentElement != null) {
		if(md.isAnnotationMethod()) {
			this.currentElement.updateSourceEndIfNecessary(((AnnotationMethodDeclaration)md).defaultValue.sourceEnd);
		}
	}
}
protected void consumeMethodHeaderExtendedDims() {
	// MethodHeaderExtendedDims ::= Dimsopt
	// now we update the returnType of the method
	MethodDeclaration md = (MethodDeclaration) this.astStack[this.astPtr];
	int extendedDimensions = this.intStack[this.intPtr--];
	if(md.isAnnotationMethod()) {
		((AnnotationMethodDeclaration)md).extendedDimensions = extendedDimensions;
	}
	if (extendedDimensions != 0) {
		md.sourceEnd = this.endPosition;
		md.returnType = augmentTypeWithAdditionalDimensions(md.returnType, extendedDimensions, getAnnotationsOnDimensions(extendedDimensions), false);
		md.bits |= (md.returnType.bits & ASTNode.HasTypeAnnotations);
		if (this.currentToken == TokenNameLBRACE){
			md.bodyStart = this.endPosition + 1;
		}
		// recovery
		if (this.currentElement != null){
			this.lastCheckPoint = md.bodyStart;
		}
	}
}
protected void consumeMethodHeaderName(boolean isAnnotationMethod) {
	// MethodHeaderName ::= Modifiersopt Type 'Identifier' '('
	// AnnotationMethodHeaderName ::= Modifiersopt Type 'Identifier' '('
	// RecoveryMethodHeaderName ::= Modifiersopt Type 'Identifier' '('
	MethodDeclaration md = null;
	if(isAnnotationMethod) {
		md = new AnnotationMethodDeclaration(this.compilationUnit.compilationResult);
		this.recordStringLiterals = false;
	} else {
		md = new MethodDeclaration(this.compilationUnit.compilationResult);
	}

	//name
	md.selector = this.identifierStack[this.identifierPtr];
	long selectorSource = this.identifierPositionStack[this.identifierPtr--];
	this.identifierLengthPtr--;
	//type
	md.returnType = getTypeReference(this.intStack[this.intPtr--]);
	md.bits |= (md.returnType.bits & ASTNode.HasTypeAnnotations);
	//modifiers
	md.declarationSourceStart = this.intStack[this.intPtr--];
	md.modifiers = this.intStack[this.intPtr--];
	// consume annotations
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			md.annotations = new Annotation[length],
			0,
			length);
	}
	// javadoc
	md.javadoc = this.javadoc;
	this.javadoc = null;

	//highlight starts at selector start
	md.sourceStart = (int) (selectorSource >>> 32);
	pushOnAstStack(md);
	md.sourceEnd = this.lParenPos;
	md.bodyStart = this.lParenPos+1;
	this.listLength = 0; // initialize this.listLength before reading parameters/throws

	// recovery
	if (this.currentElement != null){
		if (this.currentElement instanceof RecoveredType
			//|| md.modifiers != 0
			|| (Util.getLineNumber(md.returnType.sourceStart, this.scanner.lineEnds, 0, this.scanner.linePtr)
					== Util.getLineNumber(md.sourceStart, this.scanner.lineEnds, 0, this.scanner.linePtr))){
			this.lastCheckPoint = md.bodyStart;
			this.currentElement = this.currentElement.add(md, 0);
			this.lastIgnoredToken = -1;
		} else {
			this.lastCheckPoint = md.sourceStart;
			this.restartRecovery = true;
		}
	}
}
protected void consumeMethodHeaderNameWithTypeParameters(boolean isAnnotationMethod) {
	// MethodHeaderName ::= Modifiersopt TypeParameters Type 'Identifier' '('
	// AnnotationMethodHeaderName ::= Modifiersopt TypeParameters Type 'Identifier' '('
	// RecoveryMethodHeaderName ::= Modifiersopt TypeParameters Type 'Identifier' '('
	MethodDeclaration md = null;
	if(isAnnotationMethod) {
		md = new AnnotationMethodDeclaration(this.compilationUnit.compilationResult);
		this.recordStringLiterals = false;
	} else {
		md = new MethodDeclaration(this.compilationUnit.compilationResult);
	}

	//name
	md.selector = this.identifierStack[this.identifierPtr];
	long selectorSource = this.identifierPositionStack[this.identifierPtr--];
	this.identifierLengthPtr--;
	//type
	TypeReference returnType = getTypeReference(this.intStack[this.intPtr--]);
	if (isAnnotationMethod)
		rejectIllegalLeadingTypeAnnotations(returnType);
	md.returnType = returnType;
	md.bits |= (returnType.bits & ASTNode.HasTypeAnnotations);

	// consume type parameters
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, md.typeParameters = new TypeParameter[length], 0, length);

	//modifiers
	md.declarationSourceStart = this.intStack[this.intPtr--];
	md.modifiers = this.intStack[this.intPtr--];
	// consume annotations
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			md.annotations = new Annotation[length],
			0,
			length);
	}
	// javadoc
	md.javadoc = this.javadoc;
	this.javadoc = null;

	//highlight starts at selector start
	md.sourceStart = (int) (selectorSource >>> 32);
	pushOnAstStack(md);
	md.sourceEnd = this.lParenPos;
	md.bodyStart = this.lParenPos+1;
	this.listLength = 0; // initialize this.listLength before reading parameters/throws

	// recovery
	if (this.currentElement != null){
		boolean isType;
		if ((isType = this.currentElement instanceof RecoveredType)
			//|| md.modifiers != 0
			|| (Util.getLineNumber(md.returnType.sourceStart, this.scanner.lineEnds, 0, this.scanner.linePtr)
					== Util.getLineNumber(md.sourceStart, this.scanner.lineEnds, 0, this.scanner.linePtr))){
			if(isType) {
				((RecoveredType) this.currentElement).pendingTypeParameters = null;
			}
			this.lastCheckPoint = md.bodyStart;
			this.currentElement = this.currentElement.add(md, 0);
			this.lastIgnoredToken = -1;
		} else {
			this.lastCheckPoint = md.sourceStart;
			this.restartRecovery = true;
		}
	}
}
protected void consumeMethodHeaderRightParen() {
	// MethodHeaderParameters ::= FormalParameterListopt ')'
	int length = this.astLengthStack[this.astLengthPtr--];
	this.astPtr -= length;
	AbstractMethodDeclaration md = (AbstractMethodDeclaration) this.astStack[this.astPtr];
	md.sourceEnd = 	this.rParenPos;
	//arguments
	if (length != 0) {
		Argument arg = (Argument) this.astStack[this.astPtr + 1];
		if (arg.isReceiver()) {
			md.receiver = (Receiver) arg;
			if (length > 1) {
				System.arraycopy(
					this.astStack,
					this.astPtr + 2,
					md.arguments = new Argument[length - 1],
					0,
					length - 1);
			}
			// Receiver annotations can only be type annotations; move to the type
			Annotation[] annotations = arg.annotations;
			if (annotations != null && annotations.length > 0) {
				// The code assumes that receiver.type.annotations[0] will be null/empty
				TypeReference type = arg.type;
				if (type.annotations == null) {
					type.bits |= ASTNode.HasTypeAnnotations;
					type.annotations = new Annotation[type.getAnnotatableLevels()][];
					md.bits |= ASTNode.HasTypeAnnotations;
				}
				type.annotations[0] = annotations;
				int annotationSourceStart = annotations[0].sourceStart;
				if (type.sourceStart > annotationSourceStart)
					type.sourceStart = annotationSourceStart;
				arg.annotations = null;
			}
			md.bits |= (arg.type.bits & ASTNode.HasTypeAnnotations);
		} else {
			System.arraycopy(
					this.astStack,
					this.astPtr + 1,
					md.arguments = new Argument[length],
					0,
					length);
			for (int i = 0, max = md.arguments.length; i < max; i++) {
				if ((md.arguments[i].bits & ASTNode.HasTypeAnnotations) != 0) {
					md.bits |= ASTNode.HasTypeAnnotations;
					break;
				}
			}
		}
	}
	md.bodyStart = this.rParenPos+1;
	this.listLength = 0; // reset this.listLength after having read all parameters
	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = md.bodyStart;
		if (this.currentElement.parseTree() == md) return;

		// might not have been attached yet - in some constructor scenarii
		if (md.isConstructor()){
			if ((length != 0)
				|| (this.currentToken == TokenNameLBRACE)
				|| (this.currentToken == TokenNamethrows)){
				this.currentElement = this.currentElement.add(md, 0);
				this.lastIgnoredToken = -1;
			}
		}
	}
}
protected void consumeMethodHeaderThrowsClause() {
	// MethodHeaderThrowsClause ::= 'throws' ClassTypeList
	int length = this.astLengthStack[this.astLengthPtr--];
	this.astPtr -= length;
	AbstractMethodDeclaration md = (AbstractMethodDeclaration) this.astStack[this.astPtr];
	System.arraycopy(
		this.astStack,
		this.astPtr + 1,
		md.thrownExceptions = new TypeReference[length],
		0,
		length);
	md.sourceEnd = md.thrownExceptions[length-1].sourceEnd;
	md.bodyStart = md.thrownExceptions[length-1].sourceEnd + 1;
	this.listLength = 0; // reset this.listLength after having read all thrown exceptions
	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = md.bodyStart;
	}
}
protected void consumeInvocationExpression() {
	// Trap all forms of invocation expressions. Note: Explicit constructor calls are not expressions. Top of expression stack has the MessageSend or AllocationExpression.
}
protected void consumeMethodInvocationName() {
	// MethodInvocation ::= Name '(' ArgumentListopt ')'

	// when the name is only an identifier...we have a message send to "this" (implicit)

	MessageSend m = newMessageSend();
	m.sourceEnd = this.rParenPos;
	m.sourceStart =
		(int) ((m.nameSourcePosition = this.identifierPositionStack[this.identifierPtr]) >>> 32);
	m.selector = this.identifierStack[this.identifierPtr--];
	if (this.identifierLengthStack[this.identifierLengthPtr] == 1) {
		m.receiver = ThisReference.implicitThis();
		this.identifierLengthPtr--;
	} else {
		this.identifierLengthStack[this.identifierLengthPtr]--;
		m.receiver = getUnspecifiedReference();
		m.sourceStart = m.receiver.sourceStart;
	}
	int length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--];
	Annotation [] typeAnnotations;
	if (length != 0) {
		System.arraycopy(
				this.typeAnnotationStack,
				(this.typeAnnotationPtr -= length) + 1,
				typeAnnotations = new Annotation[length],
				0,
				length);
		problemReporter().misplacedTypeAnnotations(typeAnnotations[0], typeAnnotations[typeAnnotations.length - 1]);
	}
	pushOnExpressionStack(m);
	consumeInvocationExpression();
}
protected void consumeMethodInvocationNameWithTypeArguments() {
	// MethodInvocation ::= Name '.' TypeArguments 'Identifier' '(' ArgumentListopt ')'

	// when the name is only an identifier...we have a message send to "this" (implicit)

	MessageSend m = newMessageSendWithTypeArguments();
	m.sourceEnd = this.rParenPos;
	m.sourceStart =
		(int) ((m.nameSourcePosition = this.identifierPositionStack[this.identifierPtr]) >>> 32);
	m.selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	// handle type arguments
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, m.typeArguments = new TypeReference[length], 0, length);
	this.intPtr--;  // consume position of '<'

	m.receiver = getUnspecifiedReference();
	m.sourceStart = m.receiver.sourceStart;
	pushOnExpressionStack(m);
	consumeInvocationExpression();
}
protected void consumeMethodInvocationPrimary() {
	//optimize the push/pop
	//MethodInvocation ::= Primary '.' 'Identifier' '(' ArgumentListopt ')'

	MessageSend m = newMessageSend();
	m.sourceStart =
		(int) ((m.nameSourcePosition = this.identifierPositionStack[this.identifierPtr]) >>> 32);
	m.selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;
	m.receiver = this.expressionStack[this.expressionPtr];
	m.sourceStart = m.receiver.sourceStart;
	m.sourceEnd = this.rParenPos;
	this.expressionStack[this.expressionPtr] = m;
	consumeInvocationExpression();
}
protected void consumeMethodInvocationPrimaryWithTypeArguments() {
	//optimize the push/pop
	//MethodInvocation ::= Primary '.' TypeArguments 'Identifier' '(' ArgumentListopt ')'

	MessageSend m = newMessageSendWithTypeArguments();
	m.sourceStart =
		(int) ((m.nameSourcePosition = this.identifierPositionStack[this.identifierPtr]) >>> 32);
	m.selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	// handle type arguments
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, m.typeArguments = new TypeReference[length], 0, length);
	this.intPtr--; // consume position of '<'

	m.receiver = this.expressionStack[this.expressionPtr];
	m.sourceStart = m.receiver.sourceStart;
	m.sourceEnd = this.rParenPos;
	this.expressionStack[this.expressionPtr] = m;
	consumeInvocationExpression();
}
protected void consumeMethodInvocationSuper() {
	// MethodInvocation ::= 'super' '.' 'Identifier' '(' ArgumentListopt ')'

	MessageSend m = newMessageSend();
	m.sourceStart = this.intStack[this.intPtr--]; // start position of the super keyword
	m.sourceEnd = this.rParenPos;
	m.nameSourcePosition = this.identifierPositionStack[this.identifierPtr];
	m.selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;
	m.receiver = new SuperReference(m.sourceStart, this.endPosition);
	pushOnExpressionStack(m);
	consumeInvocationExpression();
}
protected void consumeMethodInvocationSuperWithTypeArguments() {
	// MethodInvocation ::= 'super' '.' TypeArguments 'Identifier' '(' ArgumentListopt ')'

	MessageSend m = newMessageSendWithTypeArguments();
	this.intPtr--; // start position of the typeArguments
	m.sourceEnd = this.rParenPos;
	m.nameSourcePosition = this.identifierPositionStack[this.identifierPtr];
	m.selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	// handle type arguments
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, m.typeArguments = new TypeReference[length], 0, length);
	m.sourceStart = this.intStack[this.intPtr--]; // start position of the super keyword

	m.receiver = new SuperReference(m.sourceStart, this.endPosition);
	pushOnExpressionStack(m);
	consumeInvocationExpression();
}
protected void consumeModifiers() {
	int savedModifiersSourceStart = this.modifiersSourceStart;
	checkComment(); // might update modifiers with AccDeprecated
	pushOnIntStack(this.modifiers); // modifiers
	if (this.modifiersSourceStart >= savedModifiersSourceStart) {
		this.modifiersSourceStart = savedModifiersSourceStart;
	}
	pushOnIntStack(this.modifiersSourceStart);
	resetModifiers();
}
protected void consumeModifiers2() {
	this.expressionLengthStack[this.expressionLengthPtr - 1] += this.expressionLengthStack[this.expressionLengthPtr--];
}
protected void consumeMultipleResources() {
	// Resources ::= Resources ';' Resource
	concatNodeLists();
}
protected void consumeTypeAnnotation() {
	// TypeAnnotation ::= NormalTypeAnnotation
	// TypeAnnotation ::= MarkerTypeAnnotation
	// TypeAnnotation ::= SingleMemberTypeAnnotation
	
	if (!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_8 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		Annotation annotation = this.typeAnnotationStack[this.typeAnnotationPtr];
		problemReporter().invalidUsageOfTypeAnnotations(annotation);
	}
	this.dimensions = this.intStack[this.intPtr--]; // https://bugs.eclipse.org/bugs/show_bug.cgi?id=417660
}
protected void consumeOneMoreTypeAnnotation() {
	// TypeAnnotations ::= TypeAnnotations TypeAnnotation
	this.typeAnnotationLengthStack[--this.typeAnnotationLengthPtr]++;
}
protected void consumeNameArrayType() {
	pushOnGenericsLengthStack(0); // handle type arguments
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
}
protected void consumeNestedMethod() {
	// NestedMethod ::= $empty
	jumpOverMethodBody();
	this.nestedMethod[this.nestedType] ++;
	pushOnIntStack(this.scanner.currentPosition);
	consumeOpenBlock();
}
protected void consumeNestedType() {
	// NestedType ::= $empty
	int length = this.nestedMethod.length;
	if (++this.nestedType >= length) {
		System.arraycopy(
			this.nestedMethod, 0,
			this.nestedMethod = new int[length + 30], 0,
			length);
		// increase the size of the variablesCounter as well. It has to be consistent with the size of the nestedMethod collection
		System.arraycopy(
			this.variablesCounter, 0,
			this.variablesCounter = new int[length + 30], 0,
			length);
	}
	this.nestedMethod[this.nestedType] = 0;
	this.variablesCounter[this.nestedType] = 0;
}
protected void consumeNormalAnnotation(boolean isTypeAnnotation) {
	// NormalTypeAnnotation ::= TypeAnnotationName '(' MemberValuePairsopt ')'
	// NormalAnnotation ::= AnnotationName '(' MemberValuePairsopt ')'
	NormalAnnotation normalAnnotation = null;

	int oldIndex = this.identifierPtr;

	TypeReference typeReference = getAnnotationType();
	normalAnnotation = new NormalAnnotation(typeReference, this.intStack[this.intPtr--]);
	int length;
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		System.arraycopy(
			this.astStack,
			(this.astPtr -= length) + 1,
			normalAnnotation.memberValuePairs = new MemberValuePair[length],
			0,
			length);
	}
	normalAnnotation.declarationSourceEnd = this.rParenPos;
	
	if (isTypeAnnotation) {
		pushOnTypeAnnotationStack(normalAnnotation);
	} else {
		pushOnExpressionStack(normalAnnotation);
	}

	if(this.currentElement != null) {
		annotationRecoveryCheckPoint(normalAnnotation.sourceStart, normalAnnotation.declarationSourceEnd);

		if (this.currentElement instanceof RecoveredAnnotation) {
			this.currentElement = ((RecoveredAnnotation)this.currentElement).addAnnotation(normalAnnotation, oldIndex);
		}
	}

	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		problemReporter().invalidUsageOfAnnotation(normalAnnotation);
	}
	this.recordStringLiterals = true;
}
protected void consumeOneDimLoop(boolean isAnnotated) {
	// OneDimLoop ::= '[' ']'
	// OneDimLoop ::= TypeAnnotations '[' ']'
	this.dimensions++;
	if (!isAnnotated) {
		pushOnTypeAnnotationLengthStack(0); // signal no annotations for the current dimension.
	}
}
protected void consumeOnlySynchronized() {
	// OnlySynchronized ::= 'synchronized'
	pushOnIntStack(this.synchronizedBlockSourceStart);
	resetModifiers();
	this.expressionLengthPtr--;
}
protected void consumeOnlyTypeArguments() {
	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		int length = this.genericsLengthStack[this.genericsLengthPtr];
		problemReporter().invalidUsageOfTypeArguments(
			(TypeReference)this.genericsStack[this.genericsPtr - length + 1],
			(TypeReference)this.genericsStack[this.genericsPtr]);
	}
}
protected void consumeOnlyTypeArgumentsForCastExpression() {
	// OnlyTypeArgumentsForCastExpression ::= OnlyTypeArguments
}
protected void consumeOpenBlock() {
	// OpenBlock ::= $empty

	pushOnIntStack(this.scanner.startPosition);
	int stackLength = this.realBlockStack.length;
	if (++this.realBlockPtr >= stackLength) {
		System.arraycopy(
			this.realBlockStack, 0,
			this.realBlockStack = new int[stackLength + StackIncrement], 0,
			stackLength);
	}
	this.realBlockStack[this.realBlockPtr] = 0;
}
protected void consumePackageComment() {
	// get possible comment for syntax since 1.5
	if(this.options.sourceLevel >= ClassFileConstants.JDK1_5) {
		checkComment();
		resetModifiers();
	}
}
protected void consumePackageDeclaration() {
	// PackageDeclaration ::= 'package' Name ';'
	/* build an ImportRef build from the last name
	stored in the identifier stack. */

	ImportReference impt = this.compilationUnit.currentPackage;
	this.compilationUnit.javadoc = this.javadoc;
	this.javadoc = null;
	// flush comments defined prior to import statements
	impt.declarationEnd = this.endStatementPosition;
	impt.declarationSourceEnd = flushCommentsDefinedPriorTo(impt.declarationSourceEnd);
}
protected void consumePackageDeclarationName() {
	// PackageDeclarationName ::= PackageComment 'package' Name RejectTypeAnnotations
	/* build an ImportRef build from the last name
	stored in the identifier stack. */

	ImportReference impt;
	int length;
	char[][] tokens =
		new char[length = this.identifierLengthStack[this.identifierLengthPtr--]][];
	this.identifierPtr -= length;
	long[] positions = new long[length];
	System.arraycopy(this.identifierStack, ++this.identifierPtr, tokens, 0, length);
	System.arraycopy(
		this.identifierPositionStack,
		this.identifierPtr--,
		positions,
		0,
		length);

	impt = new ImportReference(tokens, positions, false, ClassFileConstants.AccDefault);
	this.compilationUnit.currentPackage = impt;

	if (this.currentToken == TokenNameSEMICOLON){
		impt.declarationSourceEnd = this.scanner.currentPosition - 1;
	} else {
		impt.declarationSourceEnd = impt.sourceEnd;
	}
	impt.declarationEnd = impt.declarationSourceEnd;
	//this.endPosition is just before the ;
	impt.declarationSourceStart = this.intStack[this.intPtr--];

	// get possible comment source start
	if(this.javadoc != null) {
		impt.declarationSourceStart = this.javadoc.sourceStart;
	}

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = impt.declarationSourceEnd+1;
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
}
protected void consumePackageDeclarationNameWithModifiers() {
	// PackageDeclarationName ::= Modifiers 'package' PushRealModifiers Name RejectTypeAnnotations
	/* build an ImportRef build from the last name
	stored in the identifier stack. */

	ImportReference impt;
	int length;
	char[][] tokens =
		new char[length = this.identifierLengthStack[this.identifierLengthPtr--]][];
	this.identifierPtr -= length;
	long[] positions = new long[length];
	System.arraycopy(this.identifierStack, ++this.identifierPtr, tokens, 0, length);
	System.arraycopy(
		this.identifierPositionStack,
		this.identifierPtr--,
		positions,
		0,
		length);

	int packageModifiersSourceStart = this.intStack[this.intPtr--];
	int packageModifiersSourceEnd = packageModifiersSourceStart; // Unless there were any
	int packageModifiers = this.intStack[this.intPtr--];

	impt = new ImportReference(tokens, positions, false, packageModifiers);
	this.compilationUnit.currentPackage = impt;
	// consume annotations
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		System.arraycopy(
			this.expressionStack,
			(this.expressionPtr -= length) + 1,
			impt.annotations = new Annotation[length],
			0,
			length);
		impt.declarationSourceStart = packageModifiersSourceStart;
		packageModifiersSourceEnd = this.intStack[this.intPtr--] - 2; // we don't need the position of the 'package keyword
	} else {
		impt.declarationSourceStart = this.intStack[this.intPtr--];
		packageModifiersSourceEnd = impt.declarationSourceStart - 2;
		// get possible comment source start
		if (this.javadoc != null) {
			impt.declarationSourceStart = this.javadoc.sourceStart;
		}
	}

	if (packageModifiers != 0) {
		problemReporter().illegalModifiers(packageModifiersSourceStart, packageModifiersSourceEnd);
	}
	
	
	if (this.currentToken == TokenNameSEMICOLON){
		impt.declarationSourceEnd = this.scanner.currentPosition - 1;
	} else {
		impt.declarationSourceEnd = impt.sourceEnd;
	}
	impt.declarationEnd = impt.declarationSourceEnd;

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = impt.declarationSourceEnd+1;
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
}
protected void consumePostfixExpression() {
	// PostfixExpression ::= Name
	pushOnExpressionStack(getUnspecifiedReferenceOptimized());
}
protected void consumePrimaryNoNewArray() {
	// PrimaryNoNewArray ::=  PushLPAREN Expression PushRPAREN
	final Expression parenthesizedExpression = this.expressionStack[this.expressionPtr];
	updateSourcePosition(parenthesizedExpression);
	int numberOfParenthesis = (parenthesizedExpression.bits & ASTNode.ParenthesizedMASK) >> ASTNode.ParenthesizedSHIFT;
	parenthesizedExpression.bits &= ~ASTNode.ParenthesizedMASK;
	parenthesizedExpression.bits |= (numberOfParenthesis + 1) << ASTNode.ParenthesizedSHIFT;
}
protected void consumePrimaryNoNewArrayArrayType() {
	// PrimaryNoNewArray ::= Name Dims '.' 'class'
	this.intPtr--; // remove the class start position

	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	pushOnGenericsLengthStack(0);
	ClassLiteralAccess cla;
	pushOnExpressionStack(
		cla = new ClassLiteralAccess(this.intStack[this.intPtr--], getTypeReference(this.intStack[this.intPtr--])));
	rejectIllegalTypeAnnotations(cla.type); // javac correctly rejects annotations on dimensions here.
}
protected void consumePrimaryNoNewArrayName() {
	// PrimaryNoNewArray ::= Name '.' 'class'
	this.intPtr--; // remove the class start position

	// handle type arguments
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	pushOnGenericsLengthStack(0);
	TypeReference typeReference = getTypeReference(0);
	
	rejectIllegalTypeAnnotations(typeReference);

	pushOnExpressionStack(
		new ClassLiteralAccess(this.intStack[this.intPtr--], typeReference));
}
protected void rejectIllegalLeadingTypeAnnotations(TypeReference typeReference) {
	// Reject misplaced annotations prefixed to a type reference; Used when the grammar is permissive enough to allow them in the first place.
	Annotation [][]  annotations = typeReference.annotations;
	if (annotations != null && annotations[0] != null) {
		problemReporter().misplacedTypeAnnotations(annotations[0][0], annotations[0][annotations[0].length - 1]);
		annotations[0] = null;  // don't complain further.
	}
}
private void rejectIllegalTypeAnnotations(TypeReference typeReference) {
	rejectIllegalTypeAnnotations(typeReference, false);
}
private void rejectIllegalTypeAnnotations(TypeReference typeReference, boolean tolerateAnnotationsOnDimensions) {
	// Reject misplaced annotations on type reference; Used when grammar is permissive enough to allow them in the first place.
	Annotation [][]  annotations = typeReference.annotations;
	Annotation[] misplacedAnnotations;
	for (int i = 0, length = annotations == null ? 0 : annotations.length; i < length; i++) {
		misplacedAnnotations =  annotations[i];
		if (misplacedAnnotations != null) {
			problemReporter().misplacedTypeAnnotations(misplacedAnnotations[0], misplacedAnnotations[misplacedAnnotations.length - 1]);
		}
	}
	annotations = typeReference.getAnnotationsOnDimensions(true);
	boolean tolerated = false;
	for (int i = 0, length = annotations == null ? 0 : annotations.length; i < length; i++) {
		misplacedAnnotations = annotations[i];
		if (misplacedAnnotations != null) {
			if (tolerateAnnotationsOnDimensions) {
				problemReporter().toleratedMisplacedTypeAnnotations(misplacedAnnotations[0], misplacedAnnotations[misplacedAnnotations.length - 1]);
				tolerated = true;
			}
			else 
				problemReporter().misplacedTypeAnnotations(misplacedAnnotations[0], misplacedAnnotations[misplacedAnnotations.length - 1]);
		}
	}
	if (!tolerated) {
		typeReference.annotations = null;
		typeReference.setAnnotationsOnDimensions(null);
		typeReference.bits &= ~ASTNode.HasTypeAnnotations;
	}
}
protected void consumePrimaryNoNewArrayNameSuper() {
	// PrimaryNoNewArray ::= Name '.' 'super'
	// handle type arguments
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	pushOnGenericsLengthStack(0);
	// javac does not accept annotations here anywhere ...
	TypeReference typeReference = getTypeReference(0);
	rejectIllegalTypeAnnotations(typeReference);
	pushOnExpressionStack(
		new QualifiedSuperReference(
			typeReference,
			this.intStack[this.intPtr--],
			this.endPosition));
}
protected void consumePrimaryNoNewArrayNameThis() {
	// PrimaryNoNewArray ::= Name '.' 'this'
	// handle type arguments
	pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
	pushOnGenericsLengthStack(0); // handle type arguments
	// javac does not accept annotations here anywhere ...
	TypeReference typeReference = getTypeReference(0);
	rejectIllegalTypeAnnotations(typeReference);
	pushOnExpressionStack(
		new QualifiedThisReference(
			typeReference,
			this.intStack[this.intPtr--],
			this.endPosition));
}
protected void consumePrimaryNoNewArrayPrimitiveArrayType() {
	// PrimaryNoNewArray ::= PrimitiveType Dims '.' 'class'
	this.intPtr--; // remove the class start position
	ClassLiteralAccess cla;
	pushOnExpressionStack(
		cla = new ClassLiteralAccess(this.intStack[this.intPtr--], getTypeReference(this.intStack[this.intPtr--])));
	rejectIllegalTypeAnnotations(cla.type, true /* tolerate annotations on dimensions for bug compatibility for now */);
}
protected void consumePrimaryNoNewArrayPrimitiveType() {
	// PrimaryNoNewArray ::= PrimitiveType '.' 'class'
	this.intPtr--; // remove the class start position
	ClassLiteralAccess cla;
	pushOnExpressionStack(
		cla = new ClassLiteralAccess(this.intStack[this.intPtr--], getTypeReference(0)));
	rejectIllegalTypeAnnotations(cla.type);
}
protected void consumePrimaryNoNewArrayThis() {
	// PrimaryNoNewArray ::= 'this'
	pushOnExpressionStack(new ThisReference(this.intStack[this.intPtr--], this.endPosition));
}
protected void consumePrimaryNoNewArrayWithName() {
	// PrimaryNoNewArray ::=  PushLPAREN Name PushRPAREN
	pushOnExpressionStack(getUnspecifiedReferenceOptimized());
	final Expression parenthesizedExpression = this.expressionStack[this.expressionPtr];
	updateSourcePosition(parenthesizedExpression);
	int numberOfParenthesis = (parenthesizedExpression.bits & ASTNode.ParenthesizedMASK) >> ASTNode.ParenthesizedSHIFT;
	parenthesizedExpression.bits &= ~ASTNode.ParenthesizedMASK;
	parenthesizedExpression.bits |= (numberOfParenthesis + 1) << ASTNode.ParenthesizedSHIFT;
}
protected void consumePrimitiveArrayType() {
	// nothing to do
	// Will be consume by a getTypeRefence call
}
protected void consumePrimitiveType() {
	// Type ::= PrimitiveType
	pushOnIntStack(0);
}
protected void consumePushLeftBrace() {
	pushOnIntStack(this.endPosition); // modifiers
}
protected void consumePushModifiers() {
	pushOnIntStack(this.modifiers); // modifiers
	pushOnIntStack(this.modifiersSourceStart);
	resetModifiers();
	pushOnExpressionStackLengthStack(0);
}
protected void consumePushCombineModifiers() {
	// ModifiersWithDefault ::= Modifiersopt 'default' Modifiersopt'
	// int stack on entry : ... Modifiers, ModifiersSourceStart, defaultSourceStart, defaultSourceEnd, Modifiers', Modifiers'SourceStart <<--- intPtr
	// int stack on exit : ... combinedModifiers, combinedModifiersSourceStart <<--- intPtr
	
	this.intPtr--; // pop modifiers'SourceStart, real location is with earlier block
	int newModifiers = this.intStack[this.intPtr--] | ExtraCompilerModifiers.AccDefaultMethod; // pop modifiers
	this.intPtr -= 2; // pop location of 'default' keyword
	
	if ((this.intStack[this.intPtr - 1] & newModifiers) != 0) { // duplicate modifier(s) ?
		newModifiers |= ExtraCompilerModifiers.AccAlternateModifierProblem;
	}
	this.intStack[this.intPtr - 1] |= newModifiers; // merge them in place
	// Also fix number of annotations-modifiers:
	this.expressionLengthStack[this.expressionLengthPtr - 1] += this.expressionLengthStack[this.expressionLengthPtr--];
	if (this.currentElement != null) {
		this.currentElement.addModifier(newModifiers, this.intStack[this.intPtr]);
	}
}
protected void consumePushModifiersForHeader() {
	checkComment(); // might update modifiers with AccDeprecated
	pushOnIntStack(this.modifiers); // modifiers
	pushOnIntStack(this.modifiersSourceStart);
	resetModifiers();
	pushOnExpressionStackLengthStack(0);
}
protected void consumePushPosition() {
	// for source managment purpose
	// PushPosition ::= $empty
	pushOnIntStack(this.endPosition);
}
protected void consumePushRealModifiers() {
	checkComment(); // might update modifiers with AccDeprecated
	pushOnIntStack(this.modifiers); // modifiers
	pushOnIntStack(this.modifiersSourceStart);
	resetModifiers();
}
protected void consumeQualifiedName(boolean qualifiedNameIsAnnotated) {
	// QualifiedName ::= Name '.' SimpleName
	// QualifiedName ::= Name '.' TypeAnnotations SimpleName 
	/*back from the recursive loop of QualifiedName.
	Updates identifier length into the length stack*/

	this.identifierLengthStack[--this.identifierLengthPtr]++;
	if (!qualifiedNameIsAnnotated) {
		pushOnTypeAnnotationLengthStack(0);
	}
}
protected void consumeUnannotatableQualifiedName() {
	// UnannotatableName ::= UnannotatableName '.' SimpleName
	this.identifierLengthStack[--this.identifierLengthPtr]++;
}
protected void consumeRecoveryMethodHeaderName() {
	// this method is call only inside recovery
	boolean isAnnotationMethod = false;
	if(this.currentElement instanceof RecoveredType) {
		isAnnotationMethod = (((RecoveredType)this.currentElement).typeDeclaration.modifiers & ClassFileConstants.AccAnnotation) != 0;
	} else {
		RecoveredType recoveredType = this.currentElement.enclosingType();
		if(recoveredType != null) {
			isAnnotationMethod = (recoveredType.typeDeclaration.modifiers & ClassFileConstants.AccAnnotation) != 0;
		}
	}
	consumeMethodHeaderName(isAnnotationMethod);
}
protected void consumeRecoveryMethodHeaderNameWithTypeParameters() {
	// this method is call only inside recovery
	boolean isAnnotationMethod = false;
	if(this.currentElement instanceof RecoveredType) {
		isAnnotationMethod = (((RecoveredType)this.currentElement).typeDeclaration.modifiers & ClassFileConstants.AccAnnotation) != 0;
	} else {
		RecoveredType recoveredType = this.currentElement.enclosingType();
		if(recoveredType != null) {
			isAnnotationMethod = (recoveredType.typeDeclaration.modifiers & ClassFileConstants.AccAnnotation) != 0;
		}
	}
	consumeMethodHeaderNameWithTypeParameters(isAnnotationMethod);
}
protected void consumeReduceImports() {
	// Consume imports
	int length;
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		this.astPtr -= length;
		System.arraycopy(
			this.astStack,
			this.astPtr + 1,
			this.compilationUnit.imports = new ImportReference[length],
			0,
			length);
	}
}
protected void consumeReferenceType() {
	pushOnIntStack(0); // handle array type
}
protected void consumeReferenceType1() {
	pushOnGenericsStack(getTypeReference(this.intStack[this.intPtr--]));
}
protected void consumeReferenceType2() {
	pushOnGenericsStack(getTypeReference(this.intStack[this.intPtr--]));
}
protected void consumeReferenceType3() {
	pushOnGenericsStack(getTypeReference(this.intStack[this.intPtr--]));
}
protected void consumeResourceAsLocalVariableDeclaration() {
	// Resource ::= Type PushModifiers VariableDeclaratorId EnterVariable '=' ForceNoDiet VariableInitializer RestoreDiet ExitVariableWithInitialization
	// Resource ::= Modifiers Type PushRealModifiers VariableDeclaratorId EnterVariable '=' ForceNoDiet VariableInitializer RestoreDiet ExitVariableWithInitialization
	consumeLocalVariableDeclaration();
}
protected void consumeResourceSpecification() {
	// ResourceSpecification ::= '(' Resources ')'
}
protected void consumeResourceOptionalTrailingSemiColon(boolean punctuated) {
	// TrailingSemiColon ::= ';'
	LocalDeclaration localDeclaration = (LocalDeclaration) this.astStack[this.astPtr];
	if (punctuated) {
		localDeclaration.declarationSourceEnd = this.endStatementPosition;
	}
}
protected void consumeRestoreDiet() {
	// RestoreDiet ::= $empty
	this.dietInt--;
}
protected void consumeRightParen() {
	// PushRPAREN ::= ')'
	pushOnIntStack(this.rParenPos);
}
protected void consumeNonTypeUseName() { // https://bugs.eclipse.org/bugs/show_bug.cgi?id=383596
	// RejectTypeAnnotations ::= $empty
	// We can get here with type annotation stack empty, because completion parser manipulates the identifier stacks even without rule reduction. See completionIdentifierCheck
	for (int i = this.identifierLengthStack[this.identifierLengthPtr]; i > 0 && this.typeAnnotationLengthPtr >= 0; --i) {
		int length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--];
		Annotation [] typeAnnotations;
		if (length != 0) {
			System.arraycopy(
					this.typeAnnotationStack,
					(this.typeAnnotationPtr -= length) + 1,
					typeAnnotations = new Annotation[length],
					0,
					length);
			problemReporter().misplacedTypeAnnotations(typeAnnotations[0], typeAnnotations[typeAnnotations.length - 1]);
		}
	}
}
protected void consumeZeroTypeAnnotations() {
	// PushZeroTypeAnnotations ::= $empty
	// Name ::= SimpleName
	// TypeAnnotationsopt ::= $empty
	pushOnTypeAnnotationLengthStack(0); // signal absence of @308 annotations.
}
// This method is part of an automatic generation : do NOT edit-modify
protected void consumeRule(int act) {
  switch ( act ) {
    case 35 : if (DEBUG) { System.out.println("Type ::= PrimitiveType"); }  //$NON-NLS-1$
		    consumePrimitiveType();  
			break;
 
    case 49 : if (DEBUG) { System.out.println("ReferenceType ::= ClassOrInterfaceType"); }  //$NON-NLS-1$
		    consumeReferenceType();  
			break;
 
    case 53 : if (DEBUG) { System.out.println("ClassOrInterface ::= Name"); }  //$NON-NLS-1$
		    consumeClassOrInterfaceName();  
			break;
 
    case 54 : if (DEBUG) { System.out.println("ClassOrInterface ::= GenericType DOT Name"); }  //$NON-NLS-1$
		    consumeClassOrInterface();  
			break;
 
    case 55 : if (DEBUG) { System.out.println("GenericType ::= ClassOrInterface TypeArguments"); }  //$NON-NLS-1$
		    consumeGenericType();  
			break;
 
    case 56 : if (DEBUG) { System.out.println("GenericType ::= ClassOrInterface LESS GREATER"); }  //$NON-NLS-1$
		    consumeGenericTypeWithDiamond();  
			break;
 
    case 57 : if (DEBUG) { System.out.println("ArrayTypeWithTypeArgumentsName ::= GenericType DOT Name"); }  //$NON-NLS-1$
		    consumeArrayTypeWithTypeArgumentsName();  
			break;
 
    case 58 : if (DEBUG) { System.out.println("ArrayType ::= PrimitiveType Dims"); }  //$NON-NLS-1$
		    consumePrimitiveArrayType();  
			break;
 
    case 59 : if (DEBUG) { System.out.println("ArrayType ::= Name Dims"); }  //$NON-NLS-1$
		    consumeNameArrayType();  
			break;
 
    case 60 : if (DEBUG) { System.out.println("ArrayType ::= ArrayTypeWithTypeArgumentsName Dims"); }  //$NON-NLS-1$
		    consumeGenericTypeNameArrayType();  
			break;
 
    case 61 : if (DEBUG) { System.out.println("ArrayType ::= GenericType Dims"); }  //$NON-NLS-1$
		    consumeGenericTypeArrayType();  
			break;
 
    case 63 : if (DEBUG) { System.out.println("Name ::= SimpleName"); }  //$NON-NLS-1$
		    consumeZeroTypeAnnotations();  
			break;
 
    case 68 : if (DEBUG) { System.out.println("UnannotatableName ::= UnannotatableName DOT SimpleName"); }  //$NON-NLS-1$
		    consumeUnannotatableQualifiedName();  
			break;
 
    case 69 : if (DEBUG) { System.out.println("QualifiedName ::= Name DOT SimpleName"); }  //$NON-NLS-1$
		    consumeQualifiedName(false);  
			break;
 
    case 70 : if (DEBUG) { System.out.println("QualifiedName ::= Name DOT TypeAnnotations SimpleName"); }  //$NON-NLS-1$
		    consumeQualifiedName(true);  
			break;
 
    case 71 : if (DEBUG) { System.out.println("TypeAnnotationsopt ::="); }  //$NON-NLS-1$
		    consumeZeroTypeAnnotations();  
			break;
 
     case 75 : if (DEBUG) { System.out.println("TypeAnnotations0 ::= TypeAnnotations0 TypeAnnotation"); }  //$NON-NLS-1$
		    consumeOneMoreTypeAnnotation();  
			break;
 
     case 76 : if (DEBUG) { System.out.println("TypeAnnotation ::= NormalTypeAnnotation"); }  //$NON-NLS-1$
		    consumeTypeAnnotation();  
			break;
 
     case 77 : if (DEBUG) { System.out.println("TypeAnnotation ::= MarkerTypeAnnotation"); }  //$NON-NLS-1$
		    consumeTypeAnnotation();  
			break;
 
     case 78 : if (DEBUG) { System.out.println("TypeAnnotation ::= SingleMemberTypeAnnotation"); }  //$NON-NLS-1$
		    consumeTypeAnnotation();  
			break;
 
    case 79 : if (DEBUG) { System.out.println("TypeAnnotationName ::= AT308 UnannotatableName"); }  //$NON-NLS-1$
		    consumeAnnotationName() ;  
			break;
 
    case 80 : if (DEBUG) { System.out.println("NormalTypeAnnotation ::= TypeAnnotationName LPAREN..."); }  //$NON-NLS-1$
		    consumeNormalAnnotation(true) ;  
			break;
 
    case 81 : if (DEBUG) { System.out.println("MarkerTypeAnnotation ::= TypeAnnotationName"); }  //$NON-NLS-1$
		    consumeMarkerAnnotation(true) ;  
			break;
 
    case 82 : if (DEBUG) { System.out.println("SingleMemberTypeAnnotation ::= TypeAnnotationName LPAREN"); }  //$NON-NLS-1$
		    consumeSingleMemberAnnotation(true) ;  
			break;
 
    case 83 : if (DEBUG) { System.out.println("RejectTypeAnnotations ::="); }  //$NON-NLS-1$
		    consumeNonTypeUseName();  
			break;
 
    case 84 : if (DEBUG) { System.out.println("PushZeroTypeAnnotations ::="); }  //$NON-NLS-1$
		    consumeZeroTypeAnnotations();  
			break;
 
    case 85 : if (DEBUG) { System.out.println("VariableDeclaratorIdOrThis ::= this"); }  //$NON-NLS-1$
		    consumeExplicitThisParameter(false);  
			break;
 
    case 86 : if (DEBUG) { System.out.println("VariableDeclaratorIdOrThis ::= UnannotatableName DOT this"); }  //$NON-NLS-1$
		    consumeExplicitThisParameter(true);  
			break;
 
    case 87 : if (DEBUG) { System.out.println("VariableDeclaratorIdOrThis ::= VariableDeclaratorId"); }  //$NON-NLS-1$
		    consumeVariableDeclaratorIdParameter();  
			break;
 
    case 88 : if (DEBUG) { System.out.println("CompilationUnit ::= EnterCompilationUnit..."); }  //$NON-NLS-1$
		    consumeCompilationUnit();  
			break;
 
    case 89 : if (DEBUG) { System.out.println("InternalCompilationUnit ::= PackageDeclaration"); }  //$NON-NLS-1$
		    consumeInternalCompilationUnit();  
			break;
 
    case 90 : if (DEBUG) { System.out.println("InternalCompilationUnit ::= PackageDeclaration..."); }  //$NON-NLS-1$
		    consumeInternalCompilationUnit();  
			break;
 
    case 91 : if (DEBUG) { System.out.println("InternalCompilationUnit ::= PackageDeclaration..."); }  //$NON-NLS-1$
		    consumeInternalCompilationUnitWithTypes();  
			break;
 
    case 92 : if (DEBUG) { System.out.println("InternalCompilationUnit ::= PackageDeclaration..."); }  //$NON-NLS-1$
		    consumeInternalCompilationUnitWithTypes();  
			break;
 
    case 93 : if (DEBUG) { System.out.println("InternalCompilationUnit ::= ImportDeclarations..."); }  //$NON-NLS-1$
		    consumeInternalCompilationUnit();  
			break;
 
    case 94 : if (DEBUG) { System.out.println("InternalCompilationUnit ::= TypeDeclarations"); }  //$NON-NLS-1$
		    consumeInternalCompilationUnitWithTypes();  
			break;
 
    case 95 : if (DEBUG) { System.out.println("InternalCompilationUnit ::= ImportDeclarations..."); }  //$NON-NLS-1$
		    consumeInternalCompilationUnitWithTypes();  
			break;
 
    case 96 : if (DEBUG) { System.out.println("InternalCompilationUnit ::="); }  //$NON-NLS-1$
		    consumeEmptyInternalCompilationUnit();  
			break;
 
    case 97 : if (DEBUG) { System.out.println("ReduceImports ::="); }  //$NON-NLS-1$
		    consumeReduceImports();  
			break;
 
    case 98 : if (DEBUG) { System.out.println("EnterCompilationUnit ::="); }  //$NON-NLS-1$
		    consumeEnterCompilationUnit();  
			break;
 
    case 114 : if (DEBUG) { System.out.println("CatchHeader ::= catch LPAREN CatchFormalParameter RPAREN"); }  //$NON-NLS-1$
		    consumeCatchHeader();  
			break;
 
    case 116 : if (DEBUG) { System.out.println("ImportDeclarations ::= ImportDeclarations..."); }  //$NON-NLS-1$
		    consumeImportDeclarations();  
			break;
 
    case 118 : if (DEBUG) { System.out.println("TypeDeclarations ::= TypeDeclarations TypeDeclaration"); }  //$NON-NLS-1$
		    consumeTypeDeclarations();  
			break;
 
    case 119 : if (DEBUG) { System.out.println("PackageDeclaration ::= PackageDeclarationName SEMICOLON"); }  //$NON-NLS-1$
		    consumePackageDeclaration();  
			break;
 
    case 120 : if (DEBUG) { System.out.println("PackageDeclarationName ::= Modifiers package..."); }  //$NON-NLS-1$
		    consumePackageDeclarationNameWithModifiers();  
			break;
 
    case 121 : if (DEBUG) { System.out.println("PackageDeclarationName ::= PackageComment package Name"); }  //$NON-NLS-1$
		    consumePackageDeclarationName();  
			break;
 
    case 122 : if (DEBUG) { System.out.println("PackageComment ::="); }  //$NON-NLS-1$
		    consumePackageComment();  
			break;
 
    case 127 : if (DEBUG) { System.out.println("SingleTypeImportDeclaration ::=..."); }  //$NON-NLS-1$
		    consumeImportDeclaration();  
			break;
 
    case 128 : if (DEBUG) { System.out.println("SingleTypeImportDeclarationName ::= import Name..."); }  //$NON-NLS-1$
		    consumeSingleTypeImportDeclarationName();  
			break;
 
    case 129 : if (DEBUG) { System.out.println("TypeImportOnDemandDeclaration ::=..."); }  //$NON-NLS-1$
		    consumeImportDeclaration();  
			break;
 
    case 130 : if (DEBUG) { System.out.println("TypeImportOnDemandDeclarationName ::= import Name DOT..."); }  //$NON-NLS-1$
		    consumeTypeImportOnDemandDeclarationName();  
			break;
 
     case 133 : if (DEBUG) { System.out.println("TypeDeclaration ::= SEMICOLON"); }  //$NON-NLS-1$
		    consumeEmptyTypeDeclaration();  
			break;
 
    case 137 : if (DEBUG) { System.out.println("Modifiers ::= Modifiers Modifier"); }  //$NON-NLS-1$
		    consumeModifiers2();  
			break;
 
    case 149 : if (DEBUG) { System.out.println("Modifier ::= Annotation"); }  //$NON-NLS-1$
		    consumeAnnotationAsModifier();  
			break;
 
    case 150 : if (DEBUG) { System.out.println("ClassDeclaration ::= ClassHeader ClassBody"); }  //$NON-NLS-1$
		    consumeClassDeclaration();  
			break;
 
    case 151 : if (DEBUG) { System.out.println("ClassHeader ::= ClassHeaderName ClassHeaderExtendsopt..."); }  //$NON-NLS-1$
		    consumeClassHeader();  
			break;
 
    case 152 : if (DEBUG) { System.out.println("ClassHeaderName ::= ClassHeaderName1 TypeParameters"); }  //$NON-NLS-1$
		    consumeTypeHeaderNameWithTypeParameters();  
			break;
 
    case 154 : if (DEBUG) { System.out.println("ClassHeaderName1 ::= Modifiersopt class Identifier"); }  //$NON-NLS-1$
		    consumeClassHeaderName1();  
			break;
 
    case 155 : if (DEBUG) { System.out.println("ClassHeaderExtends ::= extends ClassType"); }  //$NON-NLS-1$
		    consumeClassHeaderExtends();  
			break;
 
    case 156 : if (DEBUG) { System.out.println("ClassHeaderImplements ::= implements InterfaceTypeList"); }  //$NON-NLS-1$
		    consumeClassHeaderImplements();  
			break;
 
    case 158 : if (DEBUG) { System.out.println("InterfaceTypeList ::= InterfaceTypeList COMMA..."); }  //$NON-NLS-1$
		    consumeInterfaceTypeList();  
			break;
 
    case 159 : if (DEBUG) { System.out.println("InterfaceType ::= ClassOrInterfaceType"); }  //$NON-NLS-1$
		    consumeInterfaceType();  
			break;
 
    case 162 : if (DEBUG) { System.out.println("ClassBodyDeclarations ::= ClassBodyDeclarations..."); }  //$NON-NLS-1$
		    consumeClassBodyDeclarations();  
			break;
 
    case 166 : if (DEBUG) { System.out.println("ClassBodyDeclaration ::= Diet NestedMethod..."); }  //$NON-NLS-1$
		    consumeClassBodyDeclaration();  
			break;
 
    case 167 : if (DEBUG) { System.out.println("Diet ::="); }  //$NON-NLS-1$
		    consumeDiet();  
			break;

    case 168 : if (DEBUG) { System.out.println("Initializer ::= Diet NestedMethod CreateInitializer..."); }  //$NON-NLS-1$
		    consumeClassBodyDeclaration();  
			break;
 
    case 169 : if (DEBUG) { System.out.println("CreateInitializer ::="); }  //$NON-NLS-1$
		    consumeCreateInitializer();  
			break;

    case 176 : if (DEBUG) { System.out.println("ClassMemberDeclaration ::= SEMICOLON"); }  //$NON-NLS-1$
		    consumeEmptyTypeDeclaration();  
			break;

    case 179 : if (DEBUG) { System.out.println("FieldDeclaration ::= Modifiersopt Type..."); }  //$NON-NLS-1$
		    consumeFieldDeclaration();  
			break;
 
    case 181 : if (DEBUG) { System.out.println("VariableDeclarators ::= VariableDeclarators COMMA..."); }  //$NON-NLS-1$
		    consumeVariableDeclarators();  
			break;
 
    case 184 : if (DEBUG) { System.out.println("EnterVariable ::="); }  //$NON-NLS-1$
		    consumeEnterVariable();  
			break;
 
    case 185 : if (DEBUG) { System.out.println("ExitVariableWithInitialization ::="); }  //$NON-NLS-1$
		    consumeExitVariableWithInitialization();  
			break;
 
    case 186 : if (DEBUG) { System.out.println("ExitVariableWithoutInitialization ::="); }  //$NON-NLS-1$
		    consumeExitVariableWithoutInitialization();  
			break;
 
    case 187 : if (DEBUG) { System.out.println("ForceNoDiet ::="); }  //$NON-NLS-1$
		    consumeForceNoDiet();  
			break;
 
    case 188 : if (DEBUG) { System.out.println("RestoreDiet ::="); }  //$NON-NLS-1$
		    consumeRestoreDiet();  
			break;
 
    case 193 : if (DEBUG) { System.out.println("MethodDeclaration ::= MethodHeader MethodBody"); }  //$NON-NLS-1$
		    // set to true to consume a method with a body
 consumeMethodDeclaration(true, false);  
			break;
 
    case 194 : if (DEBUG) { System.out.println("MethodDeclaration ::= DefaultMethodHeader MethodBody"); }  //$NON-NLS-1$
		    // set to true to consume a method with a body
 consumeMethodDeclaration(true, true);  
			break;
 
    case 195 : if (DEBUG) { System.out.println("AbstractMethodDeclaration ::= MethodHeader SEMICOLON"); }  //$NON-NLS-1$
		    // set to false to consume a method without body
 consumeMethodDeclaration(false, false);  
			break;
 
    case 196 : if (DEBUG) { System.out.println("MethodHeader ::= MethodHeaderName FormalParameterListopt"); }  //$NON-NLS-1$
		    consumeMethodHeader();  
			break;
 
    case 197 : if (DEBUG) { System.out.println("DefaultMethodHeader ::= DefaultMethodHeaderName..."); }  //$NON-NLS-1$
		    consumeMethodHeader();  
			break;
 
    case 198 : if (DEBUG) { System.out.println("MethodHeaderName ::= Modifiersopt TypeParameters Type..."); }  //$NON-NLS-1$
		    consumeMethodHeaderNameWithTypeParameters(false);  
			break;
 
    case 199 : if (DEBUG) { System.out.println("MethodHeaderName ::= Modifiersopt Type Identifier LPAREN"); }  //$NON-NLS-1$
		    consumeMethodHeaderName(false);  
			break;
 
    case 200 : if (DEBUG) { System.out.println("DefaultMethodHeaderName ::= ModifiersWithDefault..."); }  //$NON-NLS-1$
		    consumeMethodHeaderNameWithTypeParameters(false);  
			break;
 
    case 201 : if (DEBUG) { System.out.println("DefaultMethodHeaderName ::= ModifiersWithDefault Type..."); }  //$NON-NLS-1$
		    consumeMethodHeaderName(false);  
			break;
 
    case 202 : if (DEBUG) { System.out.println("ModifiersWithDefault ::= Modifiersopt default..."); }  //$NON-NLS-1$
		    consumePushCombineModifiers();  
			break;
 
    case 203 : if (DEBUG) { System.out.println("MethodHeaderRightParen ::= RPAREN"); }  //$NON-NLS-1$
		    consumeMethodHeaderRightParen();  
			break;
 
    case 204 : if (DEBUG) { System.out.println("MethodHeaderExtendedDims ::= Dimsopt"); }  //$NON-NLS-1$
		    consumeMethodHeaderExtendedDims();  
			break;
 
    case 205 : if (DEBUG) { System.out.println("MethodHeaderThrowsClause ::= throws ClassTypeList"); }  //$NON-NLS-1$
		    consumeMethodHeaderThrowsClause();  
			break;
 
    case 206 : if (DEBUG) { System.out.println("ConstructorHeader ::= ConstructorHeaderName..."); }  //$NON-NLS-1$
		    consumeConstructorHeader();  
			break;
 
    case 207 : if (DEBUG) { System.out.println("ConstructorHeaderName ::= Modifiersopt TypeParameters..."); }  //$NON-NLS-1$
		    consumeConstructorHeaderNameWithTypeParameters();  
			break;
 
    case 208 : if (DEBUG) { System.out.println("ConstructorHeaderName ::= Modifiersopt Identifier LPAREN"); }  //$NON-NLS-1$
		    consumeConstructorHeaderName();  
			break;
 
    case 210 : if (DEBUG) { System.out.println("FormalParameterList ::= FormalParameterList COMMA..."); }  //$NON-NLS-1$
		    consumeFormalParameterList();  
			break;
 
    case 211 : if (DEBUG) { System.out.println("FormalParameter ::= Modifiersopt Type..."); }  //$NON-NLS-1$
		    consumeFormalParameter(false);  
			break;
 
    case 212 : if (DEBUG) { System.out.println("FormalParameter ::= Modifiersopt Type..."); }  //$NON-NLS-1$
		    consumeFormalParameter(true);  
			break;
 
    case 213 : if (DEBUG) { System.out.println("FormalParameter ::= Modifiersopt Type AT308DOTDOTDOT..."); }  //$NON-NLS-1$
		    consumeFormalParameter(true);  
			break;
 
    case 214 : if (DEBUG) { System.out.println("CatchFormalParameter ::= Modifiersopt CatchType..."); }  //$NON-NLS-1$
		    consumeCatchFormalParameter();  
			break;
 
    case 215 : if (DEBUG) { System.out.println("CatchType ::= UnionType"); }  //$NON-NLS-1$
		    consumeCatchType();  
			break;
 
    case 216 : if (DEBUG) { System.out.println("UnionType ::= Type"); }  //$NON-NLS-1$
		    consumeUnionTypeAsClassType();  
			break;
 
    case 217 : if (DEBUG) { System.out.println("UnionType ::= UnionType OR Type"); }  //$NON-NLS-1$
		    consumeUnionType();  
			break;
 
    case 219 : if (DEBUG) { System.out.println("ClassTypeList ::= ClassTypeList COMMA ClassTypeElt"); }  //$NON-NLS-1$
		    consumeClassTypeList();  
			break;
 
    case 220 : if (DEBUG) { System.out.println("ClassTypeElt ::= ClassType"); }  //$NON-NLS-1$
		    consumeClassTypeElt();  
			break;
 
    case 221 : if (DEBUG) { System.out.println("MethodBody ::= NestedMethod LBRACE BlockStatementsopt..."); }  //$NON-NLS-1$
		    consumeMethodBody();  
			break;
 
    case 222 : if (DEBUG) { System.out.println("NestedMethod ::="); }  //$NON-NLS-1$
		    consumeNestedMethod();  
			break;
 
    case 223 : if (DEBUG) { System.out.println("StaticInitializer ::= StaticOnly Block"); }  //$NON-NLS-1$
		    consumeStaticInitializer();  
			break;

    case 224 : if (DEBUG) { System.out.println("StaticOnly ::= static"); }  //$NON-NLS-1$
		    consumeStaticOnly();  
			break;
 
    case 225 : if (DEBUG) { System.out.println("ConstructorDeclaration ::= ConstructorHeader MethodBody"); }  //$NON-NLS-1$
		    consumeConstructorDeclaration() ;  
			break;
 
    case 226 : if (DEBUG) { System.out.println("ConstructorDeclaration ::= ConstructorHeader SEMICOLON"); }  //$NON-NLS-1$
		    consumeInvalidConstructorDeclaration() ;  
			break;
 
    case 227 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= this LPAREN..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocation(0, THIS_CALL);  
			break;
 
    case 228 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= OnlyTypeArguments this"); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocationWithTypeArguments(0,THIS_CALL);  
			break;
 
    case 229 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= super LPAREN..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocation(0,SUPER_CALL);  
			break;
 
    case 230 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= OnlyTypeArguments..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocationWithTypeArguments(0,SUPER_CALL);  
			break;
 
    case 231 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= Primary DOT super..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocation(1, SUPER_CALL);  
			break;
 
    case 232 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= Primary DOT..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocationWithTypeArguments(1, SUPER_CALL);  
			break;
 
    case 233 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= Name DOT super LPAREN"); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocation(2, SUPER_CALL);  
			break;
 
    case 234 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= Name DOT..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocationWithTypeArguments(2, SUPER_CALL);  
			break;
 
    case 235 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= Primary DOT this..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocation(1, THIS_CALL);  
			break;
 
    case 236 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= Primary DOT..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocationWithTypeArguments(1, THIS_CALL);  
			break;
 
    case 237 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= Name DOT this LPAREN"); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocation(2, THIS_CALL);  
			break;
 
    case 238 : if (DEBUG) { System.out.println("ExplicitConstructorInvocation ::= Name DOT..."); }  //$NON-NLS-1$
		    consumeExplicitConstructorInvocationWithTypeArguments(2, THIS_CALL);  
			break;
 
    case 239 : if (DEBUG) { System.out.println("InterfaceDeclaration ::= InterfaceHeader InterfaceBody"); }  //$NON-NLS-1$
		    consumeInterfaceDeclaration();  
			break;
 
    case 240 : if (DEBUG) { System.out.println("InterfaceHeader ::= InterfaceHeaderName..."); }  //$NON-NLS-1$
		    consumeInterfaceHeader();  
			break;
 
    case 241 : if (DEBUG) { System.out.println("InterfaceHeaderName ::= InterfaceHeaderName1..."); }  //$NON-NLS-1$
		    consumeTypeHeaderNameWithTypeParameters();  
			break;
 
    case 243 : if (DEBUG) { System.out.println("InterfaceHeaderName1 ::= Modifiersopt interface..."); }  //$NON-NLS-1$
		    consumeInterfaceHeaderName1();  
			break;
 
    case 244 : if (DEBUG) { System.out.println("InterfaceHeaderExtends ::= extends InterfaceTypeList"); }  //$NON-NLS-1$
		    consumeInterfaceHeaderExtends();  
			break;
 
    case 247 : if (DEBUG) { System.out.println("InterfaceMemberDeclarations ::=..."); }  //$NON-NLS-1$
		    consumeInterfaceMemberDeclarations();  
			break;
 
    case 248 : if (DEBUG) { System.out.println("InterfaceMemberDeclaration ::= SEMICOLON"); }  //$NON-NLS-1$
		    consumeEmptyTypeDeclaration();  
			break;
 
    case 250 : if (DEBUG) { System.out.println("InterfaceMemberDeclaration ::= DefaultMethodHeader..."); }  //$NON-NLS-1$
		    consumeInterfaceMethodDeclaration(false);  
			break;
 
    case 251 : if (DEBUG) { System.out.println("InterfaceMemberDeclaration ::= MethodHeader MethodBody"); }  //$NON-NLS-1$
		    consumeInterfaceMethodDeclaration(false);  
			break;
 
    case 252 : if (DEBUG) { System.out.println("InterfaceMemberDeclaration ::= DefaultMethodHeader..."); }  //$NON-NLS-1$
		    consumeInterfaceMethodDeclaration(true);  
			break;
 
    case 253 : if (DEBUG) { System.out.println("InvalidConstructorDeclaration ::= ConstructorHeader..."); }  //$NON-NLS-1$
		    consumeInvalidConstructorDeclaration(true);  
			break;
 
    case 254 : if (DEBUG) { System.out.println("InvalidConstructorDeclaration ::= ConstructorHeader..."); }  //$NON-NLS-1$
		    consumeInvalidConstructorDeclaration(false);  
			break;
 
    case 265 : if (DEBUG) { System.out.println("PushLeftBrace ::="); }  //$NON-NLS-1$
		    consumePushLeftBrace();  
			break;
 
    case 266 : if (DEBUG) { System.out.println("ArrayInitializer ::= LBRACE PushLeftBrace ,opt RBRACE"); }  //$NON-NLS-1$
		    consumeEmptyArrayInitializer();  
			break;
 
    case 267 : if (DEBUG) { System.out.println("ArrayInitializer ::= LBRACE PushLeftBrace..."); }  //$NON-NLS-1$
		    consumeArrayInitializer();  
			break;
 
    case 268 : if (DEBUG) { System.out.println("ArrayInitializer ::= LBRACE PushLeftBrace..."); }  //$NON-NLS-1$
		    consumeArrayInitializer();  
			break;
 
    case 270 : if (DEBUG) { System.out.println("VariableInitializers ::= VariableInitializers COMMA..."); }  //$NON-NLS-1$
		    consumeVariableInitializers();  
			break;
 
    case 271 : if (DEBUG) { System.out.println("Block ::= OpenBlock LBRACE BlockStatementsopt RBRACE"); }  //$NON-NLS-1$
		    consumeBlock();  
			break;
 
    case 272 : if (DEBUG) { System.out.println("OpenBlock ::="); }  //$NON-NLS-1$
		    consumeOpenBlock() ;  
			break;
 
    case 273 : if (DEBUG) { System.out.println("BlockStatements ::= BlockStatement"); }  //$NON-NLS-1$
		    consumeBlockStatement() ;  
			break;
 
    case 274 : if (DEBUG) { System.out.println("BlockStatements ::= BlockStatements BlockStatement"); }  //$NON-NLS-1$
		    consumeBlockStatements() ;  
			break;
 
    case 281 : if (DEBUG) { System.out.println("BlockStatement ::= InterfaceDeclaration"); }  //$NON-NLS-1$
		    consumeInvalidInterfaceDeclaration();  
			break;
 
    case 282 : if (DEBUG) { System.out.println("BlockStatement ::= AnnotationTypeDeclaration"); }  //$NON-NLS-1$
		    consumeInvalidAnnotationTypeDeclaration();  
			break;
 
    case 283 : if (DEBUG) { System.out.println("BlockStatement ::= EnumDeclaration"); }  //$NON-NLS-1$
		    consumeInvalidEnumDeclaration();  
			break;
 
    case 284 : if (DEBUG) { System.out.println("LocalVariableDeclarationStatement ::=..."); }  //$NON-NLS-1$
		    consumeLocalVariableDeclarationStatement();  
			break;
 
    case 285 : if (DEBUG) { System.out.println("LocalVariableDeclaration ::= Type PushModifiers..."); }  //$NON-NLS-1$
		    consumeLocalVariableDeclaration();  
			break;
 
    case 286 : if (DEBUG) { System.out.println("LocalVariableDeclaration ::= Modifiers Type..."); }  //$NON-NLS-1$
		    consumeLocalVariableDeclaration();  
			break;
 
    case 287 : if (DEBUG) { System.out.println("PushModifiers ::="); }  //$NON-NLS-1$
		    consumePushModifiers();  
			break;
 
    case 288 : if (DEBUG) { System.out.println("PushModifiersForHeader ::="); }  //$NON-NLS-1$
		    consumePushModifiersForHeader();  
			break;
 
    case 289 : if (DEBUG) { System.out.println("PushRealModifiers ::="); }  //$NON-NLS-1$
		    consumePushRealModifiers();  
			break;
 
    case 316 : if (DEBUG) { System.out.println("EmptyStatement ::= SEMICOLON"); }  //$NON-NLS-1$
		    consumeEmptyStatement();  
			break;
 
    case 317 : if (DEBUG) { System.out.println("LabeledStatement ::= Label COLON Statement"); }  //$NON-NLS-1$
		    consumeStatementLabel() ;  
			break;
 
    case 318 : if (DEBUG) { System.out.println("LabeledStatementNoShortIf ::= Label COLON..."); }  //$NON-NLS-1$
		    consumeStatementLabel() ;  
			break;
 
    case 319 : if (DEBUG) { System.out.println("Label ::= Identifier"); }  //$NON-NLS-1$
		    consumeLabel() ;  
			break;
 
     case 320 : if (DEBUG) { System.out.println("ExpressionStatement ::= StatementExpression SEMICOLON"); }  //$NON-NLS-1$
		    consumeExpressionStatement();  
			break;
 
    case 329 : if (DEBUG) { System.out.println("IfThenStatement ::= if LPAREN Expression RPAREN..."); }  //$NON-NLS-1$
		    consumeStatementIfNoElse();  
			break;
 
    case 330 : if (DEBUG) { System.out.println("IfThenElseStatement ::= if LPAREN Expression RPAREN..."); }  //$NON-NLS-1$
		    consumeStatementIfWithElse();  
			break;
 
    case 331 : if (DEBUG) { System.out.println("IfThenElseStatementNoShortIf ::= if LPAREN Expression..."); }  //$NON-NLS-1$
		    consumeStatementIfWithElse();  
			break;
 
    case 332 : if (DEBUG) { System.out.println("SwitchStatement ::= switch LPAREN Expression RPAREN..."); }  //$NON-NLS-1$
		    consumeStatementSwitch() ;  
			break;
 
    case 333 : if (DEBUG) { System.out.println("SwitchBlock ::= LBRACE RBRACE"); }  //$NON-NLS-1$
		    consumeEmptySwitchBlock() ;  
			break;
 
    case 336 : if (DEBUG) { System.out.println("SwitchBlock ::= LBRACE SwitchBlockStatements..."); }  //$NON-NLS-1$
		    consumeSwitchBlock() ;  
			break;
 
    case 338 : if (DEBUG) { System.out.println("SwitchBlockStatements ::= SwitchBlockStatements..."); }  //$NON-NLS-1$
		    consumeSwitchBlockStatements() ;  
			break;
 
    case 339 : if (DEBUG) { System.out.println("SwitchBlockStatement ::= SwitchLabels BlockStatements"); }  //$NON-NLS-1$
		    consumeSwitchBlockStatement() ;  
			break;
 
    case 341 : if (DEBUG) { System.out.println("SwitchLabels ::= SwitchLabels SwitchLabel"); }  //$NON-NLS-1$
		    consumeSwitchLabels() ;  
			break;
 
     case 342 : if (DEBUG) { System.out.println("SwitchLabel ::= case ConstantExpression COLON"); }  //$NON-NLS-1$
		    consumeCaseLabel();  
			break;
 
     case 343 : if (DEBUG) { System.out.println("SwitchLabel ::= default COLON"); }  //$NON-NLS-1$
		    consumeDefaultLabel();  
			break;
 
    case 344 : if (DEBUG) { System.out.println("WhileStatement ::= while LPAREN Expression RPAREN..."); }  //$NON-NLS-1$
		    consumeStatementWhile() ;  
			break;
 
    case 345 : if (DEBUG) { System.out.println("WhileStatementNoShortIf ::= while LPAREN Expression..."); }  //$NON-NLS-1$
		    consumeStatementWhile() ;  
			break;
 
    case 346 : if (DEBUG) { System.out.println("DoStatement ::= do Statement while LPAREN Expression..."); }  //$NON-NLS-1$
		    consumeStatementDo() ;  
			break;
 
    case 347 : if (DEBUG) { System.out.println("ForStatement ::= for LPAREN ForInitopt SEMICOLON..."); }  //$NON-NLS-1$
		    consumeStatementFor() ;  
			break;
 
    case 348 : if (DEBUG) { System.out.println("ForStatementNoShortIf ::= for LPAREN ForInitopt..."); }  //$NON-NLS-1$
		    consumeStatementFor() ;  
			break;
 
    case 349 : if (DEBUG) { System.out.println("ForInit ::= StatementExpressionList"); }  //$NON-NLS-1$
		    consumeForInit() ;  
			break;
 
    case 353 : if (DEBUG) { System.out.println("StatementExpressionList ::= StatementExpressionList..."); }  //$NON-NLS-1$
		    consumeStatementExpressionList() ;  
			break;
 
    case 354 : if (DEBUG) { System.out.println("AssertStatement ::= assert Expression SEMICOLON"); }  //$NON-NLS-1$
		    consumeSimpleAssertStatement() ;  
			break;
 
    case 355 : if (DEBUG) { System.out.println("AssertStatement ::= assert Expression COLON Expression"); }  //$NON-NLS-1$
		    consumeAssertStatement() ;  
			break;
 
    case 356 : if (DEBUG) { System.out.println("BreakStatement ::= break SEMICOLON"); }  //$NON-NLS-1$
		    consumeStatementBreak() ;  
			break;
 
    case 357 : if (DEBUG) { System.out.println("BreakStatement ::= break Identifier SEMICOLON"); }  //$NON-NLS-1$
		    consumeStatementBreakWithLabel() ;  
			break;
 
    case 358 : if (DEBUG) { System.out.println("ContinueStatement ::= continue SEMICOLON"); }  //$NON-NLS-1$
		    consumeStatementContinue() ;  
			break;
 
    case 359 : if (DEBUG) { System.out.println("ContinueStatement ::= continue Identifier SEMICOLON"); }  //$NON-NLS-1$
		    consumeStatementContinueWithLabel() ;  
			break;
 
    case 360 : if (DEBUG) { System.out.println("ReturnStatement ::= return Expressionopt SEMICOLON"); }  //$NON-NLS-1$
		    consumeStatementReturn() ;  
			break;
 
    case 361 : if (DEBUG) { System.out.println("ThrowStatement ::= throw Expression SEMICOLON"); }  //$NON-NLS-1$
		    consumeStatementThrow();  
			break;
 
    case 362 : if (DEBUG) { System.out.println("SynchronizedStatement ::= OnlySynchronized LPAREN..."); }  //$NON-NLS-1$
		    consumeStatementSynchronized();  
			break;
 
    case 363 : if (DEBUG) { System.out.println("OnlySynchronized ::= synchronized"); }  //$NON-NLS-1$
		    consumeOnlySynchronized();  
			break;
 
    case 364 : if (DEBUG) { System.out.println("TryStatement ::= try TryBlock Catches"); }  //$NON-NLS-1$
		    consumeStatementTry(false, false);  
			break;
 
    case 365 : if (DEBUG) { System.out.println("TryStatement ::= try TryBlock Catchesopt Finally"); }  //$NON-NLS-1$
		    consumeStatementTry(true, false);  
			break;
 
    case 366 : if (DEBUG) { System.out.println("TryStatementWithResources ::= try ResourceSpecification"); }  //$NON-NLS-1$
		    consumeStatementTry(false, true);  
			break;
 
    case 367 : if (DEBUG) { System.out.println("TryStatementWithResources ::= try ResourceSpecification"); }  //$NON-NLS-1$
		    consumeStatementTry(true, true);  
			break;
 
    case 368 : if (DEBUG) { System.out.println("ResourceSpecification ::= LPAREN Resources ;opt RPAREN"); }  //$NON-NLS-1$
		    consumeResourceSpecification();  
			break;
 
    case 369 : if (DEBUG) { System.out.println(";opt ::="); }  //$NON-NLS-1$
		    consumeResourceOptionalTrailingSemiColon(false);  
			break;
 
    case 370 : if (DEBUG) { System.out.println(";opt ::= SEMICOLON"); }  //$NON-NLS-1$
		    consumeResourceOptionalTrailingSemiColon(true);  
			break;
 
    case 371 : if (DEBUG) { System.out.println("Resources ::= Resource"); }  //$NON-NLS-1$
		    consumeSingleResource();  
			break;
 
    case 372 : if (DEBUG) { System.out.println("Resources ::= Resources TrailingSemiColon Resource"); }  //$NON-NLS-1$
		    consumeMultipleResources();  
			break;
 
    case 373 : if (DEBUG) { System.out.println("TrailingSemiColon ::= SEMICOLON"); }  //$NON-NLS-1$
		    consumeResourceOptionalTrailingSemiColon(true);  
			break;
 
    case 374 : if (DEBUG) { System.out.println("Resource ::= Type PushModifiers VariableDeclaratorId..."); }  //$NON-NLS-1$
		    consumeResourceAsLocalVariableDeclaration();  
			break;
 
    case 375 : if (DEBUG) { System.out.println("Resource ::= Modifiers Type PushRealModifiers..."); }  //$NON-NLS-1$
		    consumeResourceAsLocalVariableDeclaration();  
			break;
 
    case 377 : if (DEBUG) { System.out.println("ExitTryBlock ::="); }  //$NON-NLS-1$
		    consumeExitTryBlock();  
			break;
 
    case 379 : if (DEBUG) { System.out.println("Catches ::= Catches CatchClause"); }  //$NON-NLS-1$
		    consumeCatches();  
			break;
 
    case 380 : if (DEBUG) { System.out.println("CatchClause ::= catch LPAREN CatchFormalParameter RPAREN"); }  //$NON-NLS-1$
		    consumeStatementCatch() ;  
			break;
 
    case 382 : if (DEBUG) { System.out.println("PushLPAREN ::= LPAREN"); }  //$NON-NLS-1$
		    consumeLeftParen();  
			break;
 
    case 383 : if (DEBUG) { System.out.println("PushRPAREN ::= RPAREN"); }  //$NON-NLS-1$
		    consumeRightParen();  
			break;
 
    case 388 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= this"); }  //$NON-NLS-1$
		    consumePrimaryNoNewArrayThis();  
			break;
 
    case 389 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= PushLPAREN Expression_NotName..."); }  //$NON-NLS-1$
		    consumePrimaryNoNewArray();  
			break;
 
    case 390 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= PushLPAREN Name PushRPAREN"); }  //$NON-NLS-1$
		    consumePrimaryNoNewArrayWithName();  
			break;
 
    case 393 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= Name DOT this"); }  //$NON-NLS-1$
		    consumePrimaryNoNewArrayNameThis();  
			break;
 
    case 394 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= Name DOT super"); }  //$NON-NLS-1$
		    consumePrimaryNoNewArrayNameSuper();  
			break;
 
    case 395 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= Name DOT class"); }  //$NON-NLS-1$
		    consumePrimaryNoNewArrayName();  
			break;
 
    case 396 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= Name Dims DOT class"); }  //$NON-NLS-1$
		    consumePrimaryNoNewArrayArrayType();  
			break;
 
    case 397 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= PrimitiveType Dims DOT class"); }  //$NON-NLS-1$
		    consumePrimaryNoNewArrayPrimitiveArrayType();  
			break;
 
    case 398 : if (DEBUG) { System.out.println("PrimaryNoNewArray ::= PrimitiveType DOT class"); }  //$NON-NLS-1$
		    consumePrimaryNoNewArrayPrimitiveType();  
			break;
 
    case 404 : if (DEBUG) { System.out.println("ReferenceExpressionTypeArgumentsAndTrunk0 ::=..."); }  //$NON-NLS-1$
		    consumeReferenceExpressionTypeArgumentsAndTrunk(false);  
			break;
 
    case 405 : if (DEBUG) { System.out.println("ReferenceExpressionTypeArgumentsAndTrunk0 ::=..."); }  //$NON-NLS-1$
		    consumeReferenceExpressionTypeArgumentsAndTrunk(true);  
			break;
 
    case 406 : if (DEBUG) { System.out.println("ReferenceExpression ::= PrimitiveType Dims COLON_COLON"); }  //$NON-NLS-1$
		    consumeReferenceExpressionTypeForm(true);  
			break;
 
    case 407 : if (DEBUG) { System.out.println("ReferenceExpression ::= Name Dimsopt COLON_COLON..."); }  //$NON-NLS-1$
		    consumeReferenceExpressionTypeForm(false);  
			break;
 
    case 408 : if (DEBUG) { System.out.println("ReferenceExpression ::= Name BeginTypeArguments..."); }  //$NON-NLS-1$
		    consumeReferenceExpressionGenericTypeForm();  
			break;
 
    case 409 : if (DEBUG) { System.out.println("ReferenceExpression ::= Primary COLON_COLON..."); }  //$NON-NLS-1$
		    consumeReferenceExpressionPrimaryForm();  
			break;
 
    case 410 : if (DEBUG) { System.out.println("ReferenceExpression ::= super COLON_COLON..."); }  //$NON-NLS-1$
		    consumeReferenceExpressionSuperForm();  
			break;
 
    case 411 : if (DEBUG) { System.out.println("NonWildTypeArgumentsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyTypeArguments();  
			break;
 
    case 413 : if (DEBUG) { System.out.println("IdentifierOrNew ::= Identifier"); }  //$NON-NLS-1$
		    consumeIdentifierOrNew(false);  
			break;
 
    case 414 : if (DEBUG) { System.out.println("IdentifierOrNew ::= new"); }  //$NON-NLS-1$
		    consumeIdentifierOrNew(true);  
			break;
 
    case 415 : if (DEBUG) { System.out.println("LambdaExpression ::= LambdaParameters ARROW LambdaBody"); }  //$NON-NLS-1$
		    consumeLambdaExpression();  
			break;
 
    case 416 : if (DEBUG) { System.out.println("NestedLambda ::="); }  //$NON-NLS-1$
		    consumeNestedLambda();  
			break;
 
    case 417 : if (DEBUG) { System.out.println("LambdaParameters ::= Identifier NestedLambda"); }  //$NON-NLS-1$
		    consumeTypeElidedLambdaParameter(false);  
			break;
 
    case 423 : if (DEBUG) { System.out.println("TypeElidedFormalParameterList ::=..."); }  //$NON-NLS-1$
		    consumeFormalParameterList();  
			break;
 
    case 424 : if (DEBUG) { System.out.println("TypeElidedFormalParameter ::= Modifiersopt Identifier"); }  //$NON-NLS-1$
		    consumeTypeElidedLambdaParameter(true);  
			break;
 
    case 427 : if (DEBUG) { System.out.println("ElidedLeftBraceAndReturn ::="); }  //$NON-NLS-1$
		    consumeElidedLeftBraceAndReturn();  
			break;
 
    case 428 : if (DEBUG) { System.out.println("AllocationHeader ::= new ClassType LPAREN..."); }  //$NON-NLS-1$
		    consumeAllocationHeader();  
			break;
 
    case 429 : if (DEBUG) { System.out.println("ClassInstanceCreationExpression ::= new..."); }  //$NON-NLS-1$
		    consumeClassInstanceCreationExpressionWithTypeArguments();  
			break;
 
    case 430 : if (DEBUG) { System.out.println("ClassInstanceCreationExpression ::= new ClassType..."); }  //$NON-NLS-1$
		    consumeClassInstanceCreationExpression();  
			break;
 
    case 431 : if (DEBUG) { System.out.println("ClassInstanceCreationExpression ::= Primary DOT new..."); }  //$NON-NLS-1$
		    consumeClassInstanceCreationExpressionQualifiedWithTypeArguments() ;  
			break;
 
    case 432 : if (DEBUG) { System.out.println("ClassInstanceCreationExpression ::= Primary DOT new..."); }  //$NON-NLS-1$
		    consumeClassInstanceCreationExpressionQualified() ;  
			break;
 
    case 433 : if (DEBUG) { System.out.println("ClassInstanceCreationExpression ::=..."); }  //$NON-NLS-1$
		    consumeClassInstanceCreationExpressionQualified() ;  
			break;
 
    case 434 : if (DEBUG) { System.out.println("ClassInstanceCreationExpression ::=..."); }  //$NON-NLS-1$
		    consumeClassInstanceCreationExpressionQualifiedWithTypeArguments() ;  
			break;
 
    case 435 : if (DEBUG) { System.out.println("EnterInstanceCreationArgumentList ::="); }  //$NON-NLS-1$
		    consumeEnterInstanceCreationArgumentList();  
			break;
 
    case 436 : if (DEBUG) { System.out.println("ClassInstanceCreationExpressionName ::= Name DOT"); }  //$NON-NLS-1$
		    consumeClassInstanceCreationExpressionName() ;  
			break;
 
    case 437 : if (DEBUG) { System.out.println("UnqualifiedClassBodyopt ::="); }  //$NON-NLS-1$
		    consumeClassBodyopt();  
			break;
 
    case 439 : if (DEBUG) { System.out.println("UnqualifiedEnterAnonymousClassBody ::="); }  //$NON-NLS-1$
		    consumeEnterAnonymousClassBody(false);  
			break;
 
    case 440 : if (DEBUG) { System.out.println("QualifiedClassBodyopt ::="); }  //$NON-NLS-1$
		    consumeClassBodyopt();  
			break;
 
    case 442 : if (DEBUG) { System.out.println("QualifiedEnterAnonymousClassBody ::="); }  //$NON-NLS-1$
		    consumeEnterAnonymousClassBody(true);  
			break;
 
    case 444 : if (DEBUG) { System.out.println("ArgumentList ::= ArgumentList COMMA Expression"); }  //$NON-NLS-1$
		    consumeArgumentList();  
			break;
 
    case 445 : if (DEBUG) { System.out.println("ArrayCreationHeader ::= new PrimitiveType..."); }  //$NON-NLS-1$
		    consumeArrayCreationHeader();  
			break;
 
    case 446 : if (DEBUG) { System.out.println("ArrayCreationHeader ::= new ClassOrInterfaceType..."); }  //$NON-NLS-1$
		    consumeArrayCreationHeader();  
			break;
 
    case 447 : if (DEBUG) { System.out.println("ArrayCreationWithoutArrayInitializer ::= new..."); }  //$NON-NLS-1$
		    consumeArrayCreationExpressionWithoutInitializer();  
			break;
 
    case 448 : if (DEBUG) { System.out.println("ArrayCreationWithArrayInitializer ::= new PrimitiveType"); }  //$NON-NLS-1$
		    consumeArrayCreationExpressionWithInitializer();  
			break;
 
    case 449 : if (DEBUG) { System.out.println("ArrayCreationWithoutArrayInitializer ::= new..."); }  //$NON-NLS-1$
		    consumeArrayCreationExpressionWithoutInitializer();  
			break;
 
    case 450 : if (DEBUG) { System.out.println("ArrayCreationWithArrayInitializer ::= new..."); }  //$NON-NLS-1$
		    consumeArrayCreationExpressionWithInitializer();  
			break;
 
    case 452 : if (DEBUG) { System.out.println("DimWithOrWithOutExprs ::= DimWithOrWithOutExprs..."); }  //$NON-NLS-1$
		    consumeDimWithOrWithOutExprs();  
			break;
 
     case 454 : if (DEBUG) { System.out.println("DimWithOrWithOutExpr ::= TypeAnnotationsopt LBRACKET..."); }  //$NON-NLS-1$
		    consumeDimWithOrWithOutExpr();  
			break;
 
     case 455 : if (DEBUG) { System.out.println("Dims ::= DimsLoop"); }  //$NON-NLS-1$
		    consumeDims();  
			break;
 
     case 458 : if (DEBUG) { System.out.println("OneDimLoop ::= LBRACKET RBRACKET"); }  //$NON-NLS-1$
		    consumeOneDimLoop(false);  
			break;
 
     case 459 : if (DEBUG) { System.out.println("OneDimLoop ::= TypeAnnotations LBRACKET RBRACKET"); }  //$NON-NLS-1$
		    consumeOneDimLoop(true);  
			break;
 
    case 460 : if (DEBUG) { System.out.println("FieldAccess ::= Primary DOT Identifier"); }  //$NON-NLS-1$
		    consumeFieldAccess(false);  
			break;
 
    case 461 : if (DEBUG) { System.out.println("FieldAccess ::= super DOT Identifier"); }  //$NON-NLS-1$
		    consumeFieldAccess(true);  
			break;
 
    case 462 : if (DEBUG) { System.out.println("MethodInvocation ::= Name LPAREN ArgumentListopt RPAREN"); }  //$NON-NLS-1$
		    consumeMethodInvocationName();  
			break;
 
    case 463 : if (DEBUG) { System.out.println("MethodInvocation ::= Name DOT OnlyTypeArguments..."); }  //$NON-NLS-1$
		    consumeMethodInvocationNameWithTypeArguments();  
			break;
 
    case 464 : if (DEBUG) { System.out.println("MethodInvocation ::= Primary DOT OnlyTypeArguments..."); }  //$NON-NLS-1$
		    consumeMethodInvocationPrimaryWithTypeArguments();  
			break;
 
    case 465 : if (DEBUG) { System.out.println("MethodInvocation ::= Primary DOT Identifier LPAREN..."); }  //$NON-NLS-1$
		    consumeMethodInvocationPrimary();  
			break;
 
    case 466 : if (DEBUG) { System.out.println("MethodInvocation ::= super DOT OnlyTypeArguments..."); }  //$NON-NLS-1$
		    consumeMethodInvocationSuperWithTypeArguments();  
			break;
 
    case 467 : if (DEBUG) { System.out.println("MethodInvocation ::= super DOT Identifier LPAREN..."); }  //$NON-NLS-1$
		    consumeMethodInvocationSuper();  
			break;
 
    case 468 : if (DEBUG) { System.out.println("ArrayAccess ::= Name LBRACKET Expression RBRACKET"); }  //$NON-NLS-1$
		    consumeArrayAccess(true);  
			break;
 
    case 469 : if (DEBUG) { System.out.println("ArrayAccess ::= PrimaryNoNewArray LBRACKET Expression..."); }  //$NON-NLS-1$
		    consumeArrayAccess(false);  
			break;
 
    case 470 : if (DEBUG) { System.out.println("ArrayAccess ::= ArrayCreationWithArrayInitializer..."); }  //$NON-NLS-1$
		    consumeArrayAccess(false);  
			break;
 
    case 472 : if (DEBUG) { System.out.println("PostfixExpression ::= Name"); }  //$NON-NLS-1$
		    consumePostfixExpression();  
			break;
 
    case 475 : if (DEBUG) { System.out.println("PostIncrementExpression ::= PostfixExpression PLUS_PLUS"); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.PLUS,true);  
			break;
 
    case 476 : if (DEBUG) { System.out.println("PostDecrementExpression ::= PostfixExpression..."); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.MINUS,true);  
			break;
 
    case 477 : if (DEBUG) { System.out.println("PushPosition ::="); }  //$NON-NLS-1$
		    consumePushPosition();  
			break;
 
    case 480 : if (DEBUG) { System.out.println("UnaryExpression ::= PLUS PushPosition UnaryExpression"); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.PLUS);  
			break;
 
    case 481 : if (DEBUG) { System.out.println("UnaryExpression ::= MINUS PushPosition UnaryExpression"); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.MINUS);  
			break;
 
    case 483 : if (DEBUG) { System.out.println("PreIncrementExpression ::= PLUS_PLUS PushPosition..."); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.PLUS,false);  
			break;
 
    case 484 : if (DEBUG) { System.out.println("PreDecrementExpression ::= MINUS_MINUS PushPosition..."); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.MINUS,false);  
			break;
 
    case 486 : if (DEBUG) { System.out.println("UnaryExpressionNotPlusMinus ::= TWIDDLE PushPosition..."); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.TWIDDLE);  
			break;
 
    case 487 : if (DEBUG) { System.out.println("UnaryExpressionNotPlusMinus ::= NOT PushPosition..."); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.NOT);  
			break;
 
    case 489 : if (DEBUG) { System.out.println("CastExpression ::= PushLPAREN PrimitiveType Dimsopt..."); }  //$NON-NLS-1$
		    consumeCastExpressionWithPrimitiveType();  
			break;
 
    case 490 : if (DEBUG) { System.out.println("CastExpression ::= PushLPAREN Name..."); }  //$NON-NLS-1$
		    consumeCastExpressionWithGenericsArray();  
			break;
 
    case 491 : if (DEBUG) { System.out.println("CastExpression ::= PushLPAREN Name..."); }  //$NON-NLS-1$
		    consumeCastExpressionWithQualifiedGenericsArray();  
			break;
 
    case 492 : if (DEBUG) { System.out.println("CastExpression ::= PushLPAREN Name PushRPAREN..."); }  //$NON-NLS-1$
		    consumeCastExpressionLL1();  
			break;
 
    case 493 : if (DEBUG) { System.out.println("CastExpression ::= BeginIntersectionCast PushLPAREN..."); }  //$NON-NLS-1$
		    consumeCastExpressionLL1WithBounds();  
			break;
 
    case 494 : if (DEBUG) { System.out.println("CastExpression ::= PushLPAREN Name Dims..."); }  //$NON-NLS-1$
		    consumeCastExpressionWithNameArray();  
			break;
 
    case 495 : if (DEBUG) { System.out.println("AdditionalBoundsListOpt ::="); }  //$NON-NLS-1$
		    consumeZeroAdditionalBounds();  
			break;
 
    case 499 : if (DEBUG) { System.out.println("OnlyTypeArgumentsForCastExpression ::= OnlyTypeArguments"); }  //$NON-NLS-1$
		    consumeOnlyTypeArgumentsForCastExpression();  
			break;
 
    case 500 : if (DEBUG) { System.out.println("InsideCastExpression ::="); }  //$NON-NLS-1$
		    consumeInsideCastExpression();  
			break;
 
    case 501 : if (DEBUG) { System.out.println("InsideCastExpressionLL1 ::="); }  //$NON-NLS-1$
		    consumeInsideCastExpressionLL1();  
			break;
 
    case 502 : if (DEBUG) { System.out.println("InsideCastExpressionLL1WithBounds ::="); }  //$NON-NLS-1$
		    consumeInsideCastExpressionLL1WithBounds ();  
			break;
 
    case 503 : if (DEBUG) { System.out.println("InsideCastExpressionWithQualifiedGenerics ::="); }  //$NON-NLS-1$
		    consumeInsideCastExpressionWithQualifiedGenerics();  
			break;
 
    case 505 : if (DEBUG) { System.out.println("MultiplicativeExpression ::= MultiplicativeExpression..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.MULTIPLY);  
			break;
 
    case 506 : if (DEBUG) { System.out.println("MultiplicativeExpression ::= MultiplicativeExpression..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.DIVIDE);  
			break;
 
    case 507 : if (DEBUG) { System.out.println("MultiplicativeExpression ::= MultiplicativeExpression..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.REMAINDER);  
			break;
 
    case 509 : if (DEBUG) { System.out.println("AdditiveExpression ::= AdditiveExpression PLUS..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.PLUS);  
			break;
 
    case 510 : if (DEBUG) { System.out.println("AdditiveExpression ::= AdditiveExpression MINUS..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.MINUS);  
			break;
 
    case 512 : if (DEBUG) { System.out.println("ShiftExpression ::= ShiftExpression LEFT_SHIFT..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.LEFT_SHIFT);  
			break;
 
    case 513 : if (DEBUG) { System.out.println("ShiftExpression ::= ShiftExpression RIGHT_SHIFT..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.RIGHT_SHIFT);  
			break;
 
    case 514 : if (DEBUG) { System.out.println("ShiftExpression ::= ShiftExpression UNSIGNED_RIGHT_SHIFT"); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.UNSIGNED_RIGHT_SHIFT);  
			break;
 
    case 516 : if (DEBUG) { System.out.println("RelationalExpression ::= RelationalExpression LESS..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.LESS);  
			break;
 
    case 517 : if (DEBUG) { System.out.println("RelationalExpression ::= RelationalExpression GREATER..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.GREATER);  
			break;
 
    case 518 : if (DEBUG) { System.out.println("RelationalExpression ::= RelationalExpression LESS_EQUAL"); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.LESS_EQUAL);  
			break;
 
    case 519 : if (DEBUG) { System.out.println("RelationalExpression ::= RelationalExpression..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.GREATER_EQUAL);  
			break;
 
    case 521 : if (DEBUG) { System.out.println("InstanceofExpression ::= InstanceofExpression instanceof"); }  //$NON-NLS-1$
		    consumeInstanceOfExpression();  
			break;
 
    case 523 : if (DEBUG) { System.out.println("EqualityExpression ::= EqualityExpression EQUAL_EQUAL..."); }  //$NON-NLS-1$
		    consumeEqualityExpression(OperatorIds.EQUAL_EQUAL);  
			break;
 
    case 524 : if (DEBUG) { System.out.println("EqualityExpression ::= EqualityExpression NOT_EQUAL..."); }  //$NON-NLS-1$
		    consumeEqualityExpression(OperatorIds.NOT_EQUAL);  
			break;
 
    case 526 : if (DEBUG) { System.out.println("AndExpression ::= AndExpression AND EqualityExpression"); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.AND);  
			break;
 
    case 528 : if (DEBUG) { System.out.println("ExclusiveOrExpression ::= ExclusiveOrExpression XOR..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.XOR);  
			break;
 
    case 530 : if (DEBUG) { System.out.println("InclusiveOrExpression ::= InclusiveOrExpression OR..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.OR);  
			break;
 
    case 532 : if (DEBUG) { System.out.println("ConditionalAndExpression ::= ConditionalAndExpression..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.AND_AND);  
			break;
 
    case 534 : if (DEBUG) { System.out.println("ConditionalOrExpression ::= ConditionalOrExpression..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.OR_OR);  
			break;
 
    case 536 : if (DEBUG) { System.out.println("ConditionalExpression ::= ConditionalOrExpression..."); }  //$NON-NLS-1$
		    consumeConditionalExpression(OperatorIds.QUESTIONCOLON) ;  
			break;
 
    case 539 : if (DEBUG) { System.out.println("Assignment ::= PostfixExpression AssignmentOperator..."); }  //$NON-NLS-1$
		    consumeAssignment();  
			break;
 
    case 541 : if (DEBUG) { System.out.println("Assignment ::= InvalidArrayInitializerAssignement"); }  //$NON-NLS-1$
		    ignoreExpressionAssignment(); 
			break;
 
    case 542 : if (DEBUG) { System.out.println("AssignmentOperator ::= EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(EQUAL);  
			break;
 
    case 543 : if (DEBUG) { System.out.println("AssignmentOperator ::= MULTIPLY_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(MULTIPLY);  
			break;
 
    case 544 : if (DEBUG) { System.out.println("AssignmentOperator ::= DIVIDE_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(DIVIDE);  
			break;
 
    case 545 : if (DEBUG) { System.out.println("AssignmentOperator ::= REMAINDER_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(REMAINDER);  
			break;
 
    case 546 : if (DEBUG) { System.out.println("AssignmentOperator ::= PLUS_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(PLUS);  
			break;
 
    case 547 : if (DEBUG) { System.out.println("AssignmentOperator ::= MINUS_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(MINUS);  
			break;
 
    case 548 : if (DEBUG) { System.out.println("AssignmentOperator ::= LEFT_SHIFT_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(LEFT_SHIFT);  
			break;
 
    case 549 : if (DEBUG) { System.out.println("AssignmentOperator ::= RIGHT_SHIFT_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(RIGHT_SHIFT);  
			break;
 
    case 550 : if (DEBUG) { System.out.println("AssignmentOperator ::= UNSIGNED_RIGHT_SHIFT_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(UNSIGNED_RIGHT_SHIFT);  
			break;
 
    case 551 : if (DEBUG) { System.out.println("AssignmentOperator ::= AND_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(AND);  
			break;
 
    case 552 : if (DEBUG) { System.out.println("AssignmentOperator ::= XOR_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(XOR);  
			break;
 
    case 553 : if (DEBUG) { System.out.println("AssignmentOperator ::= OR_EQUAL"); }  //$NON-NLS-1$
		    consumeAssignmentOperator(OR);  
			break;
 
    case 554 : if (DEBUG) { System.out.println("Expression ::= AssignmentExpression"); }  //$NON-NLS-1$
		    consumeExpression();  
			break;
 
    case 557 : if (DEBUG) { System.out.println("Expressionopt ::="); }  //$NON-NLS-1$
		    consumeEmptyExpression();  
			break;
 
    case 562 : if (DEBUG) { System.out.println("ClassBodyDeclarationsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyClassBodyDeclarationsopt();  
			break;
 
    case 563 : if (DEBUG) { System.out.println("ClassBodyDeclarationsopt ::= NestedType..."); }  //$NON-NLS-1$
		    consumeClassBodyDeclarationsopt();  
			break;
 
     case 564 : if (DEBUG) { System.out.println("Modifiersopt ::="); }  //$NON-NLS-1$
		    consumeDefaultModifiers();  
			break;
 
    case 565 : if (DEBUG) { System.out.println("Modifiersopt ::= Modifiers"); }  //$NON-NLS-1$
		    consumeModifiers();  
			break;
 
    case 566 : if (DEBUG) { System.out.println("BlockStatementsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyBlockStatementsopt();  
			break;
 
     case 568 : if (DEBUG) { System.out.println("Dimsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyDimsopt();  
			break;
 
     case 570 : if (DEBUG) { System.out.println("ArgumentListopt ::="); }  //$NON-NLS-1$
		    consumeEmptyArgumentListopt();  
			break;
 
    case 574 : if (DEBUG) { System.out.println("FormalParameterListopt ::="); }  //$NON-NLS-1$
		    consumeFormalParameterListopt();  
			break;
 
     case 578 : if (DEBUG) { System.out.println("InterfaceMemberDeclarationsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyInterfaceMemberDeclarationsopt();  
			break;
 
     case 579 : if (DEBUG) { System.out.println("InterfaceMemberDeclarationsopt ::= NestedType..."); }  //$NON-NLS-1$
		    consumeInterfaceMemberDeclarationsopt();  
			break;
 
    case 580 : if (DEBUG) { System.out.println("NestedType ::="); }  //$NON-NLS-1$
		    consumeNestedType();  
			break;

     case 581 : if (DEBUG) { System.out.println("ForInitopt ::="); }  //$NON-NLS-1$
		    consumeEmptyForInitopt();  
			break;
 
     case 583 : if (DEBUG) { System.out.println("ForUpdateopt ::="); }  //$NON-NLS-1$
		    consumeEmptyForUpdateopt();  
			break;
 
     case 587 : if (DEBUG) { System.out.println("Catchesopt ::="); }  //$NON-NLS-1$
		    consumeEmptyCatchesopt();  
			break;
 
     case 589 : if (DEBUG) { System.out.println("EnumDeclaration ::= EnumHeader EnumBody"); }  //$NON-NLS-1$
		    consumeEnumDeclaration();  
			break;
 
     case 590 : if (DEBUG) { System.out.println("EnumHeader ::= EnumHeaderName ClassHeaderImplementsopt"); }  //$NON-NLS-1$
		    consumeEnumHeader();  
			break;
 
     case 591 : if (DEBUG) { System.out.println("EnumHeaderName ::= Modifiersopt enum Identifier"); }  //$NON-NLS-1$
		    consumeEnumHeaderName();  
			break;
 
     case 592 : if (DEBUG) { System.out.println("EnumHeaderName ::= Modifiersopt enum Identifier..."); }  //$NON-NLS-1$
		    consumeEnumHeaderNameWithTypeParameters();  
			break;
 
     case 593 : if (DEBUG) { System.out.println("EnumBody ::= LBRACE EnumBodyDeclarationsopt RBRACE"); }  //$NON-NLS-1$
		    consumeEnumBodyNoConstants();  
			break;
 
     case 594 : if (DEBUG) { System.out.println("EnumBody ::= LBRACE COMMA EnumBodyDeclarationsopt..."); }  //$NON-NLS-1$
		    consumeEnumBodyNoConstants();  
			break;
 
     case 595 : if (DEBUG) { System.out.println("EnumBody ::= LBRACE EnumConstants COMMA..."); }  //$NON-NLS-1$
		    consumeEnumBodyWithConstants();  
			break;
 
     case 596 : if (DEBUG) { System.out.println("EnumBody ::= LBRACE EnumConstants..."); }  //$NON-NLS-1$
		    consumeEnumBodyWithConstants();  
			break;
 
    case 598 : if (DEBUG) { System.out.println("EnumConstants ::= EnumConstants COMMA EnumConstant"); }  //$NON-NLS-1$
		    consumeEnumConstants();  
			break;
 
    case 599 : if (DEBUG) { System.out.println("EnumConstantHeaderName ::= Modifiersopt Identifier"); }  //$NON-NLS-1$
		    consumeEnumConstantHeaderName();  
			break;
 
    case 600 : if (DEBUG) { System.out.println("EnumConstantHeader ::= EnumConstantHeaderName..."); }  //$NON-NLS-1$
		    consumeEnumConstantHeader();  
			break;
 
    case 601 : if (DEBUG) { System.out.println("EnumConstant ::= EnumConstantHeader ForceNoDiet..."); }  //$NON-NLS-1$
		    consumeEnumConstantWithClassBody();  
			break;
 
    case 602 : if (DEBUG) { System.out.println("EnumConstant ::= EnumConstantHeader"); }  //$NON-NLS-1$
		    consumeEnumConstantNoClassBody();  
			break;
 
    case 603 : if (DEBUG) { System.out.println("Arguments ::= LPAREN ArgumentListopt RPAREN"); }  //$NON-NLS-1$
		    consumeArguments();  
			break;
 
    case 604 : if (DEBUG) { System.out.println("Argumentsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyArguments();  
			break;
 
    case 606 : if (DEBUG) { System.out.println("EnumDeclarations ::= SEMICOLON ClassBodyDeclarationsopt"); }  //$NON-NLS-1$
		    consumeEnumDeclarations();  
			break;
 
    case 607 : if (DEBUG) { System.out.println("EnumBodyDeclarationsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyEnumDeclarations();  
			break;
 
    case 609 : if (DEBUG) { System.out.println("EnhancedForStatement ::= EnhancedForStatementHeader..."); }  //$NON-NLS-1$
		    consumeEnhancedForStatement();  
			break;
 
    case 610 : if (DEBUG) { System.out.println("EnhancedForStatementNoShortIf ::=..."); }  //$NON-NLS-1$
		    consumeEnhancedForStatement();  
			break;
 
    case 611 : if (DEBUG) { System.out.println("EnhancedForStatementHeaderInit ::= for LPAREN Type..."); }  //$NON-NLS-1$
		    consumeEnhancedForStatementHeaderInit(false);  
			break;
 
    case 612 : if (DEBUG) { System.out.println("EnhancedForStatementHeaderInit ::= for LPAREN Modifiers"); }  //$NON-NLS-1$
		    consumeEnhancedForStatementHeaderInit(true);  
			break;
 
    case 613 : if (DEBUG) { System.out.println("EnhancedForStatementHeader ::=..."); }  //$NON-NLS-1$
		    consumeEnhancedForStatementHeader();  
			break;
 
    case 614 : if (DEBUG) { System.out.println("SingleStaticImportDeclaration ::=..."); }  //$NON-NLS-1$
		    consumeImportDeclaration();  
			break;
 
    case 615 : if (DEBUG) { System.out.println("SingleStaticImportDeclarationName ::= import static Name"); }  //$NON-NLS-1$
		    consumeSingleStaticImportDeclarationName();  
			break;
 
    case 616 : if (DEBUG) { System.out.println("StaticImportOnDemandDeclaration ::=..."); }  //$NON-NLS-1$
		    consumeImportDeclaration();  
			break;
 
    case 617 : if (DEBUG) { System.out.println("StaticImportOnDemandDeclarationName ::= import static..."); }  //$NON-NLS-1$
		    consumeStaticImportOnDemandDeclarationName();  
			break;
 
    case 618 : if (DEBUG) { System.out.println("TypeArguments ::= LESS TypeArgumentList1"); }  //$NON-NLS-1$
		    consumeTypeArguments();  
			break;
 
    case 619 : if (DEBUG) { System.out.println("OnlyTypeArguments ::= LESS TypeArgumentList1"); }  //$NON-NLS-1$
		    consumeOnlyTypeArguments();  
			break;
 
    case 621 : if (DEBUG) { System.out.println("TypeArgumentList1 ::= TypeArgumentList COMMA..."); }  //$NON-NLS-1$
		    consumeTypeArgumentList1();  
			break;
 
    case 623 : if (DEBUG) { System.out.println("TypeArgumentList ::= TypeArgumentList COMMA TypeArgument"); }  //$NON-NLS-1$
		    consumeTypeArgumentList();  
			break;
 
    case 624 : if (DEBUG) { System.out.println("TypeArgument ::= ReferenceType"); }  //$NON-NLS-1$
		    consumeTypeArgument();  
			break;
 
    case 628 : if (DEBUG) { System.out.println("ReferenceType1 ::= ReferenceType GREATER"); }  //$NON-NLS-1$
		    consumeReferenceType1();  
			break;
 
    case 629 : if (DEBUG) { System.out.println("ReferenceType1 ::= ClassOrInterface LESS..."); }  //$NON-NLS-1$
		    consumeTypeArgumentReferenceType1();  
			break;
 
    case 631 : if (DEBUG) { System.out.println("TypeArgumentList2 ::= TypeArgumentList COMMA..."); }  //$NON-NLS-1$
		    consumeTypeArgumentList2();  
			break;
 
    case 634 : if (DEBUG) { System.out.println("ReferenceType2 ::= ReferenceType RIGHT_SHIFT"); }  //$NON-NLS-1$
		    consumeReferenceType2();  
			break;
 
    case 635 : if (DEBUG) { System.out.println("ReferenceType2 ::= ClassOrInterface LESS..."); }  //$NON-NLS-1$
		    consumeTypeArgumentReferenceType2();  
			break;
 
    case 637 : if (DEBUG) { System.out.println("TypeArgumentList3 ::= TypeArgumentList COMMA..."); }  //$NON-NLS-1$
		    consumeTypeArgumentList3();  
			break;
 
    case 640 : if (DEBUG) { System.out.println("ReferenceType3 ::= ReferenceType UNSIGNED_RIGHT_SHIFT"); }  //$NON-NLS-1$
		    consumeReferenceType3();  
			break;
 
    case 641 : if (DEBUG) { System.out.println("Wildcard ::= TypeAnnotationsopt QUESTION"); }  //$NON-NLS-1$
		    consumeWildcard();  
			break;
 
    case 642 : if (DEBUG) { System.out.println("Wildcard ::= TypeAnnotationsopt QUESTION WildcardBounds"); }  //$NON-NLS-1$
		    consumeWildcardWithBounds();  
			break;
 
    case 643 : if (DEBUG) { System.out.println("WildcardBounds ::= extends ReferenceType"); }  //$NON-NLS-1$
		    consumeWildcardBoundsExtends();  
			break;
 
    case 644 : if (DEBUG) { System.out.println("WildcardBounds ::= super ReferenceType"); }  //$NON-NLS-1$
		    consumeWildcardBoundsSuper();  
			break;
 
    case 645 : if (DEBUG) { System.out.println("Wildcard1 ::= TypeAnnotationsopt QUESTION GREATER"); }  //$NON-NLS-1$
		    consumeWildcard1();  
			break;
 
    case 646 : if (DEBUG) { System.out.println("Wildcard1 ::= TypeAnnotationsopt QUESTION..."); }  //$NON-NLS-1$
		    consumeWildcard1WithBounds();  
			break;
 
    case 647 : if (DEBUG) { System.out.println("WildcardBounds1 ::= extends ReferenceType1"); }  //$NON-NLS-1$
		    consumeWildcardBounds1Extends();  
			break;
 
    case 648 : if (DEBUG) { System.out.println("WildcardBounds1 ::= super ReferenceType1"); }  //$NON-NLS-1$
		    consumeWildcardBounds1Super();  
			break;
 
    case 649 : if (DEBUG) { System.out.println("Wildcard2 ::= TypeAnnotationsopt QUESTION RIGHT_SHIFT"); }  //$NON-NLS-1$
		    consumeWildcard2();  
			break;
 
    case 650 : if (DEBUG) { System.out.println("Wildcard2 ::= TypeAnnotationsopt QUESTION..."); }  //$NON-NLS-1$
		    consumeWildcard2WithBounds();  
			break;
 
    case 651 : if (DEBUG) { System.out.println("WildcardBounds2 ::= extends ReferenceType2"); }  //$NON-NLS-1$
		    consumeWildcardBounds2Extends();  
			break;
 
    case 652 : if (DEBUG) { System.out.println("WildcardBounds2 ::= super ReferenceType2"); }  //$NON-NLS-1$
		    consumeWildcardBounds2Super();  
			break;
 
    case 653 : if (DEBUG) { System.out.println("Wildcard3 ::= TypeAnnotationsopt QUESTION..."); }  //$NON-NLS-1$
		    consumeWildcard3();  
			break;
 
    case 654 : if (DEBUG) { System.out.println("Wildcard3 ::= TypeAnnotationsopt QUESTION..."); }  //$NON-NLS-1$
		    consumeWildcard3WithBounds();  
			break;
 
    case 655 : if (DEBUG) { System.out.println("WildcardBounds3 ::= extends ReferenceType3"); }  //$NON-NLS-1$
		    consumeWildcardBounds3Extends();  
			break;
 
    case 656 : if (DEBUG) { System.out.println("WildcardBounds3 ::= super ReferenceType3"); }  //$NON-NLS-1$
		    consumeWildcardBounds3Super();  
			break;
 
    case 657 : if (DEBUG) { System.out.println("TypeParameterHeader ::= TypeAnnotationsopt Identifier"); }  //$NON-NLS-1$
		    consumeTypeParameterHeader();  
			break;
 
    case 658 : if (DEBUG) { System.out.println("TypeParameters ::= LESS TypeParameterList1"); }  //$NON-NLS-1$
		    consumeTypeParameters();  
			break;
 
    case 660 : if (DEBUG) { System.out.println("TypeParameterList ::= TypeParameterList COMMA..."); }  //$NON-NLS-1$
		    consumeTypeParameterList();  
			break;
 
    case 662 : if (DEBUG) { System.out.println("TypeParameter ::= TypeParameterHeader extends..."); }  //$NON-NLS-1$
		    consumeTypeParameterWithExtends();  
			break;
 
    case 663 : if (DEBUG) { System.out.println("TypeParameter ::= TypeParameterHeader extends..."); }  //$NON-NLS-1$
		    consumeTypeParameterWithExtendsAndBounds();  
			break;
 
    case 665 : if (DEBUG) { System.out.println("AdditionalBoundList ::= AdditionalBoundList..."); }  //$NON-NLS-1$
		    consumeAdditionalBoundList();  
			break;
 
    case 666 : if (DEBUG) { System.out.println("AdditionalBound ::= AND ReferenceType"); }  //$NON-NLS-1$
		    consumeAdditionalBound();  
			break;
 
    case 668 : if (DEBUG) { System.out.println("TypeParameterList1 ::= TypeParameterList COMMA..."); }  //$NON-NLS-1$
		    consumeTypeParameterList1();  
			break;
 
    case 669 : if (DEBUG) { System.out.println("TypeParameter1 ::= TypeParameterHeader GREATER"); }  //$NON-NLS-1$
		    consumeTypeParameter1();  
			break;
 
    case 670 : if (DEBUG) { System.out.println("TypeParameter1 ::= TypeParameterHeader extends..."); }  //$NON-NLS-1$
		    consumeTypeParameter1WithExtends();  
			break;
 
    case 671 : if (DEBUG) { System.out.println("TypeParameter1 ::= TypeParameterHeader extends..."); }  //$NON-NLS-1$
		    consumeTypeParameter1WithExtendsAndBounds();  
			break;
 
    case 673 : if (DEBUG) { System.out.println("AdditionalBoundList1 ::= AdditionalBoundList..."); }  //$NON-NLS-1$
		    consumeAdditionalBoundList1();  
			break;
 
    case 674 : if (DEBUG) { System.out.println("AdditionalBound1 ::= AND ReferenceType1"); }  //$NON-NLS-1$
		    consumeAdditionalBound1();  
			break;
 
    case 680 : if (DEBUG) { System.out.println("UnaryExpression_NotName ::= PLUS PushPosition..."); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.PLUS);  
			break;
 
    case 681 : if (DEBUG) { System.out.println("UnaryExpression_NotName ::= MINUS PushPosition..."); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.MINUS);  
			break;
 
    case 684 : if (DEBUG) { System.out.println("UnaryExpressionNotPlusMinus_NotName ::= TWIDDLE..."); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.TWIDDLE);  
			break;
 
    case 685 : if (DEBUG) { System.out.println("UnaryExpressionNotPlusMinus_NotName ::= NOT PushPosition"); }  //$NON-NLS-1$
		    consumeUnaryExpression(OperatorIds.NOT);  
			break;
 
    case 688 : if (DEBUG) { System.out.println("MultiplicativeExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.MULTIPLY);  
			break;
 
    case 689 : if (DEBUG) { System.out.println("MultiplicativeExpression_NotName ::= Name MULTIPLY..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.MULTIPLY);  
			break;
 
    case 690 : if (DEBUG) { System.out.println("MultiplicativeExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.DIVIDE);  
			break;
 
    case 691 : if (DEBUG) { System.out.println("MultiplicativeExpression_NotName ::= Name DIVIDE..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.DIVIDE);  
			break;
 
    case 692 : if (DEBUG) { System.out.println("MultiplicativeExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.REMAINDER);  
			break;
 
    case 693 : if (DEBUG) { System.out.println("MultiplicativeExpression_NotName ::= Name REMAINDER..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.REMAINDER);  
			break;
 
    case 695 : if (DEBUG) { System.out.println("AdditiveExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.PLUS);  
			break;
 
    case 696 : if (DEBUG) { System.out.println("AdditiveExpression_NotName ::= Name PLUS..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.PLUS);  
			break;
 
    case 697 : if (DEBUG) { System.out.println("AdditiveExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.MINUS);  
			break;
 
    case 698 : if (DEBUG) { System.out.println("AdditiveExpression_NotName ::= Name MINUS..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.MINUS);  
			break;
 
    case 700 : if (DEBUG) { System.out.println("ShiftExpression_NotName ::= ShiftExpression_NotName..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.LEFT_SHIFT);  
			break;
 
    case 701 : if (DEBUG) { System.out.println("ShiftExpression_NotName ::= Name LEFT_SHIFT..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.LEFT_SHIFT);  
			break;
 
    case 702 : if (DEBUG) { System.out.println("ShiftExpression_NotName ::= ShiftExpression_NotName..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.RIGHT_SHIFT);  
			break;
 
    case 703 : if (DEBUG) { System.out.println("ShiftExpression_NotName ::= Name RIGHT_SHIFT..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.RIGHT_SHIFT);  
			break;
 
    case 704 : if (DEBUG) { System.out.println("ShiftExpression_NotName ::= ShiftExpression_NotName..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.UNSIGNED_RIGHT_SHIFT);  
			break;
 
    case 705 : if (DEBUG) { System.out.println("ShiftExpression_NotName ::= Name UNSIGNED_RIGHT_SHIFT..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.UNSIGNED_RIGHT_SHIFT);  
			break;
 
    case 707 : if (DEBUG) { System.out.println("RelationalExpression_NotName ::= ShiftExpression_NotName"); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.LESS);  
			break;
 
    case 708 : if (DEBUG) { System.out.println("RelationalExpression_NotName ::= Name LESS..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.LESS);  
			break;
 
    case 709 : if (DEBUG) { System.out.println("RelationalExpression_NotName ::= ShiftExpression_NotName"); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.GREATER);  
			break;
 
    case 710 : if (DEBUG) { System.out.println("RelationalExpression_NotName ::= Name GREATER..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.GREATER);  
			break;
 
    case 711 : if (DEBUG) { System.out.println("RelationalExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.LESS_EQUAL);  
			break;
 
    case 712 : if (DEBUG) { System.out.println("RelationalExpression_NotName ::= Name LESS_EQUAL..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.LESS_EQUAL);  
			break;
 
    case 713 : if (DEBUG) { System.out.println("RelationalExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.GREATER_EQUAL);  
			break;
 
    case 714 : if (DEBUG) { System.out.println("RelationalExpression_NotName ::= Name GREATER_EQUAL..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.GREATER_EQUAL);  
			break;
 
    case 716 : if (DEBUG) { System.out.println("InstanceofExpression_NotName ::= Name instanceof..."); }  //$NON-NLS-1$
		    consumeInstanceOfExpressionWithName();  
			break;
 
    case 717 : if (DEBUG) { System.out.println("InstanceofExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeInstanceOfExpression();  
			break;
 
    case 719 : if (DEBUG) { System.out.println("EqualityExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeEqualityExpression(OperatorIds.EQUAL_EQUAL);  
			break;
 
    case 720 : if (DEBUG) { System.out.println("EqualityExpression_NotName ::= Name EQUAL_EQUAL..."); }  //$NON-NLS-1$
		    consumeEqualityExpressionWithName(OperatorIds.EQUAL_EQUAL);  
			break;
 
    case 721 : if (DEBUG) { System.out.println("EqualityExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeEqualityExpression(OperatorIds.NOT_EQUAL);  
			break;
 
    case 722 : if (DEBUG) { System.out.println("EqualityExpression_NotName ::= Name NOT_EQUAL..."); }  //$NON-NLS-1$
		    consumeEqualityExpressionWithName(OperatorIds.NOT_EQUAL);  
			break;
 
    case 724 : if (DEBUG) { System.out.println("AndExpression_NotName ::= AndExpression_NotName AND..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.AND);  
			break;
 
    case 725 : if (DEBUG) { System.out.println("AndExpression_NotName ::= Name AND EqualityExpression"); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.AND);  
			break;
 
    case 727 : if (DEBUG) { System.out.println("ExclusiveOrExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.XOR);  
			break;
 
    case 728 : if (DEBUG) { System.out.println("ExclusiveOrExpression_NotName ::= Name XOR AndExpression"); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.XOR);  
			break;
 
    case 730 : if (DEBUG) { System.out.println("InclusiveOrExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.OR);  
			break;
 
    case 731 : if (DEBUG) { System.out.println("InclusiveOrExpression_NotName ::= Name OR..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.OR);  
			break;
 
    case 733 : if (DEBUG) { System.out.println("ConditionalAndExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.AND_AND);  
			break;
 
    case 734 : if (DEBUG) { System.out.println("ConditionalAndExpression_NotName ::= Name AND_AND..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.AND_AND);  
			break;
 
    case 736 : if (DEBUG) { System.out.println("ConditionalOrExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeBinaryExpression(OperatorIds.OR_OR);  
			break;
 
    case 737 : if (DEBUG) { System.out.println("ConditionalOrExpression_NotName ::= Name OR_OR..."); }  //$NON-NLS-1$
		    consumeBinaryExpressionWithName(OperatorIds.OR_OR);  
			break;
 
    case 739 : if (DEBUG) { System.out.println("ConditionalExpression_NotName ::=..."); }  //$NON-NLS-1$
		    consumeConditionalExpression(OperatorIds.QUESTIONCOLON) ;  
			break;
 
    case 740 : if (DEBUG) { System.out.println("ConditionalExpression_NotName ::= Name QUESTION..."); }  //$NON-NLS-1$
		    consumeConditionalExpressionWithName(OperatorIds.QUESTIONCOLON) ;  
			break;
 
    case 744 : if (DEBUG) { System.out.println("AnnotationTypeDeclarationHeaderName ::= Modifiers AT..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeDeclarationHeaderName() ;  
			break;
 
    case 745 : if (DEBUG) { System.out.println("AnnotationTypeDeclarationHeaderName ::= Modifiers AT..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeDeclarationHeaderNameWithTypeParameters() ;  
			break;
 
    case 746 : if (DEBUG) { System.out.println("AnnotationTypeDeclarationHeaderName ::= AT..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeDeclarationHeaderNameWithTypeParameters() ;  
			break;
 
    case 747 : if (DEBUG) { System.out.println("AnnotationTypeDeclarationHeaderName ::= AT..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeDeclarationHeaderName() ;  
			break;
 
    case 748 : if (DEBUG) { System.out.println("AnnotationTypeDeclarationHeader ::=..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeDeclarationHeader() ;  
			break;
 
    case 749 : if (DEBUG) { System.out.println("AnnotationTypeDeclaration ::=..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeDeclaration() ;  
			break;
 
    case 751 : if (DEBUG) { System.out.println("AnnotationTypeMemberDeclarationsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyAnnotationTypeMemberDeclarationsopt() ;  
			break;
 
    case 752 : if (DEBUG) { System.out.println("AnnotationTypeMemberDeclarationsopt ::= NestedType..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeMemberDeclarationsopt() ;  
			break;
 
    case 754 : if (DEBUG) { System.out.println("AnnotationTypeMemberDeclarations ::=..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeMemberDeclarations() ;  
			break;
 
    case 755 : if (DEBUG) { System.out.println("AnnotationMethodHeaderName ::= Modifiersopt..."); }  //$NON-NLS-1$
		    consumeMethodHeaderNameWithTypeParameters(true);  
			break;
 
    case 756 : if (DEBUG) { System.out.println("AnnotationMethodHeaderName ::= Modifiersopt Type..."); }  //$NON-NLS-1$
		    consumeMethodHeaderName(true);  
			break;
 
    case 757 : if (DEBUG) { System.out.println("AnnotationMethodHeaderDefaultValueopt ::="); }  //$NON-NLS-1$
		    consumeEmptyMethodHeaderDefaultValue() ;  
			break;
 
    case 758 : if (DEBUG) { System.out.println("AnnotationMethodHeaderDefaultValueopt ::= DefaultValue"); }  //$NON-NLS-1$
		    consumeMethodHeaderDefaultValue();  
			break;
 
    case 759 : if (DEBUG) { System.out.println("AnnotationMethodHeader ::= AnnotationMethodHeaderName..."); }  //$NON-NLS-1$
		    consumeMethodHeader();  
			break;
 
    case 760 : if (DEBUG) { System.out.println("AnnotationTypeMemberDeclaration ::=..."); }  //$NON-NLS-1$
		    consumeAnnotationTypeMemberDeclaration() ;  
			break;
 
    case 768 : if (DEBUG) { System.out.println("AnnotationName ::= AT UnannotatableName"); }  //$NON-NLS-1$
		    consumeAnnotationName() ;  
			break;
 
    case 769 : if (DEBUG) { System.out.println("NormalAnnotation ::= AnnotationName LPAREN..."); }  //$NON-NLS-1$
		    consumeNormalAnnotation(false) ;  
			break;
 
    case 770 : if (DEBUG) { System.out.println("MemberValuePairsopt ::="); }  //$NON-NLS-1$
		    consumeEmptyMemberValuePairsopt() ;  
			break;
 
    case 773 : if (DEBUG) { System.out.println("MemberValuePairs ::= MemberValuePairs COMMA..."); }  //$NON-NLS-1$
		    consumeMemberValuePairs() ;  
			break;
 
    case 774 : if (DEBUG) { System.out.println("MemberValuePair ::= SimpleName EQUAL EnterMemberValue..."); }  //$NON-NLS-1$
		    consumeMemberValuePair() ;  
			break;
 
    case 775 : if (DEBUG) { System.out.println("EnterMemberValue ::="); }  //$NON-NLS-1$
		    consumeEnterMemberValue() ;  
			break;
 
    case 776 : if (DEBUG) { System.out.println("ExitMemberValue ::="); }  //$NON-NLS-1$
		    consumeExitMemberValue() ;  
			break;
 
    case 778 : if (DEBUG) { System.out.println("MemberValue ::= Name"); }  //$NON-NLS-1$
		    consumeMemberValueAsName() ;  
			break;
 
    case 781 : if (DEBUG) { System.out.println("MemberValueArrayInitializer ::=..."); }  //$NON-NLS-1$
		    consumeMemberValueArrayInitializer() ;  
			break;
 
    case 782 : if (DEBUG) { System.out.println("MemberValueArrayInitializer ::=..."); }  //$NON-NLS-1$
		    consumeMemberValueArrayInitializer() ;  
			break;
 
    case 783 : if (DEBUG) { System.out.println("MemberValueArrayInitializer ::=..."); }  //$NON-NLS-1$
		    consumeEmptyMemberValueArrayInitializer() ;  
			break;
 
    case 784 : if (DEBUG) { System.out.println("MemberValueArrayInitializer ::=..."); }  //$NON-NLS-1$
		    consumeEmptyMemberValueArrayInitializer() ;  
			break;
 
    case 785 : if (DEBUG) { System.out.println("EnterMemberValueArrayInitializer ::="); }  //$NON-NLS-1$
		    consumeEnterMemberValueArrayInitializer() ;  
			break;
 
    case 787 : if (DEBUG) { System.out.println("MemberValues ::= MemberValues COMMA MemberValue"); }  //$NON-NLS-1$
		    consumeMemberValues() ;  
			break;
 
    case 788 : if (DEBUG) { System.out.println("MarkerAnnotation ::= AnnotationName"); }  //$NON-NLS-1$
		    consumeMarkerAnnotation(false) ;  
			break;
 
    case 789 : if (DEBUG) { System.out.println("SingleMemberAnnotationMemberValue ::= MemberValue"); }  //$NON-NLS-1$
		    consumeSingleMemberAnnotationMemberValue() ;  
			break;
 
    case 790 : if (DEBUG) { System.out.println("SingleMemberAnnotation ::= AnnotationName LPAREN..."); }  //$NON-NLS-1$
		    consumeSingleMemberAnnotation(false) ;  
			break;
 
    case 791 : if (DEBUG) { System.out.println("RecoveryMethodHeaderName ::= Modifiersopt TypeParameters"); }  //$NON-NLS-1$
		    consumeRecoveryMethodHeaderNameWithTypeParameters();  
			break;
 
    case 792 : if (DEBUG) { System.out.println("RecoveryMethodHeaderName ::= Modifiersopt Type..."); }  //$NON-NLS-1$
		    consumeRecoveryMethodHeaderName();  
			break;
 
    case 793 : if (DEBUG) { System.out.println("RecoveryMethodHeaderName ::= ModifiersWithDefault..."); }  //$NON-NLS-1$
		    consumeRecoveryMethodHeaderNameWithTypeParameters();  
			break;
 
    case 794 : if (DEBUG) { System.out.println("RecoveryMethodHeaderName ::= ModifiersWithDefault Type"); }  //$NON-NLS-1$
		    consumeRecoveryMethodHeaderName();  
			break;
 
    case 795 : if (DEBUG) { System.out.println("RecoveryMethodHeader ::= RecoveryMethodHeaderName..."); }  //$NON-NLS-1$
		    consumeMethodHeader();  
			break;
 
    case 796 : if (DEBUG) { System.out.println("RecoveryMethodHeader ::= RecoveryMethodHeaderName..."); }  //$NON-NLS-1$
		    consumeMethodHeader();  
			break;
 
	}
}
protected void consumeVariableDeclaratorIdParameter () {
	pushOnIntStack(1);  // signal "normal" variable declarator id parameter.
}
protected void consumeExplicitThisParameter(boolean isQualified) {
	// VariableDeclaratorIdOrThis ::= 'this'
	// VariableDeclaratorIdOrThis ::= UnannotatableName '.' 'this'
	// VariableDeclaratorIdOrThis ::= VariableDeclaratorId

	NameReference qualifyingNameReference = null;
	if (isQualified) {
		qualifyingNameReference = getUnspecifiedReference(false); // By construction the qualified name is unannotated here, so we should not meddle with the type annotation stack
	}
	pushOnExpressionStack(qualifyingNameReference);
	int thisStart = this.intStack[this.intPtr--];
	pushIdentifier(ConstantPool.This, (((long) thisStart << 32)) + (thisStart + 3));
	pushOnIntStack(0);  // extended dimensions ...
	pushOnIntStack(0);  // signal explicit this
}

protected boolean isAssistParser() {
	return false;
}
protected void consumeNestedLambda() {
	// NestedLambda ::= $empty - we get here just after the type+parenthesis elided singleton parameter or just before the '(' of the parameter list. 
	consumeNestedType();
	this.nestedMethod[this.nestedType] ++;
	LambdaExpression lambda = new LambdaExpression(this.compilationUnit.compilationResult, isAssistParser());
	pushOnAstStack(lambda);
	this.processingLambdaParameterList = true;	
}

protected void consumeLambdaHeader() {
	// LambdaHeader ::= LambdaParameters '->'  Synthetic/fake production with a synthetic non-terminal. Body not seen yet.
	
	int arrowPosition = this.scanner.currentPosition - 1;
	
	Argument [] arguments = null;
	int length = this.astLengthStack[this.astLengthPtr--];
	this.astPtr -= length;
	//arguments
	if (length != 0) {
		System.arraycopy(
			this.astStack,
			this.astPtr + 1,
			arguments = new Argument[length],
			0,
			length);
	}
	for (int i = 0; i < length; i++) {
		final Argument argument = arguments[i];
		if (argument.isReceiver()) {
			problemReporter().illegalThis(argument);
		}
		if (argument.name.length == 1 && argument.name[0] == '_')
			problemReporter().illegalUseOfUnderscoreAsAnIdentifier(argument.sourceStart, argument.sourceEnd, true); // true == lambdaParameter
	}
	LambdaExpression lexp = (LambdaExpression) this.astStack[this.astPtr];
	lexp.setArguments(arguments);
	lexp.setArrowPosition(arrowPosition);
	lexp.sourceEnd = this.intStack[this.intPtr--];   // ')' position or identifier position.
	lexp.sourceStart = this.intStack[this.intPtr--]; // '(' position or identifier position.
	lexp.hasParentheses = (this.scanner.getSource()[lexp.sourceStart] == '(');
	this.listLength -= arguments == null ? 0 : arguments.length;  // not necessary really.
	this.processingLambdaParameterList = false;
	if (this.currentElement != null) {
		this.lastCheckPoint = arrowPosition + 1; // we don't want the typed formal parameters to be processed by recovery.
	}
}
protected void consumeLambdaExpression() {
	
	// LambdaExpression ::= LambdaHeader LambdaBody

	this.nestedType--;
	
	this.astLengthPtr--; 	// pop length for LambdaBody (always 1)
	Statement body = (Statement) this.astStack[this.astPtr--];
	if (body instanceof Block) {
		if (this.options.ignoreMethodBodies) {
			body = new Block(0);
		}
		((Block) body).lambdaBody = true; // for consistency's sakes.
	}

	LambdaExpression lexp = (LambdaExpression) this.astStack[this.astPtr--];
	this.astLengthPtr--;
	lexp.setBody(body);
	lexp.sourceEnd = body.sourceEnd;
	
	if (body instanceof Expression) {
		Expression expression = (Expression) body;
		expression.statementEnd = body.sourceEnd;
	}
	if (!this.parsingJava8Plus) {
		problemReporter().lambdaExpressionsNotBelow18(lexp);
	}
	pushOnExpressionStack(lexp);
	if (this.currentElement != null) {
		this.lastCheckPoint = body.sourceEnd + 1;
	}
	this.referenceContext.compilationResult().hasFunctionalTypes = true;
	markEnclosingMemberWithLocalOrFunctionalType(LocalTypeKind.LAMBDA);
	if (lexp.compilationResult.getCompilationUnit() == null) {
		// unit built out of model. Stash a textual representation of lambda to enable LE.copy().
		int length = lexp.sourceEnd - lexp.sourceStart + 1;
		System.arraycopy(this.scanner.getSource(), lexp.sourceStart, lexp.text = new char [length], 0, length); 
	}
}

protected Argument typeElidedArgument() {
	this.identifierLengthPtr--;
	char[] identifierName = this.identifierStack[this.identifierPtr];
	long namePositions = this.identifierPositionStack[this.identifierPtr--];

	Argument arg =
		new Argument(
			identifierName,
			namePositions,
			null, // elided type
			ClassFileConstants.AccDefault,
			true);
	arg.declarationSourceStart = (int) (namePositions >>> 32);
	return arg; 
}

protected void consumeTypeElidedLambdaParameter(boolean parenthesized) {

	// LambdaParameters ::= Identifier
	// TypeElidedFormalParameter ::= Modifiersopt Identifier
	
	int modifier = ClassFileConstants.AccDefault;
	int annotationLength = 0;
	int modifiersStart = 0;
	if (parenthesized) { // The grammar is permissive enough to allow optional modifiers for the parenthesized version, they should be rejected if present. 
		modifiersStart = this.intStack[this.intPtr--];
		modifier = this.intStack[this.intPtr--];
		// pop annotations
		annotationLength = this.expressionLengthStack[this.expressionLengthPtr--];
		this.expressionPtr -= annotationLength;
	}

	Argument arg = typeElidedArgument();
	if (modifier != ClassFileConstants.AccDefault || annotationLength != 0) {
		problemReporter().illegalModifiersForElidedType(arg);
		arg.declarationSourceStart = modifiersStart;
	} 
	if (!parenthesized) { // in the absence of '(' and ')', record positions.
		pushOnIntStack(arg.declarationSourceStart);
		pushOnIntStack(arg.declarationSourceEnd);
	}
	pushOnAstStack(arg);
	this.listLength++;  // not relevant really.
}
protected void consumeElidedLeftBraceAndReturn() {
	/* ElidedLeftBraceAndReturn ::= $empty
	   Alert ! Sleight of hand - Part I : Record stack depth now that we are at the state with the kernel item
	   ElidedLeftBraceAndReturn .Expression ElidedSemicolonAndRightBrace
	*/
	int stackLength = this.stateStackLengthStack.length;
	if (++this.valueLambdaNestDepth >= stackLength) {
		System.arraycopy(
			this.stateStackLengthStack, 0,
			this.stateStackLengthStack = new int[stackLength + 4], 0,
			stackLength);
	}
	this.stateStackLengthStack[this.valueLambdaNestDepth] = this.stateStackTop;  
}
protected void consumeExpression() {
	/* Expression ::= AssignmentExpression
	   Alert ! Sleight of hand - Part II: See if we are at the state with the item: "ElidedLeftBraceAndReturn Expression .ElidedSemicolonAndRightBrace"
       If so, push back the current token into the lexer stream, materialize the synthetic terminal marker symbol, switch and continue.
    */   
	if (this.valueLambdaNestDepth >= 0 && this.stateStackLengthStack[this.valueLambdaNestDepth] == this.stateStackTop - 1) {
		this.valueLambdaNestDepth--;
		this.scanner.ungetToken(this.currentToken);
		this.currentToken = TokenNameElidedSemicolonAndRightBrace; // conjure a rabbit out of the hat ...
		Expression exp = this.expressionStack[this.expressionPtr--];
		this.expressionLengthPtr--;
		pushOnAstStack(exp);
	}
}
protected void consumeIdentifierOrNew(boolean newForm) {
	// IdentifierOrNew ::= 'Identifier'
	// IdentifierOrNew ::= 'new'
	if (newForm) {
		int newStart = this.intStack[this.intPtr--];
		pushIdentifier(ConstantPool.Init, (((long) newStart << 32)) + (newStart + 2));
	}
}
protected void consumeEmptyTypeArguments() {
	// NonWildTypeArgumentsopt ::= $empty
	pushOnGenericsLengthStack(0); // signal absence of type arguments.
}

public ReferenceExpression newReferenceExpression() {
	return new ReferenceExpression();
}

protected void consumeReferenceExpressionTypeForm(boolean isPrimitive) { // actually Name or Type form.
	
	// ReferenceExpression ::= PrimitiveType Dims '::' NonWildTypeArgumentsopt IdentifierOrNew
	// ReferenceExpression ::= Name Dimsopt '::' NonWildTypeArgumentsopt IdentifierOrNew

	ReferenceExpression referenceExpression = newReferenceExpression();
	TypeReference [] typeArguments = null;
	char [] selector;
	int sourceEnd;

	sourceEnd = (int) this.identifierPositionStack[this.identifierPtr];
	referenceExpression.nameSourceStart = (int) (this.identifierPositionStack[this.identifierPtr] >>> 32);
	selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;
	
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	if (length > 0) {
		this.genericsPtr -= length;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, typeArguments = new TypeReference[length], 0, length);
		this.intPtr--;  // pop type arguments source start.
	}
	
	int dimension = this.intStack[this.intPtr--];
	boolean typeAnnotatedName = false;
	for (int i = this.identifierLengthStack[this.identifierLengthPtr], j = 0; i > 0 && this.typeAnnotationLengthPtr >= 0; --i, j++) {
		length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr - j];
		if (length != 0) {
			typeAnnotatedName = true;
			break;
		}
	}
	
	if (dimension > 0 || typeAnnotatedName) {
		if (!isPrimitive) {
			pushOnGenericsLengthStack(0);
			pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
		}
		referenceExpression.initialize(this.compilationUnit.compilationResult, getTypeReference(dimension), typeArguments, selector, sourceEnd);
	} else {
		referenceExpression.initialize(this.compilationUnit.compilationResult, getUnspecifiedReference(), typeArguments, selector, sourceEnd);
	}
	consumeReferenceExpression(referenceExpression);
}
protected void consumeReferenceExpressionPrimaryForm() {
	// ReferenceExpression ::= Primary '::' NonWildTypeArgumentsopt Identifier

	ReferenceExpression referenceExpression = newReferenceExpression();
	TypeReference [] typeArguments = null;
	char [] selector;
	int sourceEnd;

	sourceEnd = (int) this.identifierPositionStack[this.identifierPtr];
	referenceExpression.nameSourceStart = (int) (this.identifierPositionStack[this.identifierPtr] >>> 32);
	selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	if (length > 0) {
		this.genericsPtr -= length;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, typeArguments = new TypeReference[length], 0, length);
		this.intPtr--;  // pop type arguments source start.
	}
	
	Expression primary = this.expressionStack[this.expressionPtr--];
	this.expressionLengthPtr--;
	referenceExpression.initialize(this.compilationUnit.compilationResult, primary, typeArguments, selector, sourceEnd);
	consumeReferenceExpression(referenceExpression);
}
protected void consumeReferenceExpressionSuperForm() {
	// ReferenceExpression ::= 'super' '::' NonWildTypeArgumentsopt Identifier

	ReferenceExpression referenceExpression = newReferenceExpression();
	TypeReference [] typeArguments = null;
	char [] selector;
	int sourceEnd;

	sourceEnd = (int) this.identifierPositionStack[this.identifierPtr];
	referenceExpression.nameSourceStart = (int) (this.identifierPositionStack[this.identifierPtr] >>> 32);
	selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	if (length > 0) {
		this.genericsPtr -= length;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, typeArguments = new TypeReference[length], 0, length);
		this.intPtr--;  // pop type arguments source start.
	}
	
	SuperReference superReference = new SuperReference(this.intStack[this.intPtr--], this.endPosition);
	referenceExpression.initialize(this.compilationUnit.compilationResult, superReference, typeArguments, selector, sourceEnd);
	consumeReferenceExpression(referenceExpression);
}
protected void consumeReferenceExpression(ReferenceExpression referenceExpression) {
	pushOnExpressionStack(referenceExpression);
	if (!this.parsingJava8Plus) {
		problemReporter().referenceExpressionsNotBelow18(referenceExpression);
	}
	this.referenceContext.compilationResult().hasFunctionalTypes = true;
	markEnclosingMemberWithLocalOrFunctionalType(LocalTypeKind.METHOD_REFERENCE);
}
protected void consumeReferenceExpressionTypeArgumentsAndTrunk(boolean qualified) {
	// ReferenceExpressionTypeArgumentsAndTrunk ::= OnlyTypeArguments Dimsopt ==> qualified == false
	// ReferenceExpressionTypeArgumentsAndTrunk ::= OnlyTypeArguments '.' ClassOrInterfaceType Dimsopt ==> qualified == true
	pushOnIntStack(qualified ? 1 : 0);
	pushOnIntStack(this.scanner.startPosition - 1); // mark position of :: as the end of type
}
protected void consumeReferenceExpressionGenericTypeForm() {

	// ReferenceExpression ::= Name BeginTypeArguments ReferenceExpressionTypeArgumentsAndTrunk '::' NonWildTypeArgumentsopt IdentifierOrNew
	
	ReferenceExpression referenceExpression = newReferenceExpression();
	TypeReference type;
	TypeReference [] typeArguments = null;
	char [] selector;
	int sourceEnd;

	sourceEnd = (int) this.identifierPositionStack[this.identifierPtr];
	referenceExpression.nameSourceStart = (int) (this.identifierPositionStack[this.identifierPtr] >>> 32);
	selector = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;

	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	if (length > 0) {
		this.genericsPtr -= length;
		System.arraycopy(this.genericsStack, this.genericsPtr + 1, typeArguments = new TypeReference[length], 0, length);
		this.intPtr--;  // pop type arguments source start.
	}
	
	int typeSourceEnd = this.intStack[this.intPtr--];
	boolean qualified = this.intStack[this.intPtr--] != 0;
	int dims = this.intStack[this.intPtr--];
	if (qualified) {
		Annotation [][] annotationsOnDimensions = dims == 0 ? null : getAnnotationsOnDimensions(dims);
		TypeReference rightSide = getTypeReference(0);
		type = computeQualifiedGenericsFromRightSide(rightSide, dims, annotationsOnDimensions);
	} else {		
		pushOnGenericsIdentifiersLengthStack(this.identifierLengthStack[this.identifierLengthPtr]);
		type = getTypeReference(dims);
	}
	this.intPtr--; // pop '<' position
	type.sourceEnd = typeSourceEnd;
	
	referenceExpression.initialize(this.compilationUnit.compilationResult, type, typeArguments, selector, sourceEnd);

	consumeReferenceExpression(referenceExpression);
}
protected void consumeEnterInstanceCreationArgumentList() {
	return;
}
protected void consumeSimpleAssertStatement() {
	// AssertStatement ::= 'assert' Expression ';'
	this.expressionLengthPtr--;
	pushOnAstStack(new AssertStatement(this.expressionStack[this.expressionPtr--], this.intStack[this.intPtr--]));
}
protected void consumeSingleMemberAnnotation(boolean isTypeAnnotation) {
	// SingleMemberTypeAnnotation ::= TypeAnnotationName '(' SingleMemberAnnotationMemberValue ')'
	// SingleMemberAnnotation ::= AnnotationName '(' SingleMemberAnnotationMemberValue ')'
	SingleMemberAnnotation singleMemberAnnotation = null;

	int oldIndex = this.identifierPtr;

	TypeReference typeReference = getAnnotationType();
	singleMemberAnnotation = new SingleMemberAnnotation(typeReference, this.intStack[this.intPtr--]);
	singleMemberAnnotation.memberValue = this.expressionStack[this.expressionPtr--];
	this.expressionLengthPtr--;
	singleMemberAnnotation.declarationSourceEnd = this.rParenPos;
	
	if (isTypeAnnotation) {
		pushOnTypeAnnotationStack(singleMemberAnnotation);
	} else {
		pushOnExpressionStack(singleMemberAnnotation);
	}

	if(this.currentElement != null) {
		annotationRecoveryCheckPoint(singleMemberAnnotation.sourceStart, singleMemberAnnotation.declarationSourceEnd);

		if (this.currentElement instanceof RecoveredAnnotation) {
			this.currentElement = ((RecoveredAnnotation)this.currentElement).addAnnotation(singleMemberAnnotation, oldIndex);
		}
	}

	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		problemReporter().invalidUsageOfAnnotation(singleMemberAnnotation);
	}
	this.recordStringLiterals = true;
}
protected void consumeSingleMemberAnnotationMemberValue() {
	// this rule is used for syntax recovery only
	if (this.currentElement != null && this.currentElement instanceof RecoveredAnnotation) {
		RecoveredAnnotation recoveredAnnotation = (RecoveredAnnotation) this.currentElement;

		recoveredAnnotation.setKind(RecoveredAnnotation.SINGLE_MEMBER);
	}

}
protected void consumeSingleResource() {
	// Resources ::= Resource
}
protected void consumeSingleStaticImportDeclarationName() {
	// SingleTypeImportDeclarationName ::= 'import' Name RejectTypeAnnotations
	/* push an ImportRef build from the last name
	stored in the identifier stack. */

	ImportReference impt;
	int length;
	char[][] tokens = new char[length = this.identifierLengthStack[this.identifierLengthPtr--]][];
	this.identifierPtr -= length;
	long[] positions = new long[length];
	System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length);
	System.arraycopy(this.identifierPositionStack, this.identifierPtr + 1, positions, 0, length);
	pushOnAstStack(impt = new ImportReference(tokens, positions, false, ClassFileConstants.AccStatic));

	this.modifiers = ClassFileConstants.AccDefault;
	this.modifiersSourceStart = -1; // <-- see comment into modifiersFlag(int)

	if (this.currentToken == TokenNameSEMICOLON){
		impt.declarationSourceEnd = this.scanner.currentPosition - 1;
	} else {
		impt.declarationSourceEnd = impt.sourceEnd;
	}
	impt.declarationEnd = impt.declarationSourceEnd;
	//this.endPosition is just before the ;
	impt.declarationSourceStart = this.intStack[this.intPtr--];

	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		impt.modifiers = ClassFileConstants.AccDefault; // convert the static import reference to a non-static importe reference
		problemReporter().invalidUsageOfStaticImports(impt);
	}

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = impt.declarationSourceEnd+1;
		this.currentElement = this.currentElement.add(impt, 0);
		this.lastIgnoredToken = -1;
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
}
protected void consumeSingleTypeImportDeclarationName() {
	// SingleTypeImportDeclarationName ::= 'import' Name
	/* push an ImportRef build from the last name
	stored in the identifier stack. */

	ImportReference impt;
	int length;
	char[][] tokens = new char[length = this.identifierLengthStack[this.identifierLengthPtr--]][];
	this.identifierPtr -= length;
	long[] positions = new long[length];
	System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length);
	System.arraycopy(this.identifierPositionStack, this.identifierPtr + 1, positions, 0, length);
	pushOnAstStack(impt = new ImportReference(tokens, positions, false, ClassFileConstants.AccDefault));

	if (this.currentToken == TokenNameSEMICOLON){
		impt.declarationSourceEnd = this.scanner.currentPosition - 1;
	} else {
		impt.declarationSourceEnd = impt.sourceEnd;
	}
	impt.declarationEnd = impt.declarationSourceEnd;
	//this.endPosition is just before the ;
	impt.declarationSourceStart = this.intStack[this.intPtr--];

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = impt.declarationSourceEnd+1;
		this.currentElement = this.currentElement.add(impt, 0);
		this.lastIgnoredToken = -1;
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
}
protected void consumeStatementBreak() {
	// BreakStatement ::= 'break' ';'
	// break pushes a position on this.intStack in case there is no label

	pushOnAstStack(new BreakStatement(null, this.intStack[this.intPtr--], this.endStatementPosition));

	if (this.pendingRecoveredType != null) {
		// Used only in statements recovery.
		// This is not a real break statement but a placeholder for an existing local type.
		// The break statement must be replace by the local type.
		if (this.pendingRecoveredType.allocation == null &&
				this.endPosition <= this.pendingRecoveredType.declarationSourceEnd) {
			this.astStack[this.astPtr] = this.pendingRecoveredType;
			this.pendingRecoveredType = null;
			return;
		}
		this.pendingRecoveredType = null;
	}
}
protected void consumeStatementBreakWithLabel() {
	// BreakStatement ::= 'break' Identifier ';'
	// break pushs a position on this.intStack in case there is no label

	pushOnAstStack(
		new BreakStatement(
			this.identifierStack[this.identifierPtr--],
			this.intStack[this.intPtr--],
			this.endStatementPosition));
	this.identifierLengthPtr--;
}
protected void consumeStatementCatch() {
	// CatchClause ::= 'catch' '(' FormalParameter ')'    Block

	//catch are stored directly into the Try
	//has they always comes two by two....
	//we remove one entry from the astlengthPtr.
	//The construction of the try statement must
	//then fetch the catches using  2*i and 2*i + 1

	this.astLengthPtr--;
	this.listLength = 0; // reset formalParameter counter (incremented for catch variable)
}
protected void consumeStatementContinue() {
	// ContinueStatement ::= 'continue' ';'
	// continue pushs a position on this.intStack in case there is no label

	pushOnAstStack(
		new ContinueStatement(
			null,
			this.intStack[this.intPtr--],
			this.endStatementPosition));
}
protected void consumeStatementContinueWithLabel() {
	// ContinueStatement ::= 'continue' Identifier ';'
	// continue pushs a position on this.intStack in case there is no label

	pushOnAstStack(
		new ContinueStatement(
			this.identifierStack[this.identifierPtr--],
			this.intStack[this.intPtr--],
			this.endStatementPosition));
	this.identifierLengthPtr--;
}
protected void consumeStatementDo() {
	// DoStatement ::= 'do' Statement 'while' '(' Expression ')' ';'

	//the 'while' pushes a value on this.intStack that we need to remove
	this.intPtr--;

	Statement statement = (Statement) this.astStack[this.astPtr];
	this.expressionLengthPtr--;
	this.astStack[this.astPtr] =
		new DoStatement(
			this.expressionStack[this.expressionPtr--],
			statement,
			this.intStack[this.intPtr--],
			this.endStatementPosition);
}
protected void consumeStatementExpressionList() {
	// StatementExpressionList ::= StatementExpressionList ',' StatementExpression
	concatExpressionLists();
}
protected void consumeStatementFor() {
	// ForStatement ::= 'for' '(' ForInitopt ';' Expressionopt ';' ForUpdateopt ')' Statement
	// ForStatementNoShortIf ::= 'for' '(' ForInitopt ';' Expressionopt ';' ForUpdateopt ')' StatementNoShortIf

	int length;
	Expression cond = null;
	Statement[] inits, updates;
	boolean scope = true;

	//statements
	this.astLengthPtr--;
	Statement statement = (Statement) this.astStack[this.astPtr--];

	//updates are on the expresion stack
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) == 0) {
		updates = null;
	} else {
		this.expressionPtr -= length;
		System.arraycopy(
			this.expressionStack,
			this.expressionPtr + 1,
			updates = new Statement[length],
			0,
			length);
	}

	if (this.expressionLengthStack[this.expressionLengthPtr--] != 0)
		cond = this.expressionStack[this.expressionPtr--];

	//inits may be on two different stacks
	if ((length = this.astLengthStack[this.astLengthPtr--]) == 0) {
		inits = null;
		scope = false;
	} else {
		if (length == -1) { //on this.expressionStack
			scope = false;
			length = this.expressionLengthStack[this.expressionLengthPtr--];
			this.expressionPtr -= length;
			System.arraycopy(
				this.expressionStack,
				this.expressionPtr + 1,
				inits = new Statement[length],
				0,
				length);
		} else { //on this.astStack
			this.astPtr -= length;
			System.arraycopy(
				this.astStack,
				this.astPtr + 1,
				inits = new Statement[length],
				0,
				length);
		}
	}
	pushOnAstStack(
		new ForStatement(
			inits,
			cond,
			updates,
			statement,
			scope,
			this.intStack[this.intPtr--],
			this.endStatementPosition));
}
protected void consumeStatementIfNoElse() {
	// IfThenStatement ::=  'if' '(' Expression ')' Statement

	//optimize the push/pop
	this.expressionLengthPtr--;
	Statement thenStatement = (Statement) this.astStack[this.astPtr];
	this.astStack[this.astPtr] =
		new IfStatement(
			this.expressionStack[this.expressionPtr--],
			thenStatement,
			this.intStack[this.intPtr--],
			this.endStatementPosition);
}
protected void consumeStatementIfWithElse() {
	// IfThenElseStatement ::=  'if' '(' Expression ')' StatementNoShortIf 'else' Statement
	// IfThenElseStatementNoShortIf ::=  'if' '(' Expression ')' StatementNoShortIf 'else' StatementNoShortIf

	this.expressionLengthPtr--;

	// optimized {..., Then, Else } ==> {..., If }
	this.astLengthPtr--;

	//optimize the push/pop
	this.astStack[--this.astPtr] =
		new IfStatement(
			this.expressionStack[this.expressionPtr--],
			(Statement) this.astStack[this.astPtr],
			(Statement) this.astStack[this.astPtr + 1],
			this.intStack[this.intPtr--],
			this.endStatementPosition);
}
protected void consumeStatementLabel() {
	// LabeledStatement ::= 'Identifier' ':' Statement
	// LabeledStatementNoShortIf ::= 'Identifier' ':' StatementNoShortIf

	//optimize push/pop
	Statement statement = (Statement) this.astStack[this.astPtr];
	this.astStack[this.astPtr] =
		new LabeledStatement(
			this.identifierStack[this.identifierPtr],
			statement,
			this.identifierPositionStack[this.identifierPtr--],
			this.endStatementPosition);
	this.identifierLengthPtr--;
}
protected void consumeStatementReturn() {
	// ReturnStatement ::= 'return' Expressionopt ';'
	// return pushs a position on this.intStack in case there is no expression

	if (this.expressionLengthStack[this.expressionLengthPtr--] != 0) {
		pushOnAstStack(
			new ReturnStatement(
				this.expressionStack[this.expressionPtr--],
				this.intStack[this.intPtr--],
				this.endStatementPosition)
		);
	} else {
		pushOnAstStack(new ReturnStatement(null, this.intStack[this.intPtr--], this.endStatementPosition));
	}
}
protected void consumeStatementSwitch() {
	// SwitchStatement ::= 'switch' OpenBlock '(' Expression ')' SwitchBlock

	//OpenBlock just makes the semantic action blockStart()
	//the block is inlined but a scope need to be created
	//if some declaration occurs.

	int length;
	SwitchStatement switchStatement = new SwitchStatement();
	this.expressionLengthPtr--;
	switchStatement.expression = this.expressionStack[this.expressionPtr--];
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		this.astPtr -= length;
		System.arraycopy(
			this.astStack,
			this.astPtr + 1,
			switchStatement.statements = new Statement[length],
			0,
			length);
	}
	switchStatement.explicitDeclarations = this.realBlockStack[this.realBlockPtr--];
	pushOnAstStack(switchStatement);
	switchStatement.blockStart = this.intStack[this.intPtr--];
	switchStatement.sourceStart = this.intStack[this.intPtr--];
	switchStatement.sourceEnd = this.endStatementPosition;
	if (length == 0 && !containsComment(switchStatement.blockStart, switchStatement.sourceEnd)) {
		switchStatement.bits |= ASTNode.UndocumentedEmptyBlock;
	}
}
protected void consumeStatementSynchronized() {
	// SynchronizedStatement ::= OnlySynchronized '(' Expression ')' Block
	//optimize the push/pop

	if (this.astLengthStack[this.astLengthPtr] == 0) {
		this.astLengthStack[this.astLengthPtr] = 1;
		this.expressionLengthPtr--;
		this.astStack[++this.astPtr] =
			new SynchronizedStatement(
				this.expressionStack[this.expressionPtr--],
				null,
				this.intStack[this.intPtr--],
				this.endStatementPosition);
	} else {
		this.expressionLengthPtr--;
		this.astStack[this.astPtr] =
			new SynchronizedStatement(
				this.expressionStack[this.expressionPtr--],
				(Block) this.astStack[this.astPtr],
				this.intStack[this.intPtr--],
				this.endStatementPosition);
	}
	this.modifiers = ClassFileConstants.AccDefault;
	this.modifiersSourceStart = -1; // <-- see comment into modifiersFlag(int)
}
protected void consumeStatementThrow() {
	// ThrowStatement ::= 'throw' Expression ';'
	this.expressionLengthPtr--;
	pushOnAstStack(new ThrowStatement(this.expressionStack[this.expressionPtr--], this.intStack[this.intPtr--], this.endStatementPosition));
}
protected void consumeStatementTry(boolean withFinally, boolean hasResources) {
	// TryStatement ::= 'try'  Block Catches
	// TryStatement ::= 'try'  Block Catchesopt Finally
	// TryStatementWithResources ::= 'try' ResourceSpecification TryBlock Catchesopt
	// TryStatementWithResources ::= 'try' ResourceSpecification TryBlock Catchesopt Finally
	
	int length;
	TryStatement tryStmt = new TryStatement();
	//finally
	if (withFinally) {
		this.astLengthPtr--;
		tryStmt.finallyBlock = (Block) this.astStack[this.astPtr--];
	}
	//catches are handle by two  [see statementCatch]
	if ((length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		if (length == 1) {
			tryStmt.catchBlocks = new Block[] {(Block) this.astStack[this.astPtr--]};
			tryStmt.catchArguments = new Argument[] {(Argument) this.astStack[this.astPtr--]};
		} else {
			Block[] bks = (tryStmt.catchBlocks = new Block[length]);
			Argument[] args = (tryStmt.catchArguments = new Argument[length]);
			while (length-- > 0) {
				bks[length] = (Block) this.astStack[this.astPtr--];
				args[length] = (Argument) this.astStack[this.astPtr--];
			}
		}
	}
	//try
	this.astLengthPtr--;
	tryStmt.tryBlock = (Block) this.astStack[this.astPtr--];

	if (hasResources) {
		// get the resources
		length = this.astLengthStack[this.astLengthPtr--];
		LocalDeclaration[] resources = new LocalDeclaration[length];
		System.arraycopy(
				this.astStack,
				(this.astPtr -= length) + 1,
				resources,
				0,
				length);
		tryStmt.resources = resources;
		if (this.options.sourceLevel < ClassFileConstants.JDK1_7) {
			problemReporter().autoManagedResourcesNotBelow17(resources);
		}
	}
	//positions
	tryStmt.sourceEnd = this.endStatementPosition;
	tryStmt.sourceStart = this.intStack[this.intPtr--];
	pushOnAstStack(tryStmt);
}
protected void consumeStatementWhile() {
	// WhileStatement ::= 'while' '(' Expression ')' Statement
	// WhileStatementNoShortIf ::= 'while' '(' Expression ')' StatementNoShortIf

	this.expressionLengthPtr--;
	Statement statement = (Statement) this.astStack[this.astPtr];
	this.astStack[this.astPtr] =
		new WhileStatement(
			this.expressionStack[this.expressionPtr--],
			statement,
			this.intStack[this.intPtr--],
			this.endStatementPosition);
}
protected void consumeStaticImportOnDemandDeclarationName() {
	// StaticImportOnDemandDeclarationName ::= 'import' 'static' Name '.' RejectTypeAnnotations '*'
	/* push an ImportRef build from the last name
	stored in the identifier stack. */

	ImportReference impt;
	int length;
	char[][] tokens = new char[length = this.identifierLengthStack[this.identifierLengthPtr--]][];
	this.identifierPtr -= length;
	long[] positions = new long[length];
	System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length);
	System.arraycopy(this.identifierPositionStack, this.identifierPtr + 1, positions, 0, length);
	pushOnAstStack(impt = new ImportReference(tokens, positions, true, ClassFileConstants.AccStatic));

	// star end position
	impt.trailingStarPosition = this.intStack[this.intPtr--];
	this.modifiers = ClassFileConstants.AccDefault;
	this.modifiersSourceStart = -1; // <-- see comment into modifiersFlag(int)

	if (this.currentToken == TokenNameSEMICOLON){
		impt.declarationSourceEnd = this.scanner.currentPosition - 1;
	} else {
		impt.declarationSourceEnd = impt.sourceEnd;
	}
	impt.declarationEnd = impt.declarationSourceEnd;
	//this.endPosition is just before the ;
	impt.declarationSourceStart = this.intStack[this.intPtr--];

	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		impt.modifiers = ClassFileConstants.AccDefault; // convert the static import reference to a non-static importe reference
		problemReporter().invalidUsageOfStaticImports(impt);
	}

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = impt.declarationSourceEnd+1;
		this.currentElement = this.currentElement.add(impt, 0);
		this.lastIgnoredToken = -1;
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
}
protected void consumeStaticInitializer() {
	// StaticInitializer ::=  StaticOnly Block
	//push an Initializer
	//optimize the push/pop
	Block block = (Block) this.astStack[this.astPtr];
	if (this.diet) block.bits &= ~ASTNode.UndocumentedEmptyBlock; // clear bit set since was diet
	Initializer initializer = new Initializer(block, ClassFileConstants.AccStatic);
	this.astStack[this.astPtr] = initializer;
	initializer.sourceEnd = this.endStatementPosition;
	initializer.declarationSourceEnd = flushCommentsDefinedPriorTo(this.endStatementPosition);
	this.nestedMethod[this.nestedType] --;
	initializer.declarationSourceStart = this.intStack[this.intPtr--];
	initializer.bodyStart = this.intStack[this.intPtr--];
	initializer.bodyEnd = this.endPosition;
	// doc comment
	initializer.javadoc = this.javadoc;
	this.javadoc = null;

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = initializer.declarationSourceEnd;
		this.currentElement = this.currentElement.add(initializer, 0);
		this.lastIgnoredToken = -1;
	}
}
protected void consumeStaticOnly() {
	// StaticOnly ::= 'static'
	int savedModifiersSourceStart = this.modifiersSourceStart;
	checkComment(); // might update declaration source start
	if (this.modifiersSourceStart >= savedModifiersSourceStart) {
		this.modifiersSourceStart = savedModifiersSourceStart;
	}
	pushOnIntStack(this.scanner.currentPosition);
	pushOnIntStack(
		this.modifiersSourceStart >= 0 ? this.modifiersSourceStart : this.scanner.startPosition);
	jumpOverMethodBody();
	this.nestedMethod[this.nestedType]++;
	resetModifiers();
	this.expressionLengthPtr--; // remove the 0 pushed in consumeToken() for the static modifier

	// recovery
	if (this.currentElement != null){
		this.recoveredStaticInitializerStart = this.intStack[this.intPtr]; // remember start position only for static initializers
	}
}
protected void consumeSwitchBlock() {
	// SwitchBlock ::= '{' SwitchBlockStatements SwitchLabels '}'
	concatNodeLists();
}
protected void consumeSwitchBlockStatement() {
	// SwitchBlockStatement ::= SwitchLabels BlockStatements
	concatNodeLists();
}
protected void consumeSwitchBlockStatements() {
	// SwitchBlockStatements ::= SwitchBlockStatements SwitchBlockStatement
	concatNodeLists();
}
protected void consumeSwitchLabels() {
	// SwitchLabels ::= SwitchLabels SwitchLabel
	optimizedConcatNodeLists();
}
protected void consumeToken(int type) {
	/* remember the last consumed value */
	/* try to minimize the number of build values */
//	// clear the commentPtr of the scanner in case we read something different from a modifier
//	switch(type) {
//		case TokenNameabstract :
//		case TokenNamestrictfp :
//		case TokenNamefinal :
//		case TokenNamenative :
//		case TokenNameprivate :
//		case TokenNameprotected :
//		case TokenNamepublic :
//		case TokenNametransient :
//		case TokenNamevolatile :
//		case TokenNamestatic :
//		case TokenNamesynchronized :
//			break;
//		default:
//			this.scanner.commentPtr = -1;
//	}
	//System.out.println(this.scanner.toStringAction(type));
	switch (type) {
		case TokenNameARROW:
			consumeLambdaHeader();
			break;
		case TokenNameCOLON_COLON:
			this.colonColonStart = this.scanner.currentPosition - 2;
			break;
		case TokenNameBeginLambda:
			flushCommentsDefinedPriorTo(this.scanner.currentPosition);
			break;
		case TokenNameIdentifier :
			pushIdentifier();
			if (this.scanner.useAssertAsAnIndentifier  &&
					this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
				long positions = this.identifierPositionStack[this.identifierPtr];
				if(!this.statementRecoveryActivated) problemReporter().useAssertAsAnIdentifier((int) (positions >>> 32), (int) positions);
			}
			if (this.scanner.useEnumAsAnIndentifier  &&
					this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
				long positions = this.identifierPositionStack[this.identifierPtr];
				if(!this.statementRecoveryActivated) problemReporter().useEnumAsAnIdentifier((int) (positions >>> 32), (int) positions);
			}
			break;
		case TokenNameinterface :
			//'class' is pushing two int (positions) on the stack ==> 'interface' needs to do it too....
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNameabstract :
			checkAndSetModifiers(ClassFileConstants.AccAbstract);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNamestrictfp :
			checkAndSetModifiers(ClassFileConstants.AccStrictfp);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNamefinal :
			checkAndSetModifiers(ClassFileConstants.AccFinal);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNamenative :
			checkAndSetModifiers(ClassFileConstants.AccNative);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNameprivate :
			checkAndSetModifiers(ClassFileConstants.AccPrivate);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNameprotected :
			checkAndSetModifiers(ClassFileConstants.AccProtected);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNamepublic :
			checkAndSetModifiers(ClassFileConstants.AccPublic);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNametransient :
			checkAndSetModifiers(ClassFileConstants.AccTransient);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNamevolatile :
			checkAndSetModifiers(ClassFileConstants.AccVolatile);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNamestatic :
			checkAndSetModifiers(ClassFileConstants.AccStatic);
			pushOnExpressionStackLengthStack(0);
			break;
		case TokenNamesynchronized :
			this.synchronizedBlockSourceStart = this.scanner.startPosition;
			checkAndSetModifiers(ClassFileConstants.AccSynchronized);
			pushOnExpressionStackLengthStack(0);
			break;
			//==============================
		case TokenNamevoid :
			pushIdentifier(-T_void);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
			//push a default dimension while void is not part of the primitive
			//declaration baseType and so takes the place of a type without getting into
			//regular type parsing that generates a dimension on this.intStack
		case TokenNameboolean :
			pushIdentifier(-T_boolean);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNamebyte :
			pushIdentifier(-T_byte);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNamechar :
			pushIdentifier(-T_char);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNamedouble :
			pushIdentifier(-T_double);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNamefloat :
			pushIdentifier(-T_float);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNameint :
			pushIdentifier(-T_int);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNamelong :
			pushIdentifier(-T_long);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNameshort :
			pushIdentifier(-T_short);
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
			//==============================
		case TokenNameIntegerLiteral :
			pushOnExpressionStack(
				IntLiteral.buildIntLiteral(
					this.scanner.getCurrentTokenSource(),
					this.scanner.startPosition,
					this.scanner.currentPosition - 1));
			break;
		case TokenNameLongLiteral :
			pushOnExpressionStack(
				LongLiteral.buildLongLiteral(
					this.scanner.getCurrentTokenSource(),
					this.scanner.startPosition,
					this.scanner.currentPosition - 1));
			break;
		case TokenNameFloatingPointLiteral :
			pushOnExpressionStack(
				new FloatLiteral(
					this.scanner.getCurrentTokenSource(),
					this.scanner.startPosition,
					this.scanner.currentPosition - 1));
			break;
		case TokenNameDoubleLiteral :
			pushOnExpressionStack(
				new DoubleLiteral(
					this.scanner.getCurrentTokenSource(),
					this.scanner.startPosition,
					this.scanner.currentPosition - 1));
			break;
		case TokenNameCharacterLiteral :
			pushOnExpressionStack(
				new CharLiteral(
					this.scanner.getCurrentTokenSource(),
					this.scanner.startPosition,
					this.scanner.currentPosition - 1));
			break;
		case TokenNameStringLiteral :
			StringLiteral stringLiteral;
			if (this.recordStringLiterals &&
					this.checkExternalizeStrings &&
					this.lastPosistion < this.scanner.currentPosition &&
					!this.statementRecoveryActivated) {
				stringLiteral = createStringLiteral(
					this.scanner.getCurrentTokenSourceString(),
					this.scanner.startPosition,
					this.scanner.currentPosition - 1,
					Util.getLineNumber(this.scanner.startPosition, this.scanner.lineEnds, 0, this.scanner.linePtr));
				this.compilationUnit.recordStringLiteral(stringLiteral, this.currentElement != null);
			} else {
				stringLiteral = createStringLiteral(
					this.scanner.getCurrentTokenSourceString(),
					this.scanner.startPosition,
					this.scanner.currentPosition - 1,
					0);
			}
			pushOnExpressionStack(stringLiteral);
			break;
		case TokenNamefalse :
			pushOnExpressionStack(
				new FalseLiteral(this.scanner.startPosition, this.scanner.currentPosition - 1));
			break;
		case TokenNametrue :
			pushOnExpressionStack(
				new TrueLiteral(this.scanner.startPosition, this.scanner.currentPosition - 1));
			break;
		case TokenNamenull :
			pushOnExpressionStack(
				new NullLiteral(this.scanner.startPosition, this.scanner.currentPosition - 1));
			break;
			//============================
		case TokenNamesuper :
		case TokenNamethis :
			this.endPosition = this.scanner.currentPosition - 1;
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNameassert :
		case TokenNameimport :
		case TokenNamepackage :
		case TokenNamethrow :
		case TokenNamedo :
		case TokenNameif :
		case TokenNamefor :
		case TokenNameswitch :
		case TokenNametry :
		case TokenNamewhile :
		case TokenNamebreak :
		case TokenNamecontinue :
		case TokenNamereturn :
		case TokenNamecase :
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNamenew :
			// https://bugs.eclipse.org/bugs/show_bug.cgi?id=40954
			resetModifiers();
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNameclass :
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNameenum :
			pushOnIntStack(this.scanner.currentPosition - 1);
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNamedefault :
			pushOnIntStack(this.scanner.startPosition);
			pushOnIntStack(this.scanner.currentPosition - 1);
			break;
			//let extra semantic action decide when to push
		case TokenNameRBRACKET :
			this.rBracketPosition = this.scanner.startPosition;
			this.endPosition = this.scanner.startPosition;
			this.endStatementPosition = this.scanner.currentPosition - 1;
			break;
		case TokenNameLBRACE :
			this.endStatementPosition = this.scanner.currentPosition - 1;
			//$FALL-THROUGH$
		case TokenNamePLUS :
		case TokenNameMINUS :
		case TokenNameNOT :
		case TokenNameTWIDDLE :
			this.endPosition = this.scanner.startPosition;
			break;
		case TokenNamePLUS_PLUS :
		case TokenNameMINUS_MINUS :
			this.endPosition = this.scanner.startPosition;
			this.endStatementPosition = this.scanner.currentPosition - 1;
			break;
		case TokenNameRBRACE:
		case TokenNameSEMICOLON :
			this.endStatementPosition = this.scanner.currentPosition - 1;
			this.endPosition = this.scanner.startPosition - 1;
			//the item is not part of the potential futur expression/statement
			break;
		case TokenNameRPAREN :
			// in order to handle ( expression) ////// (cast)expression///// foo(x)
			this.rParenPos = this.scanner.currentPosition - 1; // position of the end of right parenthesis (in case of unicode \u0029) lex00101
			break;
		case TokenNameLPAREN :
			this.lParenPos = this.scanner.startPosition;
			break;
		case TokenNameAT308:
			this.expectTypeAnnotation = true;
			pushOnIntStack(this.dimensions); // https://bugs.eclipse.org/bugs/show_bug.cgi?id=417660: Stack the dimensions, they get unstacked in consumeTypeAnnotation.
			this.dimensions = 0;
			//$FALL-THROUGH$
		case TokenNameAT :
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNameQUESTION  :
			pushOnIntStack(this.scanner.startPosition);
			pushOnIntStack(this.scanner.currentPosition - 1);
			break;
		case TokenNameLESS :
			pushOnIntStack(this.scanner.startPosition);
			break;
		case TokenNameELLIPSIS :
			pushOnIntStack(this.scanner.currentPosition - 1);
			break;
		case TokenNameEQUAL  :
			if (this.currentElement != null && this.currentElement instanceof RecoveredAnnotation) {
				RecoveredAnnotation recoveredAnnotation = (RecoveredAnnotation) this.currentElement;
				if (recoveredAnnotation.memberValuPairEqualEnd == -1) {
					recoveredAnnotation.memberValuPairEqualEnd = this.scanner.currentPosition - 1;
				}
			}
			break;
		case TokenNameMULTIPLY :
			// star end position
			pushOnIntStack(this.scanner.currentPosition - 1);
			break;
			//  case TokenNameCOMMA :
			//  case TokenNameCOLON  :
			//  case TokenNameLBRACKET  :
			//  case TokenNameDOT :
			//  case TokenNameERROR :
			//  case TokenNameEOF  :
			//  case TokenNamecase  :
			//  case TokenNamecatch  :
			//  case TokenNameelse  :
			//  case TokenNameextends  :
			//  case TokenNamefinally  :
			//  case TokenNameimplements  :
			//  case TokenNamethrows  :
			//  case TokenNameinstanceof  :
			//  case TokenNameEQUAL_EQUAL  :
			//  case TokenNameLESS_EQUAL  :
			//  case TokenNameGREATER_EQUAL  :
			//  case TokenNameNOT_EQUAL  :
			//  case TokenNameLEFT_SHIFT  :
			//  case TokenNameRIGHT_SHIFT  :
			//  case TokenNameUNSIGNED_RIGHT_SHIFT :
			//  case TokenNamePLUS_EQUAL  :
			//  case TokenNameMINUS_EQUAL  :
			//  case TokenNameMULTIPLY_EQUAL  :
			//  case TokenNameDIVIDE_EQUAL  :
			//  case TokenNameAND_EQUAL  :
			//  case TokenNameOR_EQUAL  :
			//  case TokenNameXOR_EQUAL  :
			//  case TokenNameREMAINDER_EQUAL  :
			//  case TokenNameLEFT_SHIFT_EQUAL  :
			//  case TokenNameRIGHT_SHIFT_EQUAL  :
			//  case TokenNameUNSIGNED_RIGHT_SHIFT_EQUAL  :
			//  case TokenNameOR_OR  :
			//  case TokenNameAND_AND  :
			//  case TokenNameREMAINDER :
			//  case TokenNameXOR  :
			//  case TokenNameAND  :
			//  case TokenNameMULTIPLY :
			//  case TokenNameOR  :
			//  case TokenNameDIVIDE :
			//  case TokenNameGREATER  :
	}
}
protected void consumeTypeArgument() {
	pushOnGenericsStack(getTypeReference(this.intStack[this.intPtr--]));
}
protected void consumeTypeArgumentList() {
	concatGenericsLists();
}
protected void consumeTypeArgumentList1() {
	concatGenericsLists();
}
protected void consumeTypeArgumentList2() {
	concatGenericsLists();
}
protected void consumeTypeArgumentList3() {
	concatGenericsLists();
}
protected void consumeTypeArgumentReferenceType1() {
	concatGenericsLists();
	pushOnGenericsStack(getTypeReference(0));
	this.intPtr--; // pop '<' position.
}
protected void consumeTypeArgumentReferenceType2() {
	concatGenericsLists();
	pushOnGenericsStack(getTypeReference(0));
	this.intPtr--;
}
protected void consumeTypeArguments() {
	concatGenericsLists();
	this.intPtr--;

	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5 &&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		int length = this.genericsLengthStack[this.genericsLengthPtr];
		problemReporter().invalidUsageOfTypeArguments(
			(TypeReference)this.genericsStack[this.genericsPtr - length + 1],
			(TypeReference)this.genericsStack[this.genericsPtr]);
	}
}
protected void consumeTypeDeclarations() {
	// TypeDeclarations ::= TypeDeclarations TypeDeclaration
	concatNodeLists();
}
protected void consumeTypeHeaderNameWithTypeParameters() {
	// ClassHeaderName ::= ClassHeaderName1 TypeParameters
	// InterfaceHeaderName ::= InterfaceHeaderName1 TypeParameters
	TypeDeclaration typeDecl = (TypeDeclaration)this.astStack[this.astPtr];

	// consume type parameters
	int length = this.genericsLengthStack[this.genericsLengthPtr--];
	this.genericsPtr -= length;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, typeDecl.typeParameters = new TypeParameter[length], 0, length);

	typeDecl.bodyStart = typeDecl.typeParameters[length-1].declarationSourceEnd + 1;

	this.listTypeParameterLength = 0;

	if (this.currentElement != null) {
		// is recovering
		if (this.currentElement instanceof RecoveredType) {
			RecoveredType recoveredType = (RecoveredType) this.currentElement;
			recoveredType.pendingTypeParameters = null;
			this.lastCheckPoint = typeDecl.bodyStart;
		} else {
			this.lastCheckPoint = typeDecl.bodyStart;
			this.currentElement = this.currentElement.add(typeDecl, 0);
			this.lastIgnoredToken = -1;
		}
	}
}
protected void consumeTypeImportOnDemandDeclarationName() {
	// TypeImportOnDemandDeclarationName ::= 'import' Name '.' RejectTypeAnnotations '*'
	/* push an ImportRef build from the last name
	stored in the identifier stack. */

	ImportReference impt;
	int length;
	char[][] tokens = new char[length = this.identifierLengthStack[this.identifierLengthPtr--]][];
	this.identifierPtr -= length;
	long[] positions = new long[length];
	System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length);
	System.arraycopy(this.identifierPositionStack, this.identifierPtr + 1, positions, 0, length);
	pushOnAstStack(impt = new ImportReference(tokens, positions, true, ClassFileConstants.AccDefault));

	// star end position
	impt.trailingStarPosition = this.intStack[this.intPtr--];
	if (this.currentToken == TokenNameSEMICOLON){
		impt.declarationSourceEnd = this.scanner.currentPosition - 1;
	} else {
		impt.declarationSourceEnd = impt.sourceEnd;
	}
	impt.declarationEnd = impt.declarationSourceEnd;
	//this.endPosition is just before the ;
	impt.declarationSourceStart = this.intStack[this.intPtr--];

	// recovery
	if (this.currentElement != null){
		this.lastCheckPoint = impt.declarationSourceEnd+1;
		this.currentElement = this.currentElement.add(impt, 0);
		this.lastIgnoredToken = -1;
		this.restartRecovery = true; // used to avoid branching back into the regular automaton
	}
}
protected void consumeTypeParameter1() {
	// nothing to do
}
protected void consumeTypeParameter1WithExtends() {
	//TypeParameter1 ::= TypeParameterHeader 'extends' ReferenceType1
	TypeReference superType = (TypeReference) this.genericsStack[this.genericsPtr--];
	this.genericsLengthPtr--;
	TypeParameter typeParameter = (TypeParameter) this.genericsStack[this.genericsPtr];
	typeParameter.declarationSourceEnd = superType.sourceEnd;
	typeParameter.type = superType;
	superType.bits |= ASTNode.IsSuperType;
	typeParameter.bits |= (superType.bits & ASTNode.HasTypeAnnotations);
	this.genericsStack[this.genericsPtr] = typeParameter;
}
protected void consumeTypeParameter1WithExtendsAndBounds() {
	//TypeParameter1 ::= TypeParameterHeader 'extends' ReferenceType AdditionalBoundList1
	int additionalBoundsLength = this.genericsLengthStack[this.genericsLengthPtr--];
	TypeReference[] bounds = new TypeReference[additionalBoundsLength];
	this.genericsPtr -= additionalBoundsLength;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, bounds, 0, additionalBoundsLength);
	TypeReference superType = getTypeReference(this.intStack[this.intPtr--]);
	TypeParameter typeParameter = (TypeParameter) this.genericsStack[this.genericsPtr];
	typeParameter.declarationSourceEnd = bounds[additionalBoundsLength - 1].sourceEnd;
	typeParameter.type = superType;
	typeParameter.bits |= (superType.bits & ASTNode.HasTypeAnnotations);
	superType.bits |= ASTNode.IsSuperType;
	typeParameter.bounds = bounds;
	for (int i = 0, max = bounds.length; i < max; i++) {
		TypeReference bound = bounds[i];
		bound.bits |= ASTNode.IsSuperType;
		typeParameter.bits |= (bound.bits & ASTNode.HasTypeAnnotations);
	}
}
protected void consumeTypeParameterHeader() {
	//TypeParameterHeader ::= TypeAnnotationsopt Identifier
	TypeParameter typeParameter = new TypeParameter();
	int length;
	if ((length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--]) != 0) {
		System.arraycopy(
				this.typeAnnotationStack,
				(this.typeAnnotationPtr -= length) + 1,
				typeParameter.annotations = new Annotation[length],
				0,
				length);
		typeParameter.bits |= ASTNode.HasTypeAnnotations;
	}
	long pos = this.identifierPositionStack[this.identifierPtr];
	final int end = (int) pos;
	typeParameter.declarationSourceEnd = end;
	typeParameter.sourceEnd = end;
	final int start = (int) (pos >>> 32);
	typeParameter.declarationSourceStart = start;
	typeParameter.sourceStart = start;
	typeParameter.name = this.identifierStack[this.identifierPtr--];
	this.identifierLengthPtr--;
	pushOnGenericsStack(typeParameter);

	this.listTypeParameterLength++;
}
protected void consumeTypeParameterList() {
	//TypeParameterList ::= TypeParameterList ',' TypeParameter
	concatGenericsLists();
}
protected void consumeTypeParameterList1() {
	//TypeParameterList1 ::= TypeParameterList ',' TypeParameter1
	concatGenericsLists();
}
protected void consumeTypeParameters() {
	int startPos = this.intStack[this.intPtr--];

	if(this.currentElement != null) {
		if(this.currentElement instanceof RecoveredType) {
			RecoveredType recoveredType =(RecoveredType) this.currentElement;
			int length = this.genericsLengthStack[this.genericsLengthPtr];
			TypeParameter[] typeParameters = new TypeParameter[length];
			System.arraycopy(this.genericsStack, this.genericsPtr - length + 1, typeParameters, 0, length);

			recoveredType.add(typeParameters, startPos);
		}
	}


	if(!this.statementRecoveryActivated &&
			this.options.sourceLevel < ClassFileConstants.JDK1_5&&
			this.lastErrorEndPositionBeforeRecovery < this.scanner.currentPosition) {
		int length = this.genericsLengthStack[this.genericsLengthPtr];
		problemReporter().invalidUsageOfTypeParameters(
			(TypeParameter) this.genericsStack[this.genericsPtr - length + 1],
			(TypeParameter) this.genericsStack[this.genericsPtr]);
	}
}
protected void consumeTypeParameterWithExtends() {
	//TypeParameter ::= TypeParameterHeader 'extends' ReferenceType
	TypeReference superType = getTypeReference(this.intStack[this.intPtr--]);
	TypeParameter typeParameter = (TypeParameter) this.genericsStack[this.genericsPtr];
	typeParameter.declarationSourceEnd = superType.sourceEnd;
	typeParameter.type = superType;
	typeParameter.bits |= (superType.bits & ASTNode.HasTypeAnnotations);
	superType.bits |= ASTNode.IsSuperType;
}
protected void consumeTypeParameterWithExtendsAndBounds() {
	//TypeParameter ::= TypeParameterHeader 'extends' ReferenceType AdditionalBoundList
	int additionalBoundsLength = this.genericsLengthStack[this.genericsLengthPtr--];
	TypeReference[] bounds = new TypeReference[additionalBoundsLength];
	this.genericsPtr -= additionalBoundsLength;
	System.arraycopy(this.genericsStack, this.genericsPtr + 1, bounds, 0, additionalBoundsLength);
	TypeReference superType = getTypeReference(this.intStack[this.intPtr--]);
	TypeParameter typeParameter = (TypeParameter) this.genericsStack[this.genericsPtr];
	typeParameter.type = superType;
	typeParameter.bits |= (superType.bits & ASTNode.HasTypeAnnotations);
	superType.bits |= ASTNode.IsSuperType;
	typeParameter.bounds = bounds;
	typeParameter.declarationSourceEnd = bounds[additionalBoundsLength - 1].sourceEnd;
	for (int i = 0, max = bounds.length; i < max; i++) {
		TypeReference bound = bounds[i];
		bound.bits |= ASTNode.IsSuperType;
		typeParameter.bits |= (bound.bits & ASTNode.HasTypeAnnotations);
	}
}
protected void consumeZeroAdditionalBounds() {
	if (this.currentToken == TokenNameRPAREN)  // Signal zero additional bounds - do this only when the cast type is fully seen (i.e not in error path)
		pushOnGenericsLengthStack(0);          // Not all stacks are adjusted - this is not meant to be popped by getTypeReference
}
protected void consumeUnaryExpression(int op) {
	// UnaryExpression ::= '+' PushPosition UnaryExpression
	// UnaryExpression ::= '-' PushPosition UnaryExpression
	// UnaryExpressionNotPlusMinus ::= '~' PushPosition UnaryExpression
	// UnaryExpressionNotPlusMinus ::= '!' PushPosition UnaryExpression

	//optimize the push/pop

	//handle manually the -2147483648 while it is not a real
	//computation of an - and 2147483648 (notice that 2147483648
	//is Integer.MAX_VALUE+1.....)
	//Same for -9223372036854775808L ............

	//this.intStack have the position of the operator

	Expression r, exp = this.expressionStack[this.expressionPtr];
	if (op == MINUS) {
		if (exp instanceof IntLiteral) {
			IntLiteral intLiteral = (IntLiteral) exp;
			IntLiteral convertToMinValue = intLiteral.convertToMinValue();
			if (convertToMinValue ==  intLiteral) {
				// not a min value literal so we convert it to an unary expression
				r = new UnaryExpression(exp, op);
			} else {
				r = convertToMinValue;
			}
		} else if (exp instanceof LongLiteral) {
			LongLiteral longLiteral = (LongLiteral) exp;
			LongLiteral convertToMinValue = longLiteral.convertToMinValue();
			if (convertToMinValue ==  longLiteral) {
				// not a min value literal so we convert it to an unary expression
				r = new UnaryExpression(exp, op);
			} else {
				r = convertToMinValue;
			}
		} else {
			r = new UnaryExpression(exp, op);
		}
	} else {
		r = new UnaryExpression(exp, op);
	}
	r.sourceStart = this.intStack[this.intPtr--];
	r.sourceEnd = exp.sourceEnd;
	this.expressionStack[this.expressionPtr] = r;
}
protected void consumeUnaryExpression(int op, boolean post) {
	// PreIncrementExpression ::= '++' PushPosition UnaryExpression
	// PreDecrementExpression ::= '--' PushPosition UnaryExpression

	// ++ and -- operators
	//optimize the push/pop

	//this.intStack has the position of the operator when prefix

	Expression leftHandSide = this.expressionStack[this.expressionPtr];
	if (leftHandSide instanceof Reference) {
		// ++foo()++ is unvalid
		if (post) {
			this.expressionStack[this.expressionPtr] =
				new PostfixExpression(
					leftHandSide,
					IntLiteral.One,
					op,
					this.endStatementPosition);
		} else {
			this.expressionStack[this.expressionPtr] =
				new PrefixExpression(
					leftHandSide,
					IntLiteral.One,
					op,
					this.intStack[this.intPtr--]);
		}
	} else {
		//the ++ or the -- is NOT taken into account if code gen proceeds
		if (!post) {
			this.intPtr--;
		}
		if(!this.statementRecoveryActivated) problemReporter().invalidUnaryExpression(leftHandSide);
	}
}
protected void consumeVariableDeclarators() {
	// VariableDeclarators ::= VariableDeclarators ',' VariableDeclarator
	optimizedConcatNodeLists();
}
protected void consumeVariableInitializers() {
	// VariableInitializers ::= VariableInitializers ',' VariableInitializer
	concatExpressionLists();
}
protected void consumeWildcard() {
	final Wildcard wildcard = new Wildcard(Wildcard.UNBOUND);
	wildcard.sourceEnd = this.intStack[this.intPtr--];
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	pushOnGenericsStack(wildcard);
}
protected void consumeWildcard1() {
	final Wildcard wildcard = new Wildcard(Wildcard.UNBOUND);
	wildcard.sourceEnd = this.intStack[this.intPtr--];
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	pushOnGenericsStack(wildcard);
}
protected void consumeWildcard1WithBounds() {
	// Nothing to do
	// The wildcard is created by the consumeWildcardBounds1Extends or by consumeWildcardBounds1Super
}
protected void consumeWildcard2() {
	final Wildcard wildcard = new Wildcard(Wildcard.UNBOUND);
	wildcard.sourceEnd = this.intStack[this.intPtr--];
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	pushOnGenericsStack(wildcard);
}
protected void consumeWildcard2WithBounds() {
	// Nothing to do
	// The wildcard is created by the consumeWildcardBounds2Extends or by consumeWildcardBounds2Super
}
protected void consumeWildcard3() {
	final Wildcard wildcard = new Wildcard(Wildcard.UNBOUND);
	wildcard.sourceEnd = this.intStack[this.intPtr--];
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	pushOnGenericsStack(wildcard);
}
protected void consumeWildcard3WithBounds() {
	// Nothing to do
	// The wildcard is created by the consumeWildcardBounds3Extends or by consumeWildcardBounds3Super
}
protected void consumeWildcardBounds1Extends() {
	Wildcard wildcard = new Wildcard(Wildcard.EXTENDS);
	wildcard.bound = (TypeReference) this.genericsStack[this.genericsPtr];
	wildcard.sourceEnd = wildcard.bound.sourceEnd;
	this.intPtr--; // remove end position of the '?'
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	this.genericsStack[this.genericsPtr] = wildcard;
}
protected void consumeWildcardBounds1Super() {
	Wildcard wildcard = new Wildcard(Wildcard.SUPER);
	wildcard.bound = (TypeReference) this.genericsStack[this.genericsPtr];
	this.intPtr--; // remove the starting position of the super keyword
	wildcard.sourceEnd = wildcard.bound.sourceEnd;
	this.intPtr--; // remove end position of the '?'
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	this.genericsStack[this.genericsPtr] = wildcard;
}
protected void consumeWildcardBounds2Extends() {
	Wildcard wildcard = new Wildcard(Wildcard.EXTENDS);
	wildcard.bound = (TypeReference) this.genericsStack[this.genericsPtr];
	wildcard.sourceEnd = wildcard.bound.sourceEnd;
	this.intPtr--; // remove end position of the '?'
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	this.genericsStack[this.genericsPtr] = wildcard;
}
protected void consumeWildcardBounds2Super() {
	Wildcard wildcard = new Wildcard(Wildcard.SUPER);
	wildcard.bound = (TypeReference) this.genericsStack[this.genericsPtr];
	this.intPtr--; // remove the starting position of the super keyword
	wildcard.sourceEnd = wildcard.bound.sourceEnd;
	this.intPtr--; // remove end position of the '?'
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	this.genericsStack[this.genericsPtr] = wildcard;
}
protected void consumeWildcardBounds3Extends() {
	Wildcard wildcard = new Wildcard(Wildcard.EXTENDS);
	wildcard.bound = (TypeReference) this.genericsStack[this.genericsPtr];
	wildcard.sourceEnd = wildcard.bound.sourceEnd;
	this.intPtr--; // remove end position of the '?'
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	this.genericsStack[this.genericsPtr] = wildcard;
}
protected void consumeWildcardBounds3Super() {
	Wildcard wildcard = new Wildcard(Wildcard.SUPER);
	wildcard.bound = (TypeReference) this.genericsStack[this.genericsPtr];
	this.intPtr--; // remove the starting position of the super keyword
	wildcard.sourceEnd = wildcard.bound.sourceEnd;
	this.intPtr--; // remove end position of the '?'
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	this.genericsStack[this.genericsPtr] = wildcard;
}
protected void consumeWildcardBoundsExtends() {
	Wildcard wildcard = new Wildcard(Wildcard.EXTENDS);
	wildcard.bound = getTypeReference(this.intStack[this.intPtr--]);
	wildcard.sourceEnd = wildcard.bound.sourceEnd;
	this.intPtr--; // remove end position of the '?'
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	pushOnGenericsStack(wildcard);
}
protected void consumeWildcardBoundsSuper() {
	Wildcard wildcard = new Wildcard(Wildcard.SUPER);
	wildcard.bound = getTypeReference(this.intStack[this.intPtr--]);
	this.intPtr--; // remove the starting position of the super keyword
	wildcard.sourceEnd = wildcard.bound.sourceEnd;
	this.intPtr--; // remove end position of the '?'
	wildcard.sourceStart = this.intStack[this.intPtr--];
	annotateTypeReference(wildcard);
	pushOnGenericsStack(wildcard);
}
protected void consumeWildcardWithBounds() {
	// Nothing to do
	// The wildcard is created by the consumeWildcardBoundsExtends or by consumeWildcardBoundsSuper
}
/**
 * Given the current comment stack, answer whether some comment is available in a certain exclusive range
 *
 * @param sourceStart int
 * @param sourceEnd int
 * @return boolean
 */
public boolean containsComment(int sourceStart, int sourceEnd) {
	int iComment = this.scanner.commentPtr;
	for (; iComment >= 0; iComment--) {
		int commentStart = this.scanner.commentStarts[iComment];
		if (commentStart < 0) commentStart = -commentStart;
		// ignore comments before start
		if (commentStart < sourceStart) continue;
		// ignore comments after end
		if (commentStart > sourceEnd) continue;
		return true;
	}
	return false;
}

public MethodDeclaration convertToMethodDeclaration(ConstructorDeclaration c, CompilationResult compilationResult) {
	MethodDeclaration m = new MethodDeclaration(compilationResult);
	m.typeParameters = c.typeParameters;
	m.sourceStart = c.sourceStart;
	m.sourceEnd = c.sourceEnd;
	m.bodyStart = c.bodyStart;
	m.bodyEnd = c.bodyEnd;
	m.declarationSourceEnd = c.declarationSourceEnd;
	m.declarationSourceStart = c.declarationSourceStart;
	m.selector = c.selector;
	m.statements = c.statements;
	m.modifiers = c.modifiers;
	m.annotations = c.annotations;
	m.arguments = c.arguments;
	m.thrownExceptions = c.thrownExceptions;
	m.explicitDeclarations = c.explicitDeclarations;
	m.returnType = null;
	m.javadoc = c.javadoc;
	m.bits = c.bits;
	return m;
}

protected TypeReference augmentTypeWithAdditionalDimensions(TypeReference typeReference, int additionalDimensions, Annotation[][] additionalAnnotations, boolean isVarargs) {
	return typeReference.augmentTypeWithAdditionalDimensions(additionalDimensions, additionalAnnotations, isVarargs);
}

protected FieldDeclaration createFieldDeclaration(char[] fieldDeclarationName, int sourceStart, int sourceEnd) {
	return new FieldDeclaration(fieldDeclarationName, sourceStart, sourceEnd);
}
protected JavadocParser createJavadocParser() {
	return new JavadocParser(this);
}
protected LocalDeclaration createLocalDeclaration(char[] localDeclarationName, int sourceStart, int sourceEnd) {
	return new LocalDeclaration(localDeclarationName, sourceStart, sourceEnd);
}
protected StringLiteral createStringLiteral(char[] token, int start, int end, int lineNumber) {
	return new StringLiteral(token, start, end, lineNumber);
}
protected RecoveredType currentRecoveryType() {
	if(this.currentElement != null) {
		if(this.currentElement instanceof RecoveredType) {
			return (RecoveredType) this.currentElement;
		} else {
			return this.currentElement.enclosingType();
		}
	}
	return null;
}
public CompilationUnitDeclaration dietParse(ICompilationUnit sourceUnit, CompilationResult compilationResult) {

	CompilationUnitDeclaration parsedUnit;
	boolean old = this.diet;
	try {
		this.diet = true;
		parsedUnit = parse(sourceUnit, compilationResult);
	} finally {
		this.diet = old;
	}
	return parsedUnit;
}
protected void dispatchDeclarationInto(int length) {
	/* they are length on this.astStack that should go into
	   methods fields constructors lists of the typeDecl

	   Return if there is a constructor declaration in the methods declaration */


	// Looks for the size of each array .

	if (length == 0)
		return;
	int[] flag = new int[length + 1]; //plus one -- see 
	int size1 = 0, size2 = 0, size3 = 0;
	boolean hasAbstractMethods = false;
	for (int i = length - 1; i >= 0; i--) {
		ASTNode astNode = this.astStack[this.astPtr--];
		if (astNode instanceof AbstractMethodDeclaration) {
			//methods and constructors have been regrouped into one single list
			flag[i] = 2;
			size2++;
			if (((AbstractMethodDeclaration) astNode).isAbstract()) {
				hasAbstractMethods = true;
			}
		} else if (astNode instanceof TypeDeclaration) {
			flag[i] = 3;
			size3++;
		} else {
			//field
			flag[i] = 1;
			size1++;
		}
	}

	//arrays creation
	TypeDeclaration typeDecl = (TypeDeclaration) this.astStack[this.astPtr];
	if (size1 != 0) {
		typeDecl.fields = new FieldDeclaration[size1];
	}
	if (size2 != 0) {
		typeDecl.methods = new AbstractMethodDeclaration[size2];
		if (hasAbstractMethods) typeDecl.bits |= ASTNode.HasAbstractMethods;
	}
	if (size3 != 0) {
		typeDecl.memberTypes = new TypeDeclaration[size3];
	}

	//arrays fill up
	size1 = size2 = size3 = 0;
	int flagI = flag[0], start = 0;
	int length2;
	for (int end = 0; end <= length; end++) // the plus one allows to
		{
		if (flagI != flag[end]) //treat the last element as a ended flag.....
			{ //array copy
			switch (flagI) {
				case 1 :
					size1 += (length2 = end - start);
					System.arraycopy(
						this.astStack,
						this.astPtr + start + 1,
						typeDecl.fields,
						size1 - length2,
						length2);
					break;
				case 2 :
					size2 += (length2 = end - start);
					System.arraycopy(
						this.astStack,
						this.astPtr + start + 1,
						typeDecl.methods,
						size2 - length2,
						length2);
					break;
				case 3 :
					size3 += (length2 = end - start);
					System.arraycopy(
						this.astStack,
						this.astPtr + start + 1,
						typeDecl.memberTypes,
						size3 - length2,
						length2);
					break;
			}
			flagI = flag[start = end];
		}
	}

	if (typeDecl.memberTypes != null) {
		for (int i = typeDecl.memberTypes.length - 1; i >= 0; i--) {
			typeDecl.memberTypes[i].enclosingType = typeDecl;
		}
	}
}
protected void dispatchDeclarationIntoEnumDeclaration(int length) {

	if (length == 0)
		return;
	int[] flag = new int[length + 1]; //plus one -- see 
	int size1 = 0, size2 = 0, size3 = 0;
	TypeDeclaration enumDeclaration = (TypeDeclaration) this.astStack[this.astPtr - length];
	boolean hasAbstractMethods = false;
	int enumConstantsCounter = 0;
	for (int i = length - 1; i >= 0; i--) {
		ASTNode astNode = this.astStack[this.astPtr--];
		if (astNode instanceof AbstractMethodDeclaration) {
			//methods and constructors have been regrouped into one single list
			flag[i] = 2;
			size2++;
			if (((AbstractMethodDeclaration) astNode).isAbstract()) {
				hasAbstractMethods = true;
			}
		} else if (astNode instanceof TypeDeclaration) {
			flag[i] = 3;
			size3++;
		} else if (astNode instanceof FieldDeclaration) {
			flag[i] = 1;
			size1++;
			if (((FieldDeclaration) astNode).getKind() == AbstractVariableDeclaration.ENUM_CONSTANT) {
				enumConstantsCounter++;
			}
		}
	}

	//arrays creation
	if (size1 != 0) {
		enumDeclaration.fields = new FieldDeclaration[size1];
	}
	if (size2 != 0) {
		enumDeclaration.methods = new AbstractMethodDeclaration[size2];
		if (hasAbstractMethods) enumDeclaration.bits |= ASTNode.HasAbstractMethods;
	}
	if (size3 != 0) {
		enumDeclaration.memberTypes = new TypeDeclaration[size3];
	}

	//arrays fill up
	size1 = size2 = size3 = 0;
	int flagI = flag[0], start = 0;
	int length2;
	for (int end = 0; end <= length; end++) // the plus one allows to
	{
		if (flagI != flag[end]) //treat the last element as a ended flag.....
		{ //array copy
			switch (flagI) {
				case 1 :
					size1 += (length2 = end - start);
					System.arraycopy(
							this.astStack,
							this.astPtr + start + 1,
							enumDeclaration.fields,
							size1 - length2,
							length2);
					break;
				case 2 :
					size2 += (length2 = end - start);
					System.arraycopy(
							this.astStack,
							this.astPtr + start + 1,
							enumDeclaration.methods,
							size2 - length2,
							length2);
					break;
				case 3 :
					size3 += (length2 = end - start);
					System.arraycopy(
							this.astStack,
							this.astPtr + start + 1,
							enumDeclaration.memberTypes,
							size3 - length2,
							length2);
					break;
			}
			flagI = flag[start = end];
		}
	}

	if (enumDeclaration.memberTypes != null) {
		for (int i = enumDeclaration.memberTypes.length - 1; i >= 0; i--) {
			enumDeclaration.memberTypes[i].enclosingType = enumDeclaration;
		}
	}
	enumDeclaration.enumConstantsCounter = enumConstantsCounter;
}
protected CompilationUnitDeclaration endParse(int act) {

	this.lastAct = act;

	if(this.statementRecoveryActivated) {
		RecoveredElement recoveredElement = buildInitialRecoveryState();

		if (recoveredElement != null) {
			recoveredElement.topElement().updateParseTree();
		}

		if(this.hasError) resetStacks();
	} else if (this.currentElement != null){
		if (VERBOSE_RECOVERY){
			System.out.print(Messages.parser_syntaxRecovery);
			System.out.println("--------------------------");		 //$NON-NLS-1$
			System.out.println(this.compilationUnit);
			System.out.println("----------------------------------"); //$NON-NLS-1$
		}
		this.currentElement.topElement().updateParseTree();
	} else {
		if (this.diet & VERBOSE_RECOVERY){
			System.out.print(Messages.parser_regularParse);
			System.out.println("--------------------------");	 //$NON-NLS-1$
			System.out.println(this.compilationUnit);
			System.out.println("----------------------------------"); //$NON-NLS-1$
		}
	}
	persistLineSeparatorPositions();
	for (int i = 0; i < this.scanner.foundTaskCount; i++){
		if(!this.statementRecoveryActivated) problemReporter().task(
			new String(this.scanner.foundTaskTags[i]),
			new String(this.scanner.foundTaskMessages[i]),
			this.scanner.foundTaskPriorities[i] == null ? null : new String(this.scanner.foundTaskPriorities[i]),
			this.scanner.foundTaskPositions[i][0],
			this.scanner.foundTaskPositions[i][1]);
	}
	this.javadoc = null;
	return this.compilationUnit;
}
/*
 * Flush comments defined prior to a given positions.
 *
 * Note: comments are stacked in syntactical order
 *
 * Either answer given , or the end position of a comment line
 * immediately following the  (same line)
 *
 * e.g.
 * void foo(){
 * } // end of method foo
 */
public int flushCommentsDefinedPriorTo(int position) {

	int lastCommentIndex = this.scanner.commentPtr;
	if (lastCommentIndex < 0) return position; // no comment

	// compute the index of the first obsolete comment
	int index = lastCommentIndex;
	int validCount = 0;
	while (index >= 0){
		int commentEnd = this.scanner.commentStops[index];
		if (commentEnd < 0) commentEnd = -commentEnd; // negative end position for non-javadoc comments
		if (commentEnd <= position){
			break;
		}
		index--;
		validCount++;
	}
	// if the source at  is immediately followed by a line comment, then
	// flush this comment and shift  to the comment end.
	if (validCount > 0){
		int immediateCommentEnd = -this.scanner.commentStops[index+1]; //non-javadoc comment end positions are negative
		if (immediateCommentEnd > 0){ // only tolerating non-javadoc comments
			// is there any line break until the end of the immediate comment ? (thus only tolerating line comment)
			immediateCommentEnd--; // comment end in one char too far
			if (Util.getLineNumber(position, this.scanner.lineEnds, 0, this.scanner.linePtr)
					== Util.getLineNumber(immediateCommentEnd, this.scanner.lineEnds, 0, this.scanner.linePtr)){
				position = immediateCommentEnd;
				validCount--; // flush this comment
				index++;
			}
		}
	}

	if (index < 0) return position; // no obsolete comment

	switch (validCount) {
		case 0:
			// do nothing
			break;
		// move valid comment infos, overriding obsolete comment infos
		case 2:
			this.scanner.commentStarts[0] = this.scanner.commentStarts[index+1];
			this.scanner.commentStops[0] = this.scanner.commentStops[index+1];
			this.scanner.commentTagStarts[0] = this.scanner.commentTagStarts[index+1];
			this.scanner.commentStarts[1] = this.scanner.commentStarts[index+2];
			this.scanner.commentStops[1] = this.scanner.commentStops[index+2];
			this.scanner.commentTagStarts[1] = this.scanner.commentTagStarts[index+2];
			break;
		case 1:
			this.scanner.commentStarts[0] = this.scanner.commentStarts[index+1];
			this.scanner.commentStops[0] = this.scanner.commentStops[index+1];
			this.scanner.commentTagStarts[0] = this.scanner.commentTagStarts[index+1];
			break;
		default:
			System.arraycopy(this.scanner.commentStarts, index + 1, this.scanner.commentStarts, 0, validCount);
			System.arraycopy(this.scanner.commentStops, index + 1, this.scanner.commentStops, 0, validCount);
			System.arraycopy(this.scanner.commentTagStarts, index + 1, this.scanner.commentTagStarts, 0, validCount);
	}
	this.scanner.commentPtr = validCount - 1;
	return position;
}

protected TypeReference getAnnotationType() {
	int length = this.identifierLengthStack[this.identifierLengthPtr--];
	if (length == 1) {
		return new SingleTypeReference(
				this.identifierStack[this.identifierPtr],
				this.identifierPositionStack[this.identifierPtr--]);
	} else {
		char[][] tokens = new char[length][];
		this.identifierPtr -= length;
		long[] positions = new long[length];
		System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length);
		System.arraycopy(
			this.identifierPositionStack,
			this.identifierPtr + 1,
			positions,
			0,
			length);
		return new QualifiedTypeReference(tokens, positions);
	}
}
public int getFirstToken() {
	// the first token is a virtual token that
	// allows the parser to parse several goals
	// even if they aren't LALR(1)....
	// Goal ::= '++' CompilationUnit
	// Goal ::= '--' MethodBody
	// Goal ::= '==' ConstructorBody
	// -- Initializer
	// Goal ::= '>>' StaticInitializer
	// Goal ::= '>>' Block
	// -- error recovery
	// Goal ::= '>>>' Headers
	// Goal ::= '*' BlockStatements
	// Goal ::= '*' MethodPushModifiersHeader
	// -- JDOM
	// Goal ::= '&&' FieldDeclaration
	// Goal ::= '||' ImportDeclaration
	// Goal ::= '?' PackageDeclaration
	// Goal ::= '+' TypeDeclaration
	// Goal ::= '/' GenericMethodDeclaration
	// Goal ::= '&' ClassBodyDeclaration
	// -- code snippet
	// Goal ::= '%' Expression
	// -- completion parser
	// Goal ::= '!' ConstructorBlockStatementsopt
	// Goal ::= '~' BlockStatementsopt

	return this.firstToken;
}
/*
 * Answer back an array of sourceStart/sourceEnd positions of the available JavaDoc comments.
 * The array is a flattened structure: 2*n entries with consecutives start and end positions.
 *
 * If no JavaDoc is available, then null is answered instead of an empty array.
 *
 * e.g. { 10, 20, 25, 45 }  --> javadoc1 from 10 to 20, javadoc2 from 25 to 45
 */
public int[] getJavaDocPositions() {

	int javadocCount = 0;
	int max = this.scanner.commentPtr;
	for (int i = 0; i <= max; i++){
		// javadoc only (non javadoc comment have negative start and/or end positions.)
		if (this.scanner.commentStarts[i] >= 0 && this.scanner.commentStops[i] > 0) {
			javadocCount++;
		}
	}
	if (javadocCount == 0) return null;

	int[] positions = new int[2*javadocCount];
	int index = 0;
	for (int i = 0; i <= max; i++){
		// javadoc only (non javadoc comment have negative start and/or end positions.)
		int commentStart = this.scanner.commentStarts[i];
		if (commentStart >= 0) {
			int commentStop = this.scanner.commentStops[i];
			if (commentStop > 0){
				positions[index++] = commentStart;
				positions[index++] = commentStop-1; //stop is one over
			}
		}
	}
	return positions;
}
public void getMethodBodies(CompilationUnitDeclaration unit) {
	//fill the methods bodies in order for the code to be generated

	if (unit == null) return;

	if (unit.ignoreMethodBodies) {
		unit.ignoreFurtherInvestigation = true;
		return;
		// if initial diet parse did not work, no need to dig into method bodies.
	}

	if ((unit.bits & ASTNode.HasAllMethodBodies) != 0)
		return; //work already done ...

	// save existing values to restore them at the end of the parsing process
	// see bug 47079 for more details
	int[] oldLineEnds = this.scanner.lineEnds;
	int oldLinePtr = this.scanner.linePtr;

	//real parse of the method....
	CompilationResult compilationResult = unit.compilationResult;
	char[] contents = this.readManager != null
		? this.readManager.getContents(compilationResult.compilationUnit)
		: compilationResult.compilationUnit.getContents();
	this.scanner.setSource(contents, compilationResult);

	if (this.javadocParser != null && this.javadocParser.checkDocComment) {
		this.javadocParser.scanner.setSource(contents);
	}
	if (unit.types != null) {
		for (int i = 0, length = unit.types.length; i < length; i++)
			unit.types[i].parseMethods(this, unit);
	}

	// tag unit has having read bodies
	unit.bits |= ASTNode.HasAllMethodBodies;

	// this is done to prevent any side effects on the compilation unit result
	// line separator positions array.
	this.scanner.lineEnds = oldLineEnds;
	this.scanner.linePtr = oldLinePtr;
}
	protected char getNextCharacter(char[] comment, int[] index) {
		char nextCharacter = comment[index[0]++];
		switch(nextCharacter) {
			case '\\' :
				int c1, c2, c3, c4;
				index[0]++;
				while (comment[index[0]] == 'u') index[0]++;
				if (!(((c1 = ScannerHelper.getHexadecimalValue(comment[index[0]++])) > 15
					|| c1 < 0)
					|| ((c2 = ScannerHelper.getHexadecimalValue(comment[index[0]++])) > 15 || c2 < 0)
					|| ((c3 = ScannerHelper.getHexadecimalValue(comment[index[0]++])) > 15 || c3 < 0)
					|| ((c4 = ScannerHelper.getHexadecimalValue(comment[index[0]++])) > 15 || c4 < 0))) {
						nextCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
				}
				break;
		}
		return nextCharacter;
	}
protected Expression getTypeReference(Expression exp) {

	exp.bits &= ~ASTNode.RestrictiveFlagMASK;
	exp.bits |= Binding.TYPE;
	return exp;
}
protected void annotateTypeReference(Wildcard ref) {
	int length;
	if ((length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--]) != 0) {
		if (ref.annotations == null)
			ref.annotations = new Annotation[ref.getAnnotatableLevels()][];
		System.arraycopy(
				this.typeAnnotationStack,
				(this.typeAnnotationPtr -= length) + 1,
				ref.annotations[0] = new Annotation[length],
				0,
				length);
		if (ref.sourceStart > ref.annotations[0][0].sourceStart) {
			ref.sourceStart = ref.annotations[0][0].sourceStart;
		}
		ref.bits |= ASTNode.HasTypeAnnotations;
	}
	if (ref.bound != null) {
		ref.bits |= (ref.bound.bits & ASTNode.HasTypeAnnotations);
	}
}
protected TypeReference getTypeReference(int dim) {
	/* build a Reference on a variable that may be qualified or not
	 This variable is a type reference and dim will be its dimensions*/

	TypeReference ref;
	Annotation [][] annotationsOnDimensions = null;
	int length = this.identifierLengthStack[this.identifierLengthPtr--];
	if (length < 0) { //flag for precompiled type reference on base types
		if (dim > 0) {
			annotationsOnDimensions = getAnnotationsOnDimensions(dim);
		}
		ref = TypeReference.baseTypeReference(-length, dim, annotationsOnDimensions);
		ref.sourceStart = this.intStack[this.intPtr--];
		if (dim == 0) {
			ref.sourceEnd = this.intStack[this.intPtr--];
		} else {
			this.intPtr--;
			ref.sourceEnd = this.rBracketPosition;
		}
	} else {
		int numberOfIdentifiers = this.genericsIdentifiersLengthStack[this.genericsIdentifiersLengthPtr--];
		if (length != numberOfIdentifiers || this.genericsLengthStack[this.genericsLengthPtr] != 0) {
			// generic type
			ref = getTypeReferenceForGenericType(dim, length, numberOfIdentifiers);
		} else if (length == 1) {
			// single type reference
			this.genericsLengthPtr--; // pop the 0
			if (dim == 0) {
				ref =
					new SingleTypeReference(
						this.identifierStack[this.identifierPtr],
						this.identifierPositionStack[this.identifierPtr--]);
			} else {
				annotationsOnDimensions = getAnnotationsOnDimensions(dim);
				ref =
					new ArrayTypeReference(
						this.identifierStack[this.identifierPtr],
						dim,
						annotationsOnDimensions,
						this.identifierPositionStack[this.identifierPtr--]);
				ref.sourceEnd = this.endPosition;
				if (annotationsOnDimensions != null) {
					ref.bits |= ASTNode.HasTypeAnnotations;
				}
			}
		} else {
			this.genericsLengthPtr--;
			//Qualified type reference
			char[][] tokens = new char[length][];
			this.identifierPtr -= length;
			long[] positions = new long[length];
			System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length);
			System.arraycopy(
				this.identifierPositionStack,
				this.identifierPtr + 1,
				positions,
				0,
				length);
			if (dim == 0) {
				ref = new QualifiedTypeReference(tokens, positions);
			} else {
				annotationsOnDimensions = getAnnotationsOnDimensions(dim);
				ref = new ArrayQualifiedTypeReference(tokens, dim, annotationsOnDimensions, positions);
				ref.sourceEnd = this.endPosition;
				if (annotationsOnDimensions != null) {
					ref.bits |= ASTNode.HasTypeAnnotations;
				}
			}
		}
	}
	int levels = ref.getAnnotatableLevels();
	for (int i = levels - 1; i >= 0; i--) {
		if ((length = this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr--]) != 0) {
			if (ref.annotations == null)
				ref.annotations = new Annotation[levels][];
			System.arraycopy(
					this.typeAnnotationStack,
					(this.typeAnnotationPtr -= length) + 1,
					ref.annotations[i] = new Annotation[length],
					0,
					length);
			if (i == 0) {
				ref.sourceStart = ref.annotations[0][0].sourceStart;
			}
			ref.bits |= ASTNode.HasTypeAnnotations;
		}
	}
	return ref;
}
protected TypeReference getTypeReferenceForGenericType(int dim, int identifierLength, int numberOfIdentifiers) {
	Annotation[][] annotationsOnDimensions = dim == 0 ? null : getAnnotationsOnDimensions(dim);
	if (identifierLength == 1 && numberOfIdentifiers == 1) {
		int currentTypeArgumentsLength = this.genericsLengthStack[this.genericsLengthPtr--];
		TypeReference[] typeArguments = null;
		if (currentTypeArgumentsLength < 0) {
			typeArguments = TypeReference.NO_TYPE_ARGUMENTS;
		} else {
			typeArguments = new TypeReference[currentTypeArgumentsLength];
			this.genericsPtr -= currentTypeArgumentsLength;
			System.arraycopy(this.genericsStack, this.genericsPtr + 1, typeArguments, 0, currentTypeArgumentsLength);
		}
		ParameterizedSingleTypeReference parameterizedSingleTypeReference = new ParameterizedSingleTypeReference(this.identifierStack[this.identifierPtr], typeArguments, dim, annotationsOnDimensions, this.identifierPositionStack[this.identifierPtr--]);
		if (dim != 0) {
			parameterizedSingleTypeReference.sourceEnd = this.endStatementPosition;
		}
		/* We used to eagerly mark the PSTR as constituting diamond usage if we encountered <>, but that is too eager and
		   complicates error handling by making it hard to distinguish legitimate use cases from ill formed ones. We are
		   more discriminating now and tag a type as being diamond only where <> can legally occur. 
		   See https://bugs.eclipse.org/bugs/show_bug.cgi?id=339478#c11
		*/
		return parameterizedSingleTypeReference;
	} else {
		TypeReference[][] typeArguments = new TypeReference[numberOfIdentifiers][];
		char[][] tokens = new char[numberOfIdentifiers][];
		long[] positions = new long[numberOfIdentifiers];
		int index = numberOfIdentifiers;
		int currentIdentifiersLength = identifierLength;
		while (index > 0) {
			int currentTypeArgumentsLength = this.genericsLengthStack[this.genericsLengthPtr--];
			if (currentTypeArgumentsLength > 0) {
				this.genericsPtr -= currentTypeArgumentsLength;
				System.arraycopy(this.genericsStack, this.genericsPtr + 1, typeArguments[index - 1] = new TypeReference[currentTypeArgumentsLength], 0, currentTypeArgumentsLength);
			} else if (currentTypeArgumentsLength < 0) {
				// diamond case for qualified type reference (java.util.ArrayList<>)
				typeArguments[index - 1] = TypeReference.NO_TYPE_ARGUMENTS;
			}
			switch(currentIdentifiersLength) {
				case 1 :
					// we are in a case A.C or A.C
					tokens[index - 1] = this.identifierStack[this.identifierPtr];
					positions[index - 1] = this.identifierPositionStack[this.identifierPtr--];
					break;
				default:
					// we are in a case A.B.C.C or A.B.C...
					this.identifierPtr -= currentIdentifiersLength;
					System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, index - currentIdentifiersLength, currentIdentifiersLength);
					System.arraycopy(this.identifierPositionStack, this.identifierPtr + 1, positions, index - currentIdentifiersLength, currentIdentifiersLength);
			}
			index -= currentIdentifiersLength;
			if (index > 0) {
				currentIdentifiersLength = this.identifierLengthStack[this.identifierLengthPtr--];
			}
		}
		ParameterizedQualifiedTypeReference parameterizedQualifiedTypeReference = new ParameterizedQualifiedTypeReference(tokens, typeArguments, dim, annotationsOnDimensions, positions);
		if (dim != 0) {
			parameterizedQualifiedTypeReference.sourceEnd = this.endStatementPosition;
		}
		/* We used to eagerly mark the PQTR as constituting diamond usage if we encountered <>, but that is too eager and
		   complicates error handling by making it hard to distinguish legitimate use cases from ill formed ones. We are
		   more discriminating now and tag a type as being diamond only where <> can legally occur. 
		   See https://bugs.eclipse.org/bugs/show_bug.cgi?id=339478#c11
		*/
		return parameterizedQualifiedTypeReference;
	}
}
protected NameReference getUnspecifiedReference() {
	return getUnspecifiedReference(true);
}
protected NameReference getUnspecifiedReference(boolean rejectTypeAnnotations) {
	/* build a (unspecified) NameReference which may be qualified*/
	if (rejectTypeAnnotations) { // Compensate for overpermissive grammar.
		consumeNonTypeUseName();
	}
	int length;
	NameReference ref;
	if ((length = this.identifierLengthStack[this.identifierLengthPtr--]) == 1)
		// single variable reference
		ref =
			new SingleNameReference(
				this.identifierStack[this.identifierPtr],
				this.identifierPositionStack[this.identifierPtr--]);
	else
		//Qualified variable reference
		{
		char[][] tokens = new char[length][];
		this.identifierPtr -= length;
		System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length);
		long[] positions = new long[length];
		System.arraycopy(this.identifierPositionStack, this.identifierPtr + 1, positions, 0, length);
		ref =
			new QualifiedNameReference(tokens,
				positions,
				(int) (this.identifierPositionStack[this.identifierPtr + 1] >> 32), // sourceStart
				(int) this.identifierPositionStack[this.identifierPtr + length]); // sourceEnd
	}
	return ref;
}
protected NameReference getUnspecifiedReferenceOptimized() {
	/* build a (unspecified) NameReference which may be qualified
	The optimization occurs for qualified reference while we are
	certain in this case the last item of the qualified name is
	a field access. This optimization is IMPORTANT while it results
	that when a NameReference is build, the type checker should always
	look for that it is not a type reference */
	consumeNonTypeUseName();
	int length;
	NameReference ref;
	if ((length = this.identifierLengthStack[this.identifierLengthPtr--]) == 1) {
		// single variable reference
		ref =
			new SingleNameReference(
				this.identifierStack[this.identifierPtr],
				this.identifierPositionStack[this.identifierPtr--]);
		ref.bits &= ~ASTNode.RestrictiveFlagMASK;
		ref.bits |= Binding.LOCAL | Binding.FIELD;
		return ref;
	}

	//Qualified-variable-reference
	//In fact it is variable-reference DOT field-ref , but it would result in a type
	//conflict tha can be only reduce by making a superclass (or inetrface ) between
	//nameReference and FiledReference or putting FieldReference under NameReference
	//or else..........This optimisation is not really relevant so just leave as it is

	char[][] tokens = new char[length][];
	this.identifierPtr -= length;
	System.arraycopy(this.identifierStack, this.identifierPtr + 1, tokens, 0, length);
	long[] positions = new long[length];
	System.arraycopy(this.identifierPositionStack, this.identifierPtr + 1, positions, 0, length);
	ref = new QualifiedNameReference(
			tokens,
			positions,
			(int) (this.identifierPositionStack[this.identifierPtr + 1] >> 32), // sourceStart
			(int) this.identifierPositionStack[this.identifierPtr + length]); // sourceEnd
	ref.bits &= ~ASTNode.RestrictiveFlagMASK;
	ref.bits |= Binding.LOCAL | Binding.FIELD;
	return ref;
}
public void goForBlockStatementsopt() {
	//tells the scanner to go for block statements opt parsing

	this.firstToken = TokenNameTWIDDLE;
	this.scanner.recordLineSeparator = false;
}
public void goForBlockStatementsOrCatchHeader() {
	//tells the scanner to go for block statements or method headers parsing

	this.firstToken = TokenNameMULTIPLY;
	this.scanner.recordLineSeparator = false;
}
public void goForClassBodyDeclarations() {
	//tells the scanner to go for any body declarations parsing

	this.firstToken = TokenNameAND;
	this.scanner.recordLineSeparator = true;
}
public void goForCompilationUnit(){
	//tells the scanner to go for compilation unit parsing

	this.firstToken = TokenNamePLUS_PLUS ;
	this.scanner.foundTaskCount = 0;
	this.scanner.recordLineSeparator = true;
}
public void goForExpression(boolean recordLineSeparator) {
	//tells the scanner to go for an expression parsing

	this.firstToken = TokenNameREMAINDER;
	this.scanner.recordLineSeparator = recordLineSeparator; // recovery goals must record line separators
}
public void goForFieldDeclaration(){
	//tells the scanner to go for field declaration parsing

	this.firstToken = TokenNameAND_AND ;
	this.scanner.recordLineSeparator = true;
}
public void goForGenericMethodDeclaration(){
	//tells the scanner to go for generic method declarations parsing

	this.firstToken = TokenNameDIVIDE;
	this.scanner.recordLineSeparator = true;
}
public void goForHeaders(){
	//tells the scanner to go for headers only parsing
	RecoveredType currentType = currentRecoveryType();
	if(currentType != null && currentType.insideEnumConstantPart) {
		this.firstToken = TokenNameNOT;
	} else {
		this.firstToken = TokenNameUNSIGNED_RIGHT_SHIFT;
	}
	this.scanner.recordLineSeparator = true; // recovery goals must record line separators
}
public void goForImportDeclaration(){
	//tells the scanner to go for import declaration parsing

	this.firstToken = TokenNameOR_OR ;
	this.scanner.recordLineSeparator = true;
}
public void goForInitializer(){
	//tells the scanner to go for initializer parsing

	this.firstToken = TokenNameRIGHT_SHIFT ;
	this.scanner.recordLineSeparator = false;
}
public void goForMemberValue() {
	//tells the scanner to go for a member value parsing

	this.firstToken = TokenNameOR_OR;
	this.scanner.recordLineSeparator = true; // recovery goals must record line separators
}
public void goForMethodBody(){
	//tells the scanner to go for method body parsing

	this.firstToken = TokenNameMINUS_MINUS ;
	this.scanner.recordLineSeparator = false;
}
public void goForPackageDeclaration() {
	//tells the scanner to go for package declaration parsing

	this.firstToken = TokenNameQUESTION;
	this.scanner.recordLineSeparator = true;
}
public void goForTypeDeclaration() {
	//tells the scanner to go for type (interface or class) declaration parsing

	this.firstToken = TokenNamePLUS;
	this.scanner.recordLineSeparator = true;
}
/**
 * Look for a specific tag comment leading a given source range (comment located after any statement in astStack)
 * @param rangeEnd int
 * @return boolean
 */
public boolean hasLeadingTagComment(char[] commentPrefixTag, int rangeEnd) {
	int iComment = this.scanner.commentPtr;
	if (iComment < 0) return false; // no comment available
	int iStatement = this.astLengthPtr;
	if (iStatement < 0 || this.astLengthStack[iStatement] <= 1) return false; // no statement available
	// Fallthrough comment must be located after the previous statement
	ASTNode lastNode = this.astStack[this.astPtr];
	int rangeStart = lastNode.sourceEnd;
	previousComment: for (; iComment >= 0; iComment--) {
		int commentStart = this.scanner.commentStarts[iComment];
		if (commentStart < 0) commentStart = -commentStart; // line comments have negative start positions
		// ignore comments before start
		if (commentStart < rangeStart) return false; // no more comments in range
		// ignore comments after end
		if (commentStart > rangeEnd) continue previousComment;
		// found last comment in range - only check the last comment in range
		char[] source = this.scanner.source;
		int charPos = commentStart+2; // skip // or /*
		// tag can be leaded by optional spaces
		for (; charPos < rangeEnd; charPos++) {
			char c = source[charPos];
			if (c >= ScannerHelper.MAX_OBVIOUS || (ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] & ScannerHelper.C_JLS_SPACE) == 0) {
				break;
			}
		}
		for (int iTag = 0, length = commentPrefixTag.length; iTag < length; iTag++, charPos++) {
			if (charPos >= rangeEnd // comment is too small to host tag
					|| source[charPos] != commentPrefixTag[iTag]) {
				if (iTag == 0) {
					return false; // didn't even match leading '$' -> not a tag comment
				} else {
					continue previousComment; // accept as tag comment -> skip it and keep searching backwards
				}
			}
		}
		return true;
	}
	return false;
}
protected void ignoreExpressionAssignment() {
	// Assignment ::= InvalidArrayInitializerAssignement
	// encoded operator would be: this.intStack[this.intPtr]
	this.intPtr--;
	ArrayInitializer arrayInitializer = (ArrayInitializer) this.expressionStack[this.expressionPtr--];
	this.expressionLengthPtr -- ;
	// report a syntax error and abort parsing
	if(!this.statementRecoveryActivated) problemReporter().arrayConstantsOnlyInArrayInitializers(arrayInitializer.sourceStart, arrayInitializer.sourceEnd);
}
public void initialize() {
	this.initialize(false);
}
public void initialize(boolean parsingCompilationUnit) {
	//positioning the parser for a new compilation unit
	//avoiding stack reallocation and all that....
	this.javadoc = null;
	this.astPtr = -1;
	this.astLengthPtr = -1;
	this.expressionPtr = -1;
	this.expressionLengthPtr = -1;
	this.typeAnnotationLengthPtr = -1;
	this.typeAnnotationPtr = -1;
	this.identifierPtr = -1;
	this.identifierLengthPtr	= -1;
	this.intPtr = -1;
	this.nestedMethod[this.nestedType = 0] = 0; // need to reset for further reuse
	this.variablesCounter[this.nestedType] = 0;
	this.dimensions = 0 ;
	this.realBlockPtr = -1;
	this.compilationUnit = null;
	this.referenceContext = null;
	this.endStatementPosition = 0;
	this.valueLambdaNestDepth = -1;
	
	//remove objects from stack too, while the same parser/compiler couple is
	//re-used between two compilations ....

	int astLength = this.astStack.length;
	if (this.noAstNodes.length < astLength){
		this.noAstNodes = new ASTNode[astLength];
		//System.out.println("Resized AST stacks : "+ astLength);

	}
	System.arraycopy(this.noAstNodes, 0, this.astStack, 0, astLength);

	int expressionLength = this.expressionStack.length;
	if (this.noExpressions.length < expressionLength){
		this.noExpressions = new Expression[expressionLength];
		//System.out.println("Resized EXPR stacks : "+ expressionLength);
	}
	System.arraycopy(this.noExpressions, 0, this.expressionStack, 0, expressionLength);

	// reset this.scanner state
	this.scanner.commentPtr = -1;
	this.scanner.foundTaskCount = 0;
	this.scanner.eofPosition = Integer.MAX_VALUE;
	this.recordStringLiterals = true;
	final boolean checkNLS = this.options.getSeverity(CompilerOptions.NonExternalizedString) != ProblemSeverities.Ignore;
	this.checkExternalizeStrings = checkNLS;
	this.scanner.checkNonExternalizedStringLiterals = parsingCompilationUnit && checkNLS;
	this.scanner.checkUninternedIdentityComparison = parsingCompilationUnit && this.options.complainOnUninternedIdentityComparison;
	this.scanner.lastPosition = -1;

	resetModifiers();

	// recovery
	this.lastCheckPoint = -1;
	this.currentElement = null;
	this.restartRecovery = false;
	this.hasReportedError = false;
	this.recoveredStaticInitializerStart = 0;
	this.lastIgnoredToken = -1;
	this.lastErrorEndPosition = -1;
	this.lastErrorEndPositionBeforeRecovery = -1;
	this.lastJavadocEnd = -1;
	this.listLength = 0;
	this.listTypeParameterLength = 0;
	this.lastPosistion = -1;

	this.rBraceStart = 0;
	this.rBraceEnd = 0;
	this.rBraceSuccessorStart = 0;
	this.rBracketPosition = 0;

	this.genericsIdentifiersLengthPtr = -1;
	this.genericsLengthPtr = -1;
	this.genericsPtr = -1;
}
public void initializeScanner(){
	this.scanner = new Scanner(
		false /*comment*/,
		false /*whitespace*/,
		false, /* will be set in initialize(boolean) */
		this.options.sourceLevel /*sourceLevel*/,
		this.options.complianceLevel /*complianceLevel*/,
		this.options.taskTags/*taskTags*/,
		this.options.taskPriorities/*taskPriorities*/,
		this.options.isTaskCaseSensitive/*taskCaseSensitive*/);
		// GROOVY start - workaround JDT bug where it sorts the tasks but not the priorities!
		this.options.taskPriorities = scanner.taskPriorities;
		// GROOVY end
}
public void jumpOverMethodBody() {
	//on diet parsing.....do not buffer method statements

	//the scanner.diet is reinitialized to false
	//automatically by the scanner once it has jumped over
	//the statements

	if (this.diet && (this.dietInt == 0))
		this.scanner.diet = true;
}
private void jumpOverType(){
	if (this.recoveredTypes != null && this.nextTypeStart > -1 && this.nextTypeStart < this.scanner.currentPosition) {

		if (DEBUG_AUTOMATON) {
			System.out.println("Jump         -"); //$NON-NLS-1$
		}

		TypeDeclaration typeDeclaration = this.recoveredTypes[this.recoveredTypePtr];
		boolean isAnonymous = typeDeclaration.allocation != null;

		this.scanner.startPosition = typeDeclaration.declarationSourceEnd + 1;
		this.scanner.currentPosition = typeDeclaration.declarationSourceEnd + 1;
		this.scanner.diet = false; // quit jumping over method bodies

		if(!isAnonymous) {
			((RecoveryScanner)this.scanner).setPendingTokens(new int[]{TokenNameSEMICOLON, TokenNamebreak});
		} else {
			((RecoveryScanner)this.scanner).setPendingTokens(new int[]{TokenNameIdentifier, TokenNameEQUAL, TokenNameIdentifier});
		}

		this.pendingRecoveredType = typeDeclaration;

		try {
			this.currentToken = this.scanner.getNextToken();
		} catch(InvalidInputException e){
			// it's impossible because we added pending tokens before
		}

		if(++this.recoveredTypePtr < this.recoveredTypes.length) {
			TypeDeclaration nextTypeDeclaration = this.recoveredTypes[this.recoveredTypePtr];
			this.nextTypeStart =
				nextTypeDeclaration.allocation == null
					? nextTypeDeclaration.declarationSourceStart
							: nextTypeDeclaration.allocation.sourceStart;
		} else {
			this.nextTypeStart = Integer.MAX_VALUE;
		}
	}
}
protected void markEnclosingMemberWithLocalType() {
	if (this.currentElement != null) return; // this is already done in the recovery code
	markEnclosingMemberWithLocalOrFunctionalType(LocalTypeKind.LOCAL);
}
protected void markEnclosingMemberWithLocalOrFunctionalType(LocalTypeKind context) {
	for (int i = this.astPtr; i >= 0; i--) {
		ASTNode node = this.astStack[i];
		if (node instanceof AbstractMethodDeclaration
				|| node instanceof FieldDeclaration
				|| (node instanceof TypeDeclaration // mark type for now: all initializers will be marked when added to this type
						// and enclosing type must not be closed (see https://bugs.eclipse.org/bugs/show_bug.cgi?id=147485)
						&& ((TypeDeclaration) node).declarationSourceEnd == 0)) {
			switch (context) {
				case METHOD_REFERENCE:
					node.bits |= ASTNode.HasFunctionalInterfaceTypes;
					break;
				case LAMBDA:
					node.bits |= ASTNode.HasFunctionalInterfaceTypes;
					//$FALL-THROUGH$
				case LOCAL:
					node.bits |= ASTNode.HasLocalType;
			}
			return;
		}
	}
	// default to reference context (case of parse method body)
	if (this.referenceContext instanceof AbstractMethodDeclaration
			|| this.referenceContext instanceof TypeDeclaration) {
		ASTNode node = (ASTNode)this.referenceContext;
		switch (context) {
			case METHOD_REFERENCE:
				node.bits |= ASTNode.HasFunctionalInterfaceTypes;
				break;
			case LAMBDA:
				node.bits |= ASTNode.HasFunctionalInterfaceTypes;
				//$FALL-THROUGH$
			case LOCAL:
				node.bits |= ASTNode.HasLocalType;
		}
	}
}

/*
 * Move checkpoint location (current implementation is moving it by one token)
 *
 * Answers true if successfully moved checkpoint (in other words, it did not attempt to move it
 * beyond end of file).
 */
protected boolean moveRecoveryCheckpoint() {

	int pos = this.lastCheckPoint;
	/* reset this.scanner, and move checkpoint by one token */
	this.scanner.startPosition = pos;
	this.scanner.currentPosition = pos;
	this.scanner.diet = false; // quit jumping over method bodies

	/* if about to restart, then no need to shift token */
	if (this.restartRecovery){
		this.lastIgnoredToken = -1;
		this.scanner.insideRecovery = true;
		return true;
	}

	/* protect against shifting on an invalid token */
	this.lastIgnoredToken = this.nextIgnoredToken;
	this.nextIgnoredToken = -1;
	do {
		try {
			this.scanner.lookBack[0] = this.scanner.lookBack[1] = TokenNameNotAToken; // stay clear of the voodoo in the present method
			this.nextIgnoredToken = this.scanner.getNextToken();
			if(this.scanner.currentPosition == this.scanner.startPosition){
				this.scanner.currentPosition++; // on fake completion identifier
				this.nextIgnoredToken = -1;
			}

		} catch(InvalidInputException e){
			pos = this.scanner.currentPosition;
		} finally {
			this.scanner.lookBack[0] = this.scanner.lookBack[1] = TokenNameNotAToken; // steer clear of the voodoo in the present method
		}
	} while (this.nextIgnoredToken < 0);

	if (this.nextIgnoredToken == TokenNameEOF) { // no more recovery after this point
		if (this.currentToken == TokenNameEOF) { // already tried one iteration on EOF
			return false;
		}
	}
	this.lastCheckPoint = this.scanner.currentPosition;

	/* reset this.scanner again to previous checkpoint location*/
	this.scanner.startPosition = pos;
	this.scanner.currentPosition = pos;
	this.scanner.commentPtr = -1;
	this.scanner.foundTaskCount = 0;
	return true;

/*
 	The following implementation moves the checkpoint location by one line:

	int pos = this.lastCheckPoint;
	// reset this.scanner, and move checkpoint by one token
	this.scanner.startPosition = pos;
	this.scanner.currentPosition = pos;
	this.scanner.diet = false; // quit jumping over method bodies

	// if about to restart, then no need to shift token
	if (this.restartRecovery){
		this.lastIgnoredToken = -1;
		return true;
	}

	// protect against shifting on an invalid token
	this.lastIgnoredToken = this.nextIgnoredToken;
	this.nextIgnoredToken = -1;

	boolean wasTokenizingWhiteSpace = this.scanner.tokenizeWhiteSpace;
	this.scanner.tokenizeWhiteSpace = true;
	checkpointMove:
		do {
			try {
				this.nextIgnoredToken = this.scanner.getNextToken();
				switch(this.nextIgnoredToken){
					case Scanner.TokenNameWHITESPACE :
						if(this.scanner.getLineNumber(this.scanner.startPosition)
							== this.scanner.getLineNumber(this.scanner.currentPosition)){
							this.nextIgnoredToken = -1;
							}
						break;
					case TokenNameSEMICOLON :
					case TokenNameLBRACE :
					case TokenNameRBRACE :
						break;
					case TokenNameIdentifier :
						if(this.scanner.currentPosition == this.scanner.startPosition){
							this.scanner.currentPosition++; // on fake completion identifier
						}
					default:
						this.nextIgnoredToken = -1;
						break;
					case TokenNameEOF :
						break checkpointMove;
				}
			} catch(InvalidInputException e){
				pos = this.scanner.currentPosition;
			}
		} while (this.nextIgnoredToken < 0);
	this.scanner.tokenizeWhiteSpace = wasTokenizingWhiteSpace;

	if (this.nextIgnoredToken == TokenNameEOF) { // no more recovery after this point
		if (this.currentToken == TokenNameEOF) { // already tried one iteration on EOF
			return false;
		}
	}
	this.lastCheckPoint = this.scanner.currentPosition;

	// reset this.scanner again to previous checkpoint location
	this.scanner.startPosition = pos;
	this.scanner.currentPosition = pos;
	this.scanner.commentPtr = -1;

	return true;
*/
}
protected MessageSend newMessageSend() {
	// '(' ArgumentListopt ')'
	// the arguments are on the expression stack

	MessageSend m = new MessageSend();
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		this.expressionPtr -= length;
		System.arraycopy(
			this.expressionStack,
			this.expressionPtr + 1,
			m.arguments = new Expression[length],
			0,
			length);
	}
	return m;
}
protected MessageSend newMessageSendWithTypeArguments() {
	MessageSend m = new MessageSend();
	int length;
	if ((length = this.expressionLengthStack[this.expressionLengthPtr--]) != 0) {
		this.expressionPtr -= length;
		System.arraycopy(
			this.expressionStack,
			this.expressionPtr + 1,
			m.arguments = new Expression[length],
			0,
			length);
	}
	return m;
}
protected void optimizedConcatNodeLists() {
	/*back from a recursive loop. Virtualy group the
	astNode into an array using this.astLengthStack*/

	/*
	 * This is a case where you have two sublists into the this.astStack that you want
	 * to merge in one list. There is no action required on the this.astStack. The only
	 * thing you need to do is merge the two lengths specified on the astStackLength.
	 * The top two length are for example:
	 * ... p   n
	 * and you want to result in a list like:
	 * ... n+p
	 * This means that the p could be equals to 0 in case there is no astNode pushed
	 * on the this.astStack.
	 * Look at the InterfaceMemberDeclarations for an example.
	 * This case optimizes the fact that p == 1.
	 */

	this.astLengthStack[--this.astLengthPtr]++;
}
public boolean atConflictScenario(int token) {
	
	/* Answer true if the parser is at a configuration where the scanner must look ahead and help disambiguate between (a) '<' as an operator and '<' as the
	   start of  and (b) the use of '(' in '(' expression ')' and '( type ')' and '(' lambda formal parameters ')'. (c) whether the token @
	   begins a Java SE5 style declaration annotation or if it begins a SE8 style type annotation. When requested thus, the scanner helps by fabricating 
	   synthetic tokens and injecting them into the stream ahead of the tokens that trigger conflicts in the absence of these artificial tokens. These 
	   manufactured token help transform the grammar into LALR(1) by splitting the states so that they have unambigious prefixes.
	   
	   We do this by claiming to the automaton that the next token seen is the (suitable) synthetic token and observing the response of the state machine. 
	   Error signals we are NOT at a conflict site, while shift or shift/reduce signals that we are. Accept is impossible, while there may be intermediate
	   reductions that are called for -- It is axiomatic of the push down automaton that corresponds to the LALR grammar that it will never shift on invalid
	   input.
	   
	   Obviously, the dry runs should not alter the parser state in any way or otherwise cause side effects. Proof by argument that this is the case:
	   
	       - The only pieces of state needed to answer the question are: this.stack, this.stateStackTop and the last action variable `act`. None of the various
	         and sundry stacks used in the AST constructions process are touched here.
	       - As we reduce, we DON'T call the semantic action functions i.e the consume* method calls are skipped.
	       - Lexer stream is left untouched.
	       - this.stateStackTop and the last action variable `act` of the automaton are readily cloned, these being primitives and changes are to the replicas.
	       - We never remove elements from the state stack here (or elsewhere for that matter). Pops are implemented by mere adjustments of the stack pointer.
	       - During this algorithm, either the stack pointer monotonically decreases or stays fixed. (The only way for the stack pointer to increase would call
	         for a shift or a shift/reduce at which point the algorithm is ready to terminate already.) This means that we don't have to replicate the stack. 
	         Pushes can be mimiced by writing to a local stackTopState variable, leaving the original stack untouched.
	         
	    Though this code looks complex, we should exit early in most situations.     
	 */
	if (this.unstackedAct == ERROR_ACTION) { // automaton is not running.
		return false;
	}
	if (token != TokenNameAT) {
		token = token == TokenNameLPAREN ? TokenNameBeginLambda : TokenNameBeginTypeArguments;
	}
	
	return automatonWillShift(token, this.unstackedAct);
}
/*main loop of the automat
When a rule is reduced, the method consumeRule(int) is called with the number
of the consumed rule. When a terminal is consumed, the method consumeToken(int) is
called in order to remember (when needed) the consumed token */
// (int)asr[asi(act)]
// name[symbol_index[currentKind]]
protected void parse() {
	if (DEBUG) System.out.println("-- ENTER INSIDE PARSE METHOD --");  //$NON-NLS-1$

	if (DEBUG_AUTOMATON) {
		System.out.println("- Start --------------------------------");  //$NON-NLS-1$
	}

	boolean isDietParse = this.diet;
	int oldFirstToken = getFirstToken();
	this.hasError = false;

	this.hasReportedError = false;
	int act = START_STATE;
	this.unstackedAct = ERROR_ACTION;
	this.stateStackTop = -1;
	this.currentToken = getFirstToken();
	
try {
	this.scanner.setActiveParser(this);
	ProcessTerminals : for (;;) {
		int stackLength = this.stack.length;
		if (++this.stateStackTop >= stackLength) {
			System.arraycopy(
				this.stack, 0,
				this.stack = new int[stackLength + StackIncrement], 0,
				stackLength);
		}
		this.stack[this.stateStackTop] = act;
		this.unstackedAct = act = tAction(act, this.currentToken);
		if (act == ERROR_ACTION || this.restartRecovery) {
			if (DEBUG_AUTOMATON) {
				if (this.restartRecovery) {
					System.out.println("Restart      - "); //$NON-NLS-1$
				} else {
					System.out.println("Error        - "); //$NON-NLS-1$
				}
			}

			int errorPos = this.scanner.currentPosition - 1;
			if (!this.hasReportedError) {
				this.hasError = true;
			}
			int previousToken = this.currentToken;
			switch (resumeOnSyntaxError()) {
				case HALT:
					act = ERROR_ACTION;
					break ProcessTerminals;
				case RESTART:
					if (act == ERROR_ACTION && previousToken != 0) this.lastErrorEndPosition = errorPos;
					act = START_STATE;
					this.stateStackTop = -1;
					this.currentToken = getFirstToken();
					continue ProcessTerminals;
				case RESUME:
					if (act == ERROR_ACTION) {
						act = this.stack[this.stateStackTop--];
						continue ProcessTerminals;
					} else {
						// FALL THROUGH.	
					}
			}
		}
		if (act <= NUM_RULES) {
			this.stateStackTop--;

			if (DEBUG_AUTOMATON) {
				System.out.print("Reduce       - "); //$NON-NLS-1$
			}

		} else if (act > ERROR_ACTION) { /* shift-reduce */
			consumeToken(this.currentToken);
			if (this.currentElement != null) {
				boolean oldValue = this.recordStringLiterals;
				this.recordStringLiterals = false;
				recoveryTokenCheck();
				this.recordStringLiterals = oldValue;
			}
			try {
				this.currentToken = this.scanner.getNextToken();
			} catch(InvalidInputException e){
				if (!this.hasReportedError){
					problemReporter().scannerError(this, e.getMessage());
					this.hasReportedError = true;
				}
				this.lastCheckPoint = this.scanner.currentPosition;
				this.currentToken = 0;
				this.restartRecovery = true;
			} 
			if(this.statementRecoveryActivated) {
				jumpOverType();
			}
			this.unstackedAct = act -= ERROR_ACTION;

			if (DEBUG_AUTOMATON) {
				System.out.print("Shift/Reduce - (" + name[terminal_index[this.currentToken]]+") ");  //$NON-NLS-1$  //$NON-NLS-2$
			}

		} else {
		    if (act < ACCEPT_ACTION) { /* shift */
				consumeToken(this.currentToken);
				if (this.currentElement != null) {
					boolean oldValue = this.recordStringLiterals;
					this.recordStringLiterals = false;
					recoveryTokenCheck();
					this.recordStringLiterals = oldValue;
				}
				try{
					this.currentToken = this.scanner.getNextToken();
				} catch(InvalidInputException e){
					if (!this.hasReportedError){
						problemReporter().scannerError(this, e.getMessage());
						this.hasReportedError = true;
					}
					this.lastCheckPoint = this.scanner.currentPosition;
					this.currentToken = 0;
					this.restartRecovery = true;
				}
				if(this.statementRecoveryActivated) {
					jumpOverType();
				}
				if (DEBUG_AUTOMATON) {
					System.out.println("Shift        - (" + name[terminal_index[this.currentToken]]+")");  //$NON-NLS-1$  //$NON-NLS-2$
				}
				continue ProcessTerminals;
			}
			break ProcessTerminals;
		}

		// ProcessNonTerminals :
		do { /* reduce */

			if (DEBUG_AUTOMATON) {
				System.out.println(name[non_terminal_index[lhs[act]]]);
			}

			this.stateStackTop -= (rhs[act] - 1);
			this.unstackedAct = ntAction(this.stack[this.stateStackTop], lhs[act]);
			consumeRule(act);
			act = this.unstackedAct;

			if (DEBUG_AUTOMATON) {
				if (act <= NUM_RULES) {
					System.out.print("             - ");  //$NON-NLS-1$
				}
			}

		} while (act <= NUM_RULES);

		if (DEBUG_AUTOMATON) {
			System.out.println("----------------------------------------");  //$NON-NLS-1$
		}
	}
} finally {
	this.unstackedAct = ERROR_ACTION;
	this.scanner.setActiveParser(null);
}

	if (DEBUG_AUTOMATON) {
		System.out.println("- End ----------------------------------");  //$NON-NLS-1$
	}

	endParse(act);
	// record all nls tags in the corresponding compilation unit
	final NLSTag[] tags = this.scanner.getNLSTags();
	if (tags != null) {
		this.compilationUnit.nlsTags = tags;
	}

	this.scanner.checkNonExternalizedStringLiterals = false;
	
	if (this.scanner.checkUninternedIdentityComparison) {
		this.compilationUnit.validIdentityComparisonLines = this.scanner.getIdentityComparisonLines();
		this.scanner.checkUninternedIdentityComparison = false;
	}
	
	if (this.reportSyntaxErrorIsRequired && this.hasError && !this.statementRecoveryActivated) {
		if(!this.options.performStatementsRecovery) {
			reportSyntaxErrors(isDietParse, oldFirstToken);
		} else {
			RecoveryScannerData data = this.referenceContext.compilationResult().recoveryScannerData;

			if(this.recoveryScanner == null) {
				this.recoveryScanner = new RecoveryScanner(this.scanner, data);
			} else {
				this.recoveryScanner.setData(data);
			}

			this.recoveryScanner.setSource(this.scanner.source);
			this.recoveryScanner.lineEnds = this.scanner.lineEnds;
			this.recoveryScanner.linePtr = this.scanner.linePtr;

			reportSyntaxErrors(isDietParse, oldFirstToken);

			if(data == null) {
				this.referenceContext.compilationResult().recoveryScannerData =
					this.recoveryScanner.getData();
			}

			if (this.methodRecoveryActivated && this.options.performStatementsRecovery) {
				this.methodRecoveryActivated = false;
				recoverStatements();
				this.methodRecoveryActivated = true;

				this.lastAct = ERROR_ACTION;
			}
		}
	}
	this.problemReporter.referenceContext = null; // Null this so we won't escalate problems needlessly (bug 393192)
	if (DEBUG) System.out.println("-- EXIT FROM PARSE METHOD --");  //$NON-NLS-1$
}
public void parse(ConstructorDeclaration cd, CompilationUnitDeclaration unit, boolean recordLineSeparator) {
	//only parse the method body of cd
	//fill out its statements

	//convert bugs into parse error

	boolean oldMethodRecoveryActivated = this.methodRecoveryActivated;
	if(this.options.performMethodsFullRecovery) {
		this.methodRecoveryActivated = true;
		// we should not relocate bodyStart if there is a block within the statements
		this.ignoreNextOpeningBrace = true;
	}

	initialize();
	goForBlockStatementsopt();
	if (recordLineSeparator) {
		this.scanner.recordLineSeparator = true;
	}
	this.nestedMethod[this.nestedType]++;
	pushOnRealBlockStack(0);

	this.referenceContext = cd;
	this.compilationUnit = unit;

	this.scanner.resetTo(cd.bodyStart, cd.bodyEnd);
	try {
		parse();
	} catch (AbortCompilation ex) {
		this.lastAct = ERROR_ACTION;
	} finally {
		this.nestedMethod[this.nestedType]--;
		if(this.options.performStatementsRecovery) {
			this.methodRecoveryActivated = oldMethodRecoveryActivated;
		}
	}

	checkNonNLSAfterBodyEnd(cd.declarationSourceEnd);

	if (this.lastAct == ERROR_ACTION) {
		cd.bits |= ASTNode.HasSyntaxErrors;
		initialize();
		return;
	}

	//statements
	cd.explicitDeclarations = this.realBlockStack[this.realBlockPtr--];
	int length;
	if (this.astLengthPtr > -1 && (length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		this.astPtr -= length;
		if (!this.options.ignoreMethodBodies) {
			if (this.astStack[this.astPtr + 1] instanceof ExplicitConstructorCall)
				//avoid a isSomeThing that would only be used here BUT what is faster between two alternatives ?
				{
				System.arraycopy(
					this.astStack,
					this.astPtr + 2,
					cd.statements = new Statement[length - 1],
					0,
					length - 1);
				cd.constructorCall = (ExplicitConstructorCall) this.astStack[this.astPtr + 1];
			} else { //need to add explicitly the super();
				System.arraycopy(
					this.astStack,
					this.astPtr + 1,
					cd.statements = new Statement[length],
					0,
					length);
				cd.constructorCall = SuperReference.implicitSuperConstructorCall();
			}
		}
	} else {
		if (!this.options.ignoreMethodBodies) {
			cd.constructorCall = SuperReference.implicitSuperConstructorCall();
		}
		if (!containsComment(cd.bodyStart, cd.bodyEnd)) {
			cd.bits |= ASTNode.UndocumentedEmptyBlock;
		}
	}

	ExplicitConstructorCall explicitConstructorCall = cd.constructorCall;
	if (explicitConstructorCall != null && explicitConstructorCall.sourceEnd == 0) {
		explicitConstructorCall.sourceEnd = cd.sourceEnd;
		explicitConstructorCall.sourceStart = cd.sourceStart;
	}
}
// A P I

public void parse(
	FieldDeclaration field,
	TypeDeclaration type,
	CompilationUnitDeclaration unit,
	char[] initializationSource) {
	//only parse the initializationSource of the given field

	//convert bugs into parse error

	initialize();
	goForExpression(true /* record line separators */);
	this.nestedMethod[this.nestedType]++;

	this.referenceContext = type;
	this.compilationUnit = unit;

	this.scanner.setSource(initializationSource);
	this.scanner.resetTo(0, initializationSource.length-1);
	try {
		parse();
	} catch (AbortCompilation ex) {
		this.lastAct = ERROR_ACTION;
	} finally {
		this.nestedMethod[this.nestedType]--;
	}

	if (this.lastAct == ERROR_ACTION) {
		field.bits |= ASTNode.HasSyntaxErrors;
		return;
	}

	field.initialization = this.expressionStack[this.expressionPtr];

	// mark field with local type if one was found during parsing
	if ((type.bits & ASTNode.HasLocalType) != 0) {
		field.bits |= ASTNode.HasLocalType;
	}
}
// A P I

public CompilationUnitDeclaration parse(
	ICompilationUnit sourceUnit,
	CompilationResult compilationResult) {
	// parses a compilation unit and manages error handling (even bugs....)

	return parse(sourceUnit, compilationResult, -1, -1/*parse without reseting the scanner*/);
}
// A P I

public CompilationUnitDeclaration parse(
	ICompilationUnit sourceUnit,
	CompilationResult compilationResult,
	int start,
	int end) {
	// parses a compilation unit and manages error handling (even bugs....)

	CompilationUnitDeclaration unit;
	try {
		/* automaton initialization */
		initialize(true);
		goForCompilationUnit();

		/* unit creation */
		this.referenceContext =
			this.compilationUnit =
				new CompilationUnitDeclaration(
					this.problemReporter,
					compilationResult,
					0);

		/* scanners initialization */
		char[] contents;
		try {
			contents = this.readManager != null ? this.readManager.getContents(sourceUnit) : sourceUnit.getContents();
		} catch(AbortCompilationUnit abortException) {
			problemReporter().cannotReadSource(this.compilationUnit, abortException, this.options.verbose);
			contents = CharOperation.NO_CHAR; // pretend empty from thereon
		}
		this.scanner.setSource(contents);
		this.compilationUnit.sourceEnd = this.scanner.source.length - 1;
		if (end != -1) this.scanner.resetTo(start, end);
		if (this.javadocParser != null && this.javadocParser.checkDocComment) {
			this.javadocParser.scanner.setSource(contents);
			if (end != -1) {
				this.javadocParser.scanner.resetTo(start, end);
			}
		}
		/* run automaton */
		parse();
	} finally {
		unit = this.compilationUnit;
		this.compilationUnit = null; // reset parser
		// tag unit has having read bodies
		if (!this.diet) unit.bits |= ASTNode.HasAllMethodBodies;
	}
	return unit;
}
// A P I

public void parse(
	Initializer initializer,
	TypeDeclaration type,
	CompilationUnitDeclaration unit) {
	//only parse the method body of md
	//fill out method statements

	//convert bugs into parse error

	boolean oldMethodRecoveryActivated = this.methodRecoveryActivated;
	if(this.options.performMethodsFullRecovery) {
		this.methodRecoveryActivated = true;
	}

	initialize();
	goForBlockStatementsopt();
	this.nestedMethod[this.nestedType]++;
	pushOnRealBlockStack(0);

	this.referenceContext = type;
	this.compilationUnit = unit;

	this.scanner.resetTo(initializer.bodyStart, initializer.bodyEnd); // just on the beginning {
	try {
		parse();
	} catch (AbortCompilation ex) {
		this.lastAct = ERROR_ACTION;
	} finally {
		this.nestedMethod[this.nestedType]--;
		if(this.options.performStatementsRecovery) {
			this.methodRecoveryActivated = oldMethodRecoveryActivated;
		}
	}

	checkNonNLSAfterBodyEnd(initializer.declarationSourceEnd);

	if (this.lastAct == ERROR_ACTION) {
		initializer.bits |= ASTNode.HasSyntaxErrors;
		return;
	}

	//refill statements
	initializer.block.explicitDeclarations = this.realBlockStack[this.realBlockPtr--];
	int length;
	if (this.astLengthPtr > -1 && (length = this.astLengthStack[this.astLengthPtr--]) > 0) {
		System.arraycopy(this.astStack, (this.astPtr -= length) + 1, initializer.block.statements = new Statement[length], 0, length);
	} else {
		// check whether this block at least contains some comment in it
		if (!containsComment(initializer.block.sourceStart, initializer.block.sourceEnd)) {
			initializer.block.bits |= ASTNode.UndocumentedEmptyBlock;
		}
	}

	// mark initializer with local type if one was found during parsing
	if ((type.bits & ASTNode.HasLocalType) != 0) {
		initializer.bits |= ASTNode.HasLocalType;
	}
}
// A P I
public void parse(MethodDeclaration md, CompilationUnitDeclaration unit) {
	//only parse the method body of md
	//fill out method statements

	//convert bugs into parse error

	if (md.isAbstract())
		return;
	if (md.isNative())
		return;
	if ((md.modifiers & ExtraCompilerModifiers.AccSemicolonBody) != 0)
		return;

	boolean oldMethodRecoveryActivated = this.methodRecoveryActivated;
	if(this.options.performMethodsFullRecovery) {
		// we should not relocate bodyStart if there is a block within the statements
		this.ignoreNextOpeningBrace = true;
		this.methodRecoveryActivated = true;
		this.rParenPos = md.sourceEnd;
	}
	initialize();
	goForBlockStatementsopt();
	this.nestedMethod[this.nestedType]++;
	pushOnRealBlockStack(0);

	this.referenceContext = md;
	this.compilationUnit = unit;

	this.scanner.resetTo(md.bodyStart, md.bodyEnd);
	// reset the scanner to parser from { down to }
	try {
		parse();
	} catch (AbortCompilation ex) {
		this.lastAct = ERROR_ACTION;
	} finally {
		this.nestedMethod[this.nestedType]--;
		if(this.options.performStatementsRecovery) {
			this.methodRecoveryActivated = oldMethodRecoveryActivated;
		}
	}

	checkNonNLSAfterBodyEnd(md.declarationSourceEnd);

	if (this.lastAct == ERROR_ACTION) {
		md.bits |= ASTNode.HasSyntaxErrors;
		return;
	}

	//refill statements
	md.explicitDeclarations = this.realBlockStack[this.realBlockPtr--];
	int length;
	if (this.astLengthPtr > -1 && (length = this.astLengthStack[this.astLengthPtr--]) != 0) {
		if (this.options.ignoreMethodBodies) {
			// ignore statements
			this.astPtr -= length;
		} else {
			System.arraycopy(
				this.astStack,
				(this.astPtr -= length) + 1,
				md.statements = new Statement[length],
				0,
				length);
		}
	} else {
		if (!containsComment(md.bodyStart, md.bodyEnd)) {
			md.bits |= ASTNode.UndocumentedEmptyBlock;
		}
	}
}
public ASTNode[] parseClassBodyDeclarations(char[] source, int offset, int length, CompilationUnitDeclaration unit) {
	boolean oldDiet = this.diet;
	boolean oldTolerateDefaultClassMethods = this.tolerateDefaultClassMethods;
	/* automaton initialization */
	initialize();
	goForClassBodyDeclarations();
	/* scanner initialization */
	this.scanner.setSource(source);
	this.scanner.resetTo(offset, offset + length - 1);
	if (this.javadocParser != null && this.javadocParser.checkDocComment) {
		this.javadocParser.scanner.setSource(source);
		this.javadocParser.scanner.resetTo(offset, offset + length - 1);
	}

	/* type declaration should be parsed as member type declaration */
	this.nestedType = 1;

	/* unit creation */
	TypeDeclaration referenceContextTypeDeclaration = new TypeDeclaration(unit.compilationResult);
	referenceContextTypeDeclaration.name = Util.EMPTY_STRING.toCharArray();
	referenceContextTypeDeclaration.fields = new FieldDeclaration[0];
	this.compilationUnit = unit;
	unit.types = new TypeDeclaration[1];
	unit.types[0] = referenceContextTypeDeclaration;
	this.referenceContext = unit;

	/* run automaton */
	try {
		this.diet = true;
		this.tolerateDefaultClassMethods = this.parsingJava8Plus;
		parse();
	} catch (AbortCompilation ex) {
		this.lastAct = ERROR_ACTION;
	} finally {
		this.diet = oldDiet;
		this.tolerateDefaultClassMethods = oldTolerateDefaultClassMethods;
	}

	ASTNode[] result = null;
	if (this.lastAct == ERROR_ACTION) {
		if (!this.options.performMethodsFullRecovery && !this.options.performStatementsRecovery) {
			return null;
		}
		// collect all body declaration inside the compilation unit except the default constructor
		final List bodyDeclarations = new ArrayList();
		ASTVisitor visitor = new ASTVisitor() {
			public boolean visit(MethodDeclaration methodDeclaration, ClassScope scope) {
				if (!methodDeclaration.isDefaultConstructor()) {
					bodyDeclarations.add(methodDeclaration);
				}
				return false;
			}
			public boolean visit(FieldDeclaration fieldDeclaration, MethodScope scope) {
				bodyDeclarations.add(fieldDeclaration);
				return false;
			}
			public boolean visit(TypeDeclaration memberTypeDeclaration, ClassScope scope) {
				bodyDeclarations.add(memberTypeDeclaration);
				return false;
			}
		};
		unit.ignoreFurtherInvestigation = false;
		unit.traverse(visitor, unit.scope);
		unit.ignoreFurtherInvestigation = true;
		result = (ASTNode[]) bodyDeclarations.toArray(new ASTNode[bodyDeclarations.size()]);
	} else {
		int astLength;
		if (this.astLengthPtr > -1 && (astLength = this.astLengthStack[this.astLengthPtr--]) != 0) {
			result = new ASTNode[astLength];
			this.astPtr -= astLength;
			System.arraycopy(this.astStack, this.astPtr + 1, result, 0, astLength);
		} else {
			// empty class body declaration (like ';' see https://bugs.eclipse.org/bugs/show_bug.cgi?id=280079).
			result = new ASTNode[0];
		}
	}
	boolean containsInitializers = false;
	TypeDeclaration typeDeclaration = null;
	for (int i = 0, max = result.length; i < max; i++) {
		// parse each class body declaration
		ASTNode node = result[i];
		if (node instanceof TypeDeclaration) {
			((TypeDeclaration) node).parseMethods(this, unit);
		} else if (node instanceof AbstractMethodDeclaration) {
			((AbstractMethodDeclaration) node).parseStatements(this, unit);
		} else if (node instanceof FieldDeclaration) {
			FieldDeclaration fieldDeclaration = (FieldDeclaration) node;
			switch(fieldDeclaration.getKind()) {
				case AbstractVariableDeclaration.INITIALIZER:
					containsInitializers = true;
					if (typeDeclaration == null) {
						typeDeclaration = referenceContextTypeDeclaration;
					}
					if (typeDeclaration.fields == null) {
						typeDeclaration.fields = new FieldDeclaration[1];
						typeDeclaration.fields[0] = fieldDeclaration;
					} else {
						int length2 = typeDeclaration.fields.length;
						FieldDeclaration[] temp = new FieldDeclaration[length2 + 1];
						System.arraycopy(typeDeclaration.fields, 0, temp, 0, length2);
						temp[length2] = fieldDeclaration;
						typeDeclaration.fields = temp;
					}
					break;
			}
		}
		if (((node.bits & ASTNode.HasSyntaxErrors) != 0) && (!this.options.performMethodsFullRecovery && !this.options.performStatementsRecovery)) {
			return null;
		}
	}
	if (containsInitializers) {
		FieldDeclaration[] fieldDeclarations = typeDeclaration.fields;
		for (int i = 0, max = fieldDeclarations.length; i < max; i++) {
			Initializer initializer = (Initializer) fieldDeclarations[i];
			initializer.parseStatements(this, typeDeclaration , unit);
			if (((initializer.bits & ASTNode.HasSyntaxErrors) != 0) && (!this.options.performMethodsFullRecovery && !this.options.performStatementsRecovery)) {
				return null;
			}
		}
	}
	return result;
}

public Expression parseLambdaExpression(char[] source, int offset, int length, CompilationUnitDeclaration unit, boolean recordLineSeparators) {
	this.haltOnSyntaxError = true; // unexposed/unshared object, no threading concerns.
	return parseExpression(source, offset, length, unit, recordLineSeparators);
}

public Expression parseExpression(char[] source, int offset, int length, CompilationUnitDeclaration unit, boolean recordLineSeparators) {

	initialize();
	goForExpression(recordLineSeparators);
	this.nestedMethod[this.nestedType]++;

	this.referenceContext = unit;
	this.compilationUnit = unit;

	this.scanner.setSource(source);
	this.scanner.resetTo(offset, offset + length - 1);
	try {
		parse();
	} catch (AbortCompilation ex) {
		this.lastAct = ERROR_ACTION;
	} finally {
		this.nestedMethod[this.nestedType]--;
	}

	if (this.lastAct == ERROR_ACTION) {
		return null;
	}

	return this.expressionStack[this.expressionPtr];
}
public Expression parseMemberValue(char[] source, int offset, int length, CompilationUnitDeclaration unit) {

	initialize();
	goForMemberValue();
	this.nestedMethod[this.nestedType]++;

	this.referenceContext = unit;
	this.compilationUnit = unit;

	this.scanner.setSource(source);
	this.scanner.resetTo(offset, offset + length - 1);
	try {
		parse();
	} catch (AbortCompilation ex) {
		this.lastAct = ERROR_ACTION;
	} finally {
		this.nestedMethod[this.nestedType]--;
	}

	if (this.lastAct == ERROR_ACTION) {
		return null;
	}

	return this.expressionStack[this.expressionPtr];
}
public void parseStatements(ReferenceContext rc, int start, int end, TypeDeclaration[] types, CompilationUnitDeclaration unit) {
	boolean oldStatementRecoveryEnabled = this.statementRecoveryActivated;
	this.statementRecoveryActivated = true;

	initialize();

	goForBlockStatementsopt();
	this.nestedMethod[this.nestedType]++;
	pushOnRealBlockStack(0);

	pushOnAstLengthStack(0);

	this.referenceContext = rc;
	this.compilationUnit = unit;

	this.pendingRecoveredType = null;

	if(types != null && types.length > 0) {
		this.recoveredTypes = types;
		this.recoveredTypePtr = 0;
		this.nextTypeStart =
			this.recoveredTypes[0].allocation == null
				? this.recoveredTypes[0].declarationSourceStart
						: this.recoveredTypes[0].allocation.sourceStart;
	} else {
		this.recoveredTypes = null;
		this.recoveredTypePtr = -1;
		this.nextTypeStart = -1;
	}

	this.scanner.resetTo(start, end);
	// reset the scanner to parser from { down to }

	this.lastCheckPoint = this.scanner.initialPosition;


	this.stateStackTop = -1;

	try {
		parse();
	} catch (AbortCompilation ex) {
		this.lastAct = ERROR_ACTION;
	} finally {
		this.nestedMethod[this.nestedType]--;
		this.recoveredTypes = null;
		this.statementRecoveryActivated = oldStatementRecoveryEnabled;
	}

	checkNonNLSAfterBodyEnd(end);
}
public void persistLineSeparatorPositions() {
	if (this.scanner.recordLineSeparator) {
		this.compilationUnit.compilationResult.lineSeparatorPositions = this.scanner.getLineEnds();
	}
}
/*
 * Prepares the state of the parser to go for BlockStatements.
 */
protected void prepareForBlockStatements() {
	this.nestedMethod[this.nestedType = 0] = 1;
	this.variablesCounter[this.nestedType] = 0;
	this.realBlockStack[this.realBlockPtr = 1] = 0;
}
/**
 * Returns this parser's problem reporter initialized with its reference context.
 * Also it is assumed that a problem is going to be reported, so initializes
 * the compilation result's line positions.
 *
 * @return ProblemReporter
 */
public ProblemReporter problemReporter(){
	if (this.scanner.recordLineSeparator) {
		this.compilationUnit.compilationResult.lineSeparatorPositions = this.scanner.getLineEnds();
	}
	this.problemReporter.referenceContext = this.referenceContext;
	return this.problemReporter;
}
protected void pushIdentifier(char [] identifier, long position) {
	int stackLength = this.identifierStack.length;
	if (++this.identifierPtr >= stackLength) {
		System.arraycopy(
			this.identifierStack, 0,
			this.identifierStack = new char[stackLength + 20][], 0,
			stackLength);
		System.arraycopy(
			this.identifierPositionStack, 0,
			this.identifierPositionStack = new long[stackLength + 20], 0,
			stackLength);
	}
	this.identifierStack[this.identifierPtr] = identifier;
	this.identifierPositionStack[this.identifierPtr] = position;

	stackLength = this.identifierLengthStack.length;
	if (++this.identifierLengthPtr >= stackLength) {
		System.arraycopy(
			this.identifierLengthStack, 0,
			this.identifierLengthStack = new int[stackLength + 10], 0,
			stackLength);
	}
	this.identifierLengthStack[this.identifierLengthPtr] = 1;
	if (this.parsingJava8Plus && identifier.length == 1 && identifier[0] == '_' && !this.processingLambdaParameterList) {
		problemReporter().illegalUseOfUnderscoreAsAnIdentifier((int) (position >>> 32), (int) position, false /* not a lambda parameter */);
	}
}
protected void pushIdentifier() {
	/*push the consumeToken on the identifier stack.
	Increase the total number of identifier in the stack.
	identifierPtr points on the next top */

	pushIdentifier(this.scanner.getCurrentIdentifierSource(), (((long) this.scanner.startPosition) << 32) + (this.scanner.currentPosition - 1));
}
protected void pushIdentifier(int flag) {
	/*push a special flag on the stack :
	-zero stands for optional Name
	-negative number for direct ref to base types.
	identifierLengthPtr points on the top */

	int stackLength = this.identifierLengthStack.length;
	if (++this.identifierLengthPtr >= stackLength) {
		System.arraycopy(
			this.identifierLengthStack, 0,
			this.identifierLengthStack = new int[stackLength + 10], 0,
			stackLength);
	}
	this.identifierLengthStack[this.identifierLengthPtr] = flag;
}
protected void pushOnAstLengthStack(int pos) {

	int stackLength = this.astLengthStack.length;
	if (++this.astLengthPtr >= stackLength) {
		System.arraycopy(
			this.astLengthStack, 0,
			this.astLengthStack = new int[stackLength + StackIncrement], 0,
			stackLength);
	}
	this.astLengthStack[this.astLengthPtr] = pos;
}
protected void pushOnAstStack(ASTNode node) {
	/*add a new obj on top of the ast stack
	astPtr points on the top*/

	int stackLength = this.astStack.length;
	if (++this.astPtr >= stackLength) {
		System.arraycopy(
			this.astStack, 0,
			this.astStack = new ASTNode[stackLength + AstStackIncrement], 0,
			stackLength);
		this.astPtr = stackLength;
	}
	this.astStack[this.astPtr] = node;

	stackLength = this.astLengthStack.length;
	if (++this.astLengthPtr >= stackLength) {
		System.arraycopy(
			this.astLengthStack, 0,
			this.astLengthStack = new int[stackLength + AstStackIncrement], 0,
			stackLength);
	}
	this.astLengthStack[this.astLengthPtr] = 1;
}
protected void pushOnTypeAnnotationStack(Annotation annotation) {

	int stackLength = this.typeAnnotationStack.length;
	if (++this.typeAnnotationPtr >= stackLength) {
		System.arraycopy(
			this.typeAnnotationStack, 0,
			this.typeAnnotationStack = new Annotation[stackLength + TypeAnnotationStackIncrement], 0,
			stackLength);
	}
	this.typeAnnotationStack[this.typeAnnotationPtr] = annotation;

	stackLength = this.typeAnnotationLengthStack.length;
	if (++this.typeAnnotationLengthPtr >= stackLength) {
		System.arraycopy(
			this.typeAnnotationLengthStack, 0,
			this.typeAnnotationLengthStack = new int[stackLength + TypeAnnotationStackIncrement], 0,
			stackLength);
	}
	this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr] = 1;
}
protected void pushOnTypeAnnotationLengthStack(int pos) {

	int stackLength = this.typeAnnotationLengthStack.length;
	if (++this.typeAnnotationLengthPtr >= stackLength) {
		System.arraycopy(
			this.typeAnnotationLengthStack, 0,
			this.typeAnnotationLengthStack = new int[stackLength + TypeAnnotationStackIncrement], 0,
			stackLength);
	}
	this.typeAnnotationLengthStack[this.typeAnnotationLengthPtr] = pos;
}
protected void pushOnExpressionStack(Expression expr) {

	int stackLength = this.expressionStack.length;
	if (++this.expressionPtr >= stackLength) {
		System.arraycopy(
			this.expressionStack, 0,
			this.expressionStack = new Expression[stackLength + ExpressionStackIncrement], 0,
			stackLength);
	}
	this.expressionStack[this.expressionPtr] = expr;

	stackLength = this.expressionLengthStack.length;
	if (++this.expressionLengthPtr >= stackLength) {
		System.arraycopy(
			this.expressionLengthStack, 0,
			this.expressionLengthStack = new int[stackLength + ExpressionStackIncrement], 0,
			stackLength);
	}
	this.expressionLengthStack[this.expressionLengthPtr] = 1;
}
protected void pushOnExpressionStackLengthStack(int pos) {

	int stackLength = this.expressionLengthStack.length;
	if (++this.expressionLengthPtr >= stackLength) {
		System.arraycopy(
			this.expressionLengthStack, 0,
			this.expressionLengthStack = new int[stackLength + StackIncrement], 0,
			stackLength);
	}
	this.expressionLengthStack[this.expressionLengthPtr] = pos;
}
protected void pushOnGenericsIdentifiersLengthStack(int pos) {
	int stackLength = this.genericsIdentifiersLengthStack.length;
	if (++this.genericsIdentifiersLengthPtr >= stackLength) {
		System.arraycopy(
			this.genericsIdentifiersLengthStack, 0,
			this.genericsIdentifiersLengthStack = new int[stackLength + GenericsStackIncrement], 0,
			stackLength);
	}
	this.genericsIdentifiersLengthStack[this.genericsIdentifiersLengthPtr] = pos;
}
protected void pushOnGenericsLengthStack(int pos) {
	int stackLength = this.genericsLengthStack.length;
	if (++this.genericsLengthPtr >= stackLength) {
		System.arraycopy(
			this.genericsLengthStack, 0,
			this.genericsLengthStack = new int[stackLength + GenericsStackIncrement], 0,
			stackLength);
	}
	this.genericsLengthStack[this.genericsLengthPtr] = pos;
}
protected void pushOnGenericsStack(ASTNode node) {
	/*add a new obj on top of the generics stack
	genericsPtr points on the top*/

	int stackLength = this.genericsStack.length;
	if (++this.genericsPtr >= stackLength) {
		System.arraycopy(
			this.genericsStack, 0,
			this.genericsStack = new ASTNode[stackLength + GenericsStackIncrement], 0,
			stackLength);
	}
	this.genericsStack[this.genericsPtr] = node;

	stackLength = this.genericsLengthStack.length;
	if (++this.genericsLengthPtr >= stackLength) {
		System.arraycopy(
			this.genericsLengthStack, 0,
			this.genericsLengthStack = new int[stackLength + GenericsStackIncrement], 0,
			stackLength);
	}
	this.genericsLengthStack[this.genericsLengthPtr] = 1;
}
protected void pushOnIntStack(int pos) {

	int stackLength = this.intStack.length;
	if (++this.intPtr >= stackLength) {
		System.arraycopy(
			this.intStack, 0,
			this.intStack = new int[stackLength + StackIncrement], 0,
			stackLength);
	}
	this.intStack[this.intPtr] = pos;
}
protected void pushOnRealBlockStack(int i){

	int stackLength = this.realBlockStack.length;
	if (++this.realBlockPtr >= stackLength) {
		System.arraycopy(
			this.realBlockStack, 0,
			this.realBlockStack = new int[stackLength + StackIncrement], 0,
			stackLength);
	}
	this.realBlockStack[this.realBlockPtr] = i;
}
protected void recoverStatements() {
	class MethodVisitor extends ASTVisitor {
		public ASTVisitor typeVisitor;

		TypeDeclaration enclosingType; // used only for initializer

		TypeDeclaration[] types = new TypeDeclaration[0];
		int typePtr = -1;
		public void endVisit(ConstructorDeclaration constructorDeclaration, ClassScope scope) {
			endVisitMethod(constructorDeclaration, scope);
		}
		public void endVisit(Initializer initializer, MethodScope scope) {
			if (initializer.block == null) return;
			TypeDeclaration[] foundTypes = null;
			int length = 0;
			if(this.typePtr > -1) {
				length = this.typePtr + 1;
				foundTypes = new TypeDeclaration[length];
				System.arraycopy(this.types, 0, foundTypes, 0, length);
			}
			ReferenceContext oldContext = Parser.this.referenceContext;
			Parser.this.recoveryScanner.resetTo(initializer.bodyStart, initializer.bodyEnd);
			Scanner oldScanner = Parser.this.scanner;
			Parser.this.scanner = Parser.this.recoveryScanner;
			parseStatements(
					this.enclosingType,
					initializer.bodyStart,
					initializer.bodyEnd,
					foundTypes,
					Parser.this.compilationUnit);
			Parser.this.scanner = oldScanner;
			Parser.this.referenceContext = oldContext;

			for (int i = 0; i < length; i++) {
				foundTypes[i].traverse(this.typeVisitor, scope);
			}
		}
		public void endVisit(MethodDeclaration methodDeclaration, ClassScope scope) {
			endVisitMethod(methodDeclaration, scope);
		}
		private void endVisitMethod(AbstractMethodDeclaration methodDeclaration, ClassScope scope) {
			TypeDeclaration[] foundTypes = null;
			int length = 0;
			if(this.typePtr > -1) {
				length = this.typePtr + 1;
				foundTypes = new TypeDeclaration[length];
				System.arraycopy(this.types, 0, foundTypes, 0, length);
			}
			ReferenceContext oldContext = Parser.this.referenceContext;
			Parser.this.recoveryScanner.resetTo(methodDeclaration.bodyStart, methodDeclaration.bodyEnd);
			Scanner oldScanner = Parser.this.scanner;
			Parser.this.scanner = Parser.this.recoveryScanner;
			parseStatements(
					methodDeclaration,
					methodDeclaration.bodyStart,
					methodDeclaration.bodyEnd,
					foundTypes,
					Parser.this.compilationUnit);
			Parser.this.scanner = oldScanner;
			Parser.this.referenceContext = oldContext;

			for (int i = 0; i < length; i++) {
				foundTypes[i].traverse(this.typeVisitor, scope);
			}
		}
		public boolean visit(ConstructorDeclaration constructorDeclaration, ClassScope scope) {
			this.typePtr = -1;
			return true;
		}
		public boolean visit(Initializer initializer, MethodScope scope) {
			this.typePtr = -1;
			if (initializer.block == null) return false;
			return true;
		}
		public boolean visit(MethodDeclaration methodDeclaration,ClassScope scope) {
			this.typePtr = -1;
			return true;
		}
		private boolean visit(TypeDeclaration typeDeclaration) {
			if(this.types.length <= ++this.typePtr) {
				int length = this.typePtr;
				System.arraycopy(this.types, 0, this.types = new TypeDeclaration[length * 2 + 1], 0, length);
			}
			this.types[this.typePtr] = typeDeclaration;
			return false;
		}
		public boolean visit(TypeDeclaration typeDeclaration, BlockScope scope) {
			return this.visit(typeDeclaration);
		}
		public boolean visit(TypeDeclaration typeDeclaration, ClassScope scope) {
			return this.visit(typeDeclaration);
		}
	}
	class TypeVisitor extends ASTVisitor {
		public MethodVisitor methodVisitor;

		TypeDeclaration[] types = new TypeDeclaration[0];
		int typePtr = -1;

		public void endVisit(TypeDeclaration typeDeclaration, BlockScope scope) {
			endVisitType();
		}
		public void endVisit(TypeDeclaration typeDeclaration, ClassScope scope) {
			endVisitType();
		}
		private void endVisitType() {
			this.typePtr--;
		}
		public boolean visit(ConstructorDeclaration constructorDeclaration, ClassScope scope) {
			if(constructorDeclaration.isDefaultConstructor()) return false;

			constructorDeclaration.traverse(this.methodVisitor, scope);
			return false;
		}
		public boolean visit(Initializer initializer, MethodScope scope) {
			if (initializer.block == null) return false;
			this.methodVisitor.enclosingType = this.types[this.typePtr];
			initializer.traverse(this.methodVisitor, scope);
			return false;
		}
		public boolean visit(MethodDeclaration methodDeclaration, ClassScope scope) {
			methodDeclaration.traverse(this.methodVisitor, scope);
			return false;
		}
		private boolean visit(TypeDeclaration typeDeclaration) {
			if(this.types.length <= ++this.typePtr) {
				int length = this.typePtr;
				System.arraycopy(this.types, 0, this.types = new TypeDeclaration[length * 2 + 1], 0, length);
			}
			this.types[this.typePtr] = typeDeclaration;
			return true;
		}
		public boolean visit(TypeDeclaration typeDeclaration, BlockScope scope) {
			return this.visit(typeDeclaration);
		}
		public boolean visit(TypeDeclaration typeDeclaration, ClassScope scope) {
			return this.visit(typeDeclaration);
		}
	}

	MethodVisitor methodVisitor = new MethodVisitor();
	TypeVisitor typeVisitor = new TypeVisitor();
	methodVisitor.typeVisitor = typeVisitor;
	typeVisitor.methodVisitor = methodVisitor;

	if(this.referenceContext instanceof AbstractMethodDeclaration) {
		((AbstractMethodDeclaration)this.referenceContext).traverse(methodVisitor, (ClassScope)null);
	} else if(this.referenceContext instanceof TypeDeclaration) {
		TypeDeclaration typeContext = (TypeDeclaration)this.referenceContext;

		int length = typeContext.fields.length;
		for (int i = 0; i < length; i++) {
			final FieldDeclaration fieldDeclaration = typeContext.fields[i];
			switch(fieldDeclaration.getKind()) {
				case AbstractVariableDeclaration.INITIALIZER:
					Initializer initializer = (Initializer) fieldDeclaration;
					if (initializer.block == null) break;
					methodVisitor.enclosingType = typeContext;
					initializer.traverse(methodVisitor, (MethodScope)null);
					break;
			}
		}
	}
}

public void recoveryExitFromVariable() {
	if(this.currentElement != null && this.currentElement.parent != null) {
		if(this.currentElement instanceof RecoveredLocalVariable) {

			int end = ((RecoveredLocalVariable)this.currentElement).localDeclaration.sourceEnd;
			this.currentElement.updateSourceEndIfNecessary(end);
			this.currentElement = this.currentElement.parent;
		} else if(this.currentElement instanceof RecoveredField
			&& !(this.currentElement instanceof RecoveredInitializer)) {
			// Do not move focus to parent if we are still inside an array initializer
			// https://bugs.eclipse.org/bugs/show_bug.cgi?id=292087 
			if (this.currentElement.bracketBalance <= 0) {
				int end = ((RecoveredField)this.currentElement).fieldDeclaration.sourceEnd;
				this.currentElement.updateSourceEndIfNecessary(end);
				this.currentElement = this.currentElement.parent;
			}
		}
	}
}
/* Token check performed on every token shift once having entered
 * recovery mode.
 */
public void recoveryTokenCheck() {
	switch (this.currentToken) {
		case TokenNameStringLiteral :
			if (this.recordStringLiterals &&
					this.checkExternalizeStrings &&
					this.lastPosistion < this.scanner.currentPosition &&
					!this.statementRecoveryActivated) {
				StringLiteral stringLiteral = createStringLiteral(
					this.scanner.getCurrentTokenSourceString(),
					this.scanner.startPosition,
					this.scanner.currentPosition - 1,
					Util.getLineNumber(this.scanner.startPosition, this.scanner.lineEnds, 0, this.scanner.linePtr));
				this.compilationUnit.recordStringLiteral(stringLiteral, this.currentElement != null);
			}
			break;
		case TokenNameLBRACE :
			RecoveredElement newElement = null;
			if(!this.ignoreNextOpeningBrace) {
				newElement = this.currentElement.updateOnOpeningBrace(this.scanner.startPosition - 1, this.scanner.currentPosition - 1);
			}
			this.lastCheckPoint = this.scanner.currentPosition;
			if (newElement != null){ // null means nothing happened
				this.restartRecovery = true; // opening brace detected
				this.currentElement = newElement;
			}
			break;

		case TokenNameRBRACE :
			this.rBraceStart = this.scanner.startPosition - 1;
			this.rBraceEnd = this.scanner.currentPosition - 1;
			this.endPosition = flushCommentsDefinedPriorTo(this.rBraceEnd);
			newElement =
				this.currentElement.updateOnClosingBrace(this.scanner.startPosition, this.rBraceEnd);
				this.lastCheckPoint = this.scanner.currentPosition;
			if (newElement != this.currentElement){
				this.currentElement = newElement;
//				if (newElement instanceof RecoveredField && this.dietInt <= 0) {
//					if (((RecoveredField)newElement).fieldDeclaration.type == null) { // enum constant
//						this.isInsideEnumConstantPart = true; // restore status
//					}
//				}
			}
			break;
		case TokenNameSEMICOLON :
			this.endStatementPosition = this.scanner.currentPosition - 1;
			this.endPosition = this.scanner.startPosition - 1;
			RecoveredType currentType = currentRecoveryType();
			if(currentType != null) {
				currentType.insideEnumConstantPart = false;
			}
			//$FALL-THROUGH$
		default : {
			if (this.rBraceEnd > this.rBraceSuccessorStart && this.scanner.currentPosition != this.scanner.startPosition){
				this.rBraceSuccessorStart = this.scanner.startPosition;
			}
			break;
		}
	}
	this.ignoreNextOpeningBrace = false;
}
// A P I
protected void reportSyntaxErrors(boolean isDietParse, int oldFirstToken) {
	if(this.referenceContext instanceof MethodDeclaration) {
		MethodDeclaration methodDeclaration = (MethodDeclaration) this.referenceContext;
		if((methodDeclaration.bits & ASTNode.ErrorInSignature) != 0){
			return;
		}
	}
	this.compilationUnit.compilationResult.lineSeparatorPositions = this.scanner.getLineEnds();
	this.scanner.recordLineSeparator = false;

	int start = this.scanner.initialPosition;
	int end = this.scanner.eofPosition == Integer.MAX_VALUE ? this.scanner.eofPosition : this.scanner.eofPosition - 1;
	if(isDietParse) {
		TypeDeclaration[] types = this.compilationUnit.types;
		int[][] intervalToSkip = org.eclipse.jdt.internal.compiler.parser.diagnose.RangeUtil.computeDietRange(types);
		DiagnoseParser diagnoseParser = new DiagnoseParser(this, oldFirstToken, start, end, intervalToSkip[0], intervalToSkip[1], intervalToSkip[2], this.options);
		diagnoseParser.diagnoseParse(false);

		reportSyntaxErrorsForSkippedMethod(types);
		this.scanner.resetTo(start, end);
	} else {
		DiagnoseParser diagnoseParser = new DiagnoseParser(this, oldFirstToken, start, end, this.options);
		diagnoseParser.diagnoseParse(this.options.performStatementsRecovery);
	}
}
private void reportSyntaxErrorsForSkippedMethod(TypeDeclaration[] types){
	if(types != null) {
		for (int i = 0; i < types.length; i++) {
			TypeDeclaration[] memberTypes = types[i].memberTypes;
			if(memberTypes != null) {
				reportSyntaxErrorsForSkippedMethod(memberTypes);
			}

			AbstractMethodDeclaration[] methods = types[i].methods;
			if(methods != null) {
				for (int j = 0; j < methods.length; j++) {
					AbstractMethodDeclaration method = methods[j];
					if((method.bits & ASTNode.ErrorInSignature) != 0) {
						if(method.isAnnotationMethod()) {
							DiagnoseParser diagnoseParser = new DiagnoseParser(this, TokenNameQUESTION, method.declarationSourceStart, method.declarationSourceEnd, this.options);
							diagnoseParser.diagnoseParse(this.options.performStatementsRecovery);
						} else {
							DiagnoseParser diagnoseParser = new DiagnoseParser(this, TokenNameDIVIDE, method.declarationSourceStart, method.declarationSourceEnd, this.options);
							diagnoseParser.diagnoseParse(this.options.performStatementsRecovery);
						}

					}
				}
			}

			FieldDeclaration[] fields = types[i].fields;
			if (fields != null) {
				int length = fields.length;
				for (int j = 0; j < length; j++) {
					if (fields[j] instanceof Initializer) {
						Initializer initializer = (Initializer)fields[j];
						if((initializer.bits & ASTNode.ErrorInSignature) != 0){
							DiagnoseParser diagnoseParser = new DiagnoseParser(this, TokenNameRIGHT_SHIFT, initializer.declarationSourceStart, initializer.declarationSourceEnd, this.options);
							diagnoseParser.diagnoseParse(this.options.performStatementsRecovery);
						}
					}
				}
			}
		}
	}
}
/**
 * Reset modifiers buffer and comment stack. Should be call only for nodes that claim both.
 */
protected void resetModifiers() {
	this.modifiers = ClassFileConstants.AccDefault;
	this.modifiersSourceStart = -1; // <-- see comment into modifiersFlag(int)
	this.scanner.commentPtr = -1;
}
/*
 * Reset context so as to resume to regular parse loop
 */
protected void resetStacks() {

	this.astPtr = -1;
	this.astLengthPtr = -1;
	this.expressionPtr = -1;
	this.expressionLengthPtr = -1;
	this.typeAnnotationLengthPtr = -1;
	this.typeAnnotationPtr = -1;
	this.identifierPtr = -1;
	this.identifierLengthPtr	= -1;
	this.intPtr = -1;
	
	this.nestedMethod[this.nestedType = 0] = 0; // need to reset for further reuse
	this.variablesCounter[this.nestedType] = 0;
	
	this.dimensions = 0 ;
	this.realBlockStack[this.realBlockPtr = 0] = 0;
	this.recoveredStaticInitializerStart = 0;
	this.listLength = 0;
	this.listTypeParameterLength = 0;

	this.genericsIdentifiersLengthPtr = -1;
	this.genericsLengthPtr = -1;
	this.genericsPtr = -1;
	this.valueLambdaNestDepth = -1;
}
/*
 * Reset context so as to resume to regular parse loop
 * If unable to reset for resuming, answers false.
 *
 * Move checkpoint location, reset internal stacks and
 * decide which grammar goal is activated.
 */
protected int resumeAfterRecovery() {
	if(!this.methodRecoveryActivated && !this.statementRecoveryActivated) {

		// reset internal stacks
		resetStacks();
		resetModifiers();

		/* attempt to move checkpoint location */
		if (!moveRecoveryCheckpoint()) {
			return HALT;
		}

		// only look for headers
		if (this.referenceContext instanceof CompilationUnitDeclaration){
			goForHeaders();
			this.diet = true; // passed this point, will not consider method bodies
			return RESTART;
		}

		// does not know how to restart
		return HALT;
	} else if(!this.statementRecoveryActivated) {

		// reset internal stacks
		resetStacks();
		resetModifiers();

		/* attempt to move checkpoint location */
		if (!moveRecoveryCheckpoint()) {
			return HALT;
		}

		// only look for headers
		goForHeaders();
		return RESTART;
	} else {
		return HALT;
	}
}
protected int resumeOnSyntaxError() {
	if (this.haltOnSyntaxError)
		return HALT;
	/* request recovery initialization */
	if (this.currentElement == null){
		// Reset javadoc before restart parsing after recovery
		this.javadoc = null;

		// do not investigate deeper in statement recovery
		if (this.statementRecoveryActivated) return HALT;

		// build some recovered elements
		this.currentElement = buildInitialRecoveryState();
	}
	/* do not investigate deeper in recovery when no recovered element */
	if (this.currentElement == null) return HALT;

	/* manual forced recovery restart - after headers */
	if (this.restartRecovery){
		this.restartRecovery = false;
	}
	/* update recovery state with current error state of the parser */
	updateRecoveryState();
	if (getFirstToken() == TokenNameAND) {
		if (this.referenceContext instanceof CompilationUnitDeclaration) {
			TypeDeclaration typeDeclaration = new TypeDeclaration(this.referenceContext.compilationResult());
			typeDeclaration.name = Util.EMPTY_STRING.toCharArray();
			this.currentElement = this.currentElement.add(typeDeclaration, 0);
		}
	}

	if (this.lastPosistion < this.scanner.currentPosition) {
		this.lastPosistion = this.scanner.currentPosition;
		this.scanner.lastPosition = this.scanner.currentPosition;
	}

	/* attempt to reset state in order to resume to parse loop */
	return resumeAfterRecovery();
}
public void setMethodsFullRecovery(boolean enabled) {
	this.options.performMethodsFullRecovery = enabled;
}
public void setStatementsRecovery(boolean enabled) {
	if(enabled) this.options.performMethodsFullRecovery = true;
	this.options.performStatementsRecovery = enabled;
}
public String toString() {


	String s = "lastCheckpoint : int = " + String.valueOf(this.lastCheckPoint) + "\n"; //$NON-NLS-1$ //$NON-NLS-2$
	s = s + "identifierStack : char["+(this.identifierPtr + 1)+"][] = {"; //$NON-NLS-1$ //$NON-NLS-2$
	for (int i = 0; i <= this.identifierPtr; i++) {
		s = s + "\"" + String.valueOf(this.identifierStack[i]) + "\","; //$NON-NLS-1$ //$NON-NLS-2$
	}
	s = s + "}\n"; //$NON-NLS-1$

	s = s + "identifierLengthStack : int["+(this.identifierLengthPtr + 1)+"] = {"; //$NON-NLS-1$ //$NON-NLS-2$
	for (int i = 0; i <= this.identifierLengthPtr; i++) {
		s = s + this.identifierLengthStack[i] + ","; //$NON-NLS-1$
	}
	s = s + "}\n"; //$NON-NLS-1$

	s = s + "astLengthStack : int["+(this.astLengthPtr + 1)+"] = {"; //$NON-NLS-1$ //$NON-NLS-2$
	for (int i = 0; i <= this.astLengthPtr; i++) {
		s = s + this.astLengthStack[i] + ","; //$NON-NLS-1$
	}
	s = s + "}\n"; //$NON-NLS-1$
	s = s + "astPtr : int = " + String.valueOf(this.astPtr) + "\n"; //$NON-NLS-1$ //$NON-NLS-2$

	s = s + "intStack : int["+(this.intPtr + 1)+"] = {"; //$NON-NLS-1$ //$NON-NLS-2$
	for (int i = 0; i <= this.intPtr; i++) {
		s = s + this.intStack[i] + ","; //$NON-NLS-1$
	}
	s = s + "}\n"; //$NON-NLS-1$

	s = s + "expressionLengthStack : int["+(this.expressionLengthPtr + 1)+"] = {"; //$NON-NLS-1$ //$NON-NLS-2$
	for (int i = 0; i <= this.expressionLengthPtr; i++) {
		s = s + this.expressionLengthStack[i] + ","; //$NON-NLS-1$
	}
	s = s + "}\n"; //$NON-NLS-1$

	s = s + "expressionPtr : int = " + String.valueOf(this.expressionPtr) + "\n"; //$NON-NLS-1$ //$NON-NLS-2$

	s = s + "genericsIdentifiersLengthStack : int["+(this.genericsIdentifiersLengthPtr + 1)+"] = {"; //$NON-NLS-1$ //$NON-NLS-2$
	for (int i = 0; i <= this.genericsIdentifiersLengthPtr; i++) {
		s = s + this.genericsIdentifiersLengthStack[i] + ","; //$NON-NLS-1$
	}
	s = s + "}\n"; //$NON-NLS-1$

	s = s + "genericsLengthStack : int["+(this.genericsLengthPtr + 1)+"] = {"; //$NON-NLS-1$ //$NON-NLS-2$
	for (int i = 0; i <= this.genericsLengthPtr; i++) {
		s = s + this.genericsLengthStack[i] + ","; //$NON-NLS-1$
	}
	s = s + "}\n"; //$NON-NLS-1$

	s = s + "genericsPtr : int = " + String.valueOf(this.genericsPtr) + "\n"; //$NON-NLS-1$ //$NON-NLS-2$

	s = s + "\n\n\n----------------Scanner--------------\n" + this.scanner.toString(); //$NON-NLS-1$
	return s;

}
/*
 * Update recovery state based on current parser/scanner state
 */
protected void updateRecoveryState() {

	/* expose parser state to recovery state */
	this.currentElement.updateFromParserState();

	/* check and update recovered state based on current token,
		this action is also performed when shifting token after recovery
		got activated once.
	*/
	recoveryTokenCheck();
}
protected void updateSourceDeclarationParts(int variableDeclaratorsCounter) {
	//fields is a definition of fields that are grouped together like in
	//public int[] a, b[], c
	//which results into 3 fields.

	FieldDeclaration field;
	int endTypeDeclarationPosition =
		-1 + this.astStack[this.astPtr - variableDeclaratorsCounter + 1].sourceStart;
	for (int i = 0; i < variableDeclaratorsCounter - 1; i++) {
		//last one is special(see below)
		field = (FieldDeclaration) this.astStack[this.astPtr - i - 1];
		field.endPart1Position = endTypeDeclarationPosition;
		field.endPart2Position = -1 + this.astStack[this.astPtr - i].sourceStart;
	}
	//last one
	(field = (FieldDeclaration) this.astStack[this.astPtr]).endPart1Position =
		endTypeDeclarationPosition;
	field.endPart2Position = field.declarationSourceEnd;

}
protected void updateSourcePosition(Expression exp) {
	//update the source Position of the expression

	//this.intStack : int int
	//-->
	//this.intStack :

	exp.sourceEnd = this.intStack[this.intPtr--];
	exp.sourceStart = this.intStack[this.intPtr--];
}
public void copyState(CommitRollbackParser from) {
	
	Parser parser = (Parser) from;

	// Stack pointers.
	
	this.stateStackTop = parser.stateStackTop;
	this.unstackedAct = parser.unstackedAct;
	this.identifierPtr = parser.identifierPtr;
	this.identifierLengthPtr = parser.identifierLengthPtr;
	this.astPtr = parser.astPtr;
	this.astLengthPtr = parser.astLengthPtr;
	this.expressionPtr = parser.expressionPtr;
	this.expressionLengthPtr = parser.expressionLengthPtr;
	this.genericsPtr = parser.genericsPtr;
	this.genericsLengthPtr = parser.genericsLengthPtr;
	this.genericsIdentifiersLengthPtr = parser.genericsIdentifiersLengthPtr;
	this.typeAnnotationPtr = parser.typeAnnotationPtr;
	this.typeAnnotationLengthPtr = parser.typeAnnotationLengthPtr;
	this.intPtr = parser.intPtr;
	this.nestedType = parser.nestedType;
	this.realBlockPtr = parser.realBlockPtr;
	this.valueLambdaNestDepth = parser.valueLambdaNestDepth;
	
	// Stacks.
	
	int length;
	System.arraycopy(parser.stack, 0, this.stack = new int [length = parser.stack.length], 0, length);
	System.arraycopy(parser.identifierStack, 0, this.identifierStack = new char [length = parser.identifierStack.length][], 0, length);
	System.arraycopy(parser.identifierLengthStack, 0, this.identifierLengthStack = new int [length = parser.identifierLengthStack.length], 0, length);
	System.arraycopy(parser.identifierPositionStack, 0, this.identifierPositionStack = new long[length = parser.identifierPositionStack.length], 0, length);
	System.arraycopy(parser.astStack, 0, this.astStack = new ASTNode [length = parser.astStack.length], 0, length);
	System.arraycopy(parser.astLengthStack, 0, this.astLengthStack = new int [length = parser.astLengthStack.length], 0, length);
	System.arraycopy(parser.expressionStack, 0, this.expressionStack = new Expression [length = parser.expressionStack.length], 0, length);
	System.arraycopy(parser.expressionLengthStack, 0, this.expressionLengthStack = new int [length = parser.expressionLengthStack.length], 0, length);
	System.arraycopy(parser.genericsStack, 0, this.genericsStack = new ASTNode [length = parser.genericsStack.length], 0, length);
	System.arraycopy(parser.genericsLengthStack, 0, this.genericsLengthStack = new int [length = parser.genericsLengthStack.length], 0, length);
	System.arraycopy(parser.genericsIdentifiersLengthStack, 0, this.genericsIdentifiersLengthStack = new int [length = parser.genericsIdentifiersLengthStack.length], 0, length);
	System.arraycopy(parser.typeAnnotationStack, 0, this.typeAnnotationStack = new Annotation [length = parser.typeAnnotationStack.length], 0, length);
	System.arraycopy(parser.typeAnnotationLengthStack, 0, this.typeAnnotationLengthStack = new int [length = parser.typeAnnotationLengthStack.length], 0, length);
	System.arraycopy(parser.intStack, 0, this.intStack = new int [length = parser.intStack.length], 0, length);
	System.arraycopy(parser.nestedMethod, 0, this.nestedMethod = new int [length = parser.nestedMethod.length], 0, length);
	System.arraycopy(parser.realBlockStack, 0, this.realBlockStack = new int [length = parser.realBlockStack.length], 0, length);
	System.arraycopy(parser.stateStackLengthStack, 0, this.stateStackLengthStack = new int [length = parser.stateStackLengthStack.length], 0, length);
	System.arraycopy(parser.variablesCounter, 0, this.variablesCounter = new int [length = parser.variablesCounter.length], 0, length);
	System.arraycopy(parser.stack, 0, this.stack = new int [length = parser.stack.length], 0, length);
	System.arraycopy(parser.stack, 0, this.stack = new int [length = parser.stack.length], 0, length);
	System.arraycopy(parser.stack, 0, this.stack = new int [length = parser.stack.length], 0, length);

	// Loose variables.
	
	this.listLength = parser.listLength;
	this.listTypeParameterLength = parser.listTypeParameterLength;
	this.dimensions = parser.dimensions;
	this.recoveredStaticInitializerStart = parser.recoveredStaticInitializerStart;

	// Parser.resetStacks is not clearing the modifiers, but AssistParser.resumeAfterRecovery is - why ? (the former doesn't)
	// this.modifiers = parser.modifiers;
	// this.modifiersSourceStart = parser.modifiersSourceStart;
}

public int automatonState() {
	return this.stack[this.stateStackTop];
}
public boolean automatonWillShift(int token, int lastAction) {
	int stackTop = this.stateStackTop;        // local copy of stack pointer
	int stackTopState = this.stack[stackTop]; // single cell non write through "alternate stack" - the automaton's stack pointer either stays fixed during this manoeuvre or monotonically decreases.
	int highWaterMark = stackTop;
	// A rotated version of the automaton - cf. parse()'s for(;;)
	if (lastAction <= NUM_RULES) { // in recovery mode, we could take a detour to here, with a pending reduce action.
		stackTop --;
		lastAction += ERROR_ACTION;
	}
	for (;;) {  
		if (lastAction > ERROR_ACTION) {  
			lastAction -= ERROR_ACTION;    /* reduce or shift-reduce on loop entry from above, reduce on loop back */
			do { /* reduce */
				stackTop -= rhs[lastAction] - 1;
				if (stackTop < highWaterMark) {
					stackTopState = this.stack[highWaterMark = stackTop];
				} // else stackTopState is upto date already.
				lastAction = ntAction(stackTopState, lhs[lastAction]);
			} while (lastAction <= NUM_RULES);
		}
		highWaterMark = ++stackTop;
		stackTopState = lastAction; // "push"
		lastAction = tAction(lastAction, token); // can be looked up from a precomputed cache.
		if (lastAction <= NUM_RULES) {
			stackTop --; 
		    lastAction += ERROR_ACTION;
			continue;
		}
		// Error => false, Shift, Shift/Reduce => true, Accept => impossible. 
		return lastAction != ERROR_ACTION;
	}
}

//GROOVY start: new method where parser resetting can be done
public void reset() {
	// standard Java parser, nothing to do
}
//GROOVY end
}