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/*******************************************************************************
 * Copyright (c) 2000, 2015 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
 *     Stephan Herrmann - Contribution for bug 186342 - [compiler][null] Using annotations for null checking
 *     Jesper S Moller  -. Contribution for bug 400830: [1.8][formatter] Code formatter for Java 8
 *******************************************************************************/
package org.eclipse.jdt.internal.compiler.parser;

import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.core.compiler.InvalidInputException;
import org.eclipse.jdt.internal.compiler.CompilationResult;
import org.eclipse.jdt.internal.compiler.ast.Statement;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants;
import org.eclipse.jdt.internal.compiler.util.Util;

/**
 * IMPORTANT NOTE: Internal Scanner implementation. It is mirrored in
 * org.eclipse.jdt.core.compiler public package where it is API.
 * The mirror implementation is using the backward compatible ITerminalSymbols constant
 * definitions (stable with 2.0), whereas the internal implementation uses TerminalTokens
 * which constant values reflect the latest parser generation state.
 */
public class Scanner implements TerminalTokens {

	//public int newIdentCount = 0;

	/* APIs ares
	 - getNextToken() which return the current type of the token
	   (this value is not memorized by the scanner)
	 - getCurrentTokenSource() which provides with the token "REAL" source
	   (aka all unicode have been transformed into a correct char)
	 - sourceStart gives the position into the stream
	 - currentPosition-1 gives the sourceEnd position into the stream
	*/
	public long sourceLevel;
	public long complianceLevel;

	// 1.4 feature
	public boolean useAssertAsAnIndentifier = false;
	//flag indicating if processed source contains occurrences of keyword assert
	public boolean containsAssertKeyword = false;

	// 1.5 feature
	public boolean useEnumAsAnIndentifier = false;

	public boolean recordLineSeparator = false;
	public char currentCharacter;
	public int startPosition;
	public int currentPosition;
	public int initialPosition, eofPosition;
	// after this position eof are generated instead of real token from the source

	public boolean skipComments = false;
	public boolean tokenizeComments = false;
	public boolean tokenizeWhiteSpace = false;

	//source should be viewed as a window (aka a part)
	//of a entire very large stream
	public char source[];

	//unicode support
	public char[] withoutUnicodeBuffer;
	public int withoutUnicodePtr; //when == 0 ==> no unicode in the current token
	public boolean unicodeAsBackSlash = false;

	public boolean scanningFloatLiteral = false;

	//support for /** comments
	public final static int COMMENT_ARRAYS_SIZE = 30;
	public int[] commentStops = new int[COMMENT_ARRAYS_SIZE];
	public int[] commentStarts = new int[COMMENT_ARRAYS_SIZE];
	public int[] commentTagStarts = new int[COMMENT_ARRAYS_SIZE];
	public int commentPtr = -1; // no comment test with commentPtr value -1
	protected int lastCommentLinePosition = -1;

	// task tag support
	public char[][] foundTaskTags = null;
	public char[][] foundTaskMessages;
	public char[][] foundTaskPriorities = null;
	public int[][] foundTaskPositions;
	public int foundTaskCount = 0;
	public char[][] taskTags = null;
	public char[][] taskPriorities = null;
	public boolean isTaskCaseSensitive = true;

	//diet parsing support - jump over some method body when requested
	public boolean diet = false;

	//support for the  poor-line-debuggers ....
	//remember the position of the cr/lf
	public int[] lineEnds = new int[250];
	public int linePtr = -1;
	public boolean wasAcr = false;

	public static final String END_OF_SOURCE = "End_Of_Source"; //$NON-NLS-1$

	public static final String INVALID_HEXA = "Invalid_Hexa_Literal"; //$NON-NLS-1$
	public static final String INVALID_OCTAL = "Invalid_Octal_Literal"; //$NON-NLS-1$
	public static final String INVALID_CHARACTER_CONSTANT = "Invalid_Character_Constant";  //$NON-NLS-1$
	public static final String INVALID_ESCAPE = "Invalid_Escape"; //$NON-NLS-1$
	public static final String INVALID_INPUT = "Invalid_Input"; //$NON-NLS-1$
	public static final String INVALID_UNICODE_ESCAPE = "Invalid_Unicode_Escape"; //$NON-NLS-1$
	public static final String INVALID_FLOAT = "Invalid_Float_Literal"; //$NON-NLS-1$
	public static final String INVALID_LOW_SURROGATE = "Invalid_Low_Surrogate"; //$NON-NLS-1$
	public static final String INVALID_HIGH_SURROGATE = "Invalid_High_Surrogate"; //$NON-NLS-1$

	public static final String NULL_SOURCE_STRING = "Null_Source_String"; //$NON-NLS-1$
	public static final String UNTERMINATED_STRING = "Unterminated_String"; //$NON-NLS-1$
	public static final String UNTERMINATED_COMMENT = "Unterminated_Comment"; //$NON-NLS-1$
	public static final String INVALID_CHAR_IN_STRING = "Invalid_Char_In_String"; //$NON-NLS-1$
	public static final String INVALID_DIGIT = "Invalid_Digit"; //$NON-NLS-1$
	private static final int[] EMPTY_LINE_ENDS = Util.EMPTY_INT_ARRAY;

	public static final String INVALID_BINARY = "Invalid_Binary_Literal"; //$NON-NLS-1$
	public static final String BINARY_LITERAL_NOT_BELOW_17 = "Binary_Literal_Not_Below_17"; //$NON-NLS-1$
	public static final String ILLEGAL_HEXA_LITERAL = "Illegal_Hexa_Literal"; //$NON-NLS-1$
	public static final String INVALID_UNDERSCORE = "Invalid_Underscore"; //$NON-NLS-1$
	public static final String UNDERSCORES_IN_LITERALS_NOT_BELOW_17 = "Underscores_In_Literals_Not_Below_17"; //$NON-NLS-1$`

	//----------------optimized identifier managment------------------
	static final char[] charArray_a = new char[] {'a'},
		charArray_b = new char[] {'b'},
		charArray_c = new char[] {'c'},
		charArray_d = new char[] {'d'},
		charArray_e = new char[] {'e'},
		charArray_f = new char[] {'f'},
		charArray_g = new char[] {'g'},
		charArray_h = new char[] {'h'},
		charArray_i = new char[] {'i'},
		charArray_j = new char[] {'j'},
		charArray_k = new char[] {'k'},
		charArray_l = new char[] {'l'},
		charArray_m = new char[] {'m'},
		charArray_n = new char[] {'n'},
		charArray_o = new char[] {'o'},
		charArray_p = new char[] {'p'},
		charArray_q = new char[] {'q'},
		charArray_r = new char[] {'r'},
		charArray_s = new char[] {'s'},
		charArray_t = new char[] {'t'},
		charArray_u = new char[] {'u'},
		charArray_v = new char[] {'v'},
		charArray_w = new char[] {'w'},
		charArray_x = new char[] {'x'},
		charArray_y = new char[] {'y'},
		charArray_z = new char[] {'z'};

	static final char[] initCharArray =
		new char[] {'\u0000', '\u0000', '\u0000', '\u0000', '\u0000', '\u0000'};
	static final int TableSize = 30, InternalTableSize = 6; //30*6 =210 entries

	public static final int OptimizedLength = 7;
	public /*static*/ final char[][][][] charArray_length =
		new char[OptimizedLength][TableSize][InternalTableSize][];
	// support for detecting non-externalized string literals
	public static final char[] TAG_PREFIX= "//$NON-NLS-".toCharArray(); //$NON-NLS-1$
	public static final int TAG_PREFIX_LENGTH= TAG_PREFIX.length;
	public static final char TAG_POSTFIX= '$';
	public static final int TAG_POSTFIX_LENGTH= 1;

	// support for complaining on uninterned type comparisons.
	public static final char[] IDENTITY_COMPARISON_TAG = "//$IDENTITY-COMPARISON$".toCharArray(); //$NON-NLS-1$
	public boolean [] validIdentityComparisonLines;
	public boolean checkUninternedIdentityComparison;

	private NLSTag[] nlsTags = null;
	protected int nlsTagsPtr;
	public boolean checkNonExternalizedStringLiterals;

	protected int lastPosition;

	// generic support
	public boolean returnOnlyGreater = false;

	/*static*/ {
		for (int i = 0; i < 6; i++) {
			for (int j = 0; j < TableSize; j++) {
				for (int k = 0; k < InternalTableSize; k++) {
					this.charArray_length[i][j][k] = initCharArray;
				}
			}
		}
	}
	/*static*/ int newEntry2 = 0,
		newEntry3 = 0,
		newEntry4 = 0,
		newEntry5 = 0,
		newEntry6 = 0;
	public boolean insideRecovery = false;
	int lookBack[] = new int[2]; // fall back to spring forward.
	int nextToken = TokenNameNotAToken; // allows for one token push back, only the most recent token can be reliably ungotten.
	private VanguardScanner vanguardScanner;
	private VanguardParser vanguardParser;
	ConflictedParser activeParser = null;
	private boolean consumingEllipsisAnnotations = false;
	
	public static final int RoundBracket = 0;
	public static final int SquareBracket = 1;
	public static final int CurlyBracket = 2;
	public static final int BracketKinds = 3;

	// extended unicode support
	public static final int LOW_SURROGATE_MIN_VALUE = 0xDC00;
	public static final int HIGH_SURROGATE_MIN_VALUE = 0xD800;
	public static final int HIGH_SURROGATE_MAX_VALUE = 0xDBFF;
	public static final int LOW_SURROGATE_MAX_VALUE = 0xDFFF;

public Scanner() {
	this(false /*comment*/, false /*whitespace*/, false /*nls*/, ClassFileConstants.JDK1_3 /*sourceLevel*/, null/*taskTag*/, null/*taskPriorities*/, true /*taskCaseSensitive*/);
}

public Scanner(
		boolean tokenizeComments,
		boolean tokenizeWhiteSpace,
		boolean checkNonExternalizedStringLiterals,
		long sourceLevel,
		long complianceLevel,
		char[][] taskTags,
		char[][] taskPriorities,
		boolean isTaskCaseSensitive) {

	this.eofPosition = Integer.MAX_VALUE;
	this.tokenizeComments = tokenizeComments;
	this.tokenizeWhiteSpace = tokenizeWhiteSpace;
	this.sourceLevel = sourceLevel;
	this.lookBack[0] = this.lookBack[1] = this.nextToken = TokenNameNotAToken;
	this.consumingEllipsisAnnotations = false;
	this.complianceLevel = complianceLevel;
	this.checkNonExternalizedStringLiterals = checkNonExternalizedStringLiterals;
	if (taskTags != null) {
		int taskTagsLength = taskTags.length;
		int length = taskTagsLength;
		if (taskPriorities != null) {
			int taskPrioritiesLength = taskPriorities.length;
			if (taskPrioritiesLength != taskTagsLength) {
				if (taskPrioritiesLength > taskTagsLength) {
					System.arraycopy(taskPriorities, 0, (taskPriorities = new char[taskTagsLength][]), 0, taskTagsLength);
				} else {
					System.arraycopy(taskTags, 0, (taskTags = new char[taskPrioritiesLength][]), 0, taskPrioritiesLength);
					length = taskPrioritiesLength;
				}
			}
			int[] initialIndexes = new int[length];
			for (int i = 0; i < length; i++) {
				initialIndexes[i] = i;
			}
			Util.reverseQuickSort(taskTags, 0, length - 1, initialIndexes);
			char[][] temp = new char[length][];
			for (int i = 0; i < length; i++) {
				temp[i] = taskPriorities[initialIndexes[i]];
			}
			this.taskPriorities = temp;
		} else {
			Util.reverseQuickSort(taskTags, 0, length - 1);
		}
		this.taskTags = taskTags;
		this.isTaskCaseSensitive = isTaskCaseSensitive;
	}
}

public Scanner(
		boolean tokenizeComments,
		boolean tokenizeWhiteSpace,
		boolean checkNonExternalizedStringLiterals,
		long sourceLevel,
		char[][] taskTags,
		char[][] taskPriorities,
		boolean isTaskCaseSensitive) {

	this(
		tokenizeComments,
		tokenizeWhiteSpace,
		checkNonExternalizedStringLiterals,
		sourceLevel,
		sourceLevel,
		taskTags,
		taskPriorities,
		isTaskCaseSensitive);
}

public final boolean atEnd() {
	// This code is not relevant if source is
	// Only a part of the real stream input

	return this.eofPosition <= this.currentPosition;
}

// chech presence of task: tags
// TODO (frederic) see if we need to take unicode characters into account...
public void checkTaskTag(int commentStart, int commentEnd) throws InvalidInputException {
	char[] src = this.source;

	// only look for newer task: tags
	if (this.foundTaskCount > 0
		&& this.foundTaskPositions[this.foundTaskCount - 1][0] >= commentStart) {
		return;
	}
	int foundTaskIndex = this.foundTaskCount;
	char previous = src[commentStart+1]; // should be '*' or '/'
	for (
		int i = commentStart + 2; i < commentEnd && i < this.eofPosition; i++) {
		char[] tag = null;
		char[] priority = null;
		// check for tag occurrence only if not ambiguous with javadoc tag
		if (previous != '@') {
			nextTag : for (int itag = 0; itag < this.taskTags.length; itag++) {
				tag = this.taskTags[itag];
				int tagLength = tag.length;
				if (tagLength == 0) continue nextTag;

				// ensure tag is not leaded with letter if tag starts with a letter
				if (ScannerHelper.isJavaIdentifierStart(this.complianceLevel, tag[0])) {
					if (ScannerHelper.isJavaIdentifierPart(this.complianceLevel, previous)) {
						continue nextTag;
					}
				}

				for (int t = 0; t < tagLength; t++) {
					char sc, tc;
					int x = i+t;
					if (x >= this.eofPosition || x >= commentEnd) continue nextTag;
					// case sensitive check
					if ((sc = src[i + t]) != (tc = tag[t])) {
						// case insensitive check
						if (this.isTaskCaseSensitive || (ScannerHelper.toLowerCase(sc) != ScannerHelper.toLowerCase(tc))) {
							continue nextTag;
						}
					}
				}
				// ensure tag is not followed with letter if tag finishes with a letter
				if (i+tagLength < commentEnd && ScannerHelper.isJavaIdentifierPart(this.complianceLevel, src[i+tagLength-1])) {
					if (ScannerHelper.isJavaIdentifierPart(this.complianceLevel, src[i + tagLength]))
						continue nextTag;
				}
				if (this.foundTaskTags == null) {
					this.foundTaskTags = new char[5][];
					this.foundTaskMessages = new char[5][];
					this.foundTaskPriorities = new char[5][];
					this.foundTaskPositions = new int[5][];
				} else if (this.foundTaskCount == this.foundTaskTags.length) {
					System.arraycopy(this.foundTaskTags, 0, this.foundTaskTags = new char[this.foundTaskCount * 2][], 0, this.foundTaskCount);
					System.arraycopy(this.foundTaskMessages, 0, this.foundTaskMessages = new char[this.foundTaskCount * 2][], 0, this.foundTaskCount);
					System.arraycopy(this.foundTaskPriorities, 0, this.foundTaskPriorities = new char[this.foundTaskCount * 2][], 0, this.foundTaskCount);
					System.arraycopy(this.foundTaskPositions, 0, this.foundTaskPositions = new int[this.foundTaskCount * 2][], 0, this.foundTaskCount);
				}

				priority = this.taskPriorities != null && itag < this.taskPriorities.length
							? this.taskPriorities[itag]
							: null;

				this.foundTaskTags[this.foundTaskCount] = tag;
				this.foundTaskPriorities[this.foundTaskCount] = priority;
				this.foundTaskPositions[this.foundTaskCount] = new int[] { i, i + tagLength - 1 };
				this.foundTaskMessages[this.foundTaskCount] = CharOperation.NO_CHAR;
				this.foundTaskCount++;
				i += tagLength - 1; // will be incremented when looping
				break nextTag;
			}
		}
		previous = src[i];
	}
	boolean containsEmptyTask = false;
	for (int i = foundTaskIndex; i < this.foundTaskCount; i++) {
		// retrieve message start and end positions
		int msgStart = this.foundTaskPositions[i][0] + this.foundTaskTags[i].length;
		int max_value = i + 1 < this.foundTaskCount
				? this.foundTaskPositions[i + 1][0] - 1
				: commentEnd - 1;
		// at most beginning of next task
		if (max_value < msgStart) {
			max_value = msgStart; // would only occur if tag is before EOF.
		}
		int end = -1;
		char c;
		for (int j = msgStart; j < max_value; j++) {
			if ((c = src[j]) == '\n' || c == '\r') {
				end = j - 1;
				break;
			}
		}
		if (end == -1) {
			for (int j = max_value; j > msgStart; j--) {
				if ((c = src[j]) == '*') {
					end = j - 1;
					break;
				}
			}
			if (end == -1)
				end = max_value;
		}
		if (msgStart == end) {
			// if the description is empty, we might want to see if two tags are not sharing the same message
			// see https://bugs.eclipse.org/bugs/show_bug.cgi?id=110797
			containsEmptyTask = true;
			continue;
		}
		// trim the message
		// we don't trim the beginning of the message to be able to show it after the task tag
		while (CharOperation.isWhitespace(src[end]) && msgStart <= end)
			end--;
		// update the end position of the task
		this.foundTaskPositions[i][1] = end;
		// get the message source
		final int messageLength = end - msgStart + 1;
		char[] message = new char[messageLength];
		System.arraycopy(src, msgStart, message, 0, messageLength);
		this.foundTaskMessages[i] = message;
	}
	if (containsEmptyTask) {
		for (int i = foundTaskIndex, max = this.foundTaskCount; i < max; i++) {
			if (this.foundTaskMessages[i].length == 0) {
				loop: for (int j = i + 1; j < max; j++) {
					if (this.foundTaskMessages[j].length != 0) {
						this.foundTaskMessages[i] = this.foundTaskMessages[j];
						this.foundTaskPositions[i][1] = this.foundTaskPositions[j][1];
						break loop;
					}
				}
			}
		}
	}
}

public char[] getCurrentIdentifierSource() {
	//return the token REAL source (aka unicodes are precomputed)
	if (this.withoutUnicodePtr != 0) {
		//0 is used as a fast test flag so the real first char is in position 1
		char[] result = new char[this.withoutUnicodePtr];
		System.arraycopy(
			this.withoutUnicodeBuffer,
			1,
			result,
			0,
			this.withoutUnicodePtr);
		return result;
	}
	int length = this.currentPosition - this.startPosition;
	if (length == this.eofPosition) return this.source;
	switch (length) { // see OptimizedLength
		case 1 :
			return optimizedCurrentTokenSource1();
		case 2 :
			return optimizedCurrentTokenSource2();
		case 3 :
			return optimizedCurrentTokenSource3();
		case 4 :
			return optimizedCurrentTokenSource4();
		case 5 :
			return optimizedCurrentTokenSource5();
		case 6 :
			return optimizedCurrentTokenSource6();
	}
	char[] result = new char[length];
	System.arraycopy(this.source, this.startPosition, result, 0, length);
	return result;
}
public int getCurrentTokenEndPosition(){
	return this.currentPosition - 1;
}
public char[] getCurrentTokenSource() {
	// Return the token REAL source (aka unicodes are precomputed)

	char[] result;
	if (this.withoutUnicodePtr != 0)
		// 0 is used as a fast test flag so the real first char is in position 1
		System.arraycopy(
			this.withoutUnicodeBuffer,
			1,
			result = new char[this.withoutUnicodePtr],
			0,
			this.withoutUnicodePtr);
	else {
		int length;
		System.arraycopy(
			this.source,
			this.startPosition,
			result = new char[length = this.currentPosition - this.startPosition],
			0,
			length);
	}
	return result;
}
public final String getCurrentTokenString() {
	// Return current token as a string

	if (this.withoutUnicodePtr != 0) {
		// 0 is used as a fast test flag so the real first char is in position 1
		return new String(
			this.withoutUnicodeBuffer,
			1,
			this.withoutUnicodePtr);
	}
	return new String(
		this.source,
		this.startPosition,
		this.currentPosition - this.startPosition);
}
public char[] getCurrentTokenSourceString() {
	//return the token REAL source (aka unicodes are precomputed).
	//REMOVE the two " that are at the beginning and the end.

	char[] result;
	if (this.withoutUnicodePtr != 0)
		//0 is used as a fast test flag so the real first char is in position 1
		System.arraycopy(this.withoutUnicodeBuffer, 2,
		//2 is 1 (real start) + 1 (to jump over the ")
		result = new char[this.withoutUnicodePtr - 2], 0, this.withoutUnicodePtr - 2);
	else {
		int length;
		System.arraycopy(
			this.source,
			this.startPosition + 1,
			result = new char[length = this.currentPosition - this.startPosition - 2],
			0,
			length);
	}
	return result;
}
public final String getCurrentStringLiteral() {
	//return the token REAL source (aka unicodes are precomputed).
	//REMOVE the two " that are at the beginning and the end.

	if (this.withoutUnicodePtr != 0)
		//0 is used as a fast test flag so the real first char is in position 1
		//2 is 1 (real start) + 1 (to jump over the ")
		return new String(this.withoutUnicodeBuffer, 2, this.withoutUnicodePtr - 2);
	else {
		return new String(this.source, this.startPosition + 1, this.currentPosition - this.startPosition - 2);
	}
}
public final char[] getRawTokenSource() {
	int length = this.currentPosition - this.startPosition;
	char[] tokenSource = new char[length];
	System.arraycopy(this.source, this.startPosition, tokenSource, 0, length);
	return tokenSource;
}

public final char[] getRawTokenSourceEnd() {
	int length = this.eofPosition - this.currentPosition - 1;
	char[] sourceEnd = new char[length];
	System.arraycopy(this.source, this.currentPosition, sourceEnd, 0, length);
	return sourceEnd;
}

public int getCurrentTokenStartPosition(){
	return this.startPosition;
}
/*
 * Search the source position corresponding to the end of a given line number
 *
 * Line numbers are 1-based, and relative to the scanner initialPosition.
 * Character positions are 0-based.
 *
 * In case the given line number is inconsistent, answers -1.
 */
public final int getLineEnd(int lineNumber) {

	if (this.lineEnds == null || this.linePtr == -1)
		return -1;
	if (lineNumber > this.lineEnds.length+1)
		return -1;
	if (lineNumber <= 0)
		return -1;
	if (lineNumber == this.lineEnds.length + 1)
		return this.eofPosition;
	return this.lineEnds[lineNumber-1]; // next line start one character behind the lineEnd of the previous line
}

public final int[] getLineEnds() {
	//return a bounded copy of this.lineEnds
	if (this.linePtr == -1) {
		return EMPTY_LINE_ENDS;
	}
	int[] copy;
	System.arraycopy(this.lineEnds, 0, copy = new int[this.linePtr + 1], 0, this.linePtr + 1);
	return copy;
}

/**
 * Search the source position corresponding to the beginning of a given line number
 *
 * Line numbers are 1-based, and relative to the scanner initialPosition.
 * Character positions are 0-based.
 *
 * e.g.	getLineStart(1) --> 0	indicates that the first line starts at character 0.
 *
 * In case the given line number is inconsistent, answers -1.
 *
 * @param lineNumber int
 * @return int
 */
public final int getLineStart(int lineNumber) {

	if (this.lineEnds == null || this.linePtr == -1)
		return -1;
	if (lineNumber > this.lineEnds.length + 1)
		return -1;
	if (lineNumber <= 0)
		return -1;

	if (lineNumber == 1)
		return this.initialPosition;
	return this.lineEnds[lineNumber-2]+1; // next line start one character behind the lineEnd of the previous line
}
public final int getNextChar() {
	try {
		if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
			&& (this.source[this.currentPosition] == 'u')) {
				getNextUnicodeChar();
		} else {
			this.unicodeAsBackSlash = false;
			if (this.withoutUnicodePtr != 0) {
			    unicodeStore();
			}
		}
		return this.currentCharacter;
	} catch (IndexOutOfBoundsException e) {
		return -1;
	} catch(InvalidInputException e) {
		return -1;
	}
}
public final int getNextCharWithBoundChecks() {
	if (this.currentPosition >= this.eofPosition) {
		return -1;
	}
	this.currentCharacter = this.source[this.currentPosition++];
	if (this.currentPosition >= this.eofPosition) {
		this.unicodeAsBackSlash = false;
		if (this.withoutUnicodePtr != 0) {
		    unicodeStore();
		}
		return this.currentCharacter;
	}
	if (this.currentCharacter == '\\' && this.source[this.currentPosition] == 'u') {
		try {
			getNextUnicodeChar();
		} catch (InvalidInputException e) {
			return -1;
		}
	} else {
		this.unicodeAsBackSlash = false;
		if (this.withoutUnicodePtr != 0) {
		    unicodeStore();
		}
	}
	return this.currentCharacter;
}
public final boolean getNextChar(char testedChar) {
	//BOOLEAN
	//handle the case of unicode.
	//when a unicode appears then we must use a buffer that holds char internal values
	//At the end of this method currentCharacter holds the new visited char
	//and currentPosition points right next after it
	//Both previous lines are true if the currentCharacter is == to the testedChar
	//On false, no side effect has occured.

	//ALL getNextChar.... ARE OPTIMIZED COPIES

	if (this.currentPosition >= this.eofPosition) { // handle the obvious case upfront
		this.unicodeAsBackSlash = false;
		return false;
	}

	int temp = this.currentPosition;
	try {
		if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
			&& (this.source[this.currentPosition] == 'u')) {
			getNextUnicodeChar();
			if (this.currentCharacter != testedChar) {
				this.currentPosition = temp;
				this.withoutUnicodePtr--;
				return false;
			}
			return true;
		} //-------------end unicode traitement--------------
		else {
			if (this.currentCharacter != testedChar) {
				this.currentPosition = temp;
				return false;
			}
			this.unicodeAsBackSlash = false;
			if (this.withoutUnicodePtr != 0)
				unicodeStore();
			return true;
		}
	} catch (IndexOutOfBoundsException e) {
		this.unicodeAsBackSlash = false;
		this.currentPosition = temp;
		return false;
	} catch(InvalidInputException e) {
		this.unicodeAsBackSlash = false;
		this.currentPosition = temp;
		return false;
	}
}
public final int getNextChar(char testedChar1, char testedChar2) {
	//INT 0 : testChar1 \\\\///\\\\ 1 : testedChar2 \\\\///\\\\ -1 : others
	//test can be done with (x==0) for the first and (x>0) for the second
	//handle the case of unicode.
	//when a unicode appears then we must use a buffer that holds char internal values
	//At the end of this method currentCharacter holds the new visited char
	//and currentPosition points right next after it
	//Both previous lines are true if the currentCharacter is == to the testedChar1/2
	//On false, no side effect has occured.

	//ALL getNextChar.... ARE OPTIMIZED COPIES
	if (this.currentPosition >= this.eofPosition) // handle the obvious case upfront
		return -1;

	int temp = this.currentPosition;
	try {
		int result;
		if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
			&& (this.source[this.currentPosition] == 'u')) {
			getNextUnicodeChar();
			if (this.currentCharacter == testedChar1) {
				result = 0;
			} else if (this.currentCharacter == testedChar2) {
				result = 1;
			} else {
				this.currentPosition = temp;
				this.withoutUnicodePtr--;
				result = -1;
			}
			return result;
		} else {
			if (this.currentCharacter == testedChar1) {
				result = 0;
			} else if (this.currentCharacter == testedChar2) {
				result = 1;
			} else {
				this.currentPosition = temp;
				return -1;
			}

			if (this.withoutUnicodePtr != 0)
				unicodeStore();
			return result;
		}
	} catch (IndexOutOfBoundsException e) {
		this.currentPosition = temp;
		return -1;
	} catch(InvalidInputException e) {
		this.currentPosition = temp;
		return -1;
	}
}
/*
 * This method consumes digits as well as underscores if underscores are located between digits
 * @throws InvalidInputException if underscores are not located between digits or if underscores are used in source < 1.7 
 */
private final void consumeDigits(int radix) throws InvalidInputException {
	consumeDigits(radix, false);
}
/*
 * This method consumes digits as well as underscores if underscores are located between digits
 * @throws InvalidInputException if underscores are not located between digits or if underscores are used in source < 1.7 
 */
private final void consumeDigits(int radix, boolean expectingDigitFirst) throws InvalidInputException {
	final int USING_UNDERSCORE = 1;
	final int INVALID_POSITION = 2;
	switch(consumeDigits0(radix, USING_UNDERSCORE, INVALID_POSITION, expectingDigitFirst)) {
		case USING_UNDERSCORE :
			if (this.sourceLevel < ClassFileConstants.JDK1_7) {
				throw new InvalidInputException(UNDERSCORES_IN_LITERALS_NOT_BELOW_17);
			}
			break;
		case INVALID_POSITION :
			if (this.sourceLevel < ClassFileConstants.JDK1_7) {
				throw new InvalidInputException(UNDERSCORES_IN_LITERALS_NOT_BELOW_17);
			}
			throw new InvalidInputException(INVALID_UNDERSCORE);
	}
}
private final int consumeDigits0(int radix, int usingUnderscore, int invalidPosition, boolean expectingDigitFirst) throws InvalidInputException {
	int kind = 0;
	if (getNextChar('_')) {
		if (expectingDigitFirst) {
			return invalidPosition;
		}
		kind = usingUnderscore;
		while (getNextChar('_')) {/*empty */}
	}
	if (getNextCharAsDigit(radix)) {
		// continue to read digits or underscore
		while (getNextCharAsDigit(radix)) {/*empty */}
		int kind2 = consumeDigits0(radix, usingUnderscore, invalidPosition, false);
		if (kind2 == 0) {
			return kind;
		}
		return kind2;
	}
	if (kind == usingUnderscore) return invalidPosition;
	return kind;
}
public final boolean getNextCharAsDigit() throws InvalidInputException {
	//BOOLEAN
	//handle the case of unicode.
	//when a unicode appears then we must use a buffer that holds char internal values
	//At the end of this method currentCharacter holds the new visited char
	//and currentPosition points right next after it
	//Both previous lines are true if the currentCharacter is a digit
	//On false, no side effect has occured.

	//ALL getNextChar.... ARE OPTIMIZED COPIES
	if (this.currentPosition >= this.eofPosition) // handle the obvious case upfront
		return false;

	int temp = this.currentPosition;
	try {
		if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
			&& (this.source[this.currentPosition] == 'u')) {
			getNextUnicodeChar();
			if (!ScannerHelper.isDigit(this.currentCharacter)) {
				this.currentPosition = temp;
				this.withoutUnicodePtr--;
				return false;
			}
			return true;
		} else {
			if (!ScannerHelper.isDigit(this.currentCharacter)) {
				this.currentPosition = temp;
				return false;
			}
			if (this.withoutUnicodePtr != 0)
				unicodeStore();
			return true;
		}
	} catch (IndexOutOfBoundsException e) {
		this.currentPosition = temp;
		return false;
	} catch(InvalidInputException e) {
		this.currentPosition = temp;
		return false;
	}
}
public final boolean getNextCharAsDigit(int radix) {
	//BOOLEAN
	//handle the case of unicode.
	//when a unicode appears then we must use a buffer that holds char internal values
	//At the end of this method currentCharacter holds the new visited char
	//and currentPosition points right next after it
	//Both previous lines are true if the currentCharacter is a digit base on radix
	//On false, no side effect has occured.

	//ALL getNextChar.... ARE OPTIMIZED COPIES
	if (this.currentPosition >= this.eofPosition) // handle the obvious case upfront
		return false;

	int temp = this.currentPosition;
	try {
		if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
			&& (this.source[this.currentPosition] == 'u')) {
			getNextUnicodeChar();
			if (ScannerHelper.digit(this.currentCharacter, radix) == -1) {
				this.currentPosition = temp;
				this.withoutUnicodePtr--;
				return false;
			}
			return true;
		} else {
			if (ScannerHelper.digit(this.currentCharacter, radix) == -1) {
				this.currentPosition = temp;
				return false;
			}
			if (this.withoutUnicodePtr != 0)
				unicodeStore();
			return true;
		}
	} catch (IndexOutOfBoundsException e) {
		this.currentPosition = temp;
		return false;
	} catch(InvalidInputException e) {
		this.currentPosition = temp;
		return false;
	}
}
public boolean getNextCharAsJavaIdentifierPartWithBoundCheck() {
	//BOOLEAN
	//handle the case of unicode.
	//when a unicode appears then we must use a buffer that holds char internal values
	//At the end of this method currentCharacter holds the new visited char
	//and currentPosition points right next after it
	//Both previous lines are true if the currentCharacter is a JavaIdentifierPart
	//On false, no side effect has occured.

	//ALL getNextChar.... ARE OPTIMIZED COPIES
	int pos = this.currentPosition;
	if (pos >= this.eofPosition) // handle the obvious case upfront
		return false;

	int temp2 = this.withoutUnicodePtr;
	try {
		boolean unicode = false;
		this.currentCharacter = this.source[this.currentPosition++];
		if (this.currentPosition < this.eofPosition) {
			if (this.currentCharacter == '\\' && this.source[this.currentPosition] == 'u') {
				getNextUnicodeChar();
				unicode = true;
			}
		}
		char c = this.currentCharacter;
		boolean isJavaIdentifierPart = false;
		if (c >= HIGH_SURROGATE_MIN_VALUE && c <= HIGH_SURROGATE_MAX_VALUE) {
			if (this.complianceLevel < ClassFileConstants.JDK1_5) {
				this.currentPosition = pos;
				this.withoutUnicodePtr = temp2;
				return false;
			}
			// Unicode 4 detection
			char low = (char) getNextCharWithBoundChecks();
			if (low < LOW_SURROGATE_MIN_VALUE || low > LOW_SURROGATE_MAX_VALUE) {
				// illegal low surrogate
				this.currentPosition = pos;
				this.withoutUnicodePtr = temp2;
				return false;
			}
			isJavaIdentifierPart = ScannerHelper.isJavaIdentifierPart(this.complianceLevel, c, low);
		}
		else if (c >= LOW_SURROGATE_MIN_VALUE && c <= LOW_SURROGATE_MAX_VALUE) {
			this.currentPosition = pos;
			this.withoutUnicodePtr = temp2;
			return false;
		} else {
			isJavaIdentifierPart = ScannerHelper.isJavaIdentifierPart(this.complianceLevel, c);
		}
		if (unicode) {
			if (!isJavaIdentifierPart) {
				this.currentPosition = pos;
				this.withoutUnicodePtr = temp2;
				return false;
			}
			return true;
		} else {
			if (!isJavaIdentifierPart) {
				this.currentPosition = pos;
				return false;
			}

			if (this.withoutUnicodePtr != 0)
			    unicodeStore();
			return true;
		}
	} catch(InvalidInputException e) {
		this.currentPosition = pos;
		this.withoutUnicodePtr = temp2;
		return false;
	}
}
public boolean getNextCharAsJavaIdentifierPart() {
	//BOOLEAN
	//handle the case of unicode.
	//when a unicode appears then we must use a buffer that holds char internal values
	//At the end of this method currentCharacter holds the new visited char
	//and currentPosition points right next after it
	//Both previous lines are true if the currentCharacter is a JavaIdentifierPart
	//On false, no side effect has occured.

	//ALL getNextChar.... ARE OPTIMIZED COPIES
	int pos;
	if ((pos = this.currentPosition) >= this.eofPosition) // handle the obvious case upfront
		return false;

	int temp2 = this.withoutUnicodePtr;
	try {
		boolean unicode = false;
		if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
			&& (this.source[this.currentPosition] == 'u')) {
			getNextUnicodeChar();
			unicode = true;
		}
		char c = this.currentCharacter;
		boolean isJavaIdentifierPart = false;
		if (c >= HIGH_SURROGATE_MIN_VALUE && c <= HIGH_SURROGATE_MAX_VALUE) {
			if (this.complianceLevel < ClassFileConstants.JDK1_5) {
				this.currentPosition = pos;
				this.withoutUnicodePtr = temp2;
				return false;
			}
			// Unicode 4 detection
			char low = (char) getNextChar();
			if (low < LOW_SURROGATE_MIN_VALUE || low > LOW_SURROGATE_MAX_VALUE) {
				// illegal low surrogate
				this.currentPosition = pos;
				this.withoutUnicodePtr = temp2;
				return false;
			}
			isJavaIdentifierPart = ScannerHelper.isJavaIdentifierPart(this.complianceLevel, c, low);
		}
		else if (c >= LOW_SURROGATE_MIN_VALUE && c <= LOW_SURROGATE_MAX_VALUE) {
			this.currentPosition = pos;
			this.withoutUnicodePtr = temp2;
			return false;
		} else {
			isJavaIdentifierPart = ScannerHelper.isJavaIdentifierPart(this.complianceLevel, c);
		}
		if (unicode) {
			if (!isJavaIdentifierPart) {
				this.currentPosition = pos;
				this.withoutUnicodePtr = temp2;
				return false;
			}
			return true;
		} else {
			if (!isJavaIdentifierPart) {
				this.currentPosition = pos;
				return false;
			}

			if (this.withoutUnicodePtr != 0)
			    unicodeStore();
			return true;
		}
	} catch (IndexOutOfBoundsException e) {
		this.currentPosition = pos;
		this.withoutUnicodePtr = temp2;
		return false;
	} catch(InvalidInputException e) {
		this.currentPosition = pos;
		this.withoutUnicodePtr = temp2;
		return false;
	}
}
/*
 * External API in JavaConventions.
 * This is used to optimize the case where the scanner is used to scan a single identifier.
 * In this case, the AIOOBE is slower to handle than a bound check
 */
public int scanIdentifier() throws InvalidInputException {
	int whiteStart = 0;
	while (true) { //loop for jumping over comments
		this.withoutUnicodePtr = 0;
		//start with a new token (even comment written with unicode )
		// ---------Consume white space and handles startPosition---------
		whiteStart = this.currentPosition;
		boolean isWhiteSpace, hasWhiteSpaces = false;
		int offset;
		int unicodePtr;
		boolean checkIfUnicode = false;
		do {
			unicodePtr = this.withoutUnicodePtr;
			offset = this.currentPosition;
			this.startPosition = this.currentPosition;
			if (this.currentPosition < this.eofPosition) {
				this.currentCharacter = this.source[this.currentPosition++];
				checkIfUnicode = this.currentPosition < this.eofPosition
						&& this.currentCharacter == '\\'
						&& this.source[this.currentPosition] == 'u';
			} else if (this.tokenizeWhiteSpace && (whiteStart != this.currentPosition - 1)) {
				// reposition scanner in case we are interested by spaces as tokens
				this.currentPosition--;
				this.startPosition = whiteStart;
				return TokenNameWHITESPACE;
			} else {
				return TokenNameEOF;
			}
			if (checkIfUnicode) {
				isWhiteSpace = jumpOverUnicodeWhiteSpace();
				offset = this.currentPosition - offset;
			} else {
				offset = this.currentPosition - offset;
				// inline version of:
				//isWhiteSpace =
				//	(this.currentCharacter == ' ') || ScannerHelper.isWhitespace(this.currentCharacter);
				switch (this.currentCharacter) {
					case 10 : /* \ u000a: LINE FEED               */
					case 12 : /* \ u000c: FORM FEED               */
					case 13 : /* \ u000d: CARRIAGE RETURN         */
					case 32 : /* \ u0020: SPACE                   */
					case 9 : /* \ u0009: HORIZONTAL TABULATION   */
						isWhiteSpace = true;
						break;
					default :
						isWhiteSpace = false;
				}
			}
			if (isWhiteSpace) {
				hasWhiteSpaces = true;
			}
		} while (isWhiteSpace);
		if (hasWhiteSpaces) {
			if (this.tokenizeWhiteSpace) {
				// reposition scanner in case we are interested by spaces as tokens
				this.currentPosition-=offset;
				this.startPosition = whiteStart;
				if (checkIfUnicode) {
					this.withoutUnicodePtr = unicodePtr;
				}
				return TokenNameWHITESPACE;
			} else if (checkIfUnicode) {
				this.withoutUnicodePtr = 0;
				unicodeStore();
			} else {
				this.withoutUnicodePtr = 0;
			}
		}
		char c = this.currentCharacter;
		if (c < ScannerHelper.MAX_OBVIOUS) {
			if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] & ScannerHelper.C_IDENT_START) != 0) {
				return scanIdentifierOrKeywordWithBoundCheck();
			}
			return TokenNameERROR;
		}
		boolean isJavaIdStart;
		if (c >= HIGH_SURROGATE_MIN_VALUE && c <= HIGH_SURROGATE_MAX_VALUE) {
			if (this.complianceLevel < ClassFileConstants.JDK1_5) {
				throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
			}
			// Unicode 4 detection
			char low = (char) getNextCharWithBoundChecks();
			if (low < LOW_SURROGATE_MIN_VALUE || low > LOW_SURROGATE_MAX_VALUE) {
				// illegal low surrogate
				throw new InvalidInputException(INVALID_LOW_SURROGATE);
			}
			isJavaIdStart = ScannerHelper.isJavaIdentifierStart(this.complianceLevel, c, low);
		} else if (c >= LOW_SURROGATE_MIN_VALUE && c <= LOW_SURROGATE_MAX_VALUE) {
			if (this.complianceLevel < ClassFileConstants.JDK1_5) {
				throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
			}
			throw new InvalidInputException(INVALID_HIGH_SURROGATE);
		} else {
			// optimized case already checked
			isJavaIdStart = ScannerHelper.isJavaIdentifierStart(this.complianceLevel, c);
		}
		if (isJavaIdStart)
			return scanIdentifierOrKeywordWithBoundCheck();
		return TokenNameERROR;
	}
}
public void ungetToken(int unambiguousToken) {
	if (this.nextToken != TokenNameNotAToken) {
		throw new ArrayIndexOutOfBoundsException("Single cell array overflow"); //$NON-NLS-1$
	}
	this.nextToken = unambiguousToken;
}

public int getNextToken() throws InvalidInputException {
	
	int token;
	if (this.nextToken != TokenNameNotAToken) {
		token = this.nextToken;
		this.nextToken = TokenNameNotAToken;
		return token; // presumed to be unambiguous.
	}
	token = getNextToken0();
	if (this.activeParser == null) { // anybody interested in the grammatical structure of the program should have registered.
		return token;
	}
	if (token == TokenNameLPAREN || token == TokenNameLESS || token == TokenNameAT) {
		token = disambiguatedToken(token);
	} else if (token == TokenNameELLIPSIS) {
		this.consumingEllipsisAnnotations = false;
	}
	this.lookBack[0] = this.lookBack[1];
	this.lookBack[1] = token;
	return token;
}
protected int getNextToken0() throws InvalidInputException {
	this.wasAcr = false;
	if (this.diet) {
		jumpOverMethodBody();
		this.diet = false;
		return this.currentPosition > this.eofPosition ? TokenNameEOF : TokenNameRBRACE;
	}
	int whiteStart = 0;
	try {
		while (true) { //loop for jumping over comments
			this.withoutUnicodePtr = 0;
			//start with a new token (even comment written with unicode )

			// ---------Consume white space and handles startPosition---------
			whiteStart = this.currentPosition;
			boolean isWhiteSpace, hasWhiteSpaces = false;
			int offset;
			int unicodePtr;
			boolean checkIfUnicode = false;
			do {
				unicodePtr = this.withoutUnicodePtr;
				offset = this.currentPosition;
				this.startPosition = this.currentPosition;
				try {
					checkIfUnicode = ((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
						&& (this.source[this.currentPosition] == 'u');
				} catch(IndexOutOfBoundsException e) {
					if (this.tokenizeWhiteSpace && (whiteStart != this.currentPosition - 1)) {
						// reposition scanner in case we are interested by spaces as tokens
						this.currentPosition--;
						this.startPosition = whiteStart;
						return TokenNameWHITESPACE;
					}
					if (this.currentPosition > this.eofPosition)
						return TokenNameEOF;
				}
				if (this.currentPosition > this.eofPosition) {
					if (this.tokenizeWhiteSpace && (whiteStart != this.currentPosition - 1)) {
						this.currentPosition--;
						// reposition scanner in case we are interested by spaces as tokens
						this.startPosition = whiteStart;
						return TokenNameWHITESPACE;
					}
					return TokenNameEOF;
				}
				if (checkIfUnicode) {
					isWhiteSpace = jumpOverUnicodeWhiteSpace();
					offset = this.currentPosition - offset;
				} else {
					offset = this.currentPosition - offset;
					if ((this.currentCharacter == '\r') || (this.currentCharacter == '\n')) {
						if (this.recordLineSeparator) {
							pushLineSeparator();
						}
					}
					// inline version of:
					//isWhiteSpace =
					//	(this.currentCharacter == ' ') || ScannerHelper.isWhitespace(this.currentCharacter);
					switch (this.currentCharacter) {
						case 10 : /* \ u000a: LINE FEED               */
						case 12 : /* \ u000c: FORM FEED               */
						case 13 : /* \ u000d: CARRIAGE RETURN         */
						case 32 : /* \ u0020: SPACE                   */
						case 9 : /* \ u0009: HORIZONTAL TABULATION   */
							isWhiteSpace = true;
							break;
						default :
							isWhiteSpace = false;
					}
				}
				if (isWhiteSpace) {
					hasWhiteSpaces = true;
				}
			} while (isWhiteSpace);
			if (hasWhiteSpaces) {
				if (this.tokenizeWhiteSpace) {
					// reposition scanner in case we are interested by spaces as tokens
					this.currentPosition-=offset;
					this.startPosition = whiteStart;
					if (checkIfUnicode) {
						this.withoutUnicodePtr = unicodePtr;
					}
					return TokenNameWHITESPACE;
				} else if (checkIfUnicode) {
					this.withoutUnicodePtr = 0;
					unicodeStore();
				} else {
					this.withoutUnicodePtr = 0;
				}
			}
			// ---------Identify the next token-------------
			switch (this.currentCharacter) {
				case '@' :
/*					if (this.sourceLevel >= ClassFileConstants.JDK1_5) {
						return TokenNameAT;
					} else {
						return TokenNameERROR;
					}*/
					return TokenNameAT;
				case '(' :
					return TokenNameLPAREN;
				case ')' :
					return TokenNameRPAREN;
				case '{' :
					return TokenNameLBRACE;
				case '}' :
					return TokenNameRBRACE;
				case '[' :
					return TokenNameLBRACKET;
				case ']' :
					return TokenNameRBRACKET;
				case ';' :
					return TokenNameSEMICOLON;
				case ',' :
					return TokenNameCOMMA;
				case '.' :
					if (getNextCharAsDigit()) {
						return scanNumber(true);
					}
					int temp = this.currentPosition;
					if (getNextChar('.')) {
						if (getNextChar('.')) {
							return TokenNameELLIPSIS;
						} else {
							this.currentPosition = temp;
							return TokenNameDOT;
						}
					} else {
						this.currentPosition = temp;
						return TokenNameDOT;
					}
				case '+' :
					{
						int test;
						if ((test = getNextChar('+', '=')) == 0)
							return TokenNamePLUS_PLUS;
						if (test > 0)
							return TokenNamePLUS_EQUAL;
						return TokenNamePLUS;
					}
				case '-' :
					{
						int test;
						if ((test = getNextChar('-', '=')) == 0)
							return TokenNameMINUS_MINUS;
						if (test > 0)
							return TokenNameMINUS_EQUAL;
						if (getNextChar('>'))
							return TokenNameARROW;
						return TokenNameMINUS;
					}
				case '~' :
					return TokenNameTWIDDLE;
				case '!' :
					if (getNextChar('='))
						return TokenNameNOT_EQUAL;
					return TokenNameNOT;
				case '*' :
					if (getNextChar('='))
						return TokenNameMULTIPLY_EQUAL;
					return TokenNameMULTIPLY;
				case '%' :
					if (getNextChar('='))
						return TokenNameREMAINDER_EQUAL;
					return TokenNameREMAINDER;
				case '<' :
					{
						int test;
						if ((test = getNextChar('=', '<')) == 0)
							return TokenNameLESS_EQUAL;
						if (test > 0) {
							if (getNextChar('='))
								return TokenNameLEFT_SHIFT_EQUAL;
							return TokenNameLEFT_SHIFT;
						}
						return TokenNameLESS;
					}
				case '>' :
					{
						int test;
						if (this.returnOnlyGreater) {
							return TokenNameGREATER;
						}
						if ((test = getNextChar('=', '>')) == 0)
							return TokenNameGREATER_EQUAL;
						if (test > 0) {
							if ((test = getNextChar('=', '>')) == 0)
								return TokenNameRIGHT_SHIFT_EQUAL;
							if (test > 0) {
								if (getNextChar('='))
									return TokenNameUNSIGNED_RIGHT_SHIFT_EQUAL;
								return TokenNameUNSIGNED_RIGHT_SHIFT;
							}
							return TokenNameRIGHT_SHIFT;
						}
						return TokenNameGREATER;
					}
				case '=' :
					if (getNextChar('='))
						return TokenNameEQUAL_EQUAL;
					return TokenNameEQUAL;
				case '&' :
					{
						int test;
						if ((test = getNextChar('&', '=')) == 0)
							return TokenNameAND_AND;
						if (test > 0)
							return TokenNameAND_EQUAL;
						return TokenNameAND;
					}
				case '|' :
					{
						int test;
						if ((test = getNextChar('|', '=')) == 0)
							return TokenNameOR_OR;
						if (test > 0)
							return TokenNameOR_EQUAL;
						return TokenNameOR;
					}
				case '^' :
					if (getNextChar('='))
						return TokenNameXOR_EQUAL;
					return TokenNameXOR;
				case '?' :
					return TokenNameQUESTION;
				case ':' :
					if (getNextChar(':'))
						return TokenNameCOLON_COLON;
					return TokenNameCOLON;
				case '\'' :
					{
						int test;
						if ((test = getNextChar('\n', '\r')) == 0) {
							throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
						}
						if (test > 0) {
							// relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
							for (int lookAhead = 0; lookAhead < 3; lookAhead++) {
								if (this.currentPosition + lookAhead == this.eofPosition)
									break;
								if (this.source[this.currentPosition + lookAhead] == '\n')
									break;
								if (this.source[this.currentPosition + lookAhead] == '\'') {
									this.currentPosition += lookAhead + 1;
									break;
								}
							}
							throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
						}
					}
					if (getNextChar('\'')) {
						// relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
						for (int lookAhead = 0; lookAhead < 3; lookAhead++) {
							if (this.currentPosition + lookAhead == this.eofPosition)
								break;
							if (this.source[this.currentPosition + lookAhead] == '\n')
								break;
							if (this.source[this.currentPosition + lookAhead] == '\'') {
								this.currentPosition += lookAhead + 1;
								break;
							}
						}
						throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
					}
					if (getNextChar('\\')) {
						if (this.unicodeAsBackSlash) {
							// consume next character
							this.unicodeAsBackSlash = false;
							if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\') && (this.source[this.currentPosition] == 'u')) {
								getNextUnicodeChar();
							} else {
								if (this.withoutUnicodePtr != 0) {
									unicodeStore();
								}
							}
						} else {
							this.currentCharacter = this.source[this.currentPosition++];
						}
						scanEscapeCharacter();
					} else { // consume next character
						this.unicodeAsBackSlash = false;
						checkIfUnicode = false;
						try {
							checkIfUnicode = ((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
							&& (this.source[this.currentPosition] == 'u');
						} catch(IndexOutOfBoundsException e) {
							this.currentPosition--;
							throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
						}
						if (checkIfUnicode) {
							getNextUnicodeChar();
						} else {
							if (this.withoutUnicodePtr != 0) {
								unicodeStore();
							}
						}
					}
					if (getNextChar('\''))
						return TokenNameCharacterLiteral;
					// relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
					for (int lookAhead = 0; lookAhead < 20; lookAhead++) {
						if (this.currentPosition + lookAhead == this.eofPosition)
							break;
						if (this.source[this.currentPosition + lookAhead] == '\n')
							break;
						if (this.source[this.currentPosition + lookAhead] == '\'') {
							this.currentPosition += lookAhead + 1;
							break;
						}
					}
					throw new InvalidInputException(INVALID_CHARACTER_CONSTANT);
				case '"' :
					try {
						// consume next character
						this.unicodeAsBackSlash = false;
						boolean isUnicode = false;
						if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
							&& (this.source[this.currentPosition] == 'u')) {
							getNextUnicodeChar();
							isUnicode = true;
						} else {
							if (this.withoutUnicodePtr != 0) {
								unicodeStore();
							}
						}

						while (this.currentCharacter != '"') {
							if (this.currentPosition >= this.eofPosition) {
								throw new InvalidInputException(UNTERMINATED_STRING);
							}
							/**** \r and \n are not valid in string literals ****/
							if ((this.currentCharacter == '\n') || (this.currentCharacter == '\r')) {
								// relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
								if (isUnicode) {
									int start = this.currentPosition;
									for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
										if (this.currentPosition >= this.eofPosition) {
											this.currentPosition = start;
											break;
										}
										if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\') && (this.source[this.currentPosition] == 'u')) {
											isUnicode = true;
											getNextUnicodeChar();
										} else {
											isUnicode = false;
										}
										if (!isUnicode && this.currentCharacter == '\n') {
											this.currentPosition--; // set current position on new line character
											break;
										}
										if (this.currentCharacter == '\"') {
											throw new InvalidInputException(INVALID_CHAR_IN_STRING);
										}
									}
								} else {
									this.currentPosition--; // set current position on new line character
								}
								throw new InvalidInputException(INVALID_CHAR_IN_STRING);
							}
							if (this.currentCharacter == '\\') {
								if (this.unicodeAsBackSlash) {
									this.withoutUnicodePtr--;
									// consume next character
									this.unicodeAsBackSlash = false;
									if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\') && (this.source[this.currentPosition] == 'u')) {
										getNextUnicodeChar();
										isUnicode = true;
										this.withoutUnicodePtr--;
									} else {
										isUnicode = false;
									}
								} else {
									if (this.withoutUnicodePtr == 0) {
										unicodeInitializeBuffer(this.currentPosition - this.startPosition);
									}
									this.withoutUnicodePtr --;
									this.currentCharacter = this.source[this.currentPosition++];
								}
								// we need to compute the escape character in a separate buffer
								scanEscapeCharacter();
								if (this.withoutUnicodePtr != 0) {
									unicodeStore();
								}
							}
							// consume next character
							this.unicodeAsBackSlash = false;
							if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
								&& (this.source[this.currentPosition] == 'u')) {
								getNextUnicodeChar();
								isUnicode = true;
							} else {
								isUnicode = false;
								if (this.withoutUnicodePtr != 0) {
									unicodeStore();
								}
							}

						}
					} catch (IndexOutOfBoundsException e) {
						this.currentPosition--;
						throw new InvalidInputException(UNTERMINATED_STRING);
					} catch (InvalidInputException e) {
						if (e.getMessage().equals(INVALID_ESCAPE)) {
							// relocate if finding another quote fairly close: thus unicode '/u000D' will be fully consumed
							for (int lookAhead = 0; lookAhead < 50; lookAhead++) {
								if (this.currentPosition + lookAhead == this.eofPosition)
									break;
								if (this.source[this.currentPosition + lookAhead] == '\n')
									break;
								if (this.source[this.currentPosition + lookAhead] == '\"') {
									this.currentPosition += lookAhead + 1;
									break;
								}
							}

						}
						throw e; // rethrow
					}
					return TokenNameStringLiteral;
				case '/' :
					if (!this.skipComments) {
						int test = getNextChar('/', '*');
						if (test == 0) { //line comment
							this.lastCommentLinePosition = this.currentPosition;
							try { //get the next char
								if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
										&& (this.source[this.currentPosition] == 'u')) {
									getNextUnicodeChar();
								}

								//handle the \\u case manually into comment
								if (this.currentCharacter == '\\') {
									if (this.source[this.currentPosition] == '\\')
										this.currentPosition++;
								} //jump over the \\
								boolean isUnicode = false;
								while (this.currentCharacter != '\r' && this.currentCharacter != '\n') {
									if (this.currentPosition >= this.eofPosition) {
										this.lastCommentLinePosition = this.currentPosition;
										this.currentPosition ++;
										// this avoids duplicating the code in the catch(IndexOutOfBoundsException e)
										throw new IndexOutOfBoundsException();
									}
									this.lastCommentLinePosition = this.currentPosition;
									//get the next char
									isUnicode = false;
									if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
											&& (this.source[this.currentPosition] == 'u')) {
										getNextUnicodeChar();
										isUnicode = true;
									}
									//handle the \\u case manually into comment
									if (this.currentCharacter == '\\') {
										if (this.source[this.currentPosition] == '\\')
											this.currentPosition++;
									} //jump over the \\
								}
								/*
								 * We need to completely consume the line break
								 */
								if (this.currentCharacter == '\r'
										&& this.eofPosition > this.currentPosition) {
									if (this.source[this.currentPosition] == '\n') {
										this.currentPosition++;
										this.currentCharacter = '\n';
									} else if ((this.source[this.currentPosition] == '\\')
										&& (this.source[this.currentPosition + 1] == 'u')) {
										getNextUnicodeChar();
										isUnicode = true;
									}
								}
								recordComment(TokenNameCOMMENT_LINE);
								if (this.taskTags != null) checkTaskTag(this.startPosition, this.currentPosition);
								if ((this.currentCharacter == '\r') || (this.currentCharacter == '\n')) {
									if ((this.checkNonExternalizedStringLiterals || this.checkUninternedIdentityComparison) &&
											this.lastPosition < this.currentPosition) {
										parseTags();
									}
									if (this.recordLineSeparator) {
										if (isUnicode) {
											pushUnicodeLineSeparator();
										} else {
											pushLineSeparator();
										}
									}
								}
								if (this.tokenizeComments) {
									return TokenNameCOMMENT_LINE;
								}
							} catch (IndexOutOfBoundsException e) {
								this.currentPosition--;
								recordComment(TokenNameCOMMENT_LINE);
								if (this.taskTags != null) checkTaskTag(this.startPosition, this.currentPosition);
								if ((this.checkNonExternalizedStringLiterals || this.checkUninternedIdentityComparison) &&
										this.lastPosition < this.currentPosition) {
									parseTags();
								}
								if (this.tokenizeComments) {
									return TokenNameCOMMENT_LINE;
								} else {
									this.currentPosition++;
								}
							}
							break;
						}
						if (test > 0) { //traditional and javadoc comment
							try { //get the next char
								boolean isJavadoc = false, star = false;
								boolean isUnicode = false;
								int previous;
								// consume next character
								this.unicodeAsBackSlash = false;
								if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
									&& (this.source[this.currentPosition] == 'u')) {
									getNextUnicodeChar();
									isUnicode = true;
								} else {
									isUnicode = false;
									if (this.withoutUnicodePtr != 0) {
										unicodeStore();
									}
								}

								if (this.currentCharacter == '*') {
									isJavadoc = true;
									star = true;
								}
								if ((this.currentCharacter == '\r') || (this.currentCharacter == '\n')) {
									if (this.recordLineSeparator) {
										if (isUnicode) {
											pushUnicodeLineSeparator();
										} else {
											pushLineSeparator();
										}
									}
								}
								isUnicode = false;
								previous = this.currentPosition;
								if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
									&& (this.source[this.currentPosition] == 'u')) {
									//-------------unicode traitement ------------
									getNextUnicodeChar();
									isUnicode = true;
								} else {
									isUnicode = false;
								}
								//handle the \\u case manually into comment
								if (this.currentCharacter == '\\') {
									if (this.source[this.currentPosition] == '\\')
										this.currentPosition++; //jump over the \\
								}
								// empty comment is not a javadoc /**/
								if (this.currentCharacter == '/') {
									isJavadoc = false;
								}
								//loop until end of comment */
								int firstTag = 0;
								while ((this.currentCharacter != '/') || (!star)) {
									if (this.currentPosition >= this.eofPosition) {
										throw new InvalidInputException(UNTERMINATED_COMMENT);
									}
									if ((this.currentCharacter == '\r') || (this.currentCharacter == '\n')) {
										if (this.recordLineSeparator) {
											if (isUnicode) {
												pushUnicodeLineSeparator();
											} else {
												pushLineSeparator();
											}
										}
									}
									switch (this.currentCharacter) {
										case '*':
											star = true;
											break;
										case '@':
											if (firstTag == 0 && this.isFirstTag()) {
												firstTag = previous;
											}
											//$FALL-THROUGH$ default case to set star to false
										default:
											star = false;
									}
									//get next char
									previous = this.currentPosition;
									if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
										&& (this.source[this.currentPosition] == 'u')) {
										//-------------unicode traitement ------------
										getNextUnicodeChar();
										isUnicode = true;
									} else {
										isUnicode = false;
									}
									//handle the \\u case manually into comment
									if (this.currentCharacter == '\\') {
										if (this.source[this.currentPosition] == '\\')
											this.currentPosition++;
									} //jump over the \\
								}
								int token = isJavadoc ? TokenNameCOMMENT_JAVADOC : TokenNameCOMMENT_BLOCK;
								recordComment(token);
								this.commentTagStarts[this.commentPtr] = firstTag;
								if (this.taskTags != null) checkTaskTag(this.startPosition, this.currentPosition);
								if (this.tokenizeComments) {
									/*
									if (isJavadoc)
										return TokenNameCOMMENT_JAVADOC;
									return TokenNameCOMMENT_BLOCK;
									*/
									return token;
								}
							} catch (IndexOutOfBoundsException e) {
								this.currentPosition--;
								throw new InvalidInputException(UNTERMINATED_COMMENT);
							}
							break;
						}
					}
					if (getNextChar('='))
						return TokenNameDIVIDE_EQUAL;
					return TokenNameDIVIDE;
				case '\u001a' :
					if (atEnd())
						return TokenNameEOF;
					//the atEnd may not be  if source is only some part of a real (external) stream
					throw new InvalidInputException("Ctrl-Z"); //$NON-NLS-1$
				default :
					char c = this.currentCharacter;
					if (c < ScannerHelper.MAX_OBVIOUS) {
						if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] & ScannerHelper.C_IDENT_START) != 0) {
							return scanIdentifierOrKeyword();
						} else if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] & ScannerHelper.C_DIGIT) != 0) {
								return scanNumber(false);
						} else {
							return TokenNameERROR;
						}
					}
					boolean isJavaIdStart;
					if (c >= HIGH_SURROGATE_MIN_VALUE && c <= HIGH_SURROGATE_MAX_VALUE) {
						if (this.complianceLevel < ClassFileConstants.JDK1_5) {
							throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
						}
						// Unicode 4 detection
						char low = (char) getNextChar();
						if (low < LOW_SURROGATE_MIN_VALUE || low > LOW_SURROGATE_MAX_VALUE) {
							// illegal low surrogate
							throw new InvalidInputException(INVALID_LOW_SURROGATE);
						}
						isJavaIdStart = ScannerHelper.isJavaIdentifierStart(this.complianceLevel, c, low);
					}
					else if (c >= LOW_SURROGATE_MIN_VALUE && c <= LOW_SURROGATE_MAX_VALUE) {
						if (this.complianceLevel < ClassFileConstants.JDK1_5) {
							throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
						}
						throw new InvalidInputException(INVALID_HIGH_SURROGATE);
					} else {
						// optimized case already checked
						isJavaIdStart = ScannerHelper.isJavaIdentifierStart(this.complianceLevel, c);
					}
					if (isJavaIdStart)
						return scanIdentifierOrKeyword();
					if (ScannerHelper.isDigit(this.currentCharacter)) {
						return scanNumber(false);
					}
					return TokenNameERROR;
			}
		}
	} //-----------------end switch while try--------------------
	catch (IndexOutOfBoundsException e) {
		if (this.tokenizeWhiteSpace && (whiteStart != this.currentPosition - 1)) {
			// reposition scanner in case we are interested by spaces as tokens
			this.currentPosition--;
			this.startPosition = whiteStart;
			return TokenNameWHITESPACE;
		}
	}
	return TokenNameEOF;
}
public void getNextUnicodeChar()
	throws InvalidInputException {
	//VOID
	//handle the case of unicode.
	//when a unicode appears then we must use a buffer that holds char internal values
	//At the end of this method currentCharacter holds the new visited char
	//and currentPosition points right next after it

	//ALL getNextChar.... ARE OPTIMIZED COPIES
	int c1 = 0, c2 = 0, c3 = 0, c4 = 0, unicodeSize = 6;
	this.currentPosition++;
	if (this.currentPosition < this.eofPosition) {
		while (this.source[this.currentPosition] == 'u') {
			this.currentPosition++;
			if (this.currentPosition >= this.eofPosition) {
				this.currentPosition--;
				throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
			}
			unicodeSize++;
		}
	} else {
		this.currentPosition--;
		throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
	}

	if ((this.currentPosition + 4) > this.eofPosition) {
		this.currentPosition += (this.eofPosition - this.currentPosition);
		throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
	}
	if ((c1 = ScannerHelper.getHexadecimalValue(this.source[this.currentPosition++])) > 15
    		|| c1 < 0
    		|| (c2 = ScannerHelper.getHexadecimalValue(this.source[this.currentPosition++])) > 15
    		|| c2 < 0
    		|| (c3 = ScannerHelper.getHexadecimalValue(this.source[this.currentPosition++])) > 15
    		|| c3 < 0
    		|| (c4 = ScannerHelper.getHexadecimalValue(this.source[this.currentPosition++])) > 15
    		|| c4 < 0){
		throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
	}
	this.currentCharacter = (char) (((c1 * 16 + c2) * 16 + c3) * 16 + c4);
	//need the unicode buffer
	if (this.withoutUnicodePtr == 0) {
		//buffer all the entries that have been left aside....
		unicodeInitializeBuffer(this.currentPosition - unicodeSize - this.startPosition);
	}
	//fill the buffer with the char
	unicodeStore();
	this.unicodeAsBackSlash = this.currentCharacter == '\\';
}
public NLSTag[] getNLSTags() {
	final int length = this.nlsTagsPtr;
	if (length != 0) {
		NLSTag[] result = new NLSTag[length];
		System.arraycopy(this.nlsTags, 0, result, 0, length);
		this.nlsTagsPtr = 0;
		return result;
	}
	return null;
}
public boolean[] getIdentityComparisonLines() {
	boolean [] retVal = this.validIdentityComparisonLines;
	this.validIdentityComparisonLines = null;
	return retVal;
}
public char[] getSource(){
	return this.source;
}
protected boolean isFirstTag() {
	return true;
}
public final void jumpOverMethodBody() {

	this.wasAcr = false;
	int found = 1;
	try {
		while (true) { //loop for jumping over comments
			this.withoutUnicodePtr = 0;
			// ---------Consume white space and handles startPosition---------
			boolean isWhiteSpace;
			do {
				this.startPosition = this.currentPosition;
				if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
					&& (this.source[this.currentPosition] == 'u')) {
					isWhiteSpace = jumpOverUnicodeWhiteSpace();
				} else {
					if (this.recordLineSeparator
							&& ((this.currentCharacter == '\r') || (this.currentCharacter == '\n'))) {
						pushLineSeparator();
					}
					isWhiteSpace = CharOperation.isWhitespace(this.currentCharacter);
				}
			} while (isWhiteSpace);

			// -------consume token until } is found---------
			NextToken: switch (this.currentCharacter) {
				case '{' :
					found++;
					break NextToken;
				case '}' :
					found--;
					if (found == 0)
						return;
					break NextToken;
				case '\'' :
					{
						boolean test;
						test = getNextChar('\\');
						if (test) {
							try {
								if (this.unicodeAsBackSlash) {
									// consume next character
									this.unicodeAsBackSlash = false;
									if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\') && (this.source[this.currentPosition] == 'u')) {
										getNextUnicodeChar();
									} else {
										if (this.withoutUnicodePtr != 0) {
											unicodeStore();
										}
									}
								} else {
									this.currentCharacter = this.source[this.currentPosition++];
								}
								scanEscapeCharacter();
							} catch (InvalidInputException ex) {
								// ignore
							}
						} else {
							try { // consume next character
								this.unicodeAsBackSlash = false;
								if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
										&& (this.source[this.currentPosition] == 'u')) {
									getNextUnicodeChar();
								} else {
									if (this.withoutUnicodePtr != 0) {
										unicodeStore();
									}
								}
							} catch (InvalidInputException ex) {
								// ignore
							}
						}
						getNextChar('\'');
						break NextToken;
					}
				case '"' :
					try {
						try { // consume next character
							this.unicodeAsBackSlash = false;
							if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
									&& (this.source[this.currentPosition] == 'u')) {
								getNextUnicodeChar();
							} else {
								if (this.withoutUnicodePtr != 0) {
									unicodeStore();
								}
							}
						} catch (InvalidInputException ex) {
								// ignore
						}
						while (this.currentCharacter != '"') {
							if (this.currentPosition >= this.eofPosition) {
								return;
							}
							if (this.currentCharacter == '\r'){
								if (this.source[this.currentPosition] == '\n') this.currentPosition++;
								break NextToken; // the string cannot go further that the line
							}
							if (this.currentCharacter == '\n'){
								break; // the string cannot go further that the line
							}
							if (this.currentCharacter == '\\') {
								try {
									if (this.unicodeAsBackSlash) {
										// consume next character
										this.unicodeAsBackSlash = false;
										if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\') && (this.source[this.currentPosition] == 'u')) {
											getNextUnicodeChar();
										} else {
											if (this.withoutUnicodePtr != 0) {
												unicodeStore();
											}
										}
									} else {
										this.currentCharacter = this.source[this.currentPosition++];
									}
									scanEscapeCharacter();
								} catch (InvalidInputException ex) {
									// ignore
								}
							}
							try { // consume next character
								this.unicodeAsBackSlash = false;
								if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
										&& (this.source[this.currentPosition] == 'u')) {
									getNextUnicodeChar();
								} else {
									if (this.withoutUnicodePtr != 0) {
										unicodeStore();
									}
								}
							} catch (InvalidInputException ex) {
								// ignore
							}
						}
					} catch (IndexOutOfBoundsException e) {
						return;
					}
					break NextToken;
				case '/' :
					{
						int test;
						if ((test = getNextChar('/', '*')) == 0) { //line comment
							try {
								this.lastCommentLinePosition = this.currentPosition;
								//get the next char
								if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
										&& (this.source[this.currentPosition] == 'u')) {
									getNextUnicodeChar();
								}
								//handle the \\u case manually into comment
								if (this.currentCharacter == '\\') {
									if (this.source[this.currentPosition] == '\\')
										this.currentPosition++;
								} //jump over the \\
								boolean isUnicode = false;
								while (this.currentCharacter != '\r' && this.currentCharacter != '\n') {
									if (this.currentPosition >= this.eofPosition) {
										this.lastCommentLinePosition = this.currentPosition;
										this.currentPosition ++;
										// this avoids duplicating the code inside the catch(IndexOutOfBoundsException e) below
										throw new IndexOutOfBoundsException();
									}
									this.lastCommentLinePosition = this.currentPosition;
									//get the next char
									isUnicode = false;
									if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
											&& (this.source[this.currentPosition] == 'u')) {
										isUnicode = true;
										getNextUnicodeChar();
									}
									//handle the \\u case manually into comment
									if (this.currentCharacter == '\\') {
										if (this.source[this.currentPosition] == '\\')
											this.currentPosition++;
									} //jump over the \\
								}
								/*
								 * We need to completely consume the line break
								 */
								if (this.currentCharacter == '\r'
										&& this.eofPosition > this.currentPosition) {
									if (this.source[this.currentPosition] == '\n') {
										this.currentPosition++;
										this.currentCharacter = '\n';
									} else if ((this.source[this.currentPosition] == '\\')
											&& (this.source[this.currentPosition + 1] == 'u')) {
										isUnicode = true;
										getNextUnicodeChar();
									}
								}
								recordComment(TokenNameCOMMENT_LINE);
								if (this.recordLineSeparator
									&& ((this.currentCharacter == '\r') || (this.currentCharacter == '\n'))) {
										if ((this.checkNonExternalizedStringLiterals || this.checkUninternedIdentityComparison) &&
												this.lastPosition < this.currentPosition) {
											parseTags();
										}
										if (this.recordLineSeparator) {
											if (isUnicode) {
												pushUnicodeLineSeparator();
											} else {
												pushLineSeparator();
											}
										}
									}
							} catch (IndexOutOfBoundsException e) {
								 //an eof will then be generated
								this.currentPosition--;
								recordComment(TokenNameCOMMENT_LINE);
								if ((this.checkNonExternalizedStringLiterals || this.checkUninternedIdentityComparison) &&
										this.lastPosition < this.currentPosition) {
									parseTags();
								}
								if (!this.tokenizeComments) {
									this.currentPosition++;
								}
							}
							break NextToken;
						}
						if (test > 0) { //traditional and javadoc comment
							boolean isJavadoc = false;
							try { //get the next char
								boolean star = false;
								int previous;
								boolean isUnicode = false;
								// consume next character
								this.unicodeAsBackSlash = false;
								if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
										&& (this.source[this.currentPosition] == 'u')) {
									getNextUnicodeChar();
									isUnicode = true;
								} else {
									isUnicode = false;
									if (this.withoutUnicodePtr != 0) {
										unicodeStore();
									}
								}

								if (this.currentCharacter == '*') {
									isJavadoc = true;
									star = true;
								}
								if ((this.currentCharacter == '\r') || (this.currentCharacter == '\n')) {
									if (this.recordLineSeparator) {
										if (isUnicode) {
											pushUnicodeLineSeparator();
										} else {
											pushLineSeparator();
										}
									}
								}
								isUnicode = false;
								previous = this.currentPosition;
								if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
										&& (this.source[this.currentPosition] == 'u')) {
									getNextUnicodeChar();
									isUnicode = true;
								} else {
									isUnicode = false;
								}
								//handle the \\u case manually into comment
								if (this.currentCharacter == '\\') {
									if (this.source[this.currentPosition] == '\\')
										this.currentPosition++; //jump over the \\
								}
								// empty comment is not a javadoc /**/
								if (this.currentCharacter == '/') {
									isJavadoc = false;
								}
								//loop until end of comment */
								int firstTag = 0;
								while ((this.currentCharacter != '/') || (!star)) {
									if (this.currentPosition >= this.eofPosition) {
										return;
									}
									if ((this.currentCharacter == '\r') || (this.currentCharacter == '\n')) {
										if (this.recordLineSeparator) {
											if (isUnicode) {
												pushUnicodeLineSeparator();
											} else {
												pushLineSeparator();
											}
										}
									}
									switch (this.currentCharacter) {
										case '*':
											star = true;
											break;
										case '@':
											if (firstTag == 0 && this.isFirstTag()) {
												firstTag = previous;
											}
											//$FALL-THROUGH$ default case to set star to false
										default:
											star = false;
									}
									//get next char
									previous = this.currentPosition;
									if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
											&& (this.source[this.currentPosition] == 'u')) {
										getNextUnicodeChar();
										isUnicode = true;
									} else {
										isUnicode = false;
									}
									//handle the \\u case manually into comment
									if (this.currentCharacter == '\\') {
										if (this.source[this.currentPosition] == '\\')
											this.currentPosition++;
									} //jump over the \\
								}
								recordComment(isJavadoc ? TokenNameCOMMENT_JAVADOC : TokenNameCOMMENT_BLOCK);
								this.commentTagStarts[this.commentPtr] = firstTag;
							} catch (IndexOutOfBoundsException e) {
								return;
							}
							break NextToken;
						}
						break NextToken;
					}

				default :
					try {
						char c = this.currentCharacter;
						if (c < ScannerHelper.MAX_OBVIOUS) {
							if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] & ScannerHelper.C_IDENT_START) != 0) {
								scanIdentifierOrKeyword();
								break NextToken;
							} else if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] & ScannerHelper.C_DIGIT) != 0) {
								scanNumber(false);
								break NextToken;
							} else {
								break NextToken;
							}
						}
						boolean isJavaIdStart;
						if (c >= HIGH_SURROGATE_MIN_VALUE && c <= HIGH_SURROGATE_MAX_VALUE) {
							if (this.complianceLevel < ClassFileConstants.JDK1_5) {
								throw new InvalidInputException(INVALID_UNICODE_ESCAPE);
							}
							// Unicode 4 detection
							char low = (char) getNextChar();
							if (low < LOW_SURROGATE_MIN_VALUE || low > LOW_SURROGATE_MAX_VALUE) {
								// illegal low surrogate
								break NextToken;
							}
							isJavaIdStart = ScannerHelper.isJavaIdentifierStart(this.complianceLevel, c, low);
						} else if (c >= LOW_SURROGATE_MIN_VALUE && c <= LOW_SURROGATE_MAX_VALUE) {
							break NextToken;
						} else {
							// optimized case already checked
							isJavaIdStart = ScannerHelper.isJavaIdentifierStart(this.complianceLevel, c);
						}
						if (isJavaIdStart) {
							scanIdentifierOrKeyword();
							break NextToken;
						}
//						if (ScannerHelper.isDigit(this.currentCharacter)) {
//							scanNumber(false);
//							break NextToken;
//						}
					} catch (InvalidInputException ex) {
						// ignore
					}
			}
		}
		//-----------------end switch while try--------------------
	} catch (IndexOutOfBoundsException e) {
		// ignore
	} catch (InvalidInputException e) {
		// ignore
	}
	return;
}
public final boolean jumpOverUnicodeWhiteSpace() throws InvalidInputException {
	//BOOLEAN
	//handle the case of unicode. Jump over the next whiteSpace
	//making startPosition pointing on the next available char
	//On false, the currentCharacter is filled up with a potential
	//correct char

	this.wasAcr = false;
	getNextUnicodeChar();
	return CharOperation.isWhitespace(this.currentCharacter);
}

final char[] optimizedCurrentTokenSource1() {
	//return always the same char[] build only once

	//optimization at no speed cost of 99.5 % of the singleCharIdentifier
	char charOne = this.source[this.startPosition];
	switch (charOne) {
		case 'a' :
			return charArray_a;
		case 'b' :
			return charArray_b;
		case 'c' :
			return charArray_c;
		case 'd' :
			return charArray_d;
		case 'e' :
			return charArray_e;
		case 'f' :
			return charArray_f;
		case 'g' :
			return charArray_g;
		case 'h' :
			return charArray_h;
		case 'i' :
			return charArray_i;
		case 'j' :
			return charArray_j;
		case 'k' :
			return charArray_k;
		case 'l' :
			return charArray_l;
		case 'm' :
			return charArray_m;
		case 'n' :
			return charArray_n;
		case 'o' :
			return charArray_o;
		case 'p' :
			return charArray_p;
		case 'q' :
			return charArray_q;
		case 'r' :
			return charArray_r;
		case 's' :
			return charArray_s;
		case 't' :
			return charArray_t;
		case 'u' :
			return charArray_u;
		case 'v' :
			return charArray_v;
		case 'w' :
			return charArray_w;
		case 'x' :
			return charArray_x;
		case 'y' :
			return charArray_y;
		case 'z' :
			return charArray_z;
		default :
			return new char[] {charOne};
	}
}
final char[] optimizedCurrentTokenSource2() {
	//try to return the same char[] build only once

	char[] src = this.source;
	int start = this.startPosition;
	char c0 , c1;
	int hash = (((c0=src[start]) << 6) + (c1=src[start+1])) % TableSize;
	char[][] table = this.charArray_length[0][hash];
	int i = this.newEntry2;
	while (++i < InternalTableSize) {
		char[] charArray = table[i];
		if ((c0 == charArray[0]) && (c1 == charArray[1]))
			return charArray;
	}
	//---------other side---------
	i = -1;
	int max = this.newEntry2;
	while (++i <= max) {
		char[] charArray = table[i];
		if ((c0 == charArray[0]) && (c1 == charArray[1]))
			return charArray;
	}
	//--------add the entry-------
	if (++max >= InternalTableSize) max = 0;
	char[] r;
	System.arraycopy(src, start, r= new char[2], 0, 2);
	//newIdentCount++;
	return table[this.newEntry2 = max] = r; //(r = new char[] {c0, c1});
}
final char[] optimizedCurrentTokenSource3() {
	//try to return the same char[] build only once

	char[] src = this.source;
	int start = this.startPosition;
	char c0, c1=src[start+1], c2;
	int hash = (((c0=src[start])<< 6) + (c2=src[start+2])) % TableSize;
//	int hash = ((c0 << 12) + (c1<< 6) + c2) % TableSize;
	char[][] table = this.charArray_length[1][hash];
	int i = this.newEntry3;
	while (++i < InternalTableSize) {
		char[] charArray = table[i];
		if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2]))
			return charArray;
	}
	//---------other side---------
	i = -1;
	int max = this.newEntry3;
	while (++i <= max) {
		char[] charArray = table[i];
		if ((c0 == charArray[0]) && (c1 == charArray[1]) && (c2 == charArray[2]))
			return charArray;
	}
	//--------add the entry-------
	if (++max >= InternalTableSize) max = 0;
	char[] r;
	System.arraycopy(src, start, r= new char[3], 0, 3);
	//newIdentCount++;
	return table[this.newEntry3 = max] = r; //(r = new char[] {c0, c1, c2});
}
final char[] optimizedCurrentTokenSource4() {
	//try to return the same char[] build only once

	char[] src = this.source;
	int start = this.startPosition;
	char c0, c1 = src[start+1], c2, c3 = src[start+3];
	int hash = (((c0=src[start]) << 6) + (c2=src[start+2])) % TableSize;
//	int hash = (int) (((((long) c0) << 18) + (c1 << 12) + (c2 << 6) + c3) % TableSize);
	char[][] table = this.charArray_length[2][hash];
	int i = this.newEntry4;
	while (++i < InternalTableSize) {
		char[] charArray = table[i];
		if ((c0 == charArray[0])
			&& (c1 == charArray[1])
			&& (c2 == charArray[2])
			&& (c3 == charArray[3]))
			return charArray;
	}
	//---------other side---------
	i = -1;
	int max = this.newEntry4;
	while (++i <= max) {
		char[] charArray = table[i];
		if ((c0 == charArray[0])
			&& (c1 == charArray[1])
			&& (c2 == charArray[2])
			&& (c3 == charArray[3]))
			return charArray;
	}
	//--------add the entry-------
	if (++max >= InternalTableSize) max = 0;
	char[] r;
	System.arraycopy(src, start, r= new char[4], 0, 4);
	//newIdentCount++;
	return table[this.newEntry4 = max] = r; //(r = new char[] {c0, c1, c2, c3});
}
final char[] optimizedCurrentTokenSource5() {
	//try to return the same char[] build only once

	char[] src = this.source;
	int start = this.startPosition;
	char c0, c1 = src[start+1], c2, c3 = src[start+3], c4;
	int hash = (((c0=src[start]) << 12) +((c2=src[start+2]) << 6) + (c4=src[start+4])) % TableSize;
//	int hash = (int) (((((long) c0) << 24) + (((long) c1) << 18) + (c2 << 12) + (c3 << 6) + c4) % TableSize);
	char[][] table = this.charArray_length[3][hash];
	int i = this.newEntry5;
	while (++i < InternalTableSize) {
		char[] charArray = table[i];
		if ((c0 == charArray[0])
			&& (c1 == charArray[1])
			&& (c2 == charArray[2])
			&& (c3 == charArray[3])
			&& (c4 == charArray[4]))
			return charArray;
	}
	//---------other side---------
	i = -1;
	int max = this.newEntry5;
	while (++i <= max) {
		char[] charArray = table[i];
		if ((c0 == charArray[0])
			&& (c1 == charArray[1])
			&& (c2 == charArray[2])
			&& (c3 == charArray[3])
			&& (c4 == charArray[4]))
			return charArray;
	}
	//--------add the entry-------
	if (++max >= InternalTableSize) max = 0;
	char[] r;
	System.arraycopy(src, start, r= new char[5], 0, 5);
	//newIdentCount++;
	return table[this.newEntry5 = max] = r; //(r = new char[] {c0, c1, c2, c3, c4});
}
final char[] optimizedCurrentTokenSource6() {
	//try to return the same char[] build only once

	char[] src = this.source;
	int start = this.startPosition;
	char c0, c1 = src[start+1], c2, c3 = src[start+3], c4, c5 = src[start+5];
	int hash = (((c0=src[start]) << 12) +((c2=src[start+2]) << 6) + (c4=src[start+4])) % TableSize;
//	int hash = (int)(((((long) c0) << 32) + (((long) c1) << 24) + (((long) c2) << 18) + (c3 << 12) + (c4 << 6) + c5) % TableSize);
	char[][] table = this.charArray_length[4][hash];
	int i = this.newEntry6;
	while (++i < InternalTableSize) {
		char[] charArray = table[i];
		if ((c0 == charArray[0])
			&& (c1 == charArray[1])
			&& (c2 == charArray[2])
			&& (c3 == charArray[3])
			&& (c4 == charArray[4])
			&& (c5 == charArray[5]))
			return charArray;
	}
	//---------other side---------
	i = -1;
	int max = this.newEntry6;
	while (++i <= max) {
		char[] charArray = table[i];
		if ((c0 == charArray[0])
			&& (c1 == charArray[1])
			&& (c2 == charArray[2])
			&& (c3 == charArray[3])
			&& (c4 == charArray[4])
			&& (c5 == charArray[5]))
			return charArray;
	}
	//--------add the entry-------
	if (++max >= InternalTableSize) max = 0;
	char[] r;
	System.arraycopy(src, start, r= new char[6], 0, 6);
	//newIdentCount++;
	return table[this.newEntry6 = max] = r; //(r = new char[] {c0, c1, c2, c3, c4, c5});
}

private void parseTags() {
	int position = 0;
	final int currentStartPosition = this.startPosition;
	final int currentLinePtr = this.linePtr;
	if (currentLinePtr >= 0) {
		position = this.lineEnds[currentLinePtr] + 1;
	}
	while (ScannerHelper.isWhitespace(this.source[position])) {
		position++;
	}
	if (currentStartPosition == position) {
		// the whole line is commented out
		return;
	}
	char[] s = null;
	int sourceEnd = this.currentPosition;
	int sourceStart = currentStartPosition;
	int sourceDelta = 0;
	if (this.withoutUnicodePtr != 0) {
		// 0 is used as a fast test flag so the real first char is in position 1
		System.arraycopy(
			this.withoutUnicodeBuffer,
			1,
			s = new char[this.withoutUnicodePtr],
			0,
			this.withoutUnicodePtr);
		sourceEnd = this.withoutUnicodePtr;
		sourceStart = 1;
		sourceDelta = currentStartPosition;
	} else {
		s = this.source;
	}
	int pos;
	if (this.checkNonExternalizedStringLiterals &&
			(pos = CharOperation.indexOf(TAG_PREFIX, s, true, sourceStart, sourceEnd)) != -1) {
		if (this.nlsTags == null) {
			this.nlsTags = new NLSTag[10];
			this.nlsTagsPtr = 0;
		}
		while (pos != -1) {
			int start = pos + TAG_PREFIX_LENGTH;
			int end = CharOperation.indexOf(TAG_POSTFIX, s, start, sourceEnd);
			if (end != -1) {
				NLSTag currentTag = null;
				final int currentLine = currentLinePtr + 1;
				try {
					currentTag = new NLSTag(pos + sourceDelta, end + sourceDelta, currentLine, extractInt(s, start, end));
				} catch (NumberFormatException e) {
					currentTag = new NLSTag(pos + sourceDelta, end + sourceDelta, currentLine, -1);
				}
				if (this.nlsTagsPtr == this.nlsTags.length) {
					// resize
					System.arraycopy(this.nlsTags, 0, (this.nlsTags = new NLSTag[this.nlsTagsPtr + 10]), 0, this.nlsTagsPtr);
				}
				this.nlsTags[this.nlsTagsPtr++] = currentTag;
			} else {
				end = start;
			}
			pos = CharOperation.indexOf(TAG_PREFIX, s, true, end, sourceEnd);
		}
	} 
	
	if (this.checkUninternedIdentityComparison &&
			(pos = CharOperation.indexOf(IDENTITY_COMPARISON_TAG, s, true, sourceStart, sourceEnd)) != -1) {
		if (this.validIdentityComparisonLines == null) {
			this.validIdentityComparisonLines = new boolean[0];
		}
		int currentLine = currentLinePtr + 1;
		int length = this.validIdentityComparisonLines.length;
		System.arraycopy(this.validIdentityComparisonLines, 0, this.validIdentityComparisonLines = new boolean[currentLine + 1], 0, length);
		this.validIdentityComparisonLines[currentLine] = true;
	}
}
private int extractInt(char[] array, int start, int end) {
	int value = 0;
	for (int i = start; i < end; i++) {
		final char currentChar = array[i];
		int digit = 0;
		switch(currentChar) {
			case '0' :
				digit = 0;
				break;
			case '1' :
				digit = 1;
				break;
			case '2' :
				digit = 2;
				break;
			case '3' :
				digit = 3;
				break;
			case '4' :
				digit = 4;
				break;
			case '5' :
				digit = 5;
				break;
			case '6' :
				digit = 6;
				break;
			case '7' :
				digit = 7;
				break;
			case '8' :
				digit = 8;
				break;
			case '9' :
				digit = 9;
				break;
			default :
				throw new NumberFormatException();
		}
		value *= 10;
		if (digit < 0) throw new NumberFormatException();
		value += digit;
	}
	return value;
}
public final void pushLineSeparator() {
	//see comment on isLineDelimiter(char) for the use of '\n' and '\r'
	final int INCREMENT = 250;
	//currentCharacter is at position currentPosition-1
	// cr 000D
	if (this.currentCharacter == '\r') {
		int separatorPos = this.currentPosition - 1;
		if ((this.linePtr >= 0) && (this.lineEnds[this.linePtr] >= separatorPos)) return;
		int length = this.lineEnds.length;
		if (++this.linePtr >=  length)
			System.arraycopy(this.lineEnds, 0, this.lineEnds = new int[length + INCREMENT], 0, length);
		this.lineEnds[this.linePtr] = separatorPos;
		// look-ahead for merged cr+lf
		try {
			if (this.source[this.currentPosition] == '\n') {
				//System.out.println("look-ahead LF-" + this.currentPosition);
				this.lineEnds[this.linePtr] = this.currentPosition;
				this.currentPosition++;
				this.wasAcr = false;
			} else {
				this.wasAcr = true;
			}
		} catch(IndexOutOfBoundsException e) {
			this.wasAcr = true;
		}
	} else {
		// lf 000A
		if (this.currentCharacter == '\n') { //must merge eventual cr followed by lf
			if (this.wasAcr && (this.lineEnds[this.linePtr] == (this.currentPosition - 2))) {
				//System.out.println("merge LF-" + (this.currentPosition - 1));
				this.lineEnds[this.linePtr] = this.currentPosition - 1;
			} else {
				int separatorPos = this.currentPosition - 1;
				if ((this.linePtr >= 0) && (this.lineEnds[this.linePtr] >= separatorPos)) return;
				int length = this.lineEnds.length;
				if (++this.linePtr >=  length)
					System.arraycopy(this.lineEnds, 0, this.lineEnds = new int[length + INCREMENT], 0, length);
				this.lineEnds[this.linePtr] = separatorPos;
			}
			this.wasAcr = false;
		}
	}
}
public final void pushUnicodeLineSeparator() {
	// cr 000D
	if (this.currentCharacter == '\r') {
		if (this.source[this.currentPosition] == '\n') {
			this.wasAcr = false;
		} else {
			this.wasAcr = true;
		}
	} else {
		// lf 000A
		if (this.currentCharacter == '\n') { //must merge eventual cr followed by lf
			this.wasAcr = false;
		}
	}
}

public void recordComment(int token) {
	// compute position
	int commentStart = this.startPosition;
	int stopPosition = this.currentPosition;
	switch (token) {
		case TokenNameCOMMENT_LINE:
			// both positions are negative
			commentStart = -this.startPosition;
			stopPosition = -this.lastCommentLinePosition;
			break;
		case TokenNameCOMMENT_BLOCK:
			// only end position is negative
			stopPosition = -this.currentPosition;
			break;
	}

	// a new comment is recorded
	int length = this.commentStops.length;
	if (++this.commentPtr >=  length) {
		int newLength = length + COMMENT_ARRAYS_SIZE*10;
		System.arraycopy(this.commentStops, 0, this.commentStops = new int[newLength], 0, length);
		System.arraycopy(this.commentStarts, 0, this.commentStarts = new int[newLength], 0, length);
		System.arraycopy(this.commentTagStarts, 0, this.commentTagStarts = new int[newLength], 0, length);
	}
	this.commentStops[this.commentPtr] = stopPosition;
	this.commentStarts[this.commentPtr] = commentStart;
}

/**
 * Reposition the scanner on some portion of the original source. The given endPosition is the last valid position.
 * Beyond this position, the scanner will answer EOF tokens (ITerminalSymbols.TokenNameEOF).
 *
 * @param begin the given start position
 * @param end the given end position
 */
public void resetTo(int begin, int end) {
	//reset the scanner to a given position where it may rescan again

	this.diet = false;
	this.initialPosition = this.startPosition = this.currentPosition = begin;
	if (this.source != null && this.source.length < end) {
		this.eofPosition = this.source.length;
	} else {
		this.eofPosition = end < Integer.MAX_VALUE ? end + 1 : end;
	}
	this.commentPtr = -1; // reset comment stack
	this.foundTaskCount = 0;
	this.lookBack[0] = this.lookBack[1] = this.nextToken = TokenNameNotAToken;
	this.consumingEllipsisAnnotations = false;
}

protected final void scanEscapeCharacter() throws InvalidInputException {
	// the string with "\\u" is a legal string of two chars \ and u
	//thus we use a direct access to the source (for regular cases).
	switch (this.currentCharacter) {
		case 'b' :
			this.currentCharacter = '\b';
			break;
		case 't' :
			this.currentCharacter = '\t';
			break;
		case 'n' :
			this.currentCharacter = '\n';
			break;
		case 'f' :
			this.currentCharacter = '\f';
			break;
		case 'r' :
			this.currentCharacter = '\r';
			break;
		case '\"' :
			this.currentCharacter = '\"';
			break;
		case '\'' :
			this.currentCharacter = '\'';
			break;
		case '\\' :
			this.currentCharacter = '\\';
			break;
		default :
			// -----------octal escape--------------
			// OctalDigit
			// OctalDigit OctalDigit
			// ZeroToThree OctalDigit OctalDigit

			int number = ScannerHelper.getHexadecimalValue(this.currentCharacter);
			if (number >= 0 && number <= 7) {
				boolean zeroToThreeNot = number > 3;
				if (ScannerHelper.isDigit(this.currentCharacter = this.source[this.currentPosition++])) {
					int digit = ScannerHelper.getHexadecimalValue(this.currentCharacter);
					if (digit >= 0 && digit <= 7) {
						number = (number * 8) + digit;
						if (ScannerHelper.isDigit(this.currentCharacter = this.source[this.currentPosition++])) {
							if (zeroToThreeNot) {// has read \NotZeroToThree OctalDigit Digit --> ignore last character
								this.currentPosition--;
							} else {
								digit = ScannerHelper.getHexadecimalValue(this.currentCharacter);
								if (digit >= 0 && digit <= 7){ // has read \ZeroToThree OctalDigit OctalDigit
									number = (number * 8) + digit;
								} else {// has read \ZeroToThree OctalDigit NonOctalDigit --> ignore last character
									this.currentPosition--;
								}
							}
						} else { // has read \OctalDigit NonDigit--> ignore last character
							this.currentPosition--;
						}
					} else { // has read \OctalDigit NonOctalDigit--> ignore last character
						this.currentPosition--;
					}
				} else { // has read \OctalDigit --> ignore last character
					this.currentPosition--;
				}
				if (number > 255)
					throw new InvalidInputException(INVALID_ESCAPE);
				this.currentCharacter = (char) number;
			} else
				throw new InvalidInputException(INVALID_ESCAPE);
	}
}
public int scanIdentifierOrKeywordWithBoundCheck() {
	//test keywords

	//first dispatch on the first char.
	//then the length. If there are several
	//keywors with the same length AND the same first char, then do another
	//dispatch on the second char
	this.useAssertAsAnIndentifier = false;
	this.useEnumAsAnIndentifier = false;

	char[] src = this.source;
	identLoop: {
		int pos;
		int srcLength = this.eofPosition;
		while (true) {
			if ((pos = this.currentPosition) >= srcLength) // handle the obvious case upfront
				break identLoop;
			char c = src[pos];
			if (c < ScannerHelper.MAX_OBVIOUS) {
				if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] &
						(ScannerHelper.C_UPPER_LETTER | ScannerHelper.C_LOWER_LETTER | ScannerHelper.C_IDENT_PART | ScannerHelper.C_DIGIT)) != 0) {
					if (this.withoutUnicodePtr != 0) {
							this.currentCharacter = c;
							unicodeStore();
						}
						this.currentPosition++;
				} else if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] & (ScannerHelper.C_SEPARATOR | ScannerHelper.C_JLS_SPACE)) != 0) {
						this.currentCharacter = c;
						break identLoop;
				} else {
					//System.out.println("slow<=128:  "+ c);
					while (getNextCharAsJavaIdentifierPartWithBoundCheck()){/*empty*/}
					break identLoop;
				}
			} else {
				//System.out.println("slow>>128:  "+ c);
				while (getNextCharAsJavaIdentifierPartWithBoundCheck()){/*empty*/}
				break identLoop;
			}
		}
	}

	int index, length;
	char[] data;
	if (this.withoutUnicodePtr == 0) {
		//quick test on length == 1 but not on length > 12 while most identifier
		//have a length which is <= 12...but there are lots of identifier with
		//only one char....
		if ((length = this.currentPosition - this.startPosition) == 1) {
			return TokenNameIdentifier;
		}
		data = this.source;
		index = this.startPosition;
	} else {
		if ((length = this.withoutUnicodePtr) == 1)
			return TokenNameIdentifier;
		data = this.withoutUnicodeBuffer;
		index = 1;
	}

	return internalScanIdentifierOrKeyword(index, length, data);
}
public int scanIdentifierOrKeyword() {
	//test keywords

	//first dispatch on the first char.
	//then the length. If there are several
	//keywords with the same length AND the same first char, then do another
	//dispatch on the second char
	this.useAssertAsAnIndentifier = false;
	this.useEnumAsAnIndentifier = false;

	char[] src = this.source;
	identLoop: {
		int pos;
		int srcLength = this.eofPosition;
		while (true) {
			if ((pos = this.currentPosition) >= srcLength) // handle the obvious case upfront
				break identLoop;
			char c = src[pos];
			if (c < ScannerHelper.MAX_OBVIOUS) {
				if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] &
						(ScannerHelper.C_UPPER_LETTER | ScannerHelper.C_LOWER_LETTER | ScannerHelper.C_IDENT_PART | ScannerHelper.C_DIGIT)) != 0) {
					if (this.withoutUnicodePtr != 0) {
							this.currentCharacter = c;
							unicodeStore();
						}
						this.currentPosition++;
				} else if ((ScannerHelper.OBVIOUS_IDENT_CHAR_NATURES[c] & (ScannerHelper.C_SEPARATOR | ScannerHelper.C_JLS_SPACE)) != 0) {
						this.currentCharacter = c;
						break identLoop;
				} else {
					//System.out.println("slow<=128:  "+ c);
					while (getNextCharAsJavaIdentifierPart()){/*empty*/}
					break identLoop;
				}
			} else {
				//System.out.println("slow>>128:  "+ c);
				while (getNextCharAsJavaIdentifierPart()){/*empty*/}
				break identLoop;
			}
		}
	}

	int index, length;
	char[] data;
	if (this.withoutUnicodePtr == 0) {
		//quick test on length == 1 but not on length > 12 while most identifier
		//have a length which is <= 12...but there are lots of identifier with
		//only one char....
		if ((length = this.currentPosition - this.startPosition) == 1) {
			return TokenNameIdentifier;
		}
		data = this.source;
		index = this.startPosition;
	} else {
		if ((length = this.withoutUnicodePtr) == 1)
			return TokenNameIdentifier;
		data = this.withoutUnicodeBuffer;
		index = 1;
	}

	return internalScanIdentifierOrKeyword(index, length, data);
}
private int internalScanIdentifierOrKeyword(int index, int length, char[] data) {
	switch (data[index]) {
		case 'a' :
			switch(length) {
				case 8: //abstract
					if ((data[++index] == 'b')
						&& (data[++index] == 's')
						&& (data[++index] == 't')
						&& (data[++index] == 'r')
						&& (data[++index] == 'a')
						&& (data[++index] == 'c')
						&& (data[++index] == 't')) {
							return TokenNameabstract;
						} else {
							return TokenNameIdentifier;
						}
				case 6: // assert
					if ((data[++index] == 's')
						&& (data[++index] == 's')
						&& (data[++index] == 'e')
						&& (data[++index] == 'r')
						&& (data[++index] == 't')) {
							if (this.sourceLevel >= ClassFileConstants.JDK1_4) {
								this.containsAssertKeyword = true;
								return TokenNameassert;
							} else {
								this.useAssertAsAnIndentifier = true;
								return TokenNameIdentifier;
							}
						} else {
							return TokenNameIdentifier;
						}
				default:
					return TokenNameIdentifier;
			}
		case 'b' : //boolean break byte
			switch (length) {
				case 4 :
					if ((data[++index] == 'y') && (data[++index] == 't') && (data[++index] == 'e'))
						return TokenNamebyte;
					else
						return TokenNameIdentifier;
				case 5 :
					if ((data[++index] == 'r')
						&& (data[++index] == 'e')
						&& (data[++index] == 'a')
						&& (data[++index] == 'k'))
						return TokenNamebreak;
					else
						return TokenNameIdentifier;
				case 7 :
					if ((data[++index] == 'o')
						&& (data[++index] == 'o')
						&& (data[++index] == 'l')
						&& (data[++index] == 'e')
						&& (data[++index] == 'a')
						&& (data[++index] == 'n'))
						return TokenNameboolean;
					else
						return TokenNameIdentifier;
				default :
					return TokenNameIdentifier;
			}

		case 'c' : //case char catch const class continue
			switch (length) {
				case 4 :
					if (data[++index] == 'a')
						if ((data[++index] == 's') && (data[++index] == 'e'))
							return TokenNamecase;
						else
							return TokenNameIdentifier;
					else
						if ((data[index] == 'h') && (data[++index] == 'a') && (data[++index] == 'r'))
							return TokenNamechar;
						else
							return TokenNameIdentifier;
				case 5 :
					if (data[++index] == 'a')
						if ((data[++index] == 't') && (data[++index] == 'c') && (data[++index] == 'h'))
							return TokenNamecatch;
						else
							return TokenNameIdentifier;
					else
						if (data[index] == 'l')
							if ((data[++index] == 'a')
								&& (data[++index] == 's')
								&& (data[++index] == 's'))
								return TokenNameclass;
							else
								return TokenNameIdentifier;
						else if ((data[index] == 'o')
							&& (data[++index] == 'n')
							&& (data[++index] == 's')
							&& (data[++index] == 't'))
							return TokenNameconst; //const is not used in java ???????
						else
							return TokenNameIdentifier;
				case 8 :
					if ((data[++index] == 'o')
						&& (data[++index] == 'n')
						&& (data[++index] == 't')
						&& (data[++index] == 'i')
						&& (data[++index] == 'n')
						&& (data[++index] == 'u')
						&& (data[++index] == 'e'))
						return TokenNamecontinue;
					else
						return TokenNameIdentifier;
				default :
					return TokenNameIdentifier;
			}

		case 'd' : //default do double
			switch (length) {
				case 2 :
					if ((data[++index] == 'o'))
						return TokenNamedo;
					else
						return TokenNameIdentifier;
				case 6 :
					if ((data[++index] == 'o')
						&& (data[++index] == 'u')
						&& (data[++index] == 'b')
						&& (data[++index] == 'l')
						&& (data[++index] == 'e'))
						return TokenNamedouble;
					else
						return TokenNameIdentifier;
				case 7 :
					if ((data[++index] == 'e')
						&& (data[++index] == 'f')
						&& (data[++index] == 'a')
						&& (data[++index] == 'u')
						&& (data[++index] == 'l')
						&& (data[++index] == 't'))
						return TokenNamedefault;
					else
						return TokenNameIdentifier;
				default :
					return TokenNameIdentifier;
			}
		case 'e' : //else extends
			switch (length) {
				case 4 :
					if (data[++index] == 'l') {
						if ((data[++index] == 's') && (data[++index] == 'e')) {
							return TokenNameelse;
						} else {
							return TokenNameIdentifier;
						}
					} else if ((data[index] == 'n')
							&& (data[++index] == 'u')
							&& (data[++index] == 'm')) {
						if (this.sourceLevel >= ClassFileConstants.JDK1_5) {
							return TokenNameenum;
						} else {
							this.useEnumAsAnIndentifier = true;
							return TokenNameIdentifier;
						}
					}
					return TokenNameIdentifier;
				case 7 :
					if ((data[++index] == 'x')
						&& (data[++index] == 't')
						&& (data[++index] == 'e')
						&& (data[++index] == 'n')
						&& (data[++index] == 'd')
						&& (data[++index] == 's'))
						return TokenNameextends;
					else
						return TokenNameIdentifier;
				default :
					return TokenNameIdentifier;
			}

		case 'f' : //final finally float for false
			switch (length) {
				case 3 :
					if ((data[++index] == 'o') && (data[++index] == 'r'))
						return TokenNamefor;
					else
						return TokenNameIdentifier;
				case 5 :
					if (data[++index] == 'i')
						if ((data[++index] == 'n')
							&& (data[++index] == 'a')
							&& (data[++index] == 'l')) {
							return TokenNamefinal;
						} else
							return TokenNameIdentifier;
					else
						if (data[index] == 'l')
							if ((data[++index] == 'o')
								&& (data[++index] == 'a')
								&& (data[++index] == 't'))
								return TokenNamefloat;
							else
								return TokenNameIdentifier;
						else
							if ((data[index] == 'a')
								&& (data[++index] == 'l')
								&& (data[++index] == 's')
								&& (data[++index] == 'e'))
								return TokenNamefalse;
							else
								return TokenNameIdentifier;
				case 7 :
					if ((data[++index] == 'i')
						&& (data[++index] == 'n')
						&& (data[++index] == 'a')
						&& (data[++index] == 'l')
						&& (data[++index] == 'l')
						&& (data[++index] == 'y'))
						return TokenNamefinally;
					else
						return TokenNameIdentifier;

				default :
					return TokenNameIdentifier;
			}
		case 'g' : //goto
			if (length == 4) {
				if ((data[++index] == 'o')
					&& (data[++index] == 't')
					&& (data[++index] == 'o')) {
					return TokenNamegoto;
				}
			} //no goto in java are allowed, so why java removes this keyword ???
			return TokenNameIdentifier;

		case 'i' : //if implements import instanceof int interface
			switch (length) {
				case 2 :
					if (data[++index] == 'f')
						return TokenNameif;
					else
						return TokenNameIdentifier;
				case 3 :
					if ((data[++index] == 'n') && (data[++index] == 't'))
						return TokenNameint;
					else
						return TokenNameIdentifier;
				case 6 :
					if ((data[++index] == 'm')
						&& (data[++index] == 'p')
						&& (data[++index] == 'o')
						&& (data[++index] == 'r')
						&& (data[++index] == 't'))
						return TokenNameimport;
					else
						return TokenNameIdentifier;
				case 9 :
					if ((data[++index] == 'n')
						&& (data[++index] == 't')
						&& (data[++index] == 'e')
						&& (data[++index] == 'r')
						&& (data[++index] == 'f')
						&& (data[++index] == 'a')
						&& (data[++index] == 'c')
						&& (data[++index] == 'e'))
						return TokenNameinterface;
					else
						return TokenNameIdentifier;
				case 10 :
					if (data[++index] == 'm')
						if ((data[++index] == 'p')
							&& (data[++index] == 'l')
							&& (data[++index] == 'e')
							&& (data[++index] == 'm')
							&& (data[++index] == 'e')
							&& (data[++index] == 'n')
							&& (data[++index] == 't')
							&& (data[++index] == 's'))
							return TokenNameimplements;
						else
							return TokenNameIdentifier;
					else
						if ((data[index] == 'n')
							&& (data[++index] == 's')
							&& (data[++index] == 't')
							&& (data[++index] == 'a')
							&& (data[++index] == 'n')
							&& (data[++index] == 'c')
							&& (data[++index] == 'e')
							&& (data[++index] == 'o')
							&& (data[++index] == 'f'))
							return TokenNameinstanceof;
						else
							return TokenNameIdentifier;

				default :
					return TokenNameIdentifier;
			}

		case 'l' : //long
			if (length == 4) {
				if ((data[++index] == 'o')
					&& (data[++index] == 'n')
					&& (data[++index] == 'g')) {
					return TokenNamelong;
				}
			}
			return TokenNameIdentifier;

		case 'n' : //native new null
			switch (length) {
				case 3 :
					if ((data[++index] == 'e') && (data[++index] == 'w'))
						return TokenNamenew;
					else
						return TokenNameIdentifier;
				case 4 :
					if ((data[++index] == 'u') && (data[++index] == 'l') && (data[++index] == 'l'))
						return TokenNamenull;
					else
						return TokenNameIdentifier;
				case 6 :
					if ((data[++index] == 'a')
						&& (data[++index] == 't')
						&& (data[++index] == 'i')
						&& (data[++index] == 'v')
						&& (data[++index] == 'e')) {
						return TokenNamenative;
					} else
						return TokenNameIdentifier;
				default :
					return TokenNameIdentifier;
			}

		case 'p' : //package private protected public
			switch (length) {
				case 6 :
					if ((data[++index] == 'u')
						&& (data[++index] == 'b')
						&& (data[++index] == 'l')
						&& (data[++index] == 'i')
						&& (data[++index] == 'c')) {
						return TokenNamepublic;
					} else
						return TokenNameIdentifier;
				case 7 :
					if (data[++index] == 'a')
						if ((data[++index] == 'c')
							&& (data[++index] == 'k')
							&& (data[++index] == 'a')
							&& (data[++index] == 'g')
							&& (data[++index] == 'e'))
							return TokenNamepackage;
						else
							return TokenNameIdentifier;
					else
						if ((data[index] == 'r')
							&& (data[++index] == 'i')
							&& (data[++index] == 'v')
							&& (data[++index] == 'a')
							&& (data[++index] == 't')
							&& (data[++index] == 'e')) {
							return TokenNameprivate;
						} else
							return TokenNameIdentifier;
				case 9 :
					if ((data[++index] == 'r')
						&& (data[++index] == 'o')
						&& (data[++index] == 't')
						&& (data[++index] == 'e')
						&& (data[++index] == 'c')
						&& (data[++index] == 't')
						&& (data[++index] == 'e')
						&& (data[++index] == 'd')) {
						return TokenNameprotected;
					} else
						return TokenNameIdentifier;

				default :
					return TokenNameIdentifier;
			}

		case 'r' : //return
			if (length == 6) {
				if ((data[++index] == 'e')
					&& (data[++index] == 't')
					&& (data[++index] == 'u')
					&& (data[++index] == 'r')
					&& (data[++index] == 'n')) {
					return TokenNamereturn;
				}
			}
			return TokenNameIdentifier;

		case 's' : //short static super switch synchronized strictfp
			switch (length) {
				case 5 :
					if (data[++index] == 'h')
						if ((data[++index] == 'o') && (data[++index] == 'r') && (data[++index] == 't'))
							return TokenNameshort;
						else
							return TokenNameIdentifier;
					else
						if ((data[index] == 'u')
							&& (data[++index] == 'p')
							&& (data[++index] == 'e')
							&& (data[++index] == 'r'))
							return TokenNamesuper;
						else
							return TokenNameIdentifier;

				case 6 :
					if (data[++index] == 't')
						if ((data[++index] == 'a')
							&& (data[++index] == 't')
							&& (data[++index] == 'i')
							&& (data[++index] == 'c')) {
							return TokenNamestatic;
						} else
							return TokenNameIdentifier;
					else
						if ((data[index] == 'w')
							&& (data[++index] == 'i')
							&& (data[++index] == 't')
							&& (data[++index] == 'c')
							&& (data[++index] == 'h'))
							return TokenNameswitch;
						else
							return TokenNameIdentifier;
				case 8 :
					if ((data[++index] == 't')
						&& (data[++index] == 'r')
						&& (data[++index] == 'i')
						&& (data[++index] == 'c')
						&& (data[++index] == 't')
						&& (data[++index] == 'f')
						&& (data[++index] == 'p'))
						return TokenNamestrictfp;
					else
						return TokenNameIdentifier;
				case 12 :
					if ((data[++index] == 'y')
						&& (data[++index] == 'n')
						&& (data[++index] == 'c')
						&& (data[++index] == 'h')
						&& (data[++index] == 'r')
						&& (data[++index] == 'o')
						&& (data[++index] == 'n')
						&& (data[++index] == 'i')
						&& (data[++index] == 'z')
						&& (data[++index] == 'e')
						&& (data[++index] == 'd')) {
						return TokenNamesynchronized;
					} else
						return TokenNameIdentifier;
				default :
					return TokenNameIdentifier;
			}

		case 't' : //try throw throws transient this true
			switch (length) {
				case 3 :
					if ((data[++index] == 'r') && (data[++index] == 'y'))
						return TokenNametry;
					else
						return TokenNameIdentifier;
				case 4 :
					if (data[++index] == 'h')
						if ((data[++index] == 'i') && (data[++index] == 's'))
							return TokenNamethis;
						else
							return TokenNameIdentifier;
					else
						if ((data[index] == 'r') && (data[++index] == 'u') && (data[++index] == 'e'))
							return TokenNametrue;
						else
							return TokenNameIdentifier;
				case 5 :
					if ((data[++index] == 'h')
						&& (data[++index] == 'r')
						&& (data[++index] == 'o')
						&& (data[++index] == 'w'))
						return TokenNamethrow;
					else
						return TokenNameIdentifier;
				case 6 :
					if ((data[++index] == 'h')
						&& (data[++index] == 'r')
						&& (data[++index] == 'o')
						&& (data[++index] == 'w')
						&& (data[++index] == 's'))
						return TokenNamethrows;
					else
						return TokenNameIdentifier;
				case 9 :
					if ((data[++index] == 'r')
						&& (data[++index] == 'a')
						&& (data[++index] == 'n')
						&& (data[++index] == 's')
						&& (data[++index] == 'i')
						&& (data[++index] == 'e')
						&& (data[++index] == 'n')
						&& (data[++index] == 't')) {
						return TokenNametransient;
					} else
						return TokenNameIdentifier;

				default :
					return TokenNameIdentifier;
			}

		case 'v' : //void volatile
			switch (length) {
				case 4 :
					if ((data[++index] == 'o') && (data[++index] == 'i') && (data[++index] == 'd'))
						return TokenNamevoid;
					else
						return TokenNameIdentifier;
				case 8 :
					if ((data[++index] == 'o')
						&& (data[++index] == 'l')
						&& (data[++index] == 'a')
						&& (data[++index] == 't')
						&& (data[++index] == 'i')
						&& (data[++index] == 'l')
						&& (data[++index] == 'e')) {
						return TokenNamevolatile;
					} else
						return TokenNameIdentifier;

				default :
					return TokenNameIdentifier;
			}

		case 'w' : //while widefp
			switch (length) {
				case 5 :
					if ((data[++index] == 'h')
						&& (data[++index] == 'i')
						&& (data[++index] == 'l')
						&& (data[++index] == 'e'))
						return TokenNamewhile;
					else
						return TokenNameIdentifier;
					//case 6:if ( (data[++index] =='i') && (data[++index]=='d') && (data[++index]=='e') && (data[++index]=='f')&& (data[++index]=='p'))
					//return TokenNamewidefp ;
					//else
					//return TokenNameIdentifier;
				default :
					return TokenNameIdentifier;
			}

		default :
			return TokenNameIdentifier;
	}
}


public int scanNumber(boolean dotPrefix) throws InvalidInputException {

	//when entering this method the currentCharacter is the first
	//digit of the number. It may be preceeded by a '.' when
	//dotPrefix is true

	boolean floating = dotPrefix;
	if (!dotPrefix && (this.currentCharacter == '0')) {
		if (getNextChar('x', 'X') >= 0) { //----------hexa-----------------
			int start = this.currentPosition;
			consumeDigits(16, true);
			int end = this.currentPosition;
			if (getNextChar('l', 'L') >= 0) {
				if (end == start) {
					throw new InvalidInputException(INVALID_HEXA);
				}
				return TokenNameLongLiteral;
			} else if (getNextChar('.')) {
				// hexadecimal floating point literal
				// read decimal part
				boolean hasNoDigitsBeforeDot = end == start;
				start = this.currentPosition;
				consumeDigits(16, true);
				end = this.currentPosition;
				if (hasNoDigitsBeforeDot && end == start) {
					if (this.sourceLevel < ClassFileConstants.JDK1_5) {
						throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
					}
					throw new InvalidInputException(INVALID_HEXA);
				}

				if (getNextChar('p', 'P') >= 0) { // consume next character
					this.unicodeAsBackSlash = false;
					if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
							&& (this.source[this.currentPosition] == 'u')) {
						getNextUnicodeChar();
					} else {
						if (this.withoutUnicodePtr != 0) {
							unicodeStore();
						}
					}

					if ((this.currentCharacter == '-')
							|| (this.currentCharacter == '+')) { // consume next character
						this.unicodeAsBackSlash = false;
						if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
								&& (this.source[this.currentPosition] == 'u')) {
							getNextUnicodeChar();
						} else {
							if (this.withoutUnicodePtr != 0) {
								unicodeStore();
							}
						}
					}
					if (!ScannerHelper.isDigit(this.currentCharacter)) {
						if (this.sourceLevel < ClassFileConstants.JDK1_5) {
							throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
						}
						if (this.currentCharacter == '_') {
							// wrongly place '_'
							consumeDigits(10);
							throw new InvalidInputException(INVALID_UNDERSCORE);
						}
						throw new InvalidInputException(INVALID_HEXA);
					}
					consumeDigits(10);
					if (getNextChar('f', 'F') >= 0) {
						if (this.sourceLevel < ClassFileConstants.JDK1_5) {
							throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
						}
						return TokenNameFloatingPointLiteral;
					}
					if (getNextChar('d', 'D') >= 0) {
						if (this.sourceLevel < ClassFileConstants.JDK1_5) {
							throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
						}
						return TokenNameDoubleLiteral;
					}
					if (getNextChar('l', 'L') >= 0) {
						if (this.sourceLevel < ClassFileConstants.JDK1_5) {
							throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
						}
						throw new InvalidInputException(INVALID_HEXA);
					}
					if (this.sourceLevel < ClassFileConstants.JDK1_5) {
						throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
					}
					return TokenNameDoubleLiteral;
				} else {
					if (this.sourceLevel < ClassFileConstants.JDK1_5) {
						throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
					}
					throw new InvalidInputException(INVALID_HEXA);
				}
			} else if (getNextChar('p', 'P') >= 0) { // consume next character
				if (end == start) { // Has no digits before exponent
					if (this.sourceLevel < ClassFileConstants.JDK1_5) {
						throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
					}
					throw new InvalidInputException(INVALID_HEXA);
				}
				this.unicodeAsBackSlash = false;
				if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
						&& (this.source[this.currentPosition] == 'u')) {
					getNextUnicodeChar();
				} else {
					if (this.withoutUnicodePtr != 0) {
						unicodeStore();
					}
				}

				if ((this.currentCharacter == '-')
						|| (this.currentCharacter == '+')) { // consume next character
					this.unicodeAsBackSlash = false;
					if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
							&& (this.source[this.currentPosition] == 'u')) {
						getNextUnicodeChar();
					} else {
						if (this.withoutUnicodePtr != 0) {
							unicodeStore();
						}
					}
				}
				if (!ScannerHelper.isDigit(this.currentCharacter)) {
					if (this.sourceLevel < ClassFileConstants.JDK1_5) {
						throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
					}
					if (this.currentCharacter == '_') {
						// wrongly place '_'
						consumeDigits(10);
						throw new InvalidInputException(INVALID_UNDERSCORE);
					}
					throw new InvalidInputException(INVALID_FLOAT);
				}
				consumeDigits(10);
				if (getNextChar('f', 'F') >= 0) {
					if (this.sourceLevel < ClassFileConstants.JDK1_5) {
						throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
					}
					return TokenNameFloatingPointLiteral;
				}
				if (getNextChar('d', 'D') >= 0) {
					if (this.sourceLevel < ClassFileConstants.JDK1_5) {
						throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
					}
					return TokenNameDoubleLiteral;
				}
				if (getNextChar('l', 'L') >= 0) {
					if (this.sourceLevel < ClassFileConstants.JDK1_5) {
						throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
					}
					throw new InvalidInputException(INVALID_HEXA);
				}
				if (this.sourceLevel < ClassFileConstants.JDK1_5) {
					throw new InvalidInputException(ILLEGAL_HEXA_LITERAL);
				}
				return TokenNameDoubleLiteral;
			} else {
				if (end == start)
					throw new InvalidInputException(INVALID_HEXA);
				return TokenNameIntegerLiteral;
			}
		} else if (getNextChar('b', 'B') >= 0) { //----------binary-----------------
			int start = this.currentPosition;
			consumeDigits(2, true);
			int end = this.currentPosition;
			if (end == start) {
				if (this.sourceLevel < ClassFileConstants.JDK1_7) {
					throw new InvalidInputException(BINARY_LITERAL_NOT_BELOW_17);
				}
				throw new InvalidInputException(INVALID_BINARY);
			}
			if (getNextChar('l', 'L') >= 0) {
				if (this.sourceLevel < ClassFileConstants.JDK1_7) {
					throw new InvalidInputException(BINARY_LITERAL_NOT_BELOW_17);
				}
				return TokenNameLongLiteral;
			}
			if (this.sourceLevel < ClassFileConstants.JDK1_7) {
				throw new InvalidInputException(BINARY_LITERAL_NOT_BELOW_17);
			}
			return TokenNameIntegerLiteral;
		}

		//there is no x or X nor b or B in the number
		//potential octal
		if (getNextCharAsDigit()) { //-------------potential octal-----------------
			consumeDigits(10);

			if (getNextChar('l', 'L') >= 0) {
				return TokenNameLongLiteral;
			}

			if (getNextChar('f', 'F') >= 0) {
				return TokenNameFloatingPointLiteral;
			}

			if (getNextChar('d', 'D') >= 0) {
				return TokenNameDoubleLiteral;
			} else { //make the distinction between octal and float ....
				boolean isInteger = true;
				if (getNextChar('.')) {
					isInteger = false;
					consumeDigits(10);
				}
				if (getNextChar('e', 'E') >= 0) { // consume next character
					isInteger = false;
					this.unicodeAsBackSlash = false;
					if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
							&& (this.source[this.currentPosition] == 'u')) {
						getNextUnicodeChar();
					} else {
						if (this.withoutUnicodePtr != 0) {
							unicodeStore();
						}
					}

					if ((this.currentCharacter == '-')
							|| (this.currentCharacter == '+')) { // consume next character
						this.unicodeAsBackSlash = false;
						if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
								&& (this.source[this.currentPosition] == 'u')) {
							getNextUnicodeChar();
						} else {
							if (this.withoutUnicodePtr != 0) {
								unicodeStore();
							}
						}
					}
					if (!ScannerHelper.isDigit(this.currentCharacter)) {
						if (this.currentCharacter == '_') {
							// wrongly place '_'
							consumeDigits(10);
							throw new InvalidInputException(INVALID_UNDERSCORE);
						}
						throw new InvalidInputException(INVALID_FLOAT);
					}
					consumeDigits(10);
				}
				if (getNextChar('f', 'F') >= 0)
					return TokenNameFloatingPointLiteral;
				if (getNextChar('d', 'D') >= 0 || !isInteger)
					return TokenNameDoubleLiteral;
				return TokenNameIntegerLiteral;
			}
		} else {
			/* carry on */
		}
	}

	consumeDigits(10);

	if ((!dotPrefix) && (getNextChar('l', 'L') >= 0))
		return TokenNameLongLiteral;

	if ((!dotPrefix) && (getNextChar('.'))) { //decimal part that can be empty
		consumeDigits(10, true);
		floating = true;
	}

	//if floating is true both exponant and suffix may be optional

	if (getNextChar('e', 'E') >= 0) {
		floating = true;
		// consume next character
		this.unicodeAsBackSlash = false;
		if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
				&& (this.source[this.currentPosition] == 'u')) {
			getNextUnicodeChar();
		} else {
			if (this.withoutUnicodePtr != 0) {
				unicodeStore();
			}
		}

		if ((this.currentCharacter == '-')
				|| (this.currentCharacter == '+')) { // consume next character
			this.unicodeAsBackSlash = false;
			if (((this.currentCharacter = this.source[this.currentPosition++]) == '\\')
					&& (this.source[this.currentPosition] == 'u')) {
				getNextUnicodeChar();
			} else {
				if (this.withoutUnicodePtr != 0) {
					unicodeStore();
				}
			}
		}
		if (!ScannerHelper.isDigit(this.currentCharacter)) {
			if (this.currentCharacter == '_') {
				// wrongly place '_'
				consumeDigits(10);
				throw new InvalidInputException(INVALID_UNDERSCORE);
			}
			throw new InvalidInputException(INVALID_FLOAT);
		}
		// current character is a digit so we expect no digit first (the next character could be an underscore)
		consumeDigits(10);
	}

	if (getNextChar('d', 'D') >= 0)
		return TokenNameDoubleLiteral;
	if (getNextChar('f', 'F') >= 0)
		return TokenNameFloatingPointLiteral;

	//the long flag has been tested before

	return floating ? TokenNameDoubleLiteral : TokenNameIntegerLiteral;
}

/**
 * Search the line number corresponding to a specific position
 * @param position int
 * @return int
 */
public final int getLineNumber(int position) {
	return Util.getLineNumber(position, this.lineEnds, 0, this.linePtr);
}
public final void setSource(char[] sourceString){
	//the source-buffer is set to sourceString

	int sourceLength;
	if (sourceString == null) {
		this.source = CharOperation.NO_CHAR;
		sourceLength = 0;
	} else {
		this.source = sourceString;
		sourceLength = sourceString.length;
	}
	this.startPosition = -1;
	this.eofPosition = sourceLength;
	this.initialPosition = this.currentPosition = 0;
	this.containsAssertKeyword = false;
	this.linePtr = -1;
}
/*
 * Should be used if a parse (usually a diet parse) has already been performed on the unit,
 * so as to get the already computed line end positions.
 */
public final void setSource(char[] contents, CompilationResult compilationResult) {
	if (contents == null) {
		char[] cuContents = compilationResult.compilationUnit.getContents();
		setSource(cuContents);
	} else {
		setSource(contents);
	}
	int[] lineSeparatorPositions = compilationResult.lineSeparatorPositions;
	if (lineSeparatorPositions != null) {
		this.lineEnds = lineSeparatorPositions;
		this.linePtr = lineSeparatorPositions.length - 1;
	}
}
/*
 * Should be used if a parse (usually a diet parse) has already been performed on the unit,
 * so as to get the already computed line end positions.
 */
public final void setSource(CompilationResult compilationResult) {
	setSource(null, compilationResult);
}
public String toString() {
	if (this.startPosition == this.eofPosition)
		return "EOF\n\n" + new String(this.source); //$NON-NLS-1$
	if (this.currentPosition > this.eofPosition)
		return "behind the EOF\n\n" + new String(this.source); //$NON-NLS-1$
	if (this.currentPosition <= 0)
		return "NOT started!\n\n"+ (this.source != null ? new String(this.source) : ""); //$NON-NLS-1$ //$NON-NLS-2$

	StringBuffer buffer = new StringBuffer();
	if (this.startPosition < 1000) {
		buffer.append(this.source, 0, this.startPosition);
	} else {
		buffer.append("\n...\n"); //$NON-NLS-1$
		int line = Util.getLineNumber(this.startPosition-1000, this.lineEnds, 0, this.linePtr);
		int lineStart = getLineStart(line);
		buffer.append(this.source, lineStart, this.startPosition-lineStart);
	}

	buffer.append("\n===============================\nStarts here -->"); //$NON-NLS-1$
	int middleLength = (this.currentPosition - 1) - this.startPosition + 1;
	if (middleLength > -1) {
		buffer.append(this.source, this.startPosition, middleLength);
	}
	if (this.nextToken != TerminalTokens.TokenNameNotAToken) {
		buffer.append("<-- Ends here [in pipeline " + toStringAction(this.nextToken) + "]\n===============================\n"); //$NON-NLS-1$ //$NON-NLS-2$
	} else {
		buffer.append("<-- Ends here\n===============================\n"); //$NON-NLS-1$
	}

	buffer.append(this.source, (this.currentPosition - 1) + 1, this.eofPosition - (this.currentPosition - 1) - 1);

	return buffer.toString();
}
public String toStringAction(int act) {
	switch (act) {
		case TokenNameIdentifier :
			return "Identifier(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
		case TokenNameabstract :
			return "abstract"; //$NON-NLS-1$
		case TokenNameboolean :
			return "boolean"; //$NON-NLS-1$
		case TokenNamebreak :
			return "break"; //$NON-NLS-1$
		case TokenNamebyte :
			return "byte"; //$NON-NLS-1$
		case TokenNamecase :
			return "case"; //$NON-NLS-1$
		case TokenNamecatch :
			return "catch"; //$NON-NLS-1$
		case TokenNamechar :
			return "char"; //$NON-NLS-1$
		case TokenNameclass :
			return "class"; //$NON-NLS-1$
		case TokenNamecontinue :
			return "continue"; //$NON-NLS-1$
		case TokenNamedefault :
			return "default"; //$NON-NLS-1$
		case TokenNamedo :
			return "do"; //$NON-NLS-1$
		case TokenNamedouble :
			return "double"; //$NON-NLS-1$
		case TokenNameelse :
			return "else"; //$NON-NLS-1$
		case TokenNameextends :
			return "extends"; //$NON-NLS-1$
		case TokenNamefalse :
			return "false"; //$NON-NLS-1$
		case TokenNamefinal :
			return "final"; //$NON-NLS-1$
		case TokenNamefinally :
			return "finally"; //$NON-NLS-1$
		case TokenNamefloat :
			return "float"; //$NON-NLS-1$
		case TokenNamefor :
			return "for"; //$NON-NLS-1$
		case TokenNameif :
			return "if"; //$NON-NLS-1$
		case TokenNameimplements :
			return "implements"; //$NON-NLS-1$
		case TokenNameimport :
			return "import"; //$NON-NLS-1$
		case TokenNameinstanceof :
			return "instanceof"; //$NON-NLS-1$
		case TokenNameint :
			return "int"; //$NON-NLS-1$
		case TokenNameinterface :
			return "interface"; //$NON-NLS-1$
		case TokenNamelong :
			return "long"; //$NON-NLS-1$
		case TokenNamenative :
			return "native"; //$NON-NLS-1$
		case TokenNamenew :
			return "new"; //$NON-NLS-1$
		case TokenNamenull :
			return "null"; //$NON-NLS-1$
		case TokenNamepackage :
			return "package"; //$NON-NLS-1$
		case TokenNameprivate :
			return "private"; //$NON-NLS-1$
		case TokenNameprotected :
			return "protected"; //$NON-NLS-1$
		case TokenNamepublic :
			return "public"; //$NON-NLS-1$
		case TokenNamereturn :
			return "return"; //$NON-NLS-1$
		case TokenNameshort :
			return "short"; //$NON-NLS-1$
		case TokenNamestatic :
			return "static"; //$NON-NLS-1$
		case TokenNamesuper :
			return "super"; //$NON-NLS-1$
		case TokenNameswitch :
			return "switch"; //$NON-NLS-1$
		case TokenNamesynchronized :
			return "synchronized"; //$NON-NLS-1$
		case TokenNamethis :
			return "this"; //$NON-NLS-1$
		case TokenNamethrow :
			return "throw"; //$NON-NLS-1$
		case TokenNamethrows :
			return "throws"; //$NON-NLS-1$
		case TokenNametransient :
			return "transient"; //$NON-NLS-1$
		case TokenNametrue :
			return "true"; //$NON-NLS-1$
		case TokenNametry :
			return "try"; //$NON-NLS-1$
		case TokenNamevoid :
			return "void"; //$NON-NLS-1$
		case TokenNamevolatile :
			return "volatile"; //$NON-NLS-1$
		case TokenNamewhile :
			return "while"; //$NON-NLS-1$

		case TokenNameIntegerLiteral :
			return "Integer(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
		case TokenNameLongLiteral :
			return "Long(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
		case TokenNameFloatingPointLiteral :
			return "Float(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
		case TokenNameDoubleLiteral :
			return "Double(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
		case TokenNameCharacterLiteral :
			return "Char(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
		case TokenNameStringLiteral :
			return "String(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$

		case TokenNamePLUS_PLUS :
			return "++"; //$NON-NLS-1$
		case TokenNameMINUS_MINUS :
			return "--"; //$NON-NLS-1$
		case TokenNameEQUAL_EQUAL :
			return "=="; //$NON-NLS-1$
		case TokenNameLESS_EQUAL :
			return "<="; //$NON-NLS-1$
		case TokenNameGREATER_EQUAL :
			return ">="; //$NON-NLS-1$
		case TokenNameNOT_EQUAL :
			return "!="; //$NON-NLS-1$
		case TokenNameLEFT_SHIFT :
			return "<<"; //$NON-NLS-1$
		case TokenNameRIGHT_SHIFT :
			return ">>"; //$NON-NLS-1$
		case TokenNameUNSIGNED_RIGHT_SHIFT :
			return ">>>"; //$NON-NLS-1$
		case TokenNamePLUS_EQUAL :
			return "+="; //$NON-NLS-1$
		case TokenNameMINUS_EQUAL :
			return "-="; //$NON-NLS-1$
		case TokenNameARROW :
			return "->"; //$NON-NLS-1$
		case TokenNameMULTIPLY_EQUAL :
			return "*="; //$NON-NLS-1$
		case TokenNameDIVIDE_EQUAL :
			return "/="; //$NON-NLS-1$
		case TokenNameAND_EQUAL :
			return "&="; //$NON-NLS-1$
		case TokenNameOR_EQUAL :
			return "|="; //$NON-NLS-1$
		case TokenNameXOR_EQUAL :
			return "^="; //$NON-NLS-1$
		case TokenNameREMAINDER_EQUAL :
			return "%="; //$NON-NLS-1$
		case TokenNameLEFT_SHIFT_EQUAL :
			return "<<="; //$NON-NLS-1$
		case TokenNameRIGHT_SHIFT_EQUAL :
			return ">>="; //$NON-NLS-1$
		case TokenNameUNSIGNED_RIGHT_SHIFT_EQUAL :
			return ">>>="; //$NON-NLS-1$
		case TokenNameOR_OR :
			return "||"; //$NON-NLS-1$
		case TokenNameAND_AND :
			return "&&"; //$NON-NLS-1$
		case TokenNamePLUS :
			return "+"; //$NON-NLS-1$
		case TokenNameMINUS :
			return "-"; //$NON-NLS-1$
		case TokenNameNOT :
			return "!"; //$NON-NLS-1$
		case TokenNameREMAINDER :
			return "%"; //$NON-NLS-1$
		case TokenNameXOR :
			return "^"; //$NON-NLS-1$
		case TokenNameAND :
			return "&"; //$NON-NLS-1$
		case TokenNameMULTIPLY :
			return "*"; //$NON-NLS-1$
		case TokenNameOR :
			return "|"; //$NON-NLS-1$
		case TokenNameTWIDDLE :
			return "~"; //$NON-NLS-1$
		case TokenNameDIVIDE :
			return "/"; //$NON-NLS-1$
		case TokenNameGREATER :
			return ">"; //$NON-NLS-1$
		case TokenNameLESS :
			return "<"; //$NON-NLS-1$
		case TokenNameLPAREN :
			return "("; //$NON-NLS-1$
		case TokenNameRPAREN :
			return ")"; //$NON-NLS-1$
		case TokenNameLBRACE :
			return "{"; //$NON-NLS-1$
		case TokenNameRBRACE :
			return "}"; //$NON-NLS-1$
		case TokenNameLBRACKET :
			return "["; //$NON-NLS-1$
		case TokenNameRBRACKET :
			return "]"; //$NON-NLS-1$
		case TokenNameSEMICOLON :
			return ";"; //$NON-NLS-1$
		case TokenNameQUESTION :
			return "?"; //$NON-NLS-1$
		case TokenNameCOLON :
			return ":"; //$NON-NLS-1$
		case TokenNameCOLON_COLON :
			return "::"; //$NON-NLS-1$
		case TokenNameCOMMA :
			return ","; //$NON-NLS-1$
		case TokenNameDOT :
			return "."; //$NON-NLS-1$
		case TokenNameEQUAL :
			return "="; //$NON-NLS-1$
		case TokenNameEOF :
			return "EOF"; //$NON-NLS-1$
		case TokenNameWHITESPACE :
			return "white_space(" + new String(getCurrentTokenSource()) + ")"; //$NON-NLS-1$ //$NON-NLS-2$
		default :
			return "not-a-token"; //$NON-NLS-1$
	}
}
public void unicodeInitializeBuffer(int length) {
	this.withoutUnicodePtr = length;
	if (this.withoutUnicodeBuffer == null) this.withoutUnicodeBuffer = new char[length+(1+10)];
	int bLength = this.withoutUnicodeBuffer.length;
	if (1+length >= bLength) {
		System.arraycopy(this.withoutUnicodeBuffer, 0, this.withoutUnicodeBuffer = new char[length + (1+10)], 0, bLength);
	}
	System.arraycopy(this.source, this.startPosition, this.withoutUnicodeBuffer, 1, length);
}
public void unicodeStore() {
	int pos = ++this.withoutUnicodePtr;
	if (this.withoutUnicodeBuffer == null) this.withoutUnicodeBuffer = new char[10];
	int length = this.withoutUnicodeBuffer.length;
	if (pos == length) {
		System.arraycopy(this.withoutUnicodeBuffer, 0, this.withoutUnicodeBuffer = new char[length * 2], 0, length);
	}
	this.withoutUnicodeBuffer[pos] = this.currentCharacter;
}
public void unicodeStore(char character) {
	int pos = ++this.withoutUnicodePtr;
	if (this.withoutUnicodeBuffer == null) this.withoutUnicodeBuffer = new char[10];
	int length = this.withoutUnicodeBuffer.length;
	if (pos == length) {
		System.arraycopy(this.withoutUnicodeBuffer, 0, this.withoutUnicodeBuffer = new char[length * 2], 0, length);
	}
	this.withoutUnicodeBuffer[pos] = character;
}

public static boolean isIdentifier(int token) {
	return token == TerminalTokens.TokenNameIdentifier;
}

public static boolean isLiteral(int token) {
	switch(token) {
		case TerminalTokens.TokenNameIntegerLiteral:
		case TerminalTokens.TokenNameLongLiteral:
		case TerminalTokens.TokenNameFloatingPointLiteral:
		case TerminalTokens.TokenNameDoubleLiteral:
		case TerminalTokens.TokenNameStringLiteral:
		case TerminalTokens.TokenNameCharacterLiteral:
			return true;
		default:
			return false;
	}
}

public static boolean isKeyword(int token) {
	switch(token) {
		case TerminalTokens.TokenNameabstract:
		case TerminalTokens.TokenNameassert:
		case TerminalTokens.TokenNamebyte:
		case TerminalTokens.TokenNamebreak:
		case TerminalTokens.TokenNameboolean:
		case TerminalTokens.TokenNamecase:
		case TerminalTokens.TokenNamechar:
		case TerminalTokens.TokenNamecatch:
		case TerminalTokens.TokenNameclass:
		case TerminalTokens.TokenNamecontinue:
		case TerminalTokens.TokenNamedo:
		case TerminalTokens.TokenNamedouble:
		case TerminalTokens.TokenNamedefault:
		case TerminalTokens.TokenNameelse:
		case TerminalTokens.TokenNameextends:
		case TerminalTokens.TokenNamefor:
		case TerminalTokens.TokenNamefinal:
		case TerminalTokens.TokenNamefloat:
		case TerminalTokens.TokenNamefalse:
		case TerminalTokens.TokenNamefinally:
		case TerminalTokens.TokenNameif:
		case TerminalTokens.TokenNameint:
		case TerminalTokens.TokenNameimport:
		case TerminalTokens.TokenNameinterface:
		case TerminalTokens.TokenNameimplements:
		case TerminalTokens.TokenNameinstanceof:
		case TerminalTokens.TokenNamelong:
		case TerminalTokens.TokenNamenew:
		case TerminalTokens.TokenNamenull:
		case TerminalTokens.TokenNamenative:
		case TerminalTokens.TokenNamepublic:
		case TerminalTokens.TokenNamepackage:
		case TerminalTokens.TokenNameprivate:
		case TerminalTokens.TokenNameprotected:
		case TerminalTokens.TokenNamereturn:
		case TerminalTokens.TokenNameshort:
		case TerminalTokens.TokenNamesuper:
		case TerminalTokens.TokenNamestatic:
		case TerminalTokens.TokenNameswitch:
		case TerminalTokens.TokenNamestrictfp:
		case TerminalTokens.TokenNamesynchronized:
		case TerminalTokens.TokenNametry:
		case TerminalTokens.TokenNamethis:
		case TerminalTokens.TokenNametrue:
		case TerminalTokens.TokenNamethrow:
		case TerminalTokens.TokenNamethrows:
		case TerminalTokens.TokenNametransient:
		case TerminalTokens.TokenNamevoid:
		case TerminalTokens.TokenNamevolatile:
		case TerminalTokens.TokenNamewhile:
			return true;
		default:
			return false;
	}
}

// Vanguard Scanner - A Private utility helper class for the scanner.
private static final class VanguardScanner extends Scanner {
	
	public VanguardScanner(long sourceLevel, long complianceLevel) {
		super (false /*comment*/, false /*whitespace*/, false /*nls*/, sourceLevel, complianceLevel, null/*taskTag*/, null/*taskPriorities*/, false /*taskCaseSensitive*/);
	}
	
	public int getNextToken() throws InvalidInputException {
		int token;
		if (this.nextToken != TokenNameNotAToken) {
			token = this.nextToken;
			this.nextToken = TokenNameNotAToken;
			return token; // presumed to be unambiguous.
		}
		token = getNextToken0();
		if (token == TokenNameAT && atTypeAnnotation()) {
			if (((VanguardParser) this.activeParser).currentGoal == Goal.LambdaParameterListGoal) {
				token = disambiguatedToken(token);
			} else {
				token = TokenNameAT308;
			}
		}
		return token == TokenNameEOF ? TokenNameNotAToken : token; 
	}
}

private static final class Goal {
	
	int first;      // steer the parser towards a single minded pursuit.
	int [] follow;  // the definite terminal symbols that signal the successful reduction to goal.
	int rule;

	static int LambdaParameterListRule = 0;
	static int IntersectionCastRule = 0;
	static int ReferenceExpressionRule = 0;
	static int VarargTypeAnnotationsRule  = 0;
	static int BlockStatementoptRule = 0;
	
	static Goal LambdaParameterListGoal;
	static Goal IntersectionCastGoal;
	static Goal VarargTypeAnnotationGoal;
	static Goal ReferenceExpressionGoal;
	static Goal BlockStatementoptGoal;
	
	static {
		
		for (int i = 1; i <= ParserBasicInformation.NUM_RULES; i++) {  // 0 == $acc
			if ("ParenthesizedLambdaParameterList".equals(Parser.name[Parser.non_terminal_index[Parser.lhs[i]]])) //$NON-NLS-1$
				LambdaParameterListRule = i;
			else 
			if ("ParenthesizedCastNameAndBounds".equals(Parser.name[Parser.non_terminal_index[Parser.lhs[i]]])) //$NON-NLS-1$
				IntersectionCastRule = i;
			else 
			if ("ReferenceExpressionTypeArgumentsAndTrunk".equals(Parser.name[Parser.non_terminal_index[Parser.lhs[i]]])) //$NON-NLS-1$
				ReferenceExpressionRule = i;
			else 
			if ("TypeAnnotations".equals(Parser.name[Parser.non_terminal_index[Parser.lhs[i]]])) //$NON-NLS-1$
				VarargTypeAnnotationsRule = i;
			else
			if ("BlockStatementopt".equals(Parser.name[Parser.non_terminal_index[Parser.lhs[i]]])) //$NON-NLS-1$
				BlockStatementoptRule = i;
					
		}
		
		LambdaParameterListGoal =  new Goal(TokenNameARROW, new int[] { TokenNameARROW }, LambdaParameterListRule);
		IntersectionCastGoal =     new Goal(TokenNameLPAREN, followSetOfCast(), IntersectionCastRule);
		VarargTypeAnnotationGoal = new Goal(TokenNameAT, new int[] { TokenNameELLIPSIS }, VarargTypeAnnotationsRule);
		ReferenceExpressionGoal =  new Goal(TokenNameLESS, new int[] { TokenNameCOLON_COLON }, ReferenceExpressionRule);
		BlockStatementoptGoal =    new Goal(TokenNameLBRACE, new int [0], BlockStatementoptRule);
	}


	Goal(int first, int [] follow, int rule) {
		this.first = first;
		this.follow = follow;
		this.rule = rule;
	}
	
	boolean hasBeenReached(int act, int token) {
		/*
		System.out.println("[Goal = " + Parser.name[Parser.non_terminal_index[Parser.lhs[this.rule]]] + "]  " + "Saw: " + Parser.name[Parser.non_terminal_index[Parser.lhs[act]]] + "::" +  //$NON-NLS-1$//$NON-NLS-2$ //$NON-NLS-3$ //$NON-NLS-4$
					Parser.name[Parser.terminal_index[token]]);
		*/
		if (act == this.rule) {
			final int length = this.follow.length;
			if (length == 0)
				return true;
			for (int i = 0; i < length; i++)
				if (this.follow[i] == token)
					return true;
		}
		return false;
	}
	
	private static int [] followSetOfCast() {
		return new int [] { TokenNameIdentifier, TokenNamenew, TokenNamesuper, TokenNamethis,
				TokenNamefalse, TokenNametrue, TokenNamenull, 
				TokenNameIntegerLiteral, TokenNameLongLiteral, TokenNameFloatingPointLiteral, TokenNameDoubleLiteral, TokenNameCharacterLiteral, TokenNameStringLiteral, 
				TokenNameNOT, TokenNameTWIDDLE, TokenNameLPAREN
		};
	}
}
// Vanguard Parser - A Private utility helper class for the scanner.
private static final class VanguardParser extends Parser {
	
	public static final boolean SUCCESS = true;
	public static final boolean FAILURE = false;
	
	Goal currentGoal;

	public VanguardParser(VanguardScanner scanner) {
		this.scanner = scanner;
	}
	
	// Canonical LALR pushdown automaton identical to Parser.parse() minus side effects of any kind, returns the rule reduced.
	protected boolean parse(Goal goal) {
		this.currentGoal = goal;
		try {
			int act = START_STATE;
			this.stateStackTop = -1;
			this.currentToken = goal.first; 
			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;

				act = Parser.tAction(act, this.currentToken);
				if (act == ERROR_ACTION) {
					return FAILURE;
				}
				if (act <= NUM_RULES) {
					this.stateStackTop--;
				} else if (act > ERROR_ACTION) { /* shift-reduce */
					this.unstackedAct = act;
					try {
					this.currentToken = this.scanner.getNextToken();
					} finally {
						this.unstackedAct = ERROR_ACTION;
					}
					act -= ERROR_ACTION;
				} else {
				    if (act < ACCEPT_ACTION) { /* shift */
				    	this.unstackedAct = act;
						try {
				    	this.currentToken = this.scanner.getNextToken();
						} finally {
							this.unstackedAct = ERROR_ACTION;
						}
						continue ProcessTerminals;
					}
				    return FAILURE; // accept - we should never reach this state, we accept at reduce with a right member of follow set below.
				}

				// ProcessNonTerminals :
				do { /* reduce */
					if (goal.hasBeenReached(act, this.currentToken))
						return SUCCESS;
					this.stateStackTop -= (Parser.rhs[act] - 1);
					act = Parser.ntAction(this.stack[this.stateStackTop], Parser.lhs[act]);
				} while (act <= NUM_RULES);
			}
		} catch (Exception e) {
			return FAILURE;
		}
	}
	public String toString() {
		return "\n\n\n----------------Scanner--------------\n" + this.scanner.toString(); //$NON-NLS-1$;
	}
}

private VanguardParser getVanguardParser() {
	if (this.vanguardParser == null) {
		this.vanguardScanner = new VanguardScanner(this.sourceLevel, this.complianceLevel);
		this.vanguardParser = new VanguardParser(this.vanguardScanner);
		this.vanguardScanner.setActiveParser(this.vanguardParser);
	}
	this.vanguardScanner.setSource(this.source);
	this.vanguardScanner.resetTo(this.startPosition, this.eofPosition - 1);
	return this.vanguardParser;
}

protected final boolean maybeAtLambdaOrCast() { // Could the '(' we saw just now herald a lambda parameter list or a cast expression ? (the possible locations for both are identical.)

	switch (this.lookBack[1]) {
		case TokenNameIdentifier:
		case TokenNamecatch:
		case TokenNamethis:
		case TokenNamesuper:
		case TokenNameif:
		case TokenNameswitch:
		case TokenNamewhile:
		case TokenNamefor:
		case TokenNamesynchronized:
		case TokenNametry:
			return false; // not a viable prefix for cast or lambda.
		default:
			return this.activeParser.atConflictScenario(TokenNameLPAREN);
	}
}
		

protected final boolean maybeAtReferenceExpression() { // Did the '<' we saw just now herald a reference expression's type arguments and trunk ?
	switch (this.lookBack[1]) {
		case TokenNameIdentifier:
			switch (this.lookBack[0]) {
				case TokenNameSEMICOLON:  // for (int i = 0; i < 10; i++);
				case TokenNameRBRACE:     // class X { void foo() {} X x = null; }
				case TokenNameclass:      // class X {}
				case TokenNameinterface:  // interface I {}
				case TokenNameenum:       // enum E {}
				case TokenNamefinal:      // final Collection
				case TokenNameLESS:       // Collection>
				case TokenNameGREATER:    // public  List foo() { /* */ }
				case TokenNameRIGHT_SHIFT:// static > List makeSingletonList(T t) { /* */ }
				case TokenNamenew:        // new ArrayList();
				case TokenNamepublic:     // public List foo() {}
				case TokenNameabstract:   // abstract List foo() {}
				case TokenNameprivate:    // private List foo() {}
				case TokenNameprotected:  // protected List foo() {}
				case TokenNamestatic:     // public static List foo() {}
				case TokenNameextends:    // >
				case TokenNamesuper:      // ? super Context
				case TokenNameAND:        // T extends Object & Comparable
				case TokenNameimplements: // class A implements I
				case TokenNamethrows:     // throws Y
				case TokenNameAT:         // @Deprecated  void foo() {} 
				case TokenNameinstanceof: // if (o instanceof List[])  
					return false;
				default:
					break;
			}
			break;
		case TokenNameNotAToken: // Not kosher, don't touch.
			break;
		default:
			return false;
	}
	return this.activeParser.atConflictScenario(TokenNameLESS);
}
private final boolean maybeAtEllipsisAnnotationsStart() { // Did the '@' we saw just now herald a type annotation on a ... ? Presumed to be at type annotation already.
	if (this.consumingEllipsisAnnotations)
		return false;
	switch (this.lookBack[1]) {
		case TokenNamenew:
		case TokenNameCOMMA:
		case TokenNameextends:
		case TokenNamesuper:
		case TokenNameimplements:
		case TokenNameDOT:
		case TokenNameLBRACE:
		case TokenNameinstanceof:
		case TokenNameLESS:
		case TokenNameAND:
		case TokenNamethrows:
			return false;
		default:
			return true;
	}
}
protected final boolean atTypeAnnotation() { // Did the '@' we saw just now herald a type annotation ? We should not ask the parser whether it would shift @308 !
	return !this.activeParser.atConflictScenario(TokenNameAT);
}

public void setActiveParser(ConflictedParser parser) {
	this.activeParser  = parser;
	this.lookBack[0] = this.lookBack[1] = TokenNameNotAToken;  // no hand me downs please.
}
int disambiguatedToken(int token) {
	final VanguardParser parser = getVanguardParser();
	if (token == TokenNameLPAREN  && maybeAtLambdaOrCast()) {
		if (parser.parse(Goal.LambdaParameterListGoal) == VanguardParser.SUCCESS) {
			this.nextToken = TokenNameLPAREN;
			return TokenNameBeginLambda;
		}
		this.vanguardScanner.resetTo(this.startPosition, this.eofPosition - 1);
		if (parser.parse(Goal.IntersectionCastGoal) == VanguardParser.SUCCESS) {
			this.nextToken = TokenNameLPAREN;
			return TokenNameBeginIntersectionCast;
		}
	} else if (token == TokenNameLESS && maybeAtReferenceExpression()) {
		if (parser.parse(Goal.ReferenceExpressionGoal) == VanguardParser.SUCCESS) {
			this.nextToken = TokenNameLESS;
			return TokenNameBeginTypeArguments;
		}
	} else if (token == TokenNameAT && atTypeAnnotation()) {
		token = TokenNameAT308;
		if (maybeAtEllipsisAnnotationsStart()) {
			if (parser.parse(Goal.VarargTypeAnnotationGoal) == VanguardParser.SUCCESS) {
				this.consumingEllipsisAnnotations = true;
				this.nextToken = TokenNameAT308;
				return TokenNameAT308DOTDOTDOT;
			}
		}
	}
	return token;
}

protected boolean isAtAssistIdentifier() {
	return false;
}

// Position the scanner at the next block statement and return the start token. We recognize empty statements.
public int fastForward(Statement unused) {
	
	int token;

	while (true) {
		try {
			token = getNextToken();
		} catch (InvalidInputException e) {
			return TokenNameEOF;
		}
		/* FOLLOW map of BlockStatement, since the non-terminal is recursive is a super set of its own FIRST set. 
	   	   We use FOLLOW rather than FIRST since we want to recognize empty statements. i.e if (x > 10) {  x = 0 }
		*/
		switch(token) {
			case TokenNameIdentifier:
				if (isAtAssistIdentifier()) // do not fast forward past the assist identifier ! We don't handle collections as of now.
					return token;
				//$FALL-THROUGH$
			case TokenNameabstract:
			case TokenNameassert:
			case TokenNameboolean:
			case TokenNamebreak:
			case TokenNamebyte:
			case TokenNamecase:
			case TokenNamechar:
			case TokenNameclass:
			case TokenNamecontinue:
			case TokenNamedefault:
			case TokenNamedo:
			case TokenNamedouble:
			case TokenNameenum:
			case TokenNamefalse:
			case TokenNamefinal:
			case TokenNamefloat:
			case TokenNamefor:
			case TokenNameif:
			case TokenNameint:
			case TokenNameinterface:
			case TokenNamelong:
			case TokenNamenative:
			case TokenNamenew:
			case TokenNamenull:
			case TokenNameprivate:
			case TokenNameprotected:
			case TokenNamepublic:
			case TokenNamereturn:
			case TokenNameshort:
			case TokenNamestatic:
			case TokenNamestrictfp:
			case TokenNamesuper:
			case TokenNameswitch:
			case TokenNamesynchronized:
			case TokenNamethis:
			case TokenNamethrow:
			case TokenNametransient:
			case TokenNametrue:
			case TokenNametry:
			case TokenNamevoid:
			case TokenNamevolatile:
			case TokenNamewhile:
			case TokenNameIntegerLiteral: // ??!
			case TokenNameLongLiteral:
			case TokenNameFloatingPointLiteral:
			case TokenNameDoubleLiteral:
			case TokenNameCharacterLiteral:
			case TokenNameStringLiteral:
			case TokenNamePLUS_PLUS:
			case TokenNameMINUS_MINUS:
			case TokenNameLESS:
			case TokenNameLPAREN:
			case TokenNameLBRACE:
			case TokenNameAT:
			case TokenNameBeginLambda:
			case TokenNameAT308:
				if(getVanguardParser().parse(Goal.BlockStatementoptGoal) == VanguardParser.SUCCESS)
					return token;
				break;
			case TokenNameSEMICOLON:
			case TokenNameEOF:
				return token;
			case TokenNameRBRACE: // simulate empty statement.
				ungetToken(token);
				return TokenNameSEMICOLON;
			default:
				break;
		}
	}
}
}




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